electronic storage compartment control systems and methods

专利摘要:
A storage compartment control system and method for a vehicle includes at least one storage compartment assembly that is configured to be selectively moved between an open position and a closed position, and a master control device that is separate and distinct from the storage compartment mounts. The master control device communicatively attaches to the storage bay assemblies and is configured to operate the storage bay assemblies.
公开号:BR102018004700A2
申请号:R102018004700-0
申请日:2018-03-09
公开日:2018-12-18
发明作者:Richard K. Simms；Stephen G. Dame；Mark L. Cloud；Todd D. Smith
申请人:The Boeing Company；
IPC主号:

专利说明:

Descriptive Report of the Invention Patent for SYSTEMS AND METHODS OF CONTROL OF ELECTRONIC STORAGE COMPARTMENTS.
Description Modalities Field [001] The modalities of the present description generally refer to internal cabins inside vehicles, such as commercial aircraft, and, more particularly, to systems and methods of controlling electronic storage compartments inside the internal cabs of vehicles .
Background to Description [002] Commercial aircraft typically include an internal cabin that can be divided into numerous sections. A flight deck is generally separate from a passenger cabin, which may include a first-class section, a business-class section, and an economy-class section. The passenger cabin may also include one or more work areas for the crew, such as galleys, which may include food and beverage storage facilities. One or more aisles pass through the passenger cabin and connect each of the passenger sections to one or more routes to one or more aircraft doors.
[003] The upper storage compartments are typically positioned above the rows of seats inside a commercial aircraft. Each upper storage compartment is configured to be moved between an open position and a closed position. In an open position, passengers can place their carry-on baggage in a movable compartment or bucket. Before the aircraft leaves a terminal, flight attendants ensure that each storage compartment is securely closed.
[004] In order to open a storage compartment, a
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2/60 an individual (such as a passenger or flight attendant) physically touches a lock on the storage compartment. For example, the individual grabs first and pulls the latch in order to manipulate the storage compartment to an open position. As can be appreciated, the lock on the storage compartment is touched by countless individuals many times. Consequently, various germs and bacteria can be present in the lock if the lock is not cleaned regularly. In addition, certain individuals may have difficulty grasping and handling the lock.
[005] Additionally, during a flight, flight attendants are generally unable to prevent passengers from opening storage compartments. At times when passengers should be securely buckled in their seats (such as during takeoff, landing or turbulent periods), a passenger has the ability to stand up and open a storage compartment, which can result in a dangerous situation. For example, during periods of turbulence, content inside an open storage compartment can fall into the aisle or even onto passengers.
Description Summary [006] There is a need to create an assembly of storage compartments that can be opened and closed without being touched by an individual. There is a need to create an assembly of storage compartments that can be controlled by the crew. There is a need to create a system and method to prevent passengers from opening storage compartment assemblies during restricted flight periods, such as during takeoff, landing and turbulence.
[007] With these needs in mind, certain modalities of the present description provide a control system of
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3/60 storage compartments for one vehicle. The storage compartment control system includes at least one assembly of storage compartments that is configured to be selectively moved between an open position and a closed position. A master control device is separate and distinct from the storage compartment assemblies. The master control device is communicatively coupled via a wireless connection to the storage compartment assemblies and is configured to operate the storage compartment assemblies.
[008] In at least one mode, the master control device is configured to automatically move the storage compartment assemblies between the open position and the closed position. Each storage compartment assembly includes a lock that is configured to selectively lock and unlock the storage compartment assembly. The master control device is configured to automatically lock and unlock the lock. The lock is operationally coupled to one or more locking mechanisms.
[009] In at least one embodiment, the master control device includes a master storage compartment control unit that is in communication with the storage compartment assemblies. One or more of the storage compartment assemblies may include a storage compartment control unit in communication with the master storage compartment control unit. The master control device can include a user interface that is configured to allow an individual to record commands. [0010] In at least one embodiment, a plurality of storage compartment assemblies are coupled
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4/60 communicative to the master control device. The master control device can simultaneously open or close the plurality of storage compartment assemblies. The master control device can open or close the plurality of storage compartment assemblies in a skewed manner. The master control device can synchronize the opening or closing of storage compartment assemblies with the effects of lighting, sounds, graphics and / or video. In at least one embodiment, the master control device is configured to transition the storage compartment assemblies to a manual disposal mode in which a user can manually open and close the storage compartment assemblies in response to the receipt of one or more error signs of storage compartment assemblies.
[0011] The storage compartment assemblies can be configured to send the report signals to the master control device. Reporting signals include data regarding health or operational status.
[0012] The assembly of storage compartments can include a proximity sensor that is configured to detect the presence of an object within a detection range. The proximity sensor can be mounted on an external surface of the storage compartment assembly. The proximity sensor can be configured to selectively switch the assembly of storage compartments between a locked state and an unlocked state.
[0013] The assembly of storage compartments may include one or more external light-emitting elements. The external light-emitting elements are configured to emit light to indicate a current situation for the assembly of weapon compartments
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5/60 zoning. The external light-emitting elements may be close to a lock on the storage compartment assembly.
[0014] The assembly of storage compartments can include a motion sensor that is configured to detect movement within a detection range. The motion sensor may be near a lock on the storage compartment assembly. The motion sensor can be configured to engage to automatically open or close the storage compartment assembly without an individual touching the storage compartment assembly.
[0015] The assembly of storage compartments can include one or more internal elements of light emission. The light-emitting elements can be arranged inside a baggage holding chamber in the assembly of storage compartments. The internal light-emitting elements can be configured to illuminate a baggage holding chamber in the assembly of storage compartments. The internal light-emitting elements can be configured to illuminate the baggage hold chamber when mounting storage compartments is in the open position, and can be disabled when mounting storage compartments is in the closed position. In at least one embodiment, the internal light-emitting elements emit light that gradually intensifies as the assembly of storage compartments is opened and emit light that gradually fades as the assembly of storage compartments is closed.
[0016] The storage compartment assembly may include a compartment position sensor that is configured to detect a position of the storage compartment assembly
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6/60 namento.
[0017] The assembly of storage compartments may include at least one touch sensor that is configured to be touched in order to lock, unlock, close and / or open the assembly of storage compartments.
[0018] The assembly of storage compartments can include at least one touch sensor that is configured to be touched in order to lock, unlock, close and / or open the assembly of storage compartments.
[0019] In at least one embodiment, the assembly of storage compartments includes a bucket having a front panel connected to a front end panel and a rear end panel. A baggage hold chamber is defined, at least in part, between the front panel, the front end panel and the rear panel. The front panel can include an arched panel having a curved outer surface.
[0020] Certain modalities of the present description provide a vehicle that includes an internal cabin, and a storage compartment control system. The storage compartment control system includes at least one assembly of storage compartments within the internal cabin. The assembly of storage compartments is configured to be selectively moved between an open position and a closed position. A master control device is separate and distinct from the assembly of storage compartments. The master control device is wirelessly coupled to the storage compartment assembly and is configured to operate the storage compartment assembly.
[0021] Certain modalities of the present description provide a method of controlling storage compartments
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7/60 for a vehicle. The storage compartment control method includes the wireless communicative coupling of a master control device to at least one storage compartment assembly within the vehicle, and the use of the master control device to operate the storage compartment assembly.
[0022] Certain embodiments of the present description provide an assembly of storage compartments for a vehicle. The assembly of storage compartments includes a lock that is configured to selectively lock and unlock the assembly of storage compartments. The assembly of storage compartments also includes one or more of a proximity sensor that is configured to detect the presence of an object, a motion sensor that is configured to detect movement within a detection range, or at least one sensor touch key that is configured to be touched in order to lock, unlock, close and / or open the storage compartment assembly.
[0023] The assembly of storage compartments can also include one or more external light-emitting elements. The external light-emitting elements are configured to emit light to indicate the current status of mounting storage compartments.
[0024] The storage compartment assembly may also include one or more internal light emitting elements configured to illuminate a baggage holding chamber in the storage compartment assembly, a compartment position sensor that is configured to detect a position assembly of storage compartments and / or a weight sensor that is configured to detect the weight of the assembly of
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8/60 storage compartments.
[0025] Certain embodiments of the present description provide a storage compartment assembly that includes a lock that is configured to selectively lock and unlock the storage compartment assembly, and a sensor communicating with the lock. The sensor is configured to be engaged to lock, unlock, open and / or close the assembly of storage compartments without the lock or the sensor being touched.
[0026] In at least one mode, the sensor includes a proximity sensor that is configured to detect the presence of an object within a detection range. In at least one embodiment, the sensor includes a motion sensor that is configured to detect movement within a detection range.
[0027] Certain embodiments of the present description provide a method of operating an assembly of storage compartments. The method includes the communicative coupling of a lock that is configured to selectively lock and unlock the storage compartment assembly to a sensor, and engage the sensor to lock, unlock, open or close the storage compartment assembly without the lock or lock. sensor to be touched.
[0028] Certain embodiments of the present description provide a storage compartment assembly that includes one or more internal light-emitting elements configured to illuminate a baggage holding chamber of the storage compartment assembly. The internal light-emitting elements can be arranged inside the baggage holding chamber of the assembly of storage compartments.
[0029] In at least one mode, the internal light emitting elements are configured to illuminate the holding chamber
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9/60 luggage when the storage compartment assembly is in an open position, and where one or more internal light emitting elements are disabled when the storage compartment assembly is in a closed position. The internal light-emitting elements can emit light that gradually intensifies as the storage compartment assembly is opened, and gradually fades as the storage compartment assembly is closed.
[0030] Certain embodiments of the present description provide a method of operating an assembly of storage compartments. The method includes lighting a baggage holding chamber in the assembly of storage compartments with one or more internal light-emitting elements.
[0031] Certain embodiments of the present description provide a storage compartment assembly that includes a weight sensor that is configured to detect the weight of the storage compartment assembly.
[0032] Certain embodiments of the present description provide a method of operating a storage compartment assembly that includes detecting a weight of the storage compartment assembly using a weight sensor of the storage compartment assembly.
Brief Description of the Drawings [0033] Figure 1 illustrates a front perspective view of an aircraft, according to one embodiment of the present description; [0034] Figure 2A illustrates a top plan view of an aircraft's internal cabin, according to one embodiment of the present description;
[0035] Figure 2B illustrates a top plan view of an aircraft's internal cabin, according to one embodiment of the present
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10/60 description;
[0036] Figure 3 illustrates an internal perspective view of an aircraft's internal cabin, according to one embodiment of the present description;
[0037] Figure 4 shows a front perspective view of an assembly of storage compartments in a closed position within an internal cabin, according to an embodiment of the present description;
[0038] Figure 5 illustrates a front perspective view of an assembly of storage compartments in an open position within an internal cabin, according to an embodiment of the present description;
[0039] Figure 6 shows a side perspective view of a row of seats inside an internal vehicle cabin, according to an embodiment of the present description;
[0040] Figure 7 shows a front view of a lock for an assembly of storage compartments, according to an embodiment of the present description;
[0041] Figure 8 illustrates a locking mechanism for an assembly of storage compartments, according to an embodiment of the present description;
[0042] Figure 9 illustrates a block diagram of a storage compartment control system, according to an embodiment of the present description;
[0043] Figure 10 illustrates a block diagram of an assembly of storage compartments, according to an embodiment of the present description;
[0044] Figure 11 illustrates a front view of a lock, according to an embodiment of the present description;
[0045] Figure 12 illustrates a circuit diagram of a unit
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11/60 control of storage compartments coupled to a lock, according to an embodiment of the present description;
[0046] Figure 13 illustrates a flow chart of a method of controlling storage compartments, according to one embodiment of the present description.
Detailed Description of the Invention [0047] The above summary, in addition to the following detailed description of certain modalities, will be better understood when read in conjunction with the attached drawings. As used here, an element or step mentioned in the singular and preceded by the word one or one, should be understood as not necessarily excluding the plural of the elements or steps. Additionally, references to a modality should not be interpreted as excluding the existence of additional modalities that also incorporate the mentioned characteristics. In addition, unless explicitly stated otherwise, modalities comprising or having an element or a plurality of elements having a particular property may include additional elements that do not have that property.
[0048] Certain modalities of the present description provide assemblies of storage compartments activated without touch. Storage compartment assemblies can be selectively moved between open and closed positions without an individual physically touching them. In addition, storage compartment assemblies can be controlled by one or more storage compartment control units. The storage compartment control units can be operated by the crew (such as a pilot or flight attendant) to prevent passengers from opening the storage compartment assemblies during restricted periods (such as
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12/60 m takeoff, landing, periods of turbulence, and the like).
[0049] In at least one mode, the assembly of storage compartments includes an electronic lock that is configured to be locked and opened automatically. In at least one embodiment, the lock includes a sensor (such as a proximity or motion sensor) that is configured to detect manual movement within a predefined detection range (such as 3 or 4 inches from the sensor (7.6 or 10.2 cm)). In this way, an individual can move a hand near the lock (such as six inches (15.3 cm) or less) to operationally engage the lock without physically touching the lock. Individuals can simply wave their hands in front of the latch to automatically open the storage compartment assembly.
[0050] A storage compartment control unit in communication with the locks of the storage compartment assemblies (such as through one or more wired or wireless connections) can be used to lock the locks, and prevent the locks from changing for open states. In this way, the crew can lock the locks to prevent passengers from opening the storage compartment assemblies. The storage compartment control unit can be inside a computer on board the aircraft, such as inside a workstation or control panel in a galley or a cockpit. In at least one other embodiment, the storage compartment control unit may be contained within a portable device, such as a portable smart device or a cell phone.
[0051] In at least one mode, the crew can pass a badge in front of the lock to configure the lock in a locked state. The lock may include one or more emission elements
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13/60 light (such as light emitting diodes - LEDs) that indicate whether the lock is locked or not. For example, in the locked state, a light emitting element can emit red light. In an unlocked state, the light emitting element can emit green light.
[0052] Certain embodiments of the present description provide an electronic storage compartment system that is wirelessly controllable. The storage compartment system includes a storage compartment assembly having a locking mechanism attached to a door, an electrical button on or near the storage compartment assembly to control the electrical lock, and an electrical drive system for at least assist with forces necessary to manipulate the compartment through at least part of its range of motion. In at least one embodiment, the crew can control one or all of the storage compartment assemblies from a control panel or a personal electronic device (PED), such as a portable control device, an electronic tablet, a cell phone , or other similar smart device. Passengers can also have limited control over the assembly of upper storage compartments from their PEDs.
[0053] Certain embodiments of the present description provide an upper storage compartment system that includes a plurality of wireless controlled features. The upper storage compartment system includes a plurality of storage compartment assemblies. One or more of the storage compartment assemblies includes an electronic lock, an electronic trigger, and an electronic proximal control. An electronic control device can be used to control the wirelessly controlled characteristics of the storage compartment assemblies.
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14/60 [0054] The wireless coupling of various components of the storage compartment system provides an assembly of light and spacious storage compartments. That is, targeting multiple wires within the assembly of storage compartments would take up space and also add weight.
[0055] In at least one embodiment, one or more of the storage compartment assemblies includes an electronic light source (such as one or more LEDs). The light source may be within a closed area of the storage compartment assembly. The light source can be configured to gradually illuminate and gradually fade, which coincides with the respective opening and closing movement of the compartment. The assembly of storage compartments may also include a sensor to determine an instantaneous position, such as the position of rotation of the compartment with respect to the aircraft.
[0056] The system can include pre-programmed control sequences for all or some of the characteristics, including the choreographed opening / closing of the compartments, and the automatic locking of the compartments during certain parts of a trip. At least some of the preprogrammed control sequences ensure compliance with safety requirements as enacted by the United States Federal Aviation Administration (FAA).
[0057] In at least one mode, the system changes from standard to manual elimination mode in which a user can manually open and close the compartment by physically manipulating the compartment.
[0058] In at least one mode, the storage compartment assemblies are programmable (for example, the locks can be programmed to lock or unlock in several
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15/60 moments). As an example, storage compartment assemblies can be programmed to open or close in a wave action, synchronized with cabin lighting, sound schemes and / or the like.
[0059] The proximal control button can be a capacitive touch surface that emits light. In at least one other mode, the proximal control button can include a proximity or motion sensor, in order to be activated by a wave of a hand, for example. In at least one other mode, the proximal control button can be configured to control speech.
[0060] Each storage compartment assembly can be configured to report information to a master control unit in order to indicate health and / or operational status, such as compartment capacity, maintenance needs, usage data that can speed up loading and unloading procedures and the like.
[0061] In at least one mode, at least part of the system is powered from a strip of energy and / or data.
[0062] The modalities of the present description provide storage compartment systems, methods and assemblies that provide several advantages, including: improved accessibility for people with reduced mobility; improved passenger experience; light and economical design; efficient, safe, aesthetic and ergonomic aircraft interiors; less aircraft shutdown time; shorter soil time; faster boarding and disembarking; increased compartment capacity (not limited by variable human strength / ergonomic limitations); operations facilitated for the crew - better service on board the aircraft; reduction of repetitive physical tasks of pushing and closing storage compartments, for example; and perPetition management 870180019071, of 03/09/2018, p. 22/146
16/60 feature of the aircraft's health.
[0063] Figure 1 illustrates a front perspective view of a vehicle, such as an aircraft 10, according to an embodiment of the present description. Aircraft 10 includes a propulsion system 12 which can include two turbofan engines 14, for example. Optionally, the propulsion system 12 can include more engines 14 than shown. The engines 14 are carried by wings 16 of the aircraft 10. In other embodiments, the engines 14 can be carried by a fuselage 18 and / or a warp 20. Warp 20 can also support horizontal stabilizers 22 and a vertical stabilizer 24.
[0064] Fuselage 18 of aircraft 10 defines an internal cabin, which may include a flight deck, one or more work sections (for example, galleys, personal carry-on areas, and the like), one or more sections for passengers (for example, first-class, business-class and economy-class sections), and a rear section. Each section can be separated by a cabin transition area. The upper storage compartment assemblies are positioned throughout the internal cabin.
[0065] Alternatively, instead of an aircraft, the modalities of this description can be used with several other vehicles, such as automobiles, buses, locomotives and train wagons, marine vehicles, space vehicles and the like.
[0066] Figure 2A illustrates a top plan view of an internal cabin 30 of an aircraft, according to an embodiment of the present description. The inner cabin 30 can be inside a fuselage 32 of the aircraft. For example, one or more elements of the fuselage wall may define the inner cabin 30. The inner cabin 30 includes multiple sections, including a front section 33, a first class section 34, a business class section 36, one this section
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17/60 front galley section 38, an expanded economy class section 40, a standard economy class section 42, and a rear section 44, which can include multiple galley sinks and stations. It should be understood that the inner cabin 30 may include more or less sections than shown. For example, inner cabin 30 may not include a first class section, and may include one or more galley stations than illustrated. Each of the sections can be separated by a cabin transition area 46, which can include class divider assemblies between the corridors 48.
[0067] As shown in figure 2A, the inner cabin 30 includes two aisles 50 and 52 leading to the rear section 44. Optionally, the inner cabin 30 can have fewer or more aisles than illustrated. For example, the inner cabin 30 may include a single aisle that extends through the center of the inner cabin 30 leading to the rear section 44.
[0068] One or more electrical signal distribution systems 200 can be attached to one or more structural components inside the internal cabin 30. As illustrated, each electrical signal distribution system 200 can run parallel to a longitudinal geometric axis 47 of the inner cabin 30. Optionally, electrical signal distribution systems 200 may not be parallel to longitudinal geometry axis 47. For example, at least one electrical signal distribution system 200 may span inner cabin 30 so that it is perpendicular to the axis longitudinal geometric 47. The internal cabin 30 may include more or less electrical distribution systems 200 than illustrated. For example, an electrical distribution system 200 can be positioned over each longitudinal section of seats on board an aircraft.
[0069] Electrical signal distribution systems 200 can range from a front section 33 to a rear section 44. Systems
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18/60 electrical signal distribution themes 200 can span the entire length of the internal booth 30. Optionally, electrical signal distribution systems 200 can span less than the entire length of the internal booth 30.
[0070] Electric signal distribution systems 200 can be fixed to various structural components inside the internal cabin 30. For example, electrical signal distribution systems 200 can be fixedly mounted to tilters, to hollow parts of the control unit. passenger service (PSU), storage compartments, PSU rails, floor element structure, ceiling structure, wall element structure, and / or the like. Electric signal distribution systems 200 are configured to provide electrical signals, such as power signals and / or data signals, to various electrical devices within the internal cabin, as described below.
[0071] Electrical signal distribution systems 200 are further described in a fundamental reference, U.S. Patent Application No. 15 / 287,949, entitled Systems and Methods for Providing Electrical Signals to Electrical Devices Within an Interior Cabin of a Vehicle.
[0072] Figure 2B illustrates a top plan view of an internal cabin 80 of an aircraft, according to an embodiment of the present description. The internal cabin 80 can be inside a fuselage 81 of the aircraft. For example, one or more fuselage wall elements may define the interior cabin 80. The interior cabin 80 includes multiple sections, including a main cabin 82 having passenger seats 83, and a rear section 85 behind main cabin 82. it is understood that the inner cabin 80 may include more or less sections than illustrated.
[0073] The internal cabin 80 can include a single aisle 84 leading to the rear section 85. The single aisle 84 can extend
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19/60 through the center of the interior cabin 80 leading to the rear section 85. For example, the single aisle 84 can be coaxially aligned with a central longitudinal plane 86 of the interior cabin 80. One or more signal distribution systems electric 200 can be attached to the structural components inside the internal cabin 80.
[0074] Figure 3 illustrates an internal perspective view of an internal cabin 100 of an aircraft, according to an embodiment of the present description. The inner cabin 100 includes outer wall elements 102 and a roof 104, which can include a plurality of roof panels. The windows 106 can be formed within the outer wall elements 102. A floor element 108 supports rows of seats 110. As shown in Figure 3, a row 112 can include more or less seats 110 than shown. In addition, the interior cabin 100 may include more aisles than illustrated.
[0075] Electrical devices such as PSUs 114 are trapped between an outer wall element 102 and the roof 104 on either side of aisle 113. PSUs 114 extend between a front end and a rear end of the inner cabin 100. For example, a PSU 114 can be positioned on each seat 110 within a row 112. Each PSU 114 can include a housing 116 that generally contains air vents for passengers, reading lights, an oxygen supply system (such as a suspended panel for oxygen masks), a button to call the flight attendant, and other controls on each seat 110 (or groups of seats) within a row 112.
[0076] The upper mounts of storage compartments 118 are attached to the structure near the ceiling 104 and / or outer wall element 102 above and into the PSU 114 on each side of the aisle 113. The mounts of storage compartments
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Top 20/60 to 118 are attached to seats 110. Top storage compartment assemblies 118 extend between the front and rear end of the inner cabin 100. Each storage compartment assembly 118 can include a locked compartment or bucket 120 articulated to a tipper (hidden from view in figure 3). The upper storage compartment assemblies 118 can be positioned above and inward from the lower surfaces of the PSUs 114. The upper storage compartment assemblies 118 are configured to be hinged and opened in order to receive hand luggage and items personal information, for example.
[0077] As used here, the term external means a position that is furthest from a central longitudinal plane 122 of the inner cabin 100 in comparison to another component. The term internal means a position that is closer to the central longitudinal plane 122 of the inner cabin 100 compared to another component. For example, a bottom surface of a PSU 114 may be external with respect to an assembly of storage compartments 118.
[0078] At least one electrical signal distribution system 200 (illustrated in figures 2A and 2B, but hidden from view in figure 3) can extend across an internal cabin length 100 and run parallel to the longitudinal plane 122. For For example, an electrical signal distribution system 200 can be mounted on pivots of the assembly of storage compartments 118. Optionally, the electrical signal distribution system 200 can be mounted on the PSU rails that hold the PSUs 114 in position. As another example, the electrical signal distribution system 200 can be mounted on parts of floor or roof structure.
[0079] Electrical devices 125 can be mounted on a balloon
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21/60 des 120 of storage compartment assemblies 118. As illustrated, electrical devices 125 can be attached to the external surfaces of buckets 120. Optionally, electrical devices 125 can be attached to the internal surfaces of buckets 120. In at least one modality, electrical devices 125 may be embedded in buckets 120. electrical device 125 may be one or more of an electric lock or latch, a loudspeaker, a lighting assembly (such as one or more light emitting diodes), a monitor (such as a video screen and / or touch screen), a fan, one or more sensors, and / or the like. Electrical devices can also be installed inside a hollow part of PSU, adjacent to the reading light panels, for example.
[0080] Fixture 125 in the form of an electric lock can be in several areas of bucket 120. For example, the latches can be on or near the middle of a front face of bucket 120, near the upper ends, lower ends , side and / or similar parts. In at least one embodiment, the latches may not be in bucket 120, but may be in a structural feature to which the storage compartment assemblies 118 are attached.
[0081] Figure 4 illustrates a front perspective view of an assembly of storage compartments 118 in a closed position within the inner cabin 100, according to an embodiment of the present description. The assembly of storage compartments 118 includes a bucket 120 having a front panel 126 connected to front and rear end panels (hidden from view in figure 4). As illustrated, the front panel 126 can be an arched panel having a curved outer surface that curves downwardly towards the outer wall element 102. As such, an upper part 128 of the front panel 126 is internal with respect to
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22/60 a lower part 130. Fixture 125 can be attached to and / or embedded in front panel 126. As noted, fixture 125 can be an electronic lock, a proximal control element (such as a button), a proximity or motion sensor and / or the like.
[0082] Figure 5 illustrates a front perspective view of the assembly of storage compartments 118 in an open position within the inner cabin 100, according to an embodiment of the present description. As illustrated, the front panel 126 is attached to a front end panel 132 and a rear end panel 134, which can generally be opposite and parallel to each other. Front panel 126 and rear panels 132 and 134 can also connect to a lower panel 136. The lower panel 136 can be a curved portion into front panel 126, for example. In at least one embodiment, a closure support 138 can span between end panels 132 and 134 and provide rigid support between them. The front panel 126 can be thicker than the end panels 132 and 134, since the front panel 126 is configured to directly support a weight of the luggage above. As such, front panel 126 may be increased in thickness to provide additional strength and support stiffness.
[0083] A baggage hold chamber 140 is defined between front panel 126, end panels 132 and 134, and bottom panel 136. Baggage hold chamber 140 is configured to receive luggage 142 when mounting compartments storage 118 is in the open position.
[0084] The end panels 132 and 134 are each hingedly attached to the fixed panels 144, just like the fixed panels of a tipper. That is, the fixed panels 144 can be part of a
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23/60 tipper inside the internal cabin 100.
[0085] A fundamental example of a storage compartment assembly is described in U.S. Patent Application No. 14 / 682,217, entitled Overhead Stowage Bin Assembly for a Vehicle. It should be understood, however, that several other types of storage compartment assemblies can be used with respect to the modalities of the present description. The assembly of storage compartments 118 shown in Figures 4 and 5, in addition to those described in U.S. Patent Application No. 14 / 682,217, are illustrative only.
[0086] Figure 6 illustrates a side perspective view of a row of seats 300 within an internal cabin 302 of a vehicle 304, according to an embodiment of the present description. The inner cabin 302 may include a first electrical signal distribution system 200a mounted on a floor element 305 of the inner cabin, a second electrical signal distribution system 200b mounted on a PSU rail 306 that supports PSUs 308 below the mounting frames. storage compartments 310, and a third electrical signal distribution system 200c mounted on a ceiling 308 of the internal cabin 302. Optionally, the internal cabin 302 can include less than all electrical signal distribution systems 200a, 200b and 200c.
[0087] As illustrated, the electrical signal distribution systems 200a, 200b, and 200c extend over an internal cabin length 302. The electrical signal distribution systems 200a, 200b and 200c are parallel to a longitudinal geometric axis center 311 of the internal cabin 302, or at least a part of it. Optionally, one or more electrical signal distribution systems can be oriented laterally with respect to the internal cabin 302, so that they are perpendicular to the longitudinal geometric axis
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Central 24/60 311.
[0088] Various electrical devices can be coupled to outputs 210 of the electrical signal distribution systems 200a, 200b and 200c. For example, the consoles 212a on the armrests 320 of the seats 300 can be electrically coupled to the electrical signal distribution system 200a. The 212a consoles can be or include a monitor, such as a monitor, a touch screen and / or the like. Optionally, 212a consoles can be mounted on rear surfaces of the seats. PSUs 308 and storage compartment locks 212b can be electrically coupled to the 200b electrical signal distribution system. Accentuated lighting mounts 212 and loudspeakers can be electrically coupled to the 200c electrical signal distribution system. Additionally, the 212d lighting assemblies can be electrically coupled to the 200b electrical distribution system.
[0089] In addition, the 212e microphones can be electrically coupled to the 200b electrical distribution system. Microphones 212e can be located throughout interior cabin 702 and allow a flight attendant to broadcast messages during a flight.
[0090] The 200a-c electrical signal distribution systems replace the wiring and beams traditionally used to connect electrical devices to power and data sources. Regularly spaced 210 outlets on the 208 PCBs allow quick and easy connection to various electrical devices throughout the internal 302 cab.
[0091] Figure 7 illustrates a front view of a lock 350 of an assembly of storage compartments 351, according to an embodiment of the present description. Latch 350 is an example of latch 212b illustrated in figure 6. Latch 350 is mounted on a front panel 355 of the storage compartment assembly 351. Optionally, latch 350 can be mounted on other
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25/60 parts of mounting storage compartments 351. Latch 350 includes an activation button 360 inside the latch button that includes an electric switch coupled to a locking mechanism (not shown in figure 7).
[0092] Figure 8 illustrates a locking mechanism 400 of the assembly of storage compartments 351, according to an embodiment of the present description. The locking mechanism 400 can be mounted on a side wall 410 of the bucket (such as bucket 120 illustrated in figures 4 and 5), a tilting or similar. The locking mechanism 400 may include a solenoid actuated element 420 that pushes the door of the aircraft's storage compartment and opens it upon activation, and may also include the locking elements used to keep the door closed when a passenger or crew member pushes the door to close it. A cable 430 can be attached between the electronic switch on lock 350 (shown in figure 3) and the locking mechanism 400. Optionally, the electronic switch on lock 350 and the locking mechanism can communicate over a wireless connection.
[0093] With reference to figures 7 and 8, when lock 350 is activated by a passenger or flight attendant, an electrical signal is passed through the electrical conductors on cable 430 from lock 350 to the locking mechanism 400 to make the locking mechanism 400 to push and open the door or bucket of the 351 storage compartment assembly.
[0094] A fundamental example of lock 350 and locking mechanism 400 is further described in U.S. patent application No. 14 / 542,265, entitled Self-Contained Electronic Stowage Bin Systems. As described in U.S. patent application No. 14 / 542,265, the assembly of storage compartments may include a system
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26/60 energy collection system and energy storage that are configured to supply energy to lock 350 and / or locking mechanism 400. In at least one other embodiment, lock 350 and / or locking mechanism 400 can be configured to receive power and / or data from an electrical distribution system 200 (illustrated in figures 2A, 2B and 6), as described in US Patent Application No. 15 / 287,949, entitled Systems and Methods for Providing Electrical Signals to Electrical Devices Within an Interior Cabin of a Vehicle. As another fundamental example, lock 350 and / or locking mechanism 400 can be configured to receive power and / or data through the systems and methods as described in US Patent Application No. 15 / 281,263, entitled Systems and Methods for Wirelessly Transmitting Electrical Signals to an Overhead Stowage Bin Assembly of a Vehicle. Alternatively, lock 350 and / or locking mechanism 400 can be configured to receive power and / or data through one or more wired connections.
[0095] Figure 9 illustrates a block diagram of a storage compartment control system 500, according to an embodiment of the present description. The storage compartment control system 500 includes a plurality of storage compartment assemblies 502 (such as any described herein) in communication with a master control device 501 that is separate and distinct from the storage compartment assemblies 502. The storage compartment assemblies 502 can be positioned within a vehicle, as described in the present application. The master control device 501 can also be located inside the vehicle, such as inside a cockpit, galley or similar. In at least one embodiment, the master control device 501 may be, or may be part of, a control panel and / or computer station
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27/60 tador inside the vehicle. In at least one other embodiment, the master control device 501 can be, or be part of, a portable device, such as a portable control device, an intelligent device, a smartphone, tablet and / or the like.
[0096] In at least one mode, the master control device 501 is communicatively coupled to all assemblies of storage compartments 502 within a vehicle. In at least one embodiment, the single master control device 501 is used to control the operation of multiple storage compartment assemblies 502. Optionally, the master control device 501 can be in communication with less than all of the storage compartment assemblies 502 storage inside a vehicle. The vehicle may include more or less assemblies of storage compartments 502 than shown in figure 9.
[0097] At least one of the storage compartment assemblies 502 includes a lock 506, a storage compartment control unit 508, and a communication device 510. The storage compartment control unit 508 is communicatively coupled to the locks 506 and communication device 510 through one or more wired or wireless connections. Optionally, the storage compartment assembly 502 may not include the storage compartment control unit 508.
[0098] Lock 506 is operationally coupled to one or more locking mechanisms (such as locking mechanism 400 illustrated in figure 8) that are configured to lock the assembly of storage compartments 502 in a closed position. For example, lock 506 can be operationally coupled to two locking mechanisms at opposite ends of the assembly
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28/60 of storage compartments 502. Optionally, lock 506 can be operationally coupled to a single locking mechanism. In addition, optionally, lock 506 can be operatively coupled to three or more locking mechanisms. [0099] Latch 506 can be in several locations in the assembly of storage compartments 502. For example, latch 506 can be in the middle of a front panel, above the front panel, below the front panel, to one side of the front panel , or the like. In at least one embodiment, the latch 506 can be located in a structure that is separate and distinct from the assembly of storage compartments 502.
[00100] The main control device 501 includes a housing 512 containing a master storage compartment control unit 514 communicatively coupled to a monitor 516, a user interface 518, and a communication device 510, such as via one or more wired or wireless connections. Monitor 516 can include a monitor, such as a touch screen monitor, an LED monitor, a liquid crystal display (LCD) monitor, a plasma monitor, and / or the like. Optionally, master control device 501 may not include monitor 516. User interface 518 may be or include a monitor touch screen surface, a separate touch screen surface, a keyboard, one or more buttons, or the like . User interface 518 allows an individual to record commands on the master control device 501. Monitor 516 is configured to allow the individual to interact with the master control device 501 in order to record commands, review the system status and / or similar.
[00101] The assembly of storage compartments 502 is communicatively coupled to the master control device 501 through the communication device 510, and the communication device
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29/60 510 connection of the master control unit 514 through one or more wired or wireless connections. Communication devices 510 and 518 can be or include antennas (such as radio antennas), transceivers, other wireless communication systems (such as WiFi), or the like that are configured to allow wireless communication between the control device master 501 and the storage compartment assemblies 502. Alternatively, the master control device 501 may be in communication with the storage compartment assemblies 502 via one or more wired connections.
[00102] In at least one mode, the master control device 501 communicates with the storage compartment assemblies 502 inside an aircraft through wireless connections. By wirelessly connecting the master control device 501 to the storage compartment assemblies 502, the aircraft is made substantially lighter, since there is no need to route the bundles of wires between the master control device 501 and the various mounting assemblies. 502 storage compartments. Consequently, the lightest aircraft consumes less fuel, thus saving costs. In addition, the space inside the aircraft is conserved since the wire bundles are not directed between the master control device 501 and the assemblies and storage compartments 502. Additionally, the manufacturing process is easier and cheaper, due to the lack wiring that would be routed between the master control device 501 and the storage compartment assemblies 502.
[00103] During the operation, an individual (such as a crew member) can control the operation of the storage compartment assemblies 502 via the master control device 501. For example, the individual can register a lock command on the
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30/60 master control device 501 via user interface 518. The master storage compartment control unit 514 receives the lock command and sends a lock control signal to one or more of the 502 storage compartment assemblies with based on the lock command record on the master control device 501. For example, the individual can register a lock command that locks all 502 storage compartment assemblies, or a subset of them.
[00104] The storage compartment assembly 502 receives the lock control signal from the master storage compartment control unit 514 via the communication device 510. In response to the received control signal, the storage compartment control unit 508 operates lock 506 to lock the storage compartment assembly 502, thereby preventing a passenger from opening the storage compartment assembly 502. Optionally, the storage compartment assemblies 502 may not include storage compartment control units. separate and distinct 508. Instead, the master storage compartment control unit 514 can control latch 506 without the intermediate storage compartment control unit 508.
[00105] As another example, an individual can register an unlock command on the master control device 501 via user interface 518. The master storage compartment control unit 514 receives the unlock command and sends a lock control signal. unlock for one or more of the storage compartment assemblies 502 based on the unlock command registered on the master control device 501.
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31/60 [00106] The storage compartment assembly 502 receives the unlock control signal from the master storage compartment control unit 514 via the communication device 510. In response to the received control signal, the storage control unit storage compartments 508 operates lock 506 to unlock the assembly of storage compartments 502, thereby allowing a passenger to open the assembly of storage compartments 502.
[00107] As another example, an individual can register an open command on the master control device 501 through user interface 518. The master storage compartment control unit 514 receives the open command and sends an alarm control signal. opening for one or more of the storage compartment assemblies 502 based on the opening command registered on the master control device 501.
[00108] The storage compartment assembly 502 receives the open control signal from the master storage compartment control unit 514 via the communication device 510. In response to the received control signal, the compartment control unit storage compartment 508 automatically opens the storage compartment assembly 502. For example, the storage compartment assembly 502 may include a drive 520 (which may include the locking mechanism 400 shown in figure 8, one or more motors, a hydraulic subsystem , a pneumatic subsystem, an electrical opening system and / or the like) that is configured to automatically open the 502 storage compartment assembly when commanded. The driver 520 is communicatively coupled to the storage compartment control unit 508, which controls the operation of the driver 520. In at least one other mode
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32/60 de, the driver 520 can be configured to be controlled directly by the master storage compartment control unit 514, based on the control signals received from the master storage compartment control unit 514.
[00109] As another example, an individual can register a shutdown command on master control device 501 through user interface 518. Master storage compartment control unit 514 receives the shutdown command and sends a shutdown control signal. shutdown for one or more of the storage compartment assemblies 502 based on the shutdown command registered on the master control device 501.
[00110] The storage compartment assembly 502 receives the shutdown control signal from the master storage compartment control unit 514 via the communication device 510. In response to the received control signal, the compartment control unit storage compartment 508 automatically closes the storage compartment assembly 502. For example, the storage compartment assembly 502 can control the driver 520 to automatically close the storage compartment assembly 502 when commanded.
[00111] In at least one embodiment, the master storage compartment control unit 514 can be programmed to automatically lock, unlock, open and close the storage compartment assemblies 502. For example, the storage compartment control unit master 514 can be in communication with a flight computer, and operate the master 514 storage compartment control unit based on various stages of travel (such as takeoff, landing,
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33/60 periods of turbulence, taxi, parking at a door, etc.). [00112] The master storage compartment control unit 514 and / or the storage compartment control units 508 can be programmed having control sequences for all or some of the functions described in this application, including the choreographed opening / closing of the compartments, and the automatic locking of compartments during certain parts of a trip. For example, the master storage compartment control unit 514 can operate to simultaneously open and / or close all 502 storage compartment assemblies on board the vehicle. In at least one other embodiment, the master storage compartment control unit can operate to open and / or close in a synchronized and / or skewed manner. As such, all 502 storage compartment assemblies may not close or open at the same time, which may otherwise consume greater amounts of energy and / or generate greater amounts of noise. In at least one embodiment, the master control device 501 and / or the storage compartment assemblies 502 are programmed to open or close in a wave action, which may or may not be synchronized with the cabin lighting, sound schemes and / or similar. For example, 502 storage compartment assemblies can be opened or closed with respect to the lighting effects emitted by the lights in the interior cabin, sound signals emitted by the internal speakers, and / or video or graphics displayed on one or more monitors inside the interior. internal cabin. In addition, pre-programmed control sequences ensure compliance with safety requirements as enacted by the United States Federal Aviation Administration (FAA).
[00113] In at least one modality, the 500 system changes
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34/60 standard form for a manual disposal mode in which a user can manually open and close the compartment. For example, if the master storage compartment control unit 514 receives error signals from one or more storage compartment control units 508, the master storage compartment control unit 514 can configure the storage compartment assemblies 502 to standard mode.
[00114] The storage compartment control unit 508 of each assembly of storage compartments 502 can be configured to report information to the master storage compartment control unit 514 in order to indicate the health or situation, such as the situation of compartment capacity, need for maintenance and / or usage data that can speed up loading and unloading procedures. For example, the storage compartment control unit 508 can monitor the assembly of storage compartments 502 and send a report signal to the master storage compartment control unit 514. The report signal includes health or status data of mounting 502 storage compartments.
[00115] As used here, the term control unit, central processing unit, CPU, computer or the like can include any processor or microprocessor based system including systems using microcontrollers, computers with a reduced instruction set (RISC), circuits application-specific integrated systems (ASICs), logic circuits, and any other circuit or processor including hardware, software, or a combination of them capable of performing the functions described here. These are illustrative only, and therefore should not limit
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35/60 in any way the definition and / or the meaning of such terms. For example, the master storage compartment control unit 514 and the storage compartment control units 508 can be or include one or more processors that are configured to control operations as described here. [00116] Each of the master storage compartment control units 514 and the storage compartment control units 508 is configured to execute a set of instructions that are stored in one or more data storage units or elements (such as as one or more memories) in order to process data. For example, each of the master storage compartment control units 514 and the storage compartment control units 508 can include or be coupled to one or more memories. Data storage units can also store data or other information, as desired or necessary. The data storage units can be in the form of an information source or an element of physical memory within a processing machine.
[00117] The instruction set can include several commands that instruct each of the master storage compartment control units 514 and the storage compartment control units 508 as a processing machine to perform specific operations such as methods and processes of the various examples of the present matter described here. The instruction set can be in the form of a software program. The software can be in various forms such as system software or application software. Additionally, the software may be in the form of a collection of separate programs, a subset of programs within a larger program, or a portion of
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36/60 a program. The software can also include modular programming in the form of object-oriented programming. The processing of input data by the processing machine can occur in response to user commands, in response to the results of the previous processing, or in response to a request made by another processing machine.
[00118] The diagrams in the examples presented here can illustrate one or more control or processing units, such as the master storage compartment control unit 514 and the storage compartment control units 508. It should be understood that the units processing or control systems can represent circuits, circuit assemblies, or parts of them that can be implemented as hardware with associated instructions (for example, software stored on a tangible, non-transitory, computer-readable storage medium, such as a hard disk computer, ROM, RAM or similar) that perform the operations described here. The hardware may include a set of wire-connected state machine circuits to perform the functions described here. Optionally, the hardware may include electronic circuits that include and / or are connected to one or more devices based on logic, such as microprocessors, processors, controllers or the like. Optionally, each of the master storage compartment control units 514 and the storage compartment control units 508 can represent a set of processing circuits such as one or more of a field programmable port (FPGA) set, circuit application-specific integrated system (ASIC), microprocessors and / or the like. The circuits in several examples can be configured to execute one or more algorithms to perform the functions described here. The one or more algorithms
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37/60 may include aspects of the examples described here, whether or not expressly identified in a flowchart or method.
[00119] As used here, the terms software and firmware are interchangeable, and include any computer program stored on a data storage unit (for example, one or more memories) for execution by a computer, including RAM, ROM , EPROM memory, EEPROM memory, and non-volatile RAM (NVRAM). The types of data storage units above are illustrative only, and are therefore not limiting the types of memory usable for storing a computer program.
[00120] Figure 10 illustrates a block diagram of an assembly of storage compartments 502, according to an embodiment of the present description. The assembly of storage compartments 502 is an example of the assembly of storage compartments described above with respect to figures 1 to 9. The assembly of storage compartments 502 may or may not be communicatively coupled to the master control device 501 illustrated in figure 9 .
[00121] In at least one embodiment, the mounting of storage compartments 502 includes a proximity sensor 522 that is configured to detect the presence of a nearby object, such as within a detection range of less than six inches (15 , 3 cm). The proximity sensor 522 can be mounted on an external surface of the storage compartment assembly 502, such as on the front panel 126 of bucket 120 (shown in figure 4). In at least one embodiment, the proximity sensor 522 can be a radio frequency identification sensor and / or reader. The proximity sensor 522 can be mounted in the assembly of storage compartments 502 close to the latch 506.
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38/60
In at least one embodiment, the proximity sensor 522 contacts or forms part of the lock 506.
[00122] In at least one mode, the crew can place a badge, such as an RFID badge, within a detection range of the 522 proximity sensor. The crew can move the RFID badge near the 522 sensor to set the 506 lock. to a locked state, so that the storage compartment assembly 502 cannot be opened. When in the locked state, one or more external light emitting elements 524 (such as LEDs), which may be close to or connected to the lock 506, may emit light in a particular color indicating a locked state. For example, when a passenger tries to open the storage compartment assembly 502, such as pressing the latch 506, the light emitting elements 524 may emit a red light. In at least one other embodiment, the light emitting elements 524 can be arranged on a monitor and configured to emit light in text patterns. For example, light emitting elements 524 can operate to indicate an illuminated LOCKED message.
[00123] In order to allow the assembly of storage compartments 502 to be opened by passengers, the flight attendant can again pass the RFID badge close to proximity sensor 522, which transits lock 506 back to an unlocked state. The external light emitting elements 524 can then emit light (such as green light) or text (such as UNLOCKED) to indicate that the storage compartment assembly 502 is unlocked. Optionally, mounting storage compartments 502 may not include proximity sensor 522.
[00124] In at least one embodiment, the assembly of storage compartments 502 may include a motion sensor
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39/60
526 near latch 506. Motion sensor 526 can connect to latch 506, or can be mounted on latch 506. Motion sensor 526 is configured to detect movement within a detection range, such as six inches (15 , 3 cm) of latch 506. Motion sensor 526 can be an ultrasonic sensor, an infrared sensor, or the like.
[00125] During operation, motion sensor 526 can be engaged to automatically open the storage compartment assembly 502 without an individual touching latch 506 or another part of the storage compartment assembly 502. For example, when an individual wave a hand in the detection range of motion sensor 526, motion sensor 526 sends an open signal to the storage compartment control unit 508, trigger 520, and / or lock 506. The open signal does with the actuator 520 to open the assembly of storage compartments 502 without manual intervention. In at least one embodiment, when the assembly of storage compartments 502 is in an open state, an object (such as a hand) that passes within the detection range of the motion sensor 526 causes the driver 520 to automatically close the assembly 502 storage compartments without manual intervention. Optionally, mounting storage compartments 502 may not include motion sensor 526.
[00126] In at least one embodiment, the assembly of storage compartments 502 may include one or more internal light emitting elements 528, such as one or more LEDs. In at least one embodiment, the storage compartment control unit 508 is configured to operate the internal light emitting elements 528 (and / or external light emitting elements 524). The internal light emitting elements 528 may be located
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40/60 section of the assembly of storage compartments 502, such as inside the baggage holding chamber 144 shown in figure 5, attached to a tipper or the like. The internal light-emitting elements 528 are configured to illuminate the baggage-holding chamber 144. For example, when the storage compartment assembly 502 is opened, the internal light-emitting elements 528 can illuminate the interior of the compartment assembly open storage compartment 502. When the storage compartment assembly 502 is closed, the light emitting elements 528 deactivate. The storage compartment control unit 508 can be configured to operate the internal light emitting elements 528 based on whether the storage compartment assembly 502 is open or closed. In at least one other embodiment, the internal light emitting elements 528 can be controlled by a switch that is in communication with the driver 520 and / or the lock 506.
[00127] In at least one embodiment, the internal light emitting elements 528 can emit light that gradually intensifies as the assembly of storage compartments 502 is opened. In addition, the internal light emitting elements 528 can emit light that gradually fades and stops as the storage compartment assembly 502 is closed. Optionally, the mounting of storage compartments 502 may not include the internal light emitting elements 528.
[00128] In at least one embodiment, the storage compartment assembly 502 may include a compartment position sensor 530 in communication with the storage compartment control unit 508, such as through one or more wired or wireless connections . The 530 compartment position sensor can be one or more of an accelerometer, an encoder,
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41/60 an angular position detector, a load sensor, a spatial integrating sensor and / or the like that is configured to detect a position of the storage compartment assembly 502 (such as in a closed state or an open state). The storage compartment control unit 508 receives one or more signals from the compartment position sensor 530 to determine the position of the storage compartment assembly 502. The master control device 501 (shown in figure 9) can communicate with the storage compartment control unit 508 and determine the position of the storage compartment assembly 502 and other storage compartment assemblies within a vehicle. Optionally, the storage compartment assembly 502 may not include the compartment position sensor 530.
[00129] In at least one embodiment, the assembly of storage compartments 502 may include a weight sensor 532, such as an electronic scale, communicatively coupled to the storage compartment control unit 508, such as through one or more wired or wireless connections. The weight sensor 532 is configured to detect the weight of the storage compartment assembly 502. The storage compartment control unit 508 (and / or the master storage compartment control unit 514 shown in figure 9) monitors signals sent by the weight sensor 532 and compares them with one or more weight limits stored in a memory. For example, if the weight of the storage compartment assembly 502 exceeds a maximum weight limit (due to the amount of luggage inside the storage compartment assembly 502), the storage compartment control unit 508 can send an alert, such as as for the control device
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42/60 master trolley 501 (illustrated in figure 9) indicating that at least part of the contents of the storage compartment assembly 502 must be removed. As another example, in response to the weight of the storage compartment assembly 502 being under a predetermined range of the maximum weight limit, the storage compartment control unit 508 can operate the driver 520 to automatically close the storage compartment assembly 502 and operate lock 506 to a locked position. [00130] In at least one embodiment, the weight sensor 522 is securely coupled to a part of the storage compartment assembly 502. For example, the weight sensor 522 can be mounted on the front panel 126 (illustrated, for example, in figure 5), an end panel 132 and / or 134 (illustrated, for example, in figure 5). The weight sensor 522 can be securely mounted to an internal or external surface of the front panel 126, or an end panel 132 and / or 134. In at least one embodiment, the weight sensor 522 can be embedded within a part of the storage compartment assembly 502, such as inside the front panel 126, end panel 132 and / or end panel 134.
[00131] In at least one embodiment, the assembly of storage compartments 502 may also include at least one touch sensor 534, such as a touch screen interface, a capacitive sensor, an acoustic wave sensor, and / or the like . The touch sensor 534 is communicatively coupled to one or both of the storage compartment control unit 508 and / or the lock 506, and is configured to be touched (such as by pressing, sliding or similar). When engaged, the touch sensor 534 sends a signal to the storage compartment control unit 508 and / or lock 506 that selectively locks the
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43/60 locks 506, unlocks lock 506, or opens the assembly of storage compartments 502.
[00132] Figure 11 shows a front view of lock 506, according to an embodiment of the present description. Figure 11 illustrates an example of lock 506. However, lock 506 can be sized and shaped differently from what was shown in figure 11. For example, lock 350 shown in figure 7 can be used.
[00133] Lock 507 may include a latch button 507 secured within a frame or housing 509. A cover 511 and / or space above latch button 507 can contain and / or cover motion sensor 526, the motion sensor proximity 522 and / or the external light-emitting elements 524 illustrated and described with reference to figure 10. In at least one embodiment, the light-emitting elements 524 can be mounted inside the engagement button 507.
[00134] Figure 12 illustrates a circuit diagram of a storage compartment control unit 508 coupled to a latch 506, according to an embodiment of the present description. Lock 506 may include or may be otherwise coupled to one or more locking mechanisms, such as locking mechanisms 600 and 602. For example, a storage compartment assembly may include a left or front locking mechanism and a right or rear locking mechanism. Locking mechanisms 600 and 602 can include respective solenoids 604 and 606 which are coupled to respective switches 608 and 610. The storage compartment control unit 508 is configured to operate solenoids 604 and 606 to open the storage compartment assembly. based on registered commands.
[00135] The storage compartment control unit 508 can monitor the signals received from the
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44/60 locking 600 and 602 to determine if the mounting of storage compartments 502 is in a desired position. For example, if the storage compartment assembly 502 needs to be in an open position, but the storage compartment assembly 502 receives conflicting signals from the locking mechanisms 600 and 602, the storage compartment control unit 508 can determine a condition error (such as a malfunctioning locking mechanism). The storage compartment control unit 508 can send an error signal, which can be illustrated in the assembly of storage compartments 502 (such as via external light emitting elements 524) to the master control device 501.
[00136] Figure 12 illustrates an example of the storage compartment control unit 508 with respect to lock 506. The storage compartment control unit 508 can be operationally coupled to the lock in several other ways. For example, lock 506 may include or be coupled to only one locking mechanism. In at least one other embodiment, instead of or in addition to the solenoids, the locking mechanisms can include motors that are configured to open and close the 502 storage compartment assembly.
[00137] Figure 13 illustrates a block diagram of a method of controlling storage compartments, according to an embodiment of the present description. With reference to figures 9 and 13, the method starts at 700, where the master control device 501 is communicatively coupled to a plurality of storage compartment assemblies 502. For example, the master storage compartment control unit 514 of the master control device 501 is in communication with the units
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45/60 storage compartment control 508 of storage compartment assemblies, such as via wireless communication.
[00138] Next, in 702, the master control device 501 monitors the status of the storage compartment assemblies 502. For example, the master storage compartment control unit 514 receives signals sent from the storage compartment assemblies 502 (such as through storage compartment control units 508) to determine whether latches 506 are locked or unlocked, storage compartment assemblies 502 are open or closed, the capacity of storage compartment assemblies 502 and / or similar.
[00139] In 704, the master control storage compartment control unit 514 determines whether one or more of the storage compartment mounts 704 should be locked. For example, the crew can register a lock command on the master storage compartment control unit 514, or the master storage compartment control unit 514 can detect a condition (such as during a restricted phase, in particular, of a flight) that triggers a locking command. If the storage compartment mounts need to be locked, the master storage compartment control unit 514 sends a lock command signal that automatically locks one or more of the 502 storage compartment mounts at 706. The method then returns to 702.
[00140] If, however, the storage compartment mounts 704 do not need to be triggered to a locked position (such as if they are already locked), or if there is no need
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46/60 the ability to lock the 502 storage compartment assemblies at 704, the method proceeds to 708, where the master storage compartment control unit 514 determines whether the storage compartment assemblies should be unlocked at 708. For example, the crew can register an unlock command on the master storage compartment control unit 514, or the master storage compartment control unit 514 can detect a condition that triggers an unlock command (such as after an aircraft has parked at a gate).
[00141] If the 502 storage compartment mounts need to be unlocked at 708, the method proceeds to 710, where the 514 master storage compartment control unit automatically unlocks one or more of the 502 storage compartment mounts. The method, then it returns to 702.
[00142] If, in 708, the storage compartment assemblies are already unlocked, or do not need to be unlocked, the method proceeds to 712, where the master storage compartment control unit 514 determines whether the storage compartment assemblies 502 should be automatically opened, such as when an aircraft is parked at a gate. If storage compartment assemblies 502 need to be opened, the method proceeds to 714, where the master storage compartment control unit 514 automatically opens one or more of the storage compartment assemblies 502. The method then returns to 702.
[00143] If in 712 the storage compartment assemblies are already open, or do not need to be opened, the method
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47/60 do proceed to 716, where the master storage compartment control unit 514 determines whether the storage compartment assemblies 502 should be closed, such as when an aircraft is taxiing to a runway in order to take off. If the storage compartment assemblies 502 need to be closed, the method proceeds to 718, where the master storage compartment control unit 514 automatically closes one or more of the storage compartment assemblies 502. The method then returns to 702 If, however, the 502 storage compartment assemblies do not need to be closed, the method returns to 702.
[00144] Steps 704, 708, 712 and 716 can occur in an order different from that illustrated. For example, the master storage compartment control unit 502 can analyze steps 704, 708, 712 or 716 simultaneously.
[00145] Additionally, the description includes the modalities according to the following clauses:
[00146] Clause 1. A storage compartment control system (500) for a vehicle, the storage compartment control system (500), comprising:
[00147] at least one assembly of storage compartments (502) which is configured to be selectively moved between an open position and a closed position; and [00148] a master control device (501) that is separate and distinct from at least one assembly of storage compartments (502), where the master control device (501) is communicatively coupled via a wireless connection to at least at least one storage compartment assembly (502) and is configured to operate at least one storage compartment assembly (502).
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48/60 [00149] Clause 2. The storage compartment control system (500), according to clause 1, in which the master control device (501) is configured to automatically move at least one compartment assembly (502) between the open position and the closed position.
[00150] Clause 3. The storage compartment control system (500), according to clause 1, in which at least one assembly of storage compartments (502) comprises a lock (350) that is configured to lock and selectively unlocking at least one storage compartment assembly (502), where the master control device (501) is configured to automatically lock and unlock the lock (350).
[00151] Clause 4. The storage compartment control system (500), according to clause 3, in which the lock (350) is operationally coupled to one or more locking mechanisms (400).
[00152] Clause 5. The storage compartment control system (500), according to clause 1, in which the master control device (501) comprises a master storage compartment control unit (508) that is in communication with at least one assembly of storage compartments (502).
[00153] Clause 6. The storage compartment control system (500), according to clause 5, in which the at least one storage compartment assembly (502) comprises a storage compartment control unit (508 ) in communication with the master storage compartment control unit (508).
[00154] Clause 7. The compartment control system of
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49/60 storage (500), according to clause 1, in which the master control device (501) comprises a user interface configured to allow an individual to register commands.
[00155] Clause 8. The storage compartment control system (500), according to clause 1, in which the at least one storage compartment assembly (502) comprises a plurality of storage compartment assemblies (502 ) communicatively coupled to the master control device (501).
[00156] Clause 9. The storage compartment control system (500), according to clause 8, in which the master control device (501) is configured to simultaneously open and close the plurality of storage compartment assemblies (502).
[00157] Clause 10. The storage compartment control system (500), according to clause 8, in which the master control device (501) is configured to open or close the plurality of storage compartment assemblies ( 502) in a skewed manner.
[00158] Clause 11. The storage compartment control system (500), according to clause 8, in which the master control device (501) is configured to synchronize the opening or closing of the plurality of compartment assemblies of (502) with one or more lighting, sounds, graphics or video effects.
[00159] Clause 12. The storage compartment control system (500), according to clause 1, in which the master control device (501) is configured to carry over at least one storage compartment assembly (502 ) in a manual wipe mode in which a user can open and close
Petition 870180019071, of 03/09/2018, p. 56/146
50/60 manually mounting the storage compartments (502) in response to receiving one or more error signals from at least one storage compartment assembly (502). [00160] Clause 13. The storage compartment control system (500), according to clause 1, in which at least one assembly of storage compartments (502) is configured to send a report signal to the device master control (501), where the report signal includes data regarding health or operational status.
[00161] Clause 14. The storage compartment control system (500), according to clause 1, in which at least one storage compartment assembly (502) comprises a proximity sensor that is configured to detect the presence of an object within a detection range.
[00162] Clause 15. The storage compartment control system (500), according to clause 14, in which the proximity sensor is mounted on an external surface of at least one storage compartment assembly (502).
[00163] Clause 16. The storage compartment control system (500), according to clause 14, in which the proximity sensor is configured to selectively switch to at least one assembly of storage compartments (502) between a locked state and unlocked state.
[00164] Clause 17. The storage compartment control system (500) according to clause 1, in which at least one storage compartment assembly (502) comprises one or more external light emitting elements, wherein one or more of the external light-emitting elements are configured to emit light to indicate a current status of mounting storage compartments (502).
Petition 870180019071, of 03/09/2018, p. 57/146
51/60 [00165] Clause 18. The storage compartment control system (500), according to clause 17, in which one or more external light-emitting elements are close to a lock (350) of the mounting of storage compartments (502).
[00166] Clause 19. The storage compartment control system (500), according to clause 1, in which the at least one storage compartment assembly (502) comprises a motion sensor that is configured to detect the movement within a detection range.
[00167] Clause 20. The storage compartment control system (500), according to clause 19, in which the motion sensor is close to a lock (350) of the storage compartment assembly (502).
[00168] Clause 21. The storage compartment control system (500), according to clause 19, in which the motion sensor is configured to be engaged to automatically open or close at least one assembly of storage compartments (502) without an individual touching at least one assembly of storage compartments (502).
[00169] Clause 22. The storage compartment control system (500), according to clause 1, in which at least one assembly of storage compartments (502) comprises one or more internal light emitting elements.
[00170] Clause 23. The storage compartment control system (500), in accordance with clause 22, in which the one or more light emitting elements are arranged inside a baggage holding chamber of at least one assembly of storage compartments (502).
[00171] Clause 24. The storage compartment control system (500), in accordance with clause 22, in which one or more
Petition 870180019071, of 03/09/2018, p. 58/146
52/60 plus internal light-emitting elements are configured to illuminate the baggage holding chamber of at least one assembly of storage compartments (502).
[00172] Clause 25. The storage compartment control system (500), according to clause 24, in which one or more internal light-emitting elements are configured to illuminate the baggage hold chamber when at least an assembly of storage compartments (502) is in the open position, and in which one or more internal light-emitting elements are deactivated when at least one assembly of storage compartments (502) is in the closed position.
[00173] Clause 26. The storage compartment control system (500), according to clause 24, in which one or more internal light emitting elements emit light that gradually intensifies as at least one assembly of storage compartments (502) is opened, and in which one or more internal light-emitting elements emit light that gradually fades as at least one assembly of storage compartments (502) is closed.
[00174] Clause 27. The storage compartment control system (500), according to clause 1, in which at least one storage compartment assembly (502) comprises a compartment position sensor that is configured to detecting a position of at least one assembly of storage compartments (502).
[00175] Clause 28, The storage compartment control system (500), according to clause 1, in which at least one assembly of storage compartments (502) comprises a weight sensor that is configured to detect the weight of at least one assembly of storage compartments
Petition 870180019071, of 03/09/2018, p. 59/146
53/60 ment (502).
[00176] Clause 29. The storage compartment control system (500) according to clause 1, in which at least one storage compartment assembly (502) comprises at least one touch sensor that is configured to be touched to lock, unlock, close or open the assembly of storage compartments (502).
[00177] Clause 30. The storage compartment control system (500), according to clause 1, in which the at least one storage compartment assembly (502) comprises a bucket having a front panel connected to a panel front end and a rear end panel, and where a baggage hold chamber is defined, at least in part, between the front panel, the front end panel and the rear panel.
[00178] Clause 31. The storage compartment control system (500), according to clause 30, in which the front panel comprises an arched panel having a curved external surface.
[00179] Clause 32. A method of controlling storage compartments for a vehicle, the method of controlling storage compartments comprising:
[00180] wirelessly connect a master control device (501) to at least one assembly of storage compartments (502) inside the vehicle, where the master control device (501) is separate and distinct from at least one assembly of storage compartments (502); and [00181] using the master control device (501) to operate at least one assembly of storage compartments (502).
Petition 870180019071, of 03/09/2018, p. 60/146
54/60 [00182] Clause 33. The method of controlling storage compartments, according to clause 32, in which the operation of using the master control device (501) comprises the automatic movement of at least one assembly of compartments (502) between an open position and a closed position.
[00183] Clause 34. The method of controlling storage compartments, according to clause 32, in which the use of the master control device (501) comprises the automatic locking and unlocking of a lock (350) of at least one assembly of storage compartments (502).
[00184] Clause 35. The storage compartment control method, according to clause 32, in which the wireless communicative coupling comprises the wireless communicative coupling of a master storage compartment control unit (508) of the device master control (501) to at least one assembly of storage compartments (502).
[00185] Clause 36. The storage compartment control method, according to clause 35, in which the wireless communicative coupling comprises the wireless communicative coupling of a storage compartment control unit (508) of at least a storage compartment assembly (502) to the master storage compartment control unit (508).
[00186] Clause 37. The method of controlling storage compartments, according to clause 32, additionally comprising the recording of commands in a user interface of the master control device (501).
[00187] Clause 38. The method of controlling storage compartments, according to clause 32, in which the coupling
Petition 870180019071, of 03/09/2018, p. 61/146
Wireless communicative 55/60 comprises wireless communicating coupling of a plurality of storage compartment assemblies (502) communicatively to the master control device (501).
[00188] Clause 39. The method of controlling storage compartments, according to clause 38, further comprising the use of the master control device (501) to simultaneously open and close the plurality of storage compartment assemblies (502) .
[00189] Clause 40. The method of controlling storage compartments, in accordance with clause 38, further comprising the use of the master control device (501) to open or close the plurality of storage compartment assemblies (502) of a skewed shape.
[00190] Clause 41. The method of controlling storage compartments, according to clause 38, further comprising the use of the master control device (501) to synchronize the opening or closing of the plurality of storage compartment assemblies (502 ) with one or more lighting, sounds, graphics or video effects.
[00191] Clause 42. The method of controlling storage compartments, in accordance with clause 38, further comprising:
[00192] receiving one or more error signals from at least one assembly of storage compartments (502); and [00193] use the master control device (501) to transition at least one storage compartment assembly (502) to a manual disposal mode in which a user can manually open and close the storage compartment assembly (502 ) in response to receipt.
Petition 870180019071, of 03/09/2018, p. 62/146
56/60 [00194] Clause 43. The method of controlling storage compartments, in accordance with clause 32, additionally comprising sending a report signal including data relating to health and operational status from at least one assembly of storage compartments (502) for the master control device (501).
[00195] Clause 44. The method of controlling storage compartments, in accordance with clause 32, further comprising detecting the presence of an object close to at least one assembly of storage compartments (502) within a detection range by a proximity sensor.
[00196] Clause 45. The method of controlling storage compartments, according to clause 44, in which the proximity sensor is mounted on an external surface of at least one storage compartment assembly (502).
[00197] Clause 46. The method of controlling storage compartments, according to clause 44, further comprising using the proximity sensor to selectively switch to at least one assembly of storage compartments (502) between a locked state and an unlocked state.
[00198] Clause 47. The method of controlling storage compartments, in accordance with clause 32, further comprising the emission of light from at least one or more external elements emitting light from at least one assembly of compartments of storage (502) to indicate a current status of mounting storage compartments (502).
[00199] Clause 48. The method of controlling storage compartments, according to clause 47, in which one or more external light emitting elements are close to a lock (350) of the storage compartment assembly (502) .
Petition 870180019071, of 03/09/2018, p. 63/146
57/60 [00200] Clause 49. The method of controlling storage compartments, in accordance with clause 32, additionally comprising the detection movement within a detection range of at least one assembly of storage compartments (502) by a motion sensor.
[00201] Clause 50. The method of controlling storage compartments, according to clause 49, in which the motion sensor is close to a lock (350) of the storage compartment assembly (502).
[00202] Clause 51. The method of controlling storage compartments, in accordance with clause 49, further comprising engaging the motion sensor to automatically open or close at least one assembly of storage compartments (502) without an individual touching at least one assembly of storage compartments (502).
[00203] Clause 52. The method of controlling storage compartments, in accordance with clause 32, further comprising the use of one or more internal light-emitting elements to illuminate a baggage holding chamber of at least one assembly of storage compartments (502).
[00204] Clause 53. The method of controlling storage compartments, in accordance with clause 52, in which the use of one or more internal light emitting elements comprises: [00205] lighting the baggage hold chamber when the at least one assembly of storage compartments (502) is in an open position; and [00206] deactivating one or more internal light emitting elements when at least one assembly of storage compartments (502) is in a closed position.
[00207] Clause 54. The method of controlling compartments of
Petition 870180019071, of 03/09/2018, p. 64/146
58/60 storage, in accordance with clause 52, in which the use of one or more internal light emitting elements comprises: [00208] emitting light that gradually intensifies as at least one assembly of compartments (502) is opened; and [00209] emitting light that gradually fades as at least one assembly of storage compartments (502) is closed.
[00210] Clause 55. The method of controlling storage compartments, according to clause 32, further comprising detecting a position of at least one assembly of storage compartments (502) by a position sensor.
[00211] Clause 56. The method of controlling storage compartments, in accordance with clause 32, further comprising detecting a weight of at least one assembly of storage compartments (502) by a weight sensor.
[00212] Clause 57. The method of controlling storage compartments, in accordance with clause 32, further comprising the use of at least one touch sensor to lock, unlock, open or close at least one assembly of storage compartments (502).
[00213] As described above, certain embodiments of the present description provide assemblies of storage compartments that can be opened and closed without being touched by an individual. Certain embodiments of the present description provide assemblies of storage compartments that can be controlled by the crew. Certain embodiments of this description provide systems and methods to prevent passengers from opening an assembly of storage compartments during restricted periods, such as during takeoff, landing, and
Petition 870180019071, of 03/09/2018, p. 65/146
59/60 periods of turbulence.
[00214] While various spatial and directional terms, such as top, bottom, bottom, intermediate, lateral, horizontal, vertical, front and the like can be used to describe the modalities of this description, it should be understood that such terms are merely used with respect to the guidelines illustrated in the drawings. The orientations can be inverted, rotated, or otherwise altered, so that an upper part is a lower part, and vice versa, horizontal becomes vertical, and the like.
[00215] As used here, a structure, limitation or element that is configured to perform a task or operation is particularly structurally formed, constructed or adapted in a way corresponding to the task or operation. For the sake of clarity and to avoid doubts, an object that is merely capable of being modified to perform the task or operation is not configured to perform the task or operation as used here.
[00216] It should be understood that the description above should be illustrative, not restrictive. For example, the modalities described above (and / or aspects of them) can be used in combination with each other. In addition, many modifications can be made to adapt a particular situation or material to the teachings of the various modes of description without departing from its scope. While the dimensions and types of materials described here must define the parameters of the various modalities of the description, the modalities are by no means limiting and are illustrative modalities. Many other modalities will be apparent to those skilled in the art upon review of the above description. The scope of the various modalities of the description must therefore be determined with reference to the appended claims, together with the full scope of the equivalences to which such claims are entitled. In
Petition 870180019071, of 03/09/2018, p. 66/146
60/60 appended claims, the terms including and in which are used as simple English equivalences of the respective terms comprising and where. In addition, the terms first, second and third, etc. they are used merely as labels, and should not impose numerical requirements on their objects. In addition, the limitations of the following claims are not written in a half-plus-function format and should not be interpreted based on 35 USC § 112 (f), unless and until such claim limitations expressly use the phrase means for followed by a function declaration without the additional structure.
[00217] This written description uses examples to describe the various modalities of the description, including the best mode, and also to allow anyone skilled in the art to practice the various modalities of the description, including the creation and use of any devices or systems and carrying out any built-in methods. The patentable scope of the various description modalities is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples should be within the scope of the claims if the examples have structural elements that do not differ from the literal language of the claims, or if the examples include equivalent structural elements with negligible differences from the literal language of the claims.

权利要求:
Claims (20)
[1]
1. Storage compartment control system (500) for a vehicle, the storage compartment control system (500), characterized by the fact that it comprises:
at least one assembly of storage compartments (502) which is configured to be selectively moved between an open position and a closed position; and a master control device (501) that is separate and distinct from at least one storage compartment assembly (502), where the master control device (501) is communicatively coupled via wireless connection to at least one assembly of storage compartments (502) and is configured to operate at least one assembly of storage compartments (502).
[2]
2. Storage compartment control system (500), according to claim 1, characterized in that the master control device (501) is configured to automatically move at least one assembly of storage compartments (502) between the open position and the closed position.
[3]
3. Storage compartment control system (500) according to claim 1 or 2, characterized in that the at least one storage compartment assembly (502) comprises a lock (350) that is configured to lock and selectively unlock at least one assembly of storage compartments (502), where the master control device (501) is configured to automatically lock and unlock the lock (350).
[4]
4. Storage compartment control system (500), according to claim 3, characterized in that the lock (350) is operationally coupled to one or more devices
Petition 870180019071, of 03/09/2018, p. 68/146
2/5 locking channels (400).
[5]
5. Storage compartment control system (500) according to any one of claims 1 to 4, characterized in that the master control device (501) comprises a master storage compartment control unit (508) which it is in communication with at least one assembly of storage compartments (502).
[6]
6. Storage compartment control system (500) according to claim 5, characterized in that the at least one storage compartment assembly (502) comprises a communicating storage compartment control unit (508) with the master storage compartment control unit (508).
[7]
7. Storage compartment control system (500) according to any one of claims 1 to 6, characterized in that the master control device (501) comprises a user interface configured to allow an individual to register commands.
[8]
Storage compartment control system (500) according to any one of claims 1 to 7, characterized in that the at least one storage compartment assembly (502) comprises a plurality of storage compartment assemblies ( 502) communicatively coupled to the master control device (501).
[9]
9. Storage compartment control system (500) according to claim 8, characterized in that the master control device (501) is configured to simultaneously open and close the plurality of storage compartment assemblies (502) .
[10]
10. Storage compartment control system
Petition 870180019071, of 03/09/2018, p. 69/146
3/5 ment (500) according to claim 8 or 9, characterized in that the master control device (501) is configured to open or close the plurality of storage compartment assemblies (502) in a skewed manner .
[11]
11. Storage compartment control system (500) according to claim 8, 9 or 10, characterized in that the master control device (501) is configured to synchronize the opening or closing of the plurality of compartment assemblies (502) with one or more lighting, sound, graphics or video effects.
[12]
12. Storage compartment control system (500) according to any one of claims 1 to 11, characterized in that the master control device (501) is configured to pass through at least one storage compartment assembly ( 502) in a manual disposal mode in which a user can manually open and close the storage compartment assembly (502) in response to receiving one or more error signals from at least one storage compartment assembly (502).
[13]
13. Storage compartment control system (500) according to any one of claims 1 to 12, characterized in that the at least one storage compartment assembly (502) is configured to send a report signal to the master control device (501), in which the report signal includes data relating to health or operational status.
[14]
14. Storage compartment control system (500) according to any of claims 1 to 13, characterized in that the at least one storage compartment assembly (502) comprises a proximity sensor that is configured to detect the presence of an object within
Petition 870180019071, of 03/09/2018, p. 70/146
4/5 of a detection range.
[15]
15. Storage compartment control system (500), according to claim 14, characterized in that the proximity sensor is mounted on an external surface of at least one storage compartment assembly (502).
[16]
16. Storage compartment control system (500) according to claim 14 or 15, characterized in that the proximity sensor is configured to selectively switch to at least one storage compartment assembly (502) between a state locked and an unlocked state.
[17]
17. Storage compartment control system (500) according to any one of claims 1 to 16, characterized in that the at least one storage compartment assembly (502) comprises one or more external light emitting elements , in which one or more of the external light-emitting elements are configured to emit light to indicate a current situation of mounting storage compartments (502).
[18]
18. Storage compartment control system (500) according to claim 17, characterized in that one or more external light-emitting elements are close to a lock (350) of the storage compartment assembly (502) .
[19]
19. Storage compartment control system (500) according to any one of claims 1 to 18, characterized in that the at least one storage compartment assembly (502) comprises a motion sensor that is configured to detect the movement within a
Petition 870180019071, of 03/09/2018, p. 71/146
5/5 detection range.
[20]
20. Storage compartment control system (500) according to claim 19, characterized in that the motion sensor is close to a lock (350) of the storage compartment assembly (502).

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