• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a lighting device (10) for a patient room, comprising a luminaire housing (30) in which a reading lamp (40), an examination lamp (50) and an indirect room lamp (60) are integrated and / or attached.
    公开号:AT14831U1
    申请号:TGM50182/2014U
    申请日:2014-11-14
    公开日:2016-07-15
    发明作者:Andreas Hierzer
    申请人:H4X E U;
    IPC主号:
    专利说明:

    description
    LIGHTING DEVICE FOR A PATIENT ROOM AND LIGHTING SYSTEM
    TECHNICAL AREA
    The present invention relates to a lighting device for a patient room. The invention further relates to a lighting system with at least one such lighting device.
    BACKGROUND OF THE INVENTION
    There are lighting devices for patient and nursing rooms available, in which a reading light and a room lighting is integrated. A lighting device may also include a supply device for providing supply media such as technical gases and / or electricity.
    Furthermore, there is a supply unit in patient rooms, which has a lighting arrangement with a reading light in a profile-like housing for wall or ceiling mounting above a patient bed. The supply unit comprises at least one second luminaire for direct illumination of an examination area, which corresponds to a patient bed which can be set up in front of the supply unit.
    SUMMARY OF THE INVENTION
    Against this background, it is an object of the present invention to provide an improved lighting device and an improved lighting system.
    This object is achieved by a lighting device with the features of the protection claim 1 and by a lighting system with the features of the protection claim 16.
    Accordingly, it is provided: - A lighting device for a patient room, with a lamp housing, in which a reading light, an examination lamp and an indirect room lamp are integrated and / or on which they are mounted.
    [0008] E in a patient room lighting system comprising: at least one lighting device according to the invention, a controller for controlling the function of the lighting devices, at least one room switch, at least one and at least one lighting program switch.
    It is an idea of the invention to provide a compact lighting device which provides both a reading light and an examination light as well as an indirect room light. The reading lamp, examination lamp and indirect room lamp are integrated in a luminaire housing and / or attached to this. The indirect room lamp is designed such that it is designed glare-free, that is, that the light only indirectly via a ceiling or wall ceiling a room, preferably a patient room, illuminates. This has the advantage that only a single lighting device is installed and thus reduces the electrical wiring overhead in the walls. Furthermore, a room can be illuminated in an energy-efficient manner according to the temporary requirements that arise in a patient's room.
    Advantageous embodiments and further developments will become apparent from the other dependent claims and from the description with reference to the figures of the drawing.
    According to a preferred embodiment, to illuminate a patient room as large as possible, the indirect room lamp comprises two light devices, which project two differently aligned light beams each with an acute angle to the ceiling, in particular, the acute angle between 10 ° -30 ° differ. With a first light beam, in particular, the space is illuminated directly above a patient bed and with the second light beam as far as possible, another area, an area over the patient bed outgoing area, illuminated.
    In order to produce the luminaire housing as efficiently and maintenance-friendly, the luminaire housing comprises a profile, which is in particular made of an aluminum alloy. On the light profile is a profile cover the indirect room light arranged protective. A profile cover has the advantage that it is easily and quickly wiped off as a whole regularly to remove accumulating dust, the underlying room lamp is protected.
    According to a further embodiment of the invention, the profile cover seen in cross section comprises at least two concave, substantially at right angles formed profile valleys such that LED lamp sources are aligned substantially at right angles to a passage surface of the profile cover can be arranged. The emitted light thus efficiently passes through the profile coverage with minimized deflection effects.
    According to a preferred embodiment, the profile cover is made of polymethylmethacrylate (PMMA). Such profile cover is easy and inexpensive to produce in terms of their weight. In order to make the manufacture of the lighting device as simple and efficient as possible, the reading light comprises LED lamps arranged on a printed circuit board and the printed circuit board is inserted into opposite profile grooves formed in the light profile, application-specific lenses being arranged in particular on the LED lamps. The opposite profile grooves are already formed at a suitable angle in the light profile, so that a further adjustment for the reading light is no longer required. The light beam from the reading light thus advantageously meets at an acute angle to an underlying patient bed. The light beam strikes a reading material substantially at a right angle when a patient wants to read erect in the patient bed.
    In order to assemble and manufacture an examination lamp as efficiently as possible, the examination lamp comprises LED lamps arranged on a printed circuit board and also this printed circuit board is inserted in the lamp profile in formed, opposite profile grooves, wherein adaptable to the LED lamps, e.g. Announcement and application-specific customizable lenses are arranged. Since the examination lamp is intended to illuminate a further area of a patient bed extending from the wall, the angle of the light beam of an examination lamp is aligned significantly sharper with respect to a patient bed. Furthermore, the examination lamp comprises significantly more LED lamps than the reading lamp, more preferably at least twice as many LED lamps, to provide a brighter examination light and a larger examination area.
    In order to produce the lighting device as simple and cost-efficient as possible, the luminaire housing with the luminaire profile exclusively comprises the printed circuit boards with LED lamps for the examination lamp, for the reading lamp and for the indirect room lamp. The controller and converter for the LED lamps are preferably housed in a further housing. The luminaire housing is further preferably arranged on a wall mounting housing. The wall-mounting case is mounted on the wall of a room. On the opposite wall mounting side of the wall mounting housing the lamp housing is arranged. In the wall mounting housing is preferably a 220 volt converter, which converts the voltage to an appropriate voltage LED lamps and, for example, a surge relay to switch the lighting device by remote switches on and off, and a plug-in module to control the lighting device from a controller can. Optionally, supply lines can be accommodated in the longitudinal profile of the wall mounting housing.
    According to a further preferred embodiment, at least the two light devices of the indirect room lamp comprise four different color LED lamp rows, in particular in the colors blue, cold white, warm, warm white, extreme warm white, in particular with a relatively wide color spectrum in the range of 25,000 K to 2,100 K. Thus, a circadian daylight course in brightness and color temperatures can be imitated via these settings. It can also be imitated a brightly rising day, as well as a red light twilight. A bright morning light is important to invigorate a patient in the morning, since bright light can be used to address hormones by a human being.
    According to a further preferred embodiment, the reading light is designed such that it forms an additional part of the examination light with an illumination of the head area of an underlying patient area. Thus, from a central switch, which is preferably arranged in the door area of the room, both the reading light and the examination lamp simultaneously switched on and off, whereas the reading light is switched on and off separately by the patient by means of a corresponding reading light switch. This switch can be wired. The reading light switch can be arranged on the lighting device or operated by means of a wireless transmitter.
    In order to produce the best possible light conditions in the area of the patient bed, the reading and examination light with high color rendering values in the range of Color Rendering Index (CRI) 90 and 3000 K are formed.
    According to an embodiment further developing the examination lamp is designed such that it illuminates the body trunk area and the foot area of a patient on a bed, in particular with an illumination of 500 Ix. Thus, sufficient illumination for examination of the patient is ensured.
    According to an embodiment of the invention, the wall mounting housing comprises a wall mounting profile and a wall mounting housing cover, wherein the wall mounting profile has a recess in the middle, in particular in the form of a double socket to form a wall mounting gauge and a supply opening. This has the advantage that in the redesign of a room, the patient room can already be set by the electrician, where the power supply in the room to be arranged, and can be determined by this, where the lighting devices are to be arranged. The fitter of a lighting device can thus replace, for example, a double socket as an assembly aid for the arrangement of the lighting device in a patient room.
    In order to simplify the assembly even further, in the wall mounting housing an outwardly wall folding double socket profile is arranged, which is foldable after mounting the wall mounting profile in the wall mounting housing cover, in particular the double socket profile functional electronics of the lighting device, in particular a plug-in module as a control receiver of a remote control, includes. Thus, a functional electronics with a housing in the form of a double socket outlet profile has a double function. On the one hand, it serves to protect the functional electronics as well as the assembly of the lighting device when mounted on the wall in a patient room.
    According to an embodiment further developing the illumination device, in particular in the wall mounting housing, arranged supply lines for the care of the patient. These supply lines can be power and / or telephone cables, but also, for example, gas lines.
    The invention is also achieved by a lighting system in that the lighting system is formed with at least one lighting device, a controller, at least one room switch, at least one reading light switch and at least one lighting program switch. Advantageously, lighting devices are arranged per patient room according to the number of intended patients (e.g., four or six). Several lighting devices can be controlled individually by a central control, which is provided for each individual room, in particular patient rooms, so that they illuminate the room either individually or uniformly. The room switches are in particular provided for activating and deactivating each individual examination light from each lighting device. Read-only light switches either wired or wireless serve to activate the reading lights in each lighting device, and a central lighting program switch serves to turn on a room cleaning light, ensure complete light deactivation of the room, set a light energy saving program, and / or set circadian biologically active activation light programs. This lighting program switch thus controls the control, wherein the controller controls the lights in the lighting device accordingly.
    To ensure that only authorized persons operate the lighting program switch, in particular the lighting program switch is designed as a key switch with which the light programs can be controlled via the controller.
    To save resources, a surge relay is provided for controlling the lighting devices only for every second lighting device, which can thus control two lighting devices. LED lamps are conventionally driven and dimmed with a pulse width modulation (PWM) signal. In order to avoid a pulsating light signal, which is not directly perceptible because of the inertia of the eyes, but is perceived as pulsating by a living being, the LED lights are designed with an analog control as a dimming device for the LED lamps. The current is regulated analogously.
    According to an embodiment further developing the invention, the lighting system comprises a presence sensor, in particular for the bed area, preferably installed in each lighting device, more preferably housed integrated in the wall mounting housing. The presence of a presence sensor provides the advantage that it conveys to the controller at least the reading light and the examination light for an operation to release or block, so that there is no operator error or the patient. Preferably, it can also be provided that the controller is designed to use the information obtained by the presence sensor for the control of the background light. For example, the background light is activated only when a patient is in the patient bed associated with the lighting device.
    In order for the controller to take into account the current brightness, in particular for the bed area, a brightness sensor is preferably arranged centrally within the room to be illuminated. Conceivable, of course, would be another arrangement of the brightness sensor within the room to be illuminated. It is essential that with this sensor, the brightness can be effectively sensed.
    According to a preferred embodiment, the illumination system comprises an acoustic sensor which is adapted to respond to a predetermined acoustic signal e.g. from a patient to operate the lighting devices, e.g. to activate or deactivate. For example, it would be conceivable that the reading light is activated or deactivated by a first acoustic signal, the room light is activated or deactivated by a second acoustic signal and / or the examination light is activated or deactivated by a third acoustic signal. Such acoustic signals may e.g. be: a clapping, snapping, whistling, knocking, a call, a special word or the like.
    According to a further preferred embodiment, the controller comprises light programs, in particular a room cleaning program, a program for complete light deactivation of the room, a light saving program and / or a circadian biologically active activation light program.
    According to a further preferred embodiment, the controller is adapted to control the lighting device daytime dependent with the light programs.
    According to a further preferred embodiment, the controller is adapted to set parameters of at least one of the light programs and preferably all the light programs. These parameters may e.g. be: the time of day, light intensity, light color, light temperature, duration of a light program, start of a light program, end of a light program and the like.
    According to a further preferred embodiment, the lighting program switch, in particular as a key switch, is designed to control light programs via the controller.
    According to a further preferred embodiment, each several, in particular four, lighting devices are provided. In this case, every second lighting device comprises a current pulse relay for controlling the lighting device.
    According to a further preferred embodiment, a dimming device for the LED lamps is provided, which comprises an analog control of the LED lamps by means of controlled current.
    The above refinements and developments can, if appropriate, combine with one another as desired. Further possible refinements, developments and implementations of the invention also include combinations, not explicitly mentioned, of features of the invention described above or below with regard to the exemplary embodiments. In particular, the person skilled in the art will also add individual aspects as improvements or additions to the respective basic form of the present invention.
    CONTENT OF THE DRAWING
    The present invention will be explained in more detail with reference to the exemplary embodiments indicated in the schematic figures of the drawings. FIG. 1 shows a schematic side view of the lighting device according to the invention; FIG. Fig. 2 is a schematic side view of Figure 1 with respect to a Raumaus illumination. Fig. 3 is a perspective view of a device according to the invention Beleuchtungsvorrich in an assembly ready state; FIG. 4 is an abstract sectional view of a mounted lighting device; FIG. 5 is a sectional view of a lighting device according to the invention in
    Operating condition; Fig. 6 is a perspective view of the lighting device from below; FIG. 7 is a perspective view in a plan view; FIG. Fig. 8 is a plan view of the lighting apparatus according to the invention; FIG. 9 shows an abstract plan of a patient room with the illumination system according to the invention; FIG. and Figure 10 shows an abstracted circadian daylighting plan of a patient room using the indirect room light and lighting system.
    The accompanying drawings are intended to provide further understanding of embodiments of the invention. They illustrate embodiments and, together with the description, serve to explain principles and concepts of the invention. Other embodiments and many of the stated advantages will become apparent with reference to the drawings. The elements of the drawings are not necessarily shown to scale to each other.
    In the figures of the drawing are the same, functionally identical and same-acting elements, features and components - unless otherwise stated - each provided with the same reference numerals.
    DESCRIPTION OF EMBODIMENTS
    FIG. 1 shows an abstracted side view of a patient room with a patient bed, wherein a lighting device 10 according to the invention is arranged on a wall 2 above the head end of the patient bed. The lighting device 10 according to the invention comprises a wall mounting housing 20, on which a lamp housing 30 is mounted extending in the bed direction. Both the wall mounting housing 20 and the lamp housing 30 extend longitudinally parallel to the patient bed width. The luminaire housing 30 comprises a reading light 40 with a light beam 45 for forming a reading light and an examination light 50 with a light beam 55 for forming an examination light, wherein the reading light 40 also provides a part of the examination light. An indirect room lamp 60 produces an indirect room light glare-free, in which it throws in a mirror image to the lamp housing 30 in a direction mirrored to the examination light light beam 65 to the ceiling. The indirect room lamp 60 includes two light devices 62, 64, with which light beams 61, 63 are generated. As will be described later, the indirect room light 60 comprises a plurality of LED lamps with adaptable, e.g. customer-specific and customized lenses arranged in front of it.
    FIG. 2 shows the abstracted side view illustrated in FIG. 1 with the illumination device 10 according to the invention, as it acts in the entire patient room. FIG. 2 shows that the room lamp 60 distributes its light 65 over the entire ceiling 4 with its two light beams 61 and 63. It is further shown that the light is distributed without glare when the lighting device 10 according to the invention is mounted at least above the general head height of the caring staff and the patient.
    The light beams 61, 63 project their light each at an acute angle ß, γ to the ceiling 4. The acute angle ß, γ include with respect to their center line beams 61a and 63a an angle α between 10 ° -30 °.
    Fig. 3 shows a perspective view of the lighting device 10 of the invention seen from the wall side mounting side. The lighting device 10 includes in side view a square wall mounting housing 20 and seen in a side view a rectangular lamp housing 30. Both housings extend longitudinally rectangular and parallel to a width of an attachable patient bed. On the wall side in the middle of a double socket profile 26 is arranged in the direction of a mounting wall 2 to be mounted. The double socket profile 26 serves as an assembly jig for the lighting device 10 as a male plug part to insert the lighting device 10 in a double socket as a female plug part in the wall 2.
    The wall-mounting housing 20 includes a wall-mounting profile 22 and a wall-mounting housing cover 24, which includes three profile sides, the lower side, the upper side and the side on which the lamp housing 30 is mounted. The luminaire housing 30 is formed significantly longer in the longitudinal direction parallel to the bed width than the wall mounting housing 20. At both end faces of the wall mounting housing 20 and the lamp housing 30 cover plates are arranged.
    4 shows a double socket profile 26 inserted into the wall 2. The double socket profile 26 thus serves as a mounting jig for the lighting device 10 with its square-shaped seen in cross-section Wall mounting housing 20 and the rectangular luminaire housing 30th
    Fig. 5 shows in a cross-section transversely to the longitudinal direction of the lighting device 10 seen enlarged the lighting device 10 with the square wall mounting housing 20 and the luminaire housing 30 arranged thereon. The wall mounting housing 20 is essentially made of an aluminum alloy. The wall-mounting housing 20 includes the wall-mounting profile 22 and a wall-mounting housing cover 24 forming a lower side 241, a side 242 spaced parallel to the wall, and an upper side 243 of the housing cover 24. In the lower side 241 of the wall-mounting case cover 24, a presence sensor 70 is installed. Furthermore, the double socket profile 26 is folded by 90 ° inwardly into the wall profile housing 20, so that an outer circumferential edge of the double socket profile 26, a parallel surface to the lower side 241 forms. In the double socket profile 26, a functional electronics for the lighting device is housed, in particular, a plug-in module is provided here as a control receiver for a controller. The control receiver is used to control the lights of the lamp housing 30. In the wall mounting housing 20, a converter 90 is also housed, which converts the voltage of 220 volts to a voltage for LED lamps of the lamps from the lamp housing 30 adapted voltage, for example, to 48 volts. Either flush with the upper surface 243 of the wall mounting housing cover 24 or centrally on the surface 242, the lamp housing 30 is attached.
    The luminaire housing 30 comprises a luminaire profile 32, preferably as well as the wall mounting housing 20 made of an aluminum alloy, as well as a profile cover 34, which protects the indirect room lamp 60. The profile cover 34 is made of so-called plexiglass, preferably polymethylmethacrylate (PMMA). Such a plastic is lightweight and very transparent and inexpensive. The indirect room lamp 60 includes two light devices 62 and 64, each of which project light beams 61, 63 at an acute angle to the ceiling 4.
    The light devices 62, 64 comprise LED lamps, on which kiss or application-specific lenses are arranged. The LED lamps are each located on a printed circuit board 31, 33. Thus, the emitted light as perpendicular as possible passes through the profile cover 34, the profile cover 34 seen in cross-section two concave substantially formed at right angles profile valleys 36, 38 such that the Passage surfaces 35, 37 are formed in the profile cover substantially perpendicular to the emitting light.
    The downwardly directed reading light 40 and the examination lamp 50, for example, have no profile coverage, since there is no such great danger of contamination due to dust here. For the reading light 40 42 LED lamps 48 are arranged on a printed circuit board on which kissing and application-specific lenses 46 are grown. The printed circuit boards 42 are in, in the light profile 32 formed opposite profile grooves 43, 44 inserted. Thus, the assembly is simplified and inexpensive and efficient feasible. According to the same principle, the examination lamp 50, which preferably illuminates the foot area and the body area of a patient, is constructed. On a printed circuit board 52 LED lamps 58 are arranged on which in turn kiss or application-specific lenses 56 are arranged. The printed circuit board 52 is in, formed in the light profile, opposite profile grooves 53, 54 inserted.
    Fig. 6 shows the lighting device according to the invention in a view from below. In this view it is clearly shown that the reading light 40 comprises approximately four LED lamps in the center, whereas the examination light 50 comprises approximately 10 LED lamps.
    FIG. 7 shows the illumination device 10 in a perspective plan view. In this view, it can be seen that the indirect room lamp 60 according to the present embodiment with the light devices 62, 64 comprises approximately 50-60 LED lamps each. Each lighting device comprises four different color LED lamp rows. The colors of the color LED lamp series are especially blue, cold white, warm white, extreme warm white. How these LED lamps are used during the day is described in more detail with reference to FIG. Fig. 7 shows in perspective the two profile valleys 36, 38 and the profile cover 34th
    FIG. 8 shows a top view of the illumination device 10 according to the invention with the wall profile housing 20 and the luminaire housing 30.
    FIG. 9 shows a plan of a patient room in an abstract manner with four illumination devices 10 in order to create a lighting system 1. The lighting system 1 comprises a controller 100 and room switch 110, reading light switch 120, which are preferably controlled by a cordless operation of the patient, and a lighting program switch 130th
    The presence sensor 70 integrated in the lighting device monitors the bed area in such a way that malfunctioning of the respective lighting device 10 can be avoided by the operator or the patient. In order to include the daylight in the illumination by the indirect room lighting, a brightness sensor 80 is preferably located in the room on the ceiling centrally, which transmits its brightness measurements to the controller 100.
    It is understood that a table light in the window area and an antechamber light can be arranged, which are controlled via, for example, known motion sensors. By means of a lighting program switch, which is more preferably a key switch to allow only a certain group of people to operate, the controller 100 is controlled such that either a so-called Raumreinigungsicht, ie maximum illumination of the room, or a complete Lichtdeaktivierung or a standardized lighting after Minimum lighting standards or a circadian biologically active activation light program. Furthermore, it is sufficient if every second lighting device comprises a current pulse relay 12 in order to control the lighting devices 10. The reading light 40 is preferably switchable in two stages by the patient via an operating switch. The examination light which activates both the reading light 40 and the examination light 50 is centrally from a located near the entrance room switch for each patient bed, that is for each lighting device 10, via manual switch on and off.
    According to an embodiment further developing the invention, an adjustable follow-up time in the controller can be switched off the reading lamp and the examination lamp and the indirect room light. So that the LED lamps in different strengths also dimmable pulse-free produce a light, no pulse width modulation, as conventionally used, but realized according to the invention an analog dimming over a regulated current for dimming. Thus, a flicker-free room light or reading light and / or examination light is generated. According to the invention, in order to put the patents' well-being in the foreground, a more complex current intensity control of the room light is thus implemented in comparison to a dimming that is easier to control by means of pulse width modulation. The room light may generate a daylight history program as shown in FIG.
    According to the diagram shown in FIG. 10, a course of daylight is mimicked. FIG. 10 shows that in the morning in a wake-up phase over a period of one hour, the LEDs of the color light series blue L1 and white L3 are slowly dimmed up to about 6000 K to the maximum intensity. This color temperature and brightness ensures that a patient can be woken up by his natural waking hormones. Starting at lunchtime, lighting is provided via an LED light series L4 and L3 at approx. 2700 K and for the evening area a white light L2 is also added to create a sunset-like red mood. By adding the natural sunlight, in that the brightness values are taken into account via the brightness sensor 80, an extremely energy-saving illumination takes place by means of the illumination system 1 according to the invention. The illumination devices 10 can be controlled by the controller 100 via a so-called DALI interface by means of a CAT5e cabling. DALI refers to the Digital Addressable Lighting Interface, which is a protocol for lighting control in building automation.
    Although the present invention has been described in detail with reference to various embodiments, modifications and developments of the lighting device or the illumination system can be made without departing from the spirit of the invention.
    REFERENCE LIST 10 Illumination device 20 Wall mounting housing 30 Luminaire housing 40 Reading light 50 Examination luminaire 60 Indirect room luminaire 62, 64 Light beam 31,33 Circuit board 32 Luminaire profile 34 Profile cover 36,38 Profile valleys 35,37 Passage surface 42 Circuit board 52 Circuit board 48 LED lamps 43,44 Profile grooves 53,54 Profile grooves 46,56 Lenses 22 Wall-mounting profile 24 Wall-mounting housing cover 26 Double-socket profile 100 Control 110 Room switch 120 Reading light switch 130 Illumination program switch 70 Presence sensor 80 Brightness sensor L1-L4 LED Color temperature light row
    权利要求:
    Claims (26)
    [1]
    claims
    A lighting device (10) for a patient room, comprising a light housing (30) in which a reading light (40), an examination light (50) and an indirect light (60) are integrated and / or on which they are mounted.
    [2]
    2. Lighting device according to claim 1, characterized in that the indirect room lamp (60) comprises two light devices projecting two differently aligned light beams (61,63) each with an acute angle to the ceiling (4), wherein the acute angle with respect to their centerline beams (61a, 63a), in particular at an angle (a) between 10-30 °, differ.
    [3]
    3. Lighting device according to claim 1 or 2, characterized in that the lamp housing (30) has a light profile (32), in particular made of an aluminum alloy comprises, on which a profile cover (34), the indirect room lamp (60) is arranged to protect.
    [4]
    4. Lighting device according to claim 3, characterized in that the profile cover (34) seen in cross section at least two concave, formed substantially at right angles profile valleys (36, 38) such that LED lamps (62, 64) substantially in right angle to a passage surface (35, 37) of the profile cover (34) are aligned.
    [5]
    5. Lighting device according to claim 3 or 4, characterized in that the profile cover (34) made of polymethylmethacrylate (PMMA) is made.
    [6]
    6. Lighting device according to one of claims 3 to 5, characterized in that the reading light (40) on a printed circuit board (42) arranged LED lamps (48) and the printed circuit board (42) formed in the light profile (32), opposite profile grooves (43, 44) is inserted, wherein on the LED lamps (48) customizable lenses (46) are arranged.
    [7]
    7. Lighting device according to one of claims 3 to 6, characterized in that the examination lamp (50) on a printed circuit board (52) arranged LED lamps (58) and the printed circuit board (52) formed in the light profile (32), opposite profile grooves (53, 54) is inserted, wherein on the LED lamps (58) customizable lenses (56) are arranged.
    [8]
    8. Lighting device according to one of the preceding claims, characterized in that the reading light (40) with an illumination of the head area is an additional part of the examination light (50).
    [9]
    9. Lighting device according to one of the preceding claims, characterized in that the reading and / or examination lamp (40, 50) with high color rendering values, in particular with a Color Rendering Index (CRI) 90 and about 3000 K, are formed.
    [10]
    10. Lighting device according to one of the preceding claims, characterized in that the examination lamp (50) is designed such that it illuminates the body trunk area and the foot area of a patient on a bed, in particular with a lighting of 500 Ix.
    [11]
    11. Lighting device according to one of the preceding claims 2 to 10, characterized in that at least the two light devices of the indirect room lamp (60) four different color LED lamp rows, especially in the colors blue, cold white, warm white, extreme warm white, include, in particular, with a wide color spectrum in the range of 25,000 K to 2,100 K, are formed.
    [12]
    12. Lighting device according to one of the preceding claims, characterized in that the lighting device (10) comprises a wall mounting housing (20) on which the lamp housing (30) is arranged.
    [13]
    13. Lighting device according to claim 12, characterized in that the wall mounting housing (20) comprises a wall mounting profile (22) and a wall mounting housing cover (24), wherein the wall mounting profile (22) in the middle of a recess, in particular in the form of a double socket, to form an assembly jig and a supply opening.
    [14]
    14. Lighting device according to the preceding claim, characterized in that in the wall mounting housing (20) hinged outwardly towards the wall double socket profile (26) is arranged, which after assembly of the wall mounting profile (22) in the wall mounting housing cover (24) is foldable, wherein in particular the double socket profile (26) comprises a functional electronics of the lighting device (10), in particular a plug-in module as a control receiver of a remote control.
    [15]
    15. Lighting device according to one of the preceding claims, characterized in that the illumination device (10), in particular in the wall mounting housing (20) arranged, supply lines for the care of the patient comprises.
    [16]
    16. A lighting system for a patient room, which contains: - at least one lighting device (10) according to one of the preceding claims, - a controller (100) for controlling the function of the lighting devices (10), - at least one room switch (110), - at least one Read light switch (120) and - at least one lighting program switch (130).
    [17]
    17. Lighting system according to claim 16, characterized in that the illumination system (1) comprises a presence sensor (70), preferably integrated for the bed area and in particular in each lighting device (10).
    [18]
    18. The lighting system according to claim 17, characterized in that the controller (100) is adapted to use the information obtained by the presence sensor (70) for the control of the background light.
    [19]
    19. Illumination system according to one of the preceding system-related claims, characterized in that the illumination system (1) comprises a brightness sensor (80) which is arranged in the space to be illuminated, preferably in the middle of the room to be illuminated, around those in the room To measure brightness.
    [20]
    Lighting system according to one of the preceding system-related claims, characterized in that the lighting system (1) comprises an acoustic sensor adapted to operate on a predetermined acoustic signal the lighting devices (10), e.g. to activate or deactivate.
    [21]
    21. Lighting system according to one of the preceding system-related claims, characterized in that the controller (100) comprises light programs, in particular a room cleaning program, a program for a complete light deactivation of the room, a light-saving program and / or a circadian biologically active activation lighting program.
    [22]
    22. Lighting system according to one of the preceding system-related claims, characterized in that the controller (100) is adapted to control the lighting device time of day with the light programs.
    [23]
    23. Illumination system according to one of the preceding system-related claims, characterized in that the controller (100) is adapted to parameters of at least one of the light programs, in particular the time of day, light intensity, light color, light temperature, duration of a light program, start of a light program, end of a light program to adjust.
    [24]
    24. Lighting system according to one of the preceding system-related claims, characterized in that the lighting program switch (130) is designed as a key switch for controlling lighting programs via the controller (100).
    [25]
    25. Lighting system according to one of the preceding system-related claims, characterized in that a plurality, in particular four, lighting devices are provided, wherein each second lighting device (10) comprises a current pulse relay for controlling the lighting device (10).
    [26]
    26. Lighting system according to one of the preceding system-related claims, characterized in that a dimming device for the LED lamps (48) is provided, which comprises an analog control of the LED lamps by means of controlled current. For this 10 sheets of drawings
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    同族专利:
    公开号 | 公开日
    DE202013010375U1|2014-01-10|
    引用文献:
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    DE1962913U|1967-02-24|1967-06-29|Johannes Schaer G M B H Dipl I|ILLNESS ROOM EXAMINATION AND MULTI-PURPOSE LIGHT.|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE202013010375.2U|DE202013010375U1|2013-11-15|2013-11-15|Lighting device for a patient room and lighting system|
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