法国专利FR3042417A1 ARTIFICIAL BREATHING DEVICE

专利PDF首页>>法国专利

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:
An artificial respiration apparatus with an integrable breathing air humidifier (9) has a pressure measuring connection which is arranged after the humidifier in the direction of the flow. At the level of the breathing air humidifier at least two defined air channels are arranged. A pressure sensor is arranged on an adjustment plate of the artificial respiration apparatus, and is connected by a pressure measuring line to a measurement site. The humidifier is attached to a horizontal surface of the unit.
公开号:FR3042417A1
申请号:FR1601472
申请日:2016-10-11
公开日:2017-04-21
发明作者:Karl Andreas Feldhahn；Thomas Ress；Wolfgang Wedler；Fank Herrmann；Matthias Pulla；Stefan Hein；Christof Gobel；Christian Kluin；Joachim Gardein
申请人:Loewenstein Medical Technology GmbH and Co KG；
IPC主号:

专利说明:

The invention relates to an artificial respiration device. Such a device partially helps the patient to breathe or fully supports the breathing function.
In these devices for the supply of breathing gas; a certain concept of air intake is at least continued which influences the breathing gas and modifies the influence of the breathing gas on the apparatus in a desired manner.
In many cases, a fan motor is a source of gas, which makes the device independent of another fixed source of gas. Thus, the ambient air is sucked by a filter, is brought to the fan housing and applied to the patient for oxygen and / or moisture treatment. In addition, for prior art devices, an inappropriate form of decoupling to the humidifier is performed on the basic apparatus, which further increases the size of the apparatus in an unnecessary manner. Similarly, the filling of the humidifier has a direct influence on the geometry and air supply properties of the device.
In many cases, decoupling the fan from the rest of the unit is cited as the most active to influence the development of noise and squeaks. This is done in most devices, in a complicated, expensive and insufficient way.
Embodiments and constructional variants, explained in detail in the following, may be used alternately or in a complementary manner. In particular, each particular concept of the invention may be realized independently of each other; however, a combined realization has additional advantages, which act positively on the construction method, the size, the maneuverability, the safety of the apparatus, the development of the noise and thus, positively on the overall system.
In addition to the following explanations, various additional explanations can be found directly in the drawings. The description of the present application also includes, in particular, the written explanations of the drawings and the graphically represented construction variants, which are explained in more detail in the following. The subject of the invention is a device which is suitable for CPAP, Bilevel, APAP, titration, home, emergency and clinical breathing, invasively and / or non-invasively. The air in the atmosphere is sucked by a fan built into the device. In addition, the air passes through at least one filter, which eliminates particles in the air. The air then reaches a semi-enclosed noise isolating box, which is arranged in an apparatus for supplying the breathing gas and has high and low pressure intervals.
An alternative embodiment provides for the construction of at least two modules. For the intermediate modules present, they are pinched by screwing the outer module and thus fixed between the outer modules. This form of construction can be achieved for example by stop members and / or screws, which are provided by all modules.
Insulating substances between the modules can be easily pinched and fixed by a spring - groove profile.
The box is open in at least one place and / or face, so that through this opening, air can escape from the box in an uncontrolled manner. This is prevented by simply sealing with foam; it takes the function of sealing the sound insulation box, the sound insulation function and secondly, it at least partially fills the sound insulation box. Sealing can be done only by pressing, pinching, gluing and / or screwing the box onto the foam. The sealing can find use, preferably at low pressure, but also in the high pressure range of the soundproofing box.
In addition, the sound insulation box is characterized by a lower investment and therefore less expensive.
Furthermore, is in the box, an opening for the arrival of the cables of a fan disposed in the box, which can be formed preferably by the assembly of the two modules. The supply of air can be done between or in these modules and therefore occurs in at least two planes, preferably three planes: suction plane or low pressure, plane of the fan and output plane or high pressure.
This represents a vertical division of the functions of each plane. In addition, a plane is defined as a large and flat space, stretched in width.
The air intake planes can be connected to each other by channels / structures. The channels / structures are preferably arranged substantially perpendicular to the planes, which may extend well beyond the nearest plane or plane overlying at least the nearest plane. The supply of air is also chosen so that there is a turning at least double air of 80 +/- 10 °, vertical-horizontal and horizontal-vertical. This turning of the air entails in a considerable way, a reduction to a minimum, of the formation of noise.
In a particularly preferred embodiment, this effect is connected to another possibility of sound insulation, or integrated into a sound insulation box. On the one hand, the most numerous possible turns, indicated above, preferably 90 ° or 180 °, are used to direct the air on bouncing surfaces, which in this way absorb, at least partially, the noise and, on the other hand, the many changes between narrowing and cross-section widening are used as channels, apertures and / or trailing surfaces between the apertures and bouncing surfaces.
In a particularly preferred form, these bouncing surfaces may be coated on the other hand with a surface and / or different materials specially provided for sound insulation. On the other hand, in the sound insulation box, many changes between narrowing and cross-section widening are possible in the form of channels, openings, and / or trailing surfaces between the openings and the bouncing surfaces.
To achieve another noise reduction, a change between the air intake and sound isolation zones is planned. The air intake and sound insulation zones are defined by recesses, which are formed by the geometry of other components of the sound insulation box: screw ducts, fan, other limits of the box, supports fan, suction pins, suction filter, outlet opening, etc.
Because the existing geometries of the components of the sound insulation box are exploited, to form air ducts and sound insulation areas, the volume can be kept relatively low.
For example, through the screw ducts through the planes, the air supply is adjusted in an aerodynamic manner, so that it is formed as few separations, which can lead to noise.
In a preferred form, the fan is arranged essentially centrally in the sound insulation box. This leads to an optimal possibility of influence and noise isolation, which is produced by the fan, as much as possible.
In a preferred embodiment, the fan and the fan suspension are preferably suspended in a mid-plane, which are surrounded again by sound insulating material. In addition to the preferred embodiment by suspending the fan with elastomers, the fixing can also be done using springs, elastomers and / or foams located and / or during, for a more secure decoupling of the fan of the box.
In addition to the suspension, the fan has at least one pipe, at least one other connection to the sound insulation box. This connection is however chosen, in terms of shape and choice of material, so that one reaches a decoupling of the fan of the sound insulation box.
The preferred form of fan attachment leads to a fan, which is suspended by bonding with elastomers, in a movable manner in three dimensions. Thus, with the concept presented, a double reference is made to the double decoupling of the fan from the housing of the apparatus: the sound insulation box is decoupled by fixing to the foams and sealing material and by using tubes of elastomer for supplying air from the sound insulation box to a component of the apparatus, fixedly connected to the housing.
Similarly, it can be performed as a replacement or in addition, the decoupling of the fan from the sound insulation box by the attachment types indicated above and by at least one elastomeric tube for the supply of air. This serves, with the at least two suspensions elastomeric noise decoupling, but also as a suspension element.
If we connect the elastomeric tubes with the connecting partners by insertions in the elastomeric tubes and the opposite profiles on the partners to insert.
The box can be prepared from any material, preferably plastic or metal.
For the attachment / suspension of the blower, elastomers are contemplated which exhibit viscoelastic properties and thus impart spring properties, but also energy-destroying properties. This contributes decisively to the sound insulation and the reduction of noise and vibration transfer. As already indicated, this fixing can be performed in a fixed manner, but preferably by suspension.
By the material and the shape of the suspension and fixing elements, a fast and simple assembly of the fan is possible in the soundproofing box.
Mounting is possible by integrating the driving elements and a shoulder / rear cut of the suspension. During assembly, the tips facilitate the implementation of the attachment by drilling; the back cut can mesh fixation / suspension and further diminish the troubles.
In addition, the suspension seals the borehole and thus also the two neighboring planes. Suspension fixation has the further advantage that large relative movements are possible.
These are desirably limited, by other elements, which are introduced at least partially, on the foot of the suspension, around it. These deflection limiters, for example, prevent the fan from touching the walls or modules of the sound insulation box.
As already mentioned above, a preferred fastening may consist of at least one elastomeric fastener element and at least one tubular air passage, or a decoupling pipe, which may each consist of an elastomer or a material of the type rubber.
The shape and choice of fastener material determines to a large extent the decoupling of the noise.
After the air has passed through the entrance of the unit and the noise has been reduced by the sound insulation box, the air reaches the fixed part of the unit housing.
In order to guarantee to the patient, during the treatment, a maximally optimal intake of gas, at the level of the physiology of respiration, it may be beneficial to use a humidifier. Where appropriate, it is preferably arranged behind the constituents described above.
To ensure a precise position of the humidifier and integrate it optimally in the basic unit, the three dimensions of movement of the humidifier are limited by the various elements of the device.
The first dimension is fixed by the adjoining planes, the bottom plate of the humidifier and a horizontal plane, directed towards the bottom of the basic apparatus.
The second dimension is limited by the introduction of at least one round element, preferably two round elements, which may be an element of the humidifier or the basic apparatus. To prevent jamming when inserting the humidifier into the base unit, it has guide rails.
In a preferred embodiment, the round members consist of a tubular connecting piece, provided with air passages, an air inlet and an immersion heater, provided with an electrical connection, which protrudes in the lower part of the humidifier, is placed in the water and is suitable for heating the water in the humidifier. The decoupling element between the sound insulation box and the basic apparatus also serves as a sealing material for connecting the input to the humidifier. The humidifier has at least one centering element, preferably a rail, to prevent jamming when inserting the covers into the base apparatus. The basic unit has guide slots.
The third dimension is blocked by the implementation of a coupling element by the basic apparatus and by the humidifier. The coupling element provides, on the one hand, the connection with the air supply of the humidifier and, on the other hand, the supply of air to the patient hose. The air paths that form are not parallel and are arranged at an angle, preferably 80 ° ± 10 °, between the inlet and the outlet of the humidifier.
To obtain a high rate of humidification of the air, one can imagine different air intake routes. The air accesses the device in the lower part of the humidifier and rises in an air duct profile, in vertical direction upwards, then reaches a high humidity of the air, preferably by mixing with the air of the humidifier, and brings back some of the moisture in another profile with air duct vertically downward, through the coupling element, to the breathing pipe to the patient.
The air duct profiles may consist of two separate adjacent tubes (Figure 10) or two concentric tubes (Figure 11) with a central air inlet tube. On this central air inlet tube, is arranged a nozzle, which ensures an optimal distribution, regular and a moisture absorption by the air stream.
In a particularly preferred form, the inlet and the outlet of the air are formed by a central tube with an additional wall for separating the inlet and the outlet. The air introduced into the humidifier arrives against and is deflected from a bouncing surface, in association with a separation plane and a mushroom dome, directly on the surface of the water, to achieve moisture high air.
These elements are located in the upper part of the humidifier. By the separation plane, it prevents a short circuit between incoming and outgoing air, without the air can be enriched in moisture.
One can imagine a layout as central as possible of the supply / discharge profiles, essentially to prevent possible entry of water into the opening, mainly concerning the supply channel. In addition, the inclination and the height of the opening for a bias position of the apparatus, have an influence on the probability of entry of water into the openings and an influence on the rebound behavior of the current. air.
In combination with the top separation plane and the air duct profiles of the humidifier, an overflow protection is provided. In addition to the elements already described, the upper part of the humidifier has other elements according to the invention, which improve the air duct, the safety and the maneuverability of the apparatus for the supply of breathing gas .
Advantageously, the mushroom-shaped dome acts through the air duct openings to prevent the ingress of water into the appliance during a process of filling the humidifier.
The mushroom-shaped dome or flange / collar is concentric around the inlet / outlet tube at the top, to prevent water spray from entering the tubes, especially into the inlet. The height of the neck of the outlet is lower to avoid, during a biased position of the device and a full humidifier, the ingress of water into the air outlet by the overpressure prevailing in the device, by the air transport in the pipe. In addition, the collar leads air directly to the water surface.
The mushroom-shaped dome is covered with a large neck, on the face bringing the air, unlike the exhaust face of the air; on the one hand to prevent water entry into the device, on the other hand not to let water out when in a position of bias of the device.
The closure of the humidification chamber is performed by the upper part and a lining. The packing is, in a preferred embodiment, a seal. In addition, the standard radial sealing methods are dispensed with and an axial sealing is effected by means of a circular bearing on the upper part (internal bearing) as well as on the lower part (outer bearing). The upper part is of such dimensions that the user allows a slight overshoot on the lower part, the lining element is not radially pinched and it remains on the clean axial surface of the liner. The annular packing member acts radially as a mounting aid for the user and provides the radial position of the packing elements against extraction. The humidifier is closed with a bayonet lock in the disassembled unit. If the humidifier is closed on the unit, the top of the humidifier can not be removed or placed on the humidifier. This is provided according to the invention to minimize the probability of water entering the apparatus during the filling process of the humidifier; this can be done by the open bottom of the humidifier, by filling by mistake, water in the profiles. This safety of non-opening of the upper part of the housing is achieved by an engagement closure with the artificial respiration apparatus.
To fill the humidifier, also in the mounted state in the device, is arranged in the upper part, a cover. It can be maneuvered according to the invention with one hand, which significantly improves the handling unlike the current types of closure. This is achieved by a tensioned element, which during the maneuver (opening) of the lid, remains open in fully open position. The open state of the lid is without voltage, in the closed state, the lid is energized. Light pressure is exerted on the lever-type cover, and with the tension force, the closing force is overcome.
For some patient groups, the use of a humidifier may be discontinued because they do not complain of dryness of the mouth or the respiratory tract. However, in order to be able to use the apparatus without a humidifier, a humidifier substitute is used in the same way, as described above, in the basic apparatus.
In the case of a humidifier substitute, the immersion heater is not necessary and is replaced by a neutral connection, which closes the opening in the device and protects the electrical contacts from external influences.
The connections are similar to parallel connections for connection to the air outlet and immersion heater of the basic unit. The first dimension is again limited by the opposite horizontal planes, the bottom of the humidifier substitute and the horizontal surface facing upwards of the basic apparatus.
The second dimension is blocked by the connection of at least one, preferably two round elements with the basic apparatus. The third dimension is blocked by the introduction of a coupling element by the basic apparatus into the humidifier substitute.
The cover further serves to reduce the noise of the mask because it has a relatively large expansion chamber, in which, in one embodiment, further narrowing and widening of the cross-section, and that sound insulation materials can be arranged.
To be able to continue reducing mask noise, the cover can also be larger and behave like many of these elements. The cover has at least one centering element, preferably a rail, to prevent shock when inserting the cover into the base apparatus. The basic device has guide grooves. The decoupling element has an additional function as a bead pad for the air inlet into the humidifier or the humidifier substitute.
Until now, it was not possible to quickly separate the pipes from the unit with one hand. With the coupling element already indicated above, it is possible to make a simple, quick and one-handed connection of a standard breathing tube with the apparatus.
This element has Bernoulli compensation. This element simulates, with the aid of a retrecibration, the behavior of the breathing tube, in particular the resistance of the breathing tube, so that a decreased pressure in the narrowing is equivalent to the pressure in the patient's mask. ; this cancels a pressure measurement tube to the patient.
The pressure present in the narrowing of the coupling member is provided by an opening in the coupling element, preferably a longitudinal orifice, and by a pressure measuring connection to a pressure sensor positioned in the apparatus.
Despite two different elements (humidifier as well as humidifier substitute), the pressure measuring channel is in the same position and ί both elements influence the measurement in a non-important way, because the measurement sites are arranged so far as possible from the entrance of the device; the geometries at the level of the coupling elements are identical. ) The coupling element has at least one packing, preferably two seals, which are arranged for the flow of the gas before and after the opening of pressure, to seal on the one hand, the device to the The pressure fittings on the inside of the apparatus are external and, on the other hand, because the pressure gradients in the vicinity of the Bernoulli elements can influence correct measurement by short-circuiting air currents. The opening for making the connection of the pressure chamber at the narrowing with the pressure sensor in the apparatus is preferably arranged at the top, otherwise condensation water accumulation is likely in the groove and can influence the pressure measurement.
In another preferred embodiment of the coupling element, there is arranged thereon, in association with the basic apparatus, rotation protection, which allows easy assembly of the element with its counterpart and preferably , has the shape of a triangle. The pints in the direction of the assembly serves at the same time as a centering element / positioning of the coupling element.
Figure 1 shows the basic structure of an artificial respiration device. At the housing level of the device (1) with control panel (2) and indicators (3), a breathing gas pump is arranged inside the device. Through a coupling element (4), a connecting pipe (5) is connected. By means of a control element (13), the coupling element can be easily and quickly coupled to the artificial respiration apparatus. Along the connecting pipe (5), there may be an additional pressure measuring pipe (not shown), through which a pressure inlet connection (not shown) can be connected to the housing of the apparatus (1). ). To enable data transfer, the housing of the apparatus (1) has an interface (8). At an elongation remote from the housing of the apparatus (1), the connecting pipe (5) is arranged an artificial breathing element (not shown).
To prevent drying out of the respiratory tract, it is particularly appropriate, especially for long periods of artificial respiration, to humidify the air breathed. Such humidification of the breathing air can also be performed for other applications. For humidification, a customary breathing air humidifier (9) is introduced in the airway between the artificial respiration apparatus and the patient. The breathing air humidifier consists of an upper part (11) and a lower part (12). The breathing air humidifier has at least one water introduction fitting, which is located at the upper portion (11).
In addition, an oxygen supply valve can be adapted to provide a user with an increased amount of oxygen with the breathing gas.
The connecting pipe may be connected, at the remote side of the artificial respiration apparatus, to a patient interface, which may be in the form of a nasal mask. A fixation at the level of the head of the patient is to be carried out by a helmet. At its elongation on the connecting pipe side, the breathing mask has a connection.
The upper part (11) has a raised edge, which can be seen in particular in Figure 5 and whose development is adjusted to the raised contour of an upper face of the housing of the device (1). In a state, in which the breathing air humidifier is connected to the housing of the apparatus (1), the upper part (11) can not be separated from the lower part (12). This avoids incorrect filling processes of the breathing air humidifier.
At the level of the reception of the breathing air humidifier (9), it is possible alternatively, according to FIG. 2, when the breathing air humidifier (9) is not used, a dome of cover (14), which meshes with the upper face and the lateral area of the apparatus and preserves the design of the apparatus.
The cover dome (14) has yet another pneumatic function for the transmission of air. On the basis of a passage of air through the interior space of the cover dome (14), a sound insulation function is achieved. Similarly, the breathing air humidifier leads to the mounted state, a decrease in noise.
The reception of the breathing air humidifier (15) is arranged according to FIG. 3, essentially parallel to a position surface of the apparatus. The breathing air humidifier (15) is introduced essentially laterally onto and / or into the apparatus. The mounting is facilitated by the two guide aids (55, 56); these center the breathing air humidifier during an introduction process, so that the air inlets of the apparatus (17) and the power supply (18) are assembled with the humidifier.
By a rounded shape of the reception of the breathing air humidifier, which is however not symmetrical, and a complementary shape of the breathing air humidifier, the direction and / or arrangement of the Breathing air humidifier at the device level is set. The breathing air humidifier is introduced precisely into a reception prepared for the breathing air humidifier, thus achieving a high degree of integration of the functions. A mounting error is prevented. A breathing air humidifier can not be rotated on the unit.
At the reception of the breathing air humidifier (15), there is the air inlet (17) and the power supply (18) for the breathing air humidifier. In addition, a pressure measuring connection (19) is observed. At the front of the apparatus there is a recess (16) for receiving the coupling element (4).
On the basis of the arrangement of the pressure casing connection (19), the pressure in the appliance is measured, but in the direction of flow, at the rear of the humidifier. Any pressure losses at the breathing air humidifier can not influence the measured value of the pressure.
At the lower part (12) of the breathing air humidifier, are arranged according to Figure 4, the air inlet (21) and a plug contact for the power supply (20) of the breathing air humidifier, essentially parallel to each other. The air outlet (22) of the breathing air humidifier is not in line with the air inlet (21) of the breathing air humidifier, but at an angle of about 90 ° to the air inlet. In at least one operating state, the air inlet (21) and a plug contact for the power supply (20) of the breathing air humidifier, as well as the air outlet (22). ) of the breathing air humidifier are essentially under the water supply. Laterally at the air outlet (22) there is a connection fitting (19.1) which is connected to the pressure measuring connection (19).
Figure 5 shows a view of the breathing air humidifier from the bottom, the humidifier is slightly leaning backwards. The base surface of the humidifier is essentially rounded, and is provided with at least one corner (23). The corner prevents rotation of the humidifier on the apparatus, so that the humidifier is complementary by its base surface to a reception for the humidifier, from the apparatus. Laterally at the air inlet (22) is a connection fitting (19.1), which is connected to the pressure measuring connection.
A fixation of the humidifier on the device is performed by the plug connector of the air intake (21) and the power supply (20) of the breathing air humidifier, in association with the air outlet (18) and the power supply (17) for the breathing air humidifier of the apparatus. The breathing air humidifier can be adapted to the device by two handles. The humidifier is conducted horizontally on the receiving surface of the apparatus, where the complementary zone of the humidifier and the apparatus define the direction of introduction. At least partial meshing of the complementary zone of the air inlet (21) and the power supply (20) of the breathing air humidifier with the air outlet (17) and the power supply of the device sets the humidifier. Final fixing and securing of the humidifier is performed by plugging and / or fixing the coupling elements (4) in the reception provided for this purpose (16) at the device.
Moreover, for easy and safer mounting, two guide aids (57, 58) are arranged on the breathing air humidifier, which mesh with the two guide aids on the apparatus (55, 56). ).
Figure 6 and Figure 7 show the coupling element (4). The coupling member (4) has an apparatus zone (25) for coupling to the apparatus through the recess (16) and on the opposite end a pipe zone (24) for coupling to the pipe (5). By pressing on the control part (29) of the control element (13), the function part (30) of the control element moves. Thus, the coupling element (4) can be coupled easily, quickly and reliably to the artificial respiration apparatus. In the part between the device zone (25) and the pipe zone (24), at least one lining (28), which may be a seal or a lip seal, is provided each time. At the coupling element there is a reduction (26) which has a smaller diameter than the coupling element.
At the reduction, there is a measurement opening (27). The coupling element fulfills at least two of the following functions: 1. a fixation of the humidifier to the apparatus 2. a sealed air duct from the humidifier to the pipe 3. a fixing of the pipe to the apparatus and / or to the humidifier 4. a measurement point 5. a start-up of the device 6. a fixation of the humidifier is partially achieved by the part bringing air.
Figure 8 shows the lower part (12) and Figure 9, the upper part (11) of the humidifier. The lower part serves essentially, reserve of water. The upper part serves mainly for the supply of air and composes with the lower part, the humidification chamber (41). In the lower part, the air coming from the apparatus through the air inlet (21) passes essentially at the bottom surface (34), in the center of the lower part. Here, the air duct (31) rotates at an angle greater than 60 °, preferably about 90 °, upwards.
The air duct (31) is divided in two by a partition wall (35) and open upwards. A portion directs air from the apparatus as an air supply (33) into the upper portion of the humidifier (11). There, the air arrives at the air receiving zone to an area of the bouncing plate (39), which is in the presence of non-humidified air and is directed by at least one air duct structure (37). ) in the humidification chamber (41). The air duct structure (37) prevents substantially unhumidified air from entering the air outlet (22) directly. This extends in course (59) on the output of the humidifier and at the same time adjusts rotation protection of the upper part of the humidifier. The humidified air, in use, is directed by at least one air duct structure (37) to an area of the bouncing surface (38), which is in the presence of humidified air. A flange (40) is located, as a bowl in the upper part of the air duct (31), during assembly of the humidifier, and defined by the air duct structure (37), which meets with substantially sealed manner, the partition wall (35), the air path of the humidifier. The flange (40) overlaps the upper edge of the air duct (31). Overlapping prevents water from escaping into the air inlet and into the appliance or into the air outlet and to the patient. The supply of air at the humidifier is essentially achieved by vertical tubes, which are arranged essentially centrally in the humidifier. The opening is always above the body of water.
According to the embodiment of Fig. 10, the air inlet duct (33) and the exhaust duct (32) develop in two separate chimney-type ducts, which extend parallel and a comparatively small distance from each other.
In general, an essential construction feature of the breathing air humidifier is that in the interior of the humidifier a chimney type structure is provided for the air inlet duct. to moisten and the outlet duct humidified breathing air. Connections leading outward are all in a lower part of the unit. This structure allows integration of the air humidifier breathed into the breathing apparatus and avoids a flange attachment separated from the breathing air humidifier, on the outer phase of the artificial respiration apparatus.
To prevent opening of the upper part (11) of the inserted humidifier, the recess (60) on the edge of the upper part takes the form of the housing so that a rotation of the upper part (11 ° is not not possible, because the recess (60) is formed at least partially, so as to engage with the housing of the apparatus.
In the upper part (11), there is recognized the filling connection (36) for water, which can be used by the closure (10).
The closure (10) for the filling orifice (36) is arranged according to FIG. 12, at the level of the upper part (II), for example at the edge. The closure has in its upper part, a control surface (42). The control surface is preferably inclined and has, to improve the haptics, an irregular structure of the surface.
At the closure is arranged according to Figure 13, a spring hinge (43). The hinge is preferably relaxed when the closure of the fill port is open. The hinge is therefore preferably under tension when the closing of the filling orifice is closed. The voltage is measured so that by a slight, targeted force of the control surface, the fill port opens. The inclination of the control surface defines and directs the action of the force of a user, preferably so that the closure is already released by a targeted and light force of the filling port.
The closure is preferably made from a slightly elastic material, particularly preferably from a rubbery material. The circular groove (61) allows easy mounting of the upper part (11).
In an operating state, the upper part of the humidifier is not removable. It is thus possible that an unintended filling, by an erroneous maneuver, of the humidifier by removal of the upper part is not possible.
The humidifier lining between the upper and the lower part is performed for example by a seal. The lining is preferably made axially radial guide. It may also be preferable to use, at the level of the apparatus, seal type gaskets, which seal axially to the radial guide.
Particularly preferably, lip seals are used everywhere, at the level of the humidifier and / or the apparatus, where pressures of up to 4 mbar can occur. The gas pressure presses the lip seal against the sealed surfaces, which are arranged, for example, between the upper part and the lower part of the humidifier.
Figures 14 and 15 show the arrangement of the semi-closed sound insulation box (45). In the assembled state, the upper part of the sound insulation box (45) is provided with a sealing material (63), which functions inter alia, also as positioning and sound insulation. The soundproofing box is preferably made of a plastics material and can be removed from the apparatus as a complete module. Thus, an easy cleaning possibility is guaranteed. At the level of the soundproofing box (45) there is a reception for the fan (47). By the air supply (46, 52), the sucked air arrives, by a filter element (not shown) to the fan. Moreover, there is a turning (65) and a channel (66) surmounting the module. The sound insulating material (67) is disposed in a turn.
Figure 15 shows among others, also a perspective rear view and the sound insulation box in the device. The air supply (46) is observed here directly because a not shown cover valve of the apparatus is removed. In a mounted state, the cover flap also acts as an observation liner and also the function of sound insulation.
FIG. 16 and FIGS. 17, 18, 30 and 31 show the structure of the sound insulation box (45) in three modules. The lower part (50), the middle part (48) and the upper part (49) can be assembled in a soundproofing box (45). The lower part (50), the middle part (48) and the upper part (49) define at least two essentially horizontal planes in which the air is directed and the noise is inhibited. The air-conducting zones (51) change with the insulating zones (52), which can be made as flat and / or flared and / or foam-lined areas. Preferably, at least two soundproofing principles are made at the level of the soundproofing box (45).
By at least one air deflection structure (53), the air is rotated at least once from a horizontal plane in a vertical plane and preferably returned to another horizontal plane. Preferably, a second change of plane of the air is made.
For example, the air guiding structures and sound insulation alternate at least once at the level of the sound insulation box (45).
The flat, horizontal, soundproof areas are above or below the fan reception (47). To achieve a proper insertion of the modules, guide columns (68) are integrated in the box, which host screw threads.
Figure 19 and Figure 20 show further views of the apparatus. The reception of the fan (53) in the soundproofing box (45) is essentially central, surrounded by the components leading the air and conducting the noise. Between the suction and pressure zone (55) of the device is the fan (53) in the sound insulation box (45).
The fan is made of flexible elastomeric elements (54), which preferably have elastic and insulating properties. The fan is suspended. The fan is suspended. By fixing, the fan is suspended movably in three dimensions. At the level of the fan, there are at least two sound-absorbing structures.
The fan is fixed in the apparatus centrally, as much as possible separated from the walls of the outer casing and / or surrounded by the air-conducting components and / or surrounded by the sound-absorbing components.
Figure 21 shows a section in the sound insulation box. The fan (53) is mounted on elastomeric suspensions (54) and further connected with a decoupling pipe (69) to the sound insulation box. The sound insulation box (45) consists of three modules (71), which are connected for example with screw connections (72); between these, the sealing and insulating material (73) is pinched. This is found as a support material (63) under the box. As deviation limiters, semi-cylindrical elements (70) are used which are arranged around the fan suspension.
Figure 22 shows the housing of the sound insulation box (45), as well as the air outlet (17) and the power supply (18) for the humidifier or shut-off valve by a decoupling element (64).
Fig. 23 shows the artificial respiration apparatus and the semi-enclosed sound insulation box (45) on the inside which is closed by the insulating / supporting / sealing material (63). The decoupling element (64) ensures a decoupling of the semi-open sound insulation box (45) of the apparatus (1).
To facilitate mounting of the soundproofing material (63), it is imagined in particular that the soundproofing material is provided with at least two recesses and that the surfaces of the upper part of the apparatus, at the level of the turnable extensions of the soundproofing material (63) are provided with markings. Figure 23 shows two cross markings, essentially diagonally, where the center of the cross is associated each time with a circle. The depressions in the sound-absorbing material (63) may preferably be crosswise. During assembly, it must be ensured that the central point of the recesses corresponds to the central bridge of the cross markings. If this is achieved, optimal mounting is guaranteed. In general, it turns out that two hollows and two cross markings are sufficient to aid an easy assembly process.
Figure 24 shows a view of the sound insulation box (45), with a counter-profile (74) for a decoupling element not shown.
FIG. 25 shows a view of the sound insulation box (45), which has a module (71), a counter-profile (74) for a not shown decoupling pipe, screw connections (72) and drilling (77) for the fan suspensions (54). The use of the existing geometries, here the positioning of the fan (76) and a screw connection (72) to form the planes and the structure of the air ducts and the zones of sound insulation, for example by the sound-absorbing material (63). The fan suspension (54) simultaneously closes the bore (77) and thus also the two planes separated by the module (71).
Fig. 26 shows a section in a breathing air humidifier (9), with an upper portion (11) and a lower portion (12). Between them is introduced a seal (82), which preferably consists of a seal. Furthermore, a separation plane (35) on the lower part (12) and a separation plane (37) on the upper part are visible between the vertical input and output channels. The air inlet (33) and the air outlet (32) are supplemented by a flange (40) to influence the air duct in a desired manner. The pressure measuring connection (19.1) is also observed.
Figure 27 shows a rear view of the apparatus (1) and a cover flap for the air inlet (78) for air entering the apparatus, which contributes to the sound insulation of aspiration.
Fig. 28 shows the shape of a fan suspension (54), which is provided with a guide tip (79), a shoulder (80) and a groove (81) for rapid mounting of the fan .
Figure 29 shows another partial representation of the interior space of the apparatus (1). In particular, it illustrates how the connections on the pressure measuring fitting are made inside the device. The pressure measuring connection (19) firstly comprises a hollow, which is not recognizable in FIG. 29, in an inner wall (90) of the housing of the apparatus, in which a lining element (91) is inserted, preferably an elastomeric material. The packing element (91) is fixed by lateral rods (92, 93). From the outside, the connection fittings of the breathing air humidifier can be introduced on the packing element (91).
The lateral rods (92, 93) have, on the outside, a notch profile which can engage with an adapter (94). The adapter (94) has fastening cross members (95, 96) which engage the support profile. The cross members are carried by a central member (97) of the adapter (94), one end of which may be inserted as a support, into the packing member (91). By a stop plate (98), the adapter (94) supports an exact position.
A support (99) of the adapter (94) opposite the packing element (91) serves to assemble a not shown pressure pipe which connects to the pressure sensor. In particular, it is imagined that the pressure sensor is arranged at a control panel of the apparatus.

权利要求:
Claims (25)
[1" id="c-fr-0001]
1. Artificial respiration apparatus with integrable breathing air humidifier (9) having a pressure measuring connection, which is arranged after the humidifier, in the direction of the flow and in which at the level of the humidifier breathing air at least two defined airways (31, 32) are arranged, characterized in that a pressure sensor is arranged on a control plate of the artificial respiration apparatus, and is connected by a pipe measuring the pressure at a measurement site.
[2" id="c-fr-0002]
2. Artificial respiration apparatus according to claim 1, characterized in that the breathing air humidifier (9) is fixed on a horizontal surface (15) of the artificial respiration apparatus.
[3" id="c-fr-0003]
Artificial respiration apparatus according to claim 1 or 2, characterized in that the breathing air humidifier (9) consists of an upper part (11) and at least one lower part (12) and is provided with level of the lower part, a water reserve and in that the upper part is inseparable from the lower part, in at least one operating state.
[4" id="c-fr-0004]
4. Artificial respiration apparatus according to claim 3, characterized in that it comprises at least one filling device (10) for the water reserve filling device being configured to be controlled by a hand.
[5" id="c-fr-0005]
5. Artificial respiration apparatus according to claim 1 characterized in that at the level of the artificial respiration apparatus (9), there is provided a sound insulation box (45).
[6" id="c-fr-0006]
6. Artificial respiration apparatus according to the preceding claim, characterized in that at the level of the soundproofing box (45), there is provided an air duct such that the air is reversed in the horizontal direction and / or vertical, at least twice or more, of 80 ° +/- 10 °.
[7" id="c-fr-0007]
Artificial respiration apparatus according to any one of the preceding claims, characterized in that the breathing air humidifier is connected by at least one coupling element (4) to a breathing pipe (5), the element coupler securing the breathing air humidifier (9) at the artificial respiration apparatus.
[8" id="c-fr-0008]
8. Artificial respiration apparatus, according to claim 5 characterized in that the sound insulation box consists of at least two modules.
[9" id="c-fr-0009]
9. Artificial respiration apparatus, according to the preceding claim characterized in that the modules define by hollow areas leading air and / or soundproofing areas.
[10" id="c-fr-0010]
10. artificial respiration apparatus according to any one of claims 5 to 9 characterized in that the sound insulation box (45) is made essentially of a plastic material.
[11" id="c-fr-0011]
11. Artificial respiration apparatus according to any one of claims 5 to 10 characterized in that at the level of the sound insulation box, there is provided an air duct so that the sucked air is at minus once returned from the horizontal direction to the vertical direction and / or at least once from the vertical direction to the horizontal direction.
[12" id="c-fr-0012]
12. Artificial respiration apparatus, according to claim 1 characterized in that at the level of the artificial respiration apparatus, is arranged at least one fan (53) by elastomeric fasteners.
[13" id="c-fr-0013]
13. Artificial respiration apparatus, according to the preceding claim characterized in that at least one fan is fixed in suspension.
[14" id="c-fr-0014]
14. Artificial respiration apparatus according to claim 1, characterized in that at a housing of the apparatus (1) of artificial respiration is arranged a receiving element (15), from which the air humidifier (9) can be removed and which has at least one coupling element for the functional connection of the air humidifier with the artificial respiration apparatus.
[15" id="c-fr-0015]
15. Breathing apparatus according to the preceding claim characterized in that at the recess (15) the housing (1) has a surface contour adapted to fit a surface contour of a replacement element (14). which has at the receiving end a connection channel for coupling a breathing gas inlet with a breathing gas outlet.
[16" id="c-fr-0016]
16. Artificial respiration apparatus according to the preceding claim, characterized in that not only the replacement element (14), but also the breathing air humidifier (9) have a formation for connection with a securing element , which fixes the replacement element or the breathing air humidifier at the receiving level by module, and which is configured for manual manipulation.
[17" id="c-fr-0017]
Artificial respiration apparatus according to claim 12 wherein the ventilator is arranged in a soundproofing box (45) which is positioned in a housing (1) of the artificial respiration apparatus and which is elastic in relation to the housing of the artificial respiration apparatus, characterized in that the sound insulation box is configured in a semi-closed manner.
[18" id="c-fr-0018]
18. Artificial respiration apparatus according to claim 1 with a sound insulation box, which is positioned in a housing of the artificial respiration apparatus, characterized in that the sound insulation box is configured in a semi-closed manner and that the open area of the sound insulation box can be closed by a sound-absorbing material.
[19" id="c-fr-0019]
Artificial breathing apparatus according to claim 1 with a ventilating spring fan (45), characterized in that the elastic attachment is formed by at least one tenon of elastomeric material, which has a notched profile, in which the fan meshes with a counter-profile.
[20" id="c-fr-0020]
20. Artificial respiration apparatus according to claim 1 which is formed of a lower portion (12) and an upper portion (11), characterized in that the upper portion has an outer contour such that the upper portion is provided at the lower part, in an operating state combined with the artificial respiration apparatus, against separation of the parts.
[21" id="c-fr-0021]
21. Artificial respiration apparatus according to claim 1 with a supply of air, characterized in that the air supply is arranged in a rear part of the apparatus and is provided with a cover valve, which has a training as an observation screen, but also training as a soundproofing element.
[22" id="c-fr-0022]
22. Artificial respiration apparatus, according to claim 1 which has an internal space limited by an apparatus casing, wherein is arranged at least one element on a sound-absorbing support, characterized in that the sound-absorbing support has at least one hollow and in which at least one marking corresponding to the recess is arranged at a mounting surface provided for the soundproofing element.
[23" id="c-fr-0023]
23. Artificial respiration apparatus according to claim 1, characterized in that the humidifier is attached by at least one coupling element in the artificial respiration apparatus and in that the coupling element serves in addition to fixing the pipe.
[24" id="c-fr-0024]
Artificial respiration apparatus according to claim 1, wherein a breathing tube is connected by at least one coupling member to the artificial respiration apparatus, characterized in that the coupling member (4) has a hose zone. (24) for coupling to the pipe (5) and an apparatus zone for coupling to the artificial respiration apparatus.
[25" id="c-fr-0025]
Artificial breathing apparatus according to claim 1, with a hollow for a coupling element for quick and one-handed connection of a breathing gas pipe with the artificial respiration device by the coupling element. characterized in that the coupling element (4) has a pipe zone (24) for coupling to the pipe (5), or by actuating a control element (13), a function part (30) of the coupling element allows locking / unlocking at a recess of the artificial respiration apparatus and thus the coupling element (4) with the connected pipe is adapted to be coupled and / or decoupled from the artificial respiration apparatus.

类似技术:

公开号 | 公开日 | 专利标题

FR3042417A1|2017-04-21|ARTIFICIAL BREATHING DEVICE

RU2649750C2|2018-04-04|Method of assembling simulated cigarette

JP6080082B2|2017-02-15|Electronic cigarette and electronic cigarette kit

EP2540335A1|2013-01-02|Tank for respiratory assistance device

CN109512037A|2019-03-26|Electronic cigarette atomization device

CN106136328B|2019-09-24|A kind of electronic cigarette

FR2798858A1|2001-03-30|Pressurized gas flow control valve for feeding gas from breather circuit of continuous and positive pressure respirator supplying user

CN206005949U|2017-03-15|A kind of electronic cigarette

JP2019514576A|2019-06-06|Humidification chamber and chamber seal for breathing assistance device

WO2009077667A2|2009-06-25|Respiratory assistance device

CA2928215A1|2016-11-12|Micro-fan with improved axis-motor seal for respiratory assistance device

WO2014122368A1|2014-08-14|Turbine for a breathing assistance apparatus with improved gas tightness

CA2773072C|2015-10-27|Pressure equalizing valve

EP1285805B1|2005-11-02|Multifunctional assembly for fuel system, tank with such an assembly and method of making the system

CN209643854U|2019-11-19|Electronic cigarette atomization device

FR2692175A1|1993-12-17|Fragrant liquid spray - comprises casing, containing air generating membrane pump, with outlet nozzle connected to liquid cartridge venturi

EP3441103A1|2019-02-13|Water tank for gas humidifier with bonded heating plate

EP1570968B1|2015-12-23|Breathing aid apparatus with expansion chamber

FR3086174A1|2020-03-27|FLUID DISTRIBUTION SOCKET PROTECTED BY A ROUNDED HOUSING

CN209073553U|2019-07-09|Oil-leakage-prevention electronics smoke grenade and electronic cigarette

FR2986710A1|2013-08-16|ARTIFICIAL VENTILATION SYSTEM AND CONNECTION SYSTEM THEREFOR FOR PREVENTING CONTAMINATION

EP3922894A1|2021-12-15|Guiding end tip for a fluid distribution wall socket made of two materials

EP2417995B1|2015-03-04|Respiratory assistance system

FR3066696A1|2018-11-30|IMPROVED SEALING WATER TANK FOR A GAS HUMIDIFIER SUPPLIED BY A MEDICAL FAN

EP3922339A1|2021-12-15|Guiding end tip for a fluid distribution wall socket including a filtering element with controlled porosity

同族专利:

公开号 | 公开日

US20140137861A1|2014-05-22|

US7909032B2|2011-03-22|

US10463827B2|2019-11-05|

FR2889072B1|2016-12-09|

US20110132360A1|2011-06-09|

FR2889072A1|2007-02-02|

US20070193580A1|2007-08-23|

DE102006034028A1|2007-02-08|

US20200061327A1|2020-02-27|

CN1939549A|2007-04-04|

CN1939549B|2012-11-28|

FR3042417B1|2021-10-22|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US5673687A|1995-06-07|1997-10-07|Respironics, Inc.|Humidifier for a ventilator and an associated attachment|

WO2001010489A2|1999-08-05|2001-02-15|MAP Medizintechnik für Arzt und Patient GmbH & Co. KG|Device for supplying a respiratory gas, humidifying device, respiratory gas tube, and connecting device therefor|

US20030217746A1|2000-06-14|2003-11-27|Fisher & Paykel Healthcare Limited|Breathing assistance apparatus|

US3690317A|1970-10-29|1972-09-12|Bendix Corp|Sonic nebulizer|

US4060576A|1972-09-13|1977-11-29|Graham Cameron Grant|Method and apparatus for vapor saturated gas delivery|

US4261353A|1979-08-20|1981-04-14|Bourns Medical Systems, Inc.|Humidifier filler|

US4943704A|1989-02-06|1990-07-24|Ryder International Corporation|Humidifier apparatus|

CN1045036A|1989-02-27|1990-09-05|重庆大学|High-frequency oscillation breath machine|

CA2039010A1|1990-03-26|1991-09-27|Kenneth G. Miller|Infant incubator humidifier|

US5617906A|1991-01-24|1997-04-08|The Boc Group Plc|Container for anaesthetic agent|

DE4105147A1|1991-02-20|1992-08-27|Draegerwerk Ag|FILLING DEVICE FOR NARCOSIS EVAPORATOR|

US5687777A|1996-03-11|1997-11-18|Ohmeda Inc.|Anesthetic agent filler valve|

US6115539A|1998-11-16|2000-09-05|Cohn; Robert J.|Module for producing hot humid air for a proofing or holding chamber|

US6435180B1|1999-07-01|2002-08-20|J&M Distributors Limited|Method and apparatus for delivering humidified air to a face mask|

US7111624B2|2000-03-21|2006-09-26|Fisher & Paykel Healthcare Limited|Apparatus for delivering humidified gases|

US6691702B2|2000-08-03|2004-02-17|Sequal Technologies, Inc.|Portable oxygen concentration system and method of using the same|

US6644311B1|2001-02-21|2003-11-11|Respironics, Inc.|Monitoring fluid flow in a pressure support system|

DE10139881B4|2001-08-20|2017-06-08|Resmed R&D Germany Gmbh|Apparatus for supplying a breathing gas and method for controlling the same|

US6438984B1|2001-08-29|2002-08-27|Sun Microsystems, Inc.|Refrigerant-cooled system and method for cooling electronic components|

EP2799103B1|2002-02-04|2016-04-13|Fisher & Paykel Healthcare Limited|Breathing assistance apparatus|

CA2790187C|2002-09-17|2015-07-07|Fisher & Paykel Healthcare Limited|Apparatus for delivering humidified gases|

AT366601T|2003-03-12|2007-08-15|Novosis Ag|TRANSDERMAL ADMINISTRATIVE ADMINISTRATION SYSTEM WITH ELECTRODE RASTER|

US7975688B1|2003-03-14|2011-07-12|Ric Investments, Llc|Vibration reducing blower assembly mounting|

NZ745073A|2003-06-20|2018-11-30|ResMed Pty Ltd|Breathable gas apparatus with humidifier|

AU2003903139A0|2003-06-20|2003-07-03|Resmed Limited|Breathable gas apparatus with humidifier|

US6745800B1|2003-09-04|2004-06-08|Datex-Ohmeda, Inc.|Arrangement for preventing overfill of anesthetic liquid|

US7413173B2|2004-09-10|2008-08-19|Ric Investments, Llc|Molded water chamber base plate for use in a humidifier and ventilator assembly|

DE102006034028A1|2005-08-01|2007-02-08|Weinmann Geräte für Medizin GmbH + Co. KG|Artificial respiration e.g. CPAP respiration, apparatus for use in clinic, has respired air humidifier comprising upper part not separable from lower part, and air outlet disposed at preset angle with respect to air inlet|

US7677246B2|2005-09-23|2010-03-16|Ric Investments, Llc|Modular pressure support system|

US8931481B2|2009-06-04|2015-01-13|Redmed Limited|Flow generator chassis assembly with suspension seal|

WO2013114345A1|2012-02-02|2013-08-08|Imt Ag|Sound-proofing housing for a respirator|US8156937B2|2003-08-04|2012-04-17|Carefusion 203, Inc.|Portable ventilator system|

US8118024B2|2003-08-04|2012-02-21|Carefusion 203, Inc.|Mechanical ventilation system utilizing bias valve|

US7188621B2|2003-08-04|2007-03-13|Pulmonetic Systems, Inc.|Portable ventilator system|

US7607437B2|2003-08-04|2009-10-27|Cardinal Health 203, Inc.|Compressor control system and method for a portable ventilator|

EP2079504B1|2006-11-06|2021-03-17|Fisher & Paykel Healthcare Limited|Integrated humidifier chamber & lid|

DE102008020054A1|2007-04-18|2008-10-23|Weinmann Geräte für Medizin GmbH + Co. KG|Method and device for updating medical devices|

US20100170510A1|2007-06-04|2010-07-08|Compumedics Medical Innovation Pty Ltd|Water reservoir baffle|

DE102007033404B3|2007-07-18|2008-06-12|Dräger Medical AG & Co. KG|Supply device for respiratory gas has a respiratory gas module with inlet and outlet channels as well as valves, a blower module and a plug-in coupling device|

US7997885B2|2007-12-03|2011-08-16|Carefusion 303, Inc.|Roots-type blower reduced acoustic signature method and apparatus|

US8888711B2|2008-04-08|2014-11-18|Carefusion 203, Inc.|Flow sensor|

US20100059055A1|2008-09-05|2010-03-11|Brungart Timothy A|Gas delivery system including a flow generator having an isolated blower assembly for noise reduction|

US9737682B2|2009-09-17|2017-08-22|Resmed Limited|Humidification of respiratory gases|

US8931481B2|2009-06-04|2015-01-13|Redmed Limited|Flow generator chassis assembly with suspension seal|

DE102010004527A1|2010-01-14|2011-07-21|Dräger Medical GmbH, 23558|Ventilation and anesthesia machine|

DE202011101554U1|2010-08-11|2011-11-16|Sls Medical Technology Corp., Ltd.|Ventilator for identifying the purity / turbidity of a filter|

DE102010055469A1|2010-12-22|2012-06-28|Ingo Schwaiger|Moistener chamber for gas for use in gas flow tempering- and moistening device, has reservoir for liquid and inflow opening and outflow opening, where flow guiding element is provided for guiding gas flow over surface|

NO2597030T3|2011-10-01|2017-12-30|

WO2013114345A1|2012-02-02|2013-08-08|Imt Ag|Sound-proofing housing for a respirator|

EP2968830B1|2013-03-14|2019-03-06|Fisher & Paykel Healthcare Limited|Humidification chamber with microstructured surface|

EP2703034B1|2012-08-28|2017-05-17|Löwenstein Medical Technology S.A.|Device for the humidification of respiratory gas|

AU2013313726B2|2012-09-07|2016-05-26|Fisher & Paykel Healthcare Limited|Humidification chamber for a respiratory assistance apparatus|

AU2013355303B2|2012-12-04|2017-12-14|Mallinckrodt Hospital Products IP Limited|Cannula for minimizing dilution of dosing during nitric oxide delivery|

US9795756B2|2012-12-04|2017-10-24|Mallinckrodt Hospital Products IP Limited|Cannula for minimizing dilution of dosing during nitric oxide delivery|

US9289573B2|2012-12-28|2016-03-22|Covidien Lp|Ventilator pressure oscillation filter|

US20140261419A1|2013-03-15|2014-09-18|Apex Medical Corp.|Water chamber for a respiratory therapy apparatus and a partition of the water chamber|

CN105764560B|2013-09-13|2018-04-06|费雪派克医疗保健有限公司|Connection for humidification system|

RU2018124996A3|2013-12-20|2021-09-21|

DE202014007024U1|2014-03-28|2014-11-12|Weinmann Geräte für Medizin GmbH + Co. KG|Apparatus for ventilation|

CN104162222A|2014-08-25|2014-11-26|河北普世达医疗器械有限公司|Inhaled oxygen humidifying device|

CN104368072B|2014-11-28|2016-11-23|江苏鱼跃信息系统有限公司|There is the little area water tank of circulative convection structure|

CN104548298B|2015-01-09|2017-11-14|北京怡和嘉业医疗科技股份有限公司|A kind of lung ventilator|

WO2016181246A1|2015-05-08|2016-11-17|Koninklijke Philips N.V.|Liquid removal in a patient interface assembly|

GB2540164A|2015-07-07|2017-01-11|Dyson Technology Ltd|Humidifying apparatus|

GB2540166B|2015-07-07|2019-06-12|Dyson Technology Ltd|Humidifying apparatus|

GB2540165B|2015-07-07|2019-09-11|Dyson Technology Ltd|Humidifying apparatus|

CN109152907B|2016-05-02|2022-03-08|菲舍尔和佩克尔保健有限公司|Humidification chamber and chamber seal for a breathing assistance apparatus|

US11052217B2|2017-05-17|2021-07-06|ResMed Pty Ltd|Humidifier|

TW202045217A|2019-03-26|2020-12-16|紐西蘭商費雪派克保健有限公司|Humidification chamber and apparatus and systems including or configured to include said chamber|

EP3956003A1|2019-04-17|2022-02-23|ResMed Pty Ltd|Cpap system|

WO2020251376A1|2019-06-14|2020-12-17|Fisher & Paykel Healthcare Limited|An apparatus for delivering a gas stream|

法律状态:
2017-01-05| PLFP| Fee payment|Year of fee payment: 11 |

2017-12-08| CD| Change of name or company name|Owner name: LOEWENSTEIN MEDICAL TECHNOLOGY GMBH + CO. KG, DE Effective date: 20171108 |

2018-01-19| PLFP| Fee payment|Year of fee payment: 12 |

2018-03-16| PLSC| Publication of the preliminary search report|Effective date: 20180316 |

2018-06-22| TP| Transmission of property|Owner name: LOEWENSTEIN MEDICAL TECHNOLOGY, LU Effective date: 20180118 |

2018-07-25| PLFP| Fee payment|Year of fee payment: 13 |

2019-07-19| PLFP| Fee payment|Year of fee payment: 14 |

2020-07-21| PLFP| Fee payment|Year of fee payment: 15 |

2021-07-27| PLFP| Fee payment|Year of fee payment: 16 |

优先权:

申请号 | 申请日 | 专利标题

DE102005036611|2005-08-01|

DE102006014751|2006-03-28|

FR0606982A|FR2889072B1|2005-08-01|2006-07-31|DEVICE FOR ARTIFICIAL BREATHING|

[返回顶部]