CN216222018U - Air bag vest for postoperative pressure bandaging - Google Patents

Abstract

The application discloses gasbag undershirt is wrapped in postoperative pressurization, including the undershirt that is equipped with one or more gasbags and for the gas filled trachea of gasbag, the gasbag can expand after aerifing, is provided with the check valve on the trachea, and is provided with a plurality of air seal devices that open and shut in the gasbag, and when a plurality of air seal devices that open and shut closed, can separate into a plurality of gasbag check with the gasbag, can make intercommunication between the adjacent gasbag check when the air seal device that opens and shuts opens. This kind of gasbag undershirt, can independently select the gasbag check that needs the switching according to patient's wound cavity position, so that the gasbag aerifys the back, only need the gasbag check at hemostasis by compression position to aerify the inflation, but not the gasbag check at wound cavity position can not aerify the inflation, just so make the gasbag undershirt to the patient of different sizes, different wound cavity positions, all have fine adaptability, avoid the patient to dress behind the undershirt, non-wound cavity position also receives the high pressure extrusion, so that alright improve the comfort level after the patient wears the undershirt, do benefit to the patient and recover early.

Description

Air bag vest for postoperative pressure bandaging

Technical Field

The application relates to the field of medical equipment, in particular to a postoperative pressurizing bandaging air bag vest.

Background

After the breast cancer operation, the wound cavity at the affected side and the armpit need to be bandaged by pressurizing, most patients have allergy to the self-adhesive bandage with better pressurizing force, and the patients with skin being grinded into blisters are all the same; and the dressing change efficiency of the clinician is greatly reduced by laying and supporting a large amount of gauze.

The inflatable pressure bandaging vest in the prior art adopts an integral air bag, and the pressure on an affected part is uneven; after the air bag is inflated, the air bag is expanded in a spherical trend, the central part has overhigh pressure on the affected part, and the edge part is looser, so that the air bag is neither comfortable nor favorable for postoperative recovery. On the other hand, the single air bag of the inflatable vest can only be opened integrally, and the inflation position and size of the air bag cannot be selected according to the size of the wound cavity of the patient, so that the non-position of the patient can be extruded by the high pressure of the air bag after wearing the vest, and the experience of the patient is not good.

SUMMERY OF THE UTILITY MODEL

The application aims to overcome the defects in the prior art and provide a vest with a pressure dressing air bag after operation.

The application provides a gasbag undershirt is wrapped in postoperative pressurization includes: the vest is provided with one or more air bags, and the air bags can be expanded after being inflated; one or more air pipes, each air pipe is arranged corresponding to one air bag and used for inflating the corresponding air bag, the air outlet end of each air pipe is communicated with the inside of one air bag, the air inlet end of each air pipe is used for being connected with an air supply device, and each air pipe is also provided with a one-way valve; the air bag is internally provided with a plurality of opening and closing air-tight devices, when the opening and closing air-tight devices are closed, the air bag can be divided into a plurality of air bag cells, and when the opening and closing air-tight devices are opened, the adjacent air bag cells can be communicated.

In the above technical solution, preferably, each of the air bags includes a first surface and a second surface, the edges of which are hermetically connected, and each of the opening and closing air-tight devices includes a first air-tight seal disposed on the first surface and a second air-tight seal disposed on the second surface; the first air sealing strip can be in sealed buckling with the second air sealing strip so as to close the opening and closing air sealing device, and the first air sealing strip can be separated from the second air sealing strip so as to open the opening and closing air sealing device.

Furthermore, the first air-tight seals of the opening and closing air-tight devices are arranged on the first surface in a grid shape, and the shapes of the second air-tight seals of the opening and closing air-tight devices on the second surface are matched with the shapes of the first air-tight seals of the opening and closing air-tight devices on the first surface.

Furthermore, all the first air sealing strips on the first surface are of a multi-section structure, or all the first air sealing strips on the first surface are of an integrated structure; all the second airtight seals on the second surface are of a multi-section structure or are of an integrated structure.

In a specific technical scheme, one of the first air sealing strip and the second air sealing strip is provided with a sealing strip, the other one of the first air sealing strip and the second air sealing strip is correspondingly provided with a sealing groove, and the sealing strip can be embedded into the sealing groove, so that the first air sealing strip and the second air sealing strip are sealed.

In another specific technical solution, the first air-tight seal strip and the second air-tight seal strip are magic tapes capable of being stuck together or separated from each other.

In another specific technical scheme, the first air-tight seal strip and the second air-tight seal strip are magnetic strip stickers capable of being mutually adsorbed and separated.

In another aspect, each of the air bags includes a first surface and a second surface that are connected by sealing, and the opening and closing air-tight device is a zipper structure disposed between the first surface and the second surface.

In any of the above technical solutions, preferably, a plurality of air passage channels are provided in the airbag along the plurality of opening and closing airtight devices, and air outlet holes are provided on the air passage channels, and the air outlet holes can be closed when the opening and closing airtight devices at corresponding positions are closed and opened when the opening and closing airtight devices at corresponding positions are opened; the air path channel is arranged on the first air sealing strip, or the air path channel is arranged on the second air sealing strip, or the air path channel is enclosed by the first air sealing strip and the second air sealing strip after being sealed. This kind of setting can be with the gas circuit passageway embedding in airtight strip of paper used for sealing for the venthole can be followed opening and closing of opening and shutting air seal device and realize opening and sealing.

On one hand, the air passage channels can flow through all the air bag grids, corresponding air outlet holes are formed in the corresponding air bag grids, and the structure is suitable for air bag vests with large air bag grids. On the other hand, the air bag can be partitioned, so that the air bag comprises a plurality of partition areas, the air channel flows through each partition area of the air bag, and the corresponding air outlet hole is arranged corresponding to each partition area of the air bag, and thus, the partition air supply of the air bag can be realized. The structure is suitable for smaller air bag vests with air bag grids, and air supply of one air bag grid and one air bag grid is inconvenient at the moment, so that regional air supply is selected.

In any of the above technical solutions, preferably, the air bag includes an independently arranged anterior chest air bag and an independently arranged axillary air bag, and the air tube is respectively arranged corresponding to the anterior chest air bag and the axillary air bag.

In any of the above technical solutions, preferably, the air supply device is a manual air pump, an electric air pump or a pressurized hand-pinched ball which can be detachably and hermetically connected with the air tube. Of course, the air supply device can be arranged in other forms of structures according to the needs.

In any of the above technical solutions, preferably, the air tube is provided with a control valve, the control valve is used for controlling the on/off of the air tube, and when a plurality of air bags are provided, the plurality of air tubes can be connected together through the control valve and the on/off of each air tube can be controlled respectively.

In any of the above technical solutions, preferably, the vest is a rear buckle type structure, and the rear buckle type structure is a hook and loop type structure, a strap type structure, or a buckle type structure.

The vest with the postoperative pressure bandaging air bag provided by the utility model comprises a vest and one or more air bags arranged on the vest, wherein the air bags can be an independently arranged chest air bag and/or an independently arranged armpit air bag. Each air bag is divided into a plurality of air bag grids by a plurality of opening and closing air-tight devices, so that the air bag grids can be automatically opened and closed by the opening and closing air-tight devices, particularly, when the vest is used, all the air bag grids can be communicated, so that the air bag grids can be combined into a large air bag according to requirements, and only local air bag grids can be opened according to actual requirements, so that only local positions of the air bag can be inflated and expanded, and the shape and the size of the inflated air bag can be adjusted. This kind of structure is wrapped through the gasbag undershirt postoperative, can effectively improve patient's such as breast cancer postoperative efficiency of changing dressings, avoids the patient anaphylactic, and simultaneously, cyclic utilization can be realized to the gasbag undershirt, accords with the environmental protection theory, reduces the patient and wraps the cost. Simultaneously, this kind of gasbag undershirt, can select the gasbag check that need the switching according to the size and the position at wound cavity position, when specifically using the gasbag undershirt like this, alright open the gasbag check that the patient need oppress hemostasis position, and will not need oppress hemostasis position's gasbag check to close, after the gasbag is aerifyd like this, just only the gasbag check at wound cavity position aerify the inflation, but the gasbag check at non-wound cavity position can not aerify the inflation, thereby just make the gasbag undershirt to different sizes, the patient of different wound cavity positions, all have fine adaptability, avoid the patient to dress the undershirt after, non-wound cavity position also receives the high pressure extrusion, so that alright improve the comfort level after the patient wears the undershirt, do benefit to the patient and recover early.

In addition, in this application, in the operation, can seal its all around to specific gasbag check aerify to satisfy the requirement, like this alright individual regulation the atmospheric pressure in specific gasbag check to realize the independent regulation of pressure of gasbag in each position.

It should be understood that what is described in this disclosure section is not intended to limit key or critical features of embodiments of the utility model nor is it intended to limit the scope of the utility model. Other features of the present invention will become apparent from the following description.

Drawings

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, like or similar reference characters designate like or similar elements, and wherein:

FIG. 1 is a schematic structural view of a postoperative compression wrap bladder vest provided herein;

FIG. 2 is a schematic diagram of the bladder portion of the postoperative compression wrap bladder vest provided herein;

fig. 3 is a schematic structural diagram of an opening and closing air-tight device of the postoperative pressure bandaging air bag vest provided by the application.

Wherein, the correspondence between the reference numbers and names in fig. 1 to 3 is as follows:

vest 1, air cell 2, air cell 22, air seal 24, air seal 242, air seal 244, air seal 26, surface 28, air tube 3, snap-back 4, and pressurized hand.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some, but not all embodiments of the present disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

As shown in fig. 1 to 3, the utility model provides a vest with a pressure-dressing air bag after operation, which comprises a vest 1 and one or more air pipes 3, wherein the vest 1 is provided with one or more air bags 2, and the air bags 2 can be expanded after being inflated; each air pipe 3 is arranged corresponding to one air bag 2 and used for inflating the corresponding air bag 2, the air outlet end of each air pipe 3 is communicated with the inside of one air bag 2, the air inlet end of each air pipe 3 is used for being connected with an air supply device, and each air pipe 3 is also provided with a one-way valve for preventing air leakage, so that air can conveniently enter the air bags 2 but is not easy to leak from the inside of the air bags 2; a plurality of opening and closing air-tight devices 24 are provided in the airbag 2, and when the plurality of opening and closing air-tight devices 24 are closed, the airbag 2 can be divided into a plurality of airbag cells 22, and when the opening and closing air-tight devices 24 are opened, the adjacent airbag cells 22 can be communicated with each other.

The vest with the postoperative pressure bandaging air bag provided by the utility model comprises a vest 1 and one or more air bags 2 arranged on the vest 1, wherein the air bags 2 can be specifically independently arranged chest air bags and/or independently arranged armpit air bags. Each air bag 2 is divided into a plurality of air bag cells 22 by a plurality of opening and closing air-tight devices 24, so that the air bag cells 22 can be opened and closed independently through the opening and closing air-tight devices 24, specifically, when the vest 1 is used, all the air bag cells 22 can be communicated, so that the air bag cells 22 can be combined into a large air bag 2 as required, and only local air bag cells can be opened according to actual requirements, so that the air bag 2 can be inflated and expanded only at local positions, and the shape and size of the inflated air bag 2 can be adjusted. This kind of structure is wrapped through the gasbag undershirt postoperative, can effectively improve patient's such as breast cancer postoperative efficiency of changing dressings, avoids the patient anaphylactic, and simultaneously, cyclic utilization can be realized to the gasbag undershirt, reduces the patient and wraps the cost. Meanwhile, the air bag vest can select the air bag lattices 22 which need to be opened and closed according to the size and the position of the wound cavity part, so that when the air bag vest is specifically used, the air bag lattices 22 of the part of a patient which needs to be compressed to stop bleeding are opened, and the air bag lattices 22 of the part which does not need to be compressed to stop bleeding are closed, so that after the air bag 2 is inflated, only the air bag lattices 22 of the part which needs to be compressed to stop bleeding are inflated and expanded, and the air bag lattices 22 of the part which does not need to be compressed to stop bleeding are not inflated and expanded, so that the air bag vest has good adaptability to patients with different body types and different wound cavity positions, the situation that the non-wound cavity part is also extruded at high pressure after the vest 1 is worn by the patient is avoided, the comfort level of the patient after wearing the vest 1 can be improved, and the early rehabilitation of the patient is facilitated.

In addition, in the present application, during operation, the specific air bag lattice can be inflated to the required state and the periphery is closed, so that the air pressure in the specific air bag lattice 22 can be independently adjusted, and the independent adjustment of the pressure of the air bag 2 at each position can be realized.

Specifically, when the airbag vest is used, if the airbag cells 22 to be opened are located relatively close to the position where the airbag 2 is distant from the trachea 3, all the airbag cells 22 may be opened first, the airbag 2 may be filled with gas, and the airbag cells 22 at the wound site may be closed after being filled with gas. The other airbag compartments 22 are then opened and the gas within them is forced out. Of course, when air passage channels leading to different parts of the air bag 2 are arranged in the air bag 2, the air bag lattice 22 needing to be opened can be directly inflated, and the air bag lattice 22 not needing to be opened is not inflated, so that the inflating and pressurizing steps can be simplified, the extra air exhausting step is omitted, and the air bag vest can be used more simply and conveniently.

The air supply device may be a manual or electric air pump, or may be a pressurized hand-pinched ball 5.

In the above embodiment, preferably, as shown in fig. 2, each air cell 2 includes the first surface 26 and the second surface 28, which are connected with each other in a sealing manner at their edges, and each opening and closing airtight device 24 includes the first airtight seal 242 provided on the first surface 26 and the second airtight seal 244 provided on the second surface 28; the first air-tight strip 242 can be engaged with the second air-tight strip 244 in a sealing manner to close the openable and closable air-tight device 24, and the first air-tight strip 242 can be separated from the second air-tight strip 244 to open the openable and closable air-tight device 24.

In this embodiment, the closure of the opening and closing airtight device 24 can be achieved by the sealing of the first and second airtight seals 242 and 244, so that the entire airbag 2 can be divided into a plurality of individual airbag compartments 22. At the same time, the opening of the opening and closing air-tight device 24 can be achieved by separating the first air-tight seal 242 and the second air-tight seal 244 so as to be able to communicate the respective plurality of air-bag compartments 22. Meanwhile, the structure of the airtight seal strip enables the operation of the opening and closing airtight device 24 to be more convenient, so that the position and the size of the inflatable expansion of the air bag 2 can be adjusted more conveniently, the operation of the air bag 2 is simple and easy, and the dressing change efficiency of postoperative patients can be effectively improved.

Further, as shown in fig. 1 and 2, the first air-tight strips 242 of the plurality of opening and closing air-tight devices 24 are disposed in a grid shape or an irregular grid shape on the first surface 26, and the grid shape may be one or more of a square shape, a circular shape, a diamond shape, a fan-shaped ring shape, a circular shape, a polygonal shape, and the like, so that the airbag 2 can be divided into a plurality of airbag compartments 22 with different shapes. The shape of the second airtight seal 244 of the plurality of openable airtight devices 24 on the second surface 28 is adapted to the shape of the first airtight seal 242 of the plurality of openable airtight devices 24 on the first surface 26.

Further, a plurality of bladder cells 22 may be arranged in a square or circular array to ensure that the bladder 2 is inflated to a shape that provides uniform pressure throughout the body of the wearer after wearing the vest 1.

Further, all of the first air-tight seals 242 on the first surface 26 are multi-segmented and all of the second air-tight seals 244 on the second surface 28 are multi-segmented, so that different air-tight seals 22 are not easily affected by other air-tight seals 22 when they are opened. Of course, all of the first air seals 242 on the first surface 26 may be of one-piece construction, and all of the second air seals 244 on the second surface 28 may be of one-piece construction.

In a specific embodiment, as shown in fig. 3, one of the first air-tight seal 242 and the second air-tight seal 244 is provided with a seal strip, and the other of the first air-tight seal 242 and the second air-tight seal 244 is correspondingly provided with a seal groove, and the seal strip can be inserted into the seal groove to seal between the first air-tight seal 242 and the second air-tight seal 244. And the structure of the sealing strip and the sealing groove can ensure that the sealing effect is better.

In another embodiment (not shown), first air seal strip 242 and second air seal strip 244 are hook and loop fasteners that can be adhered together or separated from one another. The magic tape is common, the sealing effect is good, the product cost can be reduced, and the product is better produced. The velcro tapes may be sewn or glued to the first and second surfaces 26 and 28 at the time of design.

In yet another embodiment (not shown), the first and second airtight seals 242, 244 are magnetic strips that can be attached and detached from each other. For example, the first air seal 242 may be a magnetic strip and the second air seal 244 may be an iron sheet.

In another embodiment (not shown), each air bag 2 includes a first surface 26 and a second surface 28 that are sealingly connected at their edges, and the reclosable air-tight device 24 is a zipper structure disposed between the first surface 26 and the second surface 28.

In any of the above embodiments, preferably, a plurality of air passage channels (not shown in the figure) are arranged in the airbag 2 along the plurality of opening and closing air-tight devices 24, and the air passage channels are provided with air outlets, which can be closed when the opening and closing air-tight devices 24 at corresponding positions are closed and can be opened when the opening and closing air-tight devices 24 at corresponding positions are opened; for example, the air passage may be provided on the first air seal 242 or on the second air seal 244. Of course, the air passage may also be configured to include a cover of the air tube 3 and a seat of the air tube 3, in which case, the cover of the air tube 3 may be disposed on the first air-tight sealing strip 242, and the seat of the air tube 3 may be disposed on the second air-tight sealing strip 244, so that when the two air-tight sealing strips are opened, the corresponding air bag cell 22 can be inflated through the corresponding air passage.

In this embodiment, the air supply to the respective portions of the airbag 2 may be realized by a plurality of air passages. Meanwhile, the structure can embed the air passage channel into the air-tight seal strip, so that the air outlet hole can be opened and closed along with the opening and closing of the opening and closing air-tight sealing device.

On one hand, the air passage channels can flow through all the air bag grids 22, and corresponding air outlet holes are arranged corresponding to each air bag grid 22, and the structure is suitable for air bag vests with large air bag grids 22. On the other hand, the airbag 2 may be partitioned so that the airbag 2 includes a plurality of partition areas, and the air passage channel may flow through each partition area of the airbag 2, and a corresponding air outlet hole may be provided corresponding to each partition area of the airbag 2, so that the partition air supply of the airbag 2 may be realized. The structure is suitable for the small air bag waistcoat with the air bag grids 22, and the air supply of one air bag grid and one air bag grid is inconvenient at the moment, so that the regional air supply is selected.

In any of the above embodiments, preferably, the air bags 2 include an independently arranged chest air bag and an independently arranged axillary air bag, and one air tube 3 is arranged corresponding to the chest air bag and the axillary air bag, so that different air tubes 3 can inflate different air bags 2.

In this embodiment, the precordial balloon is used for wound closure at a thoracic site and the underarm balloon is used for underarm wound closure. When the vest is actually designed, only the chest airbag or the armpit airbag can be arranged, and of course, the chest airbag and the armpit airbag can also be arranged at the same time.

In any of the above embodiments, preferably, the air tube 3 is provided with a control valve, and the control valve is used for controlling the on-off of the air tube 3, and when there are a plurality of air bags 2, the plurality of air tubes 3 can be connected together through the control valve, and the on-off of each air tube 3 can be controlled separately.

In any of the above embodiments, the first surface 26 and the second surface 28 are preferably made of an elastic airtight material so as to be able to ensure the sealing performance and the inflation performance of the airbag 2.

In any of the above embodiments, the vest 1 is preferably made of a resilient skin-friendly material that avoids patient allergies, preferably in the form of an existing sports vest, that is worn from the front of the body and tightened behind the body, and in particular the vest 1 may be provided as a rear buckle 4 to facilitate donning and doffing. The rear buckle structure 4 can be a hook and loop structure, a strap structure or a buckle structure.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, the description of the terms "one embodiment," "some embodiments," etc. means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A postoperative pressure bandaging bladder vest, comprising:

the vest is provided with one or more air bags, and the air bags can be expanded after being inflated;

one or more air pipes, each air pipe is arranged corresponding to one air bag and used for inflating the corresponding air bag, the air outlet end of each air pipe is communicated with the inside of one air bag, the air inlet end of each air pipe is used for being connected with an air supply device, and each air pipe is also provided with a one-way valve;

the air bag is internally provided with a plurality of opening and closing air-tight devices, when the opening and closing air-tight devices are closed, the air bag can be divided into a plurality of air bag cells, and when the opening and closing air-tight devices are opened, the adjacent air bag cells can be communicated.

2. The postoperative compression dressing balloon vest of claim 1,

each air bag comprises a first surface and a second surface which are connected in a sealing mode, and each opening and closing air sealing device comprises a first air sealing strip arranged on the first surface and a second air sealing strip arranged on the second surface;

the first air sealing strip can be in sealed buckling with the second air sealing strip so as to close the opening and closing air sealing device, and the first air sealing strip can be separated from the second air sealing strip so as to open the opening and closing air sealing device.

3. The postoperative compression dressing balloon vest of claim 2,

the first air sealing strips of the opening and closing air-tight devices are arranged on the first surface in a grid shape, and the shapes of the second air sealing strips of the opening and closing air-tight devices on the second surface are matched with the shapes of the first air sealing strips of the opening and closing air-tight devices on the first surface.

4. The postoperative compression balloon vest of claim 3,

all the first air sealing strips on the first surface are of a multi-section structure or are of an integrated structure;

all the second airtight seals on the second surface are of a multi-section structure or are of an integrated structure.

5. The postoperative compression dressing balloon vest of claim 2,

one of the first air sealing strip and the second air sealing strip is provided with a sealing strip, the other one of the first air sealing strip and the second air sealing strip is correspondingly provided with a sealing groove, and the sealing strip can be embedded into the sealing groove, so that the first air sealing strip and the second air sealing strip are sealed.

6. The postoperative compression dressing balloon vest of claim 2,

the first air sealing strip and the second air sealing strip are magic tapes capable of being adhered together or separated from each other, or the first air sealing strip and the second air sealing strip are magnetic stripe tapes capable of being mutually adsorbed and separated.

7. The postoperative compression dressing balloon vest of claim 2,

a plurality of air passage channels are arranged in the air bag along the plurality of opening and closing airtight devices, air outlet holes are arranged on the air passage channels, and the air outlet holes can be closed when the opening and closing airtight devices at corresponding positions are closed and opened when the opening and closing airtight devices at corresponding positions are opened;

the air path channel is arranged on the first air sealing strip, or the air path channel is arranged on the second air sealing strip, or the air path channel is enclosed by the first air sealing strip and the second air sealing strip after being sealed.

8. The postoperative compression dressing balloon vest of claim 1,

each air bag comprises a first surface and a second surface which are connected in a sealing mode through edges, and the opening and closing air-tight device is of a zipper structure arranged between the first surface and the second surface.

9. The postoperative compression balloon vest of any one of claims 1-8,

the air bags comprise a chest air bag and an armpit air bag which are independently arranged, and the air pipes are respectively arranged corresponding to the chest air bag and the armpit air bag; and/or

The air supply device is a manual air pump, an electric air pump or a pressurizing hand-pinching ball which can be detachably and hermetically connected with the air pipe; .

10. The postoperative compression bandaging balloon vest of any one of claims 1-8, wherein the vest is a rear buckle structure that is a velcro, a strap, or a snap-fit structure.

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