CN210521289U - Hyperbaric oxygen chamber device - Google Patents

Abstract

The utility model discloses a hyperbaric oxygen chamber device, which comprises a hyperbaric oxygen chamber body, an inner bag fixedly arranged in the hyperbaric oxygen chamber body and an air compressor communicated with the interior of the hyperbaric oxygen chamber body through an air pipe, wherein the hyperbaric oxygen chamber body arranged by the utility model can be folded for use to form an annular air bag structure, so that the hyperbaric oxygen chamber device is convenient to carry and use while the occupied area is reduced; the double-air cushion structure can selectively use a single air cushion or double air cushions according to the weight condition of a user, and after the single air cushion is inflated, a triangular structure is formed, so that the inner bag structure is stable while the whole hyperbaric oxygen chamber body is ensured to be unfolded, and the user can conveniently lie on the surface of the air cushion for treatment; the governing valve structure that sets up, after the hyperbaric oxygen is filled to hyperbaric oxygen cabin internal portion, under the elastic restoring force effect of atmospheric pressure and elastic component, guarantee that the dog of pressure knob and barrel casing inner wall closely laminates, conveniently carry out the gassing operation when avoiding leaking gas.

Description

Hyperbaric oxygen chamber device

Technical Field

The utility model relates to a hyperbaric oxygen cabin technical field, in particular to hyperbaric oxygen cabin device.

Background

Hyperbaric oxygen therapy refers to a method for treating hypoxic diseases and related diseases by breathing pure oxygen or high-concentration oxygen in an environment (hyperbaric oxygen chamber) higher than one atmospheric pressure, and aims to increase the physically dissolved oxygen content in blood and tissues and increase the dispersion distance of oxygen in the tissues, so as to treat hypoxic diseases, carbon monoxide poisoning, decompression sickness, wound healing difficulty and other diseases. However, some of these patients need to be treated with hyperbaric oxygen as early as possible due to inconvenience in movement or emergency, and the hyperbaric chamber devices of the prior art are complicated in structure and not easy to move and carry.

Accordingly, one skilled in the art provides a hyperbaric chamber device to solve the problems set forth in the background above.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a hyperbaric oxygen chamber device, the hyperbaric oxygen chamber body can be folded for use to form an annular air bag structure, so that the device is convenient to carry and use while the occupied area is reduced, and the use convenience of the device is improved; the double-air cushion structure can selectively use a single air cushion or double air cushions according to the weight condition of a user, and after the single air cushion is inflated, a triangular structure is formed, so that the inner bag structure is stable while the whole hyperbaric oxygen chamber body is ensured to be unfolded, and the user can conveniently lie on the surface of the air cushion for treatment; the governing valve structure that sets up, after the hyperbaric oxygen is filled to hyperbaric oxygen cabin internal portion, under the elastic restoring force effect of atmospheric pressure and elastic component, guarantee that the dog of pressure knob and barrel casing inner wall closely laminates, conveniently carry out the gassing operation when avoiding leaking gas.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides a hyperbaric oxygen cabin device, includes the hyperbaric oxygen cabin body, fixes the internal inner bag of setting in hyperbaric oxygen cabin and the air compressor through trachea and the inside intercommunication of hyperbaric oxygen cabin body, the homogeneous butt fusion of position formula is put to the front and back position on hyperbaric oxygen cabin body surface has four groups of supports, the position department that hyperbaric oxygen cabin body surface is close to the front and back end is embedded respectively and is provided with two sets of governing valves and air cock, the supporting sealed hatch door that is provided with in surface of hyperbaric oxygen cabin body rear end, tracheal internally mounted has the controller between the air compressor and the hyperbaric oxygen cabin body, the surface of controller is equipped with the touch screen board, and the controller passes through the wire with air compressor and is connected.

Preferably, the hyperbaric oxygen chamber body is of a cylindrical air bag structure, and the surface of the air bag is provided with toothed folding lines.

Preferably, the inner bag includes first air cushion and second air cushion, and the specification of two air cushions equals, and its cross-section all is "L" shape, and the air cushion surface is the wave towards the position of hyperbaric oxygen cabin internal portion, the one end of first air cushion and second air cushion respectively with two governing valves intercommunication, the other end respectively with two air cock intercommunications.

Preferably, the governing valve includes barrel casing, pressure button, elastic component and bottom plate, the inner wall of barrel casing is equipped with the dog, and under the normal condition, the bottom and the dog of pressure button offset, the position department welding that the barrel casing inner wall is located under the dog has the bottom plate, and is connected through setting up the elastic component between bottom plate and the pressure button.

Preferably, under the normal condition, the elastic part is in a compressed state, two ends of the elastic part are respectively welded with the press button and the bottom plate, and the surface of the bottom plate is provided with a plurality of through holes.

Preferably, the surface of the air pipe between the air compressor and the hyperbaric oxygen chamber body is provided with an electric control valve, and the electric control valve is connected with the controller through a lead.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the hyperbaric oxygen chamber body arranged in the utility model can be folded for use to form an annular air bag structure, thereby reducing the occupied area, being convenient for carrying and using and improving the use convenience of the device;

2. the double-air cushion structure arranged in the utility model can selectively use a single air cushion or double air cushions according to the weight condition of a user, and after the single air cushion is inflated, a triangular structure is formed, so that the inner bag structure is stable while the whole hyperbaric oxygen chamber body is ensured to be unfolded, and the user can conveniently lie on the surface of the air cushion for treatment;

3. the utility model discloses the governing valve structure that sets up, after the hyperbaric oxygen cabin internal portion fills hyperbaric oxygen, under the effect of the elasticity restoring force of atmospheric pressure and elastic component, guarantee that the dog of pressure knob and barrel casing inner wall closely laminates, conveniently carry out the gassing operation when avoiding leaking gas.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a sectional view of the sectional structure of the hyperbaric oxygen chamber body of the present invention;

FIG. 3 is a schematic structural view of the regulating valve of the present invention;

FIG. 4 is a sectional view of the internal structure of the regulating valve of the present invention;

fig. 5 is a schematic view of the sealing cabin door of the present invention.

In the figure: 1. a hyperbaric oxygen chamber body; 2. a support; 3. an inner bag; 31. a first air cushion; 32. a second air cushion; 4. adjusting a valve; 41. a barrel sleeve; 42. pressing a button; 43. an elastic member; 44. a base plate; 5. an air tap; 6. an air compressor; 7. a controller; 71. a touch screen panel; 8. an electrically controlled valve; 9. the door is sealed.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-5, a hyperbaric oxygen chamber device comprises a hyperbaric oxygen chamber body 1, an inner bag 3 fixedly arranged in the hyperbaric oxygen chamber body 1 and an air compressor 6 communicated with the interior of the hyperbaric oxygen chamber body 1 through an air pipe, wherein four groups of supporting seats 2 are integrally welded at the front end position and the rear end position of the surface of the hyperbaric oxygen chamber body 1, and the supporting seats 2 play a role in supporting and keeping the position of the hyperbaric oxygen chamber body 1 stable;

the surface of the hyperbaric oxygen chamber body 1 is provided with two groups of regulating valves 4 and air nozzles 5 at positions close to the front end and the rear end in an embedded mode respectively, the surface of the rear end of the hyperbaric oxygen chamber body 1 is provided with a sealing chamber door 9 in a matched mode, a controller 7 is arranged inside an air pipe between the air compressor 6 and the hyperbaric oxygen chamber body 1, the surface of the controller 7 is provided with a touch screen plate 71, and the controller 7 is connected with the air compressor 6 through a conducting wire.

An oxygen concentration sensor is further installed on the inner wall of the inner bag 3, is connected with the controller 7 through a conducting wire and is used for detecting the oxygen concentration in the hyperbaric oxygen chamber body 1, and displaying a numerical value on a touch screen plate 71 of the controller 7 for real-time monitoring.

The controller 7 mentioned above is of the type MAM-200.

Referring to fig. 1, the hyperbaric oxygen chamber body 1 is a cylindrical air bag structure, and the surface of the air bag is provided with toothed folding lines.

Through adopting above-mentioned technical scheme, the hyperbaric oxygen cabin body 1 that sets up can be folded and use, forms annular gasbag structure, when reducing area, conveniently carries the use, has improved the convenience that the device used.

Referring to fig. 1 and 2, the inner bag 3 includes a first air cushion 31 and a second air cushion 32, the two air cushions have the same specification, the cross sections of the two air cushions are both in an "L" shape, the positions of the surfaces of the air cushions facing the inside of the hyperbaric oxygen chamber body 1 are in a wave shape, one ends of the first air cushion 31 and the second air cushion 32 are respectively communicated with the two regulating valves 4, the other ends of the first air cushion 31 and the second air cushion 32 are respectively communicated with the two air nozzles 5, and the connecting end surfaces of the first air cushion 31 and the second air cushion 32 are welded.

Through adopting above-mentioned technical scheme, the two air cushion structures that set up can be according to user's weight condition, and single air cushion or two air cushions are used to the selectivity, aerify the back to single air cushion, form the triangle structure, make inner bag 3 stable in structure when guaranteeing that whole hyperbaric oxygen cabin body 1 expandes, and the person of facilitating the use lies flat and treats on the air cushion surface, and two air cushions are all aerifyd the back, can further guarantee inner bag 3 stable in structure.

Referring to fig. 3 and 4, the adjusting valve 4 includes a sleeve 41, a press button 42, an elastic member 43, and a bottom plate 44, a stopper is disposed on an inner wall of the sleeve 41, a bottom end of the press button 42 abuts against the stopper in a normal state, the bottom plate 44 is welded at a position of the inner wall of the sleeve 41 right below the stopper, and the bottom plate 44 is connected to the press button 42 through the elastic member 43.

Through adopting above-mentioned technical scheme, set up governing valve 4 structure, fill into hyperbaric oxygen behind the hyperbaric oxygen cabin body 1 is inside, under the effect of the elastic restoring force of atmospheric pressure and elastic component 43, guarantee that the dog of pressure knob 42 and barrel casing 41 inner wall closely laminates, conveniently carry out the gassing operation when avoiding leaking gas.

Referring to fig. 4, normally, the elastic member 43 is in a compressed state, two ends of the elastic member 43 are respectively welded to the press button 42 and the bottom plate 44, and a plurality of through holes are formed on the surface of the bottom plate 44.

Referring to fig. 1, an electric control valve 8 is arranged on the surface of an air pipe between the air compressor 6 and the hyperbaric oxygen chamber body 1, and the electric control valve 8 is connected with the controller 7 through a lead.

When oxygen concentration sensor detects the oxygen concentration in the cabin too high, send signal to controller 7, because the concentration fixed value of predetermineeing in the controller 7, after exceeding this numerical value, can automatic send instruction to automatically controlled valve 8, make automatically controlled valve 8 open, carry out the pressure release operation, guarantee inside user's safety.

The working principle is as follows: the hyperbaric oxygen chamber body 1 is unfolded, a single air cushion or double air cushions can be selectively used according to the weight condition of a user, if the weight of the user is light, a nitrogen pipeline can be communicated at the position of a single air nozzle 5, the first air cushion 31 forms a triangular structure after being filled with a nitrogen device, the structure of the inner bag 3 is stable while the whole hyperbaric oxygen chamber body 1 is unfolded, at the moment, the sealing chamber door 9 of the hyperbaric oxygen chamber body 1 is opened, the user is sleeved in the hyperbaric oxygen chamber body 1, then the sealing chamber door 9 is closed,

then slowly laying the hyperbaric oxygen chamber body 1, at the moment, the user lies on the surface of the air cushion for treatment, finally, a power supply of the device is switched on, the air compressor 6 is enabled to pressurize and oxygenate the hyperbaric oxygen chamber body 1 by operating the touch screen plate 71 of the controller 7, because the inner wall of the inner bag 3 is also provided with an oxygen concentration sensor and is connected with the controller 7 through a lead, the oxygen concentration sensor is used for detecting the oxygen concentration in the hyperbaric oxygen chamber body 1, a numerical value is displayed on the touch screen plate 71 of the controller 7 and is used for real-time monitoring, when the oxygen concentration sensor detects that the oxygen concentration in the chamber is overhigh, a signal is sent to the controller 7, and because the concentration fixed value preset in the controller 7 exceeds the numerical value, an instruction can be automatically sent to the electric control valve 8, so that the electric control valve 8 is automatically opened to carry out the pressure relief operation.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A hyperbaric oxygen chamber device, comprising: including the hyperbaric oxygen cabin body (1), fixed inner bag (3) that sets up in the hyperbaric oxygen cabin body (1) and through air compressor (6) of trachea and the inside intercommunication of the hyperbaric oxygen cabin body (1), the homogeneous formula welding of position of front and back position on the surface of the hyperbaric oxygen cabin body (1) has four groups of supports (2), the position department that the surface of the hyperbaric oxygen cabin body (1) is close to the front and back end is embedded respectively and is provided with two sets of governing valves (4) and air cock (5), the supporting sealed hatch door (9) that is provided with in surface of the hyperbaric oxygen cabin body (1) rear end, tracheal internally mounted has controller (7) between air compressor (6) and the hyperbaric oxygen cabin body (1), the surface of controller (7) is equipped with touch screen board (71), and controller (7) are connected through the wire with air compressor (6).

2. The hyperbaric chamber device of claim 1 wherein: the hyperbaric oxygen chamber body (1) is of a cylindrical air bag structure, and tooth-shaped folding lines are arranged on the surface of the air bag.

3. The hyperbaric chamber device of claim 1 wherein: inner bag (3) are including first air cushion (31) and second air cushion (32), and the specification of two air cushions equals, and its cross-section all is "L" shape, and the air cushion surface is the wave towards the inside position of hyperbaric oxygen cabin body (1), the one end of first air cushion (31) and second air cushion (32) communicates with two governing valves (4) respectively, and the other end communicates with two air cocks (5) respectively.

4. The hyperbaric chamber device of claim 1 wherein: the adjusting valve (4) comprises a barrel sleeve (41), a press button (42), an elastic piece (43) and a bottom plate (44), wherein a stop block is arranged on the inner wall of the barrel sleeve (41), the bottom end of the press button (42) is abutted to the stop block under a normal state, the bottom plate (44) is welded at a position, located right below the stop block, of the inner wall of the barrel sleeve (41), and the bottom plate (44) is connected with the press button (42) through the elastic piece (43).

5. The hyperbaric chamber device of claim 4 wherein: under normal conditions, the elastic piece (43) is in a compressed state, two ends of the elastic piece (43) are respectively welded with the press button (42) and the bottom plate (44), and the surface of the bottom plate (44) is provided with a plurality of through holes.

6. The hyperbaric chamber device of claim 1 wherein: an electric control valve (8) is arranged on the surface of an air pipe between the air compressor (6) and the hyperbaric oxygen chamber body (1), and the electric control valve (8) is connected with the controller (7) through a lead.

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