阅读说明：本技术 一种带有弹性支撑机构的一体式微压富氧舱室 (Integrated micro-pressure oxygen-enriched cabin with elastic supporting mechanism ) 是由 毛克周 于 2021-03-12 设计创作，主要内容包括：本发明涉及氧气舱技术领域,尤其公开了一种带有弹性支撑机构的一体式微压富氧舱室,包括支座、氧舱体和弹性支撑机构,所述氧舱体安装在所述支座上,所述支座上安装有所述弹性支撑机构,所述氧舱体安装在所述弹性支撑机构上。本发明所提供的带有弹性支撑机构的一体式微压富氧舱室,其中本发明中设置有弹性支撑机构,弹性支撑机构对氧舱体具有缓冲支撑作用,氧舱体充满气,用户进入到氧舱体休息时,受到支座的硬性支撑和弹性支撑机构的软性支撑,避免躺椅直接对与支架相接触的舱皮部位进行挤压导致该处舱皮容易损坏；软质躺椅和弹性支撑机构相配合又进一步提高舒适性,避免用户在氧舱内隔着舱皮磕碰到支架,充分满足用户的需求。(The invention relates to the technical field of oxygen chambers, and particularly discloses an integrated micro-pressure oxygen-enriched chamber with an elastic support mechanism. The integrated micropressure oxygen-enriched cabin with the elastic supporting mechanism is provided with the elastic supporting mechanism, the elastic supporting mechanism has a buffer supporting effect on the oxygen cabin body, the oxygen cabin body is full of air, and a user is supported by the rigid support of the support and the soft support of the elastic supporting mechanism when entering the oxygen cabin body for rest, so that the situation that the cabin skin at the position, which is in contact with the support, is directly extruded by the deck chair to be easily damaged is avoided; the soft deck chair is matched with the elastic supporting mechanism, so that the comfort is further improved, a user is prevented from colliding with the bracket in the oxygen chamber by separating the chamber skin, and the requirements of the user are fully met.)

1. The utility model provides an integral type minute-pressure oxygen boosting cabin with elastic support mechanism, includes support (1), the oxygen cabin body (2) and elastic support mechanism (3), install oxygen cabin body (2) on support (1), its characterized in that: the elastic supporting mechanism (3) is arranged on the support (1), and the oxygen cabin body (2) is arranged on the elastic supporting mechanism (3);

install soft deck chair (4) in the oxygen cabin body (2), after the oxygen cabin body (2) aerify the inflation shaping, deck chair (4) along with the shaping of the oxygen cabin body (2) and shaping, elastic support mechanism (3) have the buffering support effect to the oxygen cabin body (2) after aerifing.

2. The integrated micropressure oxygen-enriched cabin with elastic supporting mechanism according to claim 1, characterized in that: the support (1) comprises a bottom plate (11), two side plates (12) positioned on the bottom plate (11) and a backup plate (13) positioned between the two side plates (12); the backup plate (13) is of an arc-shaped structure and is adapted to the inflated oxygen cabin body (2); the elastic support mechanism (3) is arranged between the two side plates (12) and is positioned between the backup plate (13) and the oxygen cabin body (2).

3. The integrated micropressure oxygen-enriched cabin with elastic supporting mechanism according to claim 2, characterized in that: the elastic support mechanism (3) is an elastic surface with elastic deformation, the elastic surface is arranged between the two side plates (12), and the elastic surface is in contact with the outer wall of the oxygen cabin body (2) and has a buffer support effect on the inflated oxygen cabin body (2).

4. The integrated micropressure oxygen-enriched cabin with elastic supporting mechanism according to claim 3, characterized in that: the elastic surface is composed of a plurality of linear elements (31) with elastic deformation, and the linear elements (31) are distributed along the radian of the backup plate (13).

5. The integrated micropressure oxygen-enriched cabin with elastic supporting mechanism according to claim 3, characterized in that: the elastic surface is an integrally formed supporting surface (32) made of an elastically deformable material, two sides of the elastic surface are fixedly connected with the inner walls of the two side plates (12), and the elastic surface is connected with the side plates (12) along the radian of the backup plate (13).

6. The integrated micropressure oxygen-enriched cabin with elastic supporting mechanism according to claim 2, characterized in that: elastic support mechanism (3) include supporting spring (33) that evenly sets up on backup plate (13), supporting spring (33) upper end is connected with cushion (34), oxygen cabin body (2) are located on cushion (34).

7. The integrated micropressure oxygen-enriched cabin with elastic supporting mechanism according to claim 1, characterized in that: a connecting rod (14) is connected between the upper ends of the two side plates (12), and a connecting rope (15) is connected between the connecting rod (14) and the oxygen cabin body (2).

8. The integrated micropressure oxygen-enriched cabin with elastic supporting mechanism according to claim 1, characterized in that: the side plate (12) is provided with a mounting hole (16); the surface of the oxygen cabin body (2) is connected with a pull rope (17) at a position opposite to the mounting hole (16), and the pull rope (17) penetrates through the mounting hole (16) and is connected with the side plate (12).

Technical Field

The invention relates to the technical field of oxygen cabins, in particular to an integrated micro-pressure oxygen-enriched cabin with an elastic supporting mechanism.

Background

With the continuous acceleration of life and work rhythm, people feel tired more and more, the state of cerebral anoxia often appears, can influence life and work when serious, and to this kind of condition, people take some corresponding measures, and one of them is breathing some gas that oxygen content is high, therefore appear some oxygen cabins on the market, and people are in the oxygen cabin and increase the oxygen uptake, because the rise of pressure, a large amount of oxygen can be dissolved in blood, and people's oxyhemoglobin saturation obviously increases, can play health function.

With the progress of science and technology, more and more types of soft oxygen chambers appear to serve places such as health maintenance clubs, families, beauty parlors and the like. The appearance of the soft oxygen cabin enables the miniaturization and portability of the oxygen cabin, brings wider application for the requirements, and simultaneously has higher requirements on the practical function, comfort and flexibility of the oxygen cabin.

The prior art oxygen chambers have some problems in use:

the first problem is that: the oxygen chamber in the prior art is usually directly placed on a support, the deck chair is placed inside the oxygen chamber, and the deck chair directly extrudes a part of a chamber skin in contact with the support, so that the chamber skin at the position is easy to damage.

The second problem is that: oxygen cabin among the prior art all directly places on the support usually, and the support is mostly the stereoplasm material, and this leads to the user when using, separates the cabin skin in the oxygen cabin easily and collides with the support, has certain potential safety hazard, greatly reduced the comfort level when the user uses.

In view of the above problems, the present invention provides an integrated micro-pressure oxygen-enriched cabin with an elastic support mechanism.

Disclosure of Invention

Technical problem to be solved

The invention aims to provide an integrated micro-pressure oxygen-enriched cabin with an elastic supporting mechanism, which can solve the problem that a deck chair directly extrudes a cabin skin part in contact with a support, so that the cabin skin at the position is easy to damage; and the problem that a user collides the bracket with the cabin skin in the oxygen cabin to have certain potential safety hazards can be solved.

(II) technical scheme

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an integral type minute-pressure oxygen boosting cabin with elastic support mechanism, includes support, the oxygen cabin body and elastic support mechanism, the oxygen cabin body is installed on the support, install on the support elastic support mechanism, the oxygen cabin body is installed elastic support mechanism is last.

The oxygen cabin body is internally provided with a soft deck chair, after the oxygen cabin body is inflated and expanded to be formed, the deck chair is formed along with the formation of the oxygen cabin body, and the elastic supporting mechanism has a buffering and supporting effect on the inflated oxygen cabin body.

In the technical scheme, the elastic supporting mechanism has a buffering supporting effect on the oxygen cabin body, the oxygen cabin body is full of air, and when a user enters the oxygen cabin body for rest, the oxygen cabin body is in a non-pressure state and is supported by the rigid support of the support and the soft support of the elastic supporting mechanism, so that the situation that the cabin skin at the position, which is in contact with the support, is easily damaged due to the fact that the deck chair directly extrudes the cabin skin part is avoided; the safety of a user when the oxygen cabin is used is ensured through dual support, the soft deck chair is matched with the elastic support mechanism, the comfort is further improved, the user is prevented from colliding with the support in the oxygen cabin through the cabin skin, and the requirements of the user are fully met.

Preferably, the support comprises a bottom plate, two side plates positioned on the bottom plate and a backup plate positioned between the two side plates; the backup plate is of an arc-shaped structure and is adaptive to the inflated oxygen cabin; the elastic support mechanism is arranged between the two side plates and is positioned between the backup plate and the oxygen cabin body.

In the technical scheme, a cavity is formed by enclosing two side plates and the backup plate, the elastic supporting mechanism is positioned at the bottom of the cavity, and the oxygen cabin body is arranged in the cavity and positioned on the elastic supporting mechanism; the elastic supporting mechanism is applied with the acting force of the inflated oxygen cabin body, and the elastic supporting mechanism decomposes the acting force onto the backup plate, the side plates and the bottom plate, so that the overall safety performance and comfort performance of the oxygen cabin are improved; the structure ensures that the cabin skin at the lower end of the deck chair directly contacts with the elastic supporting mechanism, and avoids directly contacting with the support, thereby avoiding the cabin skin at the lower end of the deck chair from being worn and extruded to be damaged, and greatly prolonging the service life of the cabin skin of the oxygen cabin.

Preferably, the elastic support mechanism is an elastic surface with elastic deformation, the elastic surface is arranged between the two side plates, and the elastic surface is in contact with the outer wall of the oxygen cabin body and has a buffering support effect on the inflated oxygen cabin body.

In the technical scheme, two sides of the elastic surface are fixedly connected with the inner wall of the side plate, the lower end of the elastic surface is not in contact with the backup plate, and a buffer space for the elastic surface to deform is formed between the lower end of the elastic surface and the backup plate; the user enters into the oxygen cabin body, works as the oxygen cabin body is full of gas, the internal deck chair atress in oxygen cabin, the deck chair transmits the effort for the cabin skin of the oxygen cabin body, the cabin skin with elastic support mechanism contacts and passes to the effort elastic support mechanism receives the effect of mutually supporting between elastic support mechanism and the buffering space makes the user be in the internal receiving of oxygen cabin elastic support mechanism's buffering supporting role to improved user's comfort greatly and used experience, and also effectively avoid the user to be in the oxygen cabin is internal to be separated the cabin skin and bump the support and be injured.

Preferably, the elastic surface is composed of a plurality of linear elements with elastic deformation, and the linear elements are distributed along the radian of the backup plate; wherein the structure is beneficial to ensure that the oxygen cabin body is better contacted and matched with the elastic surface.

In the technical scheme, a plurality of through holes are uniformly formed in the side plate close to the backup plate, the through holes are distributed along the radian of the backup plate, and the through holes are adapted to the backup plate and are positioned above the backup plate; the linear element is an elastic rope, the elastic rope penetrates through the through holes of the two side plates to form an elastic surface with a supporting effect between the two side plates, the elastic surface is stably fixed between the two side plates due to the structure, the connection between the elastic surface and the two side plates is enhanced, and the safety is improved.

Preferably, the elastic surface is an integrally formed supporting surface made of an elastically deformable material, two sides of the elastic surface are fixedly connected with the inner walls of the two side plates, and the elastic surface is connected with the side plates along the radian of the backup plate.

In the technical scheme, the elastic surface is integrally formed, so that the strength of the elastic surface is enhanced to a certain extent, the service life of the elastic surface is prolonged, and the safety is improved.

Preferably, the elastic support mechanism comprises support springs uniformly arranged on the backup plate, the upper ends of the support springs are connected with soft pads, and the oxygen cabin body is located on the soft pads.

In the technical scheme, the user enters the oxygen cabin to take a rest, the supporting spring plays a supporting role in the oxygen cabin after inflation, the supporting spring and the soft cushion are mutually matched, so that the buffering supporting role is achieved, and the comfort level is also improved.

Preferably, a connecting rod is connected between the upper ends of the two side plates, and a connecting rope is connected between the connecting rod and the oxygen cabin body.

In the technical scheme, the connecting rods are matched with the implementation connecting ropes, so that the oxygen cabin body is limited to a certain extent, and the oxygen cabin body is prevented from being subjected to position deviation on the support when in use.

Preferably, the side plate is provided with a mounting hole; and the surface of the oxygen cabin body is connected with a pull rope at a position right facing the mounting hole, and the pull rope penetrates through the mounting hole and is connected with the side plate.

In the technical scheme, the mounting holes are matched with the pull ropes to further limit the oxygen cabin body, so that the oxygen cabin body is prevented from being subjected to position deviation on the support when in use, and the user experience is improved.

The oxygen cabin is provided with the elastic supporting mechanism which is arranged between the oxygen cabin body and the support, the elastic supporting mechanism has a buffering supporting effect on the oxygen cabin body, the oxygen cabin body is full of gas, and when a user enters the oxygen cabin body for rest, the user is supported by the rigid support of the support and the soft support of the elastic supporting mechanism, so that the situation that the cabin skin in the place is easy to damage due to the fact that the deck chair directly extrudes the part of the cabin skin in contact with the support is avoided; the safety of a user when the oxygen cabin is used is ensured through dual support, the soft deck chair is matched with the elastic support mechanism, the comfort is further improved, the user is prevented from colliding with the support in the oxygen cabin through the cabin skin, and the requirements of the user are fully met.

(III) advantageous effects

1. The integrated micro-pressure oxygen-enriched cabin with the elastic supporting mechanism is provided with the elastic supporting mechanism which is positioned between the oxygen cabin body and the support, the elastic supporting mechanism has a buffer supporting effect on the oxygen cabin body, the oxygen cabin body is full of air, and when a user enters the oxygen cabin body for rest, the user is supported by the rigid support of the support and the soft support of the elastic supporting mechanism, so that the situation that the cabin skin of the deck chair is easily damaged due to the fact that the deck chair directly extrudes the part of the cabin skin which is in contact with the support is avoided; the safety of a user when the oxygen cabin is used is ensured through dual support, the soft deck chair is matched with the elastic support mechanism, the comfort is further improved, the user is prevented from colliding with the support in the oxygen cabin through the cabin skin, and the requirements of the user are fully met.

2. The invention provides an integrated micro-pressure oxygen-enriched cabin with an elastic supporting mechanism, wherein the elastic supporting mechanism is supplied with the acting force of an inflated oxygen cabin body, and the elastic supporting mechanism decomposes the acting force onto a backup plate, a side plate and a bottom plate, so that the overall safety performance and comfort performance of the oxygen cabin are improved; the structure ensures that the cabin skin at the lower end of the deck chair directly contacts with the elastic supporting mechanism, and avoids directly contacting with the support, thereby avoiding the cabin skin at the lower end of the deck chair from being worn and extruded to be damaged, and greatly prolonging the service life of the cabin skin of the oxygen cabin.

Drawings

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

FIG. 2 is a first view showing the overall structure of the soft capsule of the present invention;

FIG. 3 is a schematic view of the overall cross-sectional structure of the present invention;

FIG. 4 is a schematic view of the whole structure of the soft capsule body of the present invention without omission;

FIG. 5 is a schematic view of the overall cross-sectional structure of the present invention;

fig. 6 is a schematic view of the overall cross-sectional structure of the present invention.

Wherein: 1 support, 11 bottom plates, 12 side plates, 13 backup plates, 14 connecting rods, 15 connecting ropes, 16 mounting holes, 17 pull ropes, 2 oxygen chambers, 3 elastic supporting mechanisms, 31 linear elements, 32 supporting surfaces, 33 supporting springs, 34 cushions and 4 reclining chairs.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

The first embodiment is as follows: referring to fig. 1-3, an integrated micro-pressure oxygen-enriched cabin with an elastic support mechanism comprises a support 1, an oxygen cabin body 2 and an elastic support mechanism 3, wherein the oxygen cabin body 2 is installed on the support 1, the elastic support mechanism 3 is installed on the support 1, and the oxygen cabin body 2 is installed on the elastic support mechanism 3.

A soft deck chair 4 is installed in the oxygen cabin body 2, after the oxygen cabin body 2 is inflated and expanded to be formed, the deck chair 4 is formed along with the formation of the oxygen cabin body 2, and the elastic support mechanism 3 has a buffer support effect on the inflated oxygen cabin body 2.

In the technical scheme, the elastic support mechanism 3 has a buffer support effect on the oxygen cabin body 2, the oxygen cabin body 2 is full of air, and when a user enters the oxygen cabin body 2 for rest, the user is supported by the rigid support of the support 1 and the soft support of the elastic support mechanism 3, so that the situation that the cabin skin at the position, which is in contact with the support, is easily damaged due to the fact that the deck chair 4 directly extrudes the cabin skin part is avoided; the safety of a user when the oxygen cabin is used is supported and guaranteed doubly, the soft deck chair 4 is matched with the elastic supporting mechanism 3, the comfort is further improved, the user is prevented from colliding with the support in the oxygen cabin through the cabin skin, and the requirements of the user are fully met.

The support 1 comprises a bottom plate 11, two side plates 12 positioned on the bottom plate 11 and a backup plate 13 positioned between the two side plates 12; the backup plate 13 is in an arc-shaped structure and is matched with the inflated oxygen cabin body 2; the elastic supporting mechanism 3 is arranged between the two side plates 12 and between the backup plate 13 and the oxygen cabin body 2.

In the technical scheme, a cavity is defined between two side plates 12 and the backup plate 13, the elastic support mechanism 3 is positioned at the bottom of the cavity, and the oxygen cabin body 2 is arranged in the cavity and positioned on the elastic support mechanism 3; the acting force of the inflated oxygen cabin body 2 is applied to the elastic supporting mechanism 3, and the elastic supporting mechanism 3 decomposes the acting force onto the backup plate 13, the side plate 12 and the bottom plate 11, so that the overall safety performance and comfort performance of the oxygen cabin are improved; the structure ensures that the cabin skin at the lower end of the deck chair 4 is directly contacted with the elastic supporting mechanism 3, and is prevented from being directly contacted with the support 1, thereby avoiding the cabin skin at the lower end of the deck chair 4 from being worn and extruded to be damaged, and greatly prolonging the service life of the cabin skin of the oxygen cabin body 2.

The elastic support mechanism 3 is an elastic surface with elastic deformation, the elastic surface is arranged between the two side plates 12, and the elastic surface is in contact with the outer wall of the oxygen cabin body 2 and has a buffer support effect on the inflated oxygen cabin body 2.

In the above technical solution, two sides of the elastic surface are fixedly connected with the inner wall of the side plate 12, the lower end of the elastic surface is not in contact with the backup plate 13 and a buffer space for the elastic surface to deform is formed between the elastic surface and the backup plate 13; work as oxygen cabin body 2 is full of gas, and the user enters into oxygen cabin body 2, 4 atress of deck chair in the oxygen cabin body 2, deck chair 4 transmit the effort for the cabin skin of the oxygen cabin body 2, the cabin skin with elastic support mechanism 3 contacts and passes to the effort elastic support mechanism 3 receives mutually supporting's effect between elastic support mechanism 3 and the buffering space makes the user be received in the oxygen cabin body 2 elastic support mechanism 3's buffering supporting role to improved user's comfort and use experience greatly, and also effectively avoid the user to be in separate the cabin skin in the oxygen cabin body 2 and collide support 1 and be injured.

The elastic surface is composed of a plurality of linear elements 31 with elastic deformation, and the linear elements 31 are distributed along the radian of the backup plate 13; wherein the structure is beneficial to make the oxygen capsule body 2 contact and match with the elastic surface better.

In the above technical solution, a plurality of through holes are uniformly arranged on the side plate 12 at a position close to the backup plate 13, the through holes are distributed along the radian of the backup plate 13, and the through holes are adapted to the backup plate 13 and located above the backup plate 13; the linear element 31 is an elastic rope which passes through the through holes of the two side plates 12 to form an elastic surface with a supporting function between the two side plates 12, and the structure ensures that the elastic surface is stably fixed between the two side plates 12, thereby strengthening the connection between the elastic surface and the two side plates 12 and increasing the safety.

A connecting rod 14 is connected between the upper ends of the two side plates 12, and a connecting rope 15 is connected between the connecting rod 14 and the oxygen cabin body 2.

In the above technical solution, the connecting rod 14 and the connecting rope 15 are matched to limit the oxygen cabin 2 to a certain extent, so as to prevent the oxygen cabin 2 from deviating on the support 1 when in use.

The side plate 12 is provided with a mounting hole 16; the surface of the oxygen cabin body 2 is connected with a pull rope 17 at a position opposite to the mounting hole 16, and the pull rope 17 penetrates through the mounting hole 16 and is connected with the side plate 12.

In the above technical solution, the mounting hole 16 and the pull rope 17 are matched with each other, so as to further limit the oxygen cabin body 2, thereby improving the user experience.

Example two: referring to fig. 1, 4-5, an integrated micro-pressure oxygen-enriched cabin with an elastic support mechanism, wherein the elastic support mechanism 3 is an elastic surface with elastic deformation, the elastic surface is disposed between two side plates 12, and the elastic surface is in contact with the outer wall of the oxygen cabin 2 and has a buffering and supporting effect on the inflated oxygen cabin 2.

In the above technical solution, two sides of the elastic surface are fixedly connected with the inner wall of the side plate 12, the lower end of the elastic surface is not in contact with the backup plate 13 and a buffer space for the elastic surface to deform is formed between the elastic surface and the backup plate 13; work as oxygen cabin body 2 is full of gas, and the user enters into oxygen cabin body 2, 4 atress of deck chair in the oxygen cabin body 2, deck chair 4 transmit the effort for the cabin skin of the oxygen cabin body 2, the cabin skin with elastic support mechanism 3 contacts and passes to the effort elastic support mechanism 3 receives mutually supporting's effect between elastic support mechanism 3 and the buffering space makes the user be in receive in the oxygen cabin body 2 elastic support mechanism 3's buffering supporting role to user's comfort and use experience have been improved greatly.

The elastic surface is an integrally formed supporting surface 32 made of an elastically deformable material, two sides of the elastic surface are fixedly connected with the inner walls of the two side plates 12, and the elastic surface is connected with the side plates 12 along the radian of the backup plate 13.

In the technical scheme, the elastic surface is integrally formed, so that the strength of the elastic surface is enhanced to a certain extent, the service life of the elastic surface is prolonged, and the safety is improved.

Example three: referring to fig. 1 and 6, an integrated micro-pressure oxygen-enriched cabin with an elastic support mechanism, wherein the elastic support mechanism 3 comprises support springs 33 uniformly arranged on the backup plate 13, a soft pad 34 is connected to the upper ends of the support springs 33, and the oxygen cabin 2 is located on the soft pad 34.

In the technical scheme, the supporting spring 33 plays a supporting role in supporting the inflated oxygen chamber body 2, a user enters the oxygen chamber body 2 to rest, and the supporting spring 33 and the soft cushion 34 are matched with each other, so that the buffering supporting role is achieved, and the comfort level is improved; the soft cushion 34 also effectively slows down the extrusion of the deck chair 4 to the deck below, thereby improving the service life of the deck of the oxygen cabin body 2.

The oxygen cabin is provided with the elastic supporting mechanism 3 which is positioned between the oxygen cabin body 2 and the support 1, the elastic supporting mechanism 3 has a buffer supporting effect on the oxygen cabin body 2, the oxygen cabin body 2 is full of air, and when a user enters the oxygen cabin body 2 for rest, the user is supported by the rigid support of the support 1 and the soft support of the elastic supporting mechanism 3, so that the situation that the cabin skin at the position is easy to damage due to the fact that the deck chair 4 directly extrudes the cabin skin part which is in contact with the support is avoided; the safety of a user when the oxygen cabin is used is supported and guaranteed doubly, the soft deck chair 4 is matched with the elastic supporting mechanism 3, the comfort is further improved, the user is prevented from colliding with the support in the oxygen cabin through the cabin skin, and the requirements of the user are fully met.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several improvements and modifications without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as the protection scope of the present invention.