CN113101482B

CN113101482B - All-in-one takes place for hypoxemia with pipeline receiving mechanism

Info

Publication number: CN113101482B
Application number: CN202110541928.0A
Authority: CN
Inventors: 徐玮; 张�荣; 钱昌伟
Original assignee: HEFEI HENGCHENG INTELLIGENT TECHNOLOGY CO LTD
Current assignee: HEFEI HENGCHENG INTELLIGENT TECHNOLOGY CO LTD
Priority date: 2021-05-18
Filing date: 2021-05-18
Publication date: 2022-08-16
Anticipated expiration: 2041-05-18
Also published as: CN113101482A

Abstract

The invention discloses a hypoxia generation all-in-one machine with a pipeline storage mechanism, and relates to the technical field of hypoxia machines. The invention comprises a protective cover shell, wherein a rectangular hole is formed in the side surface of the protective cover shell; the inner wall of the protective housing is fixedly provided with an inwardly extending U-shaped frame which is close to two ends of the rectangular hole; two circular through holes are formed in the bottom frame plate of the U-shaped frame; the rectangular hole and the U-shaped frame are matched in a drawing mode to be used for accommodating a pipeline accommodating mechanism of the gas transmission pipeline; the pipeline storage mechanism comprises a box body for storage, an elastic sliding cable telescopic mechanism arranged in the box body, an anti-pressure gas pipe wound on the elastic sliding cable telescopic mechanism in an S shape and a guide upper cover arranged on the box body; the outer side surface of the inner wall of the rectangular groove body is provided with a clamp holder for clamping the end part of the anti-pressure gas transmission pipe at the position of the wire inlet. According to the invention, the pipeline storage mechanism for storing or drawing out the anti-pressure gas transmission pipe is arranged in the protective housing, and the pipeline storage mechanism can also be drawn out outwards, so that the pipeline storage mechanism and the anti-pressure gas transmission pipe in the pipeline storage mechanism can be maintained conveniently.

Description

All-in-one takes place for hypoxemia with pipeline receiving mechanism

Technical Field

The invention belongs to the technical field of hypoxia machines, and particularly relates to a hypoxia generation all-in-one machine with a pipeline storage mechanism.

Background

The oxygen-reducing instrument is an instrument which can reduce the volume percentage of oxygen in air so as to obtain the rated mixed gas with low oxygen partial pressure. The hypoxia instrument is used for intermittent hypoxia training, can effectively form hypoxia tolerance to improve aerobic metabolism capability and promote the endurance level of athletes, and can also be used for treatment of respiratory, cardiovascular and cerebrovascular system diseases and health care rehabilitation in clinical medicine.

The utility model with the application number of 201620785847.X discloses a hypoxia generation all-in-one machine, which comprises a protective housing, a top cover arranged at the upper end of the protective housing, a compensation type bag type breathing mask arranged at one side of the protective housing, and a flow regulating device, a digital flowmeter, a membrane separation component, an air compressor, a pressure control valve, an automatic drainage device, a membrane type water removal component and a central parameter measurement and control system which are arranged in the protective housing; the utility model discloses a structural integrated design of system takes place to the hypoxemia for equipment is convenient for install and is made, and convenient maintenance and dismantlement have also reduced equipment volume. Man-machine functionality has been optimized in the design of exterior structure, and the selection of inner structure part has solved the noise too big, and gas moisture content exceeds standard scheduling problem. However, in the practical use of the scheme, the whole device is only provided with an external joint and is connected with an external breathing mask through a hose, the use range of the external mask is limited, and external pipelines are messy.

Disclosure of Invention

The invention aims to provide a low-oxygen generation all-in-one machine with a pipeline storage mechanism, wherein the pipeline storage mechanism for storing or extracting a pressure-proof gas pipe is arranged in a protective housing and can also be extracted outwards, so that the pipeline storage mechanism and the pressure-proof gas pipe in the pipeline storage mechanism are convenient to maintain, and the existing problems are solved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a hypoxia generation all-in-one machine with a pipeline storage mechanism, which comprises a protective housing, a top cover arranged at the upper end of the protective housing, a compensation type bag type breathing mask arranged on one side of the protective housing, a flow regulating device, a digital flowmeter, a membrane separation assembly, an air compressor, a pressure control valve, an automatic drainage device, a membrane type dewatering assembly and a central parameter measurement and control system, wherein the flow regulating device, the digital flowmeter, the membrane separation assembly, the air compressor, the pressure control valve, the automatic drainage device, the membrane type dewatering assembly and the central parameter measurement and control system are arranged in the protective housing; the inner wall of the protective housing is fixedly provided with an inwardly extending U-shaped frame which is close to two ends of the rectangular hole; two circular through holes are formed in the frame plate at the bottom of the U-shaped frame; the frame plate at the bottom of the U-shaped frame is provided with threading holes at the corners; the side surface of the protective housing is positioned on the upper side of the rectangular hole and is rotationally matched with the two clamping plates; the rectangular hole and the U-shaped frame are matched in a drawing mode to be used for accommodating a pipeline accommodating mechanism of the gas transmission pipeline; the pipeline storage mechanism comprises a box body for storage, an elastic sliding cable telescopic mechanism arranged in the box body, an anti-pressure gas pipe wound on the elastic sliding cable telescopic mechanism in an S shape and a guide upper cover arranged on the box body; a clamp holder for clamping the end part of the pressure-proof gas transmission pipe is arranged on the outer side surface of the inner wall of the rectangular groove body and positioned at the inlet; the box body comprises a rectangular groove body with an upper opening; two cylindrical guide rods which are in sliding guide fit with the round through holes are fixed on one side face of the rectangular groove body; the free end of the cylindrical guide rod is in threaded connection with a limiting end plate; the left ends of the inner wall and the outer wall of the drawing direction of the rectangular groove body are respectively provided with a wire inlet and a wire outlet; the anti-pressure gas pipe penetrates out of the wire outlet and then is connected with the compensation type bag type breathing mask; and the upper end of the outer wall of the rectangular groove body is provided with a baffle plate extending upwards.

Furthermore, the pressure-proof gas transmission pipe comprises a gas transmission pipeline positioned in the middle and two steel wires which are arranged on the outer side of the gas transmission pipeline in an axisymmetric manner; two steel wires are connected with the outer wall of the gas transmission pipeline through an adhesive coating layer

Furthermore, the elastic sliding cable telescopic mechanism comprises a plurality of reversing fixed wheel groups which are fixed on the bottom surface of the rectangular groove body and are uniformly distributed and fixed between the wire inlet and the wire outlet; a sliding frame arranged along the length direction is arranged between two consecutive reversing fixed wheel sets; a reversing movable wheel set is slidably mounted on the sliding frame; a spring matched with the reversing movable wheel set is sleeved on the sliding frame; the pressure-proof gas pipe, the reversing fixed wheel set and the reversing movable wheel set are wound in an S shape and output from the wire outlet.

Furthermore, the reversing fixed wheel group comprises a non-power roller with the lower end fixed on the bottom surface of the rectangular groove body and vertically arranged; two first guide rollers matched with the pressure-proof air delivery pipe are fixed on the circumferential side surface of the unpowered roller.

Furthermore, the sliding frame comprises two vertically arranged cylindrical rods and a horizontally arranged cylindrical sliding rod fixed between the two cylindrical rods, and two cylindrical sleeves which are matched with the first wire guide wheel and used for preventing the pressure gas conveying pipe from deviating are fixed on the cylindrical rods positioned between the two unpowered rollers; the spring is sleeved on the cylindrical sliding rod.

Furthermore, the reversing driving wheel set comprises a vertically arranged movable sliding rod; the movable sliding rod is provided with two sliding holes matched with the cylindrical sliding rod; two second wire guide wheels matched with the pressure-proof gas conveying pipe are fixed on the circumferential side face of the movable sliding rod, and the two second wire guide wheels are located between the two cylindrical sliding rods.

Further, the guide upper cover comprises a rectangular upper cover plate; the lower surface of the rectangular upper cover plate is fixedly provided with a U-shaped inserting plate matched with the inner side wall of the rectangular groove body; the upper surface of the rectangular upper cover plate is provided with a plurality of rectangular long holes which are arranged in parallel and used for guiding the movable sliding rod; the upper surface of the rectangular upper cover plate is provided with a plurality of first positioning circular through holes which are in plug-in fit with the main shaft at the upper end of the unpowered roller; and the upper surface of the rectangular upper cover plate is provided with a plurality of groups of second positioning circular through holes which are in splicing fit with the upper end of the cylindrical rod.

Further, the clamp holder comprises two clamping blocks for clamping the pressure-proof gas pipe; the opposite side surfaces of the two clamping blocks are symmetrically provided with clamping grooves for clamping the anti-pressure gas transmission pipe; the two clamping blocks are connected through two bolts; one of the clamp holders is fixed on the outer side surface of the rectangular groove body.

The invention has the following beneficial effects:

1. according to the invention, the pipeline containing mechanism capable of containing the anti-pressure gas transmission pipe is arranged in the protective housing, and the position is limited by the two clamping plates; the pipeline storage mechanism can also be drawn out outwards, so that the pipeline storage mechanism and the pressure-proof gas pipe inside the pipeline storage mechanism are convenient to maintain.

2. The anti-pressure gas pipe is wound on the reversing fixed wheel set and the reversing movable wheel set of the elastic sliding rope telescopic mechanism in an S-shaped staggered manner, the sliding frame provides a guiding function for the movement of the reversing movable wheel set, the spring provides elastic force for storing the anti-pressure gas pipe, and the whole elastic sliding rope telescopic mechanism is stable and reliable in guiding and accommodating.

3. The gas transmission pipeline is arranged to be a pressure-proof gas transmission pipeline, two steel wires are used outside the gas transmission pipeline with gas transmission inside, the gas transmission pipeline is prevented from being stretched, and continuous ventilation of the gas transmission pipeline is guaranteed.

4. The guide upper cover is used for positioning and reinforcing the reversing fixed wheel set and the sliding frame below the guide upper cover, guiding the reversing movable wheel set which provides reversing action for the pressure-proof gas pipe, and assisting in the storage or extension of the pressure-proof gas pipe so as to facilitate operation.

Of course, it is not necessary for any product to practice the invention to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a hypoxia generation all-in-one machine with a pipeline storage mechanism according to the present invention;

FIG. 2 is a schematic view of the structure of the protective enclosure;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a front view of the conduit receipt mechanism;

FIG. 5 is a cross-sectional view taken at A-A of FIG. 4;

FIG. 6 is an exploded view of the structure of the pipe-housing mechanism;

FIG. 7 is a schematic structural view of the box body, the elastic strop telescoping mechanism and the holder;

FIG. 8 is an enlarged view of a portion of FIG. 7 at B;

FIG. 9 is an enlarged view of a portion of FIG. 7 at C;

FIG. 10 is a schematic view showing the structure of a pressure prevention air delivery pipe;

FIG. 11 is a schematic view of the structure of the guide upper cover;

in the drawings, the components represented by the respective reference numerals are listed below:

1-protective housing, 2-pipeline receiving mechanism, 101-rectangular hole, 102-U-shaped frame, 103-round through hole, 104-threading hole, 105-snap gauge, 21-box, 22-elastic sliding cable telescopic mechanism, 23-pressure-proof gas pipe, 24-guide upper cover, 25-gripper, 211-rectangular groove body, 212-cylindrical guide rod, 213-limit end plate, 214-thread inlet, 215-outlet, 216-baffle, 221-reversing fixed wheel set, 222-carriage, 223-reversing movable wheel set, 224-spring, 2211-unpowered roller, 2212-first guide wheel, 2221-cylindrical rod, 2222-cylindrical slide rod, 2223-cylindrical sleeve, 2231-movable slide rod, 2232-sliding hole, 2233-second guide wheel, 231-an air transmission pipeline, 232-a steel wire, 233-an adhesive coating layer, 241-a rectangular upper cover plate, 242-a U-shaped inserting plate, 243-a rectangular long hole, 244-a first positioning round through hole, 245-a second positioning round through hole, 251-a clamping block and 252-a clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, the invention relates to a hypoxia generation all-in-one machine with a pipeline storage mechanism, which comprises a protective housing 1, a top cover arranged at the upper end of the protective housing 1, a compensation type bag type breathing mask arranged at one side of the protective housing 1, a flow regulating device, a digital flow meter, a membrane separation assembly, an air compressor, a pressure control valve, an automatic drainage device, a membrane type dewatering assembly and a central parameter measurement and control system which are arranged in the protective housing 1, wherein a rectangular hole 101 is formed in the side surface of the protective housing 1; the inner wall of the protective housing 1 is fixedly provided with an inwardly extending U-shaped frame 102 adjacent to two ends of the rectangular hole 101; two circular through holes 103 are formed in the bottom frame plate of the U-shaped frame 102; a threading hole 104 is formed at the corner of the frame plate at the bottom of the U-shaped frame 102; the two clamping plates 105 are rotatably matched on the side surface of the protective housing 1 and positioned on the upper side of the rectangular hole 101;

the rectangular hole 101 and the U-shaped frame 102 are matched in a drawing mode to be used for containing a pipeline containing mechanism 2 of the gas transmission pipeline; the pipeline storage mechanism 2 comprises a box body 21 for storage, an elastic sliding cable telescopic mechanism 22 arranged in the box body 21, an anti-pressure air pipe 23 wound on the elastic sliding cable telescopic mechanism 22 in an S shape, and a guide upper cover 24 arranged on the box body 21; the tank body 21 includes a rectangular tank body 211 having an upper opening; two cylindrical guide rods 212 which are in sliding guide fit with the circular through holes 103 are fixed on one side surface of the rectangular groove body 211; the free end of the cylindrical guide rod 212 is in threaded connection with a limit end plate 213; the left end of the inner wall and the outer wall of the rectangular groove body 211 in the drawing direction is respectively provided with a wire inlet 214 and a wire outlet 215; the anti-pressure air delivery pipe 23 penetrates out of the outlet 215 and then is connected with the compensation type bag type breathing mask; the upper end of the outer wall of the rectangular groove body 211 is provided with a baffle plate 216 extending upwards. In short, the pipeline storage mechanism 2 can be stored inside the protective housing 1 and limited by the two clamping plates 105; the pipeline storage mechanism 2 can be pulled out outwards, and the pipeline storage mechanism 2 is convenient to maintain.

The clamp 25 for clamping the end part of the pressure-proof air pipe 23 is arranged on the outer side surface of the inner wall of the rectangular groove body 211 and positioned at the wire inlet 214, and the pressure-proof air pipe 23 comprises an air conveying pipeline 231 positioned in the middle and two steel wires 232 which are axially symmetrically arranged on the outer side of the air conveying pipeline 231; the two steel wires 232 are connected with the outer wall of the gas transmission pipe 231 through the rubber coating layer 233, and the clamp holder 25 comprises two clamping blocks 251 used for clamping the pressure-proof gas transmission pipe 23; the opposite side surfaces of the two clamping blocks 251 are symmetrically provided with clamping grooves 252 for clamping the pressure-proof air pipes 23; the two clamping blocks 251 are connected by two bolts; one of the holders 25 is fixed on the outer side of the rectangular groove body 211. In short, the gas transmission pipeline is set as the anti-pressure gas transmission pipe 23, two steel wires 232 are used outside the gas transmission pipeline 231 with gas transmission inside, so that the gas transmission pipeline 231 is prevented from being stretched, and the gas transmission pipeline 231 is ensured to be continuously ventilated; the end part of the pressure-proof air pipe 23 entering the rectangular groove body 211 is clamped by the clamp holder 25, so that the stability of the fixed end of the pressure-proof air pipe 23 is ensured, and the pressure-proof air pipe 23 is convenient and quick to install and replace.

The elastic sliding cable telescopic mechanism 22 comprises a plurality of reversing fixed wheel sets 221 which are fixed on the bottom surface of the rectangular groove body 211 and are uniformly distributed and fixed between the wire inlet 214 and the wire outlet 215; a sliding frame 222 arranged along the length direction is arranged between two consecutive reversing fixed wheel sets 221; a reversing sliding wheel set 223 is slidably mounted on the sliding frame 222; a spring 224 matched with the reversing movable wheel set 223 is sleeved on the carriage 222; the anti-pressure air pipe 23 is wound in an S shape with the reversing fixed wheel set 221 and the reversing movable wheel set 223 and is output from the outlet 215. The reversing fixed wheel set 221 comprises an unpowered roller 2211, the lower end of which is fixed on the bottom surface of the rectangular groove body 211 and is vertically arranged; two first wire guide wheels 2212 matched with the pressure-preventing gas conveying pipe 23 are fixed on the circumferential side surface of the unpowered roller 2211. The carriage 222 comprises two vertically arranged cylindrical rods 2221 and a horizontally arranged cylindrical sliding rod 2222 fixed between the two cylindrical rods 2221, and two cylindrical sleeves 2223 matched with the first wire guide wheel 2212 and used for preventing the pressure gas pipe 23 from deviating are fixed on the cylindrical rods 2221 positioned between the two unpowered rollers 2211; spring 224 is sleeved on cylindrical sliding bar 2222. The reversing movable wheel group 223 comprises a movable slide rod 2231 which is vertically arranged; the movable sliding rod 2231 is provided with two sliding holes 2232 matched with the cylindrical sliding rod 2222; two second wire guide wheels 2233 matched with the pressure-proof air delivery pipe 23 are fixed on the peripheral side surface of the movable slide bar 2231, and the two second wire guide wheels 2233 are positioned between the two cylindrical slide bars 2222. In short, the anti-pressure air pipes 23 are wound on the reversing fixed wheel set 221 and the reversing movable wheel set 223 of the elastic sliding cable telescoping mechanism 22 in an S-shaped staggered manner, the sliding frame 222 provides a guiding function for the movement of the reversing movable wheel set 223, the spring 224 provides elastic force for storing the anti-pressure air pipes 23, and the guiding and storing of the whole elastic sliding cable telescoping mechanism 22 are stable and reliable.

Wherein the guide upper cover 24 includes a rectangular upper cover plate 241; the lower surface of the rectangular upper cover plate 241 is fixedly provided with a U-shaped inserting plate 242 matched with the inner side wall of the rectangular groove body 211; the upper surface of the rectangular upper cover plate 241 is provided with a plurality of rectangular long holes 243 which are arranged in parallel and used for guiding the movable sliding rod 2231; the upper surface of the rectangular upper cover plate 241 is provided with a plurality of first positioning round through holes 244 which are in plug-in fit with the main shaft at the upper end of the unpowered roller 2211; the upper surface of the rectangular upper cover plate 241 is provided with a plurality of groups of second positioning circular through holes 245 which are in plug-in fit with the upper end of the cylindrical rod 2221. In short, the guide upper cover 24 is used for positioning the reversing fixed wheel set 221 and the sliding frame 222 below the reinforcement, guiding the reversing movable wheel set 223 providing reversing action for the pressure-proof air pipe 23, and assisting in the storage or extension of the pressure-proof air pipe 23 for convenient operation.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean 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 invention. 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 preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides an all-in-one takes place for hypoxemia with pipeline receiving mechanism, includes protective housing (1), installs in protective housing (1) upper end top cap, arranges the compensation formula bag formula respirator in protective housing (1) one side and set up flow regulation device, digital flowmeter, membrane separation subassembly, air compressor, pressure control valve, automatic drainage device, diaphragm type dewatering subassembly and central parameter measurement and control system, its characterized in that in protective housing (1):

a rectangular hole (101) is formed in the side surface of the protective housing (1); the inner wall of the protective cover shell (1) is closely adjacent to two ends of the rectangular hole (101) and is fixedly provided with an inward extending U-shaped frame (102); two circular through holes (103) are formed in a frame plate at the bottom of the U-shaped frame (102); the bottom frame plate of the U-shaped frame (102) is provided with threading holes (104) at the corners; the side surface of the protective cover shell (1) is positioned on the upper side of the rectangular hole (101) and is rotatably matched with the two clamping plates (105);

the rectangular hole (101) and the U-shaped frame (102) are matched in a drawing mode and used for accommodating a pipeline accommodating mechanism (2) of the gas transmission pipeline;

the pipeline storage mechanism (2) comprises a box body (21) for storage, an elastic sliding cable telescopic mechanism (22) arranged in the box body (21), an anti-pressure air pipe (23) wound on the elastic sliding cable telescopic mechanism (22) in an S shape, and an upper guide cover (24) arranged on the box body (21);

the box body (21) comprises a rectangular groove body (211) with an upper opening; a clamp holder (25) for clamping the end part of the anti-pressure gas conveying pipe (23) is arranged on the outer side surface of the inner wall of the rectangular groove body (211) and is positioned at the wire inlet (214); two cylindrical guide rods (212) which are in sliding guide fit with the circular through holes (103) are fixed on one side surface of the rectangular groove body (211); the free end of the cylindrical guide rod (212) is in threaded connection with a limiting end plate (213); the left ends of the inner wall and the outer wall of the rectangular groove body (211) in the drawing direction are respectively provided with a wire inlet (214) and a wire outlet (215); the anti-pressure air delivery pipe (23) penetrates out of the outlet (215) and then is connected with the compensation type bag type breathing mask; the upper end of the outer wall of the rectangular groove body (211) is provided with a baffle (216) extending upwards;

the elastic strop telescopic mechanism (22) comprises

A plurality of reversing fixed wheel sets (221) are fixed on the bottom surface of the rectangular groove body (211) and are uniformly distributed and fixed between the wire inlet (214) and the wire outlet (215);

a sliding frame (222) arranged along the length direction is arranged between two consecutive reversing fixed wheel sets (221);

a reversing sliding wheel set (223) is arranged on the sliding frame (222) in a sliding way; a spring (224) matched with the reversing movable wheel set (223) is sleeved on the sliding frame (222);

the pressure-proof air pipe (23) is wound with the reversing fixed wheel set (221) and the reversing movable wheel set (223) in an S shape and is output from the outlet (215).

2. The hypoxia generation all-in-one machine with the pipeline storage mechanism is characterized in that the anti-pressure gas transmission pipe (23) comprises a gas transmission pipeline (231) positioned in the middle and two steel wires (232) which are axially symmetrically arranged on the outer side of the gas transmission pipeline (231); and the two steel wires (232) are connected with the outer wall of the gas transmission pipeline (231) through an encapsulating layer (233).

3. The hypoxia generation all-in-one machine with the pipeline storage mechanism is characterized in that the reversing fixed wheel set (221) comprises a unpowered roller (2211) with the lower end fixed on the bottom surface of the rectangular groove body (211) and arranged vertically; two first wire guide wheels (2212) matched with the pressure-proof air conveying pipe (23) are fixed on the peripheral side surface of the unpowered roller (2211).

4. The hypoxia generation all-in-one machine with the pipeline storage mechanism is characterized in that the carriage (222) comprises two vertically arranged cylindrical rods (2221) and a horizontally arranged cylindrical sliding rod (2222) fixed between the two cylindrical rods (2221), and two cylindrical sleeves (2223) which are matched with the first wire guide wheel (2212) and used for preventing the pressure gas transmission pipe (23) from deviating are fixed on the cylindrical rod (2221) positioned between the two unpowered rollers (2211); the spring (224) is sleeved on the cylindrical sliding rod (2222).

5. The hypoxia generation all-in-one machine with the pipeline storage mechanism is characterized in that the reversing movable wheel set (223) comprises a movable sliding rod (2231) which is vertically arranged; the movable sliding rod (2231) is provided with two sliding holes (2232) matched with the cylindrical sliding rod (2222); two second wire guide wheels (2233) matched with the pressure-proof air conveying pipe (23) are fixed on the peripheral side surface of the movable sliding rod (2231), and the two second wire guide wheels (2233) are positioned between the two cylindrical sliding rods (2222).

6. The hypoxia generation all-in-one machine with the pipe receiving mechanism according to claim 4, wherein the guiding upper cover (24) comprises a rectangular upper cover plate (241); the lower surface of the rectangular upper cover plate (241) is fixedly provided with a U-shaped inserting plate (242) matched with the inner side wall of the rectangular groove body (211);

the upper surface of the rectangular upper cover plate (241) is provided with a plurality of rectangular long holes (243) which are arranged in parallel and used for guiding the movable sliding rod (2231);

the upper surface of the rectangular upper cover plate (241) is provided with a plurality of first positioning circular through holes (244) which are in plug-in fit with a main shaft at the upper end of the unpowered roller (2211);

the upper surface of the rectangular upper cover plate (241) is provided with a plurality of groups of second positioning circular through holes (245) which are in plug-in fit with the upper end of the cylindrical rod (2221).

7. The hypoxia generation all-in-one machine with the pipeline storage mechanism according to claim 1 or 2,

the clamp holder (25) comprises two clamping blocks (251) for clamping the pressure-proof gas pipe (23);

opposite side surfaces of the two clamping blocks (251) are symmetrically provided with clamping grooves (252) for clamping the pressure-proof air pipes (23); the two clamping blocks (251) are connected through two bolts;

one of the clamp holders (25) is fixed on the outer side surface of the rectangular groove body (211).