CN113018055A - Positive-pressure thermal-oxygen physiotherapy cabin and use method thereof - Google Patents

Abstract

The invention relates to the technical field of medical equipment, in particular to a positive pressure thermo-oxygen physiotherapy cabin and a using method thereof, wherein the positive pressure thermo-oxygen physiotherapy cabin comprises: the cabin body is provided with a cabin door and is provided with a physiotherapy position and a plurality of interfaces; the heating unit is arranged in the cabin body and is used for maintaining the temperature in the cabin body within a set range; the oxygen supply units are used for supplying oxygen in a first state to the cabin body through any interface; the other oxygen supply unit is connected with a breathing pipeline through part of the residual interfaces, and the breathing pipeline supplies oxygen in a second state for physical therapy personnel in a physical therapy position in a circulating mode; the control unit controls the heating unit and the oxygen supply unit to work; the beneficial effects are that: the control unit controls the heating unit and the oxygen supply unit to work, maintains the temperature of the cabin body within a set range, and reduces the cabin pressure from 0.2MPa to 0.1MPa in a stepped manner, so that the compound physical therapy of thermal oxygen molecules, negative oxygen ions and high-pressure oxygen molecules is realized.

Description

Positive-pressure thermal-oxygen physiotherapy cabin and use method thereof

Technical Field

The invention relates to the technical field of medical equipment, in particular to a positive pressure thermal oxygen physiotherapy cabin and a using method thereof.

Background

Israel scientists published articles in the journal "aging" (AGED) to prove that: provides pure oxygen for the old in the hyperbaric oxygen chamber, and can increase the telomere length of a physiotherapist by 20 percent and reduce aged cells by 37 percent after a period of physiotherapy.

The physiotherapy of the positive pressure physiotherapy cabin can improve the physical function in all directions, increase the oxygen content of blood oxygen and tissue under the external high pressure oxygen, improve the oxygen dispersion rate and effective dispersion distance, prevent thrombosis, promote the thrombus absorption, improve the brain metabolism, recover the brain function, relieve cerebral edema, reduce intracranial pressure and cerebral vasoconstriction.

However, hyperbaric oxygen therapy inevitably causes barotrauma of the middle ear, paranasal sinuses and lung.

Disclosure of Invention

The invention aims to provide a positive pressure thermal oxygen physiotherapy cabin and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a positive pressure thermal oxygen physiotherapy cabin comprising: the cabin body is provided with a cabin door and is provided with a physiotherapy position and a plurality of interfaces; the heating unit is arranged in the cabin body and used for maintaining the temperature in the cabin body within a set range, and the set range is 30-60 ℃; the oxygen supply unit is used for supplying oxygen in a first state to the cabin body through any interface and maintaining the cabin pressure of the cabin body at 0.1-0.2 MPa; the other oxygen supply unit is connected with a breathing pipeline through part of the residual interfaces, and the breathing pipeline supplies oxygen in a second state for physical therapy personnel in a physical therapy position in a circulating mode; and the protection unit is used for protecting physical therapy personnel, and the control unit controls the heating unit and the oxygen supply unit to work.

As a further scheme of the invention: the heating unit comprises a far infrared heater, one or more far infrared heaters are arranged in the cabin body to treat physical therapy positions, and the far infrared heaters are connected with the control unit.

As a still further scheme of the invention: the interface is provided with a valve assembly, and the oxygen supply state of the oxygen supply unit and the cabin pressure of the cabin body are controlled through the valve assembly; the valve assembly comprises an adjusting valve and a pressure relief valve which are used for adjusting the cabin pressure of the cabin body.

As a still further scheme of the invention: the two oxygen supply units are respectively a high-pressure high-concentration oxygen tank and an atmospheric pressure oxygen-enriched tank, the atmospheric pressure oxygen-enriched tank is connected with an oxygen generator, and the oxygen generator supplies oxygen to the atmospheric pressure oxygen-enriched tank; the breathing pipeline comprises a breathing mask, an breathing pipe and an expiration pipe, wherein two ends of the breathing pipe are respectively connected with an air inlet of the breathing mask and an interface connected with the normal-pressure oxygen-enriched tank; two ends of the expiration pipe are respectively connected with an air outlet and another interface of the breathing mask, and the other interface is communicated with the outside of the cabin body.

As a still further scheme of the invention: the protection unit comprises protection earmuffs, and the protection earmuffs are used for protecting physical therapy personnel.

As a still further scheme of the invention: the negative ion generator is arranged in the cabin body and used for converting partial oxygen ions conveyed to the cabin body by the oxygen supply unit into negative oxygen ions.

As a still further scheme of the invention: the control unit comprises a control screen integrated with a PLC, and the control screen controls the heating unit and the oxygen supply unit to work through the PLC.

As a still further scheme of the invention: the PLC is connected with a prompt component, the prompt component is arranged on the inner side of the cabin door, and the PLC displays the working condition of the oxygen supply unit through the prompt component.

As a still further scheme of the invention: the cabin door is provided with a locking piece, and the cabin door is locked by the locking piece to seal the cabin body.

The invention provides another technical scheme that: a use method of the positive pressure thermal oxygen physiotherapy cabin comprises the following steps: setting parameters, namely setting temperature, air pressure gradient parameters and physical therapy time in the cabin body through a control unit; the control unit controls the heating unit and the oxygen supply unit to work according to the set temperature, air pressure gradient parameters and physical therapy time; wherein the air pressure fade parameter is configured to: changing the delivery pressure of the oxygen in the first state, increasing the initial cabin pressure of the cabin body to 0.2MPa, and reducing the cabin pressure of the cabin body from 0.2MPa to 0.1MPa in a plurality of stages.

Compared with the prior art, the invention has the beneficial effects that: the control unit controls the heating unit and the oxygen supply unit to work, maintains the temperature of the cabin body within a set range, and reduces the cabin pressure from 0.2MPa to 0.1MPa in a stepped manner, so as to realize the compound physical therapy of thermal oxygen molecules and high-pressure oxygen molecules; the high temperature environment promotes the skin pores to be opened, thereby being beneficial to achieving deeper oxygen therapy effect; the high temperature environment promotes the microcirculation of the human body to be accelerated, thereby accelerating the speed of the oxygen therapy in the human body; the existence of partial negative ion oxygen enables the energy of the oxygen to be higher, thereby achieving the deep oxygen therapy effect; compared with the conventional medical hyperbaric oxygen chamber, the oxygen positive pressure is relatively lower and is within 0.2MPa, so that the side effects of the body caused by the positive pressure environment, such as lung barotrauma, middle ear barotrauma, paranasal sinus barotrauma and the like, are reduced; the arranged protection unit avoids middle ear barotrauma, paranasal sinus barotrauma and lung barotrauma caused by hyperbaric oxygen physiotherapy.

Drawings

Fig. 1 is a schematic structural diagram of a positive pressure thermal oxygen physiotherapy cabin in the embodiment of the invention.

In the drawings: 100. a physical therapy person; 101. a cabin body; 102. a high pressure high concentration oxygen tank; 102a, a regulating valve; 103. a control valve; 104. an atmospheric oxygen enrichment tank; 105. a respiratory mask; 106. an air intake duct; 106a, an exhalation tube; 107. a control screen; 108. an electronic wind generator; 109. a cabin door; 109a, a hatch handle; 110. an air inlet; 111. air bleeding holes; 112. a far infrared heater; 113. an oxygen generator; 114. opening and closing a valve; 115. protective earmuffs; 116. and (4) releasing the valve.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

Referring to fig. 1, in an embodiment of the present invention, a positive pressure thermal oxygen physiotherapy cabin includes: a cabin 101 having a cabin door 109, the cabin 101 being provided with a physiotherapy station and a plurality of interfaces; a heating unit arranged in the cabin 101, wherein the heating unit is used for maintaining the temperature in the cabin 101 within a set range, and the set range is 30-60 ℃; the oxygen supply unit is used for supplying oxygen in a first state to the cabin body through any interface and maintaining the cabin pressure of the cabin body at 0.1-0.2 MPa; the other oxygen supply unit is connected with a breathing pipeline through part of the residual interfaces, and the breathing pipeline supplies oxygen in a second state to the physiotherapy personnel 100 of the physiotherapy position in a circulating mode; and a protection unit for protecting the physical therapy personnel 100 and a control unit for controlling the heating unit and the oxygen supply unit to work.

Specifically, the plurality of interfaces are respectively an air inlet 110, an oxygen-enriched air inlet and an air outlet 111; the air inlet hole 110, the oxygen-enriched air inlet hole and the air release hole 111 are respectively provided with a control valve 103, a valve switch 114 and a pressure release valve 116. The two oxygen supply units are respectively a high-pressure high-concentration oxygen tank 102 and an atmospheric pressure oxygen-enriched tank 104, the high-pressure high-concentration oxygen tank 102 and the atmospheric pressure oxygen-enriched tank 104 are respectively communicated with an air inlet 110 and an oxygen-enriched air inlet, the atmospheric pressure oxygen-enriched tank 104 is connected with an oxygen generator 113, and the oxygen generator 113 supplies oxygen to the atmospheric pressure oxygen-enriched tank 104; the high-pressure high-concentration oxygen tank 102 is provided with an adjusting valve 102a, and the ratio of oxygen and nitrogen in the high-pressure high-concentration oxygen tank 102 is adjusted by the adjusting valve 102 a. The protection unit comprises protective earmuffs 115, and the protective earmuffs 115 are used for protecting physical therapy personnel; the breathing pipeline comprises a breathing mask 105, an breathing pipe 106 and an expiration pipe 106a, and two ends of the breathing pipe 106 are respectively connected with an air inlet of the breathing mask and an interface connected with the normal-pressure oxygen-enriched tank; two ends of the exhalation tube 106a are respectively connected with an air outlet and another interface of the breathing mask, and the another interface is communicated with the outside of the cabin body. The physical therapy personnel 100 enter the cabin body and set the temperature, air pressure gradient parameters and physical therapy time in the cabin body through the control unit; the physical therapy personnel 100 sit at a physical therapy position, the heating unit starts to heat, and the temperature range of the cabin body is kept between 30 and 60 ℃; the high-pressure high-concentration oxygen tank 102 is used for conveying oxygen in a first state into the cabin body and is matched with the heating unit to carry out high-pressure thermal oxygen physical therapy on the physical therapy personnel 100; the atmospheric oxygen-enriched tank 104 supplies oxygen to the physical therapist 100 through an inhalation tube 106, a breathing mask 105 and an exhalation tube 106 a; the oxygen content ratio in the first state is adjusted by the ratio of pure oxygen and pure nitrogen filled into the high-pressure high-concentration oxygen tank 102; the oxygen in the first state is oxygen enriched at atmospheric pressure. In the process of high-pressure thermal oxygen physiotherapy, the pressure of gas delivered by the high-pressure high-concentration oxygen tank 102 is controlled by the control valve 103 arranged on the air inlet hole, and then the cabin pressure of the cabin body is controlled, so that the cabin pressure is reduced to 0.1MPa from 0.2MPa step by step, and the high-pressure physiotherapy in multiple stages is realized.

Therefore, the two oxygen supply units in different states are arranged, the connection mode and the control process are the same, different effects are achieved, the control unit controls the heating unit and the oxygen supply unit to work, the temperature of the cabin body is maintained within a set range, the cabin pressure is reduced from 0.2MPa to 0.1MPa in a stepped mode, and the composite physical therapy of thermal oxygen molecules, negative oxygen ions and high-pressure oxygen molecules is realized; the arranged protection unit avoids middle ear barotrauma, paranasal sinus barotrauma and lung barotrauma caused by hyperbaric oxygen physiotherapy.

Further, the heating unit comprises a far infrared heater 112, one or more of the far infrared heaters 112 are arranged in the cabin body for physical therapy, and the far infrared heaters are connected with the control unit.

In practical application, the two far infrared heaters 112 are respectively arranged on the seat part and the pedal of the physiotherapy position; when far infrared rays irradiate a human body, the frequency of the far infrared rays is consistent with the movement frequency of water molecules among human cell molecules and atoms, so that human tissue can be caused to resonate to heat the skin, pores of the skin can be expanded, microcirculation of the skin tissue is accelerated, the blood flow speed is accelerated, blood flowing through the body surface can be increased, and positive pressure oxygen in vitro can be easily dispersed into the blood.

Referring to fig. 1, in a preferred embodiment of the present invention, the oxygen supply unit further includes an anion generator disposed in the cabin, wherein the anion generator is configured to convert oxygen ions, which are partially delivered into the cabin by the oxygen supply unit, into negative oxygen ions.

The negative ion generator is an electronic wind generator 108; the negative oxygen ions have higher activity and energy state compared with oxygen molecules, so the negative oxygen ions are easier to diffuse into blood and cell tissues, promote thrombus absorption in blood vessels and clear aged cells of 'corpses'. Also, since thermal oxygen molecules have a higher energy state than room temperature oxygen molecules, they diffuse more readily into the blood, increase the oxygen concentration of the blood, clear blood vessels of thrombi and "zombie" senescent cells dispersed in cellular tissues.

In addition, a valve assembly is arranged on the interface, and the oxygen supply state of the oxygen supply unit and the cabin pressure of the cabin body are controlled through the valve assembly; the valve assembly includes a regulating valve and a pressure relief valve 116, both for regulating the cabin pressure of the cabin.

Referring to fig. 1, in another embodiment of the present invention, the control unit includes a control panel 107 integrated with a PLC (programmable logic controller), and the control panel 107 controls the heating unit and the oxygen supply unit to operate through the PLC.

Further, the PLC is connected with a prompt component, the prompt component is arranged on the inner side of the cabin door, and the PLC displays the working condition of the oxygen supply unit through the prompt component. The suggestion part chooses the three-colour flash light for use, indicates the behavior of oxygen suppliment unit through the three-colour flash light, and the physical therapy personnel can audio-visually master the behavior of oxygen suppliment unit to in time and nimble regulation.

And furthermore, a locking piece is arranged on the cabin door, and the cabin door is locked by the locking piece to seal the cabin body. The locking member is a hatch handle 109 a.

Referring to fig. 1, in another embodiment of the present invention, a method for using the positive pressure thermal oxygen physiotherapy cabin includes the following steps: setting parameters, namely setting temperature, air pressure gradient parameters and physical therapy time in the cabin body through a control unit; the control unit controls the heating unit and the oxygen supply unit to work according to the set temperature, air pressure gradient parameters and physical therapy time; wherein the air pressure fade parameter is configured to: changing the delivery pressure of the oxygen in the first state, increasing the initial cabin pressure of the cabin body to 0.2MPa, and reducing the cabin pressure of the cabin body from 0.2MPa to 0.1MPa in a plurality of stages.

Specifically, the temperature, the concentration of negative oxygen ions, the air pressure gradient parameter and the physiotherapy time in the cabin are set through the control screen 107, the control screen 107 controls the far infrared heater 112, the electronic wind generator 108, the high-pressure high-concentration oxygen tank 102 and the normal-pressure oxygen-enriched tank 104 to work through plc, so that the external positive-pressure thermal oxygen physiotherapy, the far infrared thermotherapy and the negative oxygen ions are used for cooperative physiotherapy, and the physiotherapy air pressure change mode is combined with the physiotherapy of sucking normal-pressure thermal oxygen to form a cooperative physiotherapy mode; after the pressure is slowly increased to a pressure state, a thermal oxygen physiotherapy mode of gradient pressure reduction is adopted; and protective earmuffs 115 are worn during the hyperbaric oxygen chamber physiotherapy process; avoids middle ear barotrauma, paranasal sinus barotrauma and lung barotrauma caused by hyperbaric oxygen physiotherapy.

Therefore, when the far infrared rays are adopted to irradiate the human body, because the frequency of the far infrared rays is consistent with the movement frequency of water molecules among human cell molecules and atoms, the human tissue can be caused to resonate and heat the skin, skin pores can be expanded, the microcirculation of the skin tissue is accelerated, the blood flow speed is accelerated, the blood flowing through the body surface is increased, and thus the positive pressure oxygen in vitro can be more easily dispersed into the blood.

The negative oxygen ions have higher activity and energy state compared with oxygen molecules, so the negative oxygen ions are easier to diffuse into blood and cell tissues, promote thrombus absorption in blood vessels and clear aged cells of 'corpses'. Also, since thermal oxygen molecules have a higher energy state than room temperature oxygen molecules, they diffuse more readily into the blood, increase the oxygen concentration of the blood, clear blood vessels of thrombi and "zombie" senescent cells dispersed in cellular tissues.

Compared with the normal temperature state hyperbaric oxygen therapy which is generally adopted at present, the compound physiotherapy equipment not only can accelerate the microcirculation in the body, but also can make the oxygen molecules entering the body have larger kinetic energy, disperse deeper in the body and have better physiotherapy effect. In addition, in the process of physiotherapy, the earmuffs can be prevented from being damaged by wearing the protective earmuffs.

The working principle of the invention is as follows: the physical therapy method is to set temperature, air pressure gradient parameters and physical therapy time in the cabin body through a control screen to obtain the cooperative physical therapy of external positive pressure thermal oxygen physical therapy and far infrared thermal therapy, wherein the physical therapy air pressure change mode is combined with the physical therapy of sucking normal pressure thermal oxygen to form a cooperative physical therapy mode; after the pressure is slowly increased to a pressure state, a thermal oxygen physiotherapy mode of gradient pressure reduction is adopted; and protective earmuffs are worn for protection in the hyperbaric oxygen chamber physiotherapy process.

It should be noted that, the PLC and the control panel adopted in the present invention are all applications in the prior art, and those skilled in the art can implement the functions to be achieved according to the related description, or implement the technical features to be achieved through similar techniques, and will not be described in detail herein.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A positive pressure thermal oxygen physiotherapy cabin is characterized by comprising:

the cabin body is provided with a cabin door and is provided with a physiotherapy position and a plurality of interfaces;

the heating unit is arranged in the cabin body and used for maintaining the temperature in the cabin body within a set range, and the set range is 30-60 ℃;

the oxygen supply unit is used for supplying oxygen in a first state to the cabin body through any interface and maintaining the cabin pressure of the cabin body at 0.1-0.2 MPa; the other oxygen supply unit is connected with a breathing pipeline through part of the residual interfaces, and the breathing pipeline supplies oxygen in a second state for physical therapy personnel in a physical therapy position in a circulating mode;

and the protection unit is used for protecting physical therapy personnel, and the control unit controls the heating unit and the oxygen supply unit to work.

2. The positive pressure thermal oxygen physiotherapy cabin of claim 1, wherein the heating unit comprises a far infrared heater, one or more of the far infrared heaters are arranged in physiotherapy positions in the cabin, and the far infrared heaters are connected with the control unit.

3. The positive pressure thermal oxygen physiotherapy cabin of claim 1, wherein a valve assembly is arranged on the interface, and the valve assembly is used for controlling the oxygen supply state of the oxygen supply unit and the cabin pressure of the cabin body.

4. The positive pressure thermal oxygen physiotherapy cabin of claim 1, wherein the two oxygen supply units are a high pressure high concentration oxygen tank and a normal pressure oxygen tank, and the normal pressure oxygen tank is connected with an oxygen generator which supplies oxygen to the normal pressure oxygen tank.

5. The positive pressure thermal oxygen physiotherapy cabin according to claim 4, wherein the breathing pipeline comprises a breathing mask, an breathing pipe and an exhalation pipe, and two ends of the breathing pipe are respectively connected with an air inlet of the breathing mask and an interface connected with the atmospheric pressure oxygen-enriched tank; two ends of the expiration pipe are respectively connected with an air outlet and another interface of the breathing mask, and the other interface is communicated with the outside of the cabin body.

6. The positive pressure thermal oxygen physiotherapy cabin of claim 1, wherein the protective unit comprises protective earmuffs for protecting the physiotherapy personnel.

7. The positive pressure thermal oxygen therapy cabin according to claim 1, further comprising a negative ion generator arranged in the cabin body, wherein the negative ion generator is used for converting oxygen ions which are partially delivered into the cabin body by the oxygen supply unit into negative oxygen ions.

8. The positive pressure thermal oxygen physiotherapy cabin of claim 1, wherein the control unit comprises a control screen integrated with a PLC, and the control screen controls the heating unit and the oxygen supply unit to work through the PLC.

9. The positive pressure thermal oxygen physiotherapy cabin of claim 8, wherein the PLC is connected with a prompting component, the prompting component is arranged on the inner side of the cabin door, and the PLC displays the working condition of the oxygen supply unit through the prompting component.

10. A method of using the positive pressure thermal oxygen therapy cabin according to any one of claims 1 to 9, comprising the steps of: setting parameters, namely setting temperature, air pressure gradient parameters and physical therapy time in the cabin body through a control unit; the control unit controls the heating unit and the oxygen supply unit to work according to the set temperature, the set air pressure gradient parameter and the set physical therapy time.

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