CN112716719A - Multifunctional health-care high-pressure cabin - Google Patents

Abstract

The invention discloses a multifunctional health-care high-pressure cabin, which relates to the technical field of health-care cabins and comprises an oxygen supply module, wherein the oxygen supply module is controlled by a lower computer to operate and supply oxygen, the input end of the lower computer is connected with an oxygen concentration sensor, the oxygen supply concentration of the oxygen supply module induces concentration signals through the oxygen concentration sensor and feeds back the signals to the lower computer, the lower computer respectively controls the operation of a massage system, a first temperature control module, a second temperature control module and a humidity control module, and the input end of the lower computer is connected with a temperature sensor. According to the invention, the massage system, the temperature control module I, the temperature control module II, the humidity control module, the temperature sensor and the humidity sensor are arranged, and the temperature control module I for temperature regulation, the temperature control module II for humidity regulation and the auxiliary massage system are added on the basis of the hyperbaric oxygen chamber, so that the problems that the human fatigue and the muscle soreness feeling can be quickly relieved after strenuous exercise are solved.

Description

Multifunctional health-care high-pressure cabin

Technical Field

The invention relates to the technical field of recuperation cabins, in particular to a multifunctional health-care high-pressure cabin.

Background

The amount of dissolved oxygen in the blood of a normal person is related to the environmental pressure, and people live in an environment with one atmosphere, and because the oxygen in the air is only 1/5, the dissolved oxygen in the blood of the normal person is very little, so that the requirement of the human body cannot be met. Oxygen readily enters the red blood cells and is transported with the red blood cells, and very little oxygen dissolved in the blood is important. Because the oxygen that the erythrocyte carried is tens times higher than the oxygen of dissolving in the blood, so the normal person can satisfy the oxygen uptake volume of transporting oxygen, and the oxygen that the person dissolved in the blood in hyperbaric oxygen cabin increases along with the pressure in oxygen cabin increases, compares with ordinary oxygen uptake, and hyperbaric oxygen's dynamics is bigger, and the effect is better, can directly utilize oxygen volume to solve the oxygen deficiency problem, and hyperbaric oxygen still has effects such as antibiotic.

A high-pressure chamber health device with the Chinese patent number of CN 101940518A provides a high-pressure chamber health device, which is characterized in that: comprises an air filtering compressor, a refrigerating device and a cabin body which are communicated through pipelines. The portable high-pressure oxygen cabin health device is a high-pressure oxygen cabin, can be widely used, has good safety, integrates air purification, activation and refrigeration, and can increase the oxygen content of a human body.

The health-care high-pressure cabin is a device for relieving fatigue and muscles after sports and fitness, people in modern society pay more attention to quality of life, fitness and sports are more and more popularized in the masses, and with the acceleration of the pace of life of people, the traditional single-action massage physical therapy method cannot achieve the effects of quickly relieving body fatigue and relieving and massaging full-flesh muscles. The traditional single massage method has poor curative effect and takes longer time when the same massage effect is needed to be achieved, and the invention provides a novel method for quickly relieving fatigue and muscle soreness of a human body after strenuous exercise, so that the multifunctional health-care high-pressure air chamber is provided by combining the high-pressure air chamber.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a multifunctional health-care high-pressure cabin, which solves the problem that the fatigue and muscle soreness of a human body can be quickly relieved after strenuous exercise.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a multi-functional health recuperation high atmospheric pressure cabin, includes the oxygen suppliment module, the oxygen suppliment module is controlled the operation oxygen suppliment by the next computer, the next computer input is connected with oxygen concentration sensor, the oxygen suppliment concentration of oxygen suppliment module passes through oxygen concentration sensor response concentration signal and feedback signal to the next computer, the next computer controls massage system, temperature control module one, temperature control module two and humidity control module's operation respectively, the next computer input is connected with temperature sensor, the refrigeration temperature of temperature control module one passes through temperature sensor response temperature signal and feedback signal to the next computer, the heating temperature of temperature control module two passes through temperature sensor response temperature signal and feedback signal to the next computer, the next computer input is connected with humidity transducer, humidity control module's air humidification humidity passes through humidity transducer response humidity signal and feedback signal to the next computer, the input end of the lower computer is respectively connected with the barometer and the carbon dioxide concentration monitoring sensor, and the lower computer is in interactive control with the mobile phone client.

Preferably, the oxygen supply module comprises an oxygen generator, an oxygen storage tank, an air compressor, an oxygen supply tank, an oxygen chamber and an exhaust valve, and the lower computer controls the oxygen generator to supply oxygen.

Preferably, the lower computer is in interactive control with the mobile phone client through a central processing unit, a wireless communication module and a cloud server, the central processing unit accesses data in a memory, and the mobile phone client is in interactive control with the cloud server through a baseband module, a mobile processor and a software control module.

Preferably, the lower computer controls a massage control module of the massage system, and the massage control module drives the massage module to operate.

Preferably, the lower computer controls a semiconductor refrigeration piece of the first temperature control module to be electrified for refrigeration, cold air of the semiconductor refrigeration piece is transmitted to the radiating fin, the radiating fan operates to diffuse cold air on the surface of the radiating fin, and the lower computer processes signals fed back by the temperature sensor through the central processing unit to perform closed-loop control on the first temperature control module.

Preferably, the lower computer controls the PTC ceramic heating plate of the second temperature control module to be electrified and operated to heat, the heat of the PTC ceramic heating plate is transferred to the radiating fins, the radiating fan is operated to diffuse the heat on the surface of the radiating fins, and the lower computer processes signals fed back by the temperature sensor through the central processing unit to perform closed-loop control on the second temperature control module.

Preferably, the lower computer controls the ultrasonic humidifying module of the humidity control module to be electrified for high-frequency oscillation, the ultrasonic humidifying module atomizes and diffuses the water source in the water purifier, and the lower computer processes signals fed back by the humidity sensor through the central processing unit to perform closed-loop control on the humidity control module.

(III) advantageous effects

The invention provides a multifunctional health-care high-pressure cabin which has the following beneficial effects:

the invention is provided with a massage system, a temperature control module I, a temperature control module II, a humidity control module, a temperature sensor and a humidity sensor, the temperature control module I for temperature regulation, the temperature control module II for humidity regulation and an auxiliary massage system are added on the basis of a hyperbaric oxygen chamber, so that the single hyperbaric oxygen chamber is converted from a single high-pressure oxygen-enriched environment into a high-temperature high-humidity environment which can generate oxygen enrichment, the adjustable sweat steaming effect of 60 ℃ and 85 percent high-temperature high-humidity is achieved, the single hyperbaric oxygen chamber is converted from a single high-pressure oxygen-enriched environment into a low-temperature cold therapy environment which can generate oxygen enrichment and can be adjusted to-20 ℃, a cold compress environment can be created under the environment, the muscle fatigue of a human body is relieved, and an extra-matched massage system can be used for whole body massage in the environment to achieve better use effect, the multifunctional muscle pain relieving pillow has the advantages that the fatigue and muscle pain of a human body can be relieved in a multifunctional mode, and the problem that the fatigue and muscle pain of the human body can be relieved quickly after strenuous exercise is solved.

Drawings

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a schematic block diagram of a temperature control module system according to the present invention;

FIG. 3 is a schematic block diagram of a temperature control module II according to the present invention;

FIG. 4 is a schematic block diagram of a humidity control module system according to the present invention;

fig. 5 is a schematic block diagram of a massage system of the present invention.

In the figure: 1. an oxygen supply module; 101. an oxygen generator; 102. an oxygen storage tank; 103. an air compressor; 104. an oxygen supply tank; 105. an oxygen chamber; 106. an exhaust valve; 2. a lower computer; 201. a central processing unit; 202. a wireless communication module; 203. a cloud server; 204. a memory; 3. an oxygen concentration sensor; 4. a massage system; 401. a massage control module; 402. a massage module; 5. a first temperature control module; 501. a semiconductor refrigeration sheet; 6. a second temperature control module; 601. a PTC ceramic heating sheet; 7. a humidity control module; 701. an ultrasonic humidifying module; 702. a water purifier; 8. a temperature sensor; 9. a humidity sensor; 10. a barometer; 11. a carbon dioxide concentration monitoring sensor; 12. a mobile phone client; 121. a baseband module; 122. a mobile processor; 123. and a software control module.

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.

As shown in fig. 1 to 5, the present invention provides a technical solution: a multifunctional health-care high-pressure cabin comprises an oxygen supply module 1, wherein the oxygen supply module 1 is controlled by a lower computer 2 to operate for supplying oxygen, the input end of the lower computer 2 is connected with an oxygen concentration sensor 3, the oxygen supply concentration of the oxygen supply module 1 induces concentration signals through the oxygen concentration sensor 3 and feeds back the signals to the lower computer 2, the lower computer 2 respectively controls a massage system 4, a temperature control module I5, a temperature control module II 6 and a humidity control module 7 to operate, the input end of the lower computer 2 is connected with a temperature sensor 8, the refrigerating temperature of the temperature control module I5 induces temperature signals through the temperature sensor 8 and feeds back the signals to the lower computer 2, the heating temperature of the temperature control module II 6 induces temperature signals through the temperature sensor 8 and feeds back the signals to the lower computer 2, the input end of the lower computer 2 is connected with a humidity sensor 9, the air humidifying humidity of the humidity control module 7 induces humidity signals through the humidity sensor 9 and, the input end of the lower computer 2 is respectively connected with a barometer 10 and a carbon dioxide concentration monitoring sensor 11, and the lower computer 2 is interactively controlled with a mobile phone client 12.

As a technical optimization scheme of the invention, the oxygen supply module 1 comprises an oxygen generator 101, an oxygen storage tank 102, an air compressor 103, an oxygen supply tank 104, an oxygen chamber 105 and an exhaust valve 106, and the lower computer 2 controls the oxygen generator 101 to supply oxygen.

As a technical optimization scheme of the present invention, the lower computer 2 is interactively controlled with the mobile phone client 12 through the central processing unit 201, the wireless communication module 202 and the cloud server 203, the central processing unit 201 accesses data in the memory 204, and the mobile phone client 12 is interactively controlled with the cloud server 203 through the baseband module 121, the mobile processor 122 and the software control module 123.

As a technical optimization scheme of the invention, the lower computer 2 controls a massage control module 401 of the massage system 4, and the massage control module 401 drives a massage module 402 to operate.

As a technical optimization scheme of the invention, the lower computer 2 controls the semiconductor refrigeration piece 501 of the temperature control module I5 to be electrified for refrigeration, cold air of the semiconductor refrigeration piece 501 is transmitted to the radiating fin, the radiating fan runs to diffuse the cold air on the surface of the radiating fin, and the lower computer 2 processes a signal fed back by the temperature sensor 8 through the central processing unit 201 to carry out closed-loop control on the temperature control module I5.

As a technical optimization scheme of the invention, the lower computer 2 controls the PTC ceramic heating plate 601 of the second temperature control module 6 to be powered on to operate and heat, the heat of the PTC ceramic heating plate 601 is transferred to the radiating fin, the radiating fan operates to diffuse the heat on the surface of the radiating fin, and the lower computer 2 processes a signal fed back by the temperature sensor 8 through the central processing unit 201 to perform closed-loop control on the second temperature control module 6.

As a technical optimization scheme of the invention, the lower computer 2 controls the ultrasonic humidifying module 701 of the humidity control module 7 to be electrified to operate high-frequency oscillation, the ultrasonic humidifying module 701 atomizes and diffuses water sources in the water purifier 702, and the lower computer 2 processes signals fed back by the humidity sensor 9 through the central processing unit 201 to perform closed-loop control on the humidity control module 7.

The working principle is as follows: when the oxygen supply module 1 and the temperature control module II 6 are used, a high-temperature high-pressure oxygen environment can be created, a human body can achieve the effects of relieving fatigue and muscle soreness by absorbing oxygen and sweating per se under the environment, and then a high-temperature high-humidity oxygen-rich environment is created in the cabin body when the oxygen supply module 1 and the temperature control module II 6 are matched with the humidity control module 7 to operate, the environment can simulate a sweat steaming environment, the sweat steaming effect adjustable at 60 ℃ and 85% of high humidity is achieved, the sweat steaming effect is experienced under the oxygen-rich environment, the aim of sweating and toxin expelling is achieved, the two environments can be independently matched with the massage module 402 to use, and the effect of environmental muscle fatigue is achieved;

through oxygen suppliment module 1 and temperature control module 5, make single hyperbaric oxygen cabin convert the low temperature environment that can produce the oxygen boosting into by single high-pressure oxygen boosting environment, low temperature environment also can independent utility, builds a microthermal cold compress environment, and above-mentioned two kinds of environments all can independently arrange massage module 402 and use, reach the tired effect of environment muscle.

In conclusion, the massage system 4, the temperature control module I5, the temperature control module II 6, the humidity control module 7, the temperature sensor 8 and the humidity sensor 9 are arranged, so that the problem that the fatigue and muscle soreness of a human body can be quickly relieved after strenuous exercise is solved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A multifunctional health-care high-pressure cabin comprises an oxygen supply module (1), and is characterized in that: the oxygen suppliment module (1) is by the control operation oxygen suppliment of next computer (2), next computer (2) input is connected with oxygen concentration sensor (3), the oxygen suppliment concentration of oxygen suppliment module (1) is through oxygen concentration sensor (3) induced concentration signal and feedback signal to next computer (2), the operation of massage system (4), control by temperature change module (5), control by temperature change module two (6) and humidity control module (7) is controlled respectively to next computer (2), next computer (2) input is connected with temperature sensor (8), the refrigeration temperature of control by temperature change module one (5) passes through temperature sensor (8) induced temperature signal and feedback signal to next computer (2), the heating temperature of control by temperature change module two (6) passes through temperature sensor (8) induced temperature signal and feedback signal to next computer (2), next computer (2) input is connected with humidity transducer (9), humidity control module's (7) air humidification humidity passes through humidity transducer (9) response humidity signal and feedback signal to next machine (2), next machine (2) input is connected with barometer (10) and carbon dioxide concentration monitoring sensor (11) respectively, next machine (2) and mobile client (12) interactive control.

2. The multifunctional health-care high-pressure cabin of claim 1, wherein: oxygen suppliment module (1) includes oxygenerator (101), oxygen storage tank (102), air compressor machine (103), oxygen suppliment jar (104), oxygen chamber (105) and discharge valve (106), lower computer (2) control oxygenerator (101) operation oxygen suppliment.

3. The multifunctional health-care high-pressure cabin of claim 1, wherein: the lower computer (2) is in interactive control with the mobile phone client (12) through a central processing unit (201), a wireless communication module (202) and a cloud server (203), the central processing unit (201) accesses data in a memory (204), and the mobile phone client (12) is in interactive control with the cloud server (203) through a baseband module (121), a mobile processor (122) and a software control module (123).

4. The multifunctional health-care high-pressure cabin of claim 1, wherein: the lower computer (2) controls a massage control module (401) of the massage system (4), and the massage control module (401) drives the massage module (402) to operate.

5. The multifunctional health-care high-pressure cabin of claim 1, wherein: the lower computer (2) controls the semiconductor refrigeration piece (501) of the temperature control module (5) to be powered on to operate for refrigeration, cold air of the semiconductor refrigeration piece (501) is transmitted to the radiating fin, the radiating fan operates to diffuse cold air on the surface of the radiating fin, and the lower computer (2) processes signals fed back by the temperature sensor (8) through the central processing unit (201) to control the temperature control module (5) in a closed loop mode.

6. The multifunctional health-care high-pressure cabin of claim 1, wherein: the PTC ceramic heating piece (601) of next machine (2) control temperature control module two (6) circular telegram operation heats, the heat transfer of PTC ceramic heating piece (601) is to the fin, radiator fan operation diffusion fin surface heat, next machine (2) handle the signal of temperature sensor (8) feedback through central processing unit (201) and to two (6) closed loop control of temperature control module.

7. The multifunctional health-care high-pressure cabin of claim 1, wherein: the device is characterized in that the lower computer (2) controls an ultrasonic humidifying module (701) of the humidity control module (7) to be electrified for high-frequency oscillation, the ultrasonic humidifying module (701) atomizes and diffuses a water source in the water purifier (702), and the lower computer (2) processes signals fed back by the humidity sensor (9) through the central processing unit (201) to perform closed-loop control on the humidity control module (7).

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