CN215416401U - Multifunctional control box for micro hyperbaric oxygen chamber - Google Patents

Abstract

The utility model provides a multifunctional control box for a micro-hyperbaric oxygen chamber, which comprises a main box body, wherein the upper surface of the main box body is provided with a control device, communication equipment and a master control switch, the control device comprises a control panel and a display panel, and a plurality of ventilation interfaces, a plurality of power supply jacks and a plurality of wiring ports are arranged in the main box body; the air pressure control device is arranged inside the main box body and is communicated with the micro hyperbaric oxygen chamber; and the integrated circuit control system is electrically connected with the electrical appliance. Through being connected integrated circuit control system with electrical apparatus electricity among this technical scheme to through controlling the controlling means who sets up on the main tank body, can simply control the operation conditions of each electrical apparatus, need not to adjust each solitary equipment alone again, improved the controllability and the convenience in use in little hyperbaric oxygen cabin.

Description

Multifunctional control box for micro hyperbaric oxygen chamber

Technical Field

The application belongs to the technical field of micro hyperbaric oxygen chambers, and particularly relates to a multifunctional control box for a micro hyperbaric oxygen chamber, wherein the classification number of the multifunctional control box is A61G.

Background

With the rapid development of economy and science and technology, the micro hyperbaric oxygen chamber gradually appears in the visual field of people, can build up health, relieve pain after sports, improve sleep quality, improve mental state, treat and assist the regulation of chronic diseases, help old and weak let the crowd build up health, promote metabolic cycle, repair damaged cells, improve the health condition of people by supplementing oxygen to human bodies, and the micro hyperbaric oxygen chamber controls the functional parameters of the whole box body through the control box.

Patent application No. CN201920342922.9 discloses a portable micro hyperbaric oxygen chamber host, and the control function of the micro hyperbaric oxygen chamber host in the patent is single, can not realize the control and regulation of multiple functional parameters, has lower usability. Patent application No. CN202110274640.1 discloses a portable minute-pressure oxygen boosting cabin of integral type host computer system, and the host computer system and the oxygen cabin in this portable minute-pressure oxygen boosting cabin are integrated into one piece, and this host computer system's function is equally comparatively single, when needs regulation and control concrete parameter, still needs concrete adjusting device and operation relatively more complicated.

There is a need for a control box that can have a multi-functional regulation.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a multifunctional control box for a micro-hyperbaric oxygen chamber, which comprises a main box body, wherein the upper surface of the main box body is provided with a control device, communication equipment and a master control switch, the control device comprises a control panel and a display panel, and a plurality of ventilation interfaces, a plurality of power supply sockets and a plurality of wiring interfaces are arranged in the main box body;

the air pressure control device is arranged inside the main box body and is communicated with the micro hyperbaric oxygen chamber;

and the integrated circuit control system is electrically connected with the electrical appliance.

In a preferred embodiment, the control panel is electrically connected to the integrated circuit control system, and the control panel is provided with a pressure increase/decrease button, a pressure increase/decrease speed button, a time setting increase/decrease button, a start/stop button of the multifunction control box, and an emergency stop button of the multifunction control box.

As a preferred technical solution, the display panel includes a pressure display panel and a time display panel.

As a preferable technical solution, the air pressure control device includes a compressor, a condenser connected to the compressor, and a gas filter connected to an air inlet end of the compressor.

As a preferred technical scheme, the electric appliance comprises a pressure sensor, a lighting device, a USB power supply and an internal control panel in a micro high pressure oxygen cabin, and an auxiliary pressure pump, an oxygen generator, an air pressure control device, a control device and a master control switch outside the micro high pressure oxygen cabin.

As a preferable technical scheme, the ventilation interface arranged in the main box body comprises a micro hyperbaric oxygen chamber air outlet pipe interface and a micro hyperbaric oxygen chamber air inlet pipe interface which are respectively connected with the micro hyperbaric oxygen chamber through pipelines.

As a preferred technical scheme, a plurality of power sockets arranged in the main box body comprise a power socket of a multifunctional control box, a power socket of an oxygen generator and a power socket of an auxiliary pressure pump.

As a preferable technical scheme, a control box power switch electrically connected with the integrated circuit control system is arranged on the main box body.

As a preferred technical scheme, a plurality of universal wheels are installed below the main box body.

As a preferable technical scheme, the communication equipment is communicated with the communication extension equipment inside the micro hyperbaric oxygen chamber.

Has the advantages that:

(1) through being connected integrated circuit control system with electrical apparatus electricity among this technical scheme to through controlling the controlling means who sets up on the main tank body, can simply control the operation conditions of each electrical apparatus, make the size of the pressure in the little hyperbaric oxygen cabin, the size of pressure acceleration rate and the operation duration in little hyperbaric oxygen cabin all through multi-functional control box alright operation, need not to adjust each solitary equipment alone again, improved the controllability and the convenience in utilization in little hyperbaric oxygen cabin.

(2) Pressure and time are displayed by arranging the display panel, and the intuition of the control box is improved.

(3) The communication equipment is communicated with the communication extension equipment inside the micro hyperbaric oxygen chamber, so that the inside and the outside of the micro hyperbaric oxygen chamber can be communicated in real time.

Drawings

Fig. 1 is a schematic view of the overall external structure of a micro hyperbaric oxygen chamber in example 1 of the present invention.

Fig. 2 is a schematic view of the internal structure of the micro hyperbaric oxygen chamber in example 1 of the present invention.

1-main box body, 2-communication equipment, 3-control panel, 4-display panel, 5-master control switch,

6-universal wheel, 7-start/stop button, 8-emergency stop button, 9-integrated circuit control system, 10-first support plate, 11-second support plate, 12-micro hyperbaric oxygen chamber outlet pipe interface, 13-micro hyperbaric oxygen chamber inlet pipe interface, 14-gas filter, 15-compressor, 16-condenser, 17-multifunctional wiring interface, 18-pressure sensor wiring interface, 19-internal control panel wiring interface, 20-multifunctional control box power socket, 21-oxygen generator power socket, 22-auxiliary pressure pump power socket and 23-control box power switch.

Detailed Description

Example 1

The embodiment provides a multifunctional control box for a micro-hyperbaric oxygen chamber, which comprises a main box body 1, an air pressure control device and an integrated circuit control system 9, wherein the air pressure control device is positioned inside the main box body 1 and comprises a compressor 15, a condenser 16 connected with the compressor 15 and a gas filter 14 connected to the air inlet end of the compressor 15, as shown in fig. 1 and 2. 4 universal wheels 6 are arranged below the main box body 1. The upper surface of the main box body 1 is provided with a control device, a communication device 2 and a master control switch 5, and the master control switch 5 controls the on-off of the multifunctional control box. The control device comprises a control panel 3 and a display panel 4, wherein the control panel 3 comprises a pressure increase and decrease button, a pressurization speed increase and decrease button, a time setting increase and decrease button, a start/stop button 7 of the multifunctional control box and an emergency stop button 8 of the multifunctional control box, and the display panel 4 comprises a pressure display disc and a time display disc. The pressure increase and decrease button is respectively a micro high pressure button, a micro medium pressure button and a micro low pressure button, the micro high pressure is 1.3atm, the micro medium pressure is 1.2atm, the micro low pressure is 1.1atm, and the pressure is displayed through a pressure display disc in the display panel 4. The pressurization speed increase and decrease button comprises a quick pressurization button, a medium-speed pressurization button and a low-speed pressurization button, the pressure of the micro hyperbaric oxygen chamber after 13min reaches preset pressure, the pressure of the micro hyperbaric oxygen chamber after 15min reaches preset pressure, and the pressure of the micro hyperbaric oxygen chamber after 17min reaches preset pressure. The time setting increase and decrease button comprises a time increase button and a time decrease button, the operation time of the micro hyperbaric oxygen chamber is adjusted through the time increase button and the time decrease button, and the time is displayed through the time display disc of the display panel 4. The communication equipment 2 in the embodiment is a telephone, and the communication equipment is communicated with the communication extension equipment in the micro hyperbaric oxygen chamber, so that the function of communication between the inside and the outside of the micro hyperbaric oxygen chamber can be realized. The middle part in the main tank body is provided with a first supporting plate 10, the lower part is provided with a second supporting plate 11, the first supporting plate 10 is provided with 3 micro hyperbaric oxygen chamber air outlet pipe interfaces 12 and 1 micro hyperbaric oxygen chamber air inlet pipe interface 13, the micro hyperbaric oxygen chamber air outlet pipe interface 12 is connected with a micro hyperbaric oxygen chamber through a pipeline, and the micro hyperbaric oxygen chamber air inlet pipe interface 13 inputs the gas generated by a compressor 15 into the micro hyperbaric oxygen chamber through a pipeline. The first support plate 10 is provided with a gas filter 14 connected with an air inlet of a compressor 15, and gas entering the compressor 15 is filtered through the gas filter 14. The multifunctional wiring port 17 is installed on the first supporting plate 10, one end of the multifunctional wiring port 17 is connected with the integrated circuit control system 9, and the other end of the multifunctional wiring port 17 is electrically connected with the lighting device and the USB power supply inside the micro-hyperbaric oxygen chamber and is used for electric control. Install pressure sensor wiring mouth 18 on the first backup pad 10, the one end of pressure sensor wiring mouth 18 is connected with integrated circuit control system 9, and the other end is connected with the pressure sensor who installs in little hyperbaric oxygen cabin inside to the realization is to pressure sensor's signal acquisition and control. An internal control panel wiring port 19 is installed on the first supporting plate 10, one end of the internal control panel wiring port 19 is connected with the integrated circuit control system 9, and the other end of the internal control panel wiring port is connected with an internal control panel in the micro-hyperbaric oxygen chamber. And a power socket of a multifunctional control box, a power socket of an oxygen generator and a power socket of an auxiliary pressure pump are arranged on the second supporting plate 11 so as to control the electric devices. And a control box power switch 23 electrically connected with the integrated circuit control system 9 is arranged on the second supporting plate 11, and the control box power switch 23 controls the on-off condition of the power supply. Integrated circuit control system 9 is connected with pneumatic control device, controlling means and total control switch 5 electricity, the operation condition of each electrical apparatus of control through integrated circuit control system 9, and through controlling the controlling means who sets up on the main tank body, can simply control the operation status of each electrical apparatus, the size that makes pressure in the little hyperbaric oxygen cabin, the size of pressure acceleration rate and the operation duration in little hyperbaric oxygen cabin all through multi-functional control box alright operation, need not to adjust each solitary equipment alone again, the controllability and the convenience in use in little hyperbaric oxygen cabin have been improved.

Claims (10)

1. A multifunctional control box for a micro-hyperbaric oxygen chamber is characterized by comprising a main box body, wherein the upper surface of the main box body is provided with a control device, communication equipment and a master control switch, the control device comprises a control panel and a display panel, and a plurality of ventilation interfaces, a plurality of power supply sockets and a plurality of wiring interfaces are arranged in the main box body;

the air pressure control device is arranged inside the main box body and is communicated with the micro hyperbaric oxygen chamber;

and the integrated circuit control system is electrically connected with the electrical appliance.

2. The multifunctional control box for a micro hyperbaric chamber of claim 1, wherein the control panel is electrically connected with an integrated circuit control system, and the control panel is provided with a pressure increase/decrease button, a pressurization speed increase/decrease button, a time setting increase/decrease button, a start/stop button of the multifunctional control box, and an emergency stop button of the multifunctional control box.

3. The multifunctional control box for a micro-hyperbaric chamber of claim 1, wherein the display panel comprises a pressure display panel and a time display panel.

4. The multifunctional control box for a micro-hyperbaric chamber of claim 1, wherein the pressure control device comprises a compressor, a condenser connected with the compressor, and a gas filter connected with the inlet end of the compressor.

5. The multifunctional control box for a micro hyperbaric oxygen chamber of claim 1, wherein the electricity utilization device comprises a pressure sensor, a lighting device, a USB power supply, an internal control panel in the micro hyperbaric oxygen chamber, an auxiliary pressure pump, an oxygen generator, an air pressure control device, a control device and a master control switch outside the micro hyperbaric oxygen chamber.

6. The multifunctional control box for a micro hyperbaric oxygen chamber of claim 5, wherein the ventilation ports arranged in the main box body comprise a micro hyperbaric oxygen chamber air outlet pipe port and a micro hyperbaric oxygen chamber air inlet pipe port which are respectively connected with the micro hyperbaric oxygen chamber through pipelines.

7. The multifunctional control box for a micro-hyperbaric oxygen chamber of claim 6 wherein the plurality of power sockets provided in the main box body include a multifunctional control box power socket, an oxygen generator power socket and an auxiliary pressure pump power socket.

8. The multifunctional control box for a micro hyperbaric chamber of claim 5 wherein the main box body is provided with a control box power switch electrically connected with the integrated circuit control system.

9. The multifunctional control box for a micro hyperbaric chamber of any one of claims 1-8, wherein a plurality of universal wheels are mounted below the main box body.

10. The multifunctional control box for a micro hyperbaric chamber of claim 1 wherein the communication device is in communication with communication extensions inside the micro hyperbaric chamber.

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