CN214780757U - Combined type dispersion oxygen generation device - Google Patents

Abstract

The utility model relates to a combined type dispersion oxygen-generating device, which comprises a shell, an air compressor and a molecular sieve; the combination of the air compressor and the molecular sieve is an oxygen generation unit, the oxygen generation unit also comprises an air inlet, an exhaust pipe and an oxygen exhaust pipe, wherein the exhaust pipe is used for exhausting nitrogen separated by the molecular sieve, and the oxygen exhaust pipe is used for exhausting oxygen separated by the molecular sieve; the oxygen supply main pipe and the exhaust main pipe are both arranged in the shell, and a plurality of connecting parts with the same number are additionally arranged on the oxygen supply main pipe and the exhaust main pipe; the connecting member attached to the exhaust main pipe is detachably connected to the exhaust pipe, and the connecting member attached to the oxygen supply main pipe is detachably connected to the oxygen discharge pipe. The production line type oxygen making units are produced, and then the oxygen making units with different numbers are combined in the shell according to the requirements, thereby being beneficial to standardization and unified management. And meanwhile, the damage of each oxygen generation unit can be more conveniently replaced and recovered.

Description

Combined type dispersion oxygen generation device

Technical Field

The utility model relates to a disperse formula oxygen generating equipment, concretely relates to modular disperse oxygenerator.

Background

The existing common dispersive oxygen production equipment comprises an air compressor, a molecular sieve and a series of other related components with the functions of shock absorption, heat dissipation, humidification and the like. In the enclosed spaces with different sizes, the required power of the dispersive oxygen production equipment is different, when a room needing oxygen supply is larger, an air compressor with higher power is needed, and more molecular sieves are used for nitrogen and oxygen separation. This also means that the dispersion oxygen production equipment with different powers has larger shape and volume difference, and the design needs to spend more time setting different signals.

The market lacks a dispersable oxygen generating device which can control the oxygen generating efficiency through combination and disassembly.

Disclosure of Invention

The utility model provides a combined type dispersion oxygen generating device, which is used for solving the problem that dispersion oxygen generating equipment which can control the oxygen generating efficiency through combination and disassembly is lacking in the market.

The utility model adopts the following technical scheme:

a combined type dispersion oxygen generation device comprises a shell, an air compressor and a molecular sieve; the combination of the air compressor and the molecular sieve is an oxygen generation unit, the oxygen generation unit also comprises an air inlet, an exhaust pipe and an oxygen exhaust pipe, wherein the exhaust pipe is used for exhausting nitrogen separated by the molecular sieve, and the oxygen exhaust pipe is used for exhausting oxygen separated by the molecular sieve; the oxygen supply main pipe and the exhaust main pipe are both arranged in the shell, and a plurality of connecting parts with the same number are additionally arranged on the oxygen supply main pipe and the exhaust main pipe; the connecting member attached to the exhaust main pipe is detachably connected to the exhaust pipe, and the connecting member attached to the oxygen supply main pipe is detachably connected to the oxygen discharge pipe.

Further, the device comprises an electric connecting device which is electrically connected with an external power supply; the electric connecting device is provided with a plurality of electric connecting wires, the number of the electric connecting wires is the same as that of the connecting parts on the oxygen supply main pipe, and the electric connecting wires are used for electrically connecting the oxygen generation unit and the electric connecting device.

Further, the electrical connection device is a transformer.

Further, the oxygen generation unit also comprises a protective shell, an air compressor, a molecular sieve, a damping device and a heat dissipation device; the air compressor is communicated with the air inlet and the molecular sieve, and the molecular sieve is connected with the exhaust pipe and the oxygen exhaust pipe.

Further, when the connection member is not connected to the exhaust pipe or the oxygen exhaust pipe, the connection position is airtight.

Further, the oxygen generation unit also comprises a heat dissipation device, a vibration reduction device and an air humidifier; the air humidifier is installed between the molecular sieve and the oxygen discharge pipe.

Further, the housing is provided with a vent.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages:

1. the air compressor and the molecular sieve are used as an oxygen production unit to be produced in a unified mode, the shell is manufactured according to different use requirements, and the oxygen production units are installed in the shell one by one. The production line type oxygen making units are produced, and then the oxygen making units with different numbers are combined in the shell according to the requirements, thereby being beneficial to standardization and unified management. And meanwhile, the damage of each oxygen generation unit can be more conveniently replaced and recovered.

2. Set up unified air humidifier at the play oxygen position, can avoid oxygen too dry for the exhaust oxygen humidification of oxygen making equipment.

3. Each oxygen generating unit is connected in parallel and operates independently. Even if a certain oxygen generating unit is damaged, the oxygen generator still can work normally. And when the oxygen generation unit that damages need be pulled down, the position that relevant gas intercommunication pipeline is used for being connected with the oxygen generation unit still has the gas tightness, makes the oxygenerator can operate as usual.

Drawings

Fig. 1 is a block diagram of the combined type dispersion oxygen generator of the present invention.

Fig. 2 is a structural block diagram of the oxygen generation unit of the present invention.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1, a combined type dispersion oxygen generating device comprises an oxygen generating unit, an air humidifier, an electric connecting device, an oxygen supply main pipe, an exhaust main pipe and a shell. The oxygen supply main pipe, the exhaust main pipe and the electric connection device are fixedly arranged inside the shell, and the air humidifier is arranged at two ends of the oxygen supply main pipe close to the outlet. The oxygen making unit is detachably arranged in the shell, and the oxygen making main body is detachably connected with the oxygen supply main pipe, the exhaust main pipe and the electric connecting device.

Referring to fig. 1, the oxygen generation unit is provided with an air inlet, an oxygen discharge pipe, and an exhaust pipe. The oxygen supply main pipe and the exhaust main pipe are provided with a plurality of connecting devices with the same quantity, and the connecting devices are detachably connected with the oxygen exhaust pipe or the exhaust pipe. The oxygen discharging pipe is detachably connected with the connecting device on the oxygen supply main pipe, the exhaust pipe is detachably connected with the connecting device on the exhaust main pipe, and when the connecting device is connected with the exhaust pipe or the oxygen discharging pipe, the interface of the connecting device has air tightness.

Referring to fig. 1, the electrical connection device is provided with a plurality of electrical connection wires, the number of the electrical connection wires is equal to the number of the connection devices on the oxygen discharge main pipe, and the electrical connection wires are used for electrically connecting with the oxygen generation unit.

Referring to fig. 1, the housing is provided with a vent to facilitate air entering the housing, which is beneficial to both air supply of the oxygen generation unit and heat dissipation of the apparatus.

Referring to fig. 1 and 2, the oxygen generation unit comprises an air compressor, a molecular sieve, a heat dissipation device, a damping device and a protective shell, wherein the air compressor, the molecular sieve, the heat dissipation device and the damping device are all fixedly installed in the protective shell. The air compressor is communicated with the air inlet and the molecular sieve and is electrically connected with the electric connecting device through an electric connecting wire. The air compressor presses air into the molecular sieve. The molecular sieve will separate oxygen and nitrogen, discharge nitrogen from the exhaust pipe, and discharge oxygen from the oxygen discharge pipe into the oxygen supply main pipe.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (7)

1. A combined type dispersion oxygen generation device comprises a shell, an air compressor and a molecular sieve; the method is characterized in that: the combination of the air compressor and the molecular sieve is an oxygen generation unit, the oxygen generation unit also comprises an air inlet, an exhaust pipe and an oxygen exhaust pipe, the exhaust pipe is used for exhausting nitrogen separated by the molecular sieve, and the oxygen exhaust pipe is used for exhausting oxygen separated by the molecular sieve; the oxygen supply main pipe and the exhaust main pipe are both arranged in the shell, and a plurality of connecting parts with the same number are additionally arranged on the oxygen supply main pipe and the exhaust main pipe; the connecting part attached to the exhaust main pipe is detachably connected with the exhaust pipe, and the connecting part attached to the oxygen supply main pipe is detachably connected with the oxygen discharge pipe.

2. The combined diffusion oxygen generation device according to claim 1, wherein: comprises an electric connecting device which is electrically connected with an external power supply; the electric connecting device is additionally provided with a plurality of electric connecting wires, the number of the electric connecting wires is the same as that of the connecting parts on the oxygen supply main pipe, and the electric connecting wires are used for electrically connecting the oxygen generation unit and the electric connecting device.

3. The combined diffusion oxygen generation device according to claim 2, wherein: the electrical connection device is a transformer.

4. The combined diffusion oxygen generation device according to claim 1, wherein: the oxygen generation unit also comprises a protective shell, an air compressor, a molecular sieve, a damping device and a heat dissipation device; the air compressor machine with the gas inlet with molecular sieve gas intercommunication, the molecular sieve is connected the blast pipe with the oxygen discharge pipe.

5. The combined diffusion oxygen generation device according to claim 1, wherein: when the connecting part is not connected with the exhaust pipe or the oxygen exhaust pipe, the connecting position of the connecting part has air tightness.

6. The combined diffusion oxygen generation device according to claim 1, wherein: the oxygen generation unit also comprises a heat dissipation device, a vibration reduction device and an air humidifier; the air humidifier is arranged between the molecular sieve and the oxygen discharge pipe.

7. The combined diffusion oxygen generation device according to claim 1, wherein: the housing is attached with a vent.

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