CN218491852U - Oxygen generator with electrolyte supplementing structure - Google Patents

Abstract

The utility model discloses an oxygen generator with electrolyte supplyes structure, including the oxygen generator body, the bottom of oxygen generator body is passed through the connecting plate and is connected with the base, be provided with shock-absorbing structure on the connecting plate, the inside of oxygen generator body is provided with the power, the electrolytic bath, the deareator, the drying tube, purification catalysis room, store up the oxygen jar, be provided with fluid infusion mechanism on the electrolytic bath, the oxygen discharge port and the deareator of electrolytic bath are connected, the deareator passes through the drying tube and is connected with the purification catalysis room that is used for the oxygen purification, purification catalysis room is connected with storing up the oxygen jar, store up the oxygen outlet connection on oxygen generator body, be provided with universal shaping pipe in the oxygen outlet. The utility model adopts the above structure have electrolyte to supply the oxygen generator of structure, can solve traditional oxygen generator artifical fluid infusion inefficiency and the during operation problem that is not stable enough.

Description

Oxygen generator with electrolyte supplementing structure

Technical Field

The utility model belongs to the technical field of oxygen generator technique and specifically relates to an oxygen generator with electrolyte supplyes structure is related to.

Background

The oxygen generator generates hydrogen at the cathode and oxygen at the anode of the electrolytic cell by electrolyzing water. The generated oxygen is discharged from a discharge port for various works needing the oxygen after being subjected to a series of treatments such as drying, purification and the like. The traditional oxygen generator needs manual liquid supplement to the electrolytic cell, so that the time and labor are wasted, the working efficiency is low, and the cost is increased. The conventional oxygen generator has no structure for weakening vibration, is not stable enough in working, and can affect the generation of oxygen and even damage the oxygen generator.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an oxygen generator with electrolyte supplyes structure solves the artifical fluid infusion inefficiency of traditional oxygen generator and the during operation problem that is not stable enough.

In order to achieve the purpose, the utility model provides an oxygen generator with electrolyte replenishing structure, including the oxygen generator body, the bottom of oxygen generator body is connected with the base through the connecting plate, be provided with shock-absorbing structure on the connecting plate, the inside of oxygen generator body is provided with power, electrolytic cell, deareator, drying tube, purification catalysis room, oxygen storage tank, be provided with fluid infusion mechanism on the electrolytic cell, the oxygen discharge port of electrolytic cell is connected with deareator, deareator is connected with the purification catalysis room that is used for oxygen purification through the drying tube, purification catalysis room is connected with the oxygen storage tank, the oxygen storage tank is connected with the oxygen outlet on the oxygen generator body, be provided with universal shaping pipe on the oxygen outlet; the liquid supplementing mechanism comprises a main liquid supplementing pipe, the main liquid supplementing pipe is connected with a main water pump, the main water pump is connected with a supplementing box through a main water suction pipe, the supplementing box is connected with an electrolytic cell through an auxiliary liquid supplementing structure, and a liquid level sensor used for monitoring the liquid level is arranged on the electrolytic cell.

Preferably, shock-absorbing structure includes the pneumatic cylinder, and the pneumatic cylinder setting is on the top of connecting plate, and the hydraulic stem and the shock attenuation board of pneumatic cylinder are connected, and the shock attenuation board is connected with shock attenuation board two through hydraulic shock absorber ware.

Preferably, the bottom end of the second damping plate is provided with a non-slip mat for preventing slipping.

Preferably, the top end of the electrolytic cell is provided with a top cover, the top cover is hermetically connected with the electrolytic cell, and the oxygen discharge port is arranged on the top cover.

Preferably, one end of the main liquid supplementing pipe is connected with the main water pump, the pipe opening at the other end of the main liquid supplementing pipe is arranged at the bottom end of the electrolytic cell, and the main water suction pipe is detachably connected with the main water pump.

Preferably, the replenishment tank is provided with a liquid inlet for replenishing the electrolytic solution.

Preferably, supplementary liquid supply structure includes supplementary liquid supply pipe, and the one end and the supplementary water pump of supplementary liquid supply pipe are connected, and the other end and the electrolytic bath of supplementary liquid supply pipe are connected, and supplementary water pump absorbs water through supplementary pipe and is connected with supplementary case.

Therefore, the utility model adopts the above structure have the oxygen generator of electrolyte additional structure, the oxygen that the electrolytic cell produced carries out the drying through the drying tube to oxygen behind the deareator, and the oxygen after the drying purifies through the purification catalysis room, and the back flows in and stores up the oxygen jar and gets into universal design pipe through the oxygen export, and universal design pipe can adjust the direction, makes to connect more conveniently, makes oxygen can multi-directionally carry. Level sensor is used for monitoring the liquid level of electrolytic bath, and when electrolyte was not enough in the electrolytic bath, main water pump absorbed water through main and managed the electrolyte that will supply the incasement and inhaled main liquid supply pipe, and electrolyte need not manual operation through main liquid supply pipe and supplys in the electrolytic bath, and is more simple and convenient, has saved artificial time, improves the efficiency of work greatly. When the liquid supplementing mechanism breaks down, electrolyte can be supplemented for the electrolytic cell temporarily through the auxiliary liquid supplementing structure, so that the problem of accidents is solved, and the use is more convenient. The device during operation drives through the pneumatic cylinder and subtracts vibrating plate one, subtracts vibrating plate two descends, makes base and ground have certain distance, and the hydraulic shock absorber can weaken the vibrations of device, and then improves the stability of device, and the slipmat makes placing that subtracts vibrating plate two is more stable subaerial.

The technical solution of the present invention is further described in detail by the accompanying drawings and examples.

Drawings

FIG. 1 is a front view of an embodiment of an oxygen generator with an electrolyte replenishing structure according to the present invention;

FIG. 2 is a schematic view of a fluid infusion mechanism of an embodiment of the oxygen generator with an electrolyte infusion structure according to the present invention;

FIG. 3 is a schematic view of the internal structural connection of an embodiment of an oxygen generator with an electrolyte replenishing structure according to the present invention;

FIG. 4 is a top view of an embodiment of an oxygen generator with an electrolyte replenishing structure according to the present invention;

fig. 5 is a schematic view of a damping structure of an embodiment of the oxygen generator with an electrolyte supplementing structure according to the present invention.

Reference numerals

1. An oxygen generator body; 2. a connecting plate; 3. a base; 4. a power source; 5. an electrolytic cell; 6. a gas-water separator; 7. a drying tube; 8. a purification catalysis chamber; 9. an oxygen storage tank; 10. an oxygen discharge port; 11. an oxygen outlet; 12. a universal sizing tube; 13. a main liquid replenishing pipe; 14. a main water pump; 15. a main suction pipe; 16. a replenishing tank; 17. a liquid level sensor; 18. a top cover; 19. a liquid injection port; 20. an auxiliary fluid supplementing pipe; 21. an auxiliary water pump; 22. an auxiliary suction pipe; 23. a hydraulic cylinder; 24. a first damping plate; 25. a second damping plate; 26. a hydraulic shock absorber; 27. a non-slip mat.

Detailed Description

The technical solution of the present invention is further explained by the accompanying drawings and examples.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and similar terms in the description herein do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Examples

FIG. 1 is a front view of an embodiment of an oxygen generator with an electrolyte replenishing structure according to the present invention; FIG. 2 is a schematic view of a fluid infusion mechanism of an embodiment of the oxygen generator with an electrolyte infusion structure according to the present invention; FIG. 3 is a schematic view of the internal structural connection of an embodiment of an oxygen generator with an electrolyte replenishing structure according to the present invention; FIG. 4 is a top view of an embodiment of an oxygen generator with an electrolyte replenishing structure according to the present invention; fig. 5 is a schematic view of a damping structure of an embodiment of the oxygen generator with an electrolyte supplementing structure according to the present invention.

As shown in the figure, an oxygen generator with electrolyte supplyes structure, including oxygen generator body 1, oxygen generator body 1's inside is provided with power 4, electrolytic bath 5, gas-water separator 6, drying tube 7, purification catalysis room 8, oxygen storage tank 9. An oxygen discharge port 10 of the electrolytic cell 5 is connected with a gas-water separator 6, and the gas-water separator 6 is connected with a purification catalyst chamber 8 for oxygen purification through a drying pipe 7. The purification catalysis chamber 8 is connected with an oxygen storage tank 9, and the oxygen storage tank 9 is connected with an oxygen outlet 11 on the oxygen generator body 1. The oxygen outlet 11 is provided with a universal sizing pipe 12, and the direction of the oxygen outlet 11 can be changed by the universal sizing pipe 12, so that oxygen can be conveyed in multiple directions. The top end of the electrolytic cell 5 is provided with a top cover 18, the top cover 18 is connected with the electrolytic cell 5 in a sealing way, and the oxygen discharge port 10 is arranged on the top cover 18.

The electrolytic cell 5 is provided with a liquid supplementing mechanism, the liquid supplementing mechanism comprises a main liquid supplementing pipe 13, and the main liquid supplementing pipe 13 is connected with a main water pump 14. The main water pump 14 is connected with a supplement tank 16 through a main water suction pipe 15, and the supplement tank 16 is connected with the electrolytic cell 5 through an auxiliary liquid supplement structure. The electrolytic cell 5 is provided with a liquid level sensor 17 for monitoring the liquid level. The replenishment tank 16 is provided with a liquid inlet 19 for replenishing the electrolytic solution. The auxiliary liquid supplementing structure comprises an auxiliary liquid supplementing pipe 20, one end of the auxiliary liquid supplementing pipe 20 is connected with an auxiliary water pump 21, the other end of the auxiliary liquid supplementing pipe 20 is connected with the electrolytic cell 5, and the auxiliary water pump 21 is connected with the supplementing box 16 through an auxiliary water suction pipe 22. The nozzle of the main suction pipe 15 is arranged at the bottom of the replenishing tank 16, so that the electrolyte in the replenishing tank 16 can be sucked out completely. One end of the main liquid supplementing pipe 13 is connected with the main water pump 14, the pipe orifice at the other end of the main liquid supplementing pipe 13 is arranged at the bottom end of the electrolytic cell 5, and the main water suction pipe 15 is detachably connected with the main water pump 14. When the electrolyte in the electrolytic cell 5 needs to be discharged, the main water suction pipe 15 on the main water pump 14 is detached, then the discharge pipe is connected, the electrolyte is sucked out and discharged through the main water pump 14, and the electrolyte at the bottom end in the electrolytic cell 5 can be sucked out through the pipe orifice of the main liquid supplementing pipe 13. All be provided with the valve that control electrolyte passes through on main fluid infusion pipe 13 and the supplementary fluid infusion pipe 20, can control the circulation of electrolyte through the valve, need not manual operation. When the electrolyte in the electrolytic cell 5 is insufficient, the main water pump 14 sucks the electrolyte in the replenishing tank 16 to the main liquid replenishing pipe 13 through the main water suction pipe 15, and the electrolyte is replenished into the electrolytic cell 5 through the main liquid replenishing pipe 13. When the liquid replenishing mechanism fails, the electrolytic cell 5 can be replenished with the electrolytic solution by the auxiliary water pump 21.

The bottom of the oxygen generator body 1 is connected with a base 3 through a connecting plate 2, and a damping structure is arranged on the connecting plate 2. The shock-absorbing structure comprises a hydraulic cylinder 23, and the hydraulic cylinder 23 is arranged at the top end of the connecting plate 2. The hydraulic rod of the hydraulic cylinder 23 is connected to a first damper plate 24, and the first damper plate 24 is connected to a second damper plate 25 through a hydraulic damper 26. The bottom end of the second damping plate 25 is provided with a non-slip mat 27 for preventing slipping. When the device works, the hydraulic cylinder 23 drives the first damping plate 24 to descend through the hydraulic rod, the first damping plate 24 descends, the second damping plate 25 descends through the hydraulic damper 26, and the hydraulic damper 26 can weaken the vibration of the device, so that the device can work more stably.

Oxygen storage tank 9 passes through the pipeline and is connected with oxygen outlet 11, is provided with the five-way on the pipeline, and two ports and the pipeline intercommunication of five-way, the other three port of five-way communicate with pressure alarm sensor, pressure indicator, pressure control sensor respectively. The oxygen generator body 1 is provided with a controller, the valve is an electric valve, and the opening and closing of the valve can be controlled through the controller. The power supply 4, the electrolytic cell 5, the gas-water separator 6, the valve, the main water pump 14, the auxiliary water pump 21, the hydraulic cylinder 23, the pressure alarm sensor, the pressure indicator, the pressure control sensor, the liquid level sensor 17 and the controller are electrically connected in the prior art. The hydraulic shock absorber 26, the gas-water separator 6, the drying pipe 7, the pressure alarm sensor, the pressure indicator, the pressure control sensor and the liquid level sensor 17 all adopt the existing structures. The catalyst in the purification catalysis chamber 8 adopts the catalyst in the existing hydrogen generator, and the universal shaping pipe 12 is a gooseneck pipe.

When the oxygen generator is used, the second damping plate 25 is driven to descend by the hydraulic cylinder 23 to jack the oxygen generator body 1, the base 3 is separated from the ground by a certain distance, the oxygen outlet 11 is connected with an output device by the universal shaping pipe 12, and the device is started to generate oxygen.

Therefore, the utility model adopts the above structure have the oxygen generator of electrolyte additional structure, solve traditional oxygen generator artifical fluid infusion inefficiency and during operation unstable problem inadequately.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit the same, and although the present invention is described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand that: the technical solution of the present invention can still be modified or replaced by other equivalent means, and the modified technical solution can not be separated from the spirit and scope of the technical solution of the present invention.

Claims (7)

1. An oxygen generator with electrolyte replenishment structure which is characterized in that: the oxygen purification device comprises an oxygen generator body, wherein the bottom end of the oxygen generator body is connected with a base through a connecting plate, a damping structure is arranged on the connecting plate, a power supply, an electrolytic cell, a gas-water separator, a drying pipe, a purification catalysis chamber and an oxygen storage tank are arranged in the oxygen generator body, a liquid supplementing mechanism is arranged on the electrolytic cell, an oxygen discharge port of the electrolytic cell is connected with the gas-water separator, the gas-water separator is connected with the purification catalysis chamber for oxygen purification through the drying pipe, the purification catalysis chamber is connected with the oxygen storage tank, the oxygen storage tank is connected with an oxygen outlet on the oxygen generator body, and a universal shaping pipe is arranged on the oxygen outlet; the liquid supplementing mechanism comprises a main liquid supplementing pipe, the main liquid supplementing pipe is connected with a main water pump, the main water pump is connected with a supplementing box through a main water suction pipe, the supplementing box is connected with an electrolytic cell through an auxiliary liquid supplementing structure, and a liquid level sensor used for monitoring the liquid level is arranged on the electrolytic cell.

2. The oxygen generator with electrolyte replenishing structure of claim 1, wherein: the damping structure comprises a hydraulic cylinder, the hydraulic cylinder is arranged at the top end of the connecting plate, a hydraulic rod of the hydraulic cylinder is connected with a damping plate, and the damping plate I is connected with a damping plate II through a hydraulic damper.

3. The oxygen generator with electrolyte replenishing structure of claim 2, wherein: and the bottom end of the second damping plate is provided with an anti-skid mat for skid resistance.

4. The oxygen generator with electrolyte replenishing structure of claim 1, wherein: the top cover is arranged at the top end of the electrolytic cell and is connected with the electrolytic cell in a sealing way, and the oxygen discharge port is arranged on the top cover.

5. The oxygen generator with electrolyte replenishing structure of claim 1, wherein: one end of the main liquid supplementing pipe is connected with the main water pump, the pipe orifice at the other end of the main liquid supplementing pipe is arranged at the bottom end of the electrolytic cell, and the main water suction pipe is detachably connected with the main water pump.

6. The oxygen generator with electrolyte replenishing structure of claim 1, wherein: the replenishment box is provided with a liquid injection port for replenishing the electrolyte.

7. The oxygen generator with electrolyte replenishing structure of claim 1, wherein: the auxiliary liquid supplementing structure comprises an auxiliary liquid supplementing pipe, one end of the auxiliary liquid supplementing pipe is connected with an auxiliary water pump, the other end of the auxiliary liquid supplementing pipe is connected with the electrolytic cell, and the auxiliary water pump is connected with the supplementing box through an auxiliary water suction pipe.

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