CN212713767U - Gas-water separation and water storage device - Google Patents

Abstract

The utility model relates to a gas-water separation and water receiver, including water receiver one, water receiver one bottom is equipped with the delivery port, is equipped with the water inlet through water piping connection delivery port on the electrolysis cell one, is equipped with hydrogen export one and oxygen export one on the electrolysis cell one, is equipped with the baffle in the water receiver, and the baffle is cut apart into hydrogen room and oxygen chamber in the water receiver, and hydrogen room top is equipped with the hydrogen discharge port, and the bottom of hydrogen room is equipped with the hydrogen import, and oxygen chamber top is equipped with the oxygen discharge port, and the bottom of oxygen chamber is equipped with the oxygen import, and oxygen access connection oxygen export one, hydrogen access connection hydrogen export one. Preferably, the bottom of the partition plate is provided with an opening for communicating the hydrogen chamber and the oxygen chamber. The utility model discloses a natural two cavities that form not only fine realization gas-water separation, but also realized the separation of two sets of gases, solved the unbalanced difficult problem of water content in two sets of gases simultaneously. And moreover, the economic cost is reduced, and the installation flow is optimized.

Description

Gas-water separation and water storage device

Technical Field

The utility model belongs to the technical field of the gas-water separation equipment, concretely relates to gas-water separation and water receiver.

Background

The traditional hydrogen-oxygen breathing machine and the hydrogen breathing machine filter moisture in hydrogen and oxygen through a special gas-water separator and a pressure valve. Fig. 2 shows a schematic structural diagram of a conventional hydrogen machine and a hydrogen molecule generator, which includes a second electrolytic cell 15, a second water storage device 14 and a gas-water separator 17, the second electrolytic cell 15 is provided with a second hydrogen outlet 16 and a second oxygen outlet 21, the second water storage device 14 is connected with the second electrolytic cell 15 through a water outlet pipe 22, the second water storage device 14 is connected with a float valve 20 in the gas-water separator 17 through a water return pipe 23, the second hydrogen outlet 16 is connected with the upper part of the gas-water separator 17, the second oxygen outlet 21 is connected with the water return pipe 23, the upper part of the gas-water separator 17 is connected with a one-way pressure valve 18 through a gas outlet pipe, and the. The hydrogen electrolyzed by the water electrolysis technology enters the gas-water separator through the hydrogen outlet II, the gas passes through the single pressure valve, the pressure of about 2kg is formed in the gas-water separator, when the water level reaches the float valve, the valve is opened, and the filtered water flows back to the water storage device through the pressure. Fig. 3 is a schematic structural diagram of a conventional hydrogen-oxygen mixing and hydrogen-oxygen separating respirator and generator, and differs from fig. 2 in that oxygen at the second oxygen outlet is mixed with hydrogen at the second hydrogen outlet and discharged into a gas-water separator, and the working principle of the respirator and generator is the same as that of a hydrogen machine and a hydrogen molecular generator.

The water electrolysis hydrogen and oxygen production technology with the structure has the advantages that in order to filter the water in the hydrogen, oxygen and mixed gas of hydrogen and oxygen, a water separator and a single pressure valve are added, so that the structure is complex, and the cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a gas-water separation and water receiver solves present gas-water separation and needs devices such as pressure separator, check valve, causes the structure complicacy, the higher problem of cost.

The utility model relates to a gas-water separation and water receiver, including water receiver one, water receiver one bottom is equipped with the delivery port, and the delivery port leads to the water inlet on the water piping connection electrolytic cell one, is equipped with hydrogen export one and oxygen export one on the electrolytic cell one, is equipped with the baffle in the water receiver one, and the baffle is cut apart into hydrogen room and oxygen room in the water receiver, and hydrogen room top is equipped with the hydrogen discharge port, and the bottom of hydrogen room is equipped with the hydrogen import, and oxygen room top is equipped with the oxygen discharge port, and the bottom of oxygen room is equipped with the oxygen import, and the oxygen export one of oxygen access connection electrolytic cell, hydrogen export one of hydrogen access connection electrolytic.

Preferably, the bottom of the partition plate is provided with an opening for communicating the hydrogen chamber and the oxygen chamber. The ratio of hydrogen to oxygen generated by water electrolysis is 2: 1, the water contents of the hydrogen outlets and the oxygen outlets are different, the water returning amount naturally entering the hydrogen chamber and the oxygen chamber is also different, but the water is communicated through the openings, and the difficult problem of different water carrying amounts in the hydrogen and the oxygen is naturally balanced.

Preferably, the top of the water storage device is provided with a water filling port, so that water can be filled conveniently.

Preferably, the top of the oxygen inlet is connected with an oxygen extension pipe, and the top of the oxygen extension pipe extends to the upper part of the oxygen chamber, so that oxygen can be better separated.

The utility model is mainly used for hydrogen-oxygen breathing machine and hydrogen breathing machine.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses a natural two cavities that form not only fine realization gas-water separation, but also realized the separation of two sets of gases, solved the unbalanced difficult problem of water content in two sets of gases simultaneously.

The structure greatly improves the efficiency of water electrolysis, and reduces complicated control devices such as gas-water separation gas, single pressure valves and the like. The process control of the water electrolysis process is reduced by more than 40%, the quality of the electrolyzed water is greatly improved, the efficiency is improved, the economic cost is reduced, and the installation flow is optimized. After the device is adopted, the installation speed is improved by 40 percent, the cost is reduced by 10 percent, the operation test is carried out in 3 hours, and the water temperature is reduced by 15 percent, so the device has economic value and practical value in hydrogen and oxygen production by electrolyzing water.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of a first prior art;

FIG. 3 is a schematic diagram of a second prior art;

in the figure: 1. the device comprises a partition board, 2, a first water storage device, 3, a water injection port, 4, a hydrogen discharge port, 5, an oxygen discharge port, 6, an oxygen extension pipe, 7, a first oxygen outlet, 8, a first electrolytic cell, 9, a first hydrogen outlet, 10, a water inlet, 11, an oxygen inlet, 12, a water outlet, 13, a hydrogen inlet, 14, a second water storage device, 15, a second electrolytic cell, 16, a second hydrogen outlet, 17, a gas-water separator, 18, a one-way pressure valve, 19, a mixed gas outlet pipe, 20, a float valve, 21, a second oxygen outlet, 22, a water outlet pipe, 23 and a water return pipe.

Detailed Description

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

The gas-water separation and water storage device comprises a first water storage device 2, a water outlet 12 is formed in the bottom of the first water storage device 2, the water outlet 12 is connected with a water inlet 10 in a first electrolytic cell 8 through a water pipe, a partition plate 1 is arranged in the first water storage device 2, the water storage device is divided into a hydrogen chamber and an oxygen chamber by the partition plate 1, a hydrogen outlet 4 is formed in the top of the hydrogen chamber, a hydrogen inlet 13 is formed in the bottom of the hydrogen chamber, an oxygen outlet 5 is formed in the top of the oxygen chamber, an oxygen inlet 11 is formed in the bottom of the oxygen chamber, the oxygen inlet 11 is connected with a first oxygen outlet 7 of the first electrolytic cell 8, and the hydrogen inlet 13 is.

The bottom of the clapboard 1 is provided with an opening for communicating the hydrogen chamber and the oxygen chamber. The ratio of hydrogen to oxygen generated by water electrolysis is 2: 1, the water contents of the hydrogen outlets and the oxygen outlets are different, the water returning amount naturally entering the hydrogen chamber and the oxygen chamber is also different, but the water is communicated through the openings, and the difficult problem of different water carrying amounts in the hydrogen and the oxygen is naturally balanced.

The top of the water storage device is provided with a water filling port 3 which is provided with a valve.

The top of the oxygen inlet 11 is connected with an oxygen extension pipe 6, and the top of the oxygen extension pipe 6 extends to the upper part of the oxygen chamber.

The utility model discloses having carried out the mechanism transformation to the water receiver, having annotated the water back when the water receiver in one, reaching as the position of water level line in figure 1, the water level line surpasss baffle opening top, and wherein the intermediate bottom portion in the water receiver in one is the intercommunication, does not have totally airtight, cuts apart into two relative inclosed natural cavity hydrogen rooms and oxygen room to the water receiver naturally.

The first electrolytic cell is used for electrolyzing hydrogen and oxygen generated after water enters from the water outlet, the water pipe and the water inlet through the water outlet, and the hydrogen and the oxygen respectively flow back through the hydrogen inlet and the oxygen inlet on the first water storage device through the pressure generated by the first electrolytic cell. The hydrogen and oxygen float naturally in the two cavities of the hydrogen chamber and the oxygen chamber, the water carried in the gas is separated naturally through the water storage device, and the gas overflows naturally through the hydrogen outlet and the oxygen outlet, so that the gas-water separation and the separation of the hydrogen and the oxygen are realized. The utility model is mainly used for hydrogen-oxygen breathing machine and hydrogen breathing machine.

To sum up, the utility model discloses a two cavities that form naturally not only fine realization gas-water separation, but also realized the separation of two sets of gases, solved the unbalanced difficult problem of water content in two sets of gases simultaneously. The structure greatly improves the efficiency of water electrolysis, and reduces complicated control devices such as gas-water separation gas, single pressure valves and the like. The process control of the water electrolysis process is reduced by more than 40%, the quality of the electrolyzed water is greatly improved, the efficiency is improved, the economic cost is reduced, and the installation flow is optimized. After the device is adopted, the installation speed is improved by 40 percent, the cost is reduced by 10 percent, the operation test is carried out in 3 hours, and the water temperature is reduced by 15 percent, so the device has economic value and practical value in hydrogen and oxygen production by electrolyzing water.

In the description of the present invention, the terms "inside", "outside", "longitudinal", "lateral", "up", "down", "top", "bottom", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description of the present invention rather than requiring the present invention to be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Claims (4)

1. The utility model provides a gas-water separation and water receiver, includes water receiver (2), and water receiver (2) bottom is equipped with delivery port (12), and delivery port (12) lead to water piping connection water inlet (10) on the electrolytic bath (8), its characterized in that: a partition plate (1) is arranged in the first water storage device (2), the water storage device is divided into a hydrogen chamber and an oxygen chamber by the partition plate (1), a hydrogen outlet (4) is formed in the top of the hydrogen chamber, a hydrogen inlet (13) is formed in the bottom of the hydrogen chamber, an oxygen outlet (5) is formed in the top of the oxygen chamber, an oxygen inlet (11) is formed in the bottom of the oxygen chamber, the oxygen inlet (11) is connected with a first oxygen outlet (7) of the first electrolytic cell (8), and the hydrogen inlet (13) is connected with a first hydrogen outlet (9) of the first electrolytic cell (8).

2. The gas-water separation and water storage device as claimed in claim 1, wherein: the bottom of the clapboard (1) is provided with an opening for communicating the hydrogen chamber and the oxygen chamber.

3. The gas-water separation and water storage device as claimed in claim 2, wherein: the top of the water storage device is provided with a water filling port (3).

4. The gas-water separation and water storage device as claimed in claim 2, wherein: the top of the oxygen inlet (11) is connected with an oxygen extension pipe (6), and the top of the oxygen extension pipe (6) extends to the upper part of the oxygen chamber.

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