CN217499438U - Electrolytic hydrogen production device - Google Patents

Abstract

The utility model discloses an electrolysis hydrogen manufacturing installation, including electrolysis trough, first dehumidification case, second dehumidification case, oxygen storage tank, hydrogen storage tank, moisturizing jar, solar panel, storage battery, the electrolysis trough utilizes the bolt fastening subaerial, and the high middle low design in electrolysis trough both sides, electrolysis trough are the cavity design, and the both sides top of electrolysis trough is equipped with the sealed cowling of mounting screw, and the top of sealed cowling is equipped with first dehumidification case, second dehumidification case, and first dehumidification case, second dehumidification case utilize the pipeline to be connected with the sealed cowling of electrolysis trough top, first dehumidification case is connected with the hydrogen storage tank through the pipeline, and the hydrogen storage tank utilizes the support to fix subaerial, and the second dehumidification case utilizes the pipeline to be connected with the oxygen storage tank, and the oxygen storage tank utilizes the support to fix communicating pipe subaerial, one side of electrolysis trough is equipped with the moisturizing jar, and the moisturizing jar is connected with the electrolysis trough through the water pitcher. The utility model has reasonable design; the solar panel is utilized to carry out electrolytic hydrogen production, so that electric energy is saved.

Description

Electrolytic hydrogen production device

Technical Field

The utility model relates to an electrolytic hydrogen production device.

Background

Hydrogen receives people's attention more and more, and hydrogen burning can produce a large amount of heats, can not produce the pollutant after the hydrogen burning simultaneously, and hydrogen adopts the electrolysis method to prepare, and current electrolysis hydrogen manufacturing adopts the commercial power to carry out the electrolysis, not only can waste a large amount of electric energy, and the commercial power easily takes place the condition of electrocuteeing, and the use in later stage can be influenced by the humidity great in the hydrogen that produces after the electrolysis.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electrolytic hydrogen production device, in order to solve the technical problem.

In order to realize the purpose, the utility model adopts the following technical scheme:

an electrolytic hydrogen production device comprises an electrolytic cell, a first dehumidification box, a second dehumidification box, an oxygen storage tank, a hydrogen storage tank, a water replenishing tank, a solar panel and a storage battery, wherein the electrolytic cell is fixed on the ground by bolts, the electrolytic cell is designed to be hollow with high middle parts and low middle parts at two sides, screw-mounted sealing covers are arranged at the tops of two sides of the electrolytic cell, the first dehumidification box and the second dehumidification box are arranged above the sealing covers and are connected with the sealing covers above the electrolytic cell by pipelines, the first dehumidification box is connected with the hydrogen storage tank by the pipeline, the hydrogen storage tank is fixed on the ground by a support, the second dehumidification box is connected with the oxygen storage tank by the pipeline, the oxygen storage tank is fixed on the ground by the support, the water replenishing tank is arranged at one side of the electrolytic cell and is connected with the electrolytic cell by a communicating pipe, electrolyte is filled in the water replenishing tank, and one side of the water replenishing tank is provided with an injection pipe, the solar panel is connected with the bracket, and the electric energy generated by the solar panel is stored in the storage battery pack.

Preferably, an anode electrolytic plate and a cathode electrolytic plate are respectively arranged on two sides in the electrolytic cell, the anode electrolytic plate is connected with the positive electrode of the storage battery through a lead, the cathode electrolytic plate is connected with the negative electrode of the storage battery through a lead, and both the anode electrolytic plate and the cathode electrolytic plate are in contact with the electrolyte in the electrolytic cell.

Preferably, the structure of first dehumidification case is the same with the structure of second dehumidification case, installs right dehumidification board, left dehumidification board in the first dehumidification case, and right dehumidification board sets up with left dehumidification board upper and lower in turn, has laid calcium chloride moisture absorbent on right dehumidification board, the left dehumidification board, and right dehumidification board, left dehumidification board are L type design, and the end of right dehumidification board is equipped with integrated into one piece's camber.

Preferably, the support is the right triangle design, is equipped with the backing plate of mounting screw on the support, and the battery pack is put on the backing plate, is equipped with the protection shield on the backing plate, and the protection shield is connected with the spout, and the spout is seted up at the back of support, and the protection shield utilizes the bolt to carry on spacingly, fixed, and the support is the cavity design, installs the balancing weight in the support, is equipped with the stand of mounting screw on the balancing weight, and the cover is equipped with the aggravates the ring on the stand.

Compared with the prior art, the utility model has the advantages of it is following: the utility model has reasonable design; the electric energy generated by the solar panel is utilized to generate electricity, so that the electric quantity is saved, and meanwhile, the direct current generated by the solar panel is safer, and the electric shock accident is prevented; the first dehumidification box and the second dehumidification box can dry the moisture in the hydrogen and the oxygen, the right dehumidification plate and the bent arc in the first dehumidification box and the second dehumidification box reduce the flow velocity of the hydrogen or the oxygen, and meanwhile, the right dehumidification plate and the left dehumidification plate increase the residence time of the hydrogen and the oxygen in the first dehumidification box and the second dehumidification box, so that the drying capacity is improved; the backing plate is easy to place the storage battery, the protection plate is used for placing falling objects to damage the storage battery, the balancing weight and the weighting ring increase the stability of the support, and meanwhile, the quantity of the storage battery can be increased according to actual conditions.

Drawings

FIG. 1 is a schematic diagram of the electrolytic hydrogen production apparatus of the present invention.

FIG. 2 is a schematic diagram of an electrolytic cell of the electrolytic hydrogen production device of the utility model.

Fig. 3 is a sectional view of the first dehumidifying box of the electrolytic hydrogen production apparatus of the present invention.

FIG. 4 is a schematic view of the support of the electrolytic hydrogen production apparatus of the present invention.

Detailed Description

The invention is explained in further detail below with reference to the figures and the embodiments.

As shown in fig. 1-4, an electrolytic hydrogen production apparatus comprises an electrolytic cell 1, a first dehumidification tank 2, a second dehumidification tank 3, an oxygen storage tank 4, a hydrogen storage tank 5, a water replenishing tank 6, a solar panel 8 and a storage battery 10, wherein the electrolytic cell 1 is fixed on the ground by bolts, the electrolytic cell 1 is designed to have a high middle part at two sides and a low middle part, the electrolytic cell 1 is hollow, sealing covers mounted by screws are arranged at the tops of two sides of the electrolytic cell 1, the first dehumidification tank 2 and the second dehumidification tank 3 are arranged above the sealing covers, the first dehumidification tank 2 and the second dehumidification tank 3 are connected with the sealing covers above the electrolytic cell 1 by pipelines, the first dehumidification tank 2 is connected with the hydrogen storage tank 5 by pipelines, the hydrogen storage tank 5 is fixed on the ground by a support, the second dehumidification tank 3 is connected with the oxygen storage tank 4 by pipelines, the oxygen storage tank 4 is fixed on the ground by a support, the water replenishing tank 6 is arranged at one side of the electrolytic cell 1, the water replenishing tank 6 is connected with the electrolytic cell 1 through a communicating pipe 7, electrolyte is filled in the water replenishing tank 6, an injection pipe is arranged on one side of the water replenishing tank 6, the solar panel 8 is connected with a support 9, electric energy generated by the solar panel 8 is stored on the storage battery pack 10, the number of the solar panel 8 can be increased according to the situation, an anode electrolytic plate 11 and a cathode electrolytic plate 12 are respectively arranged on two sides in the electrolytic cell 1, the anode electrolytic plate 11 is connected with the anode of the storage battery pack 10 through a lead, the cathode electrolytic plate 12 is connected with the cathode of the storage battery pack 10 through a lead, both the anode electrolytic plate 11 and the cathode electrolytic plate 12 are contacted with the electrolyte in the electrolytic cell 1, the structure of the first dehumidifying box 2 is the same as that of the second dehumidifying box 3, a right dehumidifying plate 13 and a left dehumidifying plate 14 are arranged in the first dehumidifying box 2, the right dehumidifying plate 13 and the left dehumidifying plate 14 are alternately arranged up and down, a calcium chloride moisture absorbent is paved on the right dehumidifying plate 13 and the left dehumidifying plate 14, right dehumidifying board 13, left dehumidifying board 14 is the design of L type, the end of right dehumidifying board 13 is equipped with integrated into one piece's bended-arc 15, support 9 is the right triangle design, be equipped with the backing plate 16 of mounting screw on the support 9, storage battery 10 is put on backing plate 16, be equipped with protection shield 18 on the backing plate 16, protection shield 18 is connected with spout 19, spout 19 is seted up at the back of support 9, protection shield 18 utilizes the bolt to carry on spacingly, it is fixed, support 9 is the cavity design, install balancing weight 20 in the support 9, be equipped with the stand 21 of mounting screw on the balancing weight 20, the cover is equipped with aggravates ring 22 on the stand 21.

The utility model discloses the theory of operation: solar panel 8 changes solar energy into electric energy storage in storage battery 10, storage battery 10 carries the electric quantity in electrolysis trough 1 with the wire, the electrolyte is electrolysis under the effect of positive pole electrolytic plate 11, negative pole electrolytic plate 12 and produces oxygen, hydrogen, oxygen, hydrogen carry out the dehumidification operation in second dehumidification case 3, first dehumidification case 2, oxygen, hydrogen after the dehumidification carry out in oxygen storage tank 4, hydrogen storage tank 5, water replenishing tank 6 can in time carry out the compensation of electrolyte to electrolysis trough 1 under the effect of communicating pipe 7.

The foregoing is a preferred embodiment of the present invention, and for those skilled in the art to understand the teaching of the present invention, the changes, modifications, replacements and variations to the embodiments will still fall within the protection scope of the present invention without departing from the principle and spirit of the present invention.

Claims (4)

1. An electrolytic hydrogen production device comprises an electrolytic cell (1), a first dehumidification box (2), a second dehumidification box (3), an oxygen storage tank (4), a hydrogen storage tank (5), a water replenishing tank (6), a solar panel (8) and a storage battery pack (10), and is characterized in that the electrolytic cell (1) is fixed on the ground by bolts, the electrolytic cell (1) is in a hollow design, sealing covers mounted by screws are arranged at the tops of two sides of the electrolytic cell (1), the first dehumidification box (2) and the second dehumidification box (3) are arranged above the sealing covers, the first dehumidification box (2) and the second dehumidification box (3) are connected with the sealing covers above the electrolytic cell (1) by pipelines, the first dehumidification box (2) is connected with the hydrogen storage tank (5) by pipelines, the hydrogen storage tank (5) is fixed on the ground by supports, the second dehumidification box (3) is connected with the oxygen storage tank (4) by pipelines, oxygen storage tank (4) utilize the support to fix subaerial, one side of electrolysis trough (1) is equipped with water replenishing tank (6), and water replenishing tank (6) are connected with electrolysis trough (1) through communicating pipe (7), and water replenishing tank (6) are annotated and are had electrolyte, and water replenishing tank (6) one side is equipped with the injection pipe, and solar panel (8) are connected with support (9), and the electric energy that solar panel (8) produced is stored on storage battery (10).

2. An electrolytic hydrogen production device according to claim 1, characterized in that an anode electrolytic plate (11) and a cathode electrolytic plate (12) are respectively installed on two sides in the electrolytic cell (1), the anode electrolytic plate (11) is connected with the positive pole of the storage battery (10) through a lead, the cathode electrolytic plate (12) is connected with the negative pole of the storage battery (10) through a lead, and both the anode electrolytic plate (11) and the cathode electrolytic plate (12) are in contact with the electrolyte in the electrolytic cell (1).

3. The electrolytic hydrogen production device according to claim 1, wherein the first dehumidification box (2) has the same structure as the second dehumidification box (3), a right dehumidification plate (13) and a left dehumidification plate (14) are installed in the first dehumidification box (2), the right dehumidification plate (13) and the left dehumidification plate (14) are alternately arranged up and down, a calcium chloride moisture absorption agent is paved on the right dehumidification plate (13) and the left dehumidification plate (14), the right dehumidification plate (13) and the left dehumidification plate (14) are both in an L-shaped design, and an integrally formed bent arc (15) is arranged at the tail end of the right dehumidification plate (13).

4. An electrolytic hydrogen production apparatus according to claim 1, characterized in that the support (9) is designed as a right triangle, a screw-mounted backing plate (16) is provided on the support (9), the storage battery (10) is placed on the backing plate (16), a protection plate (18) is provided on the backing plate (16), the protection plate (18) is connected with a chute (19), the chute (19) is provided on the back of the support (9), the protection plate (18) is limited and fixed by a bolt, the support (9) is designed as a hollow structure, a balancing weight (20) is provided in the support (9), a screw-mounted upright post (21) is provided on the balancing weight (20), and a weighting ring (22) is sleeved on the upright post (21).

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