TWM499419U - Gas output device - Google Patents

Description

Gas production device

The invention relates to a gas production device, in particular to a gaseous fuel production device which can be applied to the fields of vehicles, stoves, industrial cutting equipment or electric heating equipment.

Due to the increasing global warming and the depletion of petroleum resources, low-energy, low-pollution vehicles are bound to become the mainstream of future transportation vehicles.

At present, the development direction of transportation vehicles in the future has two major directions: electric vehicles and hydrogen vehicles. Although electric vehicles are generally favored in the market, hydrogen vehicles have two major advantages over electric vehicles. The first is fuel. The fuel of the hydrogen car is hydrogen, from the electrolyzed water, the source is inexhaustible and cheap, and the second is that the exhaust gas of the hydrogen car is water vapor, which is completely pollution-free and absolutely environmentally friendly.

In contrast, the lithium battery of the electric vehicle has been used for a few years, the function is reduced by half, and it needs to be replaced. The replacement of the lithium battery is very expensive, and the engine of the hydrogen vehicle does not need to be replaced, and the discarded lithium battery causes another pollution.

In addition, a more serious problem is the global lithium stock. If the global production volume increases, the price of lithium metal will certainly soar. On the contrary, hydrogen is inexhaustible. This explains why big car manufacturers are more enthusiastic about hydrogen cars.

There are two main types of hydrogen vehicles. [HICEV] is based on the combustion of hydrogen in an internal combustion engine and the use of oxygen to generate electricity to propel the car. Hydrogen is usually obtained by decomposing methane or electrolyzed water. Oxygen is obtained from air or electrolyzed water: Hydrogen fuel cell vehicle [Fuel cell vehicle-FCEV] The hydrogen or the hydrogen-containing substance and the oxygen in the air are passed through the fuel cell to generate electric power, and then the electric motor is driven by the electric motor, and the electric motor pushes the vehicle.

Among them, hydrogen fuel cell vehicles are currently the hottest hydrogen energy application projects in hydrogen vehicles, but there are three problems to be practically applied. The first is that the price of the automobile itself is still too high, and the second is the durability problem of the fuel cell. The three are about how to supplement the hydrogen of fuel cell vehicles.

Hydrogen is the lightest element in the world, and the volume per unit weight is very large. It is quite difficult to meet the weight and volume requirements of the hydrogen storage device. With the safety problem, the transportation cost is very expensive, so the hydrogen storage and Transportation can be said to be the biggest technical obstacle to achieving the universal use of hydrogen energy.

In contrast, the internal combustion engine burns hydrogen and cooperates with oxygen, which is more convenient in application, because hydrogen is produced by electrolysis, and since the advent of the internal combustion engine in the 1860s, it has been improved and developed. Perfect machinery, fewer problems.

However, at present, the method of electrolyzing hydrogen still has the problems of inefficient, low practicability, low safety, and the like: therefore, in order to make hydrogen a popular fuel source in a short period of time, further breakthroughs must be made. And solved.

In view of this, how to provide a gas production device with high output efficiency, convenient application, low cost, high safety, and practicality has become a problem to be improved by the present invention.

The purpose of the present invention is to provide a gas generating device with high hydrogen and oxygen production efficiency, modularization and wide application range.

In order to solve the above problems and achieve the object of the present invention, the technical means of the present invention is realized as a gas generating device which can be used for mixing the electrolyte (W) to produce hydrogen (H) and oxygen (O). The utility model is characterized in that: the gas generating device (100) comprises a sequentially arranged one a first plate body (1), at least one first conductive segment (2), at least one interval segment (3), a second conductive segment (4), a second plate body (5), and a plurality of Positioning component (6); the first plate body (1) is disposed on one side of the conductive section (1), and the bottom end of the first plate body (1) is provided with a liquid inlet pipe (11); The second plate body (5) is disposed on one side of the second conductive portion (4), and an outlet circuit (51) is disposed at a top end of the second plate body (5); the first conductive region a segment (2) comprising a plurality of first metal conductive plates (21) and a plurality of first gaskets (22), the first metal conductive plates (21) being arranged at equal intervals, each of the A metal conductive plate body (21) is electrically connected to each other, and one of the first metal conductive plate bodies (21) is electrically connected to a power source, and each of the first metal conductive plate bodies (21) has at least one a hole (A), the first gasket (22) is disposed between each of the first metal conductive plates (21) and/or the first metal conductive plate body (21) and the first plate body (1) And forming a liquid space (10); the spacing section (3) is disposed in the first conductive section (2) On the other side, the spacer section (3) comprises at least one metal plate body (31) and a plurality of second gaskets (32), each of the metal plate bodies (31) having at least one hole (A). The second gasket (32) is disposed between the metal plate body (31) and/or the metal plate body (31) and the adjacent first metal conductive plate body (21), and respectively forms a volume a liquid space (10); the second conductive section (4) is disposed at a side of the spacer section (3) away from the first conductive section (2), the second conductive section (4) a second metal conductive plate body (41), and a plurality of third gaskets (42), the second metal conductive plate body (41) is electrically connected to the first pole of the power source, and adjacent to the first conductive portion (2) The polarity of the power supply is opposite, and the second metal conductive plate body (41) has at least one hole (A), and the third gasket (42) is disposed on the second metal conductive plate body (41) And a liquid containing space (10) between the metal plate body (31) and the second metal conductive plate body (41) and the second plate body (5); the positioning component (6) passing through the first plate body (1) and the second plate body (5), respectively, to Conductive section (2), the spacer section (3), and the second conductive section (4), fixedly positioned in the first plate (1) and the second plate (5) between.

More preferably, the positioning assembly (6) includes a positioning tube (61), a a screw (62), and a nut (63), the positioning tube (61) is disposed between the second plate body (5) of the first plate body (1), and the first conductive portion (2) is provided The spacer section (3) and the second conductive section (4) are engaged for positioning, and the screw (62) passes through the first board body (1) and penetrates the positioning tube (61) After that, it is pierced from the second plate body (5), and the nut (63) is screwed at one end of the screw (62) penetrating the second plate body (5).

More preferably, the liquid inlet pipe (11) is further provided with a control valve (12) between the first plate body (1) and the first plate body (1).

More preferably, the first metal conductive plate body (21), the second metal conductive plate body (41), and the metal plate body (31) are respectively provided at the same side edges of the three metal conductive plate bodies (31) a groove portion (B); among the first gaskets (22), adjacent to the first gasket (22) of the first metal conductive plate body (21) that is electrically connected to a pole of the power source, corresponding to the recess At the groove portion (B), a recess portion (221) is further provided.

More preferably, the first metal conductive plate body (21) is in contact with the adjacent first metal conductive plate body (21) through a copper conductor (7) to be electrically connected to each other.

More preferably, the hole (A) is disposed more than one time, one of the holes (A) corresponds to the liquid inlet pipe (11), and the other hole (A) corresponds to the gas outlet pipe ( 51).

Compared with the prior art, the effects of the present invention are as follows:

The first point: in the present invention, the first plate body (1), the first conductive segment (2), the interval segment (3), the second conductive segment (4), the second plate body (5), And the combination of the positioning component (6), the gas generating device (100), combined with the electrolyte (W), can effectively improve the efficiency of producing hydrogen (H) and oxygen (O), a simple design, It takes up little space, has good seismic performance, high safety and is more practical.

Second point: In the present invention, the reaction module (1) comprises a plurality of electrolytic plate bodies (A), and the upper opening holes (A1) and the honeycomb opening portions (A2) on the electrolytic plate body (A) and Slotting hole (A3), forming upper channel (10), gas generating channel (20) and lower channel (30), smoothly generating electrolytic reaction, and then benefiting With the design of the honeycomb opening (A2), the overall electrolysis efficiency is improved, which is different from the traditional electrolyzer.

1‧‧‧ first board

51‧‧‧Exhaust line

11‧‧‧Inlet line

12‧‧‧Control valve

2‧‧‧First conductive section

21‧‧‧First metal conductive plate

22‧‧‧First washer

221‧‧‧Depression

3‧‧‧ interval section

31‧‧‧Metal plate

32‧‧‧Second washer

4‧‧‧Second conductive section

41‧‧‧Second metal conductive plate

42‧‧‧third washer

5‧‧‧Second plate

6‧‧‧ Positioning components

61‧‧‧ Positioning tube

62‧‧‧ screw

63‧‧‧ nuts

7‧‧‧ copper conductor

10‧‧‧Liquid space

100‧‧‧ gas production unit

A‧‧‧ hole

B‧‧‧ Groove

H‧‧‧ Hydrogen

O‧‧‧Oxygen

W‧‧‧ electrolyte

Fig. 1 is a perspective view showing the first embodiment of the present invention.

Figure 2 is a perspective exploded view of the first embodiment of the present invention.

Figure 3 is a schematic cross-sectional view showing the first embodiment of the present invention.

Fig. 4 is a perspective view showing the second embodiment of the present invention.

Figure 5: A perspective view of a third embodiment of the present invention.

The following is a detailed description of the following embodiments according to the drawings: as shown in FIGS. 1 to 3, the figure discloses that it is a gas generating device capable of mixing the electrolyte (W) to produce hydrogen gas ( H) and oxygen (O), characterized in that: the gas generating device (100) comprises a first plate body (1), at least one first conductive segment (2), At least one spacer section (3), a second conductive section (4), a second board body (5), and a plurality of positioning components (6); the first board body (1) is provided On the side of the conductive section (1), a bottom portion of the first plate body (1) is provided with a liquid inlet pipe (11); and the second plate body (5) is disposed at the second conductive region. On the side of the segment (4), an outlet conduit (51) is disposed at the top end of the second plate (5); the first conductive segment (2) includes a plurality of first metal conductive plates (21), And a plurality of first gaskets (22), the first metal conductive plates (21) are arranged at equal intervals, and the first metal conductive plates (21) are electrically connected to each other, and the first metal One of the conductive plates (21) is electrically connected to the first pole of the power source, and each of the first metal guides The plate body (21) has at least one hole (A), and the first gasket (22) is disposed between each of the first metal conductive plate bodies (21) and/or the first metal conductive plate body (21) Forming a liquid containing space (10) with the first plate body (1); the spacing portion (3) is disposed on the other side of the first conductive portion (2), the interval The section (3) comprises at least one metal plate body (31) and a plurality of second gaskets (32) each of the metal plate bodies (31) has at least one hole (A), and the second gasket (32) is disposed between the metal plate body (31) and/or the metal plate body (31) And a liquid container space (10) is formed between the adjacent first metal conductive plate body (21); and the second conductive portion (4) is disposed away from the spacing portion (3) At one side of the first conductive segment (2), the second conductive segment (4) includes a second metal conductive plate body (41) and a plurality of third gaskets (42), the second metal conductive The plate body (41) is electrically connected to the first pole of the power source and opposite to the polarity of the power source connected to the adjacent first conductive segment (2), and the second metal conductive plate body (41) has at least one hole (A) The third gasket (42) is disposed between the second metal conductive plate body (41) and the metal plate body (31), and the second metal conductive plate body (41) and the second plate body Between (5) and also forming a liquid-containing space (10); the positioning assembly (6) passes through the first plate body (1) and the second plate body (5), respectively, to The first conductive segment (2), the spacer segment (3), and the second conductive segment (4) are fixedly positioned (5) between the first plate (1) and the second plate member.

Wherein, the first plate body (1), the first conductive segment (2), the interval segment (3), the second conductive segment (4), the second plate body (5), and the positioning component (6) The combination of gas production device (100), modular design, convenient production, very practical, with the electrolyte (W) can produce hydrogen (H) and oxygen (O), hydrogen (H) And oxygen (O) output, whether it is stored or directly used, is very convenient, it is important that, under the premise of maintaining a certain gas production efficiency, compared with the fuel cell, safety does not take up space, no corrosion The problem is very much in line with the needs of current hydrogen vehicles.

Secondly, the first metal conductive plate body (21) and the second metal conductive plate body (41) are matched by the first conductive segment (2), the spacer segment (3), and the second conductive segment (4). ), with the electrolytic electrolyte (W) to produce hydrogen (H) and oxygen (O) to produce, improve the overall gas production efficiency, to achieve real practical.

Furthermore, the application of the liquid-containing space (10) enables the electrolyte (W) to efficiently contact the first metal conductive plate body (21) and the second metal conductive plate body (41) to match the first metal conductive plate body. (21) The large contact with the second metal conductive plate body (41) accumulates, further improving the gas production efficiency.

Moreover, the application of the first gasket (22), the second gasket (32), and the third gasket (42) allows the gas generating device (100) to have good seismic resistance, high safety, and more practicality.

In the above, the positioning component (6) includes a positioning tube (61), a screw (62), and a nut (63), and the positioning tube (61) is disposed on the first board (1). Between the second plate body (5), the first conductive segment (2), the spacer segment (3), and the second conductive segment (4) can be engaged for positioning, the screw (62) After passing through the first plate body (1) and penetrating the positioning tube (61), the nut (63) is screwed to the screw plate (63). 62) is worn at one end of the second plate (5).

Among them, by such an arrangement, there is no fear that the liquid leakage space (10) may be leaked due to an external force, and sufficient clamping force is provided by the cooperation of the screw (62) and the nut (63), and The positioning tube (61) is arranged such that the first conductive section (2), the spacer section (3), and the second conductive section (4) are not misaligned.

Secondly, the positioning tube (61) is made of a non-conductive material, such as a plastic tube, to avoid the problem of short circuit.

In the above, the liquid inlet pipe (11) and the first plate body (1) are further provided with a control valve (12).

Among them, the input of the control valve (12) effectively controls the input amount of the electrolyte (W), thereby maintaining the stability of the gas production efficiency.

In the above, the first metal conductive plate body (21), the second metal conductive plate body (41), and the metal plate body (31) are respectively provided with a groove at the same side edge of the three metal conductive plate bodies (31). Part (B): the first gasket (22) of the first metal conductive plate body (21) adjacent to the one pole of the power source, corresponding to the groove portion of the first gasket (22) At (B), there is a recess (221).

Among them, the arrangement of the groove portion (B) facilitates the connection of the electrodes of the power source, and there is no fear that the problem of difficulty in installation may occur, and at the same time, maintenance can be more convenient.

Secondly, by the arrangement of the recesses (221), the electrodes that are blocked from the power source are prevented from being affected without affecting the function of the first gasket (22).

In the above, the first metal conductive plate body (21) is in contact with the adjacent first metal conductive plate body (21) through a copper conductor (7) to be electrically connected to each other.

Among them, through the application of the copper conductor (7), the problem of non-conduction can be avoided, the first metal conductive plate body (21) can be smoothly turned on, the shock resistance is improved, and the wire is removed, and the installation is easy. Effectively reduce the failure rate.

In the above, the hole (A) is disposed more than one time, one of the holes (A) corresponds to the liquid inlet pipe (11), and the other hole (A) corresponds to the gas outlet pipe (51). .

Among them, the electrolyte solution (W) can be smoothly flowed into the liquid containing space (10), and hydrogen (H) and oxygen (O) can be prevented from affecting the liquid inlet pipe ( 11) Normal operation, can be smoothly output from the gas outlet pipe (51).

As shown in FIG. 4 and FIG. 5, the figure shows that the first conductive section (2) and the spacing section (3) of the gas generating device (100) can be according to application requirements, such as the fourth. The figure is generally implemented in a single group, or in multiple groups as shown in Figure 5, and the application is good, and there is no need to worry that problems that are difficult to apply may occur.

The structure, features and effects of the present invention are described in detail above based on the embodiments shown in the drawings. Since the novel and progressive requirements are met, a new patent application is filed according to law; however, the above description is only a preferred embodiment of the present invention. However, the present invention is not limited to the scope of implementation of the present invention, and therefore modifications that are in accordance with the meaning of the present invention are intended to fall within the scope of the present invention as long as they are within the scope of the present invention.

1‧‧‧ first board

11‧‧‧Inlet line

12‧‧‧Control valve

2‧‧‧First conductive section

3‧‧‧ interval section

4‧‧‧Second conductive section

41‧‧‧Second metal conductive plate

42‧‧‧third washer

5‧‧‧Second plate

51‧‧‧Exhaust line

6‧‧‧ Positioning components

61‧‧‧ Positioning tube

62‧‧‧ screw

63‧‧‧ nuts

100‧‧‧ gas production unit

Claims (6)

A gas producing device capable of cooperating with an electrolyte (W) for producing hydrogen (H) and oxygen (O), characterized in that: the gas generating device (100) comprises a sequentially arranged one a first plate body (1), at least one first conductive segment (2), at least one interval segment (3), a second conductive segment (4), a second plate body (5), and a plurality of a positioning component (6); the first plate body (1) is disposed on one side of the first conductive section (2), and a liquid inlet pipe is disposed at a bottom end of the first plate body (1) The second plate body (5) is disposed on one side of the second conductive portion (4), and the top end of the second plate body (5) is provided with an air outlet pipe (51); a conductive section (2) comprising a plurality of first metal conductive plates (21) and a plurality of first washers (22), the first metal conductive plates (21) being arranged at equal intervals, each The first metal conductive plate body (21) is electrically connected to each other, and one of the first metal conductive plate bodies (21) is electrically connected to the first pole of the power source, and each of the first metal conductive plate bodies (21) has At least one hole (A), the first gasket (22) is disposed on each of the first metal conductive plates Between (21) and/or between the first metal conductive plate body (21) and the first plate body (1), and respectively forming a liquid containing space (10); the spacing portion (3), Located on the other side of the first conductive segment (2), the spacer segment (3) includes at least one metal plate body (31), and a plurality of second gaskets (32), each of the metal plate bodies ( 31) having at least one hole (A), the second gasket (32) being disposed between the metal plate body (31) and/or the metal plate body (31) and the adjacent first metal conductive plate body Between (21), and also forming a liquid-capacity space (10); the second conductive section (4) is provided with the spacing section (3) away from the first conductive section (2) The second conductive segment (4) includes a second metal conductive plate body (41) and a plurality of third portions. a gasket (42), the second metal conductive plate body (41) is electrically connected to the first pole of the power source, and opposite to the polarity of the power source connected to the adjacent first conductive section (2), and the second metal conductive plate body (41) having at least one hole (A), the third gasket (42) being disposed between the second metal conductive plate body (41) and the metal plate body (31), and the second metal conductive plate Between the body (41) and the second plate (5), and also forming a liquid-receiving space (10); the positioning assembly (6) passing through the first plate (1) and the a second plate body (5) for fixedly positioning the first conductive segment (2), the spacer segment (3), and the second conductive segment (4) to the first plate body (1) And the second plate (5). The gas generating device of claim 1, wherein: the positioning assembly (6) comprises a positioning tube (61), a screw (62), and a nut (63), the positioning tube (61) Provided between the second board (5) of the first board (1), the first conductive section (2), the spacer section (3), and the second conductive section ( 4) for positioning of the clip, the screw (62) is inserted from the first plate body (1) and penetrates the positioning tube (61), and is vented from the second plate body (5). The cap (63) is screwed at one end of the screw (62) penetrating the second plate (5). The gas generating device according to claim 2, wherein: the liquid inlet pipe (11) is further provided with a control valve (12) between the first plate body (1) and the first plate body (1). The gas generating device according to claim 3, wherein: the first metal conductive plate body (21), the second metal conductive plate body (41), and the metal plate body (31), of the three a groove portion (B) is further disposed at the same side edge; the first gasket of the first metal conductive plate body (21) adjacent to the first pole of the power source is adjacent to the first gasket (22) (22), corresponding to the groove portion (B), further provided with a recess portion (221). The gas generating device according to claim 4, wherein: the first metal conductive plate body (21) passes through a copper conductor (7), and the adjacent first metal conductive plate body (21) Contacted to electrically connect to each other. The gas generating device according to claim 5, wherein: the hole (A) is disposed more than one, one of the holes (A) corresponds to the liquid inlet pipe (11), and the other hole (A) A) corresponds to the outlet line (51).