KR20080025276A - Electrolyzer of water gas generator - Google Patents

Abstract

An electrolyzer of a water gas generator is provided to prevent extension of insulating members or formation of openings between joining faces of the insulating members due to internal pressure, improve sealing power by pressing the insulating members between respective members, cool heat generated in the electrolysis process of an electrolyte using a cooling fluid, and prevent safety accidents by using an insulating oil as the cooling fluid. An electrolyzer of a water gas generator comprises: a case(112) having a housing space formed therein; electrode members(120) which have electrolyte connecting pipes(124) formed on faces thereof, which are installed at both ends of the case, and to which a power source of the positive pole is applied; a plurality of electrolytic plates(130) which have electrolyte circulation holes(134) formed in central parts thereof, and which are disposed between the electrode members; insulating members(140) which have space parts formed in central parts thereof, and which are disposed between the electrolytic plates and the electrode members; and connecting rods(150) which pass through the case, the electrode members, the electrolytic plates, and the insulating members to clamp the case, the electrode members, the electrolytic plates, and the insulating members, wherein electrolyte containing spaces are formed in inner spaces of the insulating members such that the electrolyte containing spaces communicate with one another through the circulation holes of the electrolytic plates.

Description

Electrolyzer of Water Gas Generator

1 is a perspective view of an electrolytic cell of the water gas generator of the present invention;

2 is an exploded perspective view of an electrolytic cell of the water gas generator of the present invention;

3 is a cross-sectional view showing the assembly process of the electrolytic cell of the water gas generator of the present invention;

4 is a cross-sectional view of the electrolytic cell of the water gas generator of the present invention;

5A to 5C are perspective views illustrating various embodiments of the electrolytic plates of the present invention.

※ Explanation of code for main part of drawing

110: case, 112: tube, 114: cover, 114a: electrode insertion hole, 114b: connector insertion hole,

114c: connecting rod insertion hole, 114d: inlet, 114e: outlet, 120: electrode member, 122: electrode,

124: electrolyte connector, 126: insertion hole, 128: seating groove, 130: electrolyte plate, 132: seating groove,

134: circulating hole, 136: insertion hole, 140: insulating member, 142: fastening hole, 144: insertion protrusion,

150: connecting rod, 152: nut

The present invention increases the bonding force of the insulating member interposed between the plurality of electrode members and the electrolytic plate to prevent the insulating member from being extended by the internal pressure or the space of the coupling surface between the electrolytic cell of the water gas generator It is about.

In general, the water gas is a mixed gas of oxygen and hydrogen to obtain the electrolysis of water, the electrolytic cell of the devices for generating such water gas is composed of a simple coupling structure, the rubber packing between the electrolyte plates can not withstand the pressure due to internal pressure deformation While there is a gap in the mating surface between the members, there was a problem such as leakage of the electrolyte.

The present invention has been made in order to solve the above problems to form a seating groove in which the insulating member is seated in the electrolytic plate and the electrode member as described above so that the outer end of the insulating member is caught in the seating groove by the rubber by the internal pressure It is an object of the present invention to provide an electrolytic cell of a water gas generator, which prevents an insulation member made of material from being stretched or a space is generated in a gap between a mating surface.

The present invention also provides an electrolytic cell of a water gas generator, in which an insulating member interposed between each member bound by a connecting rod is formed of a flexible rubber material so that the insulating member is compressed between the members to increase sealing force. There is also its purpose.

The electrolytic cell of the water gas generator of the present invention allows the cooling fluid to circulate to the outside of the insulating member so that the cooling fluid contacts the outer end of the electrolytic plate while cooling the heat generated during the electrolysis of the electrolyte. The purpose is to provide.

In addition, the cooling fluid is composed of the insulating oil has the effect of preventing the occurrence of safety accidents due to leakage.

The electrolytic cell of the water gas generator of the present invention for achieving the above object, in the electrolytic cell of the water gas generator, a case having an accommodating space formed therein; and an electrolyte connecting tube formed on the plate surface are installed at both ends of the case. And an electrode member to which power of the anode is respectively applied; and an electrolyte plate formed in the center to form an electrolyte circulation hole in the center, and a plurality of electrode plates disposed between the electrode member and the space between the electrolyte plate and the electrode member. An insulation member disposed; And a connecting rod fastening through the case, the electrode member, the electrolytic plate, and the insulating member, and forming an electrolyte containing space communicating with the circulation hole of the electrolytic plate to the inner space of the insulating member. By providing an electrolyzer of the generator.

The electrolytic plate preferably forms a seating groove in which an insulating member is seated on the plate surface.

Preferably, the insulating member is made of rubber and has elasticity.

Preferably, the electrolytic cell of the water gas generator of the present invention further includes cooling means for cooling the heat generated from the electrolytic plate during the electrolysis process.

Here, the cooling means is preferably made of a cooling fluid receiving space formed to the outside of the insulating member, and the inlet and outlet respectively formed in the case so that the cooling fluid circulates.

In addition, the cooling fluid is preferably made of insulating oil and insulated together with cooling.

Preferably, the electrolytic plate of the electrolytic cell of the water gas generator of the present invention has a heat exchanger for increasing the surface area at the outer end thereof.

Hereinafter, a preferred embodiment of the electrolytic cell of the water gas generator of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of an electrolytic cell of the water gas generator of the present invention, and FIG. 2 is an exploded perspective view of the electrolytic cell of the water gas generator of the present invention.

First, as shown in FIG. 1, the electrolyzer 100 of the water gas generator of the present invention electrolyzes the electrolyte solution supplied from the tank T to generate water gas, which is collected through the valve V in the tank, and the electrolysis process. The heat generated from is cooled by the cooling fluid circulated through the circulation pump (P).

The electrolytic cell of the water gas generator of the present invention includes a case 110, an electrode member 120, a plurality of electrolytic plates 130, and an insulating member 140 interposed between the electrolytic plates 130. It comprises a connecting rod for fastening the members, and cooling means for cooling the heat generated in the electrolytic plate (130).

The case 110 is composed of a hollow tube 112, and a cover 114 for closing both ends of the tube 112, the plate surface of the cover 114, the electrode insertion hole 114a is formed in the center The electrolyte connection tube insertion hole 114b is formed above and below the electrode insertion hole 114a, and a plurality of insertion holes 114c are formed outside the electrolyte connection tube insertion hole 114b.

The electrode member 120 is installed at both inner ends of the case 110, respectively, and the positive electrode power is applied, respectively, and the electrode rod 122 and the electrolyte penetrating the electrode insertion hole 114a of the cover 114 flow in. The electrolyte connection pipe 124 is discharged and formed, and the insertion surface 126 and the seating groove 128 on which the insulating member 140 is seated are formed on the plate surface.

The electrolyte plate 130 is recessed in the center of the plate body to form a seating groove 132, and forms a circulation hole 134 through which the electrolyte is circulated to both sides of the central portion of the plate surface, the outer side of the seating groove 132 The insertion hole 136 is formed.

The insulating member 140 is composed of a rim member having a hollow in the center and is made of a rubber material to form an insulating and sealed space. In addition, the connecting rod 150 forms a fastening hole 142 through which one side of the fastening hole 142 protrudes from the ring-shaped insertion protrusion 144.

The connecting rod 150 forms a screw portion at both ends, and through the cover 114, the electrode member 120, the electrolytic plate 130 and the insulating member 140 through the screw portion at both ends with a nut 152 By coupling, the cover 114, the electrode member 120, the electrolytic plate 130, and the insulating member 140 are bound together.

The cooling means forms inlets 114d and outlets 114e on both covers 114 of the case 110, respectively, so that the cooling fluid circulates inside the case through the inlets 114d and outlets 114e. Cool the heat generated during the electrolysis process. As the cooling fluid, insulating oil is used.

Hereinafter, the coupling and the action of the electrolytic cell of the water gas generator of the present invention having the above configuration will be described.

Figure 3 is a cross-sectional view showing the assembly process of the electrolytic cell of the water gas generator of the present invention, Figure 4 is a cross sectional view of the electrolytic cell of the water gas generator of the present invention.

As shown in the drawings, the electrode member 120 is disposed in each of the inner side cover 114 closing the opening of the hollow tube body 112 of the case 110, the electrode member 120 is disposed on both sides A plurality of electrolytic plates 130 are disposed in the spaces between the plurality of electrolyte plates, and an insulating member 140 is interposed between the cover 114, the electrode member 120, and the electrolytic plates 130.

In addition, the connecting rod 150 is fastened to the insertion hole 114c of the cover 114 and the insertion hole 126 of the electrode member 120 and the insertion hole 136 and the insulating member 140 of the electrolytic plate 130. The nut 152 is fastened to both ends of the connecting rod 150 after passing through the ball 142, thereby binding the cover 114, the electrode member 120, the electrolytic plate 130, and the insulating member 140. .

Since the insulating member 140 is made of a rubber material having elasticity, when bound by the connecting rod 150 as described above, the insulating member 140 is elastically compressed between the electrolytic plate 130 and the electrode member 120 to be electrolytic plate 130. ) And the sealing force is increased while being in close contact with the electrode member (120).

In addition, the insertion protrusion 144 formed at one side of the fastening hole 142 of the insulating member 140 is inserted into the cover 114, the electrode member 120, and the insertion holes 114a, 126, and 136 of the electrolytic plate 130. While preventing the cover 114, the electrode member 120 and the electrolyte plate 130 is in direct contact with the connecting rod 150, the cover 114 from the power applied to the electrode 122 of the electrode member 120 And the electrode member 120 and the electrolytic plate 130 are insulated.

The electrode rod 122 protruding from the plate surface of the electrode member 120 penetrates through the electrode insertion hole 114b of the cover 114 and is exposed to the outside of the cover 114, and an electrolyte solution provided on the plate surface of the electrode member 120. The connector 124 penetrates through the electrolyte connector insertion hole 114c of the cover 114 and is exposed to the outside of the cover 114.

In particular, since the insulating member 140 is inserted into the recessed grooves 132 and 128 recessed in the plate surface of the electrolytic plate 130 and the electrode member 120, it is firmly assembled to generate an electrolysis of the electrolyte. Due to the internal pressure, the gap is prevented from occurring in the assembly surface of the electrolytic plate 130 and the insulating member 140 or the electrode member 120.

As the electrolytic cell of the water gas generator of the present invention is assembled as described above, an electrolyte accommodating space a1 in which the electrolyte is accommodated is provided inside the insulating member 140, and a cooling fluid is provided outside the insulating member 140. A cooling fluid receiving space a2 is provided.

The electrolyte of the electrolyte storage tank is injected into the electrolyte connecting pipe 124 of the electrode member 120 exposed through the one side cover 114 to fill the electrolyte receiving space a1 in the case 100, and both electrode members ( When the (+) (-) poles are respectively applied to the electrode of the electrode 120, the electrolytic solution is electrolyzed between the electrolyte plates 130 of the electrolyte receiving space a1 to generate water gas in the form of bubbles.

Electrolyte solution in the electrolyte receiving space (a1) as described above containing the water gas in the form of bubbles of the electrode member 120 exposed to the other cover 114 through the circulation hole 134 of the electrolytic plate 130 The electrolyte is discharged to the connecting pipe 124 is transferred back to the tank (T), it is collected separately through the valve (V) provided at the top in the tank (T).

On the other hand, heat is generated in the electrolytic process, and flowed into the cooling fluid inlet hole (114d) formed in the cover 114 on both sides of the case 100 was received in the cooling fluid receiving space (a2) and the electrolytic plate 130 While absorbing the heat generated during the electrolysis process while contacting the outer plate surface of the) is cooled through the cooling fluid discharged to the cooling fluid outlet hole (114e).

The cooling fluid is forcedly circulated through a circulation pump P connected to the cooling fluid inlet hole 114d and the outlet hole 114e, and insulating oil is used as the cooling fluid to form the electrode member 120 and the electrolytic plate ( Electricity from 130 is prevented from leaking through the cooling fluid.

In the electrolytic cell of the present invention as described above, the electrolyte receiving space (a1) and the cooling fluid receiving space (a2) inside the case 100 are divided by the insulating member 140, the electrolysis of the electrolyte in the electrolyte receiving space (a1) Water gas is generated, the cooling fluid receiving space (a2) serves to cool the heat generated during the electrolysis process.

Here, the insulating member 140 made of a rubber material is coupled to the seating grooves 132 and 128 formed on the plate surface of the electrolytic plate 130 and the electrode member 120, the electrode member 120 by fastening the connecting rod 150. And since it is compressed between the electrolytic plates 130 will have a strong assembly and sealing properties to prevent the occurrence of a gap in the assembly surface between the members by the internal pressure generated during the electrolysis process.

5a to 5c illustrate various embodiments of the electrolytic plates of the electrolytic cell of the water gas generator according to the present invention. As shown in FIG. 5a, the protruding ribs 138a are formed on the outer plate surface of the electrolytic plate 130a, or FIG. 5b. As shown in FIG. 5C, the through-hole 138b may be formed on the outer plate surface of the electrolytic plate 130b, or the cut piece 138c may be bent on the plate surface of the electrolytic plate 130c as illustrated in FIG. 5C.

These various embodiments increase the contact area with the cooling fluid circulating the cooling fluid receiving space in the case by forming a heat exchanger to increase the surface area on the outer plate surface of the electrolytic plate (130a, 130b, 130c) effect of improving heat exchange efficiency Is generated.

On the other hand, the electrolytic cell of the water gas generator of the present invention as described above is shown as being made in the circle in the drawings, it may be made in various forms such as square or polygon or ellipse.

The electrolytic cell of the water gas generator of the present invention as described above is provided with a seating groove in which the insulating member is seated in the electrolytic plate and the electrode member to provide a sealed space in which the electrolyte is received, and insulated in the seating groove. Since the outer end of the member is caught, there is an effect of preventing the occurrence of space in the gap between the insulating member or the mating surface of the rubber material by the internal pressure.

In addition, as the insulating member interposed between the respective members bound by the connecting rod is made of an elastic rubber material, there is an effect that the sealing force is increased between the members.

The electrolytic cell of the water gas generator of the present invention allows the cooling fluid to circulate to the outside of the insulating member, thereby cooling the heat generated during the electrolysis of the electrolyte while the cooling fluid contacts the outer end of the electrolytic plate.

In addition, by configuring the cooling fluid as an insulating oil, there is an effect of preventing the occurrence of a safety accident due to a short circuit.

The electrolytic cell of the water gas generator of the present invention has an effect of improving heat exchange efficiency by forming a heat exchanger on the outer plate surface of the electrolytic plate to increase the heat exchange area with the cooling fluid.

Claims (6)

In the electrolytic cell of the water gas generator, A case having an accommodation space formed therein; An electrode member formed at both ends of the case by forming an electrolyte connection tube on a plate surface and to which power of the anode is applied; An electrolytic plate disposed between the electrode members by forming electrolyte circulation holes in a central portion; An insulating member disposed between the electrolytic plate and the electrode member by forming a space in the center; And, It includes a connecting rod for fastening through the case, the electrode member, the electrolytic plate and the insulating member, An electrolytic cell of a water gas generator, characterized in that to form an electrolyte receiving space communicated with the circulation hole of the electrolytic plate into the inner space of the insulating member. The method of claim 1, The electrolytic cell is an electrolytic cell of a water gas generator, characterized in that to form a seating groove in which the insulating member is seated on the plate surface. The method of claim 1, An electrolytic cell of a water gas generator, further comprising cooling means for cooling the heat generated from the electrolytic plate during the electrolysis process. The method of claim 3, wherein The cooling means is an electrolytic cell of a water gas generator, characterized in that the cooling fluid receiving space formed to the outside of the insulating member, and the inlet and outlet are respectively formed in the case to circulate the cooling fluid. The method of claim 4, wherein The cooling fluid is an electrolytic cell of a water gas generator, characterized in that the insulating oil. The method according to any one of claims 1 to 5, The electrolytic cell is an electrolytic cell of the water gas generator, characterized in that to form a heat exchanger to increase the surface area at the outer end.

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