KR20020088467A - An electrolyzer for oxyhydrogen gas generator - Google Patents

Abstract

PURPOSE: An electrolyzer for an oxyhydrogen gas generator is provided which has simple structure, reduces manufacturing cost, improves manufacturing yield by reducing defective proportion, maintains constant quality of products, and enables mass production of products. CONSTITUTION: The electrolyzer for an oxyhydrogen gas generator comprises a rectangular electrolysis container in which electrolyte is contained to be electrolyzed, a plurality of electrodes(106) that are inserted into receiving grooves(102a,104a) to generate oxyhydrogen gas by electrolyzing water, a water supply port(118) that is installed on a left wall(114) of the electrolysis container to supply water into the electrolysis container, a water discharge port(120) that is installed on a right wall(116) of the electrolysis container to discharge water heated by electrolysis, positive and negative electrodes which are installed on the left and right walls(114,116) of the electrolysis container to impress a high voltage to the electrodes(106), a cover(126) for covering an upper opening part(103) of the electrolysis container, oxyhydrogen gas discharge ports that are respectively installed on the left and right walls(114,116) of the electrolysis container to discharge oxyhydrogen gas collected in an oxyhydrogen gas collection chamber to the outside, a packing member(132) that is arranged on an upper center of front and rear walls(102,104) and the left and right walls(114,116) of the electrolysis container to air-tightly seal between the electrolysis container and the cover(126), and a clamp member(140) for clamping a plurality of screw holes(112b) and screw holes(126b).

Description

Electrolyzer for acid and water gas generators {AN ELECTROLYZER FOR OXYHYDROGEN GAS GENERATOR}

The present invention relates to an electrolytic cell for an acid / water gas generator that can produce a large amount of acid and water gas with high efficiency.

As an electrolytic cell structure for acid and water gas generators of this kind, Korean Utility Model Registration Publication No. 1998-117445 (Publication Date: April 23, 1998) and Japanese Patent Application Laid-open No. Hei 8-260177 (Publication date) ; 8 October 1996).

Among them, in particular, the electrolytic cell disclosed in Korean Utility Model Registration Publication No. 1998-117445 is provided with the spacer 2 in the stay bolt 4 as shown in FIG. 2) It inserts in the inner peripheral surface 2b, repeats the procedure which closely contacts the electrode plate 1 on both surfaces, and connects several pieces so that it may become a fixed length, and is fastened with the nut 5.

The metal plate electrode plate 1 is formed in a rectangle to set four square directions to form four bolt holes 1a, and a gas distribution hole is formed on the upper and lower centers of the hole in which the bolt holes 1a are perforated. 1b) and an electrolyte flow hole 1c, and the spacer 2 is formed of a synthetic resin material, but formed in a circular gasket shape and coincides with the bolt holes 1a of the electrode plate 1 on the outer sides thereof. The bolt housing hole 2a is formed, and the O-ring 3 is formed in a circular shape with rubber material.

On the other hand, the electrolytic cell finishing plate 6 provided on both sides of the electrode plate (1) and the spacer (2) to form a square, while drilling the bolt holes in the four corners of the power supply terminal (6b) on both horizontal centers ) And through holes are formed at both the upper and lower sides of the center to weld the gas discharge connection nipple 6c and the electrolyte supply connection nipple 6d above and below, respectively to fill and generate the electrolyte solution in the electrolytic cell B. Gas is configured to be discharged.

At this time, the electrode plate 1 and the spacer 2 are inserted into the inner peripheral surface (2b) of the O-ring (3) and connected vertically with the stay bolt (4) and the electrolyte filling chamber 7 of a constant space therein Is formed.

However, in the conventional electrolytic cell structure configured as described above, the plurality of electrode plates 1 and the spacers 2 are alternately repeatedly combined, and at the same time, the electrolyte solution filling formed by the electrode plates 1 and the spacers 2 is performed. The O-rings 3 are inserted into the inner circumferential surface 2b of each spacer 2 so that the electrolyte solution filled in the seal 7 does not leak. However, a plurality of electrode plates 1 and spacers 2 are inserted. ) Is repeatedly combined alternately, the structure is complicated, electrolyte leakage between the electrode plate (1) and the spacer (2) increases the defective rate, not only to reduce the production yield, but also to mass production of a certain quality product In addition, there is a problem in that the manufacturing cost can not be reduced because the structure is complicated and requires a lot of assembly labor.

In addition, the conventional electrolytic cell structure has a problem that can not solve the electrolyte leakage problem can not produce a large capacity electrolytic cell.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned various problems, and an object of the present invention is to provide an electrolytic cell for an acid / water gas generator which can have a simple structure and can reduce a manufacturing cost.

Another object of the present invention is to provide an electrolytic cell for an acid / water gas generator which can reduce the defective rate and improve the production yield.

Another object of the present invention is to provide an electrolytic cell for an acid / water gas generator that can be mass-produced while maintaining a constant quality.

In order to achieve the above object, the present invention has a rectangular parallelepiped decomposition vessel in which an upper portion is opened and electrolyte is stored and electrolyzed, and parallel to the inner side of the front and rear walls of the decomposition vessel with a predetermined interval from the upper side to the lower side. A plurality of electrodes inserted into the formed recesses to electrolyze water to generate acid and hydrogen gas, a water supply port provided on the left side wall of the decomposition vessel to supply water into the decomposition vessel, and a right side of the decomposition vessel A water discharge port installed on the wall and discharging the water heated by electrolysis in the decomposition vessel, and installed on the left and right walls of the decomposition vessel to apply high voltage to the electrolysis of water from the electrode; Water by means of an electrode, a lid covering the upper opening of the decomposition vessel, and a high voltage applied to the +/- electrodes provided on the left and right walls of the decomposition vessel; The acid and water gas discharge ports respectively installed on the left and right walls to discharge the acid and water gas that are electrolyzed and collected in the acid and water gas collection chamber to the outside and the airtight seal between the decomposition vessel and the cover are hermetically sealed. A packing member disposed in the upper center of the front and rear walls and the left and right walls of the disassembly container, and a plurality of screw holes formed in a flange portion extending outwardly from the bottom surface of the disassembly container and outwardly from the cover. Characterized in that it comprises a fastening member for fastening the screw hole formed in the extended flange portion.

1 is a perspective view showing an electrolytic cell structure of a conventional air-cooled acid water gas generator,

2 is an exploded perspective view of FIG. 1;

3 is an external perspective view of an electrolytic cell according to an embodiment of the present invention;

4 is a longitudinal cross-sectional view taken along the line IV-IV of FIG. 3;

5 is an exploded perspective view of FIG. 3.

<Description of the code | symbol about the principal part of drawing>

100: electrolyte tank 101: decomposition vessel

102: front wall 102a: receiving groove

103: opening 104: rear wall

104a: receiving groove 106: electrode

112: bottom 112b: screwdriver

114: left wall 116: right wall

118: water supply port 120: water discharge port

122: + electrode 124:-electrode

126: cover 126a: flange

126b: screwdriver 126c: jaw

128: acid and water gas collection chamber 130: acid and water gas discharge port

132: packing member 140: fastening member

141a: screw part 141: stay bolt

142: Washer 143: Nut

Hereinafter, an electrolytic cell for an acid / water gas generator according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is an external perspective view of an electrolytic cell according to an embodiment of the present invention, FIG. 4 is a longitudinal cross-sectional view taken along the line IV-IV of FIG. 3, and FIG. 5 is an exploded perspective view of FIG. 3.

3 to 5, the electrolytic cell 100 for acid and water gas generators of the present invention has a rectangular parallelepiped decomposition vessel 101 in which an upper portion is opened and electrolyte is stored and electrolyzed, and the decomposition vessel ( On the inner side of the front and rear side walls (102, 104) of 101, a plurality of slots are inserted into the receiving grooves (102a, 104a) formed in parallel at a predetermined interval from the top to the bottom to generate acid and hydrogen gas by electrolysis of water. An electrode 106, a water supply port 118 provided at the left side wall 114 of the decomposition vessel 101 and supplying water into the decomposition vessel 101, and a right wall of the decomposition vessel 101 ( A water discharge port 120 installed at the 116 and discharging the water heated by electrolysis in the decomposition container 101 and the left side of the decomposition container 101 to electrolyze the water at the electrode 106. + And-electrodes 122 and 124, which are installed on the right side walls 114 and 116, respectively, to apply a high voltage, The cover 126 covering the upper opening 103 of the container 101 and the high voltage applied to the + and-electrodes 122 and 124 provided on the left and right walls 114 and 116 of the decomposition container 101 are filled with water. Acid and water gas discharge ports 130 provided on the left and right side walls 114 and 116 so as to discharge the acid and water gas that are electrolyzed and collected in the acid and water gas collection chamber 128 to the outside, and the decomposition vessel ( A packing member 132 disposed at the upper center of the front and rear walls 102 and 104 and the left and right walls 114 and 116 of the decomposition container 101 to hermetically seal the space between the cover 101 and the lid 126, A plurality of threaded holes 112b formed in the flange portion 112a extending outward from the bottom surface 112 of the decomposition container 101 and in the flange portion 126a extended outward from the cover 126. The fastening member 140 which fastens the formed screw hole 126b is provided.

The bottom plate 112 of the dissolution vessel 101 has a lower portion thereof so that the lower portion of the electrode 106 flows water supplied through the water supply port 118 provided at the lower left and right walls 114 and 116 of the dissolution vessel 101. The upper part of the decomposing vessel 101 so as to form an acid / water gas collection chamber 128 for collecting acid and water gas generated by electrolysis of water. Is located below a certain depth (D).

The cover 126 is integrally formed with the jaw portion 126c toward the lower portion so as to surround the upper and outer walls of the front and rear walls 102 and 104 and the left and right walls 114 and 116 of the decomposition container 101.

The fastening member 140 has a stay bolt 141 having a threaded portion 141a formed at both sides thereof, a washer 142 fitted to both sides of the stay bolt 141, and the stay at the outside of the washer 142. The nut 143 is screwed into the bolt 141, respectively.

Next, a method of assembling an electrolytic cell for an acid / hydrogen gas generator according to an embodiment of the present invention will be described.

First, the electrodes 106 are respectively inserted into the receiving grooves 102a and 104a formed in parallel on the inner side of the front and rear side walls 102 and 104 of the disassembly container from the upper side to the lower side, respectively. The upper opening 103 of the decomposition container 101 is covered with a cover 126, and the screw hole 112b formed in the flange portion 112a extending outward from the bottom plate 112 of the decomposition container 101. Insert one side of the stay bolt 141 of the fastening member 140 (the side where the washer 142 and the nut 143 are not coupled) from the lower side to the upper side, and again the flange portion 126a of the cover 126. After passing through the threaded hole 126b formed in the upper part, the washer 142 and the nut 143 are screwed into the upper threaded portion 141a of the stay bolt 141 to form the front and rear walls 102 and 104 of the disassembly container 101. ) And the upper surfaces of the left and right walls 114 and 116 and the lower surface of the lid 126 are hermetically contacted.

Next, the operation and effect of the electrolytic cell for the acid / hydrogen gas generator according to the embodiment of the present invention assembled as described above will be described.

The decomposition vessel 101 through the water supply port 118 provided on the left side wall 114 of the decomposition vessel 101 in a state in which the water discharge port 120 installed on the right side wall of the decomposition vessel 101 is closed. ), Water is supplied to the bottom of the acid / water gas discharge ports 130a and 130b (specifically, until the upper surface of the electrode 106 is locked), and the valve (not shown) is closed.

Next, the acid and water gas discharge ports 130a and 130b are connected to an acid and water gas storage tank (not shown), and then the + and-electrodes 122 and 124 are connected to the output terminal of the high voltage transformer (not shown). A high voltage is applied to the decomposition vessel 101 through the + and-electrodes 122 and 124 to electrolyze the water, and acid and water gas are collected in the acid and water gas collection chamber 128 so that an acid and water gas discharge port ( 130a, 130b are discharged to an acid / water gas storage tank (not shown).

As such, water that is reduced by electrolyzing water to generate acid and water gas is detected by a plotter or a water level detector installed in the decomposition vessel 101 (not shown) and supplied through the water supply port 118.

Since the packing member 132 is installed at the center of the front and rear walls 102 and 104 and the left and right walls 114 and 116 of the decomposition vessel 101, the packing member 132 is hermetically contacted with each other. The acid and water gas collected therein are not leaked to the outside, but are collected in the acid and water gas collection chamber 128 and discharged to an acid and water gas storage tank (not shown) through the acid and water gas discharge ports 130a and 130b. do.

Receiving grooves (102a, 104a) formed in parallel on the inner surface of the front and rear side walls (102, 104) of the decomposition container at an interval from the top to the bottom at a predetermined height (h) from the bottom surface (112) Since only the bottom portion of the electrode 106 is fixed to a position at a predetermined height (h) from the bottom surface 112, the lower portion of the decomposition container 101 and the lower portion of the electrode 106. The space formed by the above serves as a space through which water and electrolyte supplied from the water supply port 118 flow. In the present invention, the water and electrolyte injected into the decomposition vessel 101 are completely discharged through the water discharge port 120 at two-year intervals, and the inside is cleanly washed, and then the new water and electrolyte are supplied to the water supply port ( Through 118).

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the electrolytic cell for an acid / water gas generator according to the present invention, an electrode is inserted into a receiving groove formed in parallel on the inner side of the front and rear walls of the decomposition vessel with a predetermined interval from the top to the bottom. Water is supplied through the water supply port through the water supply port to cool the heat generated during electrolysis by electrolyzing water between the electrodes by high voltage applied through the negative electrode. Discharge the heated water in the decomposition vessel to the outside through the water discharge port, cover the upper opening of the decomposition vessel with a cover, and collect acid and hydrogen gas generated by the electrolysis of water. Collected from the gas and discharged to the outside through the acid and water gas discharge ports installed on the left and right walls, respectively, A sealing member is hermetically sealed between the lock disassembly container and the cover by a packing member, and a plurality of screw holes formed in the flange part extending outward from the bottom surface of the disassembly container and formed in the flange part extended outward from the cover. Since the screw hole is fastened by the fastening member, the structure is simple, the structure is simple, and the manufacturing cost can be lowered, and the manufacturing yield can be improved by reducing the defective rate, and the electrolytic cell of a certain quality is also provided. It can be mass-produced, and can also produce a large amount of electrolytic cell has a very excellent effect.

Claims (4)

A rectangular parallelepiped decomposition vessel 101 in which an upper portion is opened and electrolyte is stored and electrolyzed, and parallel to the inner side of the front and rear walls 102 and 104 of the decomposition vessel 101 at a predetermined interval from the top to the bottom. A plurality of electrodes 106 are inserted into the receiving grooves 102a and 104a and are formed on the left side wall 114 of the decomposition vessel 101 to generate an acid / hydrogen gas by electrolyzing water. Water supply port 118 for supplying water into the 101 and the right side wall 116 of the decomposition vessel 101, the water discharged to discharge the water heated by electrolysis in the decomposition vessel 101 + And-electrodes 122 and 124, which are installed on the left and right walls 114 and 116 of the decomposition container 101 so as to electrolyze water at the port 120, the electrode 106, and apply high voltage, and the decomposition. A lid 126 covering the upper opening 103 of the container 101 and the left and right walls 1 of the decomposition container 101. Water is electrolyzed by the high voltage applied to the + and-electrodes 122 and 124 provided in the 14 and 116 to discharge the acid and water gas collected in the acid and water gas collection chamber 128 to the outside. Acid and water gas discharge ports 130 provided at 114 and 116, and the front and rear walls 102 and 104 of the decomposition vessel 101 to hermetically seal between the decomposition vessel 101 and the cover 126; A plurality of screw holes formed in the packing member 132 disposed at the upper center of the left and right walls 114 and 116 and the flange portion 112a extending outward from the bottom surface 112 of the disassembly container 101 ( An electrolytic cell for an acid / water gas generator, comprising a fastening member 140 for fastening a screw hole 126b formed in a flange portion 126a extending outward from the cover 126. . The decomposition vessel (101) of claim 1, wherein the electrode (106) has a lower portion thereof so as to flow water supplied through a water supply port (118) provided below the left and right walls (114, 116) of the decomposition vessel (101). Electrolyzer for acid and water gas generator, characterized in that is installed at a predetermined height (h) away from the bottom plate (112). The upper portion of the electrode 106 is formed from an upper portion of the decomposition vessel 101 so as to form an acid / water gas collection chamber 128 for collecting acid / water gas generated by electrolysis of water. An electrolytic cell for acid and water gas generators, which is located below a certain depth (D). The cover 126 is integrally formed with the jaw portion 126c toward the bottom to cover the front and rear walls 102 and 104 and the upper and outer sides of the left and right walls 114 and 116 of the decomposition container 101. An electrolytic cell for acid and water gas generators, which is formed.