KR200413003Y1 - apparatus of generation oxygen/hydrogen gas - Google Patents

Abstract

The present invention relates to a plurality of electrode plates, and an oxygen / hydrogen mixed gas generator capable of easily fixing a terminal for applying current to the electrode plate in an electrolytic cell. Specifically, the present invention has an electrolytic cell having a space part into which an electrolyte is accommodated, and an electrolytic cell having an opening at one end thereof, and the terminals inserted into the space part and applying current, and electrolytically dissolving the electrolyte solution with the applied current. And a cover plate for sealing the opening and fixing the fastening bolt formed at one end of the terminals to support the terminal and the electrode plate inserted into the space. An oxygen / hydrogen mixed gas generator is provided.

Oxygen / hydrogen mixed gas generator, electrolyzer, terminal, electrode plate, cover plate

Description

Apparatus of generation oxygen / hydrogen gas}

1 is a three-dimensional view showing an oxygen / hydrogen mixed gas generator according to the present invention.

FIG. 2 is an exploded perspective view illustrating a main configuration of the oxygen / hydrogen mixed gas generator shown in FIG. 1. FIG.

FIG. 3 is a side cross-sectional view of the oxygen / hydrogen mixed gas generator shown in FIG. 1;

FIG. 4 is a cross-sectional plan view illustrating the oxygen / hydrogen mixed gas generator shown in FIG. 1;

              <Description of Symbols for Main Parts of Drawings>

10: electrolytic cell 12: space part

14: opening 20: electrode plate

22: Terminal 22a: Tightening bolt

24: current distribution plate 26: volts

32: cover plate 36: vibration bar

100: oxygen / hydrogen mixed gas generator

The present invention relates to an oxygen / hydrogen mixed gas generator, and more particularly, to an oxygen / hydrogen mixed gas generator capable of easily fixing a plurality of electrode plates and a terminal for applying current to the electrode plates in an electrolytic cell. .

As is well known, the oxygen / hydrogen mixed gas generator refers to a device for producing oxygen and hydrogen, which are products obtained by electrolysis of water, and the representative technology related to the oxygen / hydrogen mixed gas generator is one of the inventors. Registered Utility Model Publication No. 20-0391265 (name: electrode plate structure of oxygen / hydrogen mixed gas generator) of Korea Patent Office registered as May 10, 2005 and registered as July 21, 2005 Technology ".

The prior art is composed of an electrolytic cell having a space for accommodating an electrolyte and a plurality of electrode plates arranged at regular intervals in the space and electrolyzing the electrolyte with a current applied from a terminal to generate an oxygen / hydrogen mixed gas. In particular, the electrode plate is characterized in that it is configured by continuously bending the electrode plate in a zigzag to increase the contact area (cross-sectional area) with the electrolyte.

Through the above features, the prior art has the effect of generating a larger amount of oxygen / hydrogen mixed gas by the increased contact area during the electrolysis process.

However, the prior art causes a number of problems in the process of installing the electrode plate and the terminal in the electrolytic cell.

First, the electrode plate is inserted into the electrode plate fixing grooves formed on the inner side and the rear side of the electrolytic cell to be fixed one by one. Such an assembly structure brings a lot of trouble in assembling with unnecessary time wasting.

 In addition, in order to connect the terminal to the electrode plate installed in the electrolytic cell as described above, after forming a separate terminal insertion hole in the front and rear of the electrolytic cell again, the connection work with the electrode plate in the state where the terminal is inserted into the terminal insertion hole. It is to be performed, thus bringing a lot of inconvenience to the connection between the electrode plate and the terminal.

Lastly, in order to install the electrode plate and the terminal, as mentioned in the electrolytic cell, the electrode plate fixing groove and the terminal insertion hole must be formed.

Therefore, the present invention for solving the above problems is to provide an oxygen / hydrogen mixed gas generator that can easily install the electrode plate and the terminal in the electrolytic cell.

Another object of the present invention is to provide an oxygen / hydrogen mixed gas generator that can easily perform the replacement operation of the electrode plate and the terminal.

Still another object of the present invention is to provide an oxygen / hydrogen mixed gas generator capable of easily distributing a current applied from a terminal to each individual electrode plate.

Still another object of the present invention is to provide an oxygen / hydrogen mixed gas generator capable of increasing the amount of oxygen / hydrogen mixed gas generated.

The present invention for achieving the above object has an electrolytic cell having a space portion in which the electrolyte is accommodated therein and an opening formed at one end thereof, terminals inserted into the space portion and applying a current, and connected to the terminals and applied current. A plurality of electrode plates for electrolyzing the electrolyte solution, and a cover plate for sealing the opening and fixing the fastening bolts formed at one end of the terminals to support the terminals and the electrode plates inserted into the space. Provided is an oxygen / hydrogen mixed gas generator characterized in that the configuration.

Preferably between the terminals and the electrode plate further comprises a current distribution pieces for separately distributing the current applied from the terminal to the electrode plate.

Under the electrode plate is preferably configured to include a vibration bar for vibrating the electrode plate finely by the power of the vibration means.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 4 are views showing the oxygen / hydrogen mixed gas generator to be implemented in the present invention.

As shown in the drawing, the oxygen / hydrogen mixed gas generator 100 includes an electrolytic cell 10, an electrode plate 20, and a terminal 22.

The electrolytic cell 10 is provided in a cylindrical shape with a space portion 12 for accommodating the electrolyte therein, the opening 14 is formed at one end thereof. The opening 14 is configured to be sealed through a cover plate 32 to be described later. In addition, the other end of the electrolytic cell 10 is formed with an electrolyte supply passage 16 for supplying an electrolyte solution, and a gas discharge passage 18 for discharging the oxygen / hydrogen mixed gas generated at the upper end.

The electrode plate 20 is arranged in a plurality of arrays while maintaining a predetermined interval in the space 12 in the electrolytic cell 10, the electrode plate 20 is electrolyzed by the electrolysis of the electrolyte by the current applied from the outside oxygen Hydrogen mixed gas is generated. In this case, the electrode plate 20 is not manufactured in the form of a flat plate, but is preferably configured by continuously bending the zigzag as shown in FIG. 2, which increases the contact area with the electrolyte solution and thus the oxygen / hydrogen mixed gas. This is to increase the amount generated.

The terminal 22 is a means for applying a current to the electrode plate 20 is located on the electrode plate 20, provided with a plurality of the same form to apply a positive current to one terminal, to the other terminal Make sure that the negative terminal is applied. A fastening bolt 22a is extended to one end of the terminal 22, and the fastening bolt 22a is fastened to a cover plate 32, which will be described later, and is connected to the terminal 22 and the terminal 22. The electrode plates 20 are supported on the cover plate 32.

Meanwhile, a plurality of current distribution pieces 24 are provided between the terminal 22 and the electrode plate 20. As shown in FIG. 2, the current distribution piece 24 has a terminal connection part 24a having a predetermined length, and a plurality of electrodes protruding while maintaining a predetermined interval in an uneven shape on one surface of the terminal connection part 24a. It is manufactured in the form of the plate connecting portion (24b). The current distribution piece 24 manufactured as described above has a plurality in the same shape, and the terminal connection part 24a is connected to the terminal 22 in the state where the electrode plate connection parts 24b of each current distribution piece 24 are alternated with each other. And the bolts 26 are respectively fastened to each other, and the electrode plate connecting parts 24b are coupled to the electrode plates 20 and the other bolts 28 so that the terminals 22 and the electrode plates 20 are coupled to each other. Therefore, the current applied from the terminal 22 is delivered to each individual electrode plate 20. That is, the current applied from the terminal 22 is transferred to the terminal connecting portion 24a via the bolt 26, and the current transmitted to the terminal connecting portion 24a passes through the electrode plate connecting portion 24b and the electrode plate connecting portion 24b. The electrode plates 20 may be supplied with the current applied from the terminals 22 by being transferred to the electrode plates 20 to which the bolts 28 are fastened. Between the terminal 22 and the current distribution piece 24 is preferably further provided with a separate insulating frame 30, which is of the bolt 26 to fasten the terminal 22 and the current distribution piece 24 This is to reinforce the clamping force.

On the other hand, in the opening 14 formed at one end of the electrolytic cell 10, a cover plate 32 in the form of a disc is provided to be detachable and coupled with a fastening means 33 such as a bolt. 32 performs a function of closing (opening) the terminal 14 and the electrode plates inserted into the space 12 of the electrolytic cell 10 together with the function of closing the opening 14.

Specifically, the cover plate 32 penetrates and is fastened by a nut 34 through a fastening bolt 22a extending to one end of the terminal 22 described above. Thus, the terminal 22 and the terminal 22 are fixed. The plurality of electrode plates 20 connected to the spaces 12 of the electrolytic cell 10 together with the installation of the cover plate 32 while being supported by the cover plate 32 through the fastening bolt 22a. It is inserted in.

In this case, when the terminal 22 and the electrode plate 20 are inserted into the space part 12 while being supported by the cover plate 32, the electrode plate 20 and the terminal 22 are fixed to the electrolytic cell 10. The terminal 22 and the electrode plates 20 are spaced in the electrolytic cell 10 even without forming a separate means (that is, an electrode plate fixing groove for fixing the electrode plate of the prior art and a terminal insertion hole into which the terminal is inserted). It can be easily fixed to the portion 12. In addition, the electrolytic cell 10 can simplify the molding operation of the electrolytic cell 10 by eliminating the need to form the electrode plate fixing groove and the terminal insertion hole as mentioned. When the terminal 22 or the electrode plate 20 needs to be replaced, the terminal 22 and the electrode plate 20 can be easily separated from the electrolytic cell 10 by only removing the cover plate 32. The convenience of work can be realized.

Reference numeral 35 denotes an electrolyte discharge passage 35 installed in the cover plate 32 to discharge the electrolyte.

On the other hand, the lower end of the electrode plate 20 is provided with a vibration bar 36 having a plurality of insertion grooves 38 for the electrode plate 20 is fitted. The vibrating rod 36 vibrates the electrode plates 20 finely with the power of the vibrating means 40 provided on one side to quickly float bubbles on the surface of the electrode plate 20 during the electrolysis process. It performs a function to increase the amount of oxygen / hydrogen mixed gas contained in the bubble.

The vibrating means 40 is a means for vibrating the vibrating rod 36, the permanent magnet 42 attached to one side of the vibrating rod 36 and the electrolytic cell 10 so as to be adjacent to the permanent magnet 42. It consists of an electromagnet 44 provided on the outside, preferably on the outer surface of the cover plate 32 for sealing the opening 14 of the electrolytic cell 10. That is, the vibration means 40 is a vibration bar 36 by using the principle that the permanent magnet 42 is sucked and repelled, pulled or pushed when the polarity of the electromagnet 44 is repeatedly converted to the N pole, S pole Will vibrate.

As discussed above, the present invention achieves many effects as follows.

 First, the present invention allows the terminal and the electrode plate inserted into the space part of the electrolytic cell to be supported by a cover plate that seals the opening of the electrolytic cell so that the terminal and the electrode plate are not formed even if a separate means for fixing the terminal and the electrode plate in the electrolytic cell is formed. It has an effect that can be easily fixed in the electrolytic cell.

In addition, since the cover plate is detachably configured, the electrode plate and the terminal can be easily separated from the electrolytic cell, so that the replacement of the electrode plate or the terminal can be performed smoothly.

Claims (3)

An electrolytic cell 10 having a space portion 12 in which an electrolyte is accommodated and an opening 14 formed at one end thereof; A plurality of electrode plates 20 inserted into the space part 12 and connected to the terminals 22 and connected to the terminals 22 to electrolyze the electrolyte with the applied current; The opening 14 is sealed and the fastening bolts 22a formed at one end of the terminals 22 are fixed to support the terminals 22 and the electrode plates 20 inserted into the space 12. Oxygen / hydrogen mixed gas generator characterized in that it comprises a cover plate (32). The method of claim 1, Between the terminals 22 and the electrode plate 20 is further provided with current distribution pieces 24 for separately distributing the current applied from the terminal 22 to the electrode plate 20, respectively. Oxygen / hydrogen mixed gas generator. The method according to claim 1 or 2, Under the electrode plate 20, the oxygen / hydrogen mixed gas generator, characterized in that the vibration rod (36) for finely vibrating the electrode plate 20 by the power of the vibration means 40 is installed.

Images