CN218860919U - Electrolytic cylinder self-cleaning device of oxyhydrogen cutting machine - Google Patents

Abstract

The utility model discloses an electrolysis section of thick bamboo self-cleaning device of oxyhydrogen cutting machine, include: the water pump is used for providing power; the radiator is communicated with the liquid outlet end of the water pump; a filter connected with the heat sink; the electrolysis cylinder is communicated with the liquid inlet end of the water pump, an air outlet is formed in the electrolysis cylinder, the water pump drives the liquid to circularly flow in the water pump, the radiator, the filter and the electrolysis cylinder, the heat is dissipated through the radiator, the filter filters the liquid, and impurities generated in the electrolysis cylinder are continuously filtered through the filter under the flowing of the liquid; can remove impurities contained in the liquid, avoid the impurities from depositing in the electrolytic cylinder and effectively prevent implosion caused by excessive impurities in the electrolytic bath.

Description

Electrolytic cylinder self-cleaning device of oxyhydrogen cutting machine

Technical Field

The utility model relates to a water electrolysis hydrogen manufacturing technical field especially relates to an electrolysis section of thick bamboo automatically cleaning device of oxyhydrogen cutting machine.

Background

With the increasing protection of the state on the environment, oxyhydrogen as a clean energy can be generated, the principle that water is electrolyzed to generate hydrogen and oxygen under specific conditions is utilized, the hydrogen is used as a high-energy fuel, the oxygen is used as a combustion improver, and after the hydrogen and oxygen are treated by a safety system, the output oxyhydrogen mixed gas is combusted more fully and is environment-friendly.

In the electrolysis process, an electrolysis power supply rectifies and reduces 380V or 220V alternating current into 60V direct current, and then the direct current is applied to two ends of an electrolysis cylinder, electrolyte in the electrolysis cylinder is subjected to the action of the direct current to generate electrochemical reaction, hydrogen is generated at a cathode, and oxygen is generated at an anode. Electrolyte and oxyhydrogen gas produced in the electrolytic cylinder are driven by a magnetic circulating pump to forcibly flow to a heat dissipation system to reduce the temperature, then the electrolyte is separated from hydrogen and oxygen by a water-gas separation system, the cooled electrolyte is pumped back to the electrolytic cylinder by the magnetic pump again for electrolysis, the oxyhydrogen gas enters a washing system again to wash away carried trace alkali liquor, then is cooled and dried again, is output to an oxyhydrogen cutting gun by an anti-backfire system, and can be used after ignition. However, during the electrolysis process, a large amount of impurities are easily generated in the electrolysis cylinder, but cannot be automatically removed.

In view of the above, it is desirable to provide a novel self-cleaning device for electrolytic tank of oxyhydrogen cutting machine to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an electrolysis section of thick bamboo automatically cleaning device of oxyhydrogen cutting machine has increased the filtration automatically cleaning device on original cooling system, has effectually prevented to have produced the implosion because of having impurity too much in the electrolysis trough.

In order to achieve the above object, the utility model provides an electrolysis section of thick bamboo automatically cleaning device of oxyhydrogen cutting machine, include:

the water pump is used for providing power;

the radiator is communicated with the liquid outlet end of the water pump;

a filter connected to the heat sink;

an electrolysis section of thick bamboo, an electrolysis section of thick bamboo with the feed liquor end intercommunication of water pump, be provided with the gas vent on the electrolysis section of thick bamboo, the water pump drive makes liquid is in water pump, radiator, filter and electrolysis section of thick bamboo inner loop flow dispels the heat through the radiator, the filter filters liquid, and the impurity that produces in the electrolysis section of thick bamboo filters through the filter constantly under liquid flow.

In a preferred embodiment, the radiator comprises a frame body and a radiating pipe arranged on the frame body, the radiating pipe comprises a pipe inlet end and a pipe outlet end, and the pipe outlet end of the water pump is connected with the pipe inlet end of the radiating pipe.

In a preferred embodiment, a liquid inlet is arranged at a position, close to the top end, of the side wall of the filter, a liquid outlet is arranged at a position, close to the bottom end, of the side wall of the filter, and the liquid outlet end of the pipeline of the radiating pipe is connected with the liquid inlet.

In a preferred embodiment, the number of the electrolysis cylinders is two, the two electrolysis cylinders are distributed side by side, a communicating pipe is arranged between the two electrolysis cylinders, liquid passing holes are formed in the bottoms of the two electrolysis cylinders, a liquid outlet of the filter is connected with the liquid passing hole of one electrolysis cylinder, and the liquid passing hole of the other electrolysis cylinder is connected with a liquid inlet end of the water pump; and the top parts of the two electrolysis cylinders are provided with air outlet pipes which are connected with the air outlets on the two electrolysis cylinders.

In a preferred embodiment, the system further comprises a first L-shaped three-way valve, a second L-shaped three-way valve, a third L-shaped three-way valve and a fourth L-shaped three-way valve; the first L-shaped three-way valve is connected with the second L-shaped three-way valve, the first L-shaped three-way valve is also connected with the liquid inlet end of the water pump, and the second L-shaped three-way valve is also connected with a liquid passing hole of one electrolytic cylinder; the third L-shaped three-way valve is connected with the fourth L-shaped three-way valve, the third L-shaped three-way valve is further connected with a liquid outlet of the filter, and the fourth L-shaped three-way valve is further connected with a liquid passing hole of another electrolytic cylinder.

In a preferred embodiment, the system further comprises a first L-shaped three-way valve, a second L-shaped three-way valve, a third L-shaped three-way valve and a fourth L-shaped three-way valve; the first L-shaped three-way valve is connected with a fourth L-shaped three-way valve, the first L-shaped three-way valve is also connected with a liquid inlet end of the water pump, and the fourth L-shaped three-way valve is also connected with a liquid passing hole of one electrolytic cylinder; the second L-shaped three-way valve is connected with the third L-shaped three-way valve, the second L-shaped three-way valve is also connected with a liquid passing hole of another electrolytic barrel, and the third L-shaped three-way valve is also connected with a liquid outlet of the filter.

Compared with the prior art, beneficial effect lies in: the water pump drive makes liquid at water pump, radiator, filter and electrolysis section of thick bamboo inner loop flow, dispels the heat through the radiator, the filter filters liquid, and the impurity that produces in the electrolysis section of thick bamboo filters through the filter constantly under liquid flows, can clear away the impurity that contains in the liquid, avoids impurity deposit in the electrolysis section of thick bamboo, has effectually prevented to have the impurity too much and produce the implosion because of having in the electrolysis trough.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a first embodiment of an electrolytic tank self-cleaning device of an oxyhydrogen cutting machine according to the present invention.

Fig. 2 is a schematic structural diagram of a second embodiment of the electrolytic tank self-cleaning device of the oxyhydrogen cutting machine provided by the present invention.

FIG. 3 is a perspective view of the radiator of the electrolytic tank self-cleaning device of the oxyhydrogen cutting machine according to the present invention.

Fig. 4 is a perspective view of the filter of the electrolytic tank self-cleaning device of the oxyhydrogen cutting machine provided by the utility model.

FIG. 5 is a perspective view of the electrolytic cylinder self-cleaning device of the oxyhydrogen cutting machine according to the present invention.

Reference numerals: 1. a water pump; 2. a heat sink; 21. a frame body; 22. a radiating pipe; 3. a filter; 31. a liquid inlet; 32. a liquid outlet; 4. an electrolytic cylinder; 41. a communicating pipe; 42. an air outlet pipe; 5. a first L-shaped three-way valve; 6. a second L-shaped three-way valve; 7. a third L-shaped three-way valve; 8. and a fourth L-shaped three-way valve.

Detailed Description

In order to make the objects, technical solutions and advantageous technical effects of the present invention more clearly understood, the present invention is further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration only and not by way of limitation.

It will be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and simplicity in description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

It is also noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other suitable relationship. The above terms may have the specific meanings given in the present invention to those skilled in the art according to the specific circumstances.

Furthermore, the terms "left", "right", and "left" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying a number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. Further, the meaning of "a plurality" or "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 5, the present invention provides a self-cleaning device for an electrolytic cartridge of an oxyhydrogen cutting machine, comprising:

the water pump 1 is used for providing power;

the radiator 2 is communicated with the liquid outlet end of the water pump 1;

a filter 3, wherein the filter 3 is connected with the radiator 2;

electrolysis section of thick bamboo 4, electrolysis section of thick bamboo 4 with the feed liquor end intercommunication of water pump 1, be provided with the gas vent on the electrolysis section of thick bamboo 4, the drive of water pump 1 makes liquid is in water pump 1, radiator 2, filter 3 and 4 inner loop of electrolysis section of thick bamboo flow, dispel the heat through radiator 2, filter 3 filters liquid, and the impurity that produces in the electrolysis section of thick bamboo 4 constantly filters through filter 3 under the liquid flow, can dispose the impurity that contains in the liquid, avoids the impurity deposition in electrolysis section of thick bamboo 4.

Radiator 2 includes support body 21 and install in cooling tube 22 on the support body 21, cooling tube 22 includes pipeline inlet end and pipeline outlet end, the outlet end of water pump 1 with cooling tube 22's pipeline inlet end is connected.

The filter 3 is hollow cylinder, the position that the lateral wall of filter 3 is close to the top is provided with inlet 31, the position that the lateral wall of filter 3 is close to the bottom is provided with liquid outlet 32, the pipeline liquid outlet end of cooling tube 22 with inlet 31 is connected.

The number of the electrolytic cylinders 4 is two, the two electrolytic cylinders 4 are distributed side by side, a communicating pipe 41 is arranged between the two electrolytic cylinders 4 to keep the two electrolytic cylinders 4 in a communicated state, liquid passing holes are formed in the bottoms of the two electrolytic cylinders 4, the liquid outlet 32 of the filter 3 is connected with the liquid passing hole of one electrolytic cylinder 4, and the liquid passing hole of the other electrolytic cylinder 4 is connected with the liquid inlet end of the water pump 1; the top parts of the two electrolysis cylinders 4 are provided with an air outlet pipe 42, and the air outlet pipe 42 is connected with the air outlets on the two electrolysis cylinders 4 so as to facilitate the air outlets in the two electrolysis cylinders 4 to discharge the generated oxyhydrogen gas.

In the utility model, the self-cleaning device of the electrolysis cylinder of the oxyhydrogen cutting machine also comprises a first L-shaped three-way valve 5, a second L-shaped three-way valve 6, a third L-shaped three-way valve 7 and a fourth L-shaped three-way valve 8; the first L-shaped three-way valve 5 is connected with the second L-shaped three-way valve 6, the first L-shaped three-way valve 5 is also connected with the liquid inlet end of the water pump 1, and the second L-shaped three-way valve 6 is also connected with a liquid passing hole of one electrolytic barrel 4; the third L-shaped three-way valve 7 is connected to the fourth L-shaped three-way valve 8, the third L-shaped three-way valve 7 is further connected to the liquid outlet 32 of the filter 3, and the fourth L-shaped three-way valve 8 is further connected to the liquid passing hole of another electrolytic cartridge 4.

In the utility model, the self-cleaning device of the electrolytic tank of the oxyhydrogen cutting machine further comprises a first L-shaped three-way valve 5, a second L-shaped three-way valve 6, a third L-shaped three-way valve 7 and a fourth L-shaped three-way valve 8; the first L-shaped three-way valve 5 is connected with a fourth L-shaped three-way valve 8, the first L-shaped three-way valve 5 is also connected with a liquid inlet end of the water pump 1, and the fourth L-shaped three-way valve 8 is also connected with a liquid passing hole of one electrolytic barrel 4; the second L-shaped three-way valve 6 is connected with a third L-shaped three-way valve 7, the second L-shaped three-way valve 6 is further connected with a liquid passing hole of another electrolytic cartridge 4, and the third L-shaped three-way valve 7 is further connected with a liquid outlet 32 of the filter 3.

As shown in fig. 1, the working process of the first cycle method of the present invention is: electrolyte flows out from an electrolysis cylinder 4 and flows to a first L-shaped three-way valve 5 through a second L-shaped three-way valve 6, then a water pump 1 conveys the electrolyte to a radiator 2 (a fin radiator 2), the radiator 2 filters out impurities in the electrolyte through a filter 3 after the temperature of the electrolyte is reduced by the heat dissipation of the electrolyte, the cooled and filtered electrolyte returns to another electrolysis cylinder 4 through a third L-shaped three-way valve 7 and a fourth L-shaped three-way valve 8, and the two electrolysis cylinders 4 are communicated with each other, so that the impurities at the bottom of the electrolysis cylinder 4 can be filtered out in a circulating filtration mode.

As shown in fig. 2, the working process of the second cycle mode of the present invention is: electrolyte flows out from an electrolysis section of thick bamboo 4 and flows to first L type three-way valve 5 through fourth L type three-way valve 8, then water pump 1 carries electrolyte in radiator 2, radiator 2 filters out the impurity of electrolyte the inside through filter 3 after making the temperature reduction of electrolyte with the heat dissipation of electrolyte, the electrolyte after the cooling filtration returns to another electrolysis section of thick bamboo 4 through third L type three-way valve 7 and second L type three-way valve 6, because be the intercommunication between two electrolysis section of thick bamboos 4, so the device can filter the impurity of electrolysis section of thick bamboo 4 bottom through the loop filter's mode.

Through circulation mode one and circulation mode two can filter the impurity of deposit in two electrolysis section of thick bamboo 4 and electrolysis section of thick bamboo 4 bottoms clean, also reach the effect of heat dissipation cooling simultaneously.

The utility model discloses an electrolysis section of thick bamboo automatically cleaning device overall design's of oxyhydrogen cutting machine simple structure, convenient operation, automatic control effectively realizes that the impurity in the electrolysis section of thick bamboo 4 filters in order to prevent oxyhydrogen gas implosion.

The present invention is not limited to what has been described in the specification and embodiments, and additional advantages and modifications will readily occur to those skilled in the art, such that the invention is not limited to the specific details, representative apparatus, and examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.

Claims (6)

1. The utility model provides an electrolysis section of thick bamboo self-cleaning device of oxyhydrogen cutting machine which characterized in that includes:

the water pump (1), the said water pump (1) is used for providing the power;

the radiator (2), the said radiator (2) is communicated with liquid outlet end of the said water pump (1);

a filter (3), the filter (3) being connected to the heat sink (2);

electrolysis section of thick bamboo (4), electrolysis section of thick bamboo (4) with the feed liquor end intercommunication of water pump (1), be provided with the gas vent on electrolysis section of thick bamboo (4), water pump (1) drive makes liquid water pump (1), radiator (2), filter (3) and electrolysis section of thick bamboo (4) inner loop flow dispels the heat through radiator (2), filter (3) filter liquid, and the impurity that produces in electrolysis section of thick bamboo (4) constantly filters through filter (3) under liquid flow.

2. The self-cleaning device for the electrolysis cylinder of the oxyhydrogen cutting machine according to claim 1, wherein the radiator (2) comprises a frame body (21) and a radiating pipe (22) arranged on the frame body (21), the radiating pipe (22) comprises a pipe inlet end and a pipe outlet end, and the pipe inlet end of the radiating pipe (22) is connected with the pipe outlet end of the water pump (1).

3. The self-cleaning device for the electrolytic tank of oxyhydrogen cutting machine according to claim 2, wherein the side wall of the filter (3) is provided with a liquid inlet (31) near the top end, the side wall of the filter (3) is provided with a liquid outlet (32) near the bottom end, and the liquid outlet of the pipe of the heat dissipation pipe (22) is connected with the liquid inlet (31).

4. The electrolytic tank self-cleaning device of the oxyhydrogen cutting machine according to claim 1, characterized in that the number of the electrolytic tanks (4) is two, two electrolytic tanks (4) are distributed side by side, a communicating pipe (41) is arranged between the two electrolytic tanks (4), the bottoms of the two electrolytic tanks (4) are provided with liquid passing holes, the liquid outlet (32) of the filter (3) is connected with the liquid passing hole of one electrolytic tank (4), and the liquid passing hole of the other electrolytic tank (4) is connected with the liquid inlet end of the water pump (1); and air outlet pipes (42) are arranged at the tops of the two electrolytic cylinders (4), and the air outlet pipes (42) are connected with air outlets on the two electrolytic cylinders (4).

5. The self-cleaning device for the electrolytic tank of the oxyhydrogen cutting machine according to claim 4, further comprising a first L-shaped three-way valve (5), a second L-shaped three-way valve (6), a third L-shaped three-way valve (7) and a fourth L-shaped three-way valve (8); the first L-shaped three-way valve (5) is connected with the second L-shaped three-way valve (6), the first L-shaped three-way valve (5) is further connected with a liquid inlet end of the water pump (1), and the second L-shaped three-way valve (6) is further connected with a liquid passing hole of one electrolytic barrel (4); the third L-shaped three-way valve (7) is connected with the fourth L-shaped three-way valve (8), the third L-shaped three-way valve (7) is further connected with a liquid outlet (32) of the filter (3), and the fourth L-shaped three-way valve (8) is further connected with a liquid passing hole of another electrolytic barrel (4).

6. The self-cleaning device for the electrolytic tank of the oxyhydrogen cutting machine according to claim 4, further comprising a first L-shaped three-way valve (5), a second L-shaped three-way valve (6), a third L-shaped three-way valve (7) and a fourth L-shaped three-way valve (8); the first L-shaped three-way valve (5) is connected with a fourth L-shaped three-way valve (8), the first L-shaped three-way valve (5) is further connected with a liquid inlet end of the water pump (1), and the fourth L-shaped three-way valve (8) is further connected with a liquid passing hole of one electrolytic barrel (4); the second L-shaped three-way valve (6) is connected with the third L-shaped three-way valve (7), the second L-shaped three-way valve (6) is further connected with a liquid passing hole of another electrolytic barrel (4), and the third L-shaped three-way valve (7) is further connected with a liquid outlet (32) of the filter (3).

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