JP3220913U - Structure of gas production machine - Google Patents

Abstract

A structure of a gas production machine capable of effectively using water resources is provided.
A box main body, a collection box, a communication pipe, and an electrolysis unit are provided. Water can be put inside the box main body, and water can be put inside the collection box. One gas space 31 is separated from the internal space, one exhaust pipe 32 is provided at the top of the collection box, and communicates with the gas space, and the horizontal position of the collection box is the same as or higher than the box body, One end of the communication pipe communicates with the bottom of the internal space of the box body, the other end communicates with the bottom of the internal space of the collection box, and the electrolysis unit has an input end and a first output end. Communicates with the first tube 51 and the bottom of the internal space of the box body, the first output end is connected to the second tube 52, and the other end of the second tube is connected to the collection box. Part space and the leading phase.
[Selection] Figure 1

Description

  The present invention relates to the structure of a gas production machine, and more particularly to the structure of a kind of gas production machine.

  Studies have shown that the human body creates hydrogen itself to neutralize free radicals in the body, protecting cells from damage, or maintaining normal metabolism. However, the speed of hydrogen produced by the human body cannot keep up with the speed at which free radicals are generated, and it is necessary to maintain a balance with the free radicals in the body by supplementing hydrogen by other methods. Currently, methods for replenishing hydrogen include (1) inhaling hydrogen and (2) drinking hydrogen water containing hydrogen.

  The above hydrogen source is obtained mainly by electrolysis. The electrolysis method is such that a water box containing water and a single electrolysis unit communicate with each other, so that the electrolysis unit electrolyzes the water in the water box and further supplies hydrogen generated after electrolysis to a storage device. send. In the process of transporting hydrogen, it is inevitable to transport water or moisture together. In order to collect these water or moisture and use them for hydrogen, a collection box is installed in the middle of transporting and collected. In addition to this, it is possible to collect not only hydrogen but also oxygen using the above method.

  However, as a result of the collection, the water level in the collection box constantly rises. In view of the fact that the user needs to flush the water in the collection box for a certain time in order to avoid overflowing the water in the collection box and soaking other parts, Improvement was needed.

JP2018-187337

  In order to solve the drawbacks of the known structure, the main object of the present invention is to provide a structure of a kind of gas production machine.

  In order to solve the above problems, the present invention provides a structure of a kind of gas production machine. It contains one box body, one collection box, one communication tube and one electrolysis unit.

  Water can be placed inside the box body.

  Water can be placed inside the collection box, and a gas space is separated from the space inside the collection box. An exhaust pipe is provided at the top of the collection box and communicates with the gas space. The horizontal position of the collection box is the same as or higher than the box body.

  One end of the communication pipe communicates with the bottom of the internal space of the box body, and the other end communicates with the bottom of the internal space of the collection box.

  The electrolysis unit has one input end and one first output end, and the input end communicates with one first pipe body and the bottom of the box body internal space. The first output end connects to one second tube, and the other end of the second tube communicates with the interior space of the collection box.

  In the process in which the electrolysis unit outputs gas, it is easy to output water together. In order to make full use of water, in the present invention, the box body and the collection box are formed so as to communicate with each other through a communication pipe, and the water output from the electrolysis unit using the collection box is further reduced. By passing through the communication pipe principle, excess water in the collection box is moved toward the box body, and electrolyzed again in the electrolysis unit to produce a gas such as oxygen or hydrogen.

  Therefore, the merit of the present invention is that, in the process of producing gas, it is not always necessary to pay attention to whether or not the water in the collection box overflows, and the water is recirculated and used. It has the effect of saving water.

  According to the structure of the present invention, in the process of producing the gas, it is not always necessary to pay attention to whether or not the water in the collection box needs to overflow and flow. Has the effect of saving.

It is a waterway map of the Example of this invention. It is an external view of the Example of this invention.

  Hereinafter, the structure, features, and embodiments of the present invention will be described in detail with reference to the drawings.

  As shown in FIGS. 1 and 2, the present invention relates to a structure of a kind of gas production machine. It contains one box body, one collection box, one communication tube and one electrolysis unit.

Water can be placed inside the box body 1. In the process of electrolysis, the water A inside the box body 1 needs to be replenished in order to constantly decrease. Thereby, what can be further implemented in the present invention is to provide one liquid level sensor 11 inside the box body 1. Furthermore, one transport unit 2 that communicates with the box body 1 is provided.
The transport unit 2 is electrically connected to the liquid level sensor 11, and the transport unit 2 determines whether or not to transport water into the box body 1 based on the result detected by the liquid level sensor 11.
Therefore, the combination of the liquid level sensor 11 and the transport unit 2 activates the function of automatically replenishing water once the water level inside the box body 1 is lower than a predetermined height (that is, in a low water level state). .

  When the water level of the box body 1 reaches another predetermined height (that is, in a high water level state), the function of replenishing water automatically stops, so that the present invention is very convenient in use. As shown in FIG. 1, as the best embodiment of the liquid level sensor 11, one high water level float switch 111 and one low water level float switch 112 are provided inside the box body 1.

  The above is the function of automatically replenishing the water in the box body 1, and then an implementation method for manually replenishing water will be introduced. One liquid level sensor 11 that is electrically connected to the alarm is provided inside the box body 1. The liquid level sensor 11 activates the alarm when the water level in the box body 1 does not satisfy one range value. Therefore, when the water level in the box body 1 is low, the alarm is activated to inform the user that the water must be refilled manually immediately. When the water level inside the box body 1 exceeds the range value, the alarm is activated in the same manner, so that the water level inside the box body 1 can be avoided from being too high.

  Water can be placed inside the collection box 3, and one gas space 31 is separated from the space inside the collection box 3. An exhaust pipe 32 is provided at the top of the collection box 3 and communicates with the gas space 31. In the process of electrolysis, it is unavoidable to discharge gas and water at the same time, so that the water is collected through the collection box 3. Subsequently, since the horizontal position of the collection box 3 is the same as or higher than that of the box body 1, the present invention operates the principle of the communication pipe and transports the water B collected in the collection box 3 into the box body 1. Then, the gas is newly recovered and electrolyzed to generate gas.

  One end of the communication pipe 4 communicates with the bottom of the internal space of the box body 1, and the other end communicates with the bottom of the internal space of the collection box 3. In addition, it should be noted that the connection method of the communication pipe 4 is not limited. All the internal spaces of the box body 1 and the collection box 3 communicate with each other and form the principle of the communication pipe. The scope of the invention. Three types of connection methods are shown below. As shown in FIG. 1, one of the ends of the communication pipe 4 communicates with a part of the first pipe body 51. The other is that one end of the communication pipe 4 is provided directly at the bottom of the box body 1 and communicates with the inside of the box body 3. Further, one communicates with one end of the communication pipe 4 and a part of the third pipe body 53.

  The electrolysis unit 5 has one input end and one first output end. The input end communicates with one first tube 51 and the bottom of the internal space of the box body 1. The first output end is connected to one second tube 52, and the other end of the second tube 52 communicates with the internal space of the collection box 3. Hydrogen or oxygen generated after electrolysis is sequentially collected via the second pipe 52, the collection box 3, and the exhaust pipe 32 according to needs, and at the same time, unnecessary gas can be discharged to the outside.

  In addition, since the gas exhausted from the exhaust pipe 32 is difficult to use if it is too dry, the present invention can be further implemented to prevent the gas from being excessively dried. It extends to the collection box 3 and is put into the water B in the collection box 3. Thereby, in the process in which the gas after electrolysis moves toward the exhaust pipe 32, it passes through the water B in the collection box 3, so that the entire humidity is raised.

  In addition, the first output end outputs gas and a part of the electrolyzed water is mixed. Since the electrolyzed water exhibits a dissociated state, the electrolyzed water is gradually reduced to general water in the process of flowing through the second tubular body 52 by further performing the second tubular body 52 described above, and later recovered. It becomes easy to re-electrolyze. The above-described method is not limited to putting one end of the second pipe body 52 into the water B in the collection box 3, but extends the other end directly to the top wall of the collection box 3. Having the same effect also has the same effect.

  In addition, the electrolysis unit 5 mentioned above may contain some water even in the process of exhausting the remaining unnecessary gases to the outside. In order to effectively use water resources, the present invention can be further implemented in that the electrolysis unit 5 has one second output end, and the second output end has one third tube. 53, and one end of the third tubular body 53 and the inside of the box body 1 communicate with each other. According to this embodiment, waste of water resources can be reduced.

As described above, the present invention has the following merits.
(1) Using the communication pipe principle, water B collected in the collection box 3 is transported again to the box body 1 and electrolyzed by the electrolysis unit 5 to effectively avoid wasting water resources. At the same time, it is not necessary for the user to flush the excess water B in the collection box 3 in a certain time, so that the convenience in use is improved as a whole.

  (2) By putting the second pipe body 52 deeply into the water B in the collection box 3, the entire humidity is increased by the water B in the collection box 3 in the process of gas entering the exhaust pipe 32. be able to.

  (3) By combining the transport unit 2 and the liquid level sensor 11, the present invention has a function of automatically replenishing water.

  The detailed description of the present invention according to the above embodiments does not limit the scope of the present invention. Those who are familiar with this technology can make appropriate changes and adjustments, such as changes in the fixing structure, and these changes and adjustments do not lose the significance of the present invention and are included in the scope of the present invention. It is.

A, B Water 1 Box body 11 Liquid level sensor 111 High water level float switch 112 Low water level float switch 2 Transport unit 3 Collection box 31 Gas space 32 Exhaust pipe 4 Communication pipe 5 Electrolysis unit 51 First pipe body 52 Second pipe body 53 Third tube

Claims (5)

Including one box body, one collection box, one communication pipe and one electrolysis unit,
Water can be put inside the box body,
Water can be placed inside the collection box, one gas space is separated in the space inside the collection box, one exhaust pipe is provided at the top of the collection box, and communicates with the gas space. The horizontal position of the box is the same as or higher than the box body,
One end of the communication pipe communicates with the bottom of the internal space of the box body, and the other end communicates with the bottom of the internal space of the collection box,
The electrolysis unit has one input end and one first output end, the input end communicates with one first tube body and the bottom of the box body internal space, and the first output end is one. A structure of a gas producing machine, wherein the second pipe is connected to the other end and the other end of the second end communicates with the internal space of the collection box.   2. The structure of a gas producing machine according to claim 1, wherein the other end of the second pipe extends to the collection box and is placed in water in the collection box or communicates with the gas space. .   The electrolysis unit has one second output end, the second output end is connected to one third tube, and one end of the third tube communicates with the inside of the box body. The structure of the gas production machine according to claim 1 or 2, characterized by the above-mentioned.   One liquid level sensor is provided inside the box body, and further, one transport unit communicating with the box body is provided, the transport unit is electrically connected to the liquid level sensor, and the transport unit is connected to the liquid level sensor. 4. The structure of the gas producing machine according to claim 3, wherein whether or not water is transported into the box body is determined based on the sensed result.   Provided inside the box body is a liquid level sensor that is electrically connected to an alarm, and the liquid level sensor activates the alarm when the water level in the box body does not satisfy one range value. The structure of the gas production machine according to claim 3, wherein the structure is a gas production machine.

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