JP3122693U - Energy equipment - Google Patents

Abstract

An energy device that generates energy by mixing hydrogen, oxygen, and a coolant is provided.
In an energy device including a pedestal 1 provided with a mixing tank 2, a hydrogen supply source 3, an oxygen supply source 4, and a coolant supply source 5, the mixing tank 2 has a storage space, An outflow conduit 213, a hydrogen inflow conduit 22, an oxygen inflow conduit 23, and a coolant inflow conduit 24 are connected to the accommodation space, and the hydrogen supply source 3 is connected to the hydrogen inflow conduit 22, Hydrogen is supplied to the storage space, the oxygen supply source 4 is connected to the oxygen inflow conduit 23, oxygen is supplied to the storage space, and the coolant supply source 5 is connected to the coolant inflow conduit 24, and the coolant is supplied. Is supplied to the accommodation space.
[Selection] Figure 1

Description

  The present invention relates to an energy device, and more particularly to an energy device that generates energy by mixing hydrogen, oxygen, and a coolant.

Since the natural resources of the earth, such as oil and gas, have been drastically reduced due to the massive consumption of humankind, the use and development of natural energy is becoming more and more important, such as solar energy, wind power, and tidal power. It is being used more and more. However, the energy generating device is too expensive, has low energy conversion efficiency, and requires sufficient space for installing these energy generating devices. There is no funding or technology to install the generator.
In general households, natural gas is supplied to a gas furnace and burned to become an energy supply source, or food is heated by using a microwave oven or an electric furnace as an energy supply source. Natural gas can also be used for factory welding.

However, the use of natural gas has the following drawbacks.
(B) Natural gas is toxic, and there is a risk of death if humans inhale natural gas, and there is also a risk of explosion when natural gas is compressed to high pressure.
(B) If natural gas burns incompletely, carbon monoxide is generated, and if humans inhale carbon monoxide, there is a risk of death.

Therefore, in order to solve the above-described drawbacks, a contractor has developed a hydrogen / oxygen generator 7. As shown in FIG. 6, the hydrogen / oxygen generator 7 includes an electrolytic tank 8, a mixing tank 9, and a welding torch 9 connected to the mixing tank 9, and water is contained inside the electrolytic tank 8. The power is supplied from the outside to the hydrogen / oxygen generator 7. Note that oxygen and hydrogen generated in the electrolytic cell 8 pass through the transport pipe 81 and flow into the mixing tank 9 to be mixed. Finally, a mixed gas of oxygen and hydrogen flows out from the welding torch 9 and the mixed gas The thermal energy of combustion when ignited is applicable to welding.
However, since the space for installing the apparatus is wide and the power for electrolyzing water is large, it cannot be used in the industry, and the running cost is increased due to the large consumption of power.

  The main object of the present invention is to provide an energy device that generates energy by mixing hydrogen, oxygen, and a coolant.

  The present invention made to achieve the above object is an energy device comprising a pedestal provided with one mixing tank, one hydrogen supply source, one oxygen supply source, and one coolant supply source. The mixing tank has one storage space, and the storage space has one outflow pipe, one hydrogen inflow pipe, one oxygen inflow pipe, and one coolant inflow pipe. Are connected, the hydrogen supply source is connected to the hydrogen inflow conduit, hydrogen is supplied to the accommodation space, and the oxygen supply source is connected to the oxygen inflow conduit, and oxygen is supplied to the accommodation space. The gist is that the coolant supply source is an energy device connected to the coolant inflow conduit and supplying coolant to the housing space.

In the present invention, the housing space may be partitioned into one inflow chamber and one outflow chamber by one partition.
In the present invention, the partition may be provided with a filter for filtering fluid passing from the inflow chamber to the outflow chamber.
In the present invention, the outflow pipe is connected to the outflow chamber of the storage space, and the hydrogen inflow pipe, the oxygen inflow pipe, and the coolant inflow pipe are connected to the inflow chamber of the storage space. May be.
In the present invention, the hydrogen supply source may be a hydrogen molecule reservoir.
In the present invention, the hydrogen molecule reservoir may be covered with a heat insulating sleeve.
In the present invention, the oxygen supply source may be an air pump.
In the present invention, the air pump may be driven by a single DC battery.

(Effect of device)
The energy device according to the present invention has the following effects.
(B) The gas generated by the energy device according to the present invention is completely combustible, environmentally friendly, non-toxic, and does not generate black smoke and carbon monoxide.
(B) When the device is started, it can be used immediately, and when the device is stopped, gas is not generated, and safety devices such as overheat automatic power shut-off are prepared. The mixing tank works at normal temperature and pressure, so there is no danger of explosion.

(C) The size of the device is not large, and if a roller is attached to the bottom of the pedestal 1, the movement becomes easier, it is possible to work for a long time, and in the preheated state, gas can be generated in about 30 seconds, and the device Since the size of is not large, it is easy to carry.
(D) Since the temperature divergence is small and the working environment does not become hot, the worker can work comfortably.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
First, FIG. 1 to FIG. 3 are referred to. FIG. 1 to FIG. 3 are only examples given for explaining the present invention, and are not intended to limit the scope of claims for utility model registration of the present invention.
An energy device according to an embodiment of the present invention includes a pedestal 1 provided with one mixing tank 2, one hydrogen supply source 3, one oxygen supply source 4, and one coolant supply source 5. Prepare.

  The mixing tank 2 has one storage space 21, and in the storage space 21, one outflow pipe 213, one hydrogen inflow pipe 22, one oxygen inflow pipe 23, and one cooling space. The storage space 21 is partitioned into one inflow chamber 211 and one outflow chamber 212 by one partition portion 25, and the partition portion 25 is separated from the inflow chamber 211. A filter 251 is provided for filtering the fluid passing through the outflow chamber 212.

The outflow conduit 213 is connected to the outflow chamber 212 of the accommodation space 21, and the hydrogen inflow conduit 22, the oxygen inflow conduit 23, and the coolant inflow conduit 24 are connected to the inflow chamber of the accommodation space 21. 211 is connected.
In this embodiment, the hydrogen supply source 3 is a single hydrogen molecule reservoir, and is connected to the hydrogen inflow conduit 22 so that hydrogen is supplied to the inflow chamber 211 of the accommodation space 21 and the hydrogen The molecular reservoir is covered with a heat insulating sleeve 31, and the heat insulating sleeve 31 communicates with the oxygen supply source 4, and has a space in which gas is circulated. The hydrogen supply source is supplied by the gas from the oxygen supply source 4. The temperature of 3 is kept constant.

  In this embodiment, the oxygen supply source 4 is a single air pump. When the oxygen supply source 4 is connected to the oxygen inflow conduit 23, oxygen is supplied to the inflow chamber 211 of the accommodation space 21. Is driven by the DC battery 41, the energy device according to this embodiment can be conveniently used indoors or outdoors, and does not require an external power source. Further, when used indoors, it is possible to drive the air pump using a household AC power supply instead of the DC battery 41.

The coolant supply source 5 is connected to the coolant inflow conduit 24 so that the coolant is supplied to the inflow chamber 211 of the storage space 21, and the inflow chamber 211 of the storage space 21 contains oxygen and hydrogen. Used as a mixing space. In addition, when the mixed gas of oxygen and hydrogen is burning, the combustion temperature is lowered by the coolant, so that it can be avoided that the combustion temperature of the mixed gas of oxygen and hydrogen is too high and the welding torch is melted. .
In addition, safety devices may be incorporated into the hydrogen and oxygen sources, so that if the combustion temperature is too high or an abnormal situation occurs, the hydrogen and oxygen sources should be immediately shut off. Safety can be ensured.

FIG. 4 is a schematic view showing a state in which the energy device according to this embodiment is connected to a general gas furnace 6. When a user cooks food outdoors, the energy device according to the present embodiment is highly safe, convenient to carry, and the gas mixture can be burned completely.
FIG. 5 is a schematic view showing a state in which the energy device according to this embodiment is connected to a general welding torch 61. The temperature of the flame ejected from the crater of the welding torch 61 can be adjusted by the mixing proportion of oxygen, hydrogen and coolant, and since the flame does not diffuse, the welding efficiency is high.

1 is a perspective view illustrating an appearance of an energy device according to an embodiment of the present invention. 1 is a schematic top view illustrating a structure of an energy device according to an embodiment of the present invention. It is the schematic which shows the structure of the mixing tank of the energy apparatus by one Example of this invention. It is the schematic which shows the state which connected the energy apparatus by one Example of this invention with the gas furnace. 1 is a schematic view showing a state in which an energy device according to an embodiment of the present invention is connected to a welding torch. It is the schematic which shows the conventional hydrogen and oxygen generator.

Explanation of symbols

  1 pedestal, 2 mixing tank, 21 accommodating space, 211 inflow chamber, 212 outflow chamber, 213 outflow line, 22 hydrogen inflow line, 23 oxygen inflow line, 24 coolant inflow line, 25 partition, 251 filter, 3 Hydrogen supply source, 4 Oxygen supply source, 41 DC battery, 5 Coolant supply source, 6 Gas furnace, 61 Welding torch

Claims (8)

In an energy device comprising a pedestal provided with one mixing tank, one hydrogen supply source, one oxygen supply source, and one coolant supply source,
The mixing tank has one storage space, and the storage space includes one outflow pipe, one hydrogen inflow pipe, one oxygen inflow pipe, and one coolant inflow pipe. Articulated,
The hydrogen supply source is connected to the hydrogen inflow conduit, and supplies hydrogen to the accommodation space.
The oxygen supply source is connected to the oxygen inflow conduit, supplies oxygen to the accommodation space,
The energy supply device, wherein the coolant supply source is connected to the coolant inflow conduit and supplies the coolant to the accommodation space.   The energy device according to claim 1, wherein the housing space is partitioned into one inflow chamber and one outflow chamber by one partition.   The energy device according to claim 2, wherein the partition is provided with a filter for filtering a fluid that passes from the inflow chamber to the outflow chamber.   The outflow pipe is connected to an outflow chamber of the accommodation space, and the hydrogen inflow pipe, the oxygen inflow pipe, and the coolant inflow pipe are connected to an inflow chamber of the accommodation space. The energy device according to claim 2.   The energy device according to claim 1, wherein the hydrogen supply source is a hydrogen molecular reservoir.   The energy device according to claim 5, wherein the hydrogen molecule reservoir is covered with an insulating sleeve.   The energy device according to claim 1, wherein the oxygen supply source is an air pump.   8. The energy device according to claim 7, wherein the air pump is driven by one DC battery.

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