KR102482862B1 - Aluminum fuel input device for hydrogen gas production - Google Patents

Abstract

The present invention relates to an aluminum raw material input device for producing hydrogen gas, and when the aluminum raw material supplied by the vertical transfer unit is introduced into the raw material reactor, the aluminum raw material is pushed into the inlet side of the input member while preventing hydrogen gas from leaking. A second input cylinder that moves along the horizontal rail of the input unit, an input port coupling member that moves towards the raw material reactor by the second input cylinder and blocks the inlet of the input member, and an input port coupling member to prevent hydrogen gas from leaking. It is characterized in that the push member is moved by the push rod operation in the closed state to input the aluminum raw material into the raw material reactor of the hydrogen gas generator. The aluminum material located on the fuel seating member is drawn into the inside of the raw material reactor of the hydrogen gas generating unit by the push member while preventing the leakage of hydrogen gas due to the close contact of the coupling member, thereby safely injecting the aluminum material without leaking hydrogen gas. There are possible effects.

Description

Aluminum fuel input device for hydrogen gas production}

The present invention relates to an aluminum raw material input device for producing hydrogen gas, and more particularly, the aluminum raw material contained in the hopper of the raw material supply unit is raised and lowered step by step through the supply device, and supplied to the raw material sorting / transfer unit, and the raw material sorting / transfer unit When the aluminum raw material transported by the aligns in one direction and supplies the aluminum raw material supplied to the vertical transfer unit in the form of free fall to the hydrogen gas generating unit, the supply of the aluminum raw material is made easy without the hydrogen gas leaking to the outside. It relates to an aluminum raw material input device for hydrogen gas production.

Recently, environmental problems that have become issues around the world are one of the biggest problems that mankind needs to solve. In particular, the problem of global warming is a very urgent problem to solve, and as is already known as the main cause of global warming, Carbon dioxide emissions from the use of fossil fuels.

As a solution to this problem, studies on fuel cells that produce electric energy using hydrogen gas and studies on directly using hydrogen gas as a fuel for internal combustion engines have been actively conducted.

In particular, in the case of a fuel cell, since energy is generated without a combustion reaction of fuel, there is no emission of toxic pollutants generated in the combustion process of fossil fuel, and there is an advantage in that the emission of carbon dioxide can be drastically reduced.

Despite these advantages, the use of hydrogen gas energy has not entered the commercialization stage yet, as derivative research such as economical hydrogen gas production and development of stable hydrogen storage media are required. For example, since hydrogen, which is generally stored in a high-pressure gas or liquefied state, has very low ignition energy, it has problems with stability such as being easily ignited even with very small static electricity.

As prior literature for solving the above problems, Korean Patent Publication No. 2018-0019413 (published on February 26, 2018) "Metal Fuel Supply Device for Metal Fuel Hydrogen Generator" has a reaction space in which a hydrogen generating chemical reaction occurs inside. prepared reactor; A metal fuel transfer pipe having an upper end connected to an upper portion of the reactor and a lower end disposed below one side of the reactor and filled with a liquid therein; a metal fuel storage device supplying metal fuel supplied to the reaction space through the metal fuel delivery pipe to a lower end of the metal fuel delivery pipe; and a transfer device installed inside the metal fuel transfer pipe to transfer the metal fuel supplied by the metal fuel storage device to the reaction space.

The transfer device includes first and second belt drums disposed at upper and lower ends of the metal fuel transfer pipe; Conveyor belts surrounding outer surfaces of the first and second drums and having metal fuel seated thereon; and a driving device for rotating at least one of the first and second belt drums.

However, since the transfer device of the prior art structured as described above is transported by a conveyor belt when transporting metal fuel, hydrogen gas generated in the reactor flows into the metal fuel transfer pipe through which the metal fuel is transported, and this hydrogen is transferred to the metal fuel. When metal fuel is supplied from a part connected to the pipe or from a metal fuel storage tank, the valve of the metal fuel drop pipe is opened, causing leakage and easily igniting.

Republic of Korea Patent Publication No. 2018-0019413 (2018.02.26. Publication)

The present invention is to solve the problems of the prior art, the aluminum raw material contained in the hopper of the raw material supply unit is raised and lowered step by step through the supply device, supplied to the raw material sorting / transfer unit, and the aluminum material transferred by the raw material sorting / transfer unit Aligned in one direction to supply the aluminum raw material supplied to the vertical transfer unit in the form of free fall to the hydrogen gas generating unit, the hydrogen gas does not leak to the outside and the aluminum raw material can be supplied stably. Aluminum for hydrogen gas production The purpose is to provide a raw material input device.

The present invention is a means for achieving the above object,

A second input cylinder that moves along the horizontal rail of the raw material input unit to push the aluminum material into the input member inlet side while preventing hydrogen gas from leaking when the aluminum material supplied by the vertical transfer unit is introduced into the raw material reactor; An inlet coupling member that moves towards the raw material reactor by the input cylinder and blocks the inlet of the inlet member, and the push rod operates to move the aluminum raw material in a state where the inlet is blocked with the inlet coupling member so that hydrogen gas does not leak. It provides an aluminum raw material input device for producing hydrogen gas, characterized in that it is introduced into the raw material reactor of the hydrogen gas generator.

In addition, the aluminum raw material input device for producing hydrogen gas of the present invention includes a fixing table fixed to the top of a fixing frame installed on the top of the work table; A horizontal rail installed on the top of the fixing table; A first input cylinder located on one side of the horizontal rail and installed on the fixing table; A second input cylinder coupled to the fastening member of the first input cylinder by a cylinder fixing body so that the aluminum raw material can be pushed and introduced into the hydrogen gas generator; A horizontal slider coupled to the second input cylinder and movably installed on a horizontal rail to be moved by the first input cylinder and to inject aluminum raw material into the hydrogen gas generator; an inlet coupling member coupled to the second inlet cylinder and brought into close contact with the inlet formed in the inlet member of the hydrogen gas generating unit; It is characterized in that it comprises; a push member which is located inside the inlet coupling member and coupled to the push rod of the second inlet cylinder to introduce the aluminum raw material into the raw material reactor of the hydrogen gas generating unit.

The second input cylinder of the present invention, the inlet coupling member is in close contact with the inlet formed in the inlet member of the hydrogen gas generating unit to prevent the hydrogen gas from leaking, while the aluminum source located in the fuel seating member is pushed to the hydrogen gas generating unit by the pushing member. Characterized in that it is drawn into the inside of the raw material reactor.

In the second input cylinder 440 of the present invention, a cylinder support is coupled, and the cylinder support is movably installed on a horizontal slide installed on a rail installed on one side of an upper part of the holder and moves together with the second input cylinder. do.

The second input cylinder of the present invention is characterized in that the cylinder support is coupled to the horizontal slide so that it can be moved along the rail by the first input cylinder.

The inlet coupling member of the present invention is drawn into the inside of the inlet member installed in the raw material reactor and is characterized in that a protrusion is formed to prevent hydrogen gas from leaking.

The vertical transfer unit for supplying the aluminum raw material of the present invention is characterized in that it is made to push the supplied aluminum raw material into the inlet side of the input member in plurality.

The raw material input unit for injecting the aluminum raw material into the raw material reactor of the hydrogen sas generating unit of the present invention is characterized in that it is installed singly or in plurality in proportion to the hydrogen production amount of the raw material reactor.

It is characterized in that the raw material input unit, which is installed singly or in plurality in proportion to the hydrogen production of the raw material reactor of the present invention, is installed in parallel to the raw material reactor.

In the present invention, when the aluminum raw material is introduced into the raw material reactor, the inlet coupling member adheres to the inlet formed in the inlet member of the hydrogen gas generating unit to prevent leakage of hydrogen gas, and the aluminum raw material located in the fuel seating member is pushed to the hydrogen gas by the pushing member. There is an effect that the aluminum raw material can be safely injected without hydrogen gas leaking by being drawn into the inside of the raw material reactor of the generation unit.

1 is a view showing a state in which an aluminum raw material input device for producing hydrogen gas according to the present invention is installed between a raw material supply unit, a raw material alignment / transfer unit, a vertical transfer unit and a hydrogen gas generating unit.
2 is a view showing an aluminum raw material input device for producing hydrogen gas according to the present invention shown in FIG.
3 is a view showing the configuration of a first input cylinder, a second input cylinder, an input coupling member and a push member installed on the fixing table shown in FIG. 2;
Figure 4 is a view showing a state in which the first cylinder is driven to input the aluminum raw material by the aluminum raw material input device for hydrogen gas production according to the present invention.
Figure 5 is a view showing a state in which the second cylinder is driven to input the aluminum raw material by the aluminum raw material input device for hydrogen gas production according to the present invention.
Figure 6 is a view showing a state in which the aluminum raw material is separated from the input member after the aluminum raw material is introduced by the aluminum raw material input device for hydrogen gas production according to the present invention.

Hereinafter, an aluminum raw material input device for producing hydrogen gas according to the present invention will be described.

The aluminum raw material input device for producing hydrogen gas according to the present invention supplies the aluminum raw material to the raw material input unit ( 400) moves the second input cylinder 440 movably installed along the horizontal rail 420 toward the raw material reactor 510 by the first input cylinder 430 so that the input member 520 can be input. In a state where the inlet of the input member 520 is blocked through the inlet coupling member 460, the push member 470 is moved by the push rod 441 to input the aluminum raw material into the raw material reactor 510. do.

An aluminum raw material input device for producing hydrogen gas according to the present invention will be described in detail with reference to the accompanying drawings.

The aluminum raw material input device for producing hydrogen gas according to the present invention shown in FIGS. 1 to 4 includes a fixing table 410, a horizontal rail 420, a first input cylinder 430, a second input cylinder 440, and a horizontal slider. 450, a slot coupling member 460 and a push member 470.

The fixing table 410 is fixed to the top of the fixing frame (not shown) installed on the top of the work table by bolts and nuts. It is preferable that the height of the bolt and nut is adjusted so that the fixing table 410 can be maintained in a horizontal state.

And the horizontal rail 420 is installed on top of the fixing table 410. The horizontal rail 420 is installed at the center in the longitudinal direction of the fixing table to allow the second input cylinder 440 to move.

The first input cylinder 430 is located on one side of the horizontal rail 420 and is installed on the fixing table 410 . In addition, the first input cylinder 430 moves the second input cylinder 440 and the inlet coupling member 460 toward the hydrogen gas generator 500 so that the inlet coupling member 460 is injected into the raw material reactor 510. It adheres to the member 520.

The second input cylinder 440 is the first input cylinder 430 by the fastening member 431 and the cylinder fixture 442 to push the aluminum raw material 10 to be injected into the hydrogen gas generator 500 is coupled to

In addition, the cylinder fixture 442 is coupled with an 'L'-shaped assembly 443 so that it can be coupled to the horizontal slider 450, and the assembly 443 is coupled to the horizontal slider 450 and moves together. make it possible

A push rod (or cylinder rod) 441 is installed inside the second input cylinder 440, and the push rod 441 is reciprocally moved by air pressure flowing into the second input cylinder 440. It is installed in the injection cylinder 440. When the inlet coupling member 460 adheres to the input member 520 of the raw material reactor 510 by the first input cylinder 430, the second input cylinder 440 moves the push rod 441 to the raw material reactor 510. ) is pushed in the direction where the aluminum raw material 10 located on the input member 520 is introduced into the raw material reactor 510 by the push member 470.

In addition, the second input cylinder 440 is coupled to a cylinder support 444 formed in an 'L' shape, and the cylinder support 444 is coupled to the horizontal slider 450 to form the first input cylinder 430. It is movably installed along the horizontal rail 420 by.

The horizontal slider 450 moves by the first input cylinder 430 and is coupled to the second input cylinder 440 so that the aluminum raw material 10 can be input to the hydrogen gas generator 500, and the horizontal rail 420 ) is installed to be movable. The horizontal slider 450 is reciprocally moved along the horizontal rail 420 by the operation of the first input cylinder 430 .

The inlet coupling member 460 is coupled to the end of the second inlet cylinder 440 connected to the first inlet cylinder 430 and adheres to the inlet formed in the inlet member 520 of the hydrogen gas generator 500. The inlet coupling member 460 has a protrusion 461 formed on one side, and the protrusion 461 is drawn into the input member 520 of the raw material reactor 510 when the aluminum raw material 10 is input. The leakage of hydrogen gas from the reactor 510 is prevented.

The push member 470 is coupled to the push rod 441 of the second input cylinder 440 and is located inside the input port coupling member 460, and the aluminum raw material 10 is a raw material of the hydrogen gas generator 500. It is introduced into the reactor 510.

That is, the push member 470 is coupled to the input member 520 of the raw material reactor 510 together with the input port coupling member 460 by the first input cylinder 430, and is placed inside the second input cylinder 440. It is moved by the push rod 441 installed in the aluminum raw material 10 is introduced into the reactor 510.

The aluminum raw material input device for producing hydrogen gas according to the present invention configured as above is through the vertical transfer unit 300 while aligning the aluminum raw material 10 through the raw material supply unit 100 and the raw material alignment/transfer unit 200. When the supplied aluminum raw material 10 is raised, the first input cylinder 430 is driven on the top of the fixing table 410 to move the second input cylinder 440 toward the raw material reactor 510, and at this time, the second input cylinder ( The horizontal slider 450 installed on the combination body 443 of 440 is moved along the horizontal rail 420 installed on the fixing table 410.

The vertical transfer unit 300 for supplying the aluminum raw material is characterized in that it is made to push the supplied aluminum raw material 10 into the inlet side of the input member 520 in plurality.

The input port coupling member 460 installed on one side of the second input cylinder 440 moved by the first input cylinder 430 adheres to one side of the input member 520 installed in the raw material reactor 510, and at this time, the input port The protruding part 461 of the coupling member 460 is inserted into the input member 520 and coupled to prevent leakage of hydrogen gas to the outside even when the input port is opened by the input valve 521 installed on the input member 520. .

When the input valve 521 is opened while the push member 470 is in close contact with the input member 520, the push rod 441 is moved by the operation of the second input cylinder 440, and the push rod ( The push member 470 installed on one side of 441) is moved toward the raw material reactor 510, and the aluminum raw material 10 supplied from the vertical transfer unit 300 of the vertical transfer unit 300 is introduced into the raw material reactor 510. (520) Put it inside.

The input aluminum raw material 10 pushes the aluminum raw material introduced first so that it is introduced into the raw material reactor 510, and the input of the aluminum raw material 10 is adjusted according to the amount of hydrogen gas generated so that hydrogen Regulates gas production.

When the push member 470 retreats (returns to the initial position) by the operation of the second input cylinder 440 in a state in which the aluminum raw material 10 has been input into the raw material reactor 510, the input member 520 As the installed input valve 521 is closed, the gas leaking from the raw material reactor 510 is blocked, and the hydrogen gas located inside the input member 520 and the input port coupling member 460 is the gas installed in the input member 520. It is supplied to the filtering unit 600 through a discharge pipe (unsigned) to utilize hydrogen gas.

When the aluminum raw material 10 is introduced into the raw material reactor 510, a chemical reaction occurs with a solution (reaction mixture) stored in the raw material reactor 510, and hydrogen gas is generated along with oxides.

In addition, oxides generated during the hydrogen gas generation process are moved to a settling box installed at the bottom of the raw material reactor 510, and the hydrogen gas is supplied to the filtration tank through the gas outlet 522, and the filtration unit 600 made of a plurality ), foreign substances are removed step by step from the supplied hydrogen gas to produce pure hydrogen gas.

In addition, the raw material input unit 400 for injecting the aluminum raw material 10 into the raw material reactor 510 of the hydrogen SARS generator 500 may be installed alone or in plurality in proportion to the hydrogen production amount of the raw material reactor 510.

In addition, the raw material input unit 400 installed alone or in plurality in proportion to the hydrogen production amount of the raw material reactor 510 may be installed in parallel to the raw material reactor 510 .

As described above, when the aluminum raw material 10 is introduced into the raw material reactor 510, the inlet coupling member 460 adheres to the inlet formed in the inlet member 520 of the hydrogen gas generator 500, so that hydrogen gas leaks. By introducing the aluminum raw material 10 transported by the vertical transfer unit 300 into the raw material reactor 510 of the hydrogen gas generator 500 by the push member 470 while preventing leakage of hydrogen gas. There is an effect that the aluminum raw material 10 can be safely injected while not.

The above description of the present invention is for illustrative purposes, and those skilled in the art can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the claims to be described later, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof should be construed as being included in the scope of the present invention.

10: aluminum raw material 100: raw material supply unit
200: raw material sorting / transfer unit 300: vertical transfer unit
400: raw material input unit 410: fixed stand
420: horizontal rail 430: first input cylinder
431: fastening member 440: second input cylinder
441: push rod 442: cylinder fixture
443: assembly 444: cylinder support
450: horizontal slider 460: inlet coupling member
461: protrusion 470: push member
500: hydrogen gas generator 510: raw material reactor
520: input member 511: input valve
512: gas outlet 600: filtering unit

Claims (8)

When the aluminum raw material 10 supplied by the vertical transfer unit 300 is introduced into the raw material reactor 510, the aluminum raw material 10 is pushed into the inlet side of the input member 520 while preventing hydrogen gas from leaking. The second input cylinder 440 moves along the horizontal rail 420 of the unit 400 and moves toward the raw material reactor 510 by the second input cylinder 440 to block the entrance of the input member 520. The inlet coupling member 460 and the push member 470 are moved by the operation of the push rod 441 in a state where the inlet is blocked by the inlet coupling member 460 so that the hydrogen gas does not leak, thereby discharging the aluminum raw material 10 into hydrogen. In the aluminum raw material input device for producing hydrogen gas, characterized in that the input into the raw material reactor 510 of the gas generator 500,
The aluminum raw material input device for producing the hydrogen gas includes a fixing table 410 fixed to a fixing frame installed on the top of the work table;
a horizontal rail 420 installed above the fixing table 410;
A first input cylinder 430 located on one side of the horizontal rail 420 and installed on a fixing table;
A second input cylinder 440 movably installed along the horizontal rail 420 by the first input cylinder 430 so that the aluminum raw material 10 can be pushed and introduced into the hydrogen gas generator;
It moves by the first input cylinder 430 and is coupled to the second input cylinder 440 so that the aluminum raw material 10 can be introduced into the hydrogen gas generating unit 500 that generates hydrogen gas and is attached to the horizontal rail 420. a horizontal slider 450 movably installed;
an inlet coupling member 460 coupled to the second inlet cylinder 440 and closely attached to the inlet formed in the inlet formed in the inlet member 520 of the hydrogen gas generator 500;
It is coupled to the push rod 441 of the second input cylinder 440 so that the aluminum raw material 10 can be introduced into the raw material reactor 510 of the hydrogen gas generator 500, and the inside of the input port coupling member 460 a push member 470 movably installed in;
Aluminum raw material input device for producing hydrogen gas, characterized in that it comprises a. delete According to claim 1,
The second input cylinder 440,
It is coupled to the first input cylinder 430 by the fastening member 431,
A cylinder fixture 442 is installed between the second input cylinder 440 and the fastening member 431 and coupled with the horizontal slider 450 along the horizontal rail 420 by the operation of the first input cylinder 430. An aluminum raw material input device for producing hydrogen gas, characterized in that it is movably installed. According to claim 1,
The second input cylinder 440,
An aluminum raw material input device for producing hydrogen gas, characterized in that the cylinder support 444 is coupled and installed on the horizontal slide 450 so that it can be moved together along the horizontal rail 420 by the first input cylinder 430. . According to claim 1,
The inlet coupling member 460,
An aluminum raw material input device for producing hydrogen gas, characterized in that a protrusion 461 is formed to prevent hydrogen gas from leaking into the input member 520 installed in the raw material reactor 510. According to claim 1,
The vertical transfer unit 300 for supplying the aluminum raw material 10 is configured to push a plurality of the supplied aluminum raw material 10 toward the inlet side of the input member 520, characterized in that the aluminum raw material input for hydrogen gas production Device. According to claim 1,
The raw material input unit 400 for injecting the aluminum raw material 10 into the raw material reactor 510 of the hydrogen SARS generator 500 is installed alone or in plurality in proportion to the hydrogen production of the raw material reactor 510, characterized in that Aluminum raw material input device for hydrogen gas production. According to claim 7,
The raw material input unit 400, which is installed alone or in plurality in proportion to the hydrogen production amount of the raw material reactor 510, is an aluminum raw material input device for hydrogen gas production, characterized in that mounted in parallel to the raw material reactor.

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