KR200304292Y1 - An automatic zinc ball feeder for zinc-air fuel cells - Google Patents

Abstract

The present invention relates to an automatic zinc ball supply device for an air zinc fuel cell. The automatic zinc ball supply device (1) accommodates a plurality of zinc balls (2) while a zinc ball (2) is placed in the lower cell (3). A hopper 4 capable of being delivered, a distribution passage 5 capable of delivering a zinc ball 2 fixedly installed on one side of the lower side of the hopper 4 to each battery 3, and An inflow pipe 6 fitted into the distribution passage 5 and connected to the inflow pipe 6, a zinc ball input body 7 connected to the inflow pipe 6 to transfer the zinc ball 2 downward by a predetermined amount; Zinc ball inlet body 7 of the housing 9 and the housing 9 consisting of a discharge pipe (8) which is connected to the lower portion of the inlet body (7), the zinc ball (2) injected into the battery (3) In addition to being rotatably installed through the shaft (10) inside the plurality of wings 11 protruding from the outside of the wing 11 by the weight of the zinc ball (2) Rotating door 12 is configured to rotate a predetermined amount of zinc balls (2) in the lower direction while being rotated, it is possible to improve the workability of the operator by automatically and continuously supply the zinc balls supplied to each battery. In addition, it is possible to prevent the electrical short between the neighboring cells and the battery by supplying the zinc balls in a separate state so that the zinc balls do not contact each other.

Description

An automatic zinc ball feeder for zinc-air fuel cells

The present invention relates to a device for supplying zinc balls to an air zinc fuel cell, and in particular, by continuously supplying the zinc balls supplied to each cell continuously using the battery and to ensure that the zinc balls are not in contact with each other. The present invention relates to an automatic zinc ball supply device for an air zinc fuel cell that can be supplied in a separated state to prevent electrical shorts between neighboring cells and cells.

In general, an air zinc fuel cell uses zinc balls made of metal. The zinc balls are separated from each other and put into zinc cells to form an air zinc fuel cell. The air zinc fuel cells are generated in each cell. Since the voltage is up to 1.2V, it is necessary to step up using a DC-DC converter or to connect a plurality of batteries in series to obtain a high voltage.

However, when using the DC-DC converter, there is a drawback that a lot of energy loss is accompanied and a price burden is large. Also, when a plurality of batteries are connected in series, when the zinc balls are not properly separated, energy is generated by internal discharge. The phenomenon of being consumed occurs.

Therefore, the worker separately supplies zinc balls to each battery to prevent internal discharge, and this work is difficult because the workability is lowered and inconvenient as well as time consuming.

That is, in the conventional air zinc fuel cell, as illustrated in FIG. 1, a plurality of cells 102 having air electrodes 101 on one side thereof are disposed at regular intervals, and are disposed on the upper portions of the cells 102. A plurality of partitions 103 are installed to partition each battery 102 and a space is formed therein, and the inlet port 105 allows a plurality of zinc balls 104 to be inserted into an upper center of the partitions 103. ) Is formed.

Therefore, the zinc ball 104 is supplied to the inlet 105 by using a hopper containing a plurality of zinc balls 104, and the zinc balls 104 thus injected pass through the inlet 105 to each cell 102. Supplied to the air electrode 101 formed on one surface of the battery 102 and the zinc ball 104 meets to generate electricity after the energized zinc ball 104 is to be extinguished by itself.

Here, in the case of the air zinc fuel cell having the above-described structure, the amount of zinc balls 104 filled in the partition 103 is sufficiently small that the zinc balls 104 may be isolated from the inlet 105 of the partition 103. In this case, there is no problem, but when the zinc ball 104 is filled up to the inlet 105, there is a risk that an internal discharge may occur.

That is, the zinc ball 104 of one battery 102 and the zinc ball 104 of the other battery 102 may be energized through the inlet 105, and the diameter of the inlet 105 may be at least zinc ball. Since the 104 is formed large enough to pass through, when the zinc balls 104 stacked up from the bottom are filled to the inlet 105 of the upper portion, electric current is caused to flow through the adjacent battery 102. There was a problem that energy was consumed.

In addition, the conventional air zinc fuel cell having the above structure has a drawback in that workability and productivity are lowered because the worker manually supplies the zinc balls 104 to each inlet 105.

The present invention has been devised in view of the above-described circumstances, and the zinc balls supplied to each battery are continuously and automatically supplied to improve the performance and workability of the battery and prevent the zinc balls from contacting each other. It is an object of the present invention to provide a zinc ball automatic supply device for an air zinc fuel cell, which can prevent electrical shorts between neighboring cells and the cells by supplying them in a separated state.

The present invention for achieving the above object is, a hopper to receive the zinc ball to the lower cell while receiving a plurality of zinc balls; and the zinc ball is fixedly supplied to the lower side of the hopper supplied A distribution passage configured to be delivered to each battery; and an inlet tube configured to be connected to the distribution passage to receive zinc balls supplied from the distribution passage, and to be connected to the inlet tube to transfer the zinc balls downward by a predetermined amount. A housing consisting of a cylindrical zinc ball injecting body configured to be connected to the lower part of the zinc ball injecting body, and a discharge pipe configured to be connected to an upper portion of each cell to deliver the injected zinc balls to the battery; And, the zinc ball in the housing is rotatably installed inside the body through the shaft and a plurality of wings protruding to the outside of the zinc ball to rotate the wings by the weight of the zinc ball can be injected into a certain amount of zinc ball downwards. It is a structure consisting of a rotating door.

In addition, the distribution passage, the housing, and the rotating door may be formed of a plastic having electrical insulation and alkali resistance to block internal discharge of the zinc balls.

In addition, the inlet pipe installed in the housing is inclined by a predetermined angle in the downward direction so that the rotary door rotated by the weight of the zinc ball can be rotated in only one direction.

That is, the zinc ball automatic supply device having the above structure is a plurality of zinc balls are automatically put into each battery, the zinc ball corresponding to each battery when the input is prevented from being discharged inside each other, the worker When the zinc ball is filled into the hopper, zinc balls are automatically supplied to each housing along the distribution passage, and zinc balls may be automatically supplied to the battery sequentially by the rotating door of the housing.

Therefore, the workability of the operator can be improved by automatically supplying the zinc balls supplied to each battery by the zinc ball automatic feeding device, and by supplying the zinc balls in separate states so that the zinc balls are not in contact with each other. It is possible to prevent electrical shorts between neighboring cells and batteries. Since the zinc balls are not connected to each other and are energized, it is easy to configure a high voltage battery by connecting each battery in series, and continuously The automatic supply can improve the performance of the air zinc fuel cell.

1 is a state diagram showing a state in which the zinc ball is injected into the air zinc fuel cell according to the prior art,

2 is a perspective view showing an automatic zinc ball supply device of an air zinc fuel cell according to the present invention;

Figure 3 is a state diagram showing the internal structure of the automatic zinc ball supply device of an air zinc fuel cell according to the present invention,

4 is a state diagram showing a state in which the automatic zinc ball supply device according to the present invention is connected to the fuel cell.

Explanation of symbols on the main parts of the drawings

1: zinc ball automatic feeding device 2: zinc ball

3: battery 4: hopper

5: distribution passage 6: inlet pipe

7: Zinc ball input body 8: Outlet pipe

9: housing 10: shaft

11: wing 12: revolving door

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing an automatic zinc ball supply device of an air zinc fuel cell according to the present invention, Figure 3 is a state diagram showing the internal structure of the automatic zinc ball supply device of an air zinc fuel cell according to the present invention, 4 is a state diagram showing a state in which the zinc ball automatic supply device according to the present invention is connected to the fuel cell.

Referring to the structure of the present invention by the above drawings, the zinc ball automatic supply device (1) for supplying the zinc ball (2) to each cell (3) of the air zinc fuel cell is provided, the zinc ball automatic supply The device 1 accommodates a plurality of zinc balls 2 and a hopper 4 which allows the zinc balls 2 to be transferred to the battery 3 at the bottom, and is fixedly installed at one side of the lower side of the hopper 4. And a distribution passage 5 capable of delivering the supplied zinc balls 2 to each of the batteries 3, and the zinc balls 2 supplied from the distribution passage 5 while being connected to the distribution passage 5. Inlet pipe (6) to receive the transmission, and is installed in connection with the inlet pipe (6) of the cylindrical zinc ball input body (7) to transfer the zinc ball (2) to the lower portion by a predetermined amount, the zinc ball input body The ship is connected to the lower part of the (7) and is connected to the upper part of each battery (3) to deliver the injected zinc ball (2) to the battery (3) A housing 9 composed of an outlet pipe 8 and a zinc ball injection body 7 of the housing 9 are rotatably installed through a shaft 10, and a plurality of wings 11 protrude outwardly. It is formed of a rotating door 12 is formed so that the wing 11 is rotated by the weight of the zinc ball (2) is able to inject a predetermined amount of zinc ball (2) in the lower direction.

Here, the zinc ball automatic supply device 1 having the above structure is a zinc ball (2) to each cell (3) through the distribution passage (5) connected to the zinc ball (2) in one hopper (4) The zinc balls 2 passing through the distribution passage 5 are transferred into the zinc ball input body 7 through the inlet pipe 6 of the housing 9, and the zinc The zinc ball 2 is to be introduced into each battery 3 along the discharge pipe 8 of the housing 9 sequentially through the rotary door 12 installed in the ball input body (7).

In other words, the zinc ball automatic supply device (1) is a number of zinc balls (2) to be put into each of the cells (3) automatically, the zinc ball (2) corresponding to each cell (3) when the input This prevents the electric discharge from being internally discharged, and when the operator fills the hopper 4 with the zinc balls 2, the zinc balls 2 are automatically supplied to the respective housings 9 along the distribution passage 5. The zinc ball 2 is automatically supplied to the battery 3 sequentially by the rotation door 12 of the housing 9.

In addition, another feature of the zinc ball automatic supply device 1 is that the distribution passage 5, the housing 9 and the rotating door 12 are first molded into a plastic having electrical insulation and alkali resistance. The internal discharge of the zinc ball (2) can be blocked, and the inlet pipe (6) installed in the housing (9) is inclined by a predetermined angle in the downward direction is rotated by the weight of the zinc ball (2) The rotary door 12 is to be rotated only in one direction.

That is, the structure for automatically supplying the zinc ball (2) is, as shown in Figure 3, the zinc ball (2) coming through the inlet pipe (6) of the housing (9) is the zinc ball input body (7) And the zinc balls 2 collected between the blade 11 and the blade 11 of the rotary door 12 are rotated by the weight of the rotary door 12. Is moved to, the blade 11 is to pass a certain amount of zinc balls (2) placed on the blade 11 while passing through the discharge pipe 8 of the housing (9) into the discharge pipe (8).

Therefore, as the vanes 11 rotate sequentially by the gravity of the zinc balls 2, the zinc balls 2 collected in the vanes 11 are transferred to the respective batteries 3 through the discharge pipe 8. Since the vanes 11 rotate to isolate the zinc balls 2 through the vanes 11, the zinc balls 2 are separated so that electric conduction with the neighboring battery 3 does not occur.

When the blade 11 of the rotary door 12 has a space in which the zinc balls 2 are put in each battery 3, the blades 11 are rotated by the weight of the zinc balls 2. The zinc balls 2 are introduced into the battery 3 through the discharge pipe 8, and when the zinc balls 2 are filled in the battery 3, the vanes 11 of the rotary door 12 rotate. Since the zinc ball 2 is no longer supplied.

Therefore, when the zinc balls 2 filled in the cells 3 are gradually consumed in the process of using the fuel cell and the height of the zinc balls 2 filled in the cells is lowered, the blades of the rotary door 12 As the zinc ball 2 is additionally rotated by 11 to refill the zinc ball 2 inside the battery 3, the above process is automatically performed without external help.

On the other hand, the housing (9) of the automatic zinc ball feeder (1) is a discharge pipe (8) fixed perpendicularly to the inlet of the battery (3) and an inlet pipe that receives the zinc ball (2) from the distribution passage (5) It is preferable that the inlet pipe 6 is formed to be inclined by making the angle of (6) approximately 120 °, and in the case of the rotary door 12, the blade 11 is arranged to continuously insulate the zinc balls 2 to be introduced. At least three or more installations are preferred.

And, in the case of the rotary door 12 can be automatically rotated by an electric motor using an external power, in particular when the finer zinc balls (2) to be put together with a high viscosity liquid from the outside It is necessary to force it by force, and if the zinc balls 2 are all filled inside the battery 3 and no longer enter, they are rotated in place with the zinc balls 2 accommodated. Therefore, the zinc ball (2) is not forcibly injected, so the zinc ball (2) can be injected by rotation in accordance with the degree of consumption.

Accordingly, the zinc ball automatic supply device 1 can conveniently supply the zinc balls 2 to the battery 3 as if the operator injects liquid fuel, and the supplied zinc balls 2 are connected to each other to conduct electricity. It is easy to compose a high voltage fuel cell by connecting in series by preventing it from being done, and it is possible to supply zinc balls 2 continuously to a plurality of cells 3 using one hopper 4.

As described above, according to the zinc ball automatic supplying device of the air zinc fuel cell according to the present invention, by supplying the zinc balls supplied to each battery automatically and continuously, the workability of the operator can be improved, and the zinc balls are mutually It is possible to prevent electrical shorts between neighboring batteries and batteries by supplying them in a separate state so that they are not in contact with each other. Since the zinc balls are not connected to each other and are energized, the batteries of high voltage are connected by connecting them in series. It is easy to configure, and by the continuous automatic supply of zinc balls will have the effect of improving the performance of the air zinc fuel cell.

Claims (3)

A hopper 4 for receiving the zinc balls 2 and allowing the zinc balls 2 to be transferred to the battery 3 below; and A distribution passage 5 configured to deliver zinc balls 2 fixedly installed at one lower side of the hopper 4 to each of the batteries 3; and An inlet pipe 6 which is fitted into the distribution passage 5 and receives the zinc ball 2 supplied from the distribution passage 5, and is connected to the inflow tube 6 to install the zinc ball 2. The cylindrical zinc ball input body 7 to be delivered to the lower portion by a predetermined amount and the zinc ball 2 connected to the upper part of each battery 3 and installed in the lower portion of the zinc ball input body 7 A housing 9 composed of a discharge pipe 8 adapted to be delivered to the battery 3; And In addition to the rotatable through the shaft (10) inside the zinc ball input body (7) of the housing (9), a plurality of wings (11) protruding on the outside of the zinc ball (2) by the weight of the wings Rotating door (12) which is able to inject a predetermined amount of zinc balls (2) in the lower direction while rotating (11); Zinc ball automatic supply of zinc-fuel fuel cells. The method of claim 1, wherein the distribution passage (5), the housing (9) and the rotating door (12) are formed so as to block the internal discharge of the zinc ball (2) which is molded into a plastic having electrical insulation and alkali resistance Zinc ball automatic supply of air zinc fuel cell, characterized in that. According to claim 1, wherein the inlet pipe (6) installed in the housing (9) is inclined by a predetermined angle in the downward direction so that the rotary door 12 rotated by the weight of the zinc ball (2) in one direction only Zinc ball automatic supply of air zinc fuel cell, characterized in that it can be rotated.