KR200413310Y1 - The electrolyte-supplementary construction for battery - Google Patents

Abstract

The present invention relates to a battery electrolyte automatic replenishment structure, consisting of a plurality of cells, the battery is filled with an electrolyte solution, the amount of evaporation of the electrolyte inside the oxygen and hydrogen increases gradually depending on the amount of use or the period to be supplemented It has a problem to solve the problem to automatically replenish the electrolyte;

It is formed on the upper surface of the cell of the battery has a lower structure to be coupled to correspond to the filling hole formed to check the interior or to replenish the electrolyte, a part of the top is open and the lid is made of a transparent material hinged coupling A body which is opened and closed and is divided into two spaces, the first space part and the second space part vertically by a partition wall, wherein the partition wall has at least one through hole formed therein;

An elevator shaft insertion hole is formed on the bottom and the partition wall of the body, and the elevator shaft is inserted into the elevator shaft insertion hole, and the upper and lower parts are provided with a protrusion formed to be larger than the diameter of the elevator shaft insertion hole. An elevation shaft having a groove formed in a longitudinal direction such that the buoy descends a predetermined length so that an electrolyte solution comes out of a gap engaging with the elevation shaft insertion hole;

An electrolyte replenishment cap formed in a shape of 'T' to one side of the upper portion of the body and having one side connected to the body integrally with a supply pipe connector connected through the other side and the first space;

An electrolyte tank filled with an electrolyte solution to be replenished therein;

It relates to a battery electrolyte automatic replenishment structure, characterized in that consisting of a supply pipe interconnecting the supply tank connector adjacent to the electrolyte tank.

Electrolyte, battery

Description

The electrolyte-supplementary construction for battery

1 is a perspective view according to an embodiment of the present invention

2 is a perspective view showing an electrolyte refill cap according to an embodiment of the present invention

Figure 3 is a partial cutaway perspective view showing an electrolyte refill cap according to an embodiment of the present invention

<Explanation of symbols for main parts of the drawings>

1: electrolyte refill cap

2: body

     21: lid 22: bulkhead

     23: first space portion 24: second space portion

     25: connecting hole

3: lifting shaft

     31: lifting shaft insertion hole 32: protrusion

     33: buoy 34: home

4: supply pipe connector

5: electrolyte tank

6: supply pipe

7: battery

     71: cell 72: filling hole

The present invention relates to a battery electrolyte automatic replenishment structure, and more specifically, to a battery electrolyte automatic replenishment structure that can be automatically replenished when a certain amount of the electrolyte is lost.

A battery composed of a combination of a plurality of cells in which a positive electrode plate and a negative electrode plate are inserted therein and an electrolyte is filled can always stably supply a constant power in a device including various vehicles, including automobiles, or various weapons using charging power connected to an engine. It is equipped to make it possible.

A problem that frequently occurs while using such a battery lies in a problem caused by discharge and a decrease in power caused by a cell that fails to function due to loss of electrolyte.

That is, when fully discharged, the electrolyte in the state of water is charged and changed to 2H2SO4 (dilute sulfuric acid). When the state is fully charged, oxygen and hydrogen are generated and the gaseous state leaks to the outside, whereby the electrolyte gradually decreases.

Therefore, it is desirable to always check the state of these electrolytes, but it is often neglected to check such conditions, and it takes a lot of time to check and replenish the remaining amount by opening each cell to fill the insufficient electrolyte. It also has the disadvantage of being cumbersome.

The present invention was developed in order to solve the above problems, and its object is to develop an automatic battery electrolyte replenishment structure that can adequately replenish electrolytes according to the amount of remaining electrolyte in each cell constituting the battery.

In order to achieve the above object, the present invention is made up of a plurality of cells, the battery is filled with the electrolyte solution, the amount of evaporation of the electrolyte inside the oxygen and hydrogen increase depending on the amount of use or the period is gradually reduced to compensate for this problem It is to have a solution to automatically replenish the electrolyte;

It is formed on the upper surface of the cell of the battery has a lower structure to be coupled to correspond to the filling hole formed to check the interior or to replenish the electrolyte, a part of the top is open and the lid is made of a transparent material hinged coupling A body which is opened and closed and is divided into two spaces, the first space part and the second space part vertically by a partition wall, wherein the partition wall has at least one through hole formed therein;

An elevator shaft insertion hole is formed on the bottom and the partition wall of the body, and the elevator shaft is inserted into the elevator shaft insertion hole, and the upper and lower parts are provided with a protrusion formed to be larger than the diameter of the elevator shaft insertion hole. An elevation shaft having a groove formed in a longitudinal direction such that the buoy descends a predetermined length so that an electrolyte solution comes out of a gap engaging with the elevation shaft insertion hole;

An electrolyte replenishment cap formed in a shape of 'T' to one side of the upper portion of the body and having one side connected to the body integrally with a supply pipe connector connected through the other side and the first space;

An electrolyte tank filled with an electrolyte solution to be replenished therein;

Characterized in that it consists of a supply pipe interconnecting the supply tank connector adjacent to the electrolyte tank.

Accordingly, the configuration of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a perspective view according to an embodiment of the present invention, a plurality of electrolyte replenishment cap 1 mounted to the filling hole 72 of each cell 71 constituting the battery 7;

An electrolyte tank 5 filled with electrolyte to be replenished therein;

The structure consisting of the supply pipe 6 which interconnects the electrolyte tank 5 and the adjacent supply pipe connector 4 is shown.

By the above structure, the supply pipe 6 and the electrolyte replenishment cap 1 which are constantly supplied with the electrolyte solution from the electrolyte tank 5 are embedded in the electrolyte replenishment cap 1 when the internal electrolyte of each cell 71 is insufficient. It is to be able to supply a certain amount by the structure.

2 is a perspective view showing an electrolyte refill cap according to an embodiment of the present invention, Figure 3 is a partial cutaway perspective view showing an electrolyte refill cap according to an embodiment of the present invention.

The structure of the electrolyte replenishment cap 1 has a lower structure which is formed on the upper surface of the cell 71 of the battery 7 to correspond to the filling hole 72 formed to check the interior or to replenish the electrolyte solution. The upper part of the upper part is opened and the lid 21 made of a transparent material is opened and closed by hinged opening, and the first space part 23 and the second space part 24 are vertically opened by the partition wall 22 therein. A body 2 which is divided into two spaces and has at least one through hole 25 formed in the partition 22;

A lifting shaft insertion hole 31 is formed in the bottom surface and the partition wall 22 of the body 2 and is inserted into the lifting shaft insertion hole 31 to move up and down, but the upper portion is larger than the diameter of the lifting shaft insertion hole 31. A protrusion 32 is formed to be large, and a buoy 33 formed to float in an electrolyte is attached to a lower end thereof, and when the buoy 33 is lowered by a predetermined length, the electrolyte is interposed with the lifting shaft insertion hole 31. A lifting shaft 3 in which a groove 34 is formed in the longitudinal direction so as to come out;

The supply pipe connector 4 is formed in the shape of 'T' to one side of the upper portion of the body 2 and one side is integrally connected with the body 2 so as to penetrate through the remaining both sides and the first space 23. It consists of.

When the electrolyte is filled with a predetermined amount or more due to such a structure, the space between the lifting shaft insertion hole 31 and the lifting shaft 3 inserted therein is hermetically sealed so that the electrolyte is not supplied. When the lowering of the lifting shaft (3) is also lowered so that the groove 34 is formed in the portion where the lifting shaft insertion hole 31 is located to replenish the insufficient electrolyte in the gap.

In addition, when a predetermined amount is supplied, the lifting shaft 3 may rise again to always have a certain amount of electrolyte to have the best performance.

In addition, the lifting shaft insertion hole 31 supporting the lifting shaft 3 so that the lifting shaft 3 can perform a constant and stable vertical movement is the bottom surface and the partition wall 22 of the body 2 at a predetermined distance. Lifting is performed while placing two places of guides stably.

In addition, the lid 21 is made of a transparent material to easily check the state of the lifting shaft (3) and open the lid 21 during abnormal operation to enable the check and check the inside.

At this time, the lifting shaft (3) is made of a material having a color different from the color of the body (2) and clearly visible in the contrast and brightness and saturation so that the inside can be easily checked even when the lid 21 is closed This is preferred.

As described above, the present invention has the effect of minimizing the waste of time and manpower according to the stable current supply and inspection work by solving the problem of checking and supplementing the electrolyte from time to time.

Claims (2)

It is formed on the upper surface of the cell 71 of the battery 7 has a lower structure to be coupled to correspond to the filling hole 72 formed to check the interior or to replenish the electrolyte, a portion of the upper portion is open The lid 21 made of a transparent material is hinged to open and close, and is divided into two spaces vertically by the partition 22 into the first space 23 and the second space 24. 22, a body 2 in which at least one through hole 25 is formed; A lifting shaft insertion hole 31 is formed in the bottom surface and the partition wall 22 of the body 2 and is inserted into the lifting shaft insertion hole 31 to move up and down, but the upper portion is larger than the diameter of the lifting shaft insertion hole 31. A protrusion 32 is formed to be large, and a buoy 33 formed to float in an electrolyte is attached to a lower end thereof, and when the buoy 33 is lowered by a predetermined length, the electrolyte is interposed with the lifting shaft insertion hole 31. A lifting shaft 3 in which a groove 34 is formed in the longitudinal direction so as to come out; The supply pipe connector 4 is formed in the shape of 'T' to one side of the upper portion of the body 2 and one side is integrally connected with the body 2 so as to penetrate through the remaining both sides and the first space 23. Electrolyte replenishment cap 1 consisting of; An electrolyte tank 5 filled with electrolyte to be replenished therein; Battery electrolyte automatic replenishment structure, characterized in that consisting of a supply pipe (6) interconnecting the electrolyte tank (5) and the adjacent supply pipe connector (4). 2. The automatic battery electrolyte replenishment structure according to claim 1, wherein the elevating shaft (3) is made of a material having a color different from the color of the body (2) and clearly visible in contrast to brightness and saturation.

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