KR102119557B1 - Apparatus for supplementing distilled water of battery - Google Patents

Abstract

The present invention relates to a battery distilled water replenishing device, to accurately inject distilled water into a battery through a gap adjustment of a nozzle part even if a difference in battery cell intervals occurs, and to quantitatively inject distilled water collectively. Battery distilled water replenishing device according to the present invention is a body portion for storing the distilled water supplied from the distilled water storage tank, a rail installed in the longitudinal direction on the lower portion of the body, a certain range along the length direction of the rail according to the difference in spacing between the plurality of battery cells It is characterized in that it includes a plurality of nozzle parts that are moved within and are inserted into a plurality of battery cells to receive distilled water from a body part and inject distilled water into the plurality of battery cells.

Description

Battery distilled water replenishing device {APPARATUS FOR SUPPLEMENTING DISTILLED WATER OF BATTERY}

The present invention relates to a battery distilled water replenishing apparatus, and more particularly, to a battery distilled water replenishing apparatus capable of accurately and easily injecting distilled water into a battery according to a difference in battery cell intervals.

In general, an electric forklift is equipped with an engine, a traveling device, a hydraulic device, and a mast that moves the fork up and down. In particular, it is a type of work vehicle that effectively stacks pallets, loads on trucks, or carries out transportation or unloading operations effectively.

The electric forklift is driven by receiving power from a battery installed therein, and a hydraulic device is operated to raise and lower a fork. Therefore, in the electric forklift, the battery performance is directly related to the performance of the forklift, so maintenance of the battery is important. In addition, the battery for the electric forklift is applied to the storage capacity is different depending on the size or work performance of the forklift. The most commonly used battery for electric forklifts has a storage capacity of approximately 48V-600AH. The battery outputs a voltage of about 48 volts by connecting 24 batteries of about 2 volts in series.

Batteries for electric forklift trucks are made by using lead as a (-) pole and lead dioxide as a (+) pole, and sulfuric acid having a specific gravity of about 1.25 as an electrolyte. When discharging such a battery, both electrodes become lead sulfate, and the mass of both poles gradually increases, and the concentration of the electrolyte, sulfuric acid, becomes increasingly dilute. When the concentration of sulfuric acid is too dilute, a material with high resistance is formed at the interface of the reactant, which shortens the life and makes filling difficult. Therefore, it is necessary to charge the distilled water at an appropriate time without completely discharging the battery.

A battery undergoes a chemical reaction in the process of being charged and used. The sulfate of the positive electrode plate is relatively easily returned to lead oxide and sulfuric acid when charged, while the sulfate of the negative electrode plate remains partially without being returned to lead and sulfuric acid even when charged. Therefore, in order to adjust the specific gravity of the electrolyte, distilled water must be provided periodically.

Depending on the type of battery, there may be some differences in battery cell spacing, and even the same battery may have a difference in battery cell spacing due to manufacturing process errors. In addition, a difference in battery cell spacing may occur due to swelling caused by an increase in the internal pressure of the gas generated by the reaction of the compound. If distilled water is injected without adjusting the spacing of the nozzles of the distilled water replenishment device according to the difference in the battery cell intervals, leakage of distilled water may occur. Accordingly, a problem occurs in that distilled water mixed with sulfuric acid corrodes parts around the battery.

In addition, there is a problem in that it is difficult for an ordinary person who is not a skilled worker to accurately inject the required amount of distilled water when injecting distilled water into each battery cell.

Registered Utility Model Publication No. 20-0481742 (2016.11.04 announcement)

An object of the present invention is to provide a battery distilled water replenishing device that can easily inject distilled water into a battery even if a difference in battery cell spacing occurs.

Another object of the present invention is to provide a battery distilled water replenishing device capable of quantitatively injecting distilled water into a plurality of battery cells.

Battery distilled water replenishing device according to the present invention comprises a body portion for storing distilled water supplied from the distilled water storage tank; A rail installed in the longitudinal direction under the body portion; A plurality of distilled water is injected into the plurality of battery cells by being supplied into the plurality of battery cells and being supplied with distilled water from the body part along the lengthwise direction of the rail according to the gap between the plurality of battery cells. It includes; a nozzle portion of.

The body portion may further include; a plurality of injection pipes respectively injecting distilled water stored in the lower portion into a plurality of nozzle portions.

The battery distilled water replenishing apparatus according to the present invention may further include a hose connecting the plurality of injection pipes and the plurality of nozzles one-to-one.

The rail is installed in the longitudinal direction under the body portion, the upper frame through which the plurality of injection pipes are coupled; It may be provided in the longitudinal direction is installed in the lower portion of the upper frame, the lower frame is formed with a sliding groove so that the plurality of nozzles can move by sliding within a certain range.

The plurality of nozzles is an inlet pipe through which the distilled water flowing out through the plurality of injection pipes is injected through the hose; Sliding plate is formed on both sides of the circumference of the water pipe to be inserted into the sliding groove to move in the longitudinal direction within a certain range; A water pipe having one end connected to the inlet pipe and moving distilled water supplied from the inlet pipe; One end is formed extending to the other end of the water pipe, the other end is inserted into the battery cell nozzle to ensure that the distilled water is discharged constant; may include.

In addition, the sliding plate is characterized in that it can be moved by sliding within the range of 2.5cm to the left and right along the longitudinal direction of the rail.

The battery distilled water replenishing device according to the present invention can be easily injected into the battery by adjusting the spacing of the nozzles even if there is a difference in battery cell spacing, because a plurality of nozzles can move within a certain range along the length of the rail. have.

In addition, the battery distilled water replenishing device according to the present invention can improve the work efficiency of the worker by quantitatively injecting distilled water into a plurality of battery cells.

1 is a block diagram of a battery distilled water replenishing system using a battery distilled water replenishing device according to a first embodiment of the present invention.
2 is a perspective view of a battery distilled water replenishing device according to a first embodiment of the present invention.
3 is a partial cross-sectional view of a battery distilled water replenishing device according to a first embodiment of the present invention.
4 is a bottom view of the rail of the battery distilled water replenishing device according to the first embodiment of the present invention.
5 is an enlarged view of a nozzle portion of a battery distilled water replenishing device according to a first embodiment of the present invention.
6 is a perspective view of a battery distilled water replenishing device according to a second embodiment of the present invention.

It should be noted that in the following description, only parts necessary for understanding the embodiments of the present invention are described, and descriptions of other parts will be omitted without detracting from the gist of the present invention.

The terms or words used in the present specification and claims described below should not be construed as being limited to ordinary or lexical meanings, and the inventor is appropriate as a concept of terms to describe his or her invention in the best way. Therefore, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention based on the principle that it can be defined accordingly. The embodiments shown in the embodiments and the drawings described herein are only preferred embodiments of the present invention, and the present invention Since it does not represent all of the technical spirit of, it should be understood that there may be various equivalents and modifications that can replace them at the time of this application.

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

1st Example

1 is a block diagram of a battery distilled water replenishing system using a battery distilled water replenishing device according to a first embodiment of the present invention.

Referring to Figure 1, the battery distilled water replenishing system according to the first embodiment is connected to the battery 90, distilled water storage tank 80 for storing distilled water, and distilled water storage tank 80 to supply the stored distilled water to the battery 90 side It comprises a battery distilled water replenishment apparatus 100 (hereinafter, distilled water replenishment apparatus).

The distilled water stored in the distilled water storage tank 80 is transferred to the distilled water replenishing device 100 through a supply hose.

The distilled water replenishing apparatus 100 injects distilled water supplied from the distilled water storage tank 80 into the battery 90.

The method of injecting distilled water from the distilled water storage tank 80 to the battery 90 may have a natural dropping method and a pumping method according to the principle.

The natural dropping method allows the distilled water storage tank 80 to be disposed at a higher position than the battery 90, so that the distilled water stored in the distilled water storage tank 80 is moved to the battery 90 through the distilled water replenishing device 100 by gravity. It is to let it flow naturally.

The pumping method is to allow the distilled water to be transferred to the battery 90 by a pressure pump installed in the distilled water storage tank 80.

Meanwhile, the configuration of the distilled water replenishing apparatus 100 will be described with reference to FIGS. 2 and 3 as follows.

2 is a perspective view of a battery distilled water replenishing device according to a first embodiment of the present invention. 3 is a partial cross-sectional view of a battery distilled water replenishing device according to a first embodiment of the present invention. 4 is a bottom view of the rail of the battery distilled water replenishing device according to the first embodiment of the present invention. 5 is an enlarged view of a nozzle portion of a battery distilled water replenishing device according to a first embodiment of the present invention.

2 to 5, the distilled water replenishing apparatus 100 according to the first embodiment of the present invention includes a body part 10, a rail 20, and a plurality of nozzle parts 50.

The body portion 10 stores distilled water supplied from the distilled water storage tank. The rail 20 is installed in the longitudinal direction at the bottom of the body portion 10. The nozzle unit 50 moves within a certain range in the length direction of the rail 20 according to the gap between the plurality of battery cells 91, and is inserted into the plurality of battery cells 91 and received from the body unit 10 Distilled water is injected into the plurality of battery cells 91.

The body portion 10 receives distilled water from the distilled water storage tank, and stores distilled water until the battery 90 is injected with distilled water.

The body portion 10 is in the form of a cuboid, and is shown as having a triangular column formed to connect a supply hose to the upper part. However, the technical spirit of the present invention is not limited thereto. The body 10 may be connected to a supply hose capable of receiving distilled water from a distilled water storage tank, and it is sufficient as long as it is a form capable of storing distilled water.

The material of the body portion 10 is preferably made of a translucent material or a transparent material so that the level of the stored distilled water can be visually recognized from the outside.

A plurality of injection pipes 12 are protruded in the vertical direction of the body portion 10 under the body portion 10.

The plurality of injection pipes 12 allow the distilled water stored in the body portion 10 to be injected into the battery 90 collectively. Therefore, it is possible to provide distilled water simultaneously to several battery cells 91 in one injection process, and quantitative injection of distilled water is possible. Accordingly, the work efficiency of the worker can be improved.

The hose 70 connects one-to-one between the plurality of injection pipes 12 and the plurality of nozzle parts 50. Since the distilled water is transferred between the injection pipe 12 and the nozzle unit 50 through the hose 70, it is possible to prevent the distilled water from being lost through the gap spaced at the lower portion of the rail 20.

The hose 70 should be able to flexibly bend according to the movement of the nozzle unit 50. Therefore, it is preferable that the hose 70 is made of a flexible material, and if it is a material that can be flexibly flexed, various modifications within a range apparent to those skilled in the art are possible.

The rail 20 includes an upper frame 21 and a lower frame 25.

The upper frame 21 and the lower frame 25 have a rectangular parallelepiped shape, but the technical spirit of the present invention is not limited thereto. Therefore, the upper frame 21 and the lower frame 25 may be formed in a prism shape such as a pentagonal column or a hexagonal column.

The upper frame 21 and the lower frame 25 are preferably made of a non-ferrous metal made of a lightweight material having a light weight or a synthetic resin material molded. When made of synthetic resin material, the upper frame 21 and the lower frame 25 are manufactured through extrusion molding or the like.

The upper frame 21 is installed at the bottom of the body portion 10 in the longitudinal direction.

The upper frame 21 is formed with openings at both ends in the longitudinal direction, and the upper surface is provided with slits having a constant width and continuous in the longitudinal direction. The plurality of injection pipes 12 formed in the body portion 10 protrude into the inner space of the upper frame 21 through slits of the upper surface.

In addition, the center of the lower surface of the upper frame 21 is opened along the longitudinal direction. The inlet pipe 51 of the nozzle unit 50 protrudes into the inner space of the upper frame 21 through the opened portion.

In addition, a hose connecting the injection pipe 12 and the inlet pipe 51 is located in the inner space of the upper frame 21.

The lower frame 25 is installed in the longitudinal direction under the upper frame 21.

In the lower frame 25, openings are formed at both ends in the longitudinal direction, and the upper surface and the lower surface are centrally opened along the longitudinal direction. The nozzle unit 50 may move along the open portion of the lower frame 25 in the longitudinal direction of the rail 20.

On the inner lower surface of the lower frame 25, a sliding groove 27 is formed along the longitudinal direction, so that the nozzle unit 50 can move by sliding left and right along the longitudinal direction of the rail 20.

Since the sliding groove 27 must be able to slide through the sliding plate 53, it should be recessed inward to fit the shape of the sliding plate 53.

The nozzle unit 50 is composed of an inlet pipe 51, a sliding plate 53, a water pipe 55 and a nozzle 57.

The inlet pipe 51 is connected to the injection pipe 12 through a hose 70 to receive distilled water discharged from the injection pipe 12.

The sliding plate 53 is located between the inlet pipe 12 and the water pipe 55. The sliding plate 53 is inserted into the sliding groove 27 so that the nozzle unit 50 can move by sliding left and right along the length direction of the rail 20.

The sliding plate 53 can be moved by sliding within the range of 2.5 cm from side to side in the longitudinal direction of the rail 20 according to the difference in the spacing of the battery cells 91.

Accordingly, since the gap of the nozzle unit 50 can be adjusted, distilled water can be easily injected into the battery 90 according to the difference in the gap between the battery cells 91.

The water pipe 55 is formed integrally with one end extending from the inflow pipe 51. Therefore, the distilled water supplied from the inlet pipe can be moved toward the nozzle 57.

One end of the nozzle 57 is formed to extend to the other end of the water pipe 55, the other end is inserted into the battery cell 91.

Referring to FIG. 5, nozzle openings 59 having a diameter of 1 mm to 3 mm are provided at the other end of the nozzle 57 inserted into the battery cell.

Therefore, when the distilled water is completely filled in the battery cell, due to the difference in diameter between one end of the nozzle 57 and the nozzle opening 59, distilled water inside the battery cell can be prevented from flowing backward.

The plurality of nozzle units 50 allow the distilled water received from the plurality of injection pipes 12 to be collectively injected into the battery 90. Therefore, distilled water can be simultaneously provided to multiple battery cells 91 in one injection process, and quantitative injection of distilled water is possible. Accordingly, the work efficiency of the worker can be improved.

2nd Example

The first embodiment injects distilled water into the battery cell while moving one distilled water replenishing device along the heat of the battery cell, but the technical spirit of the present invention is not limited thereto.

6 is a view showing a battery distilled water replenishing device according to a second embodiment of the present invention.

Referring to FIG. 6, the distilled water replenishing device 200 according to the second embodiment includes a plurality of distilled water replenishing devices of the first embodiment described above.

FIG. 6 shows that distilled water is injected into a battery 90 having three rows of battery cells 91 with three rows of distilled water replenishing devices 200. However, the technical idea of the present invention is not limited to this, and it is only necessary to inject distilled water into a battery cell having n (m≦n) heat through m distilled water replenishing devices.

Therefore, when the number (m) of distilled water replenishing devices is equal to the number (n) of rows of battery cells, distilled water can be injected into the entire battery cell through one injection process.

In addition, even when the number (m) of distilled water replenishing devices is less than the number of columns (n) of the battery cells, distilled water can be injected at a faster rate than distilled water with one distilled water replenishing device, thereby improving worker's work efficiency. Can be improved.

On the other hand, the embodiments disclosed in the specification and the drawings are merely presented as specific examples for ease of understanding, and are not intended to limit the scope of the present invention. It is obvious to those skilled in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

10: body
12: injection tube
20: rail
21: upper frame
25: lower frame
27: sliding groove
50: nozzle unit
51: inlet pipe
53: sliding plate
55: water pipe
57: nozzle
59: nozzle opening
70: hose
80: distilled water storage tank
90: battery
91: battery cell
100, 200: battery distilled water replenishing device

Claims (6)

Body portion for storing the distilled water received from the distilled water storage tank;
A rail installed in the longitudinal direction under the body portion; And
A plurality of battery cells are moved within a predetermined range along the length direction of the rail according to the difference in spacing between the plurality of battery cells, and inserted into the plurality of battery cells to receive distilled water from the body portion and inject distilled water into the plurality of battery cells The nozzle portion;
Includes; hose connecting the body portion and the plurality of nozzles, respectively,
The body portion
It includes; a plurality of injection pipes for respectively injecting the distilled water stored in the lower portion to the plurality of nozzles,
The rail
It is installed in the longitudinal direction on the lower portion of the body portion, the upper frame through which the plurality of injection pipes are coupled; And
Included in the longitudinal direction is installed in the lower portion of the upper frame, the lower frame is formed with a sliding groove so that the plurality of nozzles can slide and move within a certain range;
The hose
A battery distilled water replenishing device, characterized in that the one-to-one connection between the plurality of injection pipes and the plurality of nozzle parts is disposed inside the rail and is disposed between the upper frame and the lower frame . delete delete delete According to claim 1,
The plurality of nozzle parts
An inflow pipe through which the distilled water flowing out through the injection pipe is injected through the hose;
A water pipe having one end connected to the inlet pipe and moving distilled water supplied from the inlet pipe;
One end is formed extending to the other end of the water pipe, the other end is inserted into the battery cell nozzle to ensure constant discharge of distilled water; And
Sliding plate is formed on both sides of the circumference of the water pipe to be inserted into the sliding groove to move in the longitudinal direction within a certain range;
Battery distilled water replenishment device comprising a. The method of claim 5,
The sliding plate is a battery distilled water replenishment device, characterized in that it can be moved by sliding within 2.5cm from side to side along the length direction of the rail.

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