KR102580197B1 - water tank for lead-acid batteries with individual height adjustment - Google Patents

Abstract

The present invention relates to a chemical water tank for lead acid batteries capable of individually adjusting height. More specifically, when different types of lead acid batteries are put into the same water tank, the height varies depending on the product, so all water height conditions for each product are met. This relates to a chemical tank for lead-acid batteries capable of individually adjusting height in order to provide a water tank whose height can be adjusted individually inside the water tank in order to solve the problem that performance deviation may occur in the same product produced accordingly.
Through the present invention, when products of different heights are placed in a water tank at the same time, the desired water level of each product can be accurately adjusted and chemical conversion can be performed under uniform conditions.

Description

Water tank for lead-acid batteries with individual height adjustment}

The present invention relates to a chemical water tank for lead acid batteries capable of individually adjusting height. More specifically, when different types of lead acid batteries are put into the same water tank, the height varies depending on the product, so all water height conditions for each product are met. This relates to a chemical tank for lead-acid batteries capable of individually adjusting height to provide a water tank whose height can be individually adjusted inside the water tank in order to solve the problem that performance deviation may occur in the same product produced accordingly.

As shown in Figure 1, among lead acid battery production processes, the chemical conversion process is a process of applying electricity to electrically inactive electrode plates to make them active.

Electrical energy causes a chemical reaction to occur within the battery, and this chemical reaction causes the temperature to rise.

For this reason, chemical conversion takes place in a water tank, and the role of the water tank is cooling and maintaining temperature.

For this purpose, a water level control sensor and a temperature control sensor are attached to the water tank to maintain water level control and temperature control.

However, when using a water tank, when different types of lead acid batteries are placed in the same water tank, the height varies depending on the product, making it impossible to meet all water height conditions for each product.

For example, a type B lead acid battery can maintain the correct water level, but a type A battery cannot meet the water level because it is large, and a type C battery is so small that the cell itself is submerged in water. Problems arise.

Therefore, it is inevitable that performance differences will occur in identical products produced.

Therefore, in order to solve the problems in the existing water tank, the present invention provides a water tank that can adjust the height individually inside the water tank, so that when products of different heights are placed in the water tank at the same time, the desired water height of each product can be accurately adjusted. This makes it possible to carry out the chemical conversion process under uniform conditions.

Republic of Korea Patent Publication No. 10-2007-51040 (May 11, 2017)

The present invention was created to complement the problems described above.

The present invention seeks to provide a chemical tank for lead acid batteries capable of individually adjusting height in order to provide a water tank capable of individually adjusting height within the water tank.

In order to solve the problems described above and achieve the purpose, the present invention provides a chemical tank for lead acid batteries with individually adjustable height,

An internal space is formed, and a water tank 100 for storing water at a certain height in the internal space;

At least two lead acid battery supports 200 formed in the inner space of the water tank at a certain size and spaced apart from each other at regular intervals to seat the lead acid battery 10 on the upper surface;

At least two vertical parts 300, one side of which is coupled to the lower surface of the lead acid battery support portion, and the other side of which penetrates the lower side of the water tank and is coupled to the upper and lower means formed outside the water tank;

The lower part of the vertical part is coupled, and is operated under the control of a controller to raise or lower the lead acid battery support part 200, a vertical lowering means 400;

Each of the lead acid battery support units 200 is generated with different operating values of the up and down means according to the model of the lead acid battery 10 mounted on the upper surface, and the operating values for each of the generated up and down means are adjusted to each up and down. The problem of the present invention is solved by comprising a controller 500 that operates the upper and lower means to raise or lower each lead acid battery support portion 200 according to the model of the lead acid battery 10. I do it.

Through the above-described configuration, the present invention's chemical conversion tank for lead-acid batteries capable of individually adjusting height can provide a chemical conversion tank for lead-acid batteries capable of individually adjusting height to provide a water tank whose height is individually adjustable inside the water tank. .

Therefore, when products of different heights are placed in a water tank at the same time, the desired water height of each product can be accurately adjusted and chemical conversion can be performed under uniform conditions.

Additionally, the temperature rise that occurs during the chemical conversion process can be prevented by increasing the amount of water.

Figure 1 is a structural diagram showing a typical conventional water tank.
Figure 2 is a basic configuration diagram of a chemical tank for a lead acid battery capable of individually adjusting height according to an embodiment of the present invention.
Figure 3 is a block diagram of a controller configured in a chemical tank for a lead acid battery capable of individually adjusting height according to an embodiment of the present invention.

A chemical tank for a lead-acid battery capable of individually adjusting height according to an embodiment of the present invention,

An internal space is formed, and a water tank 100 for storing water at a certain height in the internal space;

At least two lead acid battery supports 200 formed in the inner space of the water tank at a certain size and spaced apart from each other at regular intervals to seat the lead acid battery 10 on the upper surface;

At least two vertical parts 300, one side of which is coupled to the lower surface of the lead acid battery support portion, and the other side of which penetrates the lower side of the water tank and is coupled to the upper and lower means formed outside the water tank;

The lower part of the vertical part is coupled, and is operated under the control of a controller to raise or lower the lead acid battery support part 200, a vertical lowering means 400;

Each of the lead acid battery support units 200 is generated with different operating values of the up and down means according to the model of the lead acid battery 10 mounted on the upper surface, and the operating values for each of the generated up and down means are adjusted to each up and down. It is characterized by being configured to include a controller 500 that operates the upper and lowering means to raise or lower each lead acid battery support portion 200 according to the model of the lead acid battery 10.

At this time, the controller 500,

A model information storage unit 410 containing size information for each model of a lead acid battery and operating value information for the up/down means for each model;

When obtaining information on the model of the lead-acid battery seated in each lead-acid battery support unit, the operating value information of the up-down means stored in the model information storage unit is extracted and the operating value of the up-down means configured in the corresponding lead-acid battery support unit is extracted. It is characterized by including a water level adjustment processing unit 420 that provides a signal to raise or lower the upper and lower means to adjust the water level to the same regardless of the size of each lead acid battery model.

At this time, according to an additional aspect, a watertight packing part 350 is formed in the water tank hole through which the vertical part penetrates to prevent water stored in the inner space of the water tank from leaking to the outside. .

At this time, according to the control of the controller 500,

It is characterized by maintaining the same water level for each lead acid battery model so that the performance deviation according to water level conditions can be maintained the same.

At this time, the up and down means are,

It is characterized as being a hydraulic cylinder or pneumatic cylinder.

Hereinafter, the chemical tank for a lead acid battery capable of individual height adjustment according to the present invention will be described in detail through the description of the drawings.

Figure 2 is a basic configuration diagram of a chemical tank for a lead acid battery capable of individually adjusting height according to an embodiment of the present invention.

Figure 3 is a block diagram of a controller configured in a chemical tank for a lead acid battery capable of individually adjusting height according to an embodiment of the present invention.

To be described with reference to FIGS. 2 and 3, the chemical tank for a lead-acid battery capable of individually adjusting height according to the present invention is largely comprised of a water tank 100, two or more supports for lead-acid batteries 200, a vertical portion 300, and upper and lower parts. It is comprised of a river unit 400 and a controller 500.

To be specific, the water tank 100 has an internal space, and water is stored at a certain height in the internal space.

At this time, as shown in FIG. 2, the support portion 200 for the lead acid battery is formed in the inner space of the water tank at a certain size and spaced apart at a certain interval.

Therefore, since the lead acid battery 10 is seated on the upper surface of the support portion, at least two or more support portions are formed.

In addition, one side of the vertical portion 300 is coupled to the lower surface of the lead acid battery support portion, and the other side is coupled to the upper and lowering means formed outside the water tank through the lower side of the water tank, so that when the upper and lowering means is raised or lowered. The height of the support can be adjusted by raising or lowering the lead acid battery support attached to the upper side.

Meanwhile, according to an additional aspect, a watertight packing part 350 is formed in the water tank hole through which the vertical part penetrates to prevent water stored in the water tank internal space from leaking to the outside.

That is, as shown in Figure 2, a hole is formed at the corresponding position to join the vertical portion. At this time, by constructing a watertight packing part in the corresponding water tank hole, water stored in the inner space of the water tank is prevented from leaking to the outside. It is to be done.

In addition, the raising and lowering means 400 is coupled to the lower side of the vertical portion and operates under the control of a controller to perform the function of raising or lowering the lead acid battery support portion 200.

Preferably, it is a hydraulic cylinder or a pneumatic cylinder.

For example, in the case of a hydraulic cylinder, an operation signal is obtained from the controller and operated by hydraulic pressure to rise or fall.

At this time, since the operating principle of the hydraulic cylinder is the same as that of a general hydraulic cylinder, it is obvious that those skilled in the art can fully understand the meaning even without detailed explanation.

And, according to the control of the controller 500,

It is characterized by maintaining the same water level for each lead acid battery model so that the performance deviation according to water level conditions can be maintained the same.

In order to provide the above functions, the controller 500,

Each lead-acid battery support unit 200 is generated by varying the operating values of the upper and lowering means according to the model of the lead-acid battery 10 mounted on the upper surface, and the generated operating values for each upper and lowering means are adjusted to each upper and lowering means. By operating the upper and lower means, it performs the function of raising or lowering each lead acid battery support portion 200 according to the model of the lead acid battery 10.

For example, if the standard water height is 1.6m, the operating value information of the up and down means for each model is stored. Type A is 10 BAR, type B is 12 BAR, type C is 15 BAR, etc. If the operating value information is set in advance, the up and down means are controlled based on the set operating value information.

Specifically, as shown in FIG. 3, the controller 500,

A model information storage unit 410 containing size information for each model of a lead acid battery and operating value information for the up/down means for each model;

When obtaining information on the model of the lead-acid battery seated in each lead-acid battery support unit, the operating value information of the up-down means stored in the model information storage unit is extracted and the operating value of the up-down means configured in the corresponding lead-acid battery support unit is extracted. It is characterized by including a water level adjustment processing unit 420 that provides a signal to raise or lower the upper and lower means to adjust the water level to the same regardless of the size of each lead acid battery model.

In summary, each lead acid battery is adjusted to the standard water level through the operation of the modules.

The stored information in the model information storage unit 410 will be described in detail with reference to Table 1 below.

model name size operating value Rise height (water height based on 500mm) Type A 100 5 BAR 100mm B type 100 7 BAR 150mm C type 100 10 BAR 180mm

As shown in Table 1, the model information storage unit 410 includes size information for each model of a lead acid battery and operating value information for the up/down means for each model.

Additionally, rising height information may also be included based on the reference water level.

At this time, the water level control processing unit 420 extracts the operating value information of the up and down means stored in the model information storage unit and provides an operating value signal to the up and down means configured in the corresponding lead acid battery support unit.

For example, in the case of a type A lead acid battery, information such as size information: 100 5 bar information is extracted.

Therefore, 5 bar of information is provided to the hydraulic cylinder, and 5 bar is supplied to raise the A-type lead acid battery by 100 mm.

In addition, in the case of a type B lead acid battery, information such as size information: 100 It is about extracting information.

Therefore, 7 bar of information is provided to the hydraulic cylinder, and 7 bar is supplied to raise the B type lead acid battery by 150mm.

In addition, in the case of a C type lead acid battery, information such as size information: 100 It is about extracting information.

Therefore, 10 bar of information is provided to the hydraulic cylinder, and 10 bar is supplied to raise the C type lead acid battery by 180mm.

As described above, the water level adjustment processing unit 420 raises or lowers each upper and lower means to adjust the water level to be the same regardless of the size of each lead acid battery model.

In the example, only the ascent is explained, but it can also be lowered. For example, if a type A lead-acid battery was located in the first pedestal of FIG. 2 in the past, this means that it can be lowered by removing hydraulic pressure by 2 BAR.

Meanwhile, in the present invention, through the above configuration, the temperature rise occurring in the chemical conversion process can be prevented by increasing the amount of water.

For example, when using a water tank that can adjust the height individually, as in the present invention, if the water height is set to 160 mm while raised + α mm from the bottom of the tank, it becomes 160 + α mm, and more water is added by the volume of + α mm height. This means that because water can be used, a greater cooling effect can be achieved.

Through the above-described configuration, when products of different heights are placed in a water tank at the same time, the desired water level of each product can be accurately adjusted and chemical conversion can be performed under uniform conditions.

Among the contents described above, the contents not shown in the drawings are contents that can be fully understood by a person skilled in the art based on the contents described above, and should be included in the rights of the present invention even if they are not shown in the drawings below.

Those skilled in the art to which the present invention pertains as described above will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting.

The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms derived from the meaning of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. .

100: water tank
200: Support part for lead acid battery
300: vertical part
400: Up and down means
500: Controller

Claims (5)

In a chemical tank for lead acid batteries with individually adjustable height,
An internal space is formed, and a water tank 100 for storing water at a certain height in the internal space;
At least two lead acid battery supports 200 formed in the inner space of the water tank at a certain size and spaced apart from each other at regular intervals to seat the lead acid battery 10 on the upper surface;
At least two vertical parts 300, one side of which is coupled to the lower surface of the lead acid battery support portion, and the other side of which penetrates the lower side of the water tank and is coupled to the upper and lower means formed outside the water tank;
The lower part of the vertical part is coupled, and is operated under the control of a controller to raise or lower the lead acid battery support part 200, an upper and lower means 400, which can be individually adjusted in height. Mars water tank for lead acid batteries.
According to clause 1,
Each of the lead acid battery support units 200 is generated with different operating values of the up and down means according to the model of the lead acid battery 10 mounted on the upper surface, and the operating values for each of the generated up and down means are adjusted to each up and down. An individual height characterized in that it further includes a controller 500 that operates the upper and lower means to raise or lower each lead acid battery support 200 according to the model of the lead acid battery 10. Adjustable chemical tank for lead acid batteries.
According to claim 1 or 2,
A watertight packing part 350 formed in the water tank hole through which the vertical part penetrates to prevent water stored in the water tank interior space from leaking to the outside. A lead acid battery with individual height adjustment, further comprising: Mars tank.
According to clause 2,
According to the control of the controller 500,
A chemical tank for lead-acid batteries with individual height adjustments, characterized in that the water height for each lead-acid battery model is adjusted to maintain the same performance deviation according to water height conditions.
According to clause 1,
The up and down means 400,
A chemical tank for lead acid batteries with individually adjustable height, characterized as a hydraulic cylinder or pneumatic cylinder.