KR20200045791A - Acid-resistant polyurethane rolled pads for preventing the life of lead-acid batteries - Google Patents

Abstract

The present invention relates to an acid-resistant polyurethane rolled pad for preventing reduction of life of a lead-acid battery, and more specifically, to an acid-resistant polyurethane rolled pad for maintaining uniform quality and preventing reduction of life of a lead-acid battery, which is suggested to solve a problem that life of a lead-acid battery is shortened, and which provides an effect of preventing life reduction of a product due to hot-weather damage and cold-weather damage and a buffer effect during external impact when a product is released and a battery is mounted to an engine room, by applying the acid-resistant polyurethane rolled pad to an inner wall of a rolled cell of a lead-acid battery. To this end, rigid polyurethane foam having a plurality of close cells is manufactured, and an acid-resistant water repellent treatment is applied to the surface of the rigid polyurethane foam so as to provide an effect of preventing life reduction of a product due to hot-weather damage and cold-weather damage and a buffer effect during external impact, thereby implementing optimal performance as maintaining uniform quality. The present invention provides an effect of improving life of a lead-acid battery and OCV life by attaching a rigid polyurethane (close cell type) pad which is surface-treated with acid-resistance to an inner wall of a rolled cell of a battery in order to reduce the reduction speed of life of the lead-acid battery. Also, by forming an acid-resistant coating layer on the surface of the polyurethane pad, an acid-resistant polyurethane pad with strong acid-resistance is provided.

Description

Acid-resistant polyurethane rolled pads for preventing the life of lead-acid batteries}

The present invention relates to an acid-resistant polyurethane precursor pad for preventing a reduction in lead-acid battery life, and more specifically, to solve the problem of shortening the life of a lead-acid battery, by applying an acid-resistant polyurethane pad to the inner wall of the lead-acid battery, It relates to acid-resistant polyurethane roll pads to maintain uniform quality and prevent lead acid battery life reduction by applying product to product life and reducing product life due to cold and cold damage and shock absorbing effect when external engine is installed.

To this end, the present invention is to produce a rigid polyurethane foam having a plurality of closed cells, by applying an acid-resistant water-repellent treatment on its surface, to prevent the reduction of product life due to heat and cold damage and to apply a buffering effect during external shock, uniform By maintaining quality, it is possible to realize optimal performance.

Generally, a lead acid battery is a device that converts chemical energy into electrical energy or converts electrical energy into chemical energy. For example, it is installed in a vehicle to start an engine or be used as a power source for an ignition device, a lighting device, and the like. The types are largely divided into lead-acid storage batteries and alkaline storage batteries.

Of these, the most widely used storage battery is a lead-acid storage battery, and the structure thereof will be described with reference to FIG. 1 as follows.

As illustrated in FIG. 1, a lead-acid storage battery for automobiles (hereinafter referred to as an automotive storage battery or storage battery, 100) includes cases 110, 120 and a case 110, including a pair of electrode terminals 122 and 124. 120) a substrate assembly 130 provided inside and including several pairs of anode plates 132 and cathode plates 134, and connecting means for connecting the pair of terminals to the anode plates 132 and cathode plates 134, respectively ).

The case 110 includes a roll 110 in which a predetermined cell 112 is provided, and a cover 120 coupled to an upper portion of the roll 110 so that the cell 112 is sealed.

At this time, a plurality of cells 112 provided inside the roll 110 is partitioned by the partition 114.

In addition, the cover 120 is formed in a shape in which the cell 112 can be sealed as described above, a pair of electrode terminals 122 and 124 thereon, that is, the positive terminal 122 and the negative terminal. 124 is provided to be exposed to the outside.

The substrate assembly 130 is installed in each cell 112 formed inside the roll 110 to generate electrical energy, and a plurality of anode plates 132 and cathode plates located between the anode plates 132 ) And the positive electrode plate 132 and the negative electrode plate 134 to prevent a short circuit between the positive electrode plate (positive plate and negative electrode plate, 132 and 134).

At this time, in the remaining space of the cell 112 where the substrate assembly 130 is installed, dilute sulfuric acid (2H2SO4), which is an electrolyte (not shown), is filled to help a chemical reaction between the positive electrode plate 132 and the negative electrode plate 134.

The connecting means 140 includes an anode strap 142 electrically connecting a plurality of anode plates 132, a cathode strap 144 electrically connecting a plurality of cathode plates 134, and the anode and cathode straps ( 132 and 134 are made of a post 146 connecting the positive and negative terminals 122 and 124.

In the case of the lead-acid battery as described above, the end of life occurs, and one of the causes of end of life is a short circuit caused by the growth of the electrode plate.

If it discharges below 9.6V, which is the end voltage of discharge, it becomes permanent lead sulfate and cannot be used.

On the other hand, the lifespan of lead acid batteries is theoretically discarded when used for 5 to 10 years or 2-3 years. Early disposal of lead-acid batteries produces insoluble lead sulfate (PbSO4) on the electrode surface, or the capacity is affected by discharge rate and ambient temperature.

When the temperature is high, the discharge capacity of the storage battery increases during discharge, and when the temperature is low, the discharge capacity decreases. If the discharge capacity decreases at low temperatures (below -20 degrees), the battery may be damaged at high temperatures (above 50 degrees).

Accordingly, there is a need for a technique capable of providing a heat preservation function and an acid-resistant precursor for maintaining the temperature range.

In the present invention, in order to solve the above-mentioned need, in order to lower the rate of decrease in the life of the lead acid battery, an acid resistant polyurethane precursor pad is attached to the inner wall of the battery precursor cell to prevent the reduction of the life and OCV life of the lead acid battery by blocking heat and cold damage. In addition, it is to propose an acid resistant polyurethane precursor pad that can realize optimum performance by maintaining a uniform quality for applying a shock absorbing effect during an external impact.

Republic of Korea Patent Publication No. 10-2007-0017693 (2007.02.13) Republic of Korea Patent Application No. 10-1997-0023237 (1997.06.05)

Therefore, the present invention has been devised to solve the conventional problems,

An object of the present invention is to maintain the uniform quality of the lead acid battery in order to lower the performance to achieve the optimum performance, the life of the lead acid battery and OCV by attaching an acid resistant polyurethane precursor pad to prevent the reduction of the lead acid battery life on the inner wall of the battery cell We want to improve life

In order to achieve the problem to be solved by the present invention, the acid-resistant polyurethane precursor pad for preventing the reduction of the lead-acid battery life according to an embodiment of the present invention,

It comprises a; hard acid-resistant polyurethane pads (100) configured to be installed for heat preservation on each side of the inner wall of the roll cell, thereby solving the problems of the present invention.

At this time, the hard acid-resistant polyurethane pad 100,

In order to achieve the technical challenges, a rigid polyurethane (close cell type) with excellent acid resistance and temperature blocking performance is applied.

In order to effectively prevent corrosion due to electrolytic solution inside the tank, acid-resistant water-repellent treatment is applied.

Acid-resistant polyurethane roll for preventing lead acid battery life reduction according to the present invention,

In order to reduce the rate of decrease in the lifespan of the lead acid battery, an acid resistant surface-treated hard polyurethane pad attached to the battery cell inner wall provides an effect of improving the lifespan and OCV life of the lead acid battery.

Further, by forming an acid resistant coating layer on the surface of the polyurethane pad, an acid resistant polyurethane pad resistant to acid resistance is provided.

1 is a perspective view showing a conventional lead acid battery.
FIG. 2 is an exemplary view in which an acid-resistant polyurethane roll for preventing lead acid battery life reduction according to an embodiment of the present invention is mounted on the inner wall of the roll cell.
3 is a surface view of a rigid polyurethane applied to an acid-resistant polyurethane roll for preventing lead acid battery life reduction according to an embodiment of the present invention.
Figure 4 is an exemplary view of the applied thickness of the acid-resistant polyurethane precursor pad for preventing lead acid battery life reduction according to an embodiment of the present invention.
5 is an exemplary view showing an acid resistant coating layer formed on the outer surface of an acid resistant polyurethane roll for preventing lead acid battery life reduction according to an embodiment of the present invention.

Acid-resistant polyurethane roll for preventing lead acid battery life reduction according to an embodiment of the present invention,

It characterized in that it comprises a; hard acid-resistant polyurethane pads (100) configured to be installed for heat preservation on each side of the inner wall of the roll cell.

At this time, the hard acid-resistant polyurethane pad 100,

It is characterized by applying a rigid polyurethane (close cell type).

At this time, the hard acid-resistant polyurethane pad 100,

It is characterized in that it forms an acid-resistant surface-treated acid-resistant coating layer 130 to provide acid resistance on the outer surface.

At this time, the acid-resistant coating layer 130,

By forming a perfluoroalkylalkyl silane deposited on the surface, acid resistance can be improved,

It is characterized in that the durability of the water-repellent surface can also be increased by removing contaminants from the substrate surface by an acid solution during the acid activation step and increasing the number of substrate surface binding sites available for reaction with the water-repellent composition.

Hereinafter, it will be described in detail through an embodiment of the acid-resistant polyurethane precursor pad for preventing the reduction of lead acid battery life according to the present invention.

FIG. 2 is an exemplary view in which an acid-resistant polyurethane roll for preventing lead acid battery life reduction according to an embodiment of the present invention is mounted on the inner wall of the roll cell.

As illustrated in FIG. 2, the polyurethane pad 100 manufactured using hard polyurethane is installed on each surface of the inner wall of the rolled cell to prevent external shock and keep warm.

That is, each of the left side, right side, front, rear, and bottom surfaces is installed, and the size is slightly larger than the size of the rolled cell, so that the rolled cell can be easily seated.

Alternatively, the polyurethane pads 100 that are in contact with each surface are firmly bound by using a separate adhesive or adhesive tape to connect each other.

3 is a surface view of a rigid polyurethane applied to an acid-resistant polyurethane roll for preventing lead acid battery life reduction according to an embodiment of the present invention.

As described above, the polyurethane pad 100 of the present invention is made of hard polyurethane with an acid-resistant coating.

Specifically, the polyurethane pad 100 is applied in the form of a closed cell type for effective temperature blocking and external shock absorbing effect,

Through this, it increases the acid resistance and buffering property, and at the same time, it provides elasticity against compression during impact, thereby preventing the reduction of lead acid battery life.

In addition, according to an additional aspect, the polyurethane pad 100,

It is characterized in that it forms an acid-resistant surface-treated acid-resistant coating layer 130 to provide acid resistance on the outer surface.

That is, as shown in FIG. 5, when the acid-resistant coating layer is formed, it is able to provide acid-resistant properties because it provides acid resistance.

Through this, it is possible to provide an improved life of the lead acid battery and an improved OCV life.

At this time, the acid-resistant coating layer 130,

By forming a perfluoroalkylalkyl silane deposited on the surface, acid resistance can be improved,

It is characterized in that the durability of the water-repellent surface can also be increased by removing contaminants from the substrate surface by an acid solution during the acid activation step and increasing the number of substrate surface binding sites available for reaction with the water-repellent composition.

The detailed deposition method is as follows,

Acid activation of the substrate is carried out by applying the acid solution to the substrate by conventional techniques such as immersion, effusion, spraying, and preferably wiping.

Although a fixed number of wipings is not required, it has been found that preferably wiping the substrate about six times provides acceptable results.

Figure 4 is an exemplary view of the applied thickness of the acid-resistant polyurethane precursor pad for preventing lead acid battery life reduction according to an embodiment of the present invention.

On the other hand, as shown in Figure 4, the acid-resistant polyurethane precursor pad for preventing the reduction of lead acid battery life is characterized in that the thickness varies depending on the height of the polyurethane pad.

That is, it is possible to provide a type A polyurethane pad having a height of 0.1 to 0.3 cm, and a type B polyurethane pad having a height of 0.3 to 0.6 cm.

Since the effect of heat preservation may vary depending on the height of the polyurethane pad, one of the types may be selected and formed on the inner wall of the rolled cell according to the place to be installed.

For example, B type is applied in a place where the temperature difference is severe, and A type is selected and installed in a place where the temperature difference is constant.

Through the above-described configuration, in order to reduce the rate of decrease in the life of the lead acid battery, a uniform quality of the lead acid battery (prevention of deformation due to external impact, life and OCV life) by attaching an acid-resistant surface-treated polyurethane pad to the inner wall of the battery cell It provides an effect that can maintain).

In addition, by forming an acid resistant coating layer on the pad, a polyurethane pad resistant to acid resistance is provided.

Those of ordinary skill in the art to which the present invention pertains to the above contents can understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, the embodiments described above are exemplified in all respects and should be understood as non-limiting.

100: polyurethane pad
130: acid-resistant coating layer

Claims (4)

In the acid resistant polyurethane precursor pad for preventing lead acid battery life reduction,
A hard acid-resistant polyurethane pad (100) configured to be installed for heat preservation on each side of the inner wall of the rolled cell; acid-resistant polyurethane precursor pad for preventing the reduction of lead acid battery life.
According to claim 1,
The polyurethane pad 100,
It is applied in the form of a hard (close cell type) for effective temperature blocking and shock absorbing effect.
The acid-resistant polyurethane precursor pad for preventing the reduction of lead-acid battery life by providing an elasticity against compression during impact by increasing the acid-resistance and buffering properties.
According to claim 2,
The polyurethane pad 100,
Acid-resistant polyurethane precursor pad for preventing the reduction of lead acid battery life, characterized in that it forms a; acid-resistant surface-treated acid-resistant coating layer 130 to provide acid resistance on the outer surface.
According to claim 3,
The acid-resistant coating layer 130,
By forming a perfluoroalkylalkyl silane deposited on the surface, acid resistance can be improved,
During the acid activation step, the acid solution removes contaminants from the substrate surface and increases the durability of the water-repellent surface by increasing the number of substrate surface binding sites available for reaction with the water-repellent composition. For acid resistant polyurethane roll pads.

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