KR102617640B1 - Method for improving vibration resistance by bonding between lugs and straps of lead-acid batteries using hot melt spraying parts - Google Patents

Abstract

The present invention relates to a method of improving vibration resistance by bonding between the lug and strap of a lead acid battery using a hot melt injection unit, and more specifically, to improve the phenomenon of lug cutting and falling out that occurs between the lug and strap of a group of electrode plates. Bonding between the lug and strap of a lead-acid battery using a hot melt sprayer to secure the straps inside the cell by placing the hot melt sprayer between the straps, and to improve vibration resistance by spraying hot melt on the area where the strap and the lug are connected. It relates to a method of improving vibration resistance according to .

Description

Method for improving vibration resistance by bonding between lugs and straps of lead-acid batteries using hot melt spraying parts}

The present invention relates to a method of improving vibration resistance by bonding between the lug and strap of a lead acid battery using a hot melt injection unit, and more specifically, to improve the phenomenon of lug cutting and falling out that occurs between the lug and strap of a group of electrode plates. Bonding between the lug and strap of a lead-acid battery using a hot melt sprayer to secure the straps inside the cell by placing the hot melt sprayer between the straps, and to improve vibration resistance by spraying hot melt on the area where the strap and the lug are connected. It relates to a method of improving vibration resistance according to .

In general, a lead acid battery is a device that converts chemical energy into electrical energy or electrical energy into chemical energy. For example, it is installed in a car to start the engine or is used as a power source for ignition devices, lighting devices, etc. There are two main types: lead-acid storage battery and alkaline storage battery.

Among these, the most widely used storage battery at present is the lead acid storage battery, and its structure is as follows with reference to Figure 1.

As shown in FIG. 1, a lead-acid storage battery for automobiles (hereinafter referred to as a storage battery or storage battery for automobiles, 100) includes cases 110 and 120 including a pair of electrode terminals 122 and 124, the case 110, 120) a substrate assembly 130 provided inside and including a plurality of pairs of positive electrode plates 132 and negative electrode plates 134, and a connecting means 140 for connecting the pair of terminals to the positive electrode plate 132 and the negative electrode plate 134, respectively. ) is composed of.

The case 110 consists of a cell 110 with a predetermined cell 112 therein, and a cover 120 coupled to the top of the cell 110 to seal the cell 112.

At this time, the cells 112 provided inside the precursor 110 are divided into a plurality of cells by a partition 114.

In addition, the cover 120 is formed in a shape that allows the cell 112 to be sealed as described above, and a pair of electrode terminals 122 and 124, that is, a positive terminal 122 and a negative terminal, are provided on the cover 120. (124) is arranged to be exposed to the outside.

The substrate assembly 130 is installed in each cell 112 formed inside the precursor 110 to generate electrical energy, and includes a plurality of positive electrode plates 132 and a negative electrode plate 134 positioned between the positive electrode plates 132. ) and a separator plate 136 located between the positive and negative plates (positive and negative plates, 132 and 134) to prevent short circuit between the positive and negative plates 132 and 134.

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

The connecting means 140 includes a positive electrode strap 142 that electrically connects a plurality of positive electrode plates 132, a negative electrode strap 144 that electrically connects a plurality of negative electrode plates 134, and the positive and negative electrode straps ( It consists of a post 146 connecting the positive and negative terminals 132 and 134 with the positive and negative terminals 122 and 124.

Meanwhile, in the assembly process of a lead acid battery, the lug portion of the electrode plate is planted in molten lead alloy for a strap and goes through a joining process.

The above-described junction area can be the most important point because it serves as a passage through which electrons generated from the electrode plate pass.

However, since there is no improvement technology for the above-mentioned joint area, there is a need for improvement technology accordingly.

Republic of Korea Patent Publication No. 10-2013-0119318

Therefore, the present invention was devised to solve the above conventional problems,

The purpose of the present invention is to improve the lug cutting and missing phenomenon that occurs between the lugs and straps of a plate group by seating the hot melt spraying unit between the straps to fix the straps inside the cell, and dispersing the hot melt between the straps and the lugs. The aim is to improve vibration resistance by spraying it on the connected area.

In order to achieve the problem to be solved by the present invention, a method of improving vibration resistance by joining between the lug and strap of a lead acid battery using a hot melt sprayer according to an embodiment of the present invention is,

A hot melt injection unit insertion step (S100) of borrowing a group of electrode plates from a lead acid battery, connecting the straps of each cell, and inserting the hot melt injection unit 100 between the straps;

The hot melt is sprayed onto the upper side of the hot melt spraying unit 100 using a hot melt spraying device so that the hot melt flows along the inside of the hot melt spraying unit 100 to the area where the strap 10 and the lug 20 are in contact. A hot melt application step (S200) of applying hot melt between the strap and the rug;

By including a hot melt drying step (S300) for drying the hot melt applied between the strap and the rug for a certain period of time to increase the fixing force between the strap and the rug, the problem of the present invention is solved.

The method of improving vibration resistance by joining between the lug and strap of a lead acid battery using a hot melt sprayer according to the present invention,

In order to improve the phenomenon of lug cutting and falling out between the lugs and straps of the plate group, the hot melt spraying part is placed between the straps to fix the straps inside the cell, and the hot melt is sprayed at the area where the straps and lugs are connected. By improving vibration resistance, the adhesion between the lug and the strap is strengthened, thereby improving the problem of the electrode plate being separated from the strap and deteriorating the performance of the lead acid battery, thereby providing the effect of improving battery quality.

Figure 1 is a perspective view showing a conventional lead acid battery.
Figure 2 is a process diagram of a method for improving vibration resistance by bonding between a lug and a strap of a lead acid battery using a hot melt sprayer according to an embodiment of the present invention.
Figure 3 is an exemplary diagram showing the application position of the hot melt injection unit used in the method of improving vibration resistance by joining between the lug and strap of a lead acid battery using the hot melt injection unit according to an embodiment of the present invention.
Figure 4 is a perspective view of a hot melt injection unit used in a method of improving vibration resistance by joining between the lug and strap of a lead acid battery using a hot melt injection unit according to an embodiment of the present invention.
Figure 5 is a cross-sectional view and application example of a hot melt spraying unit used in a method of improving vibration resistance by bonding between a lug and a strap of a lead acid battery using a hot melt spraying unit according to an embodiment of the present invention.

Hereinafter, since the present invention can be modified in various ways and can have various embodiments, specific embodiments will be illustrated in the drawings and described in detail.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all transformations, equivalents, and substitutes included in the spirit and technical scope of the present invention.

These embodiments are provided to explain the present invention in more detail to those skilled in the art.

Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description, and in explaining the present invention, if it is determined that a detailed description of the related known technology may obscure the gist of the present invention, the detailed description is provided. omit.

Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms.

Terms are used only to distinguish one component from another.

The terms used in the present invention are only used to describe specific embodiments and are not intended to limit the present invention.

Singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present invention, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features. It should be understood that this does not exclude in advance the possibility of the existence or addition of elements, numbers, steps, operations, components, parts, or combinations thereof.

A method of improving vibration resistance by bonding between the lug and strap of a lead-acid battery using a hot melt sprayer according to an embodiment of the present invention,

A hot melt injection unit insertion step (S100) of borrowing a group of electrode plates from a lead acid battery, connecting the straps of each cell, and inserting the hot melt injection unit 100 between the straps;

The hot melt is sprayed onto the upper side of the hot melt spraying unit 100 using a hot melt spraying device so that the hot melt flows along the inside of the hot melt spraying unit 100 to the area where the strap 10 and the lug 20 are in contact. A hot melt application step (S200) of applying hot melt between the strap and the rug;

By including a hot melt drying step (S300) to increase the fixing force between the strap and the rug by drying the hot melt applied between the strap and the rug for a certain period of time, the lug of the lead acid battery is firmly bonded to the strap. It is characterized by preventing the lead acid battery lug from being separated from the strap.

At this time, the hot melt injection unit 100,

An upper frame (110) that has a shape of a certain size and is perforated in the middle; and

Two side frames 120 formed perpendicularly to a certain size on both sides of the lower side of the upper frame to form side surfaces; and

A lower frame 130, one side of which is connected to one of the two side frames and the other side of which is connected to the other side frame, forming the lower surface.

A central inclined partition wall portion 140 formed to be long in both directions inclined toward the frame based on the central portion inside the upper frame and forming two hot melt inlets 145;

Two vertical frames for strap contact, one side of which is connected to one of the two side frames, and the other side is connected to the other side frame, and are formed vertically so that the strap contacts the outer surface. (150); and is characterized in that it includes.

At this time, the horizontal length of the two side frames is formed to be shorter than the horizontal length of the upper frame, so that the upper frame and the side frame are formed in a 'ㅜ' shape when viewed from the side.

At this time, the two vertical frames 150 for strap contact are,

The vertical length is formed shorter than the vertical length of the two side frames 120 to form a gap 160 between the lower frame 130 and the vertical frame 150 for strap contact, and the hot melt inlet ( 145), the hot melt is allowed to flow in, and as time passes, the hot melt is allowed to flow between the strap and the rug.

At this time, the upper frame 110 is,

The upper inclined portion 170 is formed diagonally on both sides based on the central inclined partition wall 140, so that when the hot melt is introduced, the hot melt flows downward by gravity.

At this time, the hot melt injection unit 100,

It is characterized by having two hot melt inlets based on the central partition.

At this time, the hot melt injected through the hot melt spraying unit 100 is injected into the gap created when the lug and the strap are joined, and the interface between the lug and the strap does not occur, so the lead acid battery lug becomes a strap. ) is characterized by preventing the phenomenon of deviating from the.

Hereinafter, a method for improving vibration resistance by bonding between a lug and a strap of a lead-acid battery using a hot melt injection unit according to the present invention will be described in detail through examples.

Figure 2 is a process diagram of a method for improving vibration resistance by bonding between a lug and a strap of a lead acid battery using a hot melt sprayer according to an embodiment of the present invention.

As shown in Figure 2, the method of improving vibration resistance by joining between the lug and strap of a lead acid battery using the hot melt sprayer of the present invention is,

A hot melt injection unit insertion step (S100) of borrowing a group of electrode plates from a lead acid battery, connecting the straps of each cell, and inserting the hot melt injection unit 100 between the straps;

The hot melt is sprayed onto the upper side of the hot melt spraying unit 100 using a hot melt spraying device so that the hot melt flows along the inside of the hot melt spraying unit 100 to the area where the strap 10 and the lug 20 are in contact. A hot melt application step (S200) of applying hot melt between the strap and the rug;

It includes a hot melt drying step (S300) for increasing the fixing force between the strap and the rug by drying the hot melt applied between the strap and the rug for a certain period of time.

Before explaining the above process, problems with the prior art will be explained.

In the assembly process of a lead acid battery, the lug portion of the electrode plate is planted in molten lead alloy for a strap and then goes through a joining process, and the above joint area can be the most important point because it acts as a passage through which electrons generated from the electrode plate pass. there is.

However, defective products occurred during the planting process of the lug portion, resulting in defective products in which the electrode plate was not bonded to the strap and fell out. In such cases, this could lead to manufacturing loss, or if the defect was not discovered, it was shipped and the battery was damaged. This could lead to performance degradation, causing a serious blow to the reliability of the manufacturing company.

Meanwhile, in the case of large vehicles such as dump trucks and trailer vehicles, the vibration experienced by the battery is relatively greater than that of small and medium-sized vehicles due to the installation location, which results in strap shorting and the phenomenon of the lug connected to the strap being cut or removed. This may cause the life of the battery to end prematurely.

To improve this, in the present invention, a material called hot melt is sprayed on the lower and upper sides of the electrode group inside the battery to improve vibration resistance to increase fixing force.

Therefore, it is possible to eliminate the short circuit of the scrap connecting each cell inside the battery and the cutting or missing phenomenon between the lug and strap of the electrode group due to the end-of-life phenomenon caused by the vibration of the battery installed in dump trucks and trailer vehicles.

Specifically, as shown in FIG. 2, the hot melt injection unit insertion step (S100) involves connecting the straps of each cell by borrowing a group of electrode plates of a lead acid battery, and inserting the hot melt injection unit 100 between the straps. It is an insertion process.

That is, it is inserted between the straps as shown in FIG. 3 through the hot melt injection unit, which is a key component of the present invention.

Thereafter, in the hot melt application step (S200), hot melt is sprayed onto the upper side of the hot melt spraying unit 100 using a hot melt spraying device, and the hot melt is sprayed along the inside of the hot melt spraying unit 100 onto the straps 10 and lugs 20. ) is applied between the strap and the rug by allowing the hot melt to flow into the contact area.

The above-mentioned junction area serves as an important passage through which electrons generated from the electrode plate pass.

However, in large trucks, etc., the electrode plate may not be attached to the strap due to vibration and may come off, resulting in manufacturing loss, or if the defect is not discovered, it may be shipped and lead to deterioration of battery performance. There will be.

Therefore, it is intended to improve the above-mentioned problems through the present invention.

Thereafter, the hot melt drying step (S300) is a process for increasing the fixing force between the strap and the rug by drying the hot melt applied between the strap and the rug for a certain period of time.

In other words, the fixing force between the strap and the lug is increased by drying using the drying time period generally used when manufacturing lead acid batteries.

Through the above process, the lug of the lead acid battery is firmly bonded to the strap, preventing the lead acid battery lug from being separated from the strap.

Meanwhile, as shown in FIG. 4, the hot melt injection unit 100, which is the core component of the present invention, includes an upper frame 110, two side frames 120, a lower frame 130, and a central inclined partition wall ( 140) and two vertical frames 150 for strap contact.

To be specific, the upper frame 110 has a shape of a certain size and is hollow in the middle.

In other words, the upper frame forms a skeleton of a certain size.

In addition, two side frames 120 are formed perpendicularly to a certain size on both sides of the lower side of the upper frame to form the sides of the hot melt spraying unit 100.

At this time, a characteristic feature is that the horizontal length of the two side frames is shorter than the horizontal length of the upper frame, so that the upper frame and the side frame are formed in a 'ㅜ' shape when viewed from the side.

In addition, the lower surface frame 130 has one side connected to one of the two side frames, and the other side is connected to the other side frame, forming a lower surface.

In addition, the central inclined partition wall portion 140 is formed to be long in both directions inclined toward the lower frame based on the central portion inside the upper frame, thereby forming two hot melt inlets 145.

Because the area where the hot melt spraying unit 100 of the present invention is located is located between two straps, the central inclined partition wall portion is configured as above in order to spray hot melt on both sides simultaneously, and the preferred shape is shown in Figure 5. As shown, it has a '∧' shape.

Therefore, the hot melt naturally flows downward along the slope due to gravity and passes through the gap 160.

In addition, two vertical frames 150 for strap contact are formed, one side of which is connected to one of the two side frames, and the other side is connected to the other side frame, is formed.

Therefore, the strap is brought into contact with the outer surface. For example, the left strap is located in the vertical frame 150 for strap contact formed on the left side, and the right strap is located in the vertical frame 150 for strap contact formed on the right side.

Meanwhile, the two vertical frames 150 for strap contact are,

The vertical length is formed shorter than the vertical length of the two side frames 120 to form a gap 160 between the lower frame 130 and the vertical frame 150 for strap contact, and the hot melt inlet ( 145), the hot melt is allowed to flow in, and as time passes, the hot melt is allowed to flow between the strap and the rug.

As shown in Figures 4 and 5, the vertical length of the vertical frame 150 for strap contact is formed shorter than the vertical length of the side frame 120, so that the lower frame 130 and the vertical frame 150 for strap contact are formed. ) A gap 160 is formed between the two, so that the hot melt introduced through the hot melt inlet 145 flows into the gap. As time passes, the hot melt flows between the strap and the lug.

Therefore, by increasing the fixing force between the strap and the lug, it is possible to extend the lifespan.

Meanwhile, the upper frame 110 is

The upper inclined portion 170 is formed diagonally on both sides based on the central inclined partition wall 140, so that when the hot melt is introduced, the hot melt flows downward by gravity.

In other words, by forming the inclined parts based on the central inclined partition wall, when the hot melt is injected, it naturally flows downward by gravity, and prevents the phenomenon of splashing around when the hot melt is suddenly injected excessively rather than in a fixed amount. You can do it.

In the end, the hot melt injected through the hot melt injection unit 100 is injected into the gap created when the lug and the strap are combined, and the interface between the lug and the strap does not occur, so the lead acid battery lug becomes a strap. ) is characterized by preventing the phenomenon of deviating from the.

Through the present invention, in order to improve the lug cutting and missing phenomenon that occurs between the lugs and straps of the plate group, the hot melt injection part is seated between the straps to fix the straps inside the cell, and the hot melt is applied between the straps and the lugs. By improving vibration resistance by spraying on the connected area, the adhesion between the lug and the strap is strengthened, thereby improving the problem of the electrode plate coming off the strap and deteriorating the performance of the lead acid battery, thereby improving battery quality. .

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 in all respects as illustrative and not limiting.

100: Hot melt injection unit
110: upper frame
120: side frame
130: Bottom frame
140: Central inclined bulkhead
150: Vertical frame for strap contact

Claims (4)

In a method of improving vibration resistance by joining between the lug and strap of a lead acid battery using a hot melt sprayer,
A hot melt injection unit insertion step (S100) of borrowing a group of electrode plates from a lead acid battery, connecting the straps of each cell, and inserting the hot melt injection unit 100 between the straps;
The hot melt is sprayed onto the upper side of the hot melt spraying unit 100 using a hot melt spraying device so that the hot melt flows along the inside of the hot melt spraying unit 100 to the area where the strap 10 and the lug 20 are in contact. A hot melt application step (S200) of applying hot melt between the strap and the rug;
By including a hot melt drying step (S300) to increase the fixing force between the strap and the rug by drying the hot melt applied between the strap and the rug for a certain period of time, the lug of the lead acid battery is firmly bonded to the strap. It is characterized by preventing the lead acid battery lug from being separated from the strap.
The hot melt injection unit 100,
An upper frame (110) that has a shape of a certain size and is perforated in the middle; and
Two side frames 120 formed perpendicularly to a certain size on both sides of the lower side of the upper frame to form side surfaces; and
A lower frame 130, one side of which is connected to one of the two side frames and the other side of which is connected to the other side frame, forming the lower surface.
A central inclined partition wall portion 140 formed to be long in both directions inclined toward the frame based on the central portion inside the upper frame and forming two hot melt inlets 145;
Two vertical frames for strap contact, one side of which is connected to one of the two side frames, and the other side is connected to the other side frame, and are formed vertically so that the strap contacts the outer surface. Characterized by being composed of (150);
The horizontal length of the two side frames is shorter than the horizontal length of the upper frame, so that when viewed from the side, the upper frame and the side frame are formed in a 'ㅜ' shape,
The two vertical frames 150 for strap contact are,
The vertical length is formed shorter than the vertical length of the two side frames 120 to form a gap 160 between the lower frame 130 and the vertical frame 150 for strap contact, and the hot melt inlet ( 145) is characterized in that it allows the hot melt injected to flow in, and as time passes, the hot melt flows between the strap and the rug,
The upper frame 110 is,
It is characterized by forming an upper inclined portion (170) diagonally on both sides based on the central inclined partition wall portion (140) so that when hot melt is injected, the hot melt flows downward by gravity,
The hot melt injection unit 100,
It is characterized by having two hot melt inlets based on the central partition.
As the hot melt injected through the hot melt spraying unit 100 is injected into the gap created when the lug and the strap are joined, the interface between the lug and the strap is not created, so the lead acid battery lug is separated from the strap. A method of improving vibration resistance by bonding between the lug and strap of a lead-acid battery using a hot melt sprayer, which is characterized by preventing separation.
delete delete A lead-acid battery containing a lug and a strap manufactured through a method of improving vibration resistance by bonding between the lug and strap of the lead-acid battery using the hot melt injection unit of claim 1.