KR102141151B1 - Idle terminal insulating method of terminal plate for condenser and terminal plate for condenser - Google Patents

Abstract

Disclosed are an insulating method of a support terminal of a capacitor terminal board and the capacitor terminal board, wherein a head of a coupling pin that couples the support terminal to a terminal plate is first insulated entirely, and then the support terminal is coupled to the terminal plate through the insulated coupling pin, thereby improving an insulation effect of the support terminal to enhance efficiency and characteristics of a product.

Description

How to insulate the support terminal of the condenser terminal board and terminal board for condenser {IDLE TERMINAL INSULATING METHOD OF TERMINAL PLATE FOR CONDENSER AND TERMINAL PLATE FOR CONDENSER}

The present invention relates to a terminal assembly method and a capacitor of a condenser, and more specifically, to insulate the head portion of the coupling pin for coupling the support terminal to the terminal board first, and then to couple the support terminal to the terminal board through the insulated coupling pin. It relates to an insulating method of a terminal terminal for a capacitor and a terminal plate for a capacitor which improves the short circuit of the product and improves the efficiency and characteristics by improving the insulating effect of the supporting terminal.

In general, a condenser and a condenser are made of an element 1, an exterior case 2 surrounding the element, and a terminal plate 3 for closing and sealing the top of the exterior case, as shown in FIG. 1A. The terminal plate 3 is formed by having a pair of connection terminals 5.

In addition, the terminal board 3 is fixed to the PCB board 3 so that the terminal board 3 may be installed on the PCB board without flow to both sides of the connection terminal 10, and the support terminal 5 supports the terminal board 3 Is installed. Here, the support terminal (5) is placed on the support terminal (5) on the terminal plate (3) and then put the coupling pin (6) through the support terminal (5) on the bottom surface of the terminal plate, and then the end of the coupling pin (6) Is pressed in a rivet method to be integrally fixed to the terminal plate.

On the other hand, the support terminal 5 is insulated through an insulating disk 7 which is coupled to cover the bottom surface of the terminal plate as a whole to prevent (isolate) electrical contact with the element 1 because it is not a terminal that is energized. Here, as shown in Figure 1b, the insulating disk 7 is placed so that the connection terminal is placed on the terminal board, the insulating disk 7 is brought into close contact with the bottom surface of the terminal board 3, and then coupled to penetrate the connection terminal from the bottom surface of the terminal board. After pin 8 is pushed, the end of the engaging pin 8 is compressed in a rivet manner to be fixed integrally to the terminal plate. Then, as shown in FIG. 1C, the head portion 6a of the coupling pin 6 for fixing the support terminal in the insulating disk 7 is accommodated to prevent electrical contact between the support terminal 3 and the device 1. It is configured.

However, the conventional capacitor and the terminal board of the capacitor, as shown in Figure 1d, the insulating pin 7 is installed on the bottom surface of the terminal board (3) for insulation of the support terminal 5, the coupling pin for fixing the connection terminal Since only a part is fixed by (8), the insulating disk 7 is easily lifted from the terminal plate 3, and accordingly, the insulation of the support terminal may be released, and the connection state of the power supply of the capacitor may be poor. In addition, there is a problem that the function of the capacitor is weakened or the capacitor is exploded with a short circuit.

In addition, when the terminal board of the conventional capacitor is moved to a feeder that automatically supplies the terminal board to be coupled with the device, the insulating disk is supplied in an excited state from the terminal board. Not only is it not made, there is a problem that it is difficult to accurately combine with the device.

The present invention has been proposed to improve the above-mentioned problems, the purpose of which is to first insulate the entire head of the coupling pin that couples the support terminal to the terminal board, and then connect the support terminal to the terminal board through the insulated coupling pin. It is to provide an insulating method of a terminal terminal for a capacitor and a terminal plate for a capacitor to improve the efficiency and characteristics of a product by improving the insulating effect of the supporting terminal.

The above-mentioned object is a process of insulating the coupling pin by wrapping the entire head of the coupling pin through an insulating member; The upper part of the insulating member surrounding the head of the coupling pin is interposed between the head of the coupling pin and the bottom surface of the terminal board by inserting a coupling pin from the bottom surface of the terminal board so that the support terminal is raised on the upper surface of the terminal board. Process; The end of the coupling pin is pressed so that the support terminal is fixed by the head portion and the pressing portion of the coupling pin to be integrally molded, and the upper part of the insulating member surrounding the coupling pin head portion is the bottom of the coupling pin and the bottom surface of the terminal plate. It is achieved by an insulating method of the support terminal of the terminal plate for a capacitor, characterized in that it comprises a step of being fixed between.

And, the above-mentioned object is a terminal plate for a condenser having a connection terminal and a supporting terminal fixed to a PCB substrate and supporting a terminal plate, in which a coupling pin is inserted into the support terminal in a state where the supporting terminal is raised on the upper surface. Next, by compressing the end portion of the coupling pin, the support terminal is fixed by the head portion and the compression portion of the coupling pin to be integrally formed, and an insulating member surrounding the entire outer surface of the coupling pin is attached to the coupling portion. When the pin is coupled to the terminal plate, the head of the mating pin is insulated as a whole, preventing electrical contact with the device, and the upper part of the insulating member is fixed between the head of the mating pin and the bottom surface of the terminal board to separate the insulating member from the mating pin. It is achieved by a terminal plate for a capacitor, characterized in that configured to be prevented.

Insulating method of the support terminal of the terminal plate for a condenser according to the present invention and the terminal plate for a condenser, first insulate the entire head of the coupling pin that couples the support terminal to the terminal plate through an insulating member, and then insulate the coupling pin insulated through the insulating member By configuring the support terminal to be connected to the terminal board, the head portion of the coupling pin is completely insulated and the insulating member is separated from the coupling pin, thereby improving the insulating effect of the support terminal and improving the efficiency and characteristics of the product. It has the effect of improving the productivity.

Figure 1a is a view showing the structure of a conventional capacitor,
1B and 1C are views showing an insulating structure of a support terminal coupled to a terminal plate in a conventional capacitor,
Figure 1d is a view showing a problem of the insulating structure of the support terminal coupled to the terminal plate in a conventional capacitor,
2 to 4 are views sequentially showing a process for explaining the insulating method of the support terminal of the capacitor terminal plate according to the present invention,
5 to 7 are views for explaining the insulating member applied to the present invention,
8 is a view showing a capacitor with a terminal plate for a capacitor according to the present invention,
9 is a view showing another preferred embodiment of the insulating member in the present invention.

The present invention will be described in detail with reference to the accompanying drawings.

2 to 4, the insulating method of the support terminal of the terminal board for a condenser according to the present invention first wraps the head portion 11 of the coupling pin 10 through the insulating member 20 as a whole, and the coupling pin 10 Insulate. That is, the insulating method of the supporting terminal according to the present invention is not a method of coupling the PP disc plate 7 to the bottom of the terminal plate to fix the supporting terminal 5 to the terminal plate 3 as in the prior art, but the coupling pin 10 It is characterized in that it is configured to insulate the head portion 11 of the whole first, and then connect the support terminal 5 to the terminal plate 3 through the insulated coupling pin 10.

Here, as shown in Figure 5, the insulating member 20 is provided with an insulating tape, a fitting hole (21a) fitted to the coupling pin 10 is formed in the center and the head portion 11 of the coupling pin The first upper surface attachment portion (21b) and the first upper surface attachment portion (21b) which is attached to wrap the upper surface protrudes laterally from the ends of the first upper surface attachment portion (21b) while bending downward from the first upper surface attachment portion (21b). 11) It is preferable that the first insulating member 21 is composed of a pair of first bottom attachment portions 21c that are folded and attached while surrounding the bottom surface. That is, the first insulating member 21 is fitted with a fitting hole 21a of the first upper surface attachment portion on the coupling pin 10 so that the first upper surface attachment portion 21b is the upper surface of the head portion 11 of the coupling pin 10 By bending the first bottom surface attachment portion 21c downward from the first top surface attachment portion 21b in the attached state, the first bottom surface attachment portion 21c is foldably attached to the bottom surface of the head portion 11 of the coupling pin. , Through the first insulating member 21, the coupling pin is configured to be insulated by enclosing the entire head portion 11 of the coupling pin.

In addition, as shown in Figure 6, the insulating member 20 is provided with an insulating tape, the second bottom attachment portion (22a) and the second bottom attachment is attached to the bottom surface of the head portion 11 of the coupling pin Formed between the second upper surface wing attachment portion 22b and the second upper surface wing attachment portion 22b protruding from both front and rear ends of the portion 22a, the coupling pin 10 is fitted and inside. It is preferable that the second insulating member 22 is composed of a fitting slit 22d in which a round portion 22c in close contact with the outer surface of the coupling pin 10 is formed. That is, the second insulating member 22 is the second bottom surface attachment portion 22a in the state where the second bottom surface attachment portion 22a is attached to the bottom surface of the head portion 11 of the coupling pin (2). By bending the upper side 22b) so that the second upper surface wing attachment portion 22b is foldably attached to the upper surface of the head portion 11 of the coupling pin, the head portion 11 of the coupling pin through the second insulating member 22 is opened. The coupling pin is composed to be insulated as a whole.

In addition, as shown in Figure 7, the insulating member 20 is preferably composed of an insulating coating member 23 that is coated on the entire head portion 11 of the coupling pin. That is, by dipping the head portion 11 of the coupling pin 10 in a dipping bath containing an insulating coating solution, the insulating coating member 23 is coated on the head portion 11 of the coupling pin, thereby making the insulating coating member 23 It is configured to surround the head portion 11 of the coupling pin as a whole to insulate the coupling pin.

Next, in the state that the support terminal 5 is raised on the upper surface of the terminal board 3, put the coupling pin 10 on the bottom surface of the terminal board to penetrate the support terminal 5 and wrap the head portion 11 of the coupling pin The upper portion of the insulating member 20 is interposed between the head portion 11 of the coupling pin and the bottom surface of the terminal plate 3. At this time, the head portion 11 of the coupling pin in contact with the element 1 portion of the capacitor is located inside the terminal plate 3 in a completely enclosed state through the insulating member 20.

Next, by pressing the end of the coupling pin 10, the support terminal 5 is fixed by the head portion 11 and the pressing portion 12 of the coupling pin to be integrally molded, and the head portion of the coupling pin ( 11) The upper portion of the insulating member 20 surrounding the fixing pin is fixed between the head portion 11 of the coupling pin and the bottom surface of the terminal plate 3.

Looking at such a manufacturing process, the present invention first insulates the entire head portion 11 of the coupling pin for fixing the support terminal 5 to the terminal plate 3 through the insulating member 20, and then the insulated coupling pin 10 ) Characterized in that the support terminal 5 is coupled to the terminal plate 3, the head portion 11 of the coupling pin located inside the terminal plate 3 is entirely wrapped by the insulating member 20 Since contact with the device is prevented, perfect insulation of the coupling pin is achieved.

In addition, in the present invention, when the end of the coupling pin 10 is pressed to fix the support terminal 5, the upper portion of the insulating member 20 surrounding the head portion 11 of the coupling pin has a head portion 11 of the coupling pin. ) And is securely fixed between the bottom surface of the terminal plate 3, so that the insulating member 20 is prevented from being separated or dropped from the head portion 11 of the coupling pin, thereby improving the insulating effect of the support terminal and improving the efficiency and characteristics of the product. This is a feature that improves.

A terminal board for a capacitor to which an insulating method of a support terminal of the present invention is applied will be described with reference to the accompanying drawings.

First, in order to facilitate understanding, briefly explaining the structure of the capacitor to which the present invention is applied, the element 1 containing the electrolyte, the outer case 2 surrounding the element 1, and the outer case 2 It consists of a terminal plate (3) for sealing by blocking the upper portion. Here, the terminal plate 3 is provided with a connection terminal 4 and a support terminal 5 fixed to the PCB substrate to support the terminal plate 3.

The connection terminal 4 is fixed on the terminal plate 3 through a coupling pin (P). That is, in the state that the pair of connection terminals 4 are raised on the upper surface of the terminal plate 3, the coupling pins P are driven through the connection terminals 4, and then the ends of the coupling pins P are pressed and connected. The terminal 3 is fixed by the head portion and the pressing portion of the coupling pin and is integrally molded.

The support terminal 5 is inserted into the coupling pin 10 to penetrate the support terminal 5 in a state where the support terminal 5 is raised on the upper surface of the terminal plate 3, and then squeezes the end of the coupling pin 10 The support terminal 5 is fixed by the head portion and the pressing portion of the coupling pin 10 and is configured to be integrally molded.

Here, an insulating member 20 surrounding the outer surface of the coupling pin is attached to the head portion 11 as a whole. That is, the insulating member 20 surrounding the outer surface of the head portion 11 of the coupling pin as a whole, when the coupling pin 10 is coupled to the terminal plate 3, the head portion 11 of the coupling pin is insulated as a whole. (1) Electrical contact is prevented and the upper part of the insulating member 20 is fixed between the head portion 11 of the coupling pin and the bottom surface of the terminal plate 3, so that the insulating member 20 is separated from the coupling pin 10 It is configured to be prevented.

More specifically, the insulating member 20 is provided with an insulating tape, but a fitting hole 21a fitted to the coupling pin 10 is formed in the center and is attached to surround the upper surface of the head portion 11 of the coupling pin. The first upper surface attachment portion 21b and the ends of the first upper surface attachment portion 21b protrude laterally and bend downward from the first upper surface attachment portion 21b, thereby enclosing the lower surface of the head portion 11 of the coupling pin. It is preferably a first insulating member 21 composed of a pair of first bottom attachment portions 21c that are folded while being attached. That is, the first insulating member 21 is fitted with a fitting hole 21a of the first upper surface attachment portion on the coupling pin 10 so that the first upper surface attachment portion 21b is the upper surface of the head portion 11 of the coupling pin 10 By bending the first bottom surface attachment portion 21c downward from the first top surface attachment portion 21b in the attached state, the first bottom surface attachment portion 21c is foldably attached to the bottom surface of the head portion 11 of the coupling pin. , Through the first insulating member 21, the coupling pin is configured to be insulated by enclosing the entire head portion 11 of the coupling pin.

In addition, the insulating member 20 is provided with an insulating tape, the second bottom attachment portion 22a attached to the bottom surface of the head portion 11 of the coupling pin and the front end portion of the second bottom attachment portion 22a and It is formed between the second upper surface wing attachment portion 22b and the second upper surface wing attachment portion 22b protruding from both sides of the rear end portion, so that the coupling pin 10 is fitted and the outer surface of the coupling pin 10 inside. It is preferable that the second insulating member 22 is composed of a fitting slit 22d on which the round portion 22c is in close contact with. That is, the second insulating member 22 is the second bottom surface attachment portion 22a in the state where the second bottom surface attachment portion 22a is attached to the bottom surface of the head portion 11 of the coupling pin (2). By bending the upper side 22b) so that the second upper surface wing attachment portion 22b is foldably attached to the upper surface of the head portion 11 of the coupling pin, the head portion 11 of the coupling pin through the second insulating member 22 is opened. The coupling pin is composed to be insulated as a whole.

In addition, the insulating member 20 is preferably composed of an insulating coating member 23 that is entirely coated on the head portion 11 of the coupling pin. That is, by dipping the head portion 11 of the coupling pin 10 in a dipping bath containing an insulating coating solution, the insulating coating member 23 is coated on the head portion 11 of the coupling pin, thereby making the insulating coating member 23 It is configured to surround the head portion 11 of the coupling pin as a whole to insulate the coupling pin.

The terminal plate for a condenser according to the present invention configured as described above, as shown in Figure 8, the outer surface of the head portion 11 of the coupling pin fixing the support terminal 5 to the terminal plate 3, the insulating member 20 as a whole Since it is wrapped and insulated, the head portion 11 of the coupling pin is prevented from contacting with the element 1 located inside the terminal plate 3, and thus has the advantage of perfect insulation of the coupling pin.

In addition, in the terminal plate for a condenser according to the present invention, when the end portion of the coupling pin 10 is compressed to fix the support terminal 5, the upper portion of the insulating member 20 surrounding the head portion 11 of the coupling pin is coupled to the coupling pin. Since it is firmly fixed between the head portion 11 and the bottom surface of the terminal plate 3, the insulating member 20 is prevented from being separated or falling off the head portion 11 of the coupling pin, thereby improving the insulating effect of the support terminal. The advantages of improving the efficiency and characteristics of the product and the productivity during capacitor manufacturing are improved.

On the other hand, as shown in Figure 9, the adhesive layer 25 of the first insulating member or the second insulating member composed of an insulating tape is 2-acrylamino-2-methylpropanesulfonic acid (2-Acrylamido-2-Methylpropanesulfonic Acid) ) 5.5% by weight, 2.5% by weight of hexamethylenetetramine, 3.5% by weight of pyromellitic acid, 2.0% by weight of Phosphorous ester, and the rest of the amylopectin It is particularly preferred from the viewpoint of eco-friendliness.

At this time, the 2-acrylamino-2-methylpropane sulfonic acid is added to increase the adhesion of the emulsion and maintain softness. In addition, the hexamethylenetetramine (Hexamethylenetetramine) is added to enhance the binding effect during curing while enhancing antiseptic properties. In addition, the pyromeric acid (Pyromellitic acid) inhibits the heat shrinkage of the container and strengthens the slip resistance by maintaining the sticky resistance as well as the softening function of the resin to secure the tensile strength and flexural strength to strengthen it so that it is not easily broken. Is added to. In addition, the phosphorous ester (Phosphorous ester), in particular, is added to prevent crack resistance by contributing to increase the anti-erosion by the chlorine component. In addition, amylopectin is a glucan in which D-glucose is linked by α-1,4 bonds and branched by α-1,6 bonds at a ratio of about 24 per 1, while increasing the viscosity of the water-soluble acrylic emulsion while maintaining water retention and transparency. It is added to strengthen and improve weatherability and cohesiveness and adhesion.

In addition, it is preferable that the surface of the insulating member 20 is coated with a liquid composition or laminated with a film to form the surface protection layer 27. More preferably, it is good to enhance durability by coating and integrating with a liquid composition.

These liquid compositions include 2.5% by weight of Ethylene glycol, 3.5% by weight of Dichloroethanoic acid, and pyromethic acid to maintain surface protection, contamination prevention, scratch resistance, and discoloration resistance. Pyromellitic acid 3.0% by weight, methylsiliconate 5.0% by weight, polycarbonate resin 2.5% by weight, titanium oxide (Titanium Oxide) 2.5% by weight, sulfolapane (C ₆ H ₁₁ NOS ₂ ) It consists of 3.0 weight and the remaining PET resin.

At this time, the ethylene glycol (Ethylene glycol) is to increase the interaction between the PET resin and the coated surface while adjusting the viscosity. And, the dichloroethanoic acid (Dichloroethanoic acid) contributes to suppress the layer separation in the occlusal surface by eroding the coating surface to form an anchoring. In addition, the pyromeric acid (Pyromellitic acid) inhibits the heat shrinkage of the insulating tape and strengthens the slip resistance to maintain the sticky resistance, as well as the softening function of the resin to secure the tensile strength and flexural strength, so as not to break easily It is added to order. In addition, the methylsiliconate (Methylsiliconate) provides a strong water repellency while also securing an antifouling function to keep the surface smooth to prevent contamination. In addition, the polycarbonate resin is added to increase durability and enhance scratch resistance. In addition, the titanium oxide (Titanium Oxide) maintains a shielding function, and the sulfolapan (C ₆ H ₁₁ NOS ₂ ) is added to enhance resistance to discoloration by increasing resistance. And, the PET resin is added to enhance the interface bonding property while maintaining durability.

As described above, the present invention has been illustrated and described in connection with specific embodiments, but various modifications and changes are possible within the scope of the art without departing from the spirit and scope of the invention as defined by the claims. Anyone who grows up will know.

1: Element 2: External case
3: Terminal board 4: Connection terminal
5: Support terminal
10: coupling pin 20: insulating member

Claims (4)

A process of insulating the coupling pin by completely wrapping the head of the coupling pin through an insulating member;
The upper part of the insulating member surrounding the head of the coupling pin is interposed between the head of the coupling pin and the bottom surface of the terminal board by inserting a coupling pin from the bottom surface of the terminal board so that the support terminal is raised on the upper surface of the terminal board. Process;
The end of the coupling pin is crimped so that the support terminal is fixed by the head portion and the crimping portion of the coupling pin to be integrally molded, and the upper portion of the insulating member surrounding the coupling pin's head is the bottom of the coupling pin and the bottom surface of the terminal plate. It includes a process to be fixed between,
The insulating member is composed of an insulating tape, the adhesive layer of the insulating member is 2-acrylicamino-2-methylpropanesulfonic acid (2-Acrylamido-2-Methylpropanesulfonic Acid) 5.5% by weight, and hexamethylenetetramine (Hexamethylenetetramine) 2.5% by weight %, Pyromellitic acid (3.5% by weight), Phosphorous ester (Phosphorous ester) 2.0% by weight, and formed by applying an adhesive composed of the remaining amylopectin (Amylopectin),
A surface protective layer coated with a liquid composition is formed on the surface of the insulating member, wherein the liquid composition is 2.5% by weight of ethylene glycol, 3.5% by weight of dichloroethanoic acid, and pyromethic acid ( Pyromellitic acid 3.0% by weight, methylsiliconate 5.0% by weight, polycarbonate resin 2.5% by weight, titanium oxide (Titanium Oxide) 2.5% by weight, sulfolapane (C ₆ H ₁₁ NOS ₂ ) Insulation method of the support terminal of the terminal board for a condenser, characterized by consisting of 3.0% by weight and the remaining PET resin.
According to claim 1,
The insulating member includes a second bottom surface attachment portion attached to the bottom surface of the head portion of the coupling pin, and a second top surface wing attachment portion protruding from both front and rear ends of the second bottom surface attachment portion, and the second top surface. A method of insulating the support terminal of a terminal plate for a condenser, characterized in that it is a second insulating member formed of a fitting slit formed between the wing attachment portions and fitted with a coupling pin and a round portion in close contact with the outer surface of the coupling pin.
In the terminal board for a condenser having a connection terminal and is provided on the PCB substrate and a support terminal for supporting the terminal board,
In the state that the support terminal is raised on the upper surface of the terminal board, the coupling pin is driven through the support terminal, and then the end of the coupling pin is pressed to fix the support terminal by the head portion and the compression portion of the coupling pin to be integrally formed. ,
An insulating member enclosing the outer surface of the coupling pin as a whole is attached to the head portion of the coupling pin, and when the coupling pin is coupled to the terminal board, the head portion of the coupling pin is entirely insulated to prevent electrical contact with the device and the upper portion of the insulating member is coupled. It is configured to be fitted between the head of the pin and the bottom surface of the terminal plate to prevent the insulating member from being separated from the coupling pin.
The insulating member is composed of an insulating tape, the adhesive layer of the insulating member is 2-acrylicamino-2-methylpropanesulfonic acid (2-Acrylamido-2-Methylpropanesulfonic Acid) 5.5% by weight, and hexamethylenetetramine (Hexamethylenetetramine) 2.5% by weight %, Pyromellitic acid (3.5% by weight), Phosphorous ester (Phosphorous ester) 2.0% by weight, and formed by applying an adhesive composition composed of the remaining amylopectin (Amylopectin),
A surface protective layer coated with a liquid composition is formed on the surface of the insulating member, wherein the liquid composition is 2.5% by weight of ethylene glycol, 3.5% by weight of dichloroethanoic acid, and pyromethic acid ( Pyromellitic acid 3.0% by weight, methylsiliconate 5.0% by weight, polycarbonate resin 2.5% by weight, titanium oxide (Titanium Oxide) 2.5% by weight, sulfolapane (C ₆ H ₁₁ NOS ₂ ) A terminal board for a condenser, characterized by consisting of 3.0% by weight and the remaining PET resin.
According to claim 3,
The insulating member includes a second bottom surface attachment portion attached to the bottom surface of the head portion of the coupling pin, and a second top surface wing attachment portion protruding from both front and rear ends of the second bottom surface attachment portion, and the second top surface. Terminal plate for a condenser, characterized in that the second insulating member consisting of a fitting slit formed between the wing attachment portion is fitted with a coupling pin and a round portion in close contact with the outer surface of the coupling pin.

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