KR200185368Y1 - A inner structure of case for positive temperature coefficient thermistor - Google Patents

Abstract

The present invention is a heating device and a degaussing device, which is equipped with elastic terminals on both inner surfaces of both sides of a case of a static thermistor, which is an electronic component used in an electronic component housing structure, and has different sizes to contact the elastic terminals. In each case, the lower surface of the heating element having the small size of the thermistor element is supported by the protrusion formed at the lower end of the case, so that the heating element can be mounted and assembled at the correct position inside the case, thereby allowing the elastic terminal. Makes accurate contact with, prevents damage of the heating element, which may be generated from the flame and heat due to the accurate contact, and sparks generated by silver migration between electrode surfaces formed on both sides of the heating element. Breakage of the device due to leakage current caused by tracking deterioration caused by ARC generation Prevention and there is a characteristic that in the same time to improve the safety and productivity of the product provides an improved internal structure of a positive characteristics thermistor case for maximizing the reliability in use of an overall positive temperature thermistor.

Description

Internal improvement structure of case for static characteristic thermistor {A INNER STRUCTURE OF CASE FOR POSITIVE TEMPERATURE COEFFICIENT THERMISTOR}

The present invention relates to an internal improvement structure of a case for a static thermistor used in an electronic component housing structure.

In more detail, an elastic terminal is mounted on inner surfaces of both sides of a case of a static thermistor, and two thermistor elements having different sizes to contact the elastic terminals are respectively formed of a heating element and a degaussing element. By allowing the lower surface of the heating element having a small size to be supported by a protrusion formed at an inner lower end of the case, the heating element can be mounted and assembled at an accurate position inside the case to make accurate contact with the elastic terminal, Sparks generated by Ag migration between electrode surfaces formed on both sides of the heating element are prevented in advance, thereby preventing damage to the heating element that may be generated from the flame and heat due to the correct contact. To prevent damage to the device due to leakage current caused by tracking deterioration. So as to at the same time to improve the safety and productivity of the product it relates to an improved inner structure of a positive characteristics thermistor case for which to maximize the reliability in use of an overall positive temperature thermistor.

In general, the electronic component housing structure includes a constant temperature consisting of a heating element, a degassing element, which is a thermistor element having a resistance of positive temperature coefficient, an elastic terminal for electrically and mechanically coupling the element, and a case for supporting them. The characteristic thermistor is used.

The function and characteristic of the positive temperature characteristic thermistor is that the device current flows when the power is applied, and the thermistor element (heating element, degaussing element) generates heat. Is required to increase the balanced current and to prevent the increase of the balanced current. In this thermistor, the terminal is composed of a metal-elastic material that supports the device together with connecting the power supply to the device. It is desirable to have electrical conductivity and low thermal conductivity.

As shown in FIG. 1, a conventional static characteristic thermistor 1 is provided with elastic terminals 3 at both sides of the case 2-1 in a state where the case lid 2a of the static characteristic thermistor 1 is opened. 4) Insert the elastic terminals 3 and 4 so as to face each other, insert the terminal plate 7 into the inner center of the case 2-1, and then mount the terminal 4 to the inner center of the case 2-1. (3) and the heating element 8 is inserted and mounted between the front surface of the terminal plate 7, and the degaussing element 9 is inserted between the elastic terminal 4 and the rear surface of the terminal plate 7 It is done.

However, as shown in FIG. 2, the parts of the static thermistor 1 are mounted inside the case 2-1, so that the contact with the elastic terminal 3 is incomplete. Therefore, ohmic contact is not properly made between the elastic terminal 3 and the heating element 8, and sparks and heat are generated at the contact portion, and the heating element 8 is caused by the sparks and heat. There is a problem of breakage.

In addition, since the lower surface of the heating element 8 is in contact with the inner lower surface of the case 2-1, silver migration between the electrode surfaces formed on both sides of the heating element 8 is reduced. At the same time, sparks (ARC generation) are generated so that tracking deterioration occurs on the inner lower surface of the case 2-1 and the lower surface of the heating element 8, and the leakage current caused by the deterioration occurs. This causes a problem that the heating element 8 is damaged.

The above problems are caused when the heating element 8 is not mounted at the correct position inside the case 2-1.

Therefore, there is always a problem that the safety and productivity of the product as well as the discomfort and hassle of assembly to have the correct position of the heating element 8 are reduced, and the reliability of the overall static characteristic thermistor is minimized.

The present invention has been made to solve the problems of the prior art as described above has the following object.

The present invention is a heating device and a degaussing device, which is equipped with elastic terminals on both inner surfaces of both sides of a case of a static thermistor, which is an electronic component used in an electronic component housing structure, and has different sizes to contact the elastic terminals. In each case, the lower surface of the heating element having the small size of the thermistor element is supported by the protrusion formed at the lower end of the case, so that the heating element can be mounted and assembled at the correct position inside the case, thereby allowing the elastic terminal. Makes accurate contact with, prevents damage of the heating element, which may be generated from the flame and heat due to the accurate contact, and sparks generated by silver migration between electrode surfaces formed on both sides of the heating element. Breakage of the device due to leakage current caused by tracking deterioration caused by ARC generation To prevent at the same time to improve the safety and productivity of the product to provide an improved inner structure of a positive characteristics thermistor case for maximizing the reliability in use of an overall positive temperature thermistor it is an object.

1 is an exploded perspective view for explaining a conventional static characteristic thermistor configuration,

Figure 2 is a cross-sectional view showing the inside of the case of a conventional static characteristics thermistor,

Figure 3 is a cross-sectional view showing a state assembled assembled inside the case of the present invention,

4 is an enlarged reference diagram for showing the 'A' portion of FIG. 3 in detail.

<Description of the code | symbol about the principal part of drawing>

1: Static Thermistor 2-1: Case

2a: Case lid 3,4: Elastic terminal

7: terminal board 8: heating element

8a, 8b: electrode surface 9: degaussing element

10: stone section

Hereinafter, with reference to the accompanying drawings for a preferred embodiment for achieving the above object of the present invention will be described in detail.

First, Figure 3 attached shows a cross-sectional view showing the interior combined to illustrate the present invention.

That is, while the case lid 2a of the static thermistor 1 is opened, the elastic terminals 3 and 4 are inserted into both side portions of the case 2-1, and the elastic terminals 3 and 4 are inserted therein. ) Are inserted to face each other, the terminal plate 7 is inserted into the inner center of the case 2-1, and then the heating element 8 is disposed between the elastic terminal 3 and the front surface of the terminal plate 7. In which the degaussing element 9 is inserted between the elastic terminal 4 and the rear surface of the terminal plate 7,

Protruding portion 10 having a predetermined size is formed on an inner lower surface of the case 2-1 so that the lower surface of the heating element 8 is in contact with the upper end of the protruding portion 10.

Next, look at the assembly and operation of the subject innovation configured as described above.

First, in order to assemble the components included in the case 2-1 of the static characteristic thermistor 1, the elastic terminal 3 is formed at both sides of the inside of the case 2-1 with the case lid 2a open. ) And the elastic terminal 4 are inserted to face each other, and then the terminal plate 7 is inserted into the center of the case 2-1.

At this time, a heating element 8 is inserted between the elastic terminal 3 mounted on the case 2-1 and the front surface of the terminal plate 7, and the elastic terminal 4 and the terminal plate 7 are inserted into the case 2-1. The degaussing element 9 is inserted between the rear surfaces of the heating element 8, and the lower surface of the heating element 8 is in contact with the upper end of the protrusion 10 formed on the inner lower surface of the case 2-1. Covering the case lid (2a) to the upper end of the case (2-1) is the assembly of the static thermistor (1) is completed, the product is completed.

Therefore, the protrusion 10 formed on the inner bottom surface of the case 2-1 can maintain a constant distance from the bottom surface, so that the elastic terminal 3 and the heating element 8 are contacted at the correct position. Not only the desired characteristic value of the static thermistor 1 can be obtained, but also the damage of the device and the terminal and the defect of the product can be prevented in advance.

Lastly, it is to be understood that the protrusion 10 is formed on both inner side surfaces of the case 2-1 without being formed on the inner bottom surface of the case 2-1. .

As described above, the present invention includes heating elements, which are two thermistor elements having different sizes so that elastic terminals are mounted on inner surfaces of both sides of a case of a static thermistor that is an electronic component used in an electronic component housing structure, and come into contact with the elastic terminals. The degaussing element is formed, respectively, so that the lower surface of the small heating element, which is the thermistor element, is supported by the protrusion formed at the inner lower end of the case, whereby the heating element can be easily mounted and assembled in the case. It is possible to have an effect of making an accurate contact with the elastic terminal, and to prevent the damage of the heating element that can be generated from the flame and heat due to the correct contact in advance, and the effect of the heating element (8) Trekking deterioration due to sparks (ARC generation) generated by silver migration between the electrode surfaces 8a and 8b formed on both sides Has an effect of preventing the device from being damaged due to leakage current (see FIG. 4), which not only increases the safety and productivity of the product, but also maximizes the reliability of use of the overall static characteristic thermistor. It is obvious that this is a very useful design that can be collected at the same time.

Claims (1)

While the case lid 2a of the static thermistor 1 is opened, the elastic terminals 3 and 4 are inserted into both sides of the case 2-1, and the elastic terminals 3 and 4 are mutually inserted. Opposite insertion, the terminal plate 7 is inserted into the inner center of the case (2-1), and then the heating element (8) is inserted between the elastic terminal (3) and the front surface of the terminal plate (7) In which the degaussing element 9 is inserted between the elastic terminal 4 and the rear surface of the terminal plate 7. A protrusion 10 having a predetermined size is formed on the inner bottom surface of the case 2-1 so that the bottom surface of the heating element 8 is in contact with the upper end of the protrusion 10. Internal improvement structure of case for characteristic thermistor.