KR0123880Y1 - Ptc - Google Patents

Abstract

The present invention relates to a solid-state starting device used for a model of an electric motor, a barium titanate-based static characteristic thermistor element having a constant resistance temperature coefficient, an elastic terminal elastically contacted to this element and having a plug for external connection, and The present invention relates to a static thermistor device comprising a housing for storing them and used as a unit part. Specifically, an assembly of an elastic terminal and an elastic terminal for electrically and mechanically firmly coupling a static thermistor element and a second element stored in the housing. In order to improve the workability and in particular not to damage the element when the coupling between the elastic terminal and the static thermistor element, the lower case for receiving the static thermistor element and the elastic terminal facing each other and the upper part covering the upper part of the lower case Consists of a case, the lower case is an elastic end housed Has a space in which it can be projected in a horizontal direction, and the elastic terminal is provided with a swash plate portion protruding obliquely in the rear direction of the vertical frame by punching and bending a flat plate and extending from the swash plate portion to extend through the vertical frame. The upper case coupled to the lower case is formed to press the swash plate portion of the elastic terminal.

Description

Solid state thermistor device for contactless starting

1 is an exploded perspective view showing a known contactless starting thermistor device

2 is a longitudinal sectional view showing the thermistor device of FIG.

(A) (b) (c) of FIG. 3 is an assembled state diagram illustrating a method of coupling thermistor elements according to the prior art of FIG.

(A), (b), and (c) of FIG. 4 are other conventional techniques improved from the configuration of FIG. 1, and an assembled state diagram illustrating a method of coupling thermistor elements using a jig.

5 is a cross-sectional view in an exploded state showing the configuration of a static contact thermistor device for contactless starting according to the present invention.

6 is a longitudinal cross-sectional view of the coupling state of the present invention

7 is a detailed view showing the elastic terminal of the present invention

8 is a detailed view showing an elastic terminal as another embodiment of FIG.

9 is an assembly state showing the assembly process of the present invention

* Explanation of symbols for main parts of the drawings

1,20: lower case 2: upper case

4: side wall portion 5: vertical

6: element 7, 7 ': electrode surface

10,10 ', 10a: Elastic terminal 11,11a: Vertical frame

12, 12a: swash plate portion 13: contact portion

The present invention relates to a contactless starting device used for starting a motor, and includes a barium titanate-based static characteristic thermistor element having a constant resistance temperature coefficient, an elastic terminal elastically contacted with the element and having a plug for external connection, and It relates to a static thermistor device consisting of a housing for storing them used as a unit component.

In detail, the elastic terminal for electrically and mechanically coupling the static thermistor element and the element secured in the housing and the assembly workability of the elastic terminal are improved, and in particular, when the element is coupled between the elastic terminal and the static thermistor element, It is made so as not to damage it.

BACKGROUND ART In general, a starting device in consideration of starting characteristics of an electric motor is used in industrial machines and home appliances using induction motors, and a contactless starting device using two elements has been put to practical use in accordance with the development of a near magnetic characteristic thermistor.

The static thermistor device used in the contactless starting device is widely used as a starting relay in an electric motor starting circuit. As a prior art of the static thermistor device, there is a design as shown in FIGS. 1 to 4. Korean Patent Publication No. 90-1475 is also included here.

Looking at the above-described prior art as follows.

Generally known solid-state thermistor devices for contactless starting include a lower case 20 made of heat-resistant, insulating material such as synthetic resin and the like, and insulating materials such as mica in the space of the lower case, as shown in FIGS. 1 and 2. An electrode surface 23 (23 ') formed by supporting the thermistor element 22 by using a support frame 21 formed thereon and coated with silver paste or the like as a conductive material on both sides of the thermistor element 22. A pair of elastic terminals 24, 24 'are opposed to each other and coalesced on the inner surface of the lower case, and the elastic terminals 24, 24' are electrically connected to an external connection plug P. The lower case 20 is projected out, and the lower case is covered with the upper case 25 to fix the upper and lower cases with the clamp 26. Looking at the process of assembling the thermistor element and the elastic terminal according to the prior art made in this way, an example is shown in FIG. 3, the support frame after storing the elastic terminals 24, 24 'in the lower case 20 The thermistor element 22 fitted in 21 is press-fitted between the elastic terminals (see FIG. 3 (a)) or the thermistor element 22 inserted into the support frame 21 in the lower case 20 is preferentially inserted. Afterwards, there was a process of press-fitting the elastic terminals 24 and 24 'into both spaces (see FIG. 3 (b)). In this assembling process, elastic terminals 24 and 24 'are inevitably caused to rub against the electrode surfaces 23 and 23' of the thermistor element 22, thereby damaging the electrode surface of the thermistor element. As described above, damage to the electrode surface is a problem in that, in the worst case, the electrode surface made of a conductive material such as silver paste is peeled off and the thermistor element is not electrically connected, resulting in a malfunction. However, in this assembling process, since the degree of damage of the electrode surfaces 23 and 23 'cannot be directly checked, conduction must be checked in another process, resulting in high manufacturing cost with uncertainty of confirmation. .

In order to solve the above defects, an assembly process as shown in FIG. 3 (c) has been attempted. However, after inserting the thermistor element 22 into the support frame 21, the terminals 22 and 24 'are opposed to each other. Pushing into the case 20 simultaneously also causes various problems. That is, the disadvantage of having to support the elastic terminals 24 and 24 'integrated with the external connection plug P, which is poor in stability, and a state in which a thermistor element is held between the elastic terminals and the plug which are not simple in appearance. Since it must be assembled while there is a problem that the workability is lowered and high cost is caused. It is not easy to auto assemble because it requires the number of parts and various supporting equipment to automate this assembly process.

In order to solve the above problem, a solid-state starting device such as Korean Patent Publication No. 90-1475 has been devised, as shown in FIG.

Here, the same configuration as the known art of FIG. 1 will be denoted by the same reference numeral.

It is formed at the uppermost end of the elastic terminals 24 and 24 ', and has a plurality of contact surfaces 24a and 24a' at the outermost side except for the contact surfaces 24a and 24a 'which are in contact with the electrode surfaces 23 and 23'. ), Connecting portions 24b and 24b 'are respectively formed to form gaps A for inserting the beak-shaped jig G between the elastic terminals. Figure 4 is a view showing the process of coupling the thermistor element by the prior art as shown in Fig. 4 is an excerpt of the working state of the jig (G) and the planar state of the elastic terminal and jig used with the progress of the process It was. That is, the tip of the beak-shaped jig G that is narrower than the gap A between the connecting portions 24b and 24b 'of the first and second elastic terminals 24 and 24' is inserted (FIG. 4 (a)). Then, the jig G is extended to the outside, the elastic terminals 24 and 24 'are compressed to widen the gap, and then thermistor elements 22 are inserted at the widened intervals. (b)) When the insertion is completed, narrowing the beak-shaped jig G extended outwards to the inside, the contact surfaces 24a and 24a 'of the opposing elastic terminals 24 and 24' are thermistors. Connection portions 24b and 24b 'of the elastic terminals 24 and 24' which are in contact with the electrode surfaces 23 and 23 'of the element 22 and are then coalesced with the respective electrode surfaces 23 and 23'. The tip of the beak-shaped jig G inserted between the two ends is in a state of maintaining the gap a with the electrode surfaces 23 and 23 ', so that the jig G does not cause friction to the electrode surfaces 23 and 23'. ) Is possible to escape. As a result, there is an advantage of using the jig G for expanding the elastic terminals 24 and 24 'to the outside to be bonded to the electrode surface of the thermistor element 22 without damage, but a separate assembly jig G is required. It takes a lot of assembly work time, the workability and productivity is lowered and eventually has a disadvantage of causing a high manufacturing cost, which is also a very difficult structure for assembly automation.

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

The present invention provides a contactless starting thermistor device for improving the elastic terminal electrically and mechanically connected to the thermistor element so as not to damage the electrode surface of the thermistor element.

The present invention is to provide a contactless thermistor device for a simple contactless structure that is connected to the thermistor element while the elastic terminal is deformed to generate an elastic force by inserting the elastic terminal and thermistor element into the lower case and covering the upper case. .

The present invention is to provide a solid-state thermistor device for contactless starting, which is easy to assemble and has a small number of parts, by allowing the elastic terminal and thermistor element to be accurately connected in the assembly process of the upper and lower cases.

The present invention to achieve the above object consists of a lower case for receiving the static thermistor element and the elastic terminal facing the upper case and the upper case to cover the upper portion, the lower case can be retracted in the horizontal direction the elastic terminal is received The elastic terminal has a swash plate portion protruding obliquely in the rear direction of the vertical frame by punching and bending a plate, and forms a contact portion extended from the swash plate portion to penetrate the vertical frame, and is coupled to the lower case. The upper case is to be formed so as to press the swash plate portion of the elastic terminal.

Hereinafter, with reference to the accompanying drawings will be described in detail the technical configuration of the present invention.

5 to 7, the external connection is made up of a static thermistor element, an insulating and heat resistant lower case accommodating elastic terminals respectively provided on the electrode face of the element, and an upper case covering the lower case. In the solid-state starting device having a plug for use, the elastic terminals 10, 10 'to be stored in the lower case (1) is a swash plate portion protruded obliquely in the rear direction of the vertical frame 11 by punching a flat plate ( 12 is provided and a plurality of contact portions 13 extending from the upper and lower portions of the swash plate portion 12 are formed by bending in a state penetrating the vertical frame 11,

A lower case 1 including a space 3 in which the elastic terminals 10 and 10 'are erected and mounted thereon, and in which the swash plate portion 12 of the elastic terminals 10 and 10' is mounted, and the lower case ( 1, which is covered on the upper part and inserted into the space 3 in the lower case side wall part 4 to form the vertical section 5 to press the swash plate part 12 of the elastic terminals 10 and 10 '. The elastic terminals 10 and 10 'are pressurized to the electrode surfaces 7 and 7' of the static thermistor element 6 inserted into the lower case 1 by forming a case 2.

On the other hand, the elastic terminal of the present invention can be variously implemented if the contact portion of the structure to connect and secure the thermistor element based on the pressure in the rear direction, look at the modified embodiment as shown in FIG. Punch plate bending to form a swash plate portion 12a protruding obliquely in the rear direction of the vertical frame 11a, and the first bent portion 14 and the first contact portion 15 continuous from the swash plate portion 12a. And the second bent portion 16 and the second contact portion 17 in a plurality.

As the reference numeral 18 denotes an extension between the elastic terminals 10, 10 'integrally connected to the external connection plug (P), 8, 8' support frame for supporting the thermistor element (6) 9, 9 'shows a through hole for riveting, and 19 shows a protrusion for supporting the vertical frame 11, respectively. Looking at the effect of the present invention as described above in more detail as follows.

First, let's look at the assembly process. As shown in FIG. 9, the elastic terminals 10 and 10 ′ are inserted into the lower case 1 in which the present invention is implemented such that the contact portions 13 face each other, and are inserted into the support frame 6 ′ therebetween. The inserted thermistor element 6 is inserted downward.

At this time, the elastic terminals 10 and 10 'facing the electrode surfaces 7 and 7' of the thermistor element 6 will not be in contact.

Then, the upper case 2 is covered so that the vertical space 5 of the upper case 2 is recessed by the space 3 between the side wall surface 4 of the lower case 1 and the elastic terminals 10 and 10 '. When covered, the vertical rod 5 presses the swash plate portion 12 of the elastic terminals 10 and 10 ', thereby causing the swash plate portion 12 to be pushed inward and being addressed to the swash plate portion 12. The contact portion 13 is brought into close contact without causing damage to the electrode surfaces 7 and 7 'of the thermistor element 6.

As a result, the vertical pressing force applied to the swash plate portion causes the swash plate portion to move horizontally, and thus the contact portion integrated with the swash plate portion moves horizontally to make contact with the electrode surface of the thermistor element.

Thus, when the insertion of the upper case 2 is completed, the upper and lower cases may be fixed to each other by appropriate means (riveting, clipping, etc.).

As a result, it is extremely easy to assemble and produce without damaging the electrode surface without using any additional equipment.

In addition, in the case of the elastic terminal of the present invention can be variously modified bar, in the case of the elastic end shown in Figure 8 the effect is the same, the detailed description thereof will be omitted.

According to the present invention as described in detail above, there is no damage to the electrode surface in the electrical and mechanical fixing process of the thermistor element, thus the product reliability is high and this assembly process is satisfied by simply covering the upper and lower cases. Therefore, because it does not use a separate assembly process and an auxiliary jig, the productivity can be maximized and it is a very excellent design having various effects such as very easy to automate assembly.

Finally, the elastic terminal of the present invention is easy to be attributed to the embodiment category of the present invention if all the structure to maintain the contact point by horizontally interlocking the swash plate portion by pressing and bending the integrated flat plate by horizontal movement It also belongs to the claims technical idea of this article.

Claims (3)

A contactless starting device having an insulating heat-resistant lower case housing an elastic terminal installed opposite to an electrode surface of a device and an electrode surface of the device and an upper case covering the lower case, the contactless starting device having a plug for external connection. The elastic terminal inserted opposite to the device is moved horizontally by the pressing force acting in the rear direction so that the contact part is connected to the electrode surface of the thermistor element, but the pressing force acting on the rear surface of the coal bullet is perpendicular to the upper case. A solid-state thermistor device for contactless starting, characterized in that it is made so as to be in between. The elastic terminals 10 and 10 'stored in the lower case 1 are provided with a swash plate portion 12 protruding obliquely in the rear direction of the vertical frame 11 by punching and bending a flat plate. The contact portion 13 formed in the upper and lower portions of the upper and lower portions of the contact portion 13 is formed to be bent in a state penetrating the vertical frame 11, and the elastic terminals 10 and 10 'are erected to be installed to store the elastic terminals 10. A lower case 1 including a space 3 in which the swash plate portion 12 of the 10 'is recessed, and a space 30 in the lower case side wall portion 4, which is covered by an upper portion of the lower case 1; A static thermistor element inserted into the lower case 1 by forming an upper case 2 having a vertical gap 5 formed therein so as to press the swash plate portion 12 of the elastic terminals 10 and 10 '; A contactless starting static characteristic thermistor device, characterized in that the elastic terminals (10) (10 ') are pressurized to the electrode faces (7) (7') of (6). The first bent portion 14 according to claim 1 or 2, wherein the plate is punched and bent to form a swash plate portion 12a protruding obliquely in the rear direction of the vertical frame 11a, and the first bent portion 14 continuous from the swash plate portion 12a. And a first contact portion (15), a second bent portion (16) and a second contact portion (17) to form a plurality of elastic terminals (10a), characterized in that the contactless starting thermistor device.