KR0123376Y1 - Plate assembly of relay - Google Patents

Abstract

The present invention relates to the structure of the plate assembly of the relay (Relay).

In the case of manufacturing a movable plate assembly of a conventional relay, after the first injection of the terminal 2 and the mold part 6, the armature 1 and the fixing plate 3 are assembled at the bottom, and then the rivet 4 By using riveting to make the movable plate assembly which is the overall assembly.

However, if the above-described, riveting defects can often occur, there are disadvantages that a number of parts are used and the process is also increased.

The present invention has been devised to solve the above-mentioned disadvantages, and in the conventional assembly of the movable plate assembly, it is possible to eliminate the non-betting process using the rivet 4, thereby reducing defects and simplifying the work process. To be.

The terminal 2 and the mold part 6 are integrally ejected to form a primary mold part 16, and the primary mold part 16 together with the armature 1 has a protrusion 26A. It consists of integrally formed with the tea mold part 26.

Description

Movable Plate Assembly Structure of Relay

1 is related to a conventional movable plate assembly structure,

(a) is a plan view,

(b) is the right side view,

(c) is a front view,

(d) shows an external button.

2 is related to the movable plate assembly structure of the present invention,

(a) is a plan view,

(b) is the right side view,

(c) is a front view.

* Explanation of symbols for main parts of the drawings

1: Amateur 2: Terminal

6: Mould part 16: 1 Mould part

26: 2nd mold part

The present invention relates to a plate assembly moving structure of a relay.

Typically, the movable plate assembly used in the relay, the movable plate assembly is moved by the suction force generated in the coil when the power is applied, the current flow is changed by the moved contact.

This operating state cannot be checked until power is applied. Therefore, in order to check the operation state of the relay by manual operation without power supply, the button 7 should be inserted and inserted into the upper case.

The present invention relates to an improvement of the movable plate assembly structure used for the relay as described above.

1 is a schematic diagram of the structure of a conventional apparatus, (a) is a plan view, (b) is a right side view, (c) is a front view, and (d) is a schematic illustration of an external button 7.

As shown, in the configuration of a conventional assembly, the amateur 1 serves to move by the suction force of the coil, the fixing plate 3 is coupled to the groove 7A of the button 7, the rivet 4 is the mold portion (6) and the armature (1), the fixing plate (3), the terminal (2) is combined by riveting. The external button 7 is coupled to the fixed plate 3 to push the button 7 from the outside to move the movable plate assembly to check the operation state of the relay.

That is, in the prior art, when the voltage is applied to the coil, the armature 1 is moved by the suction force. At this time, the movable plate assembly is moved to change the flow of current. That is, only when a voltage is applied, the movable plate assembly moves to check the operation state of the relay. In order to check the operation of the movable plate assembly without applying the voltage, the button 7 should be combined with the fixed plate 3 to check the operation from time to time.

However, in the case of manufacturing the movable plate assembly of the conventional relay made in this way, after the first injection of the terminal 2 and the mold part 6, the armature 1 and the fixing plate 3 are assembled in the next step, and then riveted. (4) is used to make the movable plate assembly which is the whole assembly by riveting.

However, if the above-mentioned, riveting defects can often occur, there are disadvantages that a number of parts are used and the process is also increased.

In addition, it was also inconvenient to move the button 7 to the high plate 3 in order to move the movable plate assembly.

The present invention was devised to solve the above disadvantages, and in order to eliminate the riveting process using the rivet (4) during the assembly operation of the conventional movable plate assembly so as to reduce defects and simplify the work process. It is.

In addition, it is to be combined with the external button (7) to be able to actuate the movable plate assembly. Hereinafter, the configuration of the present invention with reference to the accompanying drawings as follows. Figure 2 shows the configuration of the subject innovation, (a) is a flatness, (b) is a right side view, (c) is a front view. As shown, the present invention forms the terminal 2 and the primary mold portion 16 integrally by primary injection. After the first injection, the armature 1 is subsequently supplied and the second injection is performed to form a secondary mold 26 having a protrusion structure as shown in FIG.

In this case, the structure of the secondary mold 26 is injected into a structure that can replace the function of the conventional fixing plate 3, and is not limited to the structure of the secondary mold portion 26. In other words, it may be formed to be combined with the button (7).

By way of example, a portion to be engaged with the button 7 is formed as a projection 26A as shown in part A shown in Figs. 2 (a), 2 (c) and 2 (b).

That is, the configuration to be coupled to the groove 7A of the button 7 is not limited to the same shape as the portion A of FIG. 2 (b), but various modifications are possible, but the protrusions shown in FIG. The configuration of 26A) is a particularly preferred configuration for moving in conjunction with the external button 7.

(C) of FIG. 2 shows the primary mold part 16 and the secondary mold part 26 well in a front view.

According to the teachings of the present invention as described above, by forming the structure as shown in FIG. 2 during the operation of the movable plate assembly, there is no need to use the conventional fixing plate 3 and the rivet 4, so that the riveting process It is possible to omit and also to reduce the subsequent failure rate. That is, according to the present invention, when manufacturing the movable plate assembly, there is an effect that the simplification and mass production of parts can be improved, and thus the cost can be reduced in manufacturing the product. In addition, according to the configuration of the protrusion portion 26A of the secondary mold portion 26 of the present invention, there is an effect that the operation state of the relay can be easily and accurately checked manually.

Claims (1)

In the structure of the movable plate assembly used for the relay, the terminal 2 and the mold part 6 are integrally injected to form a primary bowl part 16, and the primary mold part 16 is an amateur (1). And a secondary mold portion (26) having a projection portion (26A) together with the movable plate assembly structure of the relay.