CN-224223771-U - Extraction tool of relay

Abstract

A taking-out tool of a relay comprises a main body, wherein the main body is provided with an operation part and a tip part, the operation part is positioned at one end of the main body and is provided with an inserting hole, the tip part is positioned at the other end of the main body and is provided with an inclined plane, and the inclined plane is positioned at one side or two sides of the main body in the thickness direction. According to the utility model, the tip is convenient to insert into the gap between the relay and the socket and the relay is ejected, so that the relay pins are uniformly stressed, damage is avoided, and the relay socket is simple in integral structure, convenient to operate and quick.

Inventors

• QIU GUILIN
• WANG SHUIQUAN

Assignees

• 厦门宏发电声股份有限公司

Dates

Publication Date

20260512

Application Date

20240425

Claims (8)

1. 1. A taking-out tool of a relay is characterized by comprising a main body which is of a flat sheet-shaped structure, wherein an operation part and a tip part are arranged on the main body, the operation part is positioned at one end of the main body, the operation part is annular and is provided with an inserting hole, the tip part is positioned at the other end of the main body and is provided with an inclined plane so as to be pushed into a gap between the relay and a socket to jack up the relay, the inclined plane is positioned at one side or two sides of the main body in the thickness direction, and the relay is continuously inserted into the gap and rotated so as to be integrally ejected out of the socket.
2. 2. A relay takeout tool according to claim 1, wherein said inclined surface extends in said main body longitudinal direction and is inclined from one side in said main body thickness direction toward the other side in the thickness direction.
3. 3. A relay takeout tool according to claim 1 wherein the thickness of said tip portion is set to gradually increase from the end in the longitudinal direction of said tip portion to the other end in the longitudinal direction of said tip portion.
4. 4. A relay takeout tool according to claim 1 wherein said insertion hole penetrates said operation portion in a thickness direction.
5. 5. A relay takeout tool according to claim 1 wherein said main body is further provided with a connecting portion connected between said operating portion and said tip portion.
6. 6. A relay extraction tool according to claim 5, wherein the end of the connecting portion at which the operating portion is located is further provided with a transition section through which the operating portion is connected.
7. 7. A relay extracting tool according to claim 6, wherein the width of the transition section is set to be gradually smaller from the end of the transition section connected to the operation section to the other end of the transition section.
8. 8. A relay takeout tool according to claim 7 wherein the dimension of said operating portion in the width direction of said main body is larger than the dimension of said connecting portion in the width direction of said main body.

Description

Extraction tool of relay Technical Field The utility model relates to the field of auxiliary tools of relays, in particular to a taking-out tool of a relay. Background Currently, the relay module is widely applied to the fields of automatic electrical control cabinets, equipment empty control loads, industrial automation and the like. The existing relay module generally comprises a relay, a socket, a PCB circuit board, a plurality of wiring terminals and the like, wherein the socket, the wiring terminals and the like are arranged on the PCB circuit board, and the relay is inserted into the socket. In practical use, when one or more relays in the relay module fail, the failed relay needs to be removed. And because the grafting cooperation between relay and the socket is very inseparable, if take off the relay that will lose efficacy by bare-handed, need control the relay and control rocking side by side, make its pin deviate from slowly, take out slower and more difficult to the pin atress is uneven, causes the damage easily. If the space of the PCB is tense, the relays can be densely arranged, gaps between adjacent relays are smaller, and the relays can not be taken out almost. Disclosure of utility model The utility model mainly aims to overcome the defect that the taking-out operation of a failed relay is difficult in the existing relay module, and provides a taking-out tool for the relay, which has the advantages of simple structure, labor saving and rapidness in operation, and can also avoid damage to the relay. The utility model adopts the following technical scheme: A taking-out tool of a relay comprises a main body, wherein the main body is provided with an operation part and a tip part, the operation part is positioned at one end of the main body and is provided with an inserting hole, the tip part is positioned at the other end of the main body and is provided with an inclined plane, and the inclined plane is positioned at one side or two sides of the main body in the thickness direction. Further, the inclined surface extends in the longitudinal direction of the main body and is inclined from one side in the thickness direction of the main body toward the other side in the thickness direction. Further, the thickness of the tip portion is set to be gradually increased from the end of the tip portion in the length direction to the other end of the tip portion in the length direction. Further, the operation portion is annular, and the insertion hole penetrates through the operation portion in the thickness direction. Further, the main body is further provided with a connection portion connected between the operation portion and the tip portion. Further, a transition section is further arranged at the end of the operation part of the connection part, and the operation part is connected through the transition section. Further, the width of the transition section is set to be gradually reduced from the end of the transition section connected with the operation part to the other end of the transition section. Further, the dimension of the operation portion in the width direction of the main body is larger than the dimension of the connection portion in the width direction of the main body. As can be seen from the above description of the present utility model, compared with the prior art, the present utility model has the following advantages: 1. According to the structure disclosed by the utility model, the main body is provided with the operation part and the tip part, the operation part and the tip part are respectively positioned at two ends of the main body, the operation part is provided with the jacks for inserting fingers, the tip part is provided with the inclined planes so as to be convenient to insert into a gap between the relay and the socket and eject the relay, the relay pins are uniformly stressed, damage is avoided, and the structure is simple in overall structure, and convenient and rapid to operate. 2. According to the structure of the utility model, one side of the inclined plane in the thickness direction of the main body is inclined towards the other side in the thickness direction, the thickness of the tip part is gradually increased from the tail end of the length direction of the tip part to the other end of the length direction of the tip part, and the structure ensures that the tip part can be smoothly inserted into a gap between the relay and the operation. 3. The structure of the utility model is provided with the connecting part which is connected between the operating part and the tip part, so that the whole length of the main body is increased, the operation is more labor-saving, and the transition section is also arranged between the connecting part and the operating part, thereby playing the role of transition connection, increasing the connection strength of the connecting part and the operating part and ensuring the structure to be more reliable. Drawings FIG. 1 is a bl