KR102532997B1 - Power supply connector using elevating pins - Google Patents

Abstract

The present invention relates to a power supply connector using a raising/lowering pin that allows power to be supplied by contacting a board by inserting a connector into a box body frame embedded with the board and enabling a power supply terminal of the connector to be raised/lowered up/down when coupled between the box body frame and the board. The power supply connector consists of: a connector member; a terminal member; a first terminal pin; a second terminal pin; a first power supply pin; a first fixing terminal pin; a first raising/lowering terminal pin; a first raising/lowering driving groove; a second power supply pin; a second fixing terminal pin; a second raising/lowering terminal pin; a second raising/lowering driving groove; an insulating member; and an hourglass-type compression tube.

Description

Power supply connector using elevating pins}

The present invention relates to a power supply connector using an elevating pin, and more particularly, when the power connector is inserted into an enclosure containing a power board, and when the power connector and the power board are coupled, the power connector terminal is moved up and down. It relates to a power supply connector using an elevating pin that is coupled to a power board terminal so that power can be stably supplied.

Rapid changes in the environment using computer systems have made computer hardware continuously improved, leading to multifunctionalization of computer systems. Therefore, the structural design of the computer system should be designed considering the convenience of users as well as the convenience of production.

With the rapid development of the 2nd/3rd/4th/5th/6th generations of mobile communication equipment, parts used in mobile communication systems are also changing toward integration/miniaturization/simplification.

Therefore, part design should be designed considering operator convenience.

Currently, in order to supply power from the outside to the board side, power is supplied through a contact connection between the board and a power connector that meets the standard.

Current power supply of mobile communication equipment supplies power from an external rectifier to a power board through a power connector.

However, if the specifications of the board and the case where the power connector is coupled are different, the connector for supplying power has a problem in that the case enclosure must be discarded because the specifications do not match when the terminal is in contact with the board, resulting in a gap tolerance.

At this time, when the dimensions of the enclosure fixing the power connector and the power board are different, a gap tolerance occurs when the power connector and the power board are coupled.

If there is a gap between the terminal of the power board assembled in the enclosure and the terminal of the power connector, assembly between the power connector and the board is impossible, or the board is bent, resulting in deterioration of board characteristics or damage to parts. In this case, sparks are generated due to contact instability, which may cause a fire.

Therefore, a power connector having a variable terminal capable of changing the power connector terminal is required so that the power connector terminal and the power board terminal can completely contact each other.

Korean Patent Publication No. 10-1999-0049412

In the present invention, the power connector is inserted into an enclosure containing the power board, and when the power connector and the power board are coupled, the power connector terminal is raised and lowered so that the power connector terminal is combined with the power board terminal so that power can be stably supplied. aims to do

The present invention is a power supply connector using a lifting pin that allows power to be supplied by lifting and lowering the power supply terminal, wherein the power supply connector is formed of a square flange so that it can be fixed to the enclosure and can be combined with the power plug A terminal member formed on one side of the connector member so that the first and second lifting terminal pins are buried so as to be in contact with terminals formed on the board, and power is supplied from the power plug. A first terminal pin formed on one side inside the connector member to receive power and supply power to the power board, a second terminal pin formed on the other side inside the connector member to receive power from the power plug and supply power to the power board, A first power supply pin having one side connected to the first terminal pin and the other side connected to the bottom of the first fixed terminal pin formed inside the terminal member so that the current supplied through the terminal pin moves to the first fixed terminal pin side; , It serves as a guide for the first elevating terminal pin when the first elevating terminal pin moves up and down, and is formed to be fixed to the upper side of the first power supply pin to supply the current supplied from the first power supply pin to the first elevating terminal pin. When the bolt is inserted into the first fixed terminal pin and the first lifting and lowering drive groove formed at the top, the bolt is inserted and pushed to the first fixed terminal pin, so that it rises and falls along the first fixed terminal pin. The first lifting terminal pin inserted into the first fixed terminal pin to be in close contact with the terminal of the board, and formed on the upper surface of the first lifting terminal pin to lift and lower the first lifting terminal pin when a bolt is inserted and rotated. The lower part of the second fixed terminal pin having one side connected to the second terminal pin and the other side formed inside the terminal member so that the current supplied through the first lifting and lowering driving groove and the second terminal pin is moved to the second fixed terminal pin side. The second power supply pin connected to and serves as a guide for the second lift terminal pin when the second lift terminal pin is raised and lowered, and supplies the current supplied from the second power supply pin to the second lift terminal pin. When a bolt is inserted into the second fixed terminal pin fixed to the upper side of the second power supply pin and the second lifting and lowering driving groove formed at the upper side to rotate, the second fixed terminal pin is inserted and pushed to secure the second fixed terminal pin. It goes up and down along the terminal pin, and when it goes up, the second up and down terminal pin inserted into the second fixed terminal pin so that it comes into close contact with the terminal of the board, and a bolt is inserted to move the second up and down terminal pin when it is rotated. For this purpose, the second lifting driving groove formed on the upper surface of the second lifting terminal pin, an insulating member formed for insulation between the first power supply pin and the second power supply pin, and the first lifting terminal pin and the first fixing The terminal pins are brought into close contact with each other so that the first lifting terminal pin, which is moved up and down by the drive bolt coupled to the first lifting drive groove, smoothly moves up and down based on the first fixed terminal pin, and the second lift The terminal pin and the second fixed terminal pin are brought into close contact with each other so that the second lifting terminal pin, which is moved up and down by the drive bolt coupled to the second lifting and lowering driving groove, smoothly moves up and down based on the second fixed terminal pin. It is characterized in that it consists of a long-shaped compression tube coupled between the first elevating terminal pin and the first fixed terminal pin and between the second elevating terminal pin and the second fixed terminal pin.

In another embodiment, the power supply connector further includes a non-contact detection unit for preventing fire by detecting heat generated when the first elevating terminal pin and the second elevating terminal pin do not contact or contact the board, , The non-contact sensing unit is a heat sensor formed on one side of the connector member to detect that heat is generated by overcurrent when the first lifting terminal pin and the second lifting terminal pin contact terminals formed on the board; A current detection sensor formed on the upper and lower parts of the terminal member to detect whether power supply is smooth by detecting the flow of current provided to the terminal formed on the board through the first rising terminal pin and the second rising terminal pin; A status transceiver formed on one side of the connector member so that the status information sensed by the thermal sensor and the current sensor is transmitted to the user terminal and the PC monitor at a set time or in real time, and a user terminal for receiving status information from the status transceiver, It is characterized in that it includes a PC monitor for receiving status information from the status transceiver through a screen.

As described above, by raising and lowering the power supply terminal, the gap tolerance generated between the housing frame and the board is eliminated, thereby providing an effect of stably supplying power to the power board.

In addition, it provides an effect of reducing test costs due to reduction of assembly time and test time in the mass production process.

Figures 1a, 1b, 1c is a diagram of a power supply connector using the lifting pin of the present invention.
FIG. 2 is a diagram showing another embodiment of FIGS. 1a, 1b, and 1c.
Figure 3 is an operating state diagram for Figure 1.
4 is a view showing a terminal buffering unit, which is another embodiment of the present invention.
FIG. 5 is a detailed view of FIG. 4 .
6 is a view showing a non-contact sensing unit according to another embodiment of the present invention.
FIG. 7 is a block diagram of FIG. 6 .
8 is a view showing a terminal extension unit that is another embodiment of the present invention.
9 is a detailed view of FIG. 8 .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The detailed description of the present invention which follows refers to the accompanying drawings which illustrate, by way of illustration, specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable one skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different from each other but are not necessarily mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in another embodiment without departing from the spirit and scope of the invention in connection with one embodiment. Additionally, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. Accordingly, the detailed description set forth below is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all equivalents as claimed by those claims. Like reference numbers in the drawings indicate the same or similar function throughout the various aspects.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1a, 1b and 1c are diagrams of a power supply connector using the lifting and lowering pins of the present invention, FIG. 2 is a view showing another embodiment of FIGS. 1a, 1b and 1c, and FIG. 3 is a view of FIG. 1 It is also a working state.

As shown in the drawing, the power supply connector 100 is characterized in that power can be supplied by raising and lowering the power supply terminal.

The power supply connector 100 includes a connector member 110, a terminal member 111, a first terminal pin 112, a second terminal pin 113, a first power supply pin 114, and a first fixed terminal pin. (115), first lift terminal pin 116, first lift drive groove 117, second power supply pin 118, second fixed terminal pin 119, second lift terminal pin 120 , It is characterized in that it consists of a second lifting and lowering drive groove 121, an insulating member 122, and a long-shaped compression pipe 123.

The purpose of the present invention is to develop a variable power connector that enables fine adjustment in the height direction by applying a first elevating terminal pin and a second elevating terminal pin to a power supply terminal so that the terminal can be moved up and down. do.

In order to stably supply power to the radio station power board, the present invention applies the first lift terminal pin and the second lift terminal pin to the first fixed terminal pin and the second fixed terminal pin of the power connector so that the terminals are moved in the height direction. A variable structure was applied.

In order to strengthen the contact between the first fixed terminal pin and the second fixed terminal pin, a long-shaped compression tube, which is a sleeve having a long-shaped elastic force, is applied to the first rising and falling terminal pin and the second rising and falling terminal pin. do.

The long-shaped compression pipe will be described again below.

When the first up/down terminal pin and the second up/down terminal pin rise and fall based on the first fixed terminal pin and the second fixed terminal pin, if the contact is unstable, the current specification cannot be satisfied and sparks may occur, Since a fire may occur, it is very important to maintain contact between the fixed terminal pin and the lifting terminal pin.

Therefore, the present invention is a structure that can be raised and lowered while maintaining contact with the first and second fixed terminal pins by applying the first and second fixed terminal pins and the first and second lifting terminal pins of the power connector, In order to strengthen the contact between the 1st and 2nd fixed terminal pins and the 1st and 2nd ascending terminal pins, it is designed by applying a long-shaped compression tube, which is a sleeve having a long-term elastic force, to the first and second ascending terminal pins. It is characterized by being the core of

The connector member 110 is formed to be attached to the enclosure frame, and one side of the connector member 110 is formed as a rectangular member to be coupled to a power plug.

The terminal member 111 is formed so that the first elevating terminal pin 116 and the second elevating terminal pin 120 are buried so as to come into contact with terminals formed on the board, and the terminal member 111 Characterized in that it is formed on one side of the connector member 110.

The first terminal pin 112 is formed to supply power when a power supply cable is inserted, and the first terminal pin 112 is formed on one side of the inside of the connector member 110.

The second terminal pin 113 is formed to supply power when the power supply cable is inserted, and the second terminal pin 113 is formed on the other side inside the connector member 110.

The first power supply pin 114 is formed so that current supplied through the first terminal pin 112 moves toward the first fixed terminal pin 115, and one side of the first power supply pin 114 is It is connected to the first terminal pin 112, and the other side is characterized in that it is connected to the bottom of the first fixed terminal pin 115 formed inside the terminal member 111.

The first fixed terminal pin 115 serves as a guide for the first lift terminal pin 116 when the first lift terminal pin 116 moves up and down, and receives current supplied from the first power supply pin 114. It is formed to be supplied to the first elevating terminal pin 116, and the first fixed terminal pin 115 is characterized in that it is fixedly formed to the upper side of the first power supply pin 114.

The first elevating terminal pin 116 is formed by inserting a bolt into the first elevating drive groove 117 formed at the top and rotating the first fixed terminal pin 115 by pushing the bolt into the first fixed terminal. It is raised and lowered along the pin 115 and is formed to be in close contact with the terminal of the board when it is raised, and the first rising and lowering terminal pin 116 is inserted into the first fixed terminal pin 115.

The first lifting and lowering driving groove 117 is formed to lift and lower the first lifting terminal pin 116 when a bolt is inserted and rotated. It is characterized in that it is formed on the upper surface of the pin 116.

The second power supply pin 118 is formed so that the current supplied through the second terminal pin 113 moves toward the second fixed terminal pin 119, and one side of the second power supply pin 118 is It is connected to the second terminal pin 113, and the other side is characterized in that it is connected to the bottom of the second fixed terminal pin 119 formed inside the terminal member 111.

The second fixed terminal pin 119 serves as a guide for the second lifting terminal pin 120 when the second lifting terminal pin 120 moves up and down, and supplies current supplied from the second power supply pin 118. It is formed to be supplied to the second elevating terminal pin 120, and the second fixed terminal pin 119 is characterized in that it is fixedly formed to the upper side of the second power supply pin 118.

The second lifting terminal pin 120 is a second fixed terminal by inserting a bolt into the second lifting driving groove 121 formed in the upper part and pushing the second fixed terminal pin 119 when the bolt is inserted and rotated. It goes up and down along the pin 119 and is formed to be in close contact with the terminal of the board when it rises, and the second up and down terminal pin 120 is inserted into the second fixed terminal pin 119.

The second lift drive groove 121 is formed to lift and lower the second lift terminal pin 120 when a bolt is inserted and rotated, and the second lift drive groove 121 is the second lift terminal It is characterized in that it is formed on the upper surface of the pin 120.

The insulating member 122 is characterized in that it is formed for insulation between the first power supply pin 114 and the second power supply pin 118.

The long-shaped crimping pipe 123 is the first lift lifted and lowered by the driving bolt coupled to the first lift drive groove 117 by allowing the first lift terminal pin and the first fixed terminal pin 116 to come into close contact with each other. The lowering terminal pin 116 is smoothly moved up and down based on the first fixed terminal pin 115, and the second rising and lowering terminal pin 120 and the second fixed terminal pin 119 are in close contact with each other so that the first The second lifting terminal pin 120, which is moved up and down by the driving bolt coupled to the two lifting driving groove 121, is formed so that the lifting and lowering is smoothly performed based on the second fixed terminal pin 119. The long-shaped crimping pipe 123 forms a coupling between the first elevating terminal pin 116 and the first fixed terminal pin 115, and between the second elevating terminal pin 120 and the second fixed terminal pin 119. characterized by being

4 is a view showing a terminal buffering unit 200, which is another embodiment of the present invention, and FIG. 5 is a detailed view of FIG.

As shown in the drawing, the terminal buffering unit 200 is further included in the power supply connector 100, and the terminal buffering unit 200 includes the first lifting terminal pin 116 and the second lifting and lowering terminal pin 116. It is characterized in that the terminal pin 120 enhances adhesion when in contact with the board and has a buffer action with the board.

The terminal buffer 200 includes a buffer housing 210, a buffer bar 211, a buffer spring 212, an insulating plate 213, a rubber pad 214, a protrusion 215, a protrusion spring 216, a spring It is characterized by consisting of a groove 217, a protrusion groove 218, a push spring 219, and a push bar 220.

The buffer housing 210 is formed to support a buffer bar 211 inserted therein to perform a buffering action, and the buffer housing 210 is formed on one side of an upper surface of the terminal member 111.

The buffer bar 211 is formed to compress the buffer spring 212 inside the buffer housing 210 when in close contact with the board, and one side of the buffer bar 211 is moved up and down inside the buffer housing 210. It is characterized in that it is formed to be able to.

The buffer spring 212 is formed to be compressed or relaxed by the buffer bar 211 when in close contact with the board, and the buffer spring 212 is formed inside the buffer housing 210.

The insulating plate 213 is formed so that the rubber pad 214 adheres to the board surface by pressing force when in close contact with the board, and the insulating plate 213 is formed above the buffer bar 211. .

The rubber pad 214 is formed to prevent damage to the board when in contact with the board and to have tension when in close contact with the board, and the rubber pad 214 is formed on the upper surface of the insulating plate 213. .

The protrusion 215 is formed so that the buffer bar 211 that is compressed in contact with the board is caught and fixed to the protruding groove 218 formed inside the buffer housing 210, and the protrusion 215 is the buffer bar (211) characterized in that it is formed on one side of the lower part.

The protrusion spring 216 is formed such that the protrusion 215 is buffered so that the protrusion 215 is fixed by a buffering force when positioned in the protrusion groove 218, and the protrusion spring 216 is a buffer bar 211 ) characterized in that it is formed embedded in the spring groove 217 formed at the bottom.

The spring groove 217 is formed so that the protruding spring 216 can be embedded, and the spring groove 217 is formed on one side of the lower part of the buffer bar 211.

The protruding groove 218 is formed so that the protrusion 215 can protrude and be inserted by the protruding spring 216, and the protruding groove 218 is formed on one side of the lower part of the buffer housing 210, characterized in that do.

The push spring 219 is formed to generate pressure to push the protrusion 215 caught on the protrusion groove 218, and the push spring 219 is formed on one side of the protrusion groove 218. to be characterized

The push bar 220 is pushed to one side when the protrusion 215 is caught in the protrusion groove 218 by the push spring 219, and is formed to discharge the protrusion 215 from the protrusion groove 218 As such, the push bar 220 is characterized in that it is connected to one side of the push spring 219 to press the push spring 219.

6 is a diagram showing a non-contact sensing unit 300, which is another embodiment of the present invention, and FIG. 7 is a block diagram of FIG.

As shown in the figure, the non-contact sensing unit 300 is further included in the power supply connector 100, and the non-contact sensing unit 300 includes the first lifting terminal pin 116 and the second lifting and lowering terminal pin 116. It is characterized in that the terminal pin 120 detects heat generated when non-contact or contact with the board to prevent fire.

The non-contact sensing unit 300 is characterized in that it consists of a thermal sensor 310, a current sensor 311, a status transceiver 312, a user terminal 313, and a PC monitor 314.

The thermal sensor 310 is formed to detect heat generated by overcurrent when the first elevating terminal pin 116 and the second elevating terminal pin 120 contact terminals formed on the board, The thermal sensor 310 is characterized in that formed on one side of the connector member (110).

The current detection sensor 311 senses the flow of current provided to terminals formed on the board through the first elevating terminal pin 116 and the second elevating terminal pin 120 to detect whether the power supply is smooth. It is formed for, the current sensor 311 is characterized in that the terminal member 111 is formed in the upper and lower portions, respectively.

The status transmitter/receiver 312 transmits the status information detected by the thermal sensor 310 and the current sensor 311 to the user terminal 313 and the PC monitor 314 at a set time or in real time, The status transceiver 312 is characterized in that it is formed on one side of the connector member 110.

The user terminal 313 is characterized in that it receives status information from the status transceiver 312 .

The PC monitor 314 is characterized in that it receives status information from the status transceiver 312 through a screen.

8 is a view showing a terminal extension part 400, which is another embodiment of the present invention, and FIG. 9 is a detailed view of FIG.

As shown in the drawing, the terminal extension part 400 is further included in the power supply connector 100, and the terminal extension part 400 rotates the first rotating member 410 according to the position of the power terminal of the board. And by rotating the second rotating member 420, it is characterized in that the first lifting terminal and the second lifting terminal are located on the position of the terminal so that power can be supplied.

The terminal extension part 400 includes a first rotating member 410, a first rotating terminal 411, a first connecting terminal 412, a first fixing pin 413, a first raising and lowering terminal 414, It is characterized by consisting of a second rotating member 420, a second rotating terminal 421, a second connecting terminal 422, a second fixing pin 423, and a second lifting and lowering terminal 424.

The first rotating member 410 is characterized in that it is formed to be rotatable to one side of the terminal member 111 side.

The first rotation terminal 411 is formed on the first rotation member 410 and is connected to the first connection terminal 412 to supply power received from the first fixed terminal pin 115 to the first fixed pin 413. ) side, the first rotating terminal 411 is characterized in that formed inside the first rotating member 410.

The first connection terminal 412 is formed for connection between the first fixed terminal pin 115 and the first rotary terminal 411, and one side of the first connection terminal 412 is a first fixed terminal pin ( 115), and the other side is characterized in that it is connected to the first rotary terminal 411.

The first fixing pin 413 is formed to receive power supplied from the first fixing terminal pin 115 from the first rotation terminal 411 and provide it to the first lifting and lowering terminal 414. One fixing pin 413 is characterized in that it is formed on one side of the first rotating member 410.

The first lifting and lowering terminal 414 is characterized in that it is formed to be in contact with a terminal formed on the board by moving up and down along the first fixing pin 413 when rotating by combining a bolt.

The second rotating member 420 is characterized in that it is formed to be rotatable to the other side of the side of the terminal member 111.

The second rotational terminal 421 is formed on the second rotational member 420 and is connected to the second connection terminal 422 to supply power received from the second fixed terminal pin 119 to the second fixed pin 423. ) side, the second rotating terminal 421 is characterized in that it is formed inside the second rotating member 420.

The second connection terminal 422 is formed for connection between the second fixed terminal pin 119 and the second rotary terminal 421, and one side of the second connection terminal 422 is the second fixed terminal pin ( 119), and the other side is characterized in that it is connected to the second rotary terminal 421.

The second fixing pin 423 is formed to receive power supplied from the second fixing terminal pin 119 from the second rotary terminal 421 and provide it to the second lifting and lowering terminal 424, 2 fixing pin 423 is characterized in that formed on one side of the second rotating member (420).

The second elevating terminal 424 is characterized in that it is formed to be in contact with a terminal formed on the board as it moves up and down along the second fixing pin 423 when rotating by combining a bolt.

The above-described embodiments are for illustrative purposes, and those skilled in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical spirit or essential features of the above-described embodiments. You will understand. Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope to be protected through this specification is indicated by the following claims rather than the detailed description above, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof. .

100: power supply connector
110: connector member 111: terminal member
112: first terminal pin 113: second terminal pin
114: first power supply pin 115: first fixed terminal pin
116: first lift terminal pin 117: first lift drive home
118: second power supply pin 119: second fixed terminal pin
120: second lift terminal pin 121: second lift drive home
122: insulation member 123: long-shaped compression pipe
200: terminal buffer 210: buffer housing
211: buffer bar 212: buffer spring
213: insulating plate 214: rubber pad
215: snag 216: protrusion spring
217: spring home 218: protrusion home
219: push spring 220: push bar
300: non-contact sensing unit 310: thermal sensor
311: current detection sensor 312: status transceiver
313: user terminal 314: PC monitor
400: terminal extension part 410: first rotating member
411: first rotation terminal 412: first connection terminal
413: first fixing pin 414: first lifting and lowering terminal
420: second rotating member 421: second rotating terminal
422: second connection terminal 423: second fixing pin
424: second lifting and lowering terminal

Claims (2)

In the power supply connector for supplying power by raising and lowering the power supply terminal,
The power supply connector,
A connector member formed as a square flange to be fixed to the housing body and coupled to a power plug;
A terminal member formed on one side of the connector member so that the first elevating terminal pin and the second elevating terminal pin formed to contact the terminal formed on the board are buried;
A first terminal pin formed on one side of the inside of the connector member to receive power from the power plug and supply power to the power board;
A second terminal pin formed on the other side inside the connector member to receive power from the power plug and supply power to the power board;
A first power supply having one side connected to the first terminal pin and the other side connected to the bottom of the first fixed terminal pin formed inside the terminal member so that the current supplied through the first terminal pin moves to the first fixed terminal pin side. with pins,
It serves as a guide for the first elevating terminal pin when the first elevating terminal pin moves up and down, and is fixed to the upper side of the first power supply pin to supply the current supplied from the first power supply pin to the first elevating terminal pin. A first fixed terminal pin;
When a bolt is inserted into the first lifting and lowering driving groove formed at the top and rotated, the first fixed terminal pin is pushed up and down along the first fixed terminal pin by inserting and pushing the bolt, and when it is raised, the first fixed terminal pin is in close contact with the board terminal. A first raising and lowering terminal pin inserted into the fixed terminal pin and formed;
A first lift drive groove formed on an upper surface of the first lift terminal pin to lift and lower the first lift terminal pin when a bolt is inserted and rotated;
A second power supply having one side connected to the second terminal pin and the other side connected to the bottom of the second fixed terminal pin formed inside the terminal member so that the current supplied through the second terminal pin moves toward the second fixed terminal pin. with pins,
It serves as a guide for the second elevating terminal pin when the second elevating terminal pin moves up and down, and is fixed to the upper side of the second power supply pin to supply the current supplied from the second power supply pin to the second elevating terminal pin. A second fixed terminal pin;
When a bolt is inserted into the second lifting and lowering groove formed at the top and rotates, the second fixed terminal pin is pushed up and down along the second fixed terminal pin by inserting and pushing the bolt, and when it is raised, the second fixed terminal pin is in close contact with the terminal of the board. A second raising and lowering terminal pin inserted into the fixed terminal pin and formed;
A second lifting drive groove formed on the upper surface of the second lifting terminal pin to lift and lower the second lifting terminal pin when a bolt is inserted and rotated;
An insulating member formed for insulation between the first power supply pin and the second power supply pin;
The first lifting terminal pin and the first fixed terminal pin are brought into close contact with each other so that the first lifting terminal pin, which is moved up and down by the driving bolt coupled to the first lift drive groove, moves up and down based on the first fixed terminal pin. The second lifting terminal pin and the second fixed terminal pin are in close contact with each other so that the second lifting terminal pin, which is moved up and down by the driving bolt coupled to the second lifting drive groove, is the second fixed terminal pin. It is made of a long-shaped crimping tube coupled between the first lifting terminal pin and the first fixed terminal pin and between the second lifting terminal pin and the second fixed terminal pin so that the lifting and lowering is performed smoothly on the basis of

The power supply connector,
Further comprising a non-contact detection unit for preventing fire by detecting heat generated when the first elevating terminal pin and the second elevating terminal pin do not contact or contact the board,
The non-contact sensing unit,
A heat sensor formed on one side of the connector member to detect that heat is generated by overcurrent when the first rising terminal pin and the second rising terminal pin contact terminals formed on the board;
A current detection sensor formed on the upper and lower parts of the terminal member to detect whether the power supply is smooth by detecting the flow of current provided to the terminal formed on the board through the first rising terminal pin and the second rising terminal pin, and ,
A status transceiver formed on one side of the connector member to transmit the status information detected by the thermal sensor and the current sensor to the user terminal and the PC monitor in real time or at a set time;
A user terminal for receiving status information from the status transmitter and receiver;
It includes a PC monitor for receiving status information from the status transmitter and receiver through the screen,

The power supply connector,
Further comprising a terminal extension unit for rotating the first rotating member and the second rotating member according to the position of the power terminal of the board so that the first lifting terminal and the second lifting terminal are located on the position of the terminal so that power can be supplied. and
The terminal extension part,
A first rotation member formed to be rotatable to one side of the side of the terminal member;
A first rotation terminal formed on the first rotation member and connected to the first connection terminal and formed inside the first rotation member to provide power received from the first fixed terminal pin to the first fixed pin side;
A first connection terminal having one side connected to the first fixed terminal pin and the other side connected to the first rotation terminal for connection between the first fixed terminal pin and the first rotary terminal;
A first fixing pin formed on one side of the first rotating member in order to receive power supplied from the first fixing terminal pin from the first rotating terminal and provide it to the first lifting and lowering terminal;
A first lifting and lowering terminal formed to be in contact with a terminal formed on the board by moving up and down along the first fixing pin when the bolt is coupled and rotated;
A second rotation member formed to be rotatable to the other side of the side of the terminal member;
A second rotary terminal formed on the second rotary member and connected to the second connection terminal and formed inside the second rotary member to provide power received from the second fixed terminal pin to the second fixed pin side;
A second connection terminal having one side connected to the second fixed terminal pin and the other side connected to the second rotary terminal for connection between the second fixed terminal pin and the second rotary terminal;
A second fixing pin formed on one side of the second rotating member to receive power supplied from the second fixing terminal pin from the second rotating terminal and provide it to the second lifting and lowering terminal;
A power supply connector using a lifting pin, characterized in that it includes a second lifting terminal formed to be in contact with a terminal formed on the board by being lifted and lowered along the second fixing pin when the bolt is rotated.

delete

Images