KR101864254B1 - Connector testing apparatus - Google Patents

Abstract

The present invention relates to an apparatus for testing a connector capable of testing a wear state of a thread generated in connection of a female connector and a male connector. Features of the present invention comprise: a light source (100) which emits light; a connector member (200) to which the light source (100) is electrically connected; a socket member (300) for applying external power and data to the connector member (200) when the connector member (200) is inserted and connected; and a fixation cover (400) for fixing the light source (100) and the socket member (300) so that the connector member (200) is kept connected to the socket member (300).

Description

CONNECTOR TESTING APPARATUS [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a connector testing apparatus capable of testing a wear state of a thread generated in connection of a female connector and a male connector.

In general, an optical connector is used as a detachable connecting part of an optical fiber for connecting optical fibers or an optical fiber and a terminal device.

The characteristics of the function and operability are comprised of a female connector and a male connector which are detachably connected to each other. That is, when the male connector is connected to the female connector, the optical signal can be transmitted.

The female connector and the male connector are formed with female threads and male threads, respectively, so that the male connectors can be screwed into the female connectors so that the optical fibers can be connected.

However, in the female connector, the male connector is frequently engaged or disengaged, thereby causing wear of the male and female threads.

Accordingly, there is an urgent need to develop a connector test apparatus capable of testing the wear of a thread while performing a process of joining and separating the female connector and the male connector.

The background art of the present invention is disclosed in Korean Utility Model Registration No. 20-0219229 (Jan. 26, 2001) registered in the Korean Intellectual Property Office.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a connector test apparatus capable of testing a wear state of a thread generated in connection of a female connector and a male connector.

The connector test apparatus according to an embodiment of the present invention includes a male connector fixing member 100 that is detachably fixed and moves reciprocally by external pressure, A female connector fixing member 200 to which the female connector 20 is rotatably fixed and a rotary member for rotating the male connector fixing member 100 to generate a rotary force for forward rotation or reverse rotation of the female connector 20, A reciprocating supply member 400 for supplying the rotational force of the rotational force generating member 300 to the male connector fixing member 100 so that the male connector fixing member 100 reciprocates, A rotary connector for connecting the male connector connector and the male connector connector to each other and a female connector for connecting the male connector connector and the male connector connector to each other, (20) That comprises the full supply member 600, and a rotation force generating member controller 700 for controlling the number of times set by the 300 is characterized.

The male type connector 10 preferably includes a male type connector body 11, a connecting terminal 12 protruding to the end of the male type connector body 11 and a connecting terminal 12 projecting to the end of the male type connector body 11, A male engaging portion 13 which is engaged with the female connector 20 in a state surrounding the female connector body 11 and a female engaging portion 14 projecting to the outside of the female connector body 11; And an outer rotation preventing portion 16 formed between the engaging protrusion 14 and the male thread 15 to prevent the rotation of the male connector body 11, The connector fixing member 100 includes a male mounting portion 110 to which the male connector 10 is inserted and mounted, a rotation preventing portion 120 for preventing the male connector 10 mounted on the male connector 110 from rotating, And a male coupling part (130) for coupling the male connector (10) to the male connector part (110).

The rotation preventing portion 120 is hung on the mounting jaw 112 of the male type mounting portion 110 while one side is supported by the engagement jaws 14 of the male type connector 10, The inner rotation preventing portion 122 is formed in the inner peripheral surface of the through hole 121 so as to contact and fix the outer rotation preventing portion 16 of the male connector 10, The male coupling part 130 is formed on the male thread 15 of the male connector 10. The male coupling part 130 is formed at one side or both sides of the male connector 10 with a rotation preventing protrusion 123 inserted into the hooking groove 113 of the male connector 110, And a nut portion which is threadedly engaged.

The female connector 20 preferably includes a female connector body 21 and a female connector portion 22 projecting from the end of the female connector body 21 and connected to the male connector portion 13 while the connection terminal 12 is connected thereto. The female connector fixing member 200 includes a female mounting portion 210 through which the female connector 20 is inserted and mounted, and a rotation guide provided in the female mounting portion 210 to guide the rotation of the female connector 20 And a female coupling portion 230 for coupling the female connector 20 to the rotation guide portion 220. [

The female coupling part 230 is provided in the rotation guide part 220 and includes a fixing chuck 231 which is pinched by external pressure and presses and fixes the outer circumferential surface of the female connector 20, And a pressing member 232 for pressing the outer peripheral surface of the fixing chuck 231 so that the female connector 20 is fixed.

Preferably, the fixing chuck 231 is provided in the rotation guide part 220 with the inner space through which the female connector 20 is inserted opened at both ends, is formed with a male screw thread on the outer circumferential surface thereof, And the pressing member 232 is composed of a nut screwed to a male screw thread of the fixing chuck 231. The pressing member 232 is formed of a nut having a larger diameter than the other end.

The male connector fixing member 100 preferably includes a guide portion 140 configured as a block to be moved along the reciprocating guide member 500 while being fixed to the male mounting portion 110, And a guide rail for guiding the movement of the guide part 140. [

The male connector fixing member 100 preferably includes a reciprocating transmission member 150 having a female screw thread formed to penetrate from one end to the other end so as to receive the reciprocating movement of the reciprocating supply member 400 while being fixed to the male type mounting unit 110 And the reciprocating feeding member 400 is constituted by a screw shaft which is rotated forward and reverse by a rotational force of the rotational force generating member 300 while being screwed to the reciprocating transmitting member 150.

The rotation feed member 600 preferably includes a drive pulley 610 fixed to the female connector fixing member 200 in a freely rotatable manner and rotated forward or reverse by the rotational force of the rotation force generating member 300, And a belt 630 interposed between the driving pulley 610 and the driven pulley 620. The driven pulley 620 is rotatably mounted on the female connector fixing member 200 while being spaced apart from the driven pulley 610. [

The control unit 700 may include an operation unit 710 for operating the rotational force generating member 300, a number setting unit 720 for setting the number of operations of the operation unit 710, An overload recognition unit 740 for recognizing an overload state of the rotational force generating member 300 and an operation stop unit 710 for stopping the operation unit 710 when the overload is recognized in the overload recognition unit 740, 750).

The connector test apparatus according to an embodiment of the present invention can test the state of wear of the thread generated in the connection process of the female connector and the male connector, thereby confirming both parts of the connector.

In addition, after the male connector is fixed to the male connector fixing member without rotation and the female connector is fixed to the female connector fixing member in a rotatable state, the operation of pulling the male connector fixing member and the operation of rotating the female connector are simultaneously performed The operation of pushing the male connector fixing member and the operation of reversing the female connector can be performed at the same time, so that the test for the engagement and disconnection of the female connector and the male connector can be accurately performed.

Further, since the screw shaft for reciprocating the male connector fixing member is screwed in a state that the male connector fixing member is supported by the guide, the installation space of the screw shaft can be minimized.

Further, since the drive pulley is connected to the screw shaft and the female connector is fixed to the driven pulley in order to rotate the female connector, the forward and backward movements of the male connector and the forward and reverse rotations of the female connector are simultaneously performed by the rotation of the screw shaft .

Also, the number of times of testing can be set through the control unit, so that the test of the female connector and the male connector can be performed a predetermined number of times.

In addition, when an overload occurs in the rotational force generating member that rotates the screw shaft, the test operation of the female connector and the male connector is stopped, and the number of the last test can be confirmed.

1 is a perspective view showing a connector testing apparatus according to an embodiment of the present invention;
2 is an exploded perspective view of the present invention.
3 is a block diagram showing a control unit according to the present invention.
4 is a view showing a male type connector fixing member applied to the present invention.
5 is a view showing a state where the male connector is coupled to the male connector fixing member of the present invention.
6 is a view showing a female connector fixing member applied to the present invention.
7 is a view showing a state where a female connector is coupled to a female connector fixing member of the present invention.
8 is a view showing a state in which the male connector of the present invention is separated from the female connector.
9 is a view showing the state where the male connector of the present invention is coupled to the female connector.

Hereinafter, a connector testing apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 9, the present invention is characterized in that the male connector fixing member 100 is detachably fixed and moves reciprocally by external pressure, and the male connector fixing member 100 is separated from the male connector fixing member 100 A female connector holding member 200 rotatably fixed to the female connector 20 while the female connector 20 is rotatably fixed to the female connector 20, A reciprocating supply member 400 for supplying the rotational force of the rotational force generating member 300 to the male connector fixing member 100 so that the rotational force generating member 300 reciprocates and the reciprocating supply member 100 400 for reciprocating movement of the male connector fixing member 100 and a rotary connector 300 for reciprocating movement of the male connector fixing member 100 reciprocally by a female type connector 20, The rotation supplied to the connector 20 And a star member 600, and a controller 700 for controlling the number of times set the rotational force generating member 300.

First, when the male connector 10 is connected to the female connector 20 and electrically connected thereto, it is possible to transmit the optical communication signal.

The male connector 10 includes a male connector body 11, a connector terminal 12 protruding to the end of the female connector body 11, The male connector portion 20 is formed with a male connector portion 13 which is engaged with the female connector 20 in a state where the female connector 20 is connected to the female connector body 11, And an outer rotation preventing portion 16 formed between the engaging protrusion 14 and the male thread 15 to prevent the rotation of the male connector body 11.

The male connector body 11 may be formed in a cylindrical shape and a cable may be provided in which the connection terminal 12 protrudes at one end and electrically connected to the connection terminal 12 at the other end.

The connection terminal 12 may be formed of a metal wire which is cylindrical and electrically conductive.

In the male engaging portion 13, an inner space in which the connection terminal 12 is located is open to the end, and a female screw is formed on the inner circumferential surface.

The latching jaw 14 is formed in a flange shape.

The male thread 15 is formed from the outer rotation preventing portion 16 to the end of the male connector body 11.

The outer rotation preventing portion 16 is formed of a flat surface formed on one side or both side surfaces of the male connector body 11.

The female connector 20 includes a female connector body 21 and a female connector 22 protruding from an end of the female connector body 21 and connected to the male connector 13 while the connecting terminal 12 is connected thereto do.

The female connector body 21 is formed in a cylindrical shape so that a male engaging portion 22 to which the connecting terminal 12 of the male connector body 11 is connected is protruded at one end and electrically connected to the female engaging portion 22 at the other end Can be wired.

The female coupling portion 22 is formed in a cylindrical shape and has a hole for receiving the connection terminal 12 of the male connector body 11 at the end thereof. .

The male type connector fixing member 100 includes a male type mounting portion 110 to which the male type connector 10 is inserted and mounted, a rotation preventing portion 120 to prevent rotation of the male type connector 10 mounted on the male type mounting portion 110, A male coupling part 130 for coupling the male connector 10 to the male connector 110, a guide part 140 for moving along the reciprocal guide member 500 while being fixed to the male connector 110, And a reciprocating transmitting member 150 which is fixed to the male mold mounting part 110 and receives the reciprocating movement of the reciprocating supply member 400. The reciprocating transmitting member 150 is formed with a female screw thread so as to penetrate from one end to the other end.

The male type mounting portion 110 is formed in a plate shape and is raised on the upper portion of the guide portion 140. The male type mounting portion 111 is formed to penetrate the male type connector 10, And a latching groove 113 formed on one side or both sides of the mounting bracket 112. The mounting bracket 112 is provided with a rotation preventing portion 120,

The male type fitting (111) is composed of a hole.

The rotation preventing portion 120 is hung on the mounting jaw 112 of the male mounting portion 110 while one side is supported by the engagement protrusion 14 of the male connector 10, And an inner rotation preventing portion 122 formed of a flat surface is formed so that the outer rotation preventing portion 16 of the male connector 10 is contacted and fixed to the inner peripheral surface of the through hole 121 And a rotation preventing protrusion 123 inserted into and engaged with the locking groove 113 of the male type mounting portion 110 is formed on one side or both sides from the outside.

The male coupling part 130 is composed of a nut part screwed to the male thread 15 of the male connector 10.

The guide portion 140 is constituted by a block which is moved along the reciprocating guide member 500.

The reciprocating transmitting member 150 may be composed of a nut.

The female connector fixing member 200 includes a female mounting portion 210 through which the female connector 20 is inserted and mounted, a rotation guide portion 220 provided on the female connector 210 to guide the rotation of the female connector 20, And a female coupling portion 230 for coupling the female connector 20 to the rotation guide portion 220.

The female mounting portion 210 is formed in a plate shape and stands up, and a female mounting hole 211 through which the female connector 20 is inserted is formed.

The rotation guide portion 220 is constituted by a bearing mounted on the female mounting portion 211 of the female mounting portion 210.

The female coupling portion 230 is provided in the rotation guide portion 220 and is fixed to the fixing chuck 231 with a female connector 231 by being pressed by an external pressure to press and fix the outer circumferential surface of the female connector 20, And a pressing member 232 for pressing the outer peripheral surface of the fixing chuck 231 so that the fixing chuck 20 is fixed.

The fixing chuck 231 is provided on the rotation guide 220 with the inner space through which the female connector 20 passes, is formed with a male screw thread on the outer circumferential surface, and a plurality of cut grooves are formed along the circumference of the end And a tube having a diameter gradually increasing from one end to the other end.

The pressing member 232 is composed of a nut screwed into the male thread of the fixing chuck 231.

Accordingly, when the pressing member 232 is screwed to the fixing chuck 231, the grooves of the fixing chuck 231 are pinched, so that the outer peripheral surface of the female connector 20 can be fixed while being pressed.

The rotational force generating member 300 may be constituted by a motor that rotates the motor shaft forward and reverse.

The reciprocating supply member 400 is composed of a screw shaft which is rotated forward and reverse by a rotational force of the rotational force generating member 300 while being screwed to the reciprocating transmitting member 150, As shown in Fig. Accordingly, when the reciprocating supply member 400 is rotated forward by the rotational force of the rotational force generating member 300, the reciprocating transmitting member 150 is moved along the reciprocating supply member 400, so that the male connector fixing member 100 is fixed to the female connector When the reciprocating feeding member 400 is rotated in the opposite direction, the reciprocating transmitting member 150 is moved in the opposite direction along the reciprocating feeding member 400, so that the male connector fixing member 100 is fixed to the female connector Away from the member (200).

The reciprocating guide member 500 is constituted by a guide rail for guiding the movement of the guide portion 140.

The rotation feed member 600 includes a drive pulley 610 which is fixed to the female connector fixing member 200 so as to idle and is rotated forward or reverse by the rotational force of the rotation force generating member 300, A driven pulley 620 fixed to the female connector fixing member 200 in an idle manner and a belt 630 interposed between the driving pulley 610 and the driven pulley 620.

The drive pulley 610 is separated from the male connector fixing member 100 while being keyed to the motor shaft of the motor which is coupled to the reciprocating guide member 500 or the rotational force generating member 300. Therefore, the driving pulley 610 can be rotated forward or backward by the rotational force of the rotational force generating member 300.

The driven pulley 620 may be fixed to the rotation guide 220 and rotated together with the rotation guide 220.

The control unit 700 includes a programmable controller and includes an operation unit 710 for operating the rotational force generating member 300, a frequency setting unit 720 for setting the frequency of operation of the operation unit 710, An overload recognition unit 740 for recognizing an overload state of the rotational force generating member 300 and an overload detecting unit 740 for stopping the operation unit 710 when an overload is recognized in the overload recognition unit 740, (Not shown).

Here, the overload recognition unit 740 may be configured to detect an overcurrent.

Accordingly, when the operator sets the number of times the rotational force generating member 300 is operated through the number setting unit 720, the operating unit 710 operates the rotational force generating member 300 by the set number of times. That is, when the rotational force generating member 300 is operated once, the reciprocating supply member 400 and the drive pulley 610 of the rotational supply member 600 are rotated forward and then rotated in reverse.

Thus, the rotational force generating member 300 repeatedly rotates the drive pulley 610 of the reciprocating supply member 400 and the rotational feed member 600 a predetermined number of times, and then rotates in reverse.

In this state, the operation in which the male connector 10 and the female connector 20 are engaged and released again is repeated. At this time, the female thread formed on the male engaging portion 13 of the male connector 10 or the female screw portion formed on the male engaging portion 22 of the female connector 20 is worn or deformed so that the male connector 10 and the female connector 20 are not engaged or separated from each other, an overload occurs in the rotational force generating member 300.

At this time, when the overload recognition unit 740 detects an overload of the rotational force generating member 300, the operation stop unit 750 stops the operation of the rotational force generating member 300 by the operation stop unit 750, Stop counting too. That is, when the counting unit 730 stops counting, the operator can confirm the final counting number.

Hereinafter, the operation and effects of the present invention will be described.

First, the male connector 10 is inserted into the rotation preventing portion 120 so that the inner rotation preventing portion 122 of the rotation preventing portion 120 is aligned with the outer rotation preventing portion 16 of the male connector 10. At this time, the rotation preventing portion 120 is supported by the engagement protrusion 14 of the male connector 10. The male connector 10 is inserted into the male mount 111 of the male mount 110 so that the rotation preventer 120 is mounted on the mount 112 while the rotation preventing protrusion 120 123 are caught by the engagement grooves 113. Thereby, the male connector 10 is not rotated about the male mount 111.

Then, the male coupling part 130 is screwed to the male thread 15 of the male connector 10. Thereby, the male type connector 10 is fixed to the male type connector fixing member 100.

The female connector 20 is rotated in a state in which the female connector 20 is inserted into the fixing chuck 231 fixed to the rotation guide portion 220 mounted on the female connector 211 of the female connector 210, So that the female engaging portion 22 of the female connector 20 is slightly screwed to the male engaging portion 13 of the male connector 10.

Subsequently, the pressing member 232 is screwed to the fixing chuck 231 to press the fixing chuck 231. Thereby, the female connector 20 is fixed to the fixing chuck 231.

In this state, if the number of times the rotational force generating member 300 is operated is set through the control unit 700, the rotational force generating member 300 generates the forward power and generates the reverse torque by the control unit 700 .

Therefore, the reciprocating supply member 400 and the drive pulley 610 of the rotation supply member 600 are rotated at the same time by the forward rotation power generated in the rotational force generating member 300. [

At this time, the male type mounting portion 110 to which the male type connector 10 is fixed is brought close to the female type mounting portion 210. At the same time, as the drive pulley 610 of the rotation feed member 600 is rotated forward, the driven pulley 620 is rotated, so that the rotation guide 220 and the fixed chuck 231, to which the driven pulley 620 is connected, do. That is, the female connector 20 fixed to the fixed chuck 231 is rotated forward.

As a result, the female connector 20 is rotated in the forward direction to be screwed to the upcoming male connector 10, so that the connecting terminal 12 of the male connector 10 is connected to the female connector 22 of the female connector 20 ).

Also, the reciprocating supply member 400 and the drive pulley 610 of the rotation supply member 600 are simultaneously rotated reversely by the reverse rotation force generated in the rotation force generating member 300.

At this time, the male type mounting portion 110 to which the male type connector 10 is fixed is moved away from the female type mounting portion 210. At the same time, since the driven pulley 620 is reversely rotated as the drive pulley 610 of the rotation feed member 600 is rotated in the reverse direction, the rotation guide 220 and the fixed chuck 231, to which the driven pulley 620 is connected, Reverse rotation. That is, the female connector 20 fixed to the fixing chuck 231 is reversely rotated.

As a result, the connection terminal 12 of the male connector 10 is connected to the female connector portion 22 of the female connector 20, Lt; / RTI >

As such, when the female connector 20 is rotated forward, the male connector 10 approaches, and when the female connector 20 rotates in the opposite direction, the male connector 10 moves away. At this time, it is possible to test wear and deformation of the male thread formed on the male engaging portion 13 of the male connector 10 and the male screw formed on the male engaging portion 22 of the female connector 20.

As described above, it is possible to test the state of wear of the thread generated in the connection process of the female connector and the male connector according to the present invention, which is a very advantageous invention that can be widely applied to the connector test apparatus.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: male connector 11: male connector body
12: connection terminal 13:
14: hanging jaw 15: male threads
16: outer rotation preventing portion 20: female connector
21: female connector body 22: female connector part
100: male connector fixing member 110: male mounting portion
111: Male mount 120: Anti-rotation part
121: through hole 122: inner rotation preventing portion
123: rotation preventing projection 130: male coupling part
140: guide part 150: reciprocating member
200: female connector fixing member 210: female mounting portion
211: female type fitting 220: rotation guide
230: Female fastening part 231: Fixing chuck
232: pressing member 300: rotational force generating member
400: reciprocating feeding member 500: reciprocating guide member
600: rotation feed member 610: drive pulley
620: driven pulley 630: belt
700: control unit 710:
720: number setting unit 730: counting unit
740: overload recognition unit 750: operation stop unit

Claims (10)

A male connector fixing member (100) detachably fixed to the male connector (10) and reciprocatingly moved by external pressure,
A female connector fixing member 200 spaced from the male connector fixing member 100 and rotatably fixed to the female connector 20,
A rotational force generating member 300 for reciprocating the male connector fixing member 100 and generating a rotational force for forward rotation or reverse rotation of the female connector 20,
A reciprocating supply member 400 for supplying the rotational force of the rotational force generating member 300 to the male connector fixing member 100 so that the male connector fixing member 100 reciprocates,
A reciprocating guide member 500 for guiding reciprocating movement of the male type connector fixing member 100 which is reciprocated by the reciprocating feeding member 400,
A rotation supplying member 600 for supplying the rotational force of the rotational force generating member 300 to the female connector 20 so that the female connector 20 is rotated forward or reverse,
And a control unit (700) for controlling the rotational force generating member (300) by a preset number of times,
The male connector (10)
A male connector body 11,
A connection terminal 12 protruding to an end of the male connector body 11,
A male engaging portion 13 protruding from an end of the male connector body 11 and coupled to the female connector 20 in a state surrounding the connecting terminal 12,
A locking protrusion 14 protruding outside the male connector body 11,
A male thread 15 formed on an outer peripheral surface at an end of the male connector body 11,
And an outer rotation preventing portion 16 formed between the engaging jaw 14 and the male thread 15 to prevent the rotation of the male connector body 11,
The male connector fixing member 100
A male mounting portion 110 through which the male connector 10 is inserted and mounted,
A rotation preventing portion 120 for preventing rotation of the male connector 10 mounted on the male mounting portion 110,
And a male type fastening part 130 for fastening the male type connector 10 to the male type fastening part 110,
The female connector 20
A female connector body 21,
And a male engaging portion 22 protruding from an end of the female connector body 21 to connect the male engaging portion 13 with the connection terminal 12 connected thereto,
The female connector fixing member 200
A female mounting portion 210 through which the female connector 20 is inserted and mounted,
A rotation guide portion 220 provided on the female mounting portion 210 to guide the rotation of the female connector 20,
And a female coupling portion (230) for coupling the female connector (20) to the rotation guide portion (220).
delete The method according to claim 1,
The rotation preventing portion 120 is hung on the mounting jaw 112 of the male mounting portion 110 while one side is supported by the engagement protrusion 14 of the male connector 10, An inner rotation preventing portion 122 is formed which is in contact with and fixed to the outer rotation preventing portion 16 of the male connector 10 on the inner peripheral surface of the through hole 121, And rotation preventing protrusions 123 which are inserted into and engaged with the engaging grooves 113 of the male type mounting portion 110 are formed on both sides thereof,
Characterized in that the male coupling part (130) is constituted by a nut part screwed into the male thread (15) of the male connector (10).
delete The female binding part (230) according to claim 1, wherein the female binding part
A fixing chuck 231 which is provided in the rotation guide portion 220 and is tightened by an external pressure so as to press and fix the outer circumferential surface of the female connector 20,
And a pressing member (232) for pressing the outer peripheral surface of the fixing chuck (231) so that the female connector (20) is fixed to the fixing chuck (231).
The method of claim 5,
The fixing chuck 231 is provided on the rotation guide 220 with the inner space through which the female connector 20 passes, is formed with a male screw thread on the outer circumferential surface, and a plurality of cut grooves are formed along the circumference of the end And a tube whose diameter gradually increases from one end to the other end,
Characterized in that the pressing member (232) is constituted by a nut screwed into the male thread of the fixing chuck (231).
The method according to claim 1,
The male connector fixing member 100 includes a guide portion 140 configured as a block to be moved along the reciprocating guide member 500 while being fixed to the male mounting portion 110,
And the reciprocating guide member (500) is constituted by a guide rail for guiding the movement of the guide part (140).
The method according to claim 1,
The male connector fixing member 100 includes a reciprocating transmitting member 150 having a female screw thread formed to penetrate from one end to the other end so as to receive the reciprocating movement of the reciprocating feeding member 400 while being fixed to the male mounting portion 110,
Wherein the reciprocating feeding member (400) is constituted by a screw shaft which is forwardly rotated by a rotational force of the rotational force generating member (300) in a state of being screwed to the reciprocating transmitting member (150) and reversely rotated.
The method according to claim 1,
The rotation feed member 600
A drive pulley 610 fixed to the female connector fixing member 200 so as to be freely rotatable and rotated forward or reverse by the rotational force of the torque generating member 300,
A driven pulley 620 which is spaced apart from the driving pulley 610 and fixed to the female type connector fixing member 200 so as to idle,
And a belt (630) interposed between the drive pulley (610) and the driven pulley (620).
The control unit (700) according to claim 1, wherein the control unit
An operating portion 710 for operating the rotational force generating member 300,
A number-of-times setting section 720 for setting the number of operations of the operation section 710,
A counting unit 730 for counting the number of operations of the operation unit 710,
An overload recognition unit 740 for recognizing an overload state of the torque generating member 300,
And an operation stop unit (750) for stopping the operation unit (710) when an overload is recognized in the overload recognition unit (740).

Images