KR20170071090A

KR20170071090A - Automatic nut supply apparatus of tapping machine

Info

Publication number: KR20170071090A
Application number: KR1020150179015A
Authority: KR
Inventors: 유한의; 유형석; 유태상
Original assignee: 티에이치산업주식회사
Priority date: 2015-12-15
Filing date: 2015-12-15
Publication date: 2017-06-23
Also published as: KR101786723B1

Abstract

The present invention can automatically reduce the work time and the production cost by sequentially supplying the nut in the tapping machine for cutting the female screw to the inner diameter of the nut. In particular, when the outer circumferential surface of the cylindrical body is chamfered, The nuts falling from the top are first stopped and then rolled down again to grip the side portions of the screws in a state in which the pierced portions are positioned in the forward and backward directions, To an automatic feeding device for a nut of a tapping machine so that the inner diameter side of the nut to be processed can be quickly arranged toward the processing means, thereby further shortening the working time.
The automatic feeding device for a nut of a tapping machine according to a preferred embodiment of the present invention is characterized in that a nut is chamfered at its upper portion and a first horizontal feed line forwardly fed is extended forward, A nut supply main body having a vertically extending supply line extending downward at a front end portion of the nut supply body and a second horizontal supply line extending forward at a lower end of the vertical supply line, Unit supply means for dropping and feeding the nuts falling through the vertical supply line one by one for each time when the nut is elastically biased rearwardly and moved forward, And the nuts supplied by the unit supply unit are supported at the bottom and the ripping is arranged in the front-rear direction A nut guide for moving the nut in a forward and backward direction relative to the nut supply main body and forwardly pressing the unit feed means forward to move the nut forward, The nut is pushed to the second horizontal supply line and is forwardly fed and threaded by the screw working means while the nut falling from the unit feeding means is supported at the bottom, A forward feeding means for elastically deflecting inwardly both sides of a second horizontal feed line of the nut feeding body and for urging the nut in a forward direction during the forward feeding of the nut by the forward feeding means, And a pressurized rotation preventing means for supporting the pressurized fluid.

Description

Technical Field [0001] The present invention relates to an automatic nut supply apparatus for tapping machine,

The present invention relates to an automatic feeding device for a nut of a tapping machine, and more particularly, to a method of automatically feeding a nut in a tapping machine for cutting a female thread to an inner diameter of a nut, In particular, when chamfering the outer circumferential surface of the cylindrical body, the nuts falling from the upper portion are first stopped by using the feature that the corresponding portions are not rolled, and then rolled again, so that the pierced portion is positioned in the front- And the inner diameter side of the nut to which the female screw is to be machined is arranged accurately toward the machining means by advancing the screw machining means so that the working time can be further shortened. will be.

Generally, bolts and nuts are used to assemble parts of machinery or industrial equipment. In order to form a screw hole in a metal, first drilling is performed to a diameter slightly smaller than the outer diameter of the bolt to be inserted in the screw hole, And a thread having an appropriate dimension corresponding to the through hole is inserted into the through hole and rotated while supplying lubricating oil or cutting oil at a low speed so as to thread the thread on the inner surface of the through hole according to the size and shape of the screw of the tap. do.

However, tapping that forms a thread depends on manual work or uses a dedicated tapping machine. Manual work is manual tapping because it is difficult to elaborate work, work efficiency is low, and expensive tap is damaged. And there is a disadvantage that it is unreasonable because it is hard to work on a vertical surface or a ceiling.

In addition, in the case of a dedicated tapping machine that automatically rotates the tabs and processes the threads of the nut, it is advantageous that the tapping operation is simple and precise, but the nut that is the object to be processed must be manually supplied manually As well as labor costs.

In addition, there is a problem that if the operator can not supply the nut to the tapping machine precisely in the inner diameter direction in which the thread is to be formed, defective products may be generated.

In order to solve such a problem, Japanese Patent Application No. 10-1291620 (published on Aug. 31, 2013) filed by the present applicant has a base plate, a moving plate horizontally movably installed on the base plate, A first cylinder mechanism installed on the moving plate and horizontally moving the moving plate according to whether the moving plate is operated or not, nut supplying means provided on the center of the moving plate and supplying the nuts sequentially, A fixing jig which is rotatably installed in front and fixes and holds the nut supplied individually through the nut supply means according to the rotation, and a fixing jig which is horizontally movable on both sides of the nut supply means, Is formed in the shape of a connected "C" And a second cylinder mechanism which is provided on the moving plate and is located behind the pressing member and horizontally moves the pressing member according to whether the fixing member is operated or not. A nut automatic feeding device of a tapping machine is disclosed.

However, in the conventional automatic nut feeder of the tapper as described above, it takes a relatively long time to align the nipped portion of the nut with the nut processing means.

1. Patent Registration No. 10-1291620 (Announcement of 2013.08.01)

Therefore, according to the present invention, it is possible to shorten the working time and reduce the production cost by automatically performing the process of sequentially feeding the nuts in the tapping machine for cutting the female screw into the inner diameter of the nut. In particular, when the outer peripheral surface of the cylindrical body is chamfered The nuts falling from the upper portion are first stopped and then rolled down again to grip the side portions of the screws in a state in which the pierced portions are positioned in the forward and backward directions while advancing the threading means, The automatic feeding device for a nut of a tapping machine is provided so that the inner diameter side of a nut to be machined is accurately arranged toward the machining means so that the working time can be further shortened.

In order to attain the above object, according to the present invention, a nut is chamfered at the upper part and a first horizontal supply line, which is fed forward, is extended forward, and at the front end of the first horizontal supply line, And a second horizontal supply line extending forward from the lower end of the vertical supply line. The nut supply main body is elastically biased rearwardly under the vertical supply line of the nut supply main body, A unit supply means for dropping the nuts dropped through the vertical supply line one by one and supplying the nuts dropped one by one every time when the nut is moved forward; The nut being supported by the unit from a lower portion and being arranged in a front-rear direction, A nut guide which is provided to be movable in forward and backward directions with respect to the nut supply main body and which forwardly pushes the unit feeding means forward and pushes the nut positioned on the nut guide forward, And the nut is supported by the lower portion of the unit feed means and the rear portion of the nut is guided by the nut guide, And a pressing rotation preventing means which is elastically biased inwardly on both sides of the second horizontal supply line of the nut supply main body and presses and supports the nut so that the nut is not rotated when the nut is forwardly moved by the front feed means And provides an automatic nut feeder of the included tapper.

In the present invention, a feed port is formed at one side of the first horizontal supply line of the nut supply main body, into which a nut is chamfered, and the nut is forwardly pushed to the rear of the first horizontal supply line of the nut supply main body Is provided.

In the present invention, the unit supply means is provided at a lower side of the vertical supply line of the nut supply main body, a coupling leg is protruded at both lower sides thereof, and a front portion of the unit supply means is connected to the vertical supply line And a first stopper protrusion protruding from the lower side of the vertical supply line of the nut supply body so as to support the nut so that the nut is no longer dropped to the lower portion, A spring member interposed between the rear side unit supply members and elastically biasing the rear side unit supply member backward; and a spring member having both ends connected to the coupling legs of the rear side unit supply member, Supporting the lower portion of the nut located at the lowermost position while projecting into the vertical supply line of the supply body, The front of the feed means are included at the same time, the second stopper projection is the front side feed unit member formed to protrude from the vertical while leaving the supply line of the nut so that the supply unit falling into the lower, only the nut located in the lowermost side.

In the present invention, the nut guide is formed of a plate having a shape of a letter.

In the present invention, the forward feeding means is provided to be movable in the forward and backward directions with respect to the nut supplying body by a cylinder mechanism coupled to the rear, and is provided with a pressing member for forwardly moving the unit feeding means forward, And a front end of the conveying plate is simultaneously pushed to the second horizontal supply line by pushing a nut positioned on the nut guide to forwardly feed the nut, And a transfer protrusion for supporting the nut dropped from the unit supply means at the lower portion and dropping the nut to the nut guide at the rear of the transfer plate at the same time.

In the present invention, the pressure rotation preventing means is elastically biased inwardly on both side surfaces of the second horizontal supply line of the nut supply body, and the inner side surface thereof is protruded into the second horizontal supply line, A pressing rotation preventing member having a pressing protrusion protruded to support the nut so that the nut is not rotated during forward movement; and a coupling bolt at a side of the second horizontal supply line of the nut rotation body, And a spring member interposed between the pressing rotation preventing member and the coupling bolt.

The automatic feeding device for the nuts of the tapping machine according to the present invention has the advantage of shortening the working time and the production cost by allowing the automatic feeding of the nuts sequentially in the tapping machine for cutting the female screw into the inner diameter of the nut.

The automatic nut feeder of the tapper according to the present invention is characterized in that when the outer circumferential surface of the cylindrical body is chamfered, the nut does not roll, and the nut that drops from the top is first stopped, The inner diameter side of the nut, on which the female screw is to be machined, is arranged accurately toward the machining means by holding the side surface portion of the screw in the state of being positioned in the forward and backward direction and advancing the screw machining means. Respectively.

1 is a perspective view of an automatic nut feeder of a tapper according to an embodiment of the present invention;
FIG. 2 is an exploded perspective view of a nut automatic feeding device of a tapping machine according to an embodiment of the present invention; FIG.
FIGS. 3-7 are partial operational views of an automatic nut feeder of a tapper according to an embodiment of the present invention. FIG.
8 is a view illustrating a nut alignment operation in an automatic nut feeder of a tapper according to an embodiment of the present invention.

FIG. 1 is a perspective view of a nut automatic feeding device of a tapper according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of an automatic nut feeding device of a tapper according to an embodiment of the present invention, 7 is a partial operation view of an automatic nut feeder of a tapper according to an embodiment of the present invention, and FIG. 8 is a nut operation diagram of an automatic nut feeder of a tapper according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the scope of the present invention being limited only by the terms of the appended claims.

The automatic feeding device for a nut of a tapping machine according to a preferred embodiment of the present invention is characterized in that a nut is chamfered at its upper portion and a first horizontal feed line forwardly fed is extended forward, A nut supply main body having a vertically extending supply line extending downward at a front end portion of the nut supply body and a second horizontal supply line extending forward at a lower end of the vertical supply line, Unit supply means for dropping and feeding the nuts falling through the vertical supply line one by one for each time when the nut is elastically biased rearwardly and moved forward, And the nuts supplied by the unit supply unit are supported at the bottom and the ripping is arranged in the front-rear direction A nut guide for moving the nut in a forward and backward direction relative to the nut supply main body and forwardly pressing the unit feed means forward to move the nut forward, The nut is pushed to the second horizontal supply line and is forwardly fed and threaded by the screw working means while the nut falling from the unit feeding means is supported at the bottom, A forward feeding means for elastically deflecting inwardly both sides of a second horizontal feed line of the nut feeding body and for urging the nut in a forward direction during the forward feeding of the nut by the forward feeding means, And a pressurized rotation preventing means for supporting the pressurized fluid.

Hereinafter, the connection relationship between the components of the automatic nut supply device 1 of the tapper according to the preferred embodiment of the present invention and its components will be described in detail with reference to FIGS. 1 to 8. FIG.

The nut supplying main body 100 is attached to the inner peripheral surface of the pawl 151 of the nut 150 through the threading means 600 and is threaded by the threading means 600 The screw 150 is automatically inserted into the pawl 151 so as to be automatically aligned by the nut automatic feeding device of the tapper according to the embodiment of the present invention, Is supplied in a chamfered shape.

A first horizontal supply line 110 extending forward is formed in the upper portion of the nut supply main body 100 by inserting nuts 150 having chamfered teeth 151 therein. A feeding port 111 through which a nut 150 chamfered by a wave 151 is inserted is formed on one side of a first horizontal supply line 110 of the nut supply main body 100, A cylinder mechanism (not shown) for pushing and moving the nut 150 forward is provided at the rear of the horizontal supply line 110. The first horizontal supply line 110 of the nut supply main body 100 is formed in a U-shaped channel structure having a width corresponding to the length of the nut 150.

At the front end of the first horizontal supply line 110, a vertical supply line 120 in which the nut 150 is dropped extends downward. Unit supply means 200, which will be described later, is installed below the vertical supply line 120 in order to supply one nut 150 for threading. The vertical supply line 120 of the nut supply main body 100 is formed in a vertically rectangular columnar structure in which an opening corresponding to the entirety of the nut 150 is formed.

In addition, a second horizontal supply line 130 extends forward from a lower end of the vertical supply line 120. The second horizontal supply line 130 is a part arranged so that the perforations 151 are aligned in the forward and backward directions of the screwing means 600. The second horizontal supply line 130 is provided with a unit supply A nut guide 300 for rolling the nut 150 supplied by the means 200 to the second horizontal supply line 130 so that the perforation 151 is arranged in the longitudinal direction is provided. The second horizontal supply line 130 of the nut supply main body 100 is formed in a U-shaped channel structure having a width corresponding to the length of the nut 150.

On the other hand, the unit supply means 200 is elastically biased rearwardly on the lower side of the vertical supply line 120 of the nut supply main body 100. When the unit supply means 200 is moved forward The nut 150 falling down through the vertical supply line 120 is dropped one by one and supplied onto the nut guide 300 to be described later.

The unit supply means 200 includes a rear side unit supply member 210 in which the first stopper protrusions 212 protrude, a spring member 220 for elastically biasing the unit supply means 200 rearward, Side unit feed member 230 in which the stopper protrusion 231 is protruded.

At this time, the rear side unit supply member 210 is elastically biased rearwardly below the vertical supply line 120 of the nut supply body 100, and the front side unit supply member 230 is integrally coupled to both lower sides The first stopper protrusion 212 protrudes from the rear side unit supply member 210 and the front side unit supply member 230. The first stopper protrusion 212 protrudes from the front side unit supply member 230, The nut 150 is further moved to the lower part of the nut supply main body 100 except for the nut 150 positioned at the lowermost position, So as not to fall down.

The spring member 220 is interposed between the lower side of the vertical supply line 120 of the nut supply main body 100 and the unit supply means body 210 to connect the rear side unit supply member 210 and the front side unit supply member 230, The unit supply means 200 is configured to elastically bias the unit feeding means 200 backward. The unit spring 200 can be formed of a normal coil spring.

The front side unit supply member 230 is coupled to both ends of the coupling leg 211 of the rear unit supply member 210 and a second stopper projection 231 is protruded from the center of the front side unit supply member 230. The second stopper projection 231 The rear portion of the unit feeding means 200 including the rear side unit feeding member 210 and the front side unit feeding member 230 simultaneously protrudes into the vertical feeding line 120 of the nut feeding body 100, The unit supply means 200 including the rear unit supply member 210 and the front unit supply member 230 and the front of the unit supply means 200 supporting the lower portion of the nut 150 positioned at the front Only the nut 150 located at the lowermost position while being detached from the supply line 120 is caused to fall down to the lower position where the nut guide 300 is mounted. The second stopper projection 231 is provided below the first stopper projection 212 of the rear side unit supply member 210. [

A nut guide 300 is coupled to the lower side of the nut supply body 100 and horizontally arranged on the second horizontal supply line 130. The nut guide 300 supports the nuts 150 supplied by the unit feeding means 200 from below and the nuts 150 are connected to the second horizontal supply line 130 And serves as a rolling guide for rolling.

As shown in FIGS. 2 and 8, the nut guide 300 is formed of a plate having a shape of '''so that the nut 150 can be pushed forward and rolled down.

On the tapping device in which the nut supplying main body 100 is additionally provided, the forward feeding means 400 is provided so as to be movable in the forward and backward directions with respect to the nut feeding main body 100. The forward feed means 400 pushes the unit feed means 200 forward and moves the feed unit 200 forward and pushes the nut 150 positioned on the nut guide 300 down to the second horizontal feed line 130 The nut 150 is lowered from the unit feeding means 200 and the nut 150 is moved backward by the nut guide 300 To be dropped.

As shown in detail in FIG. 2, the forward transfer means 400 is installed to be movable in the forward and backward directions with respect to the nut supply main body 100 on the tapping machine by a cylinder mechanism (not shown) The transfer plate 410 is connected to both sides of the pressing member 411 and is connected to the transfer plate 410. The transfer plate 410 has a pressing member 411 protruding forward from the unit feeding means 200, The nut 150 positioned on the nut guide 300 is pushed to the second horizontal supply line 130 to be forwardly moved and threaded by the screw processing means 600 A transfer protrusion 420 for supporting another nut 150 falling from the unit supply means 200 from below and dropping the nut 150 to the nut guide 300 at the rear of the transfer plate 410 .

On the other hand, on both sides of the second horizontal supply line 130 of the nut supply main body 100 described above, the pressure anti-rotation means 500 is elastically biased inward. When the nut 150 is forcibly fed forward by the forward feed means 400 in the second horizontal feed line 130 for threading by the screw processing means 600, The nut 150 is not rotated any more so that the ribs 151 are arranged in the front-rear direction so that the nuts 150 are not rotated any more.

The pressurization and rotation preventing means 500 is elastically biased inwardly on both sides of the second horizontal supply line 130 of the nut supply main body 100 and protrudes into the second horizontal supply line 130 on the inner side, A pressing rotation preventing member 510 in which a pressing support protrusion 511 for pressing and supporting the nut 150 is formed so as to protrude during forward feeding of the nut 150 by the means 400, 510 are coupled to both sides of the second horizontal supply line 130 of the nut supply main body 100 through the engagement bolts 520 and between the pressure anti-rotation member 510 and the engagement bolts 520, And a spring member 530 for elastically biasing the pressing rotation preventing member 510 including the protrusion 511 inward.

The side walls of the second horizontal supply line 130 are pressurized so that the pressing support protrusions 511 of the pressure anti-rotation member 510 protrude into the second horizontal supply line 130 to press- A through hole 131 through which the pressing support protrusion 511 of the rotation preventing member 510 passes is formed. Further, the spring member 530 can be formed of a normal coil spring.

The screw machining means 600 installed on the tapping machine has already been disclosed in the patent registration No. 10-1291620 (published on Aug. 31, 2013), which was filed by the applicant of the present invention. Here, for the sake of simplification of the description, A description thereof will be omitted.

Hereinafter, the overall operation of the automatic nut feeder 1 of the tapper according to the preferred embodiment of the present invention will be described in detail with reference to FIGS. 3 to 8. FIG.

When the threaded teeth 150 are inserted and aligned through the inlet 111 of the first horizontal supply line 110 of the nut supply main body 100 through the preprocessing, As the cylinder mechanism (not shown) coupled to the rear of the horizontal supply line 110 is moved forward, the aligned screw 150 is pushed forward and fed to the vertical supply line 120 as shown in FIG. 3 .

At this time, both the unit feeding means 200 and the front feeding means 400 are held in a rearwardly moved state, so that the second stopper protrusions 231 of the front side unit feeding member 230 of the unit feeding means 200 Of the screws 150 project into the vertical supply line 120 to support the lower end of the lowermost screw 150 aligned with the vertical supply line 120.

4, when the forward feeding means 400 is moved forward and the unit feeding means 200 is pushed forward by a larger force than the spring member 220, the vertical feeding line 120 The second stopper protrusion 231 of the front side unit supply member 230 supporting the lower end of the lowermost screw 150 among the screws 150 arranged in the vertical supply line 120 is removed from the vertical supply line 120, And the first stopper projection 211 of the rear side unit supply member 210 is introduced into the vertical supply line 120 while the screw 150, respectively.

5, when the forward transfer means 400 is moved backward and the transfer protrusion 420 of the forward transfer means 400 is removed from the vertical supply line 120, The second stopper protrusion 231 of the front side unit supply member 230 protrudes into the vertical supply line 120 and the vertical supply line 120 The lower end of the lowermost thread 150 among the screws 150 aligned with the lower thread 150. [

6, the forward transfer means 400 is moved forward and the transfer protrusion 420 of the forward transfer means 400 pushes the nut 150 on the nut guide 300, The nut 150 is rolled down on the nut guide 300 as shown in FIG. 8 so that the nut 151 is cut off on the second horizontal guide member 130, So that the perforations 150 are arranged in the front-rear direction.

7, the forward transfer means 400 is further moved forward, and the transfer protrusion 420 of the forward transfer means 400 pushes the nut 150 on the second horizontal guide member 130 The nut 150 is further rotated by the pressing support protrusions 511 of the pressing rotation preventing means 500 protruding inward through both side walls of the second horizontal guide member 130 The threading is performed through the threading means 600 in a state in which it is not gripped.

Then, when the forward conveying means 400 is moved backward, the state shown in Fig. 3 is restored and the operation states of Figs. 3 to 7 are repeated again.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention, the embodiments being exemplarily described above. It is therefore intended that the above-described embodiments be considered as illustrative rather than restrictive, and that all implementations within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

100: nut supply main body 110: first horizontal supply line
111: Inlet port 120: Vertical supply line
130: first horizontal supply line 131: through hole
200: unit feeding means 210: rear unit feeding member
211: coupling leg 212: first stopper projection
220: spring member 230: front side unit feed member
231: second stopper projection 300: nut guide
400: forward feed means 410: feed plate
411: pressure member 420: feed projection
500: pressure rotation prevention means 510: pressure rotation prevention member
511: pressing protrusion 520: engaging bolt
530: spring member 600: threading means

Claims

A first horizontal supply line 110 extending forward and a front end of the first horizontal supply line 110 are formed with a nut 150 having a chamfered ridge 151 inserted therein, A nut supply main body 100 having a vertical supply line 120 extending downward and a second horizontal supply line 130 extending forward at a lower end of the vertical supply line 120;
The nut 150 is elastically biased rearwardly to the lower side of the vertical supply line 120 of the nut supply main body 100 and is dropped one by one through the vertical supply line 120 whenever it is moved forward Unit supply means 200 for supplying the unit supply means 200;
A nut 150 which is coupled to a lower side of the nut supply body 100 and horizontally arranged on the second horizontal supply line 130 and supports the nut 150 from below, A nut guide 300 for causing the nut 150 to roll to the second horizontal supply line 130 so as to be arranged in the front-rear direction;
The unit feed means 200 is movably moved forward and the unit feed means 200 is moved forward and the nut 150 positioned on the nut guide 300 is pushed forward And then the screw 150 is screwed by the screw processing means 600 and the nut 150 dropped from the unit feeding means 200 is fed from the lower side to the second horizontal feed line 130. [ Forward transfer means 400 for dropping the nut 150 to the nut guide 300 at the same time rearward; And
The nut 150 is elastically biased inwardly on both sides of the second horizontal supply line 130 of the nut supply main body 100 and when the nut 150 is forwardly transferred by the forward transfer means 400, Rotation preventing means (500) for pressing and holding the rotation preventing member (500) so as not to rotate.

The method according to claim 1,
A feeding port 111 through which a nut 150 is chamfered by a wave 151 is formed on one side of the first horizontal supply line 110 of the nut supply main body 100,
And a cylinder mechanism for pushing and moving the nut (150) forward is provided on the rear of the first horizontal supply line (110) of the nut supply main body (100).

The method according to claim 1,
The unit supplying means 200 is installed on the lower side of the vertical supply line 120 of the nut supplying main body 100 and has coupling legs 211 protruding from both sides of the lower side, A first stopper for supporting the nut 150 so that the nut 150 is not dropped to the lower portion except for the nut 150 positioned at the lowest position while the front of the nut 150 protrudes into the vertical supply line 120 of the nut supply body 100, A rear unit supply member 210 protruding from the rear unit supply member 210 and a rear unit supply member 210 interposed between a lower side of the vertical supply line 120 of the nut supply body 100 and the rear unit supply member 210, A spring member 220 for elastically biasing the side unit supply member 210 to a rear side and a pair of opposite ends of the unit supply member 200 coupled to both ends of the unit supply member 210, The rear is simultaneously inserted into the vertical supply line 120 of the nut supply main body 100 And the lower end of the nut 150 positioned at the lower side is protruded while the front of the unit supply means 200 is simultaneously detached from the vertical supply line 120 of the nut supply main body 100, And a second stopper protrusion (231) protruding from the first unit feed member (230) so that the second stopper protrusion (231) is formed to drop only the second stopper protrusion (150).

The method according to claim 1,
Wherein the nut guide (300) is formed of a plate having a shape of a letter.

The method according to claim 1,
The front feeding means 400 is provided to be movable in the forward and backward directions with respect to the nut feeding main body 100 by a cylinder mechanism coupled to the rear side and the front side simultaneously presses the unit feeding means 200 A transfer plate 410 on which a pressing member 411 for moving forward is formed so as to be protruded and a transfer plate 410 which is coupled to both sides of the pressing member 411 so that the front side of the transfer plate 410 is simultaneously mounted on the nut guide 300 The nuts 150 are pushed into the second horizontal supply line 130 and are forwardly transported to be threaded by the screw processing means 600 while being dropped from the unit supply means 200 And a transfer protrusion (420) for supporting the nut (150) at the bottom and dropping the nut (150) to the nut guide (300) simultaneously with the rear of the transfer plate (410) Auto Supply.

The method according to claim 1,
The pressing rotation preventing means 500 is elastically biased inwardly on both sides of the second horizontal supply line 130 of the nut supply main body 100 and protrudes into the second horizontal supply line 130 A pressing rotation preventing member 510 protruding from the nut 150 to prevent the nut 150 from rotating during forward feeding of the nut 150 by the forward feed means 400, The engagement timing of the pressing rotation preventing member 510 on both sides of the second horizontal supply line 130 of the nut supply main body 100 includes an engagement bolt 520 and the pressing rotation preventing member 510 and the engagement bolt And a spring member (530) interposed between the upper and lower plates (520, 520).