KR20200114245A - Screw Feeder - Google Patents

Abstract

An objective of the present invention is to provide a screw feeder which accurately matches the center axis of a screw and the center axis of the bit of an electric driver to effectively fasten the screw. According to the present invention, the screw feeder comprises: a screw feeding rail (10) which aligns screws, and is installed to be inclined to supply the aligned screws one at a time; a screw placing unit (20) allowing a screw supplied from the screw feeding rail (10) to be placed thereon, and including a main body (21) consisting of a block, a screw portion accommodation hole (22) formed on the main body (21) and longitudinally formed from an upper portion to a lower portion thereof to accommodate the screw portion of the screw, a placing groove (23) being formed on the upper end of the screw portion accommodation hole (22) and allowing a lower end portion of the head portion of the screw to be placed thereon, and an opening part (24) communicating with the screw portion accommodation hole (22) and the placing groove (23) and being opened to one side of the main body (21); a screw holder (30) separated from the screw feeding rail (10) to be positioned so as to be vertically driven to move the screw placed on the screw placing unit (20) to a screw fastening position by sucking the screw, and provided with a bit (31) of an electric driver therein to fasten the screw; a screw axis aligning unit (40) to align the center axis of the bit of the electric driver to fasten the screw placed on the screw placing unit (20) and the center axis of the screw placed on the screw placing unit (20) to match the center axis of the bit of the electric driver and the center axis of the screw; and a screw placing unit transport unit (50) to transport the screw placing unit (20) to position the screw placed on the screw placing unit (20) underneath the screw holder (30).

Description

Screw Feeder

The present invention relates to a screw feeder for accurately supplying the supplied screw to a driver for fastening the screw.

A substrate that forms a circuit and electrically connects the components mounted thereon to operate electrically is fixed to a bracket for fixing the substrate, but is usually fastened by using a screw.

Conventionally, an operator has fastened with a screw using an electric driver, but the work efficiency is lowered according to the operator's skill level, so an automatic screw feeder that automatically tightens the screw is applied.

Examples of applying an automatic screw feeder include Korean Patent Registration No. 10-1765263 (name of the invention: automatic screw feeder) and Korean Patent Publication No. 10-2017-0027981 (name of the invention: screw transfer device for automatic screw fastening). ), etc.

The automatic screw feeder includes, as shown in FIG. 1, a screw feeding rail 100 that arranges screws and supplies the arranged screws one by one; A screw holder 200 positioned at a horizontal distance from the screw feeding rail and adsorbing the screw while moving up and down to move it to the screw fastening position; And a screw transfer unit 300 for moving the screw supplied from the screw feeding rail in the line of movement of the screw holder.

The screw fastening unit includes an electric driver 260 that moves up and down by the driving unit, and the bit 261 of the electric driver is inserted, and a screw holder 230 that adsorbs the screw while linearly reciprocating up and down together with the electric driver, and a screw holder It includes a vacuum supply unit 250 for supplying the vacuum (vacuum).

In the automatic screw feeder, when the screw is supplied to the screw transfer unit 300 through the screw feeding rail 100, the electric driver and the screw holder move downward, and the screw holder 230 adsorbs the screw, and the screw holder further As it moves down, the screw is placed in the fastening position of the part, and the bit of the electric driver moves down along the screw holder and rotates to fasten the screw to the part.

In the conventional automatic screw feeder, when the screw is supplied to the screw transmission unit 300 through the screw feeding rail, it is difficult to match the axial center of the bit of the electric driver. The stopper has a seating groove in which the head of the screw will be seated, but the seating groove must be formed with a larger diameter than the head of the screw so that the head of the screw will be seated in the seating groove. Even if the screw is seated in the seating groove, the screw seating position is It does not exactly match the bit of the electric driver. Accordingly, when the screw is fastened by the rotation of the bit of the electric driver, an impact is generated when the bit is inserted into the bit insertion groove of the screw head. If such an impact is severe, the position between the substrate and the bracket to which the substrate is fixed is Due to the fluctuation, fastening becomes difficult, and even if fastening is performed, there is a large problem that there is a concern that the substrate may be damaged.

The present invention was conceived to solve the above problems, and an object of the present invention is to set the seated screw to the center axis of the screw and the center of the bit of the electric driver when the screw supplied through the screw feeding rail is seated on the stopper. It is to provide a screw feeder that smoothly tightens the screw by making it exactly aligned with the shaft.

The screw feeder of the present invention for achieving the above object comprises: a screw feeding rail 10 which is inclined to align the screws and supply the aligned screws one by one; The screw supplied from the screw feeding rail 10 is seated, but the body 21 of a block and a threaded portion receiving hole formed in the body 21 and formed long from the top to the bottom and accommodated the threaded portion of the screw ( 22), and a seating groove 23 formed at the upper end of the screw portion receiving hole 22 and in which the lower end of the screw head is seated, and the screw portion receiving hole 22 and the seating groove 23 are in communication with the main body A screw seating portion 20 provided with an opening 24 opened to one side of (21); A bit of an electric driver that is located spaced apart from the screw feeding rail 10, is driven up and down to adsorb the screw seated on the screw seating part 20 and move it to the screw fastening position, and fastens the screw therein ( 31) is provided with a screw holder 30; A screw shaft alignment unit 40 that aligns the center axis of the bit of the electric driver to fasten the screw seated on the screw seat 20 and the central axis of the screw seated on the screw seat 20; A screw seat transfer unit 50 for transferring the screw seat 20 so that the screw seated on the screw seat 20 is located under the screw holder 30; It characterized in that it comprises a.

In addition, the threaded portion receiving hole 22 is formed to be tapered so as to contact the thread of the threaded portion 1b in a state in which the screw is upright, and the screw shaft alignment portion 40 is formed of the screw seating portion 20. The main body 21 is provided on the other side of the main body 21 so that the screw seated in the screw seating portion 20 is directed to one side of the screw portion receiving hole 22 and the seating groove 23 by magnetic force. It is characterized in that it is a magnet that is pulled in the direction of the other side of the screw to align the screw in an upright state.

In addition, it is installed adjacent to the opening 24 of the main body 21, and when the screw is supplied from the screw feeding rail 10 to the screw seating part 20, the screw is prevented from being separated into the opening 24. It characterized in that it is further provided with a screw separation prevention plate 60 to prevent.

The screw feeder of the present invention having the above configuration, when the screw supplied through the screw feeding rail is seated, is seated so as to accurately match the central axis of the screw and the central axis of the bit of the electric driver, It is possible to smoothly fasten the screw. In addition, when the screw is fastened by the rotation of the bit of the electric driver, the impact is minimized when the bit is inserted into the bit insertion groove of the screw head, so that the position between the substrate and the bracket to be fixed does not change. It is possible, and it is possible to prevent damage to the substrate.

1 is a view showing a conventional screw feeder.
2 is a front view showing the screw feeder of the present invention.
3 is a side view showing the screw feeder of the present invention.
4 is a plan view showing the screw feeder of the present invention.
5 is a view showing the screw alignment operation of the screw feeder of the present invention.

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

Figure 2 is a front view showing the screw feeder of the present invention, Figure 3 is a side view showing the screw feeder of the present invention, Figure 4 is a plan view showing the screw feeder of the present invention, Figure 5 is screw alignment of the screw feeder of the present invention It is a diagram showing the operation.

As shown, the screw feeder of the present invention, the screw feeding rail 10; Screw seat 20; Screw holder 30; Screw shaft alignment portion 40; It consists of; including; screw seat transfer unit 50.

The screw feeding rail 10 is installed inclined to align the screws and supply the aligned screws one by one. The screw feeding rail 10 is provided with a T-shaped transfer groove so that the head of the screw is positioned at the upper portion and transferred.

The screw feeding rail 10 may be provided as one so that the screws are aligned and supplied directly from the hopper in which the screw is accommodated, and may be provided in two.

When the screw feeding rail 10 is provided in two, the screw feeding rail 10 includes a first screw feeding rail for supplying a screw in alignment from a hopper in which the screw is accommodated, and a screw from the first screw feeding rail. It consists of a second screw feeding rail that receives the supply and supplies the screw to the screw seat 20. At this time, the hopper in which the screw is accommodated and the first screw feeding rail are fixed, and the second screw feeding rail is adjacent to the end of the screw supply side of the first screw feeding rail so as to receive the screw from the first screw feeding rail, and the first screw When a screw is supplied from the feeding rail, it is separated from the first screw feeding rail and transferred to the screw seat 20 so as to supply the screws to the screw seat 20 one by one.

The screw seating part 20 serves to seat the screw supplied from the screw feeding rail 10. The screw seating portion 20 is composed of a body 21, a screw portion receiving hole 22, a seating groove 23, and an opening 24.

The main body 21 is a block made of a rectangular parallelepiped.

The body 21 is formed with a threaded portion receiving hole 22, a seating groove 23 and an opening 24.

The threaded portion receiving hole 22 is formed in the body 21, is formed long from the top to the bottom, and the threaded portion of the screw is accommodated.

The seating groove 23 is formed at the upper end of the screw receiving hole 22 and the lower end of the screw head is seated.

The opening 24 communicates with the threaded portion receiving hole 22 and the seating groove 23 and is opened to one side of the main body 21.

At this time, the screw feeding rail 10 is installed to supply a screw in the formation direction of the opening 24 formed at one side of the main body 21.

The screw 1 supplied from the screw feeding rail 10 which is installed inclined is supplied while the threaded part 1b of the screw 1 is inserted into the opening 24, and the threaded part of the supplied screw 1 ( 1b) is accommodated in the threaded portion receiving hole 22, and the head portion 1a is stopped because the lower portion is seated in the mounting groove 23 formed at the upper end of the threaded portion receiving hole 22.

When the screw 1 is seated in the screw seating part 20, the screw shaft center is aligned with the center axis of the bit of the electric driver to be fastened by the screw shaft aligning part 40 to be described later, When the screw shaft is aligned, the screw seating portion 20 is transferred by the screw seating portion conveying portion 50 to be described later, and the seated screw is moved to the lower portion of the screw holder 30 to be described later, and the screw holder 30 is vertically moved. It is driven to adsorb the screw, and when the screw is adsorbed, the screw seating unit 20 is returned to its original position by the screw seating unit transfer unit 50, and the substrate supplied to the lower portion of the screw holder 30 is fixed to the substrate fixing bracket. do.

The screw holder 30 is located spaced apart from the screw feeding rail 10 and is driven up and down to adsorb the screw seated on the screw seating part 20 and move it to the screw fastening position. A bit 31 of the electric driver to be fastened is provided.

The screw shaft alignment part 40 is aligned to match the central axis of the bit of the electric driver to which the screw seated in the screw seating portion 20 is to be fastened and the central axis of the screw seated in the screw seating portion 20 Plays a role.

The screw seat transfer unit 50 serves to transfer the screw seat 20 so that the screw seated on the screw seat 20 is positioned under the screw holder 30. The screw receiving part conveying part 50 allows the screw receiving part 20 to be horizontally conveyed perpendicular to the screw supply direction of the screw feeding rail 10. The screw seat transfer unit 50 is to be transferred by a cylinder. The screw receiving part conveying part 50 is fixed to the base plate 100, and the screw receiving part 20 is conveyed on the base plate 100 by the screw receiving part conveying part 50 to the screw holder 30 By being transferred to the lower portion of the screw is in a state that can be supplied to the screw holder (30).

At this time, it is preferable that the threaded portion receiving hole 22 is formed to be tapered so as to contact the thread of the threaded portion 1b while the screw is upright. In addition, the screw shaft alignment portion 40 is provided on the other side of the main body 21 of the screw seating portion 20, and the screw seated in the screw seating portion 20 is the screw portion receiving hole by magnetic force. It is preferable that it is a magnet that aligns the screw in an upright state by pulling it in the direction of the other side of the main body 21 so as to be focused on one side of the seat 22 and the seating groove 23. At this time, the magnet is preferably an electromagnet.

The screw 1 supplied from the screw feeding rail 10 is mostly in the state of FIG. 5 (a), and the threaded portion 1b and the head 1a of the screw 1 are respectively the threaded receiving holes 22 And is to be seated away from one side (inner end) of the seating groove 23. In this state, when the screw seated in the screw seating portion 20 is pulled by a magnet, the screw portion 1b of the screw 1 is pulled to one side of the screw portion receiving hole 22 and the head portion of the screw 1 (1a) is the state (b) of FIG. 5 that is focused to one side of the seating groove 23, and the screw is aligned.

When the screws are aligned by the magnet in this way, the central axis of the screw is in a state in which the central axes of the bit 31 of the electric driver provided in the screw holder 30 are parallel to each other. When the screw seating portion 20 is transported by the screw seating portion conveying portion 50 while the central axis of the screw is aligned by the magnet in this way, the central axis of the screw is provided inside the screw holder 30. It coincides with the central axis of the bit 31 of the electric driver, and in this state, when the screw holder 30 descends and adsorbs the screw, the screw is adsorbed to the correct position to prevent the rotation of the bit 31 of the electric driver. This makes it possible to fasten the screw to the correct position when fastening it.

The screw feeder of the present invention having the above configuration, when the screw supplied through the screw feeding rail is seated, is seated so that the seated screw is precisely matched with the central axis of the screw and the central axis of the bit of the electric driver, It is possible to smoothly fasten the screw. In addition, when the screw is fastened by the rotation of the bit of the electric driver, the impact is minimized when the bit is inserted into the bit insertion groove of the screw head, so that the position between the substrate and the bracket to be fixed does not change. It is possible, and it is possible to prevent damage to the substrate.

In this way, when the screw seated on the screw seating portion 20 by the screw seating portion conveying portion 50 in the state in which the central axis of the screw is aligned by the magnet is transferred to the direct lower portion of the screw holder 30, the The magnet blocks the supply of current so that the screw is easily adsorbed by the screw holder 30.

It is installed adjacent to the opening 24 of the main body 21, and when a screw is supplied from the screw feeding rail 10 to the screw seating part 20, and by the screw seating part conveying part 50, the screw It is preferable that a screw separation prevention plate 60 is further provided to prevent the screw from being separated from the opening 24 by closing the opening 24 when the seating portion 20 is transferred.

The screw separation prevention plate 60 also serves to prevent the screw from being separated into the opening 24 when the screw is supplied from the screw feeding rail 10 to the screw seating part 20. When the screw seating portion 20 is transferred by the screw seating portion transfer portion 50 at high speed, it also serves to prevent the screw from being separated from the opening portion 24.

The screw separation prevention plate 60 is formed to be elongated in the transport direction of the screw seating portion 20 so that when a screw is supplied from the screw feeding rail 10 to the screw seating portion 20 and the screw seating portion conveying portion When the screw seating portion 20 is transferred by 50, the opening 24 is closed.

It is preferable that a screw detection sensor 70 is provided spaced apart from the top of the main body 21 and detects a screw seated in the screw seating part 20. The screw detection sensor 70 detects a screw in which the screw shaft is aligned by being seated on the screw seat 20, and if the screw is not detected, the operation of the screw seat transfer unit 50 is impossible. When is sensed, power is supplied to the screw seat transfer unit 50 so that the screw seating unit 20 can be transferred by the screw seat transfer unit 50.

The screw detection sensor 70 may be fixed to the upper portion of the main body 21 using a separate fixture, or may be fixed to the upper portion of the screw feeding rail 10. In the drawing, it is shown that the screw detection sensor 70 is fixed on the upper portion of the screw feeding rail 10.

The technical idea should not be interpreted as limited to the above-described embodiments of the present invention. As well as a variety of application ranges, various modifications can be made at the level of those skilled in the art without departing from the gist of the present invention claimed in the claims. Therefore, these improvements and changes will fall within the scope of protection of the present invention as long as it is apparent to those skilled in the art.

1: screw
1a: head
1b: threaded part
10: Screw feeding rail
20: screw seat
21: main body
22: thread receiving hole
23: seating groove
24: opening
30: screw holder
31: bit
40: screw shaft alignment
50: screw seat transfer part
60: screw separation prevention plate
70: screw detection sensor

Claims (3)

Screw feeding rails 10 which are inclined to align the screws and supply the aligned screws one by one;
The screw supplied from the screw feeding rail 10 is seated, but the body 21 of a block and a threaded portion receiving hole formed in the body 21 and formed long from the top to the bottom and accommodated the threaded portion of the screw ( 22), and a seating groove 23 formed at the upper end of the screw portion receiving hole 22 and in which the lower end of the screw head is seated, and the screw portion receiving hole 22 and the seating groove 23 are in communication with the main body A screw seating portion 20 provided with an opening 24 opened to one side of (21);
A bit of an electric driver that is located spaced apart from the screw feeding rail 10, is driven up and down to move the screw seated on the screw seating portion 20 to the screw fastening position by adsorbing it, and to fasten the screw therein ( 31) is provided with a screw holder 30;
A screw shaft alignment unit 40 that aligns the center axis of the bit of the electric driver to fasten the screw seated in the screw seating portion 20 with the central axis of the screw seated in the screw seating portion 20;
A screw seat transfer unit 50 for transferring the screw seat 20 so that the screw seated on the screw seat 20 is located under the screw holder 30;
Screw feeder, characterized in that comprising a. The method of claim 1,
The threaded portion receiving hole 22 is formed to be tapered so as to contact the thread of the threaded portion 1b while the screw is upright,
The screw shaft alignment portion 40 is provided on the other side of the main body 21 of the screw seating portion 20, and the screw seated in the screw seating portion 20 is magnetically applied to the screw portion receiving hole 22 ) And the seating groove (23) by pulling in the direction of the other side of the body (21) so that the screw is aligned in an upright state. The method of claim 2,
It is installed adjacent to the opening 24 of the main body 21 and prevents the screw from being separated into the opening 24 when the screw is supplied from the screw feeding rail 10 to the screw seating part 20. Screw feeder, characterized in that the screw separation prevention plate (60) is further provided.

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