KR100926585B1 - The inspection of a screw - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screw sorting device, and more particularly, to a screw sorting device capable of easily checking and sorting a manufactured thread molding defect.

To this end, the present invention is provided with a support on the bottom and the support for mounting the drive motor and the speed control unit, a drive friction car that is integrally rotated by being coupled to the drive shaft interlocked from the drive motor, the vertical direction to the drive friction car Rotating shaft is installed on the support to be rotated to the front and rear at the same time, sliding on the rotating shaft, the reversible rotating portion is formed on one end of the rotating shaft and the rotating shaft which can be switched in both directions as the rotating shaft slides back and forth Provided is a thread sorting device comprising an inspection section for inspecting the thread dimensions of a hole.

Support base, drive control unit, reversible rotating unit, inspection unit

Description

Screening device {The inspection of a screw}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screw sorting device, and more particularly, to a screw sorting device capable of easily checking and sorting a manufactured thread molding defect.

Generally, a screw that is widely used as a fastening element of various parts is made of a screw material by cutting a predetermined length at the same time as the head is formed at one end while a steel wire cut to a certain length passes through a header. When the screw material passes through the roll cutter again, threads are formed on the outer circumference to form a desired screw.

Thereafter, the screw thus manufactured is subjected to a plating process, and the outside may be chromium or zinc plated.

At this time, the defects appearing in the manufactured screw are the specification failure of the head, the molding failure of the thread, the molding distortion of the spiral, and the like.

For example, the head size is that when the cross-shaped groove formed in the head portion is inscribed shallowly, the shaped head is not fully compressed so that the diameter is less than the size, and if the shape is too deep, the diameter is over.

In addition, the poor specification of the head may appear even if the head is plated with foreign matter on the head surface in the plating process.

In addition, the thread molding failure is the main cause of the tolerance increase due to the wear of the roll cutter, and when the posture of the screw material supplied between the roll cutters is improper, it is thrown out and becomes unthreaded or the thread is partially molded. Occurs as

As described above, the defective screw needs to be sorted out before shipment.

Therefore, in modern times, the precision of machines and apparatuses is becoming increasingly important, and accordingly, the precision of the diameter, depth, thread dimension, etc. of a screw hole is also important.

Therefore, after the formation of the screw holes, it is required to inspect the diameters, depths, dimensions of the screw threads, etc. of these screw holes, and several inspection methods and inspection apparatuses have been used in response to these requirements.

However, in the conventional screw hole inspection method, since the inspector manually checks the screw holes in the screw holes formed in the tabbed member, it is not only cumbersome but time-consuming and labor costs such as labor costs are high.

Alternative methods are known which rely on mechanical means, which are spaced apart from each other at regular intervals, with the screw passing through a pair of rollers of different diameters forming a middle section with stages. It is a method of sorting by dropping just below.

However, this method can only select the head size of the screw, and the molding failure of the thread, which is another cause of the defect, still has to be screened depending on the naked eye.

In addition, an inspection method using a laser is known. According to this method, it is possible to inspect the diameter and depth of the screw hole relatively accurately and simply, but it is impossible to inspect the dimension of the thread or the defect occurring in the middle of the thread. Therefore, there is a limit to increasing the accuracy.

In this way, the threading process is performed on bolts, nuts, and various mechanical parts, and the inspection of screw formation depends on the visual and tactile sense of the inspector. There was a dissolution.

The inspection method using mechanical means also has a problem that the structure is complicated and the production cost is high.

The present invention has been made to solve the above problems,

The purpose can be expected to reduce the production cost by simplifying the structure of the inspection apparatus used when inspecting the molded thread defects.

In addition, by simply configuring the structure of the inspection apparatus, there is an effect of reducing the time and the number of people spent during the inspection of the presence or absence of thread failure.

The present invention for achieving the above object is provided with a pedestal on the bottom and a support for mounting the drive motor and the speed control unit, a drive friction car that is integrally rotated coupled to the drive shaft interlocked from the drive motor, and the drive A rotating shaft installed on the support so as to slide forward and backward at the same time as the friction wheel is rotated vertically, and a reversible rotating part formed on the rotating shaft so that the rotation direction can be changed in both directions as the rotating shaft slides back and forth; It is provided on one end of the rotary shaft provides a screw screening device characterized in that it comprises an inspection unit for inspecting the thread size of the screw hole.

According to the screw sorting apparatus according to an embodiment of the present invention as described above,

The production cost can be expected to be reduced by simplifying the structure of the inspection apparatus used to inspect the defect of the molded thread.

In addition, by simply configuring the structure of the inspection apparatus, there is an effect of reducing the time and the number of people spent during the inspection of the presence or absence of thread failure.

In order to achieve the above object, the present invention includes a support for mounting a drive motor and a speed control device having a pedestal on a bottom surface, a drive friction car that is integrally rotated by being coupled to a drive shaft interlocked from the drive motor, and the drive. Rotating shaft is installed on the support to be rotated in the vertical direction to the friction difference, and coupled to rotate integrally with the rotating shaft on the concentric circle of the rotating shaft, formed on both sides of the driving friction car at least a distance greater than the diameter of the driving friction car A first and second driven friction car, and a coupling screw portion formed on one end of the rotating shaft provides a screw screening device characterized in that it is included.

In addition, the reversible rotating unit is coupled to the rotational axis integrally on the concentric circle of the rotating shaft, the first driven friction car and the second driven friction is formed on both sides of the driving friction car at least a distance larger than the diameter of the driving friction car It can be configured as a car.

In addition, the inspection unit may be a thread formed on the outer peripheral surface to be coupled to the female screw.

Hereinafter, with reference to a preferred embodiment of the accompanying drawings, looks at the configuration and operation of the screw screening device according to the present invention as a relief.

1 is a perspective view of a screw sorting apparatus according to an embodiment of the present invention.

2 is an exemplary view showing a state before contacting the inspection object to the inspection unit of the screw sorting apparatus according to an embodiment of the present invention.

Figure 3 is an exemplary view showing a state pressed against the inspection object to the inspection unit of the screw screen according to an embodiment of the present invention.

4 is an exemplary view illustrating a state in which an inspection object is pulled and separated from an inspection unit of a screw sorting apparatus according to an embodiment of the present invention.

 Screw sorting device is composed of the support 100, the drive control unit 200, the reversible rotating unit 300, the inspection unit 400.

The support 100 is provided with a pedestal 110 to the lower side so that the drive control unit 200, the reversible rotating unit 300 and the inspection unit 400 can be placed.

On the other hand, the drive control unit 200 is composed of a drive motor 210 and the speed control device 220.

At this time, the drive motor 210 is provided with a drive shaft 211 may be a rotational motor that is commonly used.

In addition, the speed controller 220 is installed together to control the rotational speed of the drive motor 210.

In addition, a cylindrical drive friction car 213 is formed at the end of the drive shaft 211 and rotates integrally.

At this time, the friction ring 214 is formed along the outer circumferential surface of the driving friction vehicle 213.

The friction ring 214 is formed of a rubber material so as to easily transmit frictional force, but the grooves (not shown) are formed along the outer circumferential surface of the driving friction car 213 so that the friction ring 214 is firmly fitted. desirable.

On the other hand, the reversible rotating part 300 is rotated in the vertical direction to the drive friction car 213 and at the same time both sides of the support 100 so as to slide back and forth through the rotating shaft 310 is formed.

In this case, the first driven friction car 320 and the second driven friction car 330 having a cylindrical shape are formed on both sides of the driving friction car 213 to be integrally rotated on the rotation shaft 310, and at least the driving friction car ( 213 is spaced apart by a distance greater than the diameter.

On the other hand, the inspection unit 400 is a male screw portion 420 and the chuck 410 is provided with a screw thread on the outer circumferential surface so that the inspection object (S) is coupled to one end of the rotating shaft (310).

At this time, the chuck 410 is preferably a chuck 410 is formed so that the male screw portion 420 having a diameter of various sizes can be selectively coupled to the rotation axis (310).

Hereinafter, the operation relationship of the screw screening device according to an embodiment of the present invention will be described in detail.

As shown in FIG. 2, the driving friction vehicle 213 is integrally rotated by the driving motor 210 which is rotated clockwise when the switch (not shown) of the driving motor 210 is in the ON state.

On the other hand, as shown in FIG. 3, when pressing against the external threaded portion 420 while holding the inspection object S, the rotary shaft 310 slides to the rear side.

At this time, the friction jaw 321 of the first driven friction car 320 is in contact with the friction ring 214 of the driving friction car 213.

At the same time, the rotation direction of the rotation shaft 310 is changed, which is the rotation direction in which the inspection object S is fastened to the male screw part 420.

Therefore, the user is automatically fastened to the external threaded portion 420 if only a small amount of pressure to the front side to the inspection object (S).

At this time, by directly screwing whether the inspection object (S) is completely screwed to the male screw portion 420 can be confirmed whether there is a defect of the thread of the inspection object (S).

On the other hand, as shown in FIG. 4, when the inspection object S is gripped and pulled from the male screw part 420, the rotating shaft 310 slides to the front side.

At this time, the friction jaw 331 of the second driven friction car 330 is in contact with the friction ring 214 of the driving friction car 213.

At the same time, while the rotation direction of the rotation shaft 310 is reversed, the inspection object S is a rotation direction in which the external thread portion 420 is separated.

Therefore, when the user applies a little manpower to the rear side while holding the inspection object S, the user is automatically separated from the male screw portion 420.

Thereafter, the other inspection object is gripped and pressed to the external thread part 420 to repeat the coupling and detachment and perform the inspection.

1 is a perspective view of a screw sorting apparatus according to an embodiment of the present invention.

2 is an exemplary view showing a state before contacting the inspection object to the inspection unit of the screw sorting apparatus according to an embodiment of the present invention.

Figure 3 is an exemplary view showing a state pressed against the inspection object to the inspection unit of the screw screen according to an embodiment of the present invention.

Figure 4 is an exemplary view showing a state in which the test object is pulled and separated from the inspection unit of the screw sorting apparatus according to an embodiment of the present invention.

Explanation of the main symbols used in the drawings

100: support 110: bottom plate

200: drive control unit 210: drive motor

211: drive shaft 213: drive friction car

214: Friction ring 220: Speed control device

300: reversible rotation 310: rotation axis

320: first driven friction car 321: friction jaw

330: second driven friction car 331: friction jaw

400: inspection unit 410: Chuck

420: male thread portion S: test object

Claims (3)

A support having a pedestal on the bottom and for mounting a drive motor and a speed control unit; A drive friction car that is integrally rotated by being coupled to a drive shaft interlocked from the drive motor; A rotating shaft installed on the support so as to rotate in a vertical direction to the driving friction car and to slide forward and backward; A reversible rotating unit which is formed on the rotating shaft and is capable of switching in both directions as the rotating shaft slides forward and backward; And And an inspection unit formed at one end of the rotating shaft to inspect the thread size of the screw hole. The method of claim 1, wherein the reversible rotating unit It is coupled to rotate integrally with the rotating shaft on the concentric circle of the rotating shaft, characterized in that composed of a first driven friction car and a second driven friction car formed on both sides of the driving friction car at least a distance greater than the diameter of the driving friction car Screw sorting device. The method of claim 1, wherein the inspection unit Screw selection device, characterized in that the thread is formed on the outer peripheral surface to be coupled to the female thread.

Images