KR102238715B1 - Screw surface processing apparatus having the eccentric rotation structure - Google Patents

Abstract

The present invention relates to a surface processing apparatus for a screw having an eccentric rotation structure, and more particularly, as a surface processing apparatus configured to process the surface of a screw, a base panel, and disposed on the upper side of the base panel, and therein An operating space is provided and an opening and closing door is provided so that the processing ball units are inserted, an operating tube having an operating bearing therein is formed in the front portion to communicate with the operating space, a support shaft is formed on the outer surface of the rear portion, and a driving shaft is formed on the inner surface. The housing body formed therein, a driving column having a lower end fixed to the base panel and an upper end connected to the operating pipe of the housing body, and a support bearing inside so that the lower end is fixed to the base panel and the support shaft is fitted at the upper end. A support tube having a support tube formed with a guide column, and arranged through the operation tube, a jig portion is formed at one end, the jig portion is disposed in the operating space, and a rotation shaft having a fastening groove formed in the jig portion, and the rotation shaft Consisting of a drive unit consisting of a drive motor that rotates and an operation motor that rotates the housing body,

Description

{Screw surface processing apparatus having the eccentric rotation structure}

The present invention relates to a surface processing apparatus for a screw having an eccentric rotation structure, and more particularly, by arranging the housing body in an inclined manner and rotating it, and rotating the housing body and the screw in the opposite direction, It relates to a surface processing apparatus for a screw having an eccentric rotation structure that increases the surface processing efficiency.

Among various metal processing methods, plastic processing is a method of forming a material into a product of a predetermined shape and dimension using plasticity. Rolling, extrusion, forging, shearing, drawing, press processing, There are various processing methods such as straightening and cutting.

Metal, which is a raw material used for such processing, is generally provided in the shape of a plate, tube, or bar, and is a suitable means for producing large quantities of objects of the same shape and dimensions. It has developed in the direction of efficient production.

Materials corresponding to raw materials are usually transported from the production site before processing and stored until processing, and there are quite a lot of cases in which they are stacked, and in this case, the surface is oxidized or various foreign substances are in most cases.

In this case, if processed as it is, the two parts made of wires such as insect screens are rapidly oxidized, or the strength of the part is remarkably weakened by contaminants, causing problems such as breakage.

In addition, in the case of the screw, the surface is formed to be curved, so that it is difficult to remove foreign substances on the surface or to process the surface by polishing.

In addition, in the past, the screw was plated with chromium, but now it is impossible to plate chromium due to environmental pollution, so the metalizing operation must be performed. However, it is not possible to perform smooth metalizing on the screw with the conventional polishing operation. There was a problem to become.

The above-described invention refers to the background art of the technical field to which the present invention belongs, and does not mean the prior art.

Registered Patent No. 10-1804450

The present invention has been conceived to solve the above-described conventional problem, and an object of the present invention is to rotate the housing body in an inclined position and then rotate the housing body and the screw in the opposite direction. It is an object of the present invention to provide a surface processing apparatus for screws having an eccentric rotation structure that increases surface processing efficiency.

The present invention is a surface processing apparatus configured to process the surface of a screw, the base panel, and disposed on the upper side of the base panel, and an opening and closing door is provided so that an operating space is provided and the processing ball units are inserted therein, and the front part In the housing body, an operating tube having an operating bearing therein is formed in communication with the operating space, a support shaft is formed on the outer surface of the rear surface, and a drive shaft is formed on the inner surface, and the lower end is fixed to the base panel and the upper end is the housing body. A support column connected to the operating tube of the base panel, the lower end is fixed to the base panel, and the upper end is formed with a support tube having a support bearing therein so that the support shaft is fitted therein, and the operating tube penetrates And a jig portion is formed at one end, and the jig portion is arranged in the operating space, the jig portion includes a rotation shaft having a fastening groove formed in the jig portion, a driving motor configured to rotate the rotation shaft, and an operating motor that rotates the housing body. It is characterized by that.

In addition, the housing body is rotated by being inclined in a diagonal direction, the driving motor and the operating motor are rotated in opposite directions, and one end of the screw is fitted and fixed in the fastening groove of the jig part, and the other end of the screw A driving groove is formed in the drive shaft, and the driving groove is inserted and supported by the driving shaft.

In addition, a curved spiral guide panel is further formed on the inner side of the housing body to maintain a predetermined distance, and guide the processing ball units to the screw.

In addition, the housing body is further provided with a movable surface processing means configured to process the surface by pressing the screw while moving, and the movable surface processing means includes a transfer cylinder having one end fixed to the inner surface of the housing body, and the transfer A rotary motor fastened to the transport shaft of the cylinder and transported, an elastic pressurizing rod having a driving space to be inserted into one end of the working shaft of the rotary motor, and having a driving space in communication with the suction groove, and one end is fixed to the transport shaft. And an elastic coil spring disposed in a driving space of the elastic pressing rod, and friction pins formed on an outer surface of the elastic pressing rod.

In addition, a vibrator is further disposed in the elastic pressure rod driving space, and the vibrator is fixed to the other end of the elastic coil spring to transmit vibration to the elastic pressure rod and the friction pin.

In addition, a vibrator disposed in the operating space of the elastic pressing rod and fixed to the other end of the elastic coil spring, and an elevating surface processing means configured to process the surface by pressing the screw is further provided on the housing body, and the elevating The surface processing means includes a base frame provided inside the housing body, an elevation cylinder fixed at a lower end to the base frame, a support elevation panel fixed to an elevation shaft of the elevation cylinder, and an upper portion of the support elevation panel. A pressure spring that maintains a certain interval and has a lower end fixed, a pressure lift panel connecting the upper end of the pressure springs, curved elastic pressure protrusions formed on the upper portion of the pressure lift panel, and formed on the elastic pressure protrusions It characterized in that it is made of pressure pins.

In addition, the housing body is further provided with an elastic transfer friction means to transfer the input processing ball unit to the screw, the elastic transfer friction means is a transfer motor formed on the inner surface of the housing body, and transfer of the transfer motor It is characterized in that it consists of a transfer elastic coil spring that maintains a certain distance on the shaft and one end is fixed, and a transfer basket formed at the other end of the transfer elastic coil spring.

The surface processing apparatus for screws having an eccentric rotation structure according to the present invention has the effect of increasing the surface processing efficiency of the screw by rotating the housing body in an inclined position and then rotating the housing body and the rotation direction of the screw in the opposite direction. have.

1 is a front view showing a surface processing apparatus for a screw having an eccentric rotation structure according to a first embodiment of the present invention.
2 is a cross-sectional view showing a surface processing apparatus for a screw having an eccentric rotation structure according to the first embodiment of the present invention.
3 is a state diagram showing a surface processing apparatus for a screw having an eccentric rotation structure in the first embodiment according to the present invention.
4 is a cross-sectional view showing a surface processing apparatus for a screw having an eccentric rotation structure in a second embodiment according to the present invention.
5 is a cross-sectional view showing a surface processing apparatus for a screw having an eccentric rotation structure in a third embodiment according to the present invention.
6 is a partially enlarged view showing a surface processing apparatus for a screw having an eccentric rotation structure in a third embodiment according to the present invention.
7 is a cross-sectional view showing a screw surface processing apparatus having an eccentric rotation structure in a fourth embodiment according to the present invention.
8 is a cross-sectional view showing a surface processing apparatus for a screw having an eccentric rotation structure in a fifth embodiment according to the present invention.
9 is a cross-sectional view showing a screw surface processing apparatus having an eccentric rotation structure according to a sixth embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a surface processing apparatus for a screw having an eccentric rotation structure according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are presented merely as examples, and there may be various embodiments implemented through the spirit of the present invention.

1 is a front view showing a surface processing apparatus for a screw having an eccentric rotation structure according to a first embodiment of the present invention. 2 is a cross-sectional view showing a surface processing apparatus for a screw having an eccentric rotation structure according to the first embodiment of the present invention. 3 is a state diagram showing a surface processing apparatus for a screw having an eccentric rotation structure in the first embodiment according to the present invention. 4 is a cross-sectional view showing a surface processing apparatus for a screw having an eccentric rotation structure in a second embodiment according to the present invention. 5 is a cross-sectional view showing a surface processing apparatus for a screw having an eccentric rotation structure in a third embodiment according to the present invention. 6 is a partially enlarged view showing a surface processing apparatus for a screw having an eccentric rotation structure in a third embodiment according to the present invention. 7 is a cross-sectional view showing a screw surface processing apparatus having an eccentric rotation structure in a fourth embodiment according to the present invention. 8 is a cross-sectional view showing a screw surface processing apparatus having an eccentric rotation structure according to a fifth embodiment of the present invention. 9 is a cross-sectional view showing a screw surface processing apparatus having an eccentric rotation structure in a sixth embodiment according to the present invention.

As shown in the drawings, the surface processing apparatus 10 for a screw having an eccentric rotation structure according to the present invention (hereinafter referred to as a surface processing apparatus for convenience of description) is a surface processing apparatus configured to process the surface of the screw 100 As (10), thus, such a surface processing apparatus 10 is composed of a base panel 20, a housing body 30, a support part 40, a rotation shaft 50, and a driving part 60.

The base panel 20 has a rectangular panel structure made of a metal material.

The base panel 20 may be formed of wood or synthetic resin in addition to metal.

The housing body 30 is made of a metal material and is disposed on the upper side of the base panel 20, an opening and closing door 31 is provided so that an operating space is provided therein and the processing ball unit 200 is inserted, and the front part An operating tube 32 having an operating bearing 321 therein is integrally formed to communicate with the operating space, and a support shaft 33 is integrally formed on the outer surface of the rear surface, and a driving shaft 34 is formed on the inner surface of the rear surface. Is formed.

The end portion of the drive shaft 34 is tapered in a conical shape as shown in the drawing.

The processing ball unit 200 is made of metal or stone, and is formed in a polygonal, rectangular parallelepiped or circular shape.

At this time, a driving groove 110 formed in a conical shape so as to be fitted to the end of the drive shaft 34 is formed at the end of the screw 100.

The support part 40 is installed on the base panel 20 to support the housing body 30, and the support part 40 is fixed by screwing the lower end to the base panel 20 and the upper end A driving column 41 connected by screwing or welding to the operation pipe 32 of the housing body 30, and the lower end of the base panel 20 is screwed and fixed, and the support shaft 33 at the upper end The support pipe 421 having a support bearing 421a therein is formed of a guide column 42 integrally formed so as to be fitted therein.

The rotation shaft 50 is disposed passing through the operation pipe 32, and a jig portion 51 is formed at one end, and the jig portion 51 is disposed in the operating space, and a fastening groove ( 511) is formed.

The rotation shaft 50 is fastened to the operating bearing 321 of the operating pipe 32 so as to rotate while reducing friction with the operating pipe 32.

The driving unit 60 includes a driving motor 61 that rotates the rotation shaft 50 and a driving unit 60 composed of an operation motor 62 that rotates the housing body 30.

The driving motor 61 and the operating motor 62 are screwed and fixed to the base panel 20, and are fastened to the rotation shaft 50 and the housing body 30 by a belt.

The surface processing apparatus 10 configured as described above inserts one end into the fastening groove 511 of the jig part 51 by inserting the screw 100 into the housing body 30, and then the driving groove 110 formed at the other end. ) Is inserted into the drive shaft 34 and then pressurized with a pressing bolt formed on the jig portion 51 to fix the screw 100. After that, after the housing body 30 inserts the processing ball unit 200 into the interior, the drive motor 61 and the operation motor 62 are driven to rotate the housing body 30 and the screw 100. As a result, the surface of the screw 100 is peeled off and polished by friction between the processing ball unit 200 that is moved from the housing body 30 by the rotation of the housing body 30 and the screw 100 that is rotated. It will be processed.

At this time, the housing body 30 is arranged obliquely and rotated in an oblique direction, and the driving motor 61 and the operating motor 62 are rotated in opposite directions, thereby staggering the housing body 30 to be biased. By rotating in a form, the movement of the internal processing ball unit 200 is arranged horizontally and the fluidity is increased through the rotating housing body 30, so that the processing efficiency of the screw 100 can be increased. Compared to the screw 100 that rotates in the direction opposite to the rotation direction of the housing body 30 and rotates in the same direction as the housing body 30, the frictional efficiency is higher, so that the surface processing efficiency (abrasive processing efficiency) of the screw 100 is improved. Turn to be able to increase.

A curved spiral guide panel 35 is further formed on the inner side of the housing body 30 to maintain a certain distance, so that the processing ball unit 200 is guided to the screw 100, so that the surface due to friction It is possible to increase the processing efficiency.

The housing body 30 is further provided with a movable surface processing means 70 adapted to process the surface by pressing the screw 100 while moving, and the movable surface processing means 70 is The transfer cylinder 71 is fixed by screwing one end to the inner surface, the rotary motor 72 screwed to the transfer shaft of the transfer cylinder 71 and transferred, and one end of the operating shaft of the rotary motor 72 An elastic pressurizing rod 73 made of an elastic synthetic resin material having a driving space 732 in communication with the driving space 732 so as to be fitted and screwed or fused to be formed, and the transfer shaft Consisting of an elastic coil spring 74 that is fixed by welding one end and disposed in the driving space 732 of the elastic pressing rod 73, and a friction pin 75 formed on the outer surface of the elastic pressing rod 73, the The friction pin 75 is rubbed while pressing the surface of the screw 100 while being rotated and moved by the driving of the transfer cylinder 71 and the rotary motor 72 to improve the surface processing efficiency of the screw 100. It can be increased, and it is possible to increase the surface processing efficiency due to friction between the processing ball unit 200 and seeks by removing foreign substances, and by the elasticity of the elastic coil spring 74 and the elastic pressing rod 73 It buffers the transmission of the shock frictional with the screw 100 to the working shaft of the rotary motor 72 and the transport shaft of the transfer cylinder 71, and can reduce noise generated when friction with the screw 100. And it is possible to increase the surface processing efficiency by the pressing force due to elasticity.

The friction pin 75 is formed of a metal material or a synthetic resin material, and one end is fused to the elastic pressure rod 73 to be fixed.

A vibrator 733 is further disposed in the driving space 732 of the elastic pressure rod 73, and the vibrator 733 is fixed to the other end of the elastic coil spring 74 to prevent vibration. By being transmitted to the friction pin 75, vibration is transmitted to the screw 100 in contact with the friction pin 75, so that the removal efficiency of foreign matter and the surface processing efficiency can be improved.

The vibrator 733 is fixed by welding to the other end of the elastic coil spring 74.

The housing body 30 is further provided with an elevating surface processing means 80 configured to process the surface by pressing the screw 100, and the elevating surface processing means 80 is It is welded to the base frame 81 to which both ends are screwed to the inner surface and fixed, the lifting cylinder 82 to which the lower end is screwed to the base frame 81, and the lifting shaft of the lifting cylinder 82. The support elevation panel 83 is fixed, the pressure spring 84 maintained at a certain interval on the upper portion of the support elevation panel 83 and the lower end is welded to be fixed, and the upper end of the pressure springs 84 are connected and welded. One end of the pressurized lifting panel 85, which is a curved elastic pressurizing protrusion 86 made of an elastic synthetic resin material adhered to the upper part of the pressurizing lifting panel 85, and the elastic pressurizing protrusions 86 It consists of pressing pins 87 made of a metal material or a synthetic resin material to be fixed.

By driving the lifting cylinder 82, the screw 100, in which the pressing pins 87 are rotated, is pressed to remove foreign substances by friction, thereby increasing the processing efficiency of the surface.

In addition, the pressure pins 87 are formed on the outer surface of the curved elastic pressing protrusion 86 so that the pressure pins 87 have different heights, so that both the groove formed in the screw 100 and the outer surface are pressed pins 87 This friction makes it possible to remove foreign matters and increase the surface processing efficiency, and cushion the impact by the elasticity of the elastic pressing protrusion 86 and the pressing spring 84, and reduce noise due to friction.

The housing body 30 is further provided with an elastic transfer friction means 90 to transfer the input processing ball unit 200 to the screw 100, the elastic transfer friction means 90 is the housing body 30 ), a transfer motor 91 formed on the inner surface of the transfer motor 91, a transfer elastic coil spring 92 that maintains a certain distance on the transfer shaft of the transfer motor 91 and has one end welded and fixed, and the transfer elastic coil spring 92 ) Consisting of a transfer basket 93 that is welded or fused to the other end of the machine, and the processing ball unit 200 disposed on the inner surface of the housing body 30 by rotation by the drive of the transfer motor 91 is attached to the screw ( By transferring to 100) to be rubbed, it is possible to increase the surface processing efficiency of the screw 100 again. The transfer basket 93 has a curved panel structure, and may be formed in a cap structure.

In addition, by allowing the transfer basket 93 to be connected to the transfer elastic coil spring 92, it is possible to prevent it from being jammed and broken during rotation, and quickly transfer the processing ball unit 200 by pressing by elasticity. Thus, it is possible to increase the frictional efficiency with the screw 100.

Here, in the housing body 30, horizontal coil springs 94 are maintained at a certain interval on both inner surfaces as shown in FIG. 9, and both ends are screwed and fixed, while covering the upper portions of the horizontal coil springs 94. An elastic net 95 made of fibrous material is fused to and fixed to the inner surface of the housing body 30, and an elastic connection panel 96 made of a synthetic resin material having elasticity is fused at the center of the bottom of the elastic net 95 The upper magnetic body 97 is attached to the bottom surface of the elastic connection panel 96, and the lower part of the pull cylinder 98 is screwed and fixed to the inner bottom surface of the housing body 30, and the pull cylinder The upper magnetic body 97 and the lower magnetic body 99 attached by magnetic force are screwed to the pulling shaft of 98, so that the horizontal coil spring 94 and the elastic net are connected by the driving of the pulling cylinder 98. When pulled downward, the horizontal coil spring 94 and the elastic net 95 are stretched and moved downward due to elasticity, and the upper magnetic body due to the elasticity of the horizontal coil spring 94 and the elastic net 95 The processing ball unit 200 disposed on the upper part of the elastic net by the elasticity of the horizontal coil spring 94 and the elastic net 95, which were pulled while the 97 and the lower magnetic body 99 were separated from each other, is provided with the screw ( By moving to 100) and colliding, it is possible to increase the processing efficiency.

One embodiment of the present invention described above is merely exemplary, and those of ordinary skill in the art to which the present invention pertains will appreciate that various modifications and other equivalent embodiments are possible. . Therefore, it will be appreciated that the present invention is not limited to the form mentioned in the detailed description above. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. In addition, the present invention is to be understood as including the spirit of the present invention as defined by the appended claims and all modifications, equivalents and substitutes within the scope thereof.

10: surface processing equipment
20: base panel
30: housing body
31: opening door
32: operating tube
321: operating bearing
33: support shaft
34: drive shaft
35: spiral guide panel
40: support
41: driving holding
42: guide holder
421: support pipe
421a: support bearing
50: rotating shaft
51: jig part
511: fastening groove
60: drive unit
61: drive motor
62: operating motor
70: movable surface processing means
71: transfer cylinder
72: rotary motor
73: elastic pressure rod
731: Incoming groove
732: driving space
733: vibrator
74: elastic coil spring
75: friction pin
80: elevating surface processing means
81: base frame
82: lifting cylinder
83: Support lifting panel
84: pressure spring
85: pressurized lifting panel
86: elastic pressing protrusion
87: pressure pin
90: elastic transfer friction means
91: transfer motor
92: Transfer elastic coil spring
93: transfer basket
94: horizontal coils?x
95: elastic net
96: elastic connection panel
97: upper magnetic body
98: pull cylinder
99: lower magnetic body
100: screw
110: drive groove
200: processing ball unit

Claims (7)

As a surface processing device designed to process the surface of a screw,
The base panel is disposed on the upper side of the base panel, and an operating space is provided therein, and an opening and closing door is provided so that the processing ball units are inserted, and an operating tube having an operating bearing therein is in communication with the operating space. And a housing body having a support shaft formed on an outer surface of the rear surface and a driving shaft formed on an inner surface thereof, a driving column fixed to the base panel and connected to the operating pipe of the housing body, and a lower end portion on the base panel It is fixed, and at the upper end, a holding part made of a guide column having a support tube having a support bearing therein so that the support shaft is fitted, and a jig part is formed at one end and disposed through the operation tube, and the jig part is the operation space In the surface processing apparatus for a screw having an eccentric rotation structure consisting of a driving unit consisting of a rotation shaft having a fastening groove formed in the jig portion, a driving motor that rotates the rotation shaft, and an operation motor that rotates the housing body,
The housing body is further provided with a movable surface processing means adapted to process the surface by pressing the screw while moving,
The movable surface processing means includes a transfer cylinder having one end fixed to the inner surface of the housing body,
A rotary motor that is fastened to the transfer shaft of the transfer cylinder and transferred;
An elastic pressurizing rod having an inlet groove formed to be fitted into one end of the operating shaft of the rotary motor and having a driving space in communication with the inlet groove,
An elastic coil spring having one end fixed to the transfer shaft and disposed in a driving space of the elastic pressing rod,
Surface processing apparatus for a screw having an eccentric rotation structure, characterized in that consisting of friction pins formed on the outer surface of the elastic pressure rod.
The method of claim 1,
The housing body is arranged to be inclined and rotated in a diagonal direction, and the driving motor and the operating motor are rotated in opposite directions,
The screw surface having an eccentric rotation structure, characterized in that one end of the screw is fitted and fixed in a fastening groove of the jig portion, and a driving groove is formed at the other end of the screw, and the driving groove is fitted to the drive shaft and supported. Processing equipment.
The method of claim 1,
A surface processing apparatus for a screw having an eccentric rotation structure, characterized in that a curved spiral guide panel is further formed on the inner surface of the housing body to maintain a certain distance and guide the processing ball units to the screw.
delete delete The method of claim 1,
The housing body is further provided with an elevating surface processing means configured to process the surface by pressing the screw,
The elevating surface processing means includes a base frame provided inside the housing body,
An elevating cylinder having a lower end fixed to the base frame
A support lifting panel fixed to the lifting shaft of the lifting cylinder,
A pressure spring that maintains a certain interval on the upper part of the support elevation panel and is fixed at the lower end thereof,
A pressure lifting panel connecting the upper ends of the pressure springs,
Curved elastic pressing protrusions formed on the upper part of the pressure lifting panel,
Surface processing apparatus for a screw having an eccentric rotation structure, characterized in that consisting of pressing pins formed on the elastic pressing protrusions.
The method of claim 1,
The housing body is further provided with an elastic transfer friction means to transfer the input processing ball unit to the screw,
The elastic transfer friction means is a transfer motor formed on the inner surface of the housing body,
A transfer elastic coil spring that maintains a certain distance on the transfer shaft of the transfer motor and has one end fixed,
Surface processing apparatus for a screw having an eccentric rotation structure, characterized in that consisting of a transfer basket formed at the other end of the transfer elastic coil spring.

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