KR101517872B1 - Work fixing chuck - Google Patents

Abstract

The present invention relates to an object fixing chuck including a rotary shaft having a central shaft and a central assist shaft joined to and separated from the central shaft and including a support unit on a joint portion; a rotary plate joined to the central shaft and including pin mounting holes and rotary protrusions at intervals on the inner circumference; a driver plate arranged on the outer side of the rotary plate and including a drive through-hole on one side and a pin insertion hole in a position corresponding to the pin mounting hole; a drive pin having a pin fixing unit arranged on the rotary plate and a pin body penetrating through the drive through-hole and formed on one side of the pin fixing unit to be integrated; a drive block joined to the drive pin and supplying torque to the drive pin, driver plate, and the rotary plate; a bearing block arranged inside the rotary plate and including a pin connecting hole at a position corresponding to the pin mounting hole and a cover locking protrusion on the outer side; rotary pins fitted and joined to the pin insertion hole, pin mounting hole, and the pin connecting hole and including a rotary joining unit inside and a protrusion insertion groove into which the rotary protrusions are inserted on the outer side; a chuck cover receiving the rotary plate and driver plate inside and receiving a part of the bearing block inside; and a jaw joined to the rotary joining units of the rotary pins and fixating an object to be processed when supplying torque due to the operation of the drive block. According to an embodiment of the present invention, the operation of the jaw fixating the object to be processed with the rotary pins interlocked with the rotation of the driver block can be easily controlled. In addition, the present invention obtains an effect of easily assembling and separating as the whole structure is simple.

Description

Work fixing chuck

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a work fixing chuck, and more particularly to a fixing chuck mounted on a machine tool to fix a workpiece.

In general, a machine tool is classified into a lathe, a milling machine, a drilling machine, a planer, and the like according to a method of processing the workpiece, and the workpiece chuck is provided with a chuck for fixing the workpiece.

FIG. 1 is a schematic perspective view showing a conventional general lathe. The lathe includes a base, a main shaft 12, a tailstock 16, and a cutting portion to which a cutting bite 18 is fixed.

The main shaft 12 is installed on one side of the base and fixes the work P and rotates at high speed.

In this case, a chuck 14 for fixing the workpiece P is installed on the main shaft 12 for fixing the workpiece so that the workpiece P rotates about the center of the workpiece P, (12) and supports the other end of the workpiece.

The workpiece P fixed to the bending chuck 14 and the tailstock 16 of the main shaft 12 is then cut and processed in contact with the cutting bite 18 of the cut portion provided on one side of the base .

Since the shelf 10 fixes one end of the workpiece P to the chucking chuck 14 so that only the portion of the workpiece P that is not engaged with the chucking chuck 14 can be processed, A portion of the workpiece P that has been processed and not processed can be processed by changing the position where the workpiece P is knitted and then machining the other portion of the workpiece P in consideration of the portion of the workpiece P, And the portion of the chucking chuck 14 was cut off after the turning work.

However, conventional articulated chucks 14 can not fix thin workpieces P, and in the case of a material such as plastic, there is a problem that a bite mark is generated on the surface due to the pressure of the chucking chuck 14. [

To solve this problem, a fixed chuck has been proposed, which is tied to a chuck of a machine tool, such as a lathe, to firmly fix the workpiece according to the shape and processing conditions of the workpiece.

The fixing chuck is classified into a fixed chuck using hydraulic, pneumatic, or magnetic force according to a method of fixing the workpiece. Particularly, a fixing chuck using pneumatic pressure, that is, a vacuum using a vacuum, includes a suction plate provided with a suction hole for sucking and mounting the workpiece, and a vacuum pump connected to the suction hole of the suction plate to suck air.

However, since the above-described fixed chuck uses an expensive vacuum pump to generate vacuum, there is a problem that additional cost is required.

In addition, since the fixing chuck is required to turn on and off the operation of the vacuum pump in order to separate workpieces adsorbed on the adsorption plate, an unnecessary load is applied to the vacuum pump, so that troubles are easily generated.

In addition, when a workpiece attached to the suction plate is separated, foreign matter such as cutting oil and cutting chips existing in the periphery of the fixing chuck due to the residual pressure of the vacuum pump flows into the suction hole to block the suction hole There was a problem.

In addition, the conventional fixing chuck has a problem in that a foreign substance sucked through the suction hole flows into the vacuum pump and causes a failure.

Korean Patent Publication No. 2010-0086710 Korea Public Utility Model Publication No. 2009-00357

SUMMARY OF THE INVENTION It is an object of the present invention to simplify the control of the operation of fixing a work piece through a plurality of rotation pins that operate in conjunction with rotation of a driver block.

It is also an object of the present invention to precisely control the tie through a gear or a screw of a rotary coupling part constituting the rotation pin.

The workpiece fixing chuck according to an embodiment of the present invention includes a rotation shaft having a center shaft and a center sub-shaft coupled to or separated from the center shaft and having a supporting portion formed at a connecting portion thereof; A rotation plate coupled to the center shaft and having a pin mounting hole and a rotation protrusion formed at an interval around the center shaft; A driver plate disposed on an outer side of the rotary plate, a drive through hole formed on one side thereof, and a pin insertion hole formed at a position corresponding to the pin mounting hole; A drive pin having a pin fixing part on the rotation plate and a pin body integrally formed on one side of the pin fixing part, the pin body passing through the drive through hole; A drive block coupled to the drive pin and supplying rotational force to the drive pin and the driver plate and the rotation plate; A bearing block disposed on the inner side of the rotary plate and having a pin communicating hole at a position corresponding to the pin mounting hole and a cover engaging jaw formed at an outer side thereof; An O-ring block mounted inside the bearing block; A rotation pin which is fitted to the pin insertion hole, the pin mounting hole and the pin communication hole, has a rotation engaging portion formed on the inside thereof, and a projection insertion groove into which the rotation protrusion is inserted, A chuck cover which accommodates the rotating plate and the driver plate therein and accommodates a part of the bearing block on the inner side; And a jaw that is engaged with the rotary coupling portion of the rotary pin and fixes the workpiece when a rotational force is applied according to the operation of the drive block.

A gear or a protrusion may be formed at an end of the rotary coupling portion of the rotary pin so as to adjust the interval of the jaws.

Further, spacing holes may be formed between the support portion and the rotary plate of the center sub-shaft and between the O-ring block and the rotary plate.

According to the embodiment of the present invention, not only can the operation of the jaw fixing the workpiece through the plurality of rotation pins operating in conjunction with the rotation of the driver block can be easily controlled, but the overall structure is simple, have.

In addition, it is possible to precisely control the tie through the gears or the screws of the rotary coupling part constituting the rotation pin, and also to individually fix the workpieces according to the size of the workpieces.

1 is a schematic perspective view showing a conventional general shelf;
2 is a side view showing a work fixing chuck according to the present invention.
3 is an exploded view showing a work fixing chuck according to the present invention;
4 (a) and 4 (b) are views showing a rotary plate constituting a work fixing chuck according to the present invention.
5 (a) and 5 (b) are views showing a bearing block constituting a work fixing chuck according to the present invention.
6 (a) and 6 (b) are views showing a rotation pin constituting a work fixing chuck according to the present invention.
7 (a) and 7 (b) are diagrams showing driver pins constituting a work fixing chuck according to the present invention.
Figs. 8 and 9 are front views showing the use state of the work fixing chuck according to the present invention. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

FIG. 2 is a side view showing a work fixing chuck according to the present invention, FIG. 3 is a perspective view showing a work fixing chuck according to the present invention, and FIG. 4 5A and 5B are views showing a bearing block constituting a work fixing chuck according to the present invention; Figs. 5A and 5B are views showing a rotary plate constituting a work fixing chuck according to the present invention; And FIGS. 6 (a) and 6 (b) are views showing a rotation pin constituting a work fixing chuck according to the present invention, and FIGS. 7 (a) and 7 Fig.

The workpiece fixing chuck 100 of the present invention includes a rotary shaft 110, a rotary plate 120, a driver plate 130, a bearing block 140, an O-ring block 150, a rotary pin 160, a chuck cover 170, (180).

The rotary shaft 110 is divided into a center shaft 111 and a center sub-shaft 112 which is engaged with or separated from the center shaft 111.

The center sub-shaft 112 is formed with a shaft coupling portion 113 which is coupled to the center shaft 111 and a support portion 114 is formed on the outer side to support the gap retaining hole 300.

That is, the center sub-shaft 112 is engaged with or separated from the center shaft 111 through the shaft coupling portion 113.

At this time, a quadrangular or polygonal auxiliary shaft coupling part 115 may be formed at the end of the center sub shaft 112 for smooth coupling with a coupling member (not shown).

A plurality of gap holding holes 300 may be formed between the support portion 114 of the center sub-shaft 112 and the rotary plate 120.

At this time, the spacing holder 300 is supported by the support 114, and the size and the number of the spacers 300 may vary depending on the purpose of use and the use.

The rotation plate 120 coupled with the center axis 111 of the rotation axis 110 operates in conjunction with the driver plate 130 to transmit rotational force to the rotation pin 160 during the transfer of force through the operation of the driver block 210 .

That is, when the driver plate 130 is operated through the driver block 210, the rotation plate 120 operates in conjunction with the rotation axis 110 to provide rotational force to the rotation pin 160.

The rotation plate 120 is formed with a shaft insertion hole 121 at its center, a pin mounting hole 122 and a rotation protrusion 123 are formed at an interval around the inside of the rotation plate 120, and a plate projection 124 And a bolt coupling hole 125 is formed at an interval around the periphery.

That is, the rotation plate 120 is rotatably supported by the rotation pin 160 by using the projection insertion groove 162 of the rotation pin 160, which is interlocked with the driver plate 130 and is engaged with the rotation projection 123, .

At this time, the rotation protrusion 123 can be selectively installed inside and outside the pin mounting hole 122. In the present invention, the rotation protrusion 123 is protruded toward the outside with an interval on the outer surface of the edge.

The driver plate 130 disposed on the outer side of the rotation plate 120 receives rotational force of the driver block 210 and rotates.

That is, the driver plate 130 is operated in conjunction with the rotating plate 120 while being rotated by receiving the rotational force of the driver block 210.

A plate insertion hole 131 is formed at the center of the driver plate 130. A pin insertion hole 132 is formed at a position corresponding to the pin mounting hole 122. A drive through hole 133 And a blocking film 134 is formed around the edges with an interval therebetween.

That is, the driver plate 130 is supplied with the rotational force of the driver block 210 to provide a rotational force to the rotary plate 120 while being operated in conjunction with the driver block 210. The pin insertion hole 132 can guide the rotary pin 160 It is.

Here, the driver pin 200 is configured to operate the driver plate 130 by operating in conjunction with the operation of the driver block 210.

The driver pin 200 is integrally formed with the pin fixing portion 202 located at the driver plate 130 and the pin fixing portion 202 and is inserted into the driver block 210 The pin body 204 is integrally formed.

That is, the driver pin 200 is formed in a "a" shape so that the pin fixing portion 202 is located on the driver plate 130 and the pin body 204 is fixed to the driver block 210.

The driver block 210 is formed to have a predetermined thickness and length and a block coupling hole 212 is formed therein so as to be fixed to the pin body 204.

That is, the driver block 210 rotates about the rotary shaft 110 when the external power is supplied, and the driver pin 200 rotates and operates the interlocking operation of the driver plate 130.

The bearing block 140 disposed inside the rotation plate 120 supports the rotation pin 160 while interlocking with the operation of the driver plate 130.

A pin connecting hole 142 is formed at a position corresponding to the pin mounting hole 122 and a pin hole 142 is formed at a position corresponding to the pin mounting hole 122 on the outer side of the chuck cover 170 A cover engaging jaw 143 is formed so as to be supported.

That is, the bearing block 140 is formed with a cover receiving step 143 on the outer side so as to be supported by the chuck cover 170, and an insertion mounting hole 141 for mounting the O-ring block 150 is formed at the center thereof , And the pin communication hole (142) can guide the rotation pin (160).

The O-ring block 150 mounted in the bearing block 140 is mounted inside the insert mounting hole 141 to minimize the flow with the center shaft 111 while supporting the bearing block 140.

The O-ring block 150 is formed with a shaft insertion hole 151 at the center thereof and an upper projection 152 for supporting the spacer 300.

The rotation pin 160 inserted into the pin insertion hole 132 and the pin mounting hole 122 and the pin communication hole 142 is connected to the rotation plate 120 and the driver plate 130 according to the operation of the driver block 210, The rotation operation is performed while interlocking operation is performed.

The rotation pin 160 has a predetermined diameter and a predetermined length and is formed with a rotation engaging portion 161 on the inner side and a projection insertion groove 162 on the outer side thereof into which the rotation protrusion 123 is inserted, A gear 163 or a projection is selectively formed on the end surface of the projection insertion groove 162.

That is, when the rotary plate 120 and the driver plate 130 are operated, the rotation pin 160 interlocks with the projection insertion groove 162 coupled with the rotation projection 123, So that the joining member 180 is rotated.

The rotary coupling unit 161 is operated in conjunction with the driving block 210 to rotate the tub 180 in one direction and when operated in the direction opposite to the driver block 210, So that the workpiece is fixed or separated through a process of rotating the tub 180 in the opposite direction.

At this time, the gear 163 and the screw formed on the end surface of the projection insertion groove 162 are adjusted so as to finely and precisely adjust the mounting position of the jaw 180 according to the size of the workpiece located on the rotary shaft 110 It is.

The chuck cover 170, which accommodates the rotating plate 120 and the driver plate 130 therein and accommodates a part of the bearing block 140, is formed with a predetermined diameter and thickness.

The chuck cover 170 is formed with a mounting space 171 at the center thereof and an outer side thereof is opened while a supporting step 172 supporting the cover engaging jaws 143 of the bearing block 140 is formed around the inner inner peripheral edge thereof And a bolt coupling hole 173 is formed around the periphery.

That is, the chuck cover 170 supports the bearing block 140 using the support jaw 172 while accommodating the rotary plate 120, the driver plate 130 and a part of the bearing block 140 in the mounting space 171 To be able to do.

The bolt coupling hole 173 can be fixed to the rotary plate 120 using bolts to be fastened.

The jaws 180 coupled with the rotation coupling portion 161 of the rotation pin 160 fix the workpiece located at the center.

That is, the screw 180 is rotated by operating the driver plate 130 according to the operation of the driver block 210 and the rotation pin 160, which operates in conjunction with the rotation plate 120, to fix the workpiece will be.

The work 180 is rotated about the rotation pin 160 during operation of the driving plate 130 and the rotating plate 120 to fix the workpiece.

The trough 180 is formed of a coarse protrusion 181 coupled to the protrusion insertion groove 162 and a coarse adjustment unit 182 for moving the coarse protrusion 181 in the center according to the operation of the coarse protrusion 181 to fix the workpiece.

A gear 183 or a protrusion is formed on the protrusion 181 to be engaged with the protrusion insertion groove 162 so as to be precisely engaged with the gear 163 or the protrusion and a protrusion insertion groove 162 and a bolt A protrusion coupling hole 184 is formed in a predetermined section so that the protrusion coupling hole 184 can be fixed.

Hereinafter, an embodiment of the work fixing chuck configured as described above will be described with reference to the drawings.

First, a shaft supporting portion 113 is formed inside, a supporting portion 114 is formed on the outer side, a center supporting shaft 112 having a supporting shaft coupling portion 115 is formed on the outer side, The center shaft 111 is coupled to the shaft coupling portion 113 of the rotary shaft 112 to form the rotary shaft 110.

A shaft insertion hole 121 is formed at the center of the center shaft 111 of the rotary shaft 110. A pin mounting hole 122 and a rotation protrusion 123 are formed at an inner circumference of the shaft insertion hole 121, A plate projection 124 is protruded and a rotary plate 120 having a bolt coupling hole 125 formed at an interval is mounted.

A plate insertion hole 131 is formed at the center of the rotation plate 120 and a pin insertion hole 132 is formed at a position corresponding to the pin insertion hole 122. A drive hole 133 And a driver plate 130 on which a blocking film 134 is formed is mounted on the periphery with an interval.

At this time, the pin fixing portion 202 and the pin fixing portion 202, which are located on the driver plate 130, are integrally formed on the outside of the driver plate 200. The pin fixing portion 202 passes through the driver through hole 133, The pin body 204 is fixed to the pin body 204. The pin body 204 has a predetermined thickness and a predetermined length. The pin body 204 is fixed to the pin body 204, The drive block 210 in which the block coupling hole 212 is formed is mounted.

A pin connecting hole 142 is formed at a position corresponding to the pin mounting hole 122 and a chuck cover 170 is formed at an outer side of the pin mounting hole 122, A shaft insertion hole 151 is formed at the center of the insertion block 141 of the bearing block 140 after the bearing block 140 having the cover 140 is formed, The O-ring block 150 is formed to support the spacer 300. The O-

The driver plate 130 is then fitted to the pin insertion hole 132, the pin mounting hole 122 and the pin communication hole 142, and the rotational coupling portion 161 is formed on the inside thereof. And a rotation pin 160 formed with a projection insertion groove 162 into which the projection 123 is inserted.

A mounting space 171 is formed at a center of the mounting plate of the rotary plate 120. A supporting protrusion 172 is formed around the inner inner peripheral edge of the rotary plate 120. A chuck cover 170).

The rotary protrusion 181 is coupled to the rotary coupling part 161 of the rotary pin 160 of the rotary pin 160. The rotary protrusion 181 moves to the center of the rotary protrusion 181 to fix the workpiece The assembling of the workpiece fixing chuck 100 is completed when each of the jaws 180 formed by the roughing unit 182 is mounted.

Here, the assembly order of the work fixing chucks 100 may be configured differently from the above.

Next, the state of use of the work fixing chuck configured as above will be described.

First, the workpiece fixing shaft 100 is installed on a machine tool to be used, and then the workpiece is positioned on the center shaft 111 of the rotary shaft 110.

When a rotational force is transmitted to the driver block 210 while the workpiece is positioned on the center axis 111, the rotational force of the driver block 210 is transmitted to the driver plate 130 through the coupled drive pin 200 And is transmitted to the rotary plate 120.

The driver plate 130, the rotary plate 120 and the driver pin 200 are rotated about the rotary shaft 110 in the operating direction of the drive block 210.

At this time, the driver plate 130 and the plurality of rotation pins 160 mounted on the rotation plate 120 are interlocked.

The jaws 180 coupled to the rotation coupling part 161 of the rotation pin 160 rotate in a direction opposite to the rotation plate 120 to fix the workpiece positioned on the center shaft 111.

Next, in order to loosen the jaw 180 fixing the workpiece, the driver block 210 may be rotated in the opposite direction.

As described above, the workpiece fixing chuck of the present invention is advantageous in that the workpiece can be easily fixed through a simple operation of the driver block, and the work can be performed easily and precisely.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be interpreted as being included in.

100: workpiece fixing chuck, 110: rotary shaft,
120: rotating plate, 130: driver plate,
140: bearing block, 150: oining block,
160: rotation pin, 170: chuck cover,
180: Joe.

Claims (3)

A rotary shaft having a center shaft and a center sub-shaft coupled to or separated from the center shaft and having a supporting portion formed at a connecting portion thereof;
A rotation plate coupled to the center shaft and having a pin mounting hole and a rotation protrusion formed at an interval around the center shaft;
A driver plate disposed on an outer side of the rotary plate, a drive through hole formed on one side thereof, and a pin insertion hole formed at a position corresponding to the pin mounting hole;
A drive pin having a pin fixing part on the rotation plate and a pin body integrally formed on one side of the pin fixing part, the pin body passing through the drive through hole;
A drive block coupled to the drive pin and supplying rotational force to the drive pin and the driver plate and the rotation plate;
A bearing block disposed on the inner side of the rotary plate and having a pin communicating hole at a position corresponding to the pin mounting hole and a cover engaging jaw formed at an outer side thereof;
An O-ring block mounted inside the bearing block;
A rotation pin which is fitted to the pin insertion hole, the pin mounting hole and the pin communication hole, has a rotation engaging portion formed on the inside thereof, and a projection insertion groove into which the rotation protrusion is inserted,
A chuck cover which accommodates the rotating plate and the driver plate therein and accommodates a part of the bearing block on the inner side;
And a jaw which is engaged with the rotary coupling portion of the rotary pin and fixes the workpiece when a rotational force is applied according to the operation of the drive block. The method according to claim 1,
And a gear or a projection is formed at an end of the rotary coupling portion of the rotary pin so as to adjust the spacing of the jaws. The method according to claim 1,
Wherein a spacing holder is mounted between the support portion and the rotary plate of the center sub-shaft and between the O-ring block and the rotary plate.

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