KR101007981B1 - Natural diamond universal polishing machine - Google Patents

Abstract

The present invention relates to a diamond polishing machine, in particular natural diamond to improve the production efficiency by shortening the processing time by ensuring the optimum processing position by angular movement and rotation of the disk within the angular range according to the natural diamond grain direction It relates to a universal polishing machine.

Natural diamond universal polishing machine of the present invention, the box-shaped pedestal 100;

It is installed on the rear upper portion of the pedestal 100 and configured to be manually transferred to the front, rear and left and right, the front and rear transfer member 210 and the left and right transfer member 220, and the front and rear transfer member 210. ) And the left and right transfer member 220 to be automatically installed at the top of the front and rear transfer member 210 and the automatic transfer member 230 is fixed to the base 100 so as to automatically transfer left and right at the same time. , The rear panel is fixed to the disk fixing portion 240 of the square tube type, the disk fixing portion 240 is assembled to the disk fixing portion 240, and fixed to the rear of the disk support portion 250 and the disk support 250 is fixed The drive motor 260 driven in the forward and reverse directions by a negative signal, and the disk housing 271 is installed in front of the disk assembly assembled to the disk support 250 so that the drive motor 260 is rotated in the forward and reverse directions It is installed at the rear of the whole 270 and the disk rotator 270 to adjust the left and right rotation angles of the disk rotator 270. Encoder 280 to sense the signal sent to the control unit to control the forward and reverse rotation of the drive motor 260, and disc (d) is installed eccentrically in the disc housing 271, the disc by the signal of the control unit Disc drive member 290 to rotate the disk (d) separately from the housing 271, and the disc angle adjustment to adjust the upper and lower angles of the disk support portion 250 is assembled to the disk fixing portion 240 A disk driving unit 200 composed of a unit 300;

Tool stand table 410 is assembled to the pedestal 100 to be positioned in front of the disk drive unit 200 to be manually moved forward and backward, and to manually transfer the tool stand table 410 before and after It is integrally assembled to the axis of the servo motor 430 and the servo motor 430 installed at the lower part of the table transfer member 420, the table transfer member 420 and driven left and right at an angle set by the signal of the control unit. And the diamond bite processing unit 400 consisting of a tool post 440 that is fixed and rotated at a predetermined angle to the left and right at the same angle and at the same time adjust the height and height of the diamond bite and adjust the angle. ;

It consists of.

Pedestal, disc drive part, diamond bite processing part, encoder, disc, disc housing, disc drive member, power supply part, power supply part, spindle body, power cable, spindle stator, spindle, brush holder, carbon brush, insulator, slip ring

Description

Natural diamond universal polishing machine

The present invention relates to a diamond polishing machine, in particular natural diamond to improve the production efficiency by shortening the processing time by ensuring the optimum processing position by angular movement and rotation of the disk within the angular range according to the natural diamond grain direction It relates to a universal polishing machine.

Generally, diamond is divided into natural diamond and artificial diamond, and diamond has been used for various tools such as cutting tools, dies, and bits for a long time because of its excellent properties such as high hardness and thermal conductivity. Natural diamond is very good.

Natural diamond (hereinafter referred to as 'diamond') is a polycrystalline material that is processed into various shapes depending on the workpiece to be used as a tool.In this case, even if the diamond is processed on the same surface, the grain direction is different. In order to process the diamond according to the processing form of the workpiece, it must be processed in various shapes, but it must be processed in the grain direction according to the processing method as described above.

That is, in the case of the diamond shown in Figure 1, each outer peripheral surface of the diamond has a surface that must be processed in the same way or a surface that must be processed in different directions, for example, the reference numerals 100 and 111 are respectively processed in different directions If not, it is a sign indicating a grain direction that cannot be processed, and also in the case of FIG. It can be seen.

Therefore, when diamond is to be processed into diamonds, such as Figs. 3a and 3b, according to the shape of the workpiece to the bite as Figs. 4a and 4b, processing from both corners to gradually narrow the angle while It is processed in the same shape, but each surface can be seen that the processing direction is shown differently depending on the grain direction as shown in the enlarged surface as shown in FIG.

That is, in order to process the diamond bite as shown in Figs. 4a and 4b, it is necessary to go through the processing as shown in Fig. 5, and also round the pointed end of the diamond bite according to the processing type of the workpiece.

As described above, two types of polishing machines for processing natural diamond bites are classified into polishing machines for processing flat surfaces as shown in FIGS. 4A and 4B and polishing machines for rounding pointed ends as shown in FIG. 6.

Since the present invention relates to a polishing machine for rounding the sharp end of the diamond bite (b) having a flat surface as shown in FIGS. 4A and 4B as shown in FIG. 6, only this will be described.

Therefore, the conventional polishing machine for rounding the diamond bite has been using the principle of operation of a lathe, which is a machine tool, which is largely divided into a disk rotating by a driving motor and a fixture for fixing a diamond bite. Had to adjust the left and right angles manually while rounding the diamond bite tip to the disc.

Such a conventional polishing machine has the following problems.

First, in order to process the diamond bite, the operator has to manually adjust the tool bar left and right, so there is a problem in that work efficiency and production efficiency are reduced by manual work.

Secondly, since the diamond bite must be processed by hand, it is difficult to precisely round the end to the set curvature.

Third, in order to solve the second reason, there was a problem such that a highly skilled professional worker is required.

Therefore, an improved new polishing machine has been developed to solve this problem of the conventional polishing machine.

That is, the improved new polishing machine is as shown in Figs.

A box-shaped pedestal 100;

It is installed on the rear upper portion of the pedestal 100 and configured to be manually transferred to the front, rear and left and right, the front and rear transfer member 210 and the left and right transfer member 220, and the front and rear transfer member 210. ) And the left and right transfer member 220 to be automatically installed at the top of the front and rear transfer member 210 and the automatic transfer member 230 is fixed to the base 100 so as to automatically transfer left and right at the same time. , The rear panel is fixed to the disk fixing portion 240 of the square tube type, the disk fixing portion 240 is assembled to the disk fixing portion 240, and fixed to the rear of the disk support portion 250 and the disk support 250 is fixed The drive motor 260 driven by the negative signal, the disk (d) is installed in front of the disk rotating body 270 is assembled to the disk support unit 250 to be rotated by the drive motor 260, the disk fixing part The disc is composed of a disk angle adjusting unit 300 is assembled to 240 to adjust the upper and lower angles of the disk support 250 Keugu ET 200 and;

Tool stand table 410 is assembled to the pedestal 100 to be positioned in front of the disk drive unit 200 to be manually moved forward and backward, and to manually transfer the tool stand table 410 before and after It is integrally assembled to the axis of the servo motor 430 and the servo motor 430 installed at the lower part of the table transfer member 420, the table transfer member 420 and driven left and right at an angle set by the signal of the control unit. And the diamond bite processing unit 400 consisting of a tool post 440 that is fixed and rotated at a predetermined angle to the left and right at the same angle and at the same time adjust the height and height of the diamond bite and adjust the angle. ;

.

The pedestal 100 is designed to have a set height so as to support the disc drive unit 200 and the diamond bite processing unit 400 so that the worker can work in a comfortable posture during the machining operation.

The front and rear conveying member 210 and the left and right conveying member 220 of the disk driving unit 200 are respectively conveyed by the conveying handle, the conveying screw and the guide in the same manner as the conveying operation principle of the lathe, Manually set the distance so that the diamond bite can be machined.

The automatic transfer member 230 is installed between the pedestal 100 and the left and right transfer member 220, the guide 231 for sliding the disc drive unit 200 left and right, and fixed to the pedestal 100 The automatic feeding motor 232 and the feeding distance adjusting unit 233 rotates integrally assembled to the axis of the automatic feeding motor 232, the feeding distance adjusting unit 233 and the left, right transfer member 220 Both ends are respectively connected to the connecting rod 234 for repeating the disc drive unit 200 to the left and right while angular movement by the drive of the automatic transfer motor 232, the disc drive unit 200 itself automatically By repeating the left and right transfer to find the machining position of the diamond bite to be processed. The reason for this is to set the machining position in consideration of the specificity of diamond crystals as described above.

The disc support part 250 is to adjust the upper and lower angles by inserting the central axis 251 protruding from the middle portion of each side to the disk fixing part 240, and also the central axis 251 on both sides of the disk fixing part 240 To form two arc grooves 241 symmetrically with respect to the center and to be inserted into the arc groove 241 in the disc support part 250 to be guided along the arc and to be fixed after adjusting the angle of the disc support part 250. Angle adjustment fixing knob 252 is screwed.

The drive motor 260 is fixed to the extension plate 253 extending to the rear of the disk support 250 to be driven by the signal of the control unit, the coarse pulley 261 provided on the axis of the drive motor 260 And a driven pulley 272 installed at the rear of the disk rotating body 270 by a belt 262 to transmit a driving force.

The disk rotator 270 is supported by a bearing on the disk support 250 to rotate when the driving force is transmitted, and the disk d is installed in front of the disk rotator 270 to process the diamond bite.

The disc angle control unit 300 is adjusted to adjust the upper and lower angles of the disc support 250 by the operation of the adjustment handle 320 is screwed to the adjustment screw rod 310 to the disk fixing portion 240. The four rods 310 and the disk support part 250 are connected by a unit bearing (not shown).

The table transfer member 420 of the diamond bite processing unit 400 uses the same operation principle as the transfer operation principle of the lathe as described above, and is operated by the operation of the tool transfer handle, the transfer screw and the guide. 410 is conveyed before and after.

The tool stage 440 is integrally assembled to the axis of the servomotor 430 and is formed in the longitudinal direction of the tool shaft 441 and the tool shaft 441 for fixing the diamond bite to rotate left and right at a predetermined angle. Along the guide groove 442 is composed of a bite holder 443 to be adjusted up and down height and angle to match the machining position and angle of the diamond bite.

The servomotor 430 rotates the tool post 440 left and right repeatedly while repeatedly driving left and right at an angle set by a signal of the control unit, thereby rounding the end portion of the diamond bite to a set curvature.

The operation of the conventional diamond bite processing polishing machine configured as described above is fixed to the diamond bite to be processed on the tool post 440, the front and rear conveying member 210 and the left and right conveying member 220 of the disk drive unit 200 ), And set the machining positions of the disc (d) and diamond bite in advance.

In addition, by adjusting the disk angle adjusting unit 300 to match the angle of the disk (d) to match the angle of the diamond bite to be processed. That is, since the diamond bite is inclined at the bottom of the front surface as shown in FIG. 4B, the diamond bite may be rounded at the sharp end portion of the diamond bite.

After that, when driving the drive motor 260, the automatic transfer member 230 and the servo motor 430 by the operation of the control unit, the disk rotating body 270 is rotated by the driving force of the drive motor 260, the disk ( d) is also rotated at the same time, and also the disk drive unit 200 by the automatic transfer member 230 to repeat the left and right, the drive of the servo motor 430 of the diamond bite processing unit 400 Tool stage 440 also repeats the left, right angular movement.

Therefore, the diamond bite installed on the tool stage 440 of the diamond bite processing unit 400 is processed in a rounded end portion while contacting the disk d, and the disk (d) that rotates during processing is automatically transferred to the member 230. The reason for repeating the left and right transfer is to find the machining position of the diamond as described above.

Therefore, such a polishing machine has an advantage that the work efficiency and production efficiency can be improved automatically as compared to the conventional manual polishing machine, as well as anyone who can process without a professional worker.

However, such a conventional diamond bite polishing machine had the following problems.

First, the diamond has a different machining position depending on the angle of contact of the disk d depending on the grain direction. The diamond bite b has a machining position on the disk d as shown in FIG. The diamond bite (b) is the upper side or the center of the disk (d), as shown in Figs. 11a and 11b, although it should be processed to the left and right of the upper side and the left and right of the lower side with respect to the disk. There was a problem that only the lower side was in contact with the other side,

Second, the diamond must be processed to find the grain direction to improve the quality of the product, and if the processing is forced, the processing surface will appear rough and poor in quality. There was a problem of contacting the upper or lower side),

Third, the machining time is delayed due to forcibly machining the diamond bite by the first and second reasons described above, there is a problem that the production efficiency is lowered.

The present invention is to solve the problems of the conventional polishing machine, by improving the production efficiency by shortening the processing time by ensuring the optimum machining position by angular movement and rotation of the disk within the angular range according to the natural diamond grain direction The purpose is to provide a natural diamond universal polishing machine.

In order to achieve the above object,

A box-shaped pedestal;

It is installed on the rear upper portion of the pedestal and configured to transfer the front, rear and left and right manually, the left and right transfer member and the front and rear transfer member and the left and right transfer member automatically simultaneously Automatic transfer member fixedly installed on the pedestal so as to transfer right and square tube type disk fixing part which is opened on the front and rear conveying member to be installed on the upper part, and the disk fixing part, The disc support unit, the drive motor fixedly installed at the rear of the disc support unit and driven in the forward and reverse directions by the signal of the control unit, and the disc housing is installed in the front and assembled to the disc support unit so as to rotate in the forward and reverse directions by the drive motor. It is installed on the disk rotating body and the rear of the disk rotating body to sense the left and right rotation angle of the disk rotating body and send the signal to the control part to control the forward and reverse rotation of the drive motor. Encoder to install the disc in the disc housing, the disc drive member to rotate the disc separately from the disc housing by the signal of the control unit, and assembled to the disc fixing portion to adjust the upper and lower angles of the disc support A disk driving unit configured to adjust a disk angle adjusting unit;

A tool rest table assembled on a pedestal so as to be located in front of the disk driving part and manually transported before and after, a table transport member for manually transporting the tool rest table before and after, and installed below the table transport member. Servo motor driven left and right at an angle set by the signal of the control unit, and the diamond bite is assembled integrally with the axis of the servo motor so that the fixed diamond bite can be rotated left and right at the set angle. Diamond bite processing unit configured as a tool that is adjusted up and down and angle adjusted to fit;

The natural diamond universal polishing machine is a feature of the present invention.

The disk drive member is fixed to the middle portion of the inner peripheral surface of the disk support portion and the power supply for supplying power, and is fixed to the middle portion of the outer peripheral surface of the disk housing is supplied with power by contact with the power supply portion A power supply unit, a spindle body fixedly installed at an inner side of the disc housing, a spindle stator fixedly installed at the inside of the spindle body, and wound with a coil to connect the power supply unit with a power line, and the spindle An additional feature of the present invention is that the spindle is installed inside the stator and is integrally assembled to the end of the spindle housing so as to be exposed to the outside of the spindle housing.

The power supply unit comprises a brush holder fixed to the middle of the inner peripheral surface of the disk support portion, and a carbon brush fixed to the brush holder and connected to the power supply, the power supply is fixed to the middle of the outer peripheral surface of the disk housing And an insulator which is insulated from the disk housing, and a slip ring which is installed in the insulator and is in sliding contact with the carbon brush to allow the power to be conducted.

A hole is formed in one side of the disk housing so that a power line is connected between the slip ring and the spindle stator.

The power supply unit and the power supply unit consist of three carbon brushes and slip rings to increase efficiency, and each slip ring is insulated from each other by an insulator.

The present invention has the effect of improving the production efficiency by shortening the processing time by ensuring the optimum machining position by angular movement and rotation of the disk within the angular range according to the natural diamond grain direction.

Hereinafter, an embodiment of the natural diamond universal polishing machine of the present invention will be described.

12 to 19 show the natural diamond universal polishing machine of the present invention, FIG. 12 is a side view showing the structure of the natural diamond universal polishing machine, FIG. 13 is a plan view of FIG. 12, and FIG. 14 is a disk driving unit. Fig. 15 is a front view of Fig. 14, Fig. 16 is a plan view of the disc rotating body and the disc driving member, Fig. 17 is a top view of the disc rotating body and the disc driving member cut out, Fig. 18 is a disc 19A, 19B, 19C, and 19D are exemplary views showing the machining positions of diamond bites on the disc during forward, reverse rotation and left and right transfer of the disc housing. .

Natural diamond universal polishing machine of the present invention is composed of a pedestal 100, the disk drive unit 200 and the diamond bite processing unit (400).

The pedestal 100 is designed to have a set height so as to support the disc drive unit 200 and the diamond bite processing unit 400 in a box shape so that the worker can work in a comfortable posture during the machining operation.

The disk driving unit 200 is installed on the rear upper portion of the pedestal 100, and configured to be transferred to the front, rear and left and right manually, and the left and right transfer member 220 and , The front and rear transfer member 210 and the left and right transfer member 220 at the same time to automatically and automatically transfer the left and right transport member 230 is fixed to the base 100, and the front and rear transfer member ( The disk fixing part 240 of the square tube type, which is opened at the front and rear to be installed at the upper part of the 210, the disk supporting part 250 which is assembled to the disk fixing part 240 and adjusted up and down, and the disk supporting part 250 ) Is fixed to the rear of the drive motor 260 is driven in the forward and reverse directions by the signal of the control unit, and the disc housing 271 is installed in front of the disk support to rotate in the forward and reverse directions by the drive motor 260 The disk rotating body 270 to be assembled to the 250, and the disk is installed in the rear of the disk rotating body 270 The encoder 280 detects the left and right rotation angles of the entire 270 and sends a signal to the control unit to control the forward and reverse rotation angles of the driving motor 260, and the disc rotating body 270. The disc drive member 290 and the disc fixing part 240 are assembled to the disc driving part 290 so that the disc d rotates separately from the disc housing 271 by the signal of the control unit. It consists of a disk angle control unit 300 for adjusting the upper and lower angles of 250.

The front and rear conveying member 210 and the left and right conveying member 220, respectively, the conveying handle 211, 221, conveying screw (not shown in the drawing) and the guide ( 212) 222, which allows the diamond bite to be machined by manually setting the distance in advance.

The automatic transfer member 230 is installed between the pedestal 100 and the left and right transfer member 220, the guide 231 for sliding the disc drive unit 200 left and right, and fixed to the pedestal 100 The automatic feeding motor 232 and the feeding distance adjusting unit 233 rotates integrally assembled to the axis of the automatic feeding motor 232, the feeding distance adjusting unit 233 and the left, right transfer member 220 Both ends are respectively connected to the connecting rod 234 for repeating the disc drive unit 200 to the left and right while angular movement by the drive of the automatic transfer motor 232, the disc drive unit 200 itself automatically By repeating the left and right transfer to find the machining position of the diamond bite to be processed. The reason for this is to set the machining position in consideration of the specificity of diamond crystals as described above.

The connecting rod 234 connected to the conveying distance adjuster 233 is to adjust the conveying distance according to the assembling position to be connected, that is, the assembling position of the connecting rod 234 to the axis of the automatic feed motor 232. Since the rotation angle of the connecting rod 234 assembled to the conveying distance adjuster 233 is increased or decreased by the eccentric distance spaced apart from the operator, the operator varies the assembly to fit the machining position when machining the diamond bite. .

The disc support unit 250 is to adjust the angle by inserting the central axis 251 protruding from each of the middle portion on both sides of the disk fixing portion 240, and also to the center axis 251 on both sides of the disk fixing portion 240 To form two arc grooves 241 symmetrically with each other, the disc support portion 250 is fitted into the arc groove 241 is guided along the arc and at the same time fixed angle adjustment to be fixed after adjusting the angle of the disc support portion 250 The handle 252 is screwed on.

The drive motor 260 is fixed to the extension plate 253 extending to the rear of the disk support 250 to be driven by the signal of the control unit, the coarse pulley 261 provided on the axis of the drive motor 260 And a driven pulley 272 installed at the rear of the disk rotating body 270 by a belt 262 to transmit a driving force.

The disk rotator 270 is supported by the bearing 273 on the disk support 250 to rotate when the driving force is transmitted, and installs the disk d in front of the disk rotator 270 to process the diamond bite. Do it.

The bearing 273 is composed of a tapered bearing and a ball bearing to prevent tipping to the front and rear when the disk rotating body 270 rotates.

The encoder 280 is fixed to the pedestal 100 so that the shaft of the disk rotating body 270 is fitted to detect the left and right rotation angle of the disk rotating body 270 to send a signal to the control unit to drive the motor ( 260 to control the rotation angle.

The disk driving member 290 is fixedly installed in the middle of the inner peripheral surface of the disk support 250, the power supply unit 292 to supply power, and is fixedly installed in the middle of the outer peripheral surface of the disk housing 271 The power supply unit 293 receives power by contact with the power supply unit 292, a spindle body 294 fixedly installed at an inner side of the disk housing 271, and the spindle body 294. A spindle stator 295 fixed to the inside of the spindle and wound around the coil so that the power supply and supply unit 293 and the power line 297 are connected to each other, and the spindle stator 295 is installed in the spindle housing 271. The disk (d) is integrally assembled at the end so as to be exposed to the outside, and consists of a spindle (296) that rotates when power is supplied.

The power supply unit 292 is composed of a brush holder 292a fixed to the middle of the inner peripheral surface of the disk support 250, and a carbon brush 292b fixed to the brush holder 292a is connected to the power source, The power supply and supply unit 293 may be fixed to an intermediate portion of an outer circumferential surface of the disk housing 271 to be insulated from the disk housing 271, and installed on the insulator 293a and the carbon brush ( 292b) and a slip ring 293b for sliding the power supply.

A hole 271a is formed in one side of the disc housing 271 so that the power line 297 is connected between the slip ring 293b and the spindle stator 295.

The power supply unit 292 and the power supply and supply unit 293 are composed of three carbon brushes 292b and slip rings 293b so as to increase efficiency, and each slip ring 293b is mutually formed by an insulator 293a. Insulate.

The spindle 296 is supported by the bearing 293b to smoothly rotate.

The disc angle control unit 300 is adjusted to adjust the upper and lower angles of the disc support 250 by the operation of the adjustment handle 320 is screwed to the adjustment screw rod 310 to the disk fixing portion 240. The four rods 310 and the disk support part 250 are connected by a unit bearing (not shown).

The diamond bite processing unit 400 is assembled to the pedestal 100 so as to be located in front of the disk drive unit 200, the tool table table 410 is manually transferred before and after, and the tool table table 410 Table transfer member 420 to manually transfer the front and rear, servo motor 430 is installed at the lower portion of the table transfer member 420 and driven left and right at an angle set by the signal of the control unit, and servo Tool stand 440, which is integrally assembled to the shaft of the motor 430 and rotates the fixed diamond bite at a predetermined angle, and at the same time, the height and height of the diamond bite are adjusted and adjusted according to the machining position and angle of the diamond bite. It consists of.

The table transfer member 420 of the diamond bite processing unit 400 uses the same operation principle as the transfer operation principle of the lathe as described above, the tool bar transfer handle 421, the transfer screw (not shown) And by the operation of the guide 422, the tool table table 410 is to be transferred before, after.

The tool stage 440 is integrally assembled to the axis of the servomotor 430 and is formed in the longitudinal direction of the tool shaft 441 and the tool shaft 441 for fixing the diamond bite to rotate left and right at a predetermined angle. Along the guide groove 442 is composed of a bite holder 443 to adjust the height, height and angle to match the machining position and angle of the diamond bite.

The servomotor 430 rotates the tool post 440 left and right repeatedly while repeatedly driving left and right at an angle set by a signal of the control unit, thereby rounding the end portion of the diamond bite to a set curvature.

The operation of the conventional diamond bite processing polishing machine configured as described above is fixed to the diamond bite to be processed on the tool post 440, the front and rear conveying member 210 and the left and right conveying member 220 of the disk drive unit 200 ), And set the machining positions of the disc (d) and diamond bite in advance.

In addition, by adjusting the disk angle adjusting unit 300 to match the angle of the disk (d) to match the angle of the diamond bite to be processed. That is, since the diamond bite is inclined at the bottom of the front surface as shown in FIG. 4B, the diamond bite may be rounded at the sharp end portion of the diamond bite.

Thereafter, when the driving motor 260, the automatic transfer member 230, the disk driving member 290, and the servo motor 430 are driven by the control unit, the disk rotating body 270 is driven by the driving force of the driving motor 260. While rotating, the disc drive member 290 installed in the disc rotating body 270 also rotates at the same time, and the disc drive part 200 repeats the left and right transfer by the automatic transfer member 230, and the servomotor The tool post 440 of the diamond bite processing unit 400 also repeats the left and right angular movements by driving the 430.

At this time, the disk rotator 270 detects the left and right rotation angles during rotation and sends the signal to the control unit to rotate the drive motor 260 left and right, and at the same time the disk rotator ( The disk drive member 290 eccentrically installed in the 270 is continuously rotated within the rotation angle range of the disk rotator 270.

At this time, the rotation angle range of the disk rotating body 270 is repeated left and right rotation within the range that the machining position of the diamond bite (b) in contact with the disk (d) does not deviate.

In addition, when the automatic feed motor 232 is rotated during the operation of the automatic feed member 230, the feed distance adjuster 233 installed on the shaft is also rotated at the same time, eccentrically assembled to the feed distance adjuster 233 The connecting rod 234 changes the rotational movement of the conveying distance adjusting unit 233 into a linear movement to repeat the disk driving unit 200 to the left and right.

At this time, the left, right transfer distance is to repeat the left and right transfer within the rotation angle range does not deviate from the machining position of the diamond bite (b) in contact with the disk (d) as shown in FIG.

Therefore, as described above, the diamond bite to be processed by the repetition of the left and right rotations and the repetition of the left and right movements does not deviate from the disc d.

At this time, the range of left and right rotation angles and the angles of the machining positions are set differently according to the diamond bites because the operator finds and sets the machining position where the diamond crystal is most easily processed while the diamond bite is processed.

Therefore, when the machining position is found, for example, as shown in FIGS. 19A and 19B, the diamond bite (b) passes through the lower left and the upper part with respect to the center of the disk (d) during the angular rotation and the rightward movement in the forward and reverse directions. 19C and 19D, the diamond bite b passes through the lower right and upper sides with respect to the center of the disk d during the angular rotation and the transfer to the left in the forward and reverse directions.

Therefore, during the forward and reverse rotation of the disc housing 271 of the disc rotating body 270, the disc d continues to rotate in one direction, and the automatic transfer member 230 continuously repeats the left and right transfer. (b) is in contact with the entire surface of the disk (d) to accurately find the direction of the diamond grain.

At the same time, since the servomotor 430 drives the tool post 440 of the diamond bite processing unit 400 to rotate left and right, the diamond bite b contacts the entire surface of the disc d while the The diamond bite is rounded at the pointed end and is processed within a short time because it is processed at the optimum machining position because it is in contact with the right side, and the production time is improved by improving the processing time and processing efficiency.

1 is a perspective view of a diamond before processing;

FIG. 2 is a cross-sectional view taken along the line A-A of FIG. 1 for showing respective grain directions;

(A) (b) is a top view and a front view which show the shape before processing into a diamond bite,

(A) (b) is a top view and a front view which show the shape after processing with the diamond bite,

Figure 5 is an exemplary view showing each grain direction during the machining process for processing in the shape of Figure 4,

6 is an exemplary diagram in which the sharp end of the diamond bite is rounded;

7 to 11 illustrate a conventional natural diamond universal polishing machine,

7 is a side view showing the structure of a conventional natural diamond universal polishing machine,

FIG. 8 is a front view of the disc drive of FIG. 7;

9 is a plan view of FIG. 8,

10 is an exemplary view showing a machining position of a diamond bite on a disk;

11A and 11B are diagrams of machining positions of diamond bites on a disc by a conventional natural diamond universal polishing machine,

12 to 19 show the present invention natural diamond universal polishing machine,

12 is a side view showing the structure of a natural diamond universal polishing machine,

FIG. 13 is a plan view of FIG. 12;

14 is a plan view of the disc drive unit;

15 is a front view of FIG. 14,

16 is a plan view of the disc rotating body and the disc driving member;

17 is a plan view of the disc rotating body and the disc driving member cut away;

18 is an exemplary view showing a rotation angle range of the disk housing of the disk rotating body;

19A, 19B, 19C, and 19D are exemplary views showing the machining positions of diamond bites on the disc during forward, reverse rotation and left and right transfer of the disc housing.

Explanation of symbols on the main parts of the drawings

100; base 200; disc drive unit

271; disk housing 280; encoder

290; disk drive member d; disk

292; power supply 292a; brush holder

292b; Carbon Brush 293; Power Supply

293a; insulator 293b; slip ring

294; spindle body 295; spindle stator

296; spindle 297; power line

400; diamond bite processing part

Claims (5)

A box-shaped pedestal 100; It is installed on the rear upper portion of the pedestal 100 and configured to be manually transferred to the front, rear and left and right, the front and rear transfer member 210 and the left and right transfer member 220, and the front and rear transfer member 210. ) And the left and right transfer member 220 to be automatically installed at the top of the front and rear transfer member 210 and the automatic transfer member 230 is fixed to the base 100 so as to automatically transfer left and right at the same time. , The rear panel is fixed to the disk fixing portion 240 of the square tube type, the disk fixing portion 240 is assembled to the disk fixing portion 240, and fixed to the rear of the disk support portion 250 and the disk support 250 is fixed The drive motor 260 driven in the forward and reverse directions by a negative signal, and the disk housing 271 is installed in front of the disk assembly assembled to the disk support 250 so that the drive motor 260 is rotated in the forward and reverse directions It is installed at the rear of the whole 270 and the disk rotator 270 to adjust the left and right rotation angles of the disk rotator 270. Encoder 280 to sense the signal sent to the control unit to control the forward and reverse rotation of the drive motor 260, and disc (d) is installed eccentrically in the disc housing 271, the disc by the signal of the control unit Disc drive member 290 to rotate the disk (d) separately from the housing 271, and the disc angle adjustment to adjust the upper and lower angles of the disk support portion 250 is assembled to the disk fixing portion 240 A disk driving unit 200 composed of a unit 300; Tool stand table 410 is assembled to the pedestal 100 to be positioned in front of the disk drive unit 200 to be manually moved forward and backward, and to manually transfer the tool stand table 410 before and after It is integrally assembled to the axis of the servo motor 430 and the servo motor 430 installed at the lower part of the table transfer member 420, the table transfer member 420 and driven left and right at an angle set by the signal of the control unit. And the diamond bite processing unit 400 consisting of a tool post 440 that is fixed and rotated at a predetermined angle to the left and right at the same angle and at the same time adjust the height and height of the diamond bite and adjust the angle. ; Natural diamond universal polishing machine, characterized in that consisting of. The disk drive member 290 of claim 1, wherein the disk drive member 290 is fixed to the middle of the inner peripheral surface of the disk support 250, the power supply unit 292 to supply power, and the outer peripheral surface middle of the disk housing 271 A power supply unit 293 fixedly installed at the unit and supplied with power by contact with the power supply unit 292, a spindle body 294 fixedly installed at an inner side of the disc housing 271, and the A spindle stator 295 fixedly installed inside the spindle body 294 and having a coil wound around the power supply and supply unit 293 and a power line 297, and installed in the spindle stator 295, Natural diamond universal polishing machine, characterized in that the disk (d) integrally assembled at the end to be exposed to the outside of the housing (271) consisting of a spindle (296) that rotates when the power supply. The method of claim 2, wherein the power supply unit 292 is a brush holder 292a fixed to the middle of the inner peripheral surface of the disk support 250, and a carbon brush fixed to the brush holder 292a is connected to the power ( 292b), and the power supply / receiving unit 293 is installed at the middle of the outer circumferential surface of the disc housing 271 to be insulated from the disc housing 271, and installed at the insulator 293a. And a slip ring (293b), which is configured to slide in contact with the carbon brush (292b) so that the power is conducted. The method of claim 3, wherein the hole 271a is formed in one side of the disk housing 271 so that the power line 297 is connected between the slip ring 293b and the spindle stator 295 Diamond Universal Polishing Machine. 4. The natural diamond universal polishing machine according to claim 3, wherein the power supply unit 292 and the power supply unit 293 comprise three carbon brushes 292b and slip rings 293b to increase efficiency.

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