CN114536165B

CN114536165B - Blank grinding device is used in mechanical gear production

Info

Publication number: CN114536165B
Application number: CN202210449756.9A
Authority: CN
Inventors: 杨联俊
Original assignee: Xuzhou Huachao Mine Equipment Co ltd
Current assignee: Xuzhou Huachao Mine Equipment Co ltd
Priority date: 2022-04-27
Filing date: 2022-04-27
Publication date: 2022-09-30
Anticipated expiration: 2042-04-27
Also published as: CN114536165A

Abstract

The invention relates to the technical field of gear polishing devices, in particular to a blank polishing device for mechanical gear production, which comprises an operation table, wherein a driving structure for driving a polishing structure to move is arranged on the operation table, and the polishing structure is connected with the operation table in a sliding manner; the operating platform is provided with an overturning structure for controlling the four mounting structures to overturn, the mounting structures are provided with fixing structures for fixing gears, and a rotating structure for driving the mounting structures to rotate is arranged inside the overturning structure; the operating platform is provided with a limiting structure for limiting the overturning structure; carry out the centre gripping through fixed knot structure cooperation mounting structure to the gear, improved the fixed efficiency of gear greatly, and be equipped with four mounting structure accessible flip structure upsets, be convenient for install new gear when processing the gear, improved the efficiency that the gear was polished greatly, and reduced mounting structure's height through the upset mode, and then made the installation of gear more convenient.

Description

Blank grinding device is used in mechanical gear production

Technical Field

The invention relates to the technical field of gear polishing devices, in particular to a blank polishing device for mechanical gear production.

Background

The gear is a mechanical element with a gear on a wheel rim which is continuously engaged to transmit motion and power, and the gear needs to be polished on the side surface of the gear in production, so that the gear meets the precision requirement and is convenient for subsequent use.

However, generally all fix the gear that will need to polish on the workstation through the manual work, polish the wheel gear through polishing after fixed, mostly adopt the clamp plate to carry out the centre gripping, the installation is dismantled inefficiently, and manual polishing precision is lower, and the angle of the regulation gear of being not convenient for, and the new gear of installation is not convenient for to the process of polishing, influences operating efficiency, and when the gear is great, the operation panel height is higher, also is not convenient for carry the gear.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a blank polishing device for mechanical gear production.

The technical scheme adopted by the invention for solving the technical problem is as follows: a blank polishing device for mechanical gear production comprises an operating platform, wherein a driving structure for driving a polishing structure to move is arranged on the operating platform, and the polishing structure is connected with the operating platform in a sliding manner; the operating platform is provided with an overturning structure for controlling the four mounting structures to overturn, the mounting structures are provided with fixing structures for fixing gears, and a rotating structure for driving the mounting structures to rotate is arranged inside the overturning structure; the operating platform is provided with a limiting structure for limiting the overturning structure;

the turnover structure comprises support frames, two support frames are fixed on the operating table, an installation shaft is fixed on the support frames, the installation shaft is rotatably connected with a turnover frame, four fixed disks are arranged on the turnover frame in a rectangular array mode, installation structures for installing gears are arranged on the fixed disks, and a rotating structure is arranged on the installation shaft.

Specifically, limit structure includes the guide bar, be fixed with the guide bar on the operation panel, sliding connection has the fixture block on the guide bar, fixture block and the spacing groove block on the upset frame, be equipped with first spring between fixture block and the operation panel, be fixed with the stay cord on the fixture block, the stay cord twines in the leading wheel and is fixed in the footboard, sliding connection between footboard and the operation panel.

Specifically, mounting structure includes the guide ring, it is connected with the guide ring to rotate on the fixed disk, be fixed with the head rod on the guide ring, be fixed with the connecting axle on the head rod, be equipped with the locating piece on the connecting axle, be equipped with the constant head tank on the locating piece, sliding connection has the sliding sleeve on the connecting axle, be fixed with first slipmat on the sliding sleeve, be fixed with the second connecting rod on the sliding sleeve, be fixed with first damping dish on the second connecting rod, be equipped with the second spring between first damping dish and the head rod.

Specifically, the fixing structure comprises a limiting disc, the limiting disc is clamped with a positioning block, a second anti-slip pad is arranged on the limiting disc, a positioning rod is connected to the limiting disc in a sliding mode and is clamped with the positioning groove, a pull rod is fixed to the positioning rod and is connected with the limiting disc in a sliding mode, the pull rod penetrates through a third spring, and the third spring is installed between the positioning rod and the limiting disc; a handle is fixed on the pull rod.

Concretely, revolution mechanic includes the connecting block, the connecting block is fixed in the installation axle, be fixed with the leading truck on the connecting block, sliding connection has the balladeur train on the leading truck, install the third motor on the balladeur train, be fixed with the second damping dish on the output shaft of third motor, be equipped with the pneumatic cylinder between balladeur train and the leading truck.

Specifically, the drive structure includes carriage and first motor, be fixed with the carriage on the operation panel, be fixed with first motor on the carriage, be fixed with the transmission shaft on the first motor, rotate between transmission shaft and the operation panel and be connected, it is connected with the lead screw to rotate on the operation panel, all be equipped with the gear on lead screw and the transmission shaft, the winding has the chain on the gear.

Specifically, the structure of polishing includes the sliding frame, lead screw threaded connection is in the sliding frame, sliding connection between sliding frame and the operation panel, be fixed with the slide on the sliding frame, sliding connection between slide and the operation panel, sliding frame internally mounted has the second motor, be fixed with the transmission dish on the output shaft of second motor, it is connected with the drive shaft to rotate on the transmission dish, the drive shaft rolls in the spout on the frame of polishing, sliding connection between frame and the sliding frame of polishing, be fixed with the stone of polishing on the frame of polishing.

The invention has the beneficial effects that:

(1) according to the blank polishing device for mechanical gear production, the operating platform is provided with the turnover structure for controlling the turnover of the four mounting structures, the mounting structures are provided with the fixing structures for fixing the gear, the gear is clamped by matching the fixing structures with the mounting structures, the fixing efficiency of the gear is greatly improved, the four mounting structures can be turned over through the turnover structure, a new gear can be conveniently mounted while the gear is machined, the polishing efficiency of the gear is greatly improved, the height of the mounting structures is reduced through a turning mode, and the gear is more convenient to mount.

(2) According to the blank polishing device for mechanical gear production, a rotating structure for driving an installation structure to rotate is arranged inside a turnover structure; through revolution mechanic installation structure that contradicts, make the installation structure gear that contradicts fasten more, rotate through revolution mechanic drive installation structure simultaneously, be convenient for polish to the different positions of gear, improved the efficiency of polishing greatly.

(3) According to the blank polishing device for mechanical gear production, the driving structure for driving the polishing structure to move is arranged on the operating platform, the polishing structure is connected with the operating platform in a sliding mode, the polishing structure is driven to move on the operating platform through the driving structure, the polishing depth is controlled, and meanwhile gears are rapidly polished through the polishing structure, so that the gears with different diameters can be conveniently polished.

(4) According to the blank polishing device for mechanical gear production, the limiting structure for limiting the overturning structure is arranged on the operating platform, so that the overturning structure is more stable after the angle is adjusted.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of a blank polishing device for mechanical gear production according to the present invention;

FIG. 2 is an enlarged view of the part A shown in FIG. 1;

FIG. 3 is an enlarged view of the structure of the portion B shown in FIG. 1;

FIG. 4 is a schematic view of the connection structure of the mounting structure and the rotating structure of the present invention;

FIG. 5 is an enlarged view of the structure of the portion C shown in FIG. 4;

FIG. 6 is an enlarged view of the structure of the portion D shown in FIG. 4;

FIG. 7 is an enlarged view of the structure of the section E shown in FIG. 4;

FIG. 8 is an enlarged view of the structure of the portion F shown in FIG. 4;

FIG. 9 is a schematic view of a connection structure of the grinding frame and the chute according to the present invention;

FIG. 10 is a schematic view of a connection structure between a fixture block and an operating platform according to the present invention;

fig. 11 is an enlarged view of the structure of the G portion shown in fig. 10.

In the figure: 1. an operation table; 2. a drive structure; 201. a support frame; 202. a drive shaft; 203. a first motor; 204. a chain; 205. a gear; 206. a screw rod; 207. a slide plate; 3. polishing the structure; 301. a sliding frame; 302. a polishing frame; 303. grinding stone; 304. a drive shaft; 305. a drive plate; 306. a second motor; 307. a chute; 4. a turning structure; 401. turning over the frame; 402. fixing the disc; 403. a support frame; 404. installing a shaft; 405. a limiting groove; 5. a limiting structure; 501. a pedal; 502. a guide rod; 503. a clamping block; 504. a first spring; 505. pulling a rope; 506. a guide wheel; 6. a mounting structure; 601. a sliding sleeve; 602. a first non-slip mat; 603. positioning blocks; 604. positioning a groove; 605. a connecting shaft; 606. a first damping disc; 607. a second spring; 608. a first connecting rod; 609. a guide ring; 610. a second connecting rod; 7. a fixed structure; 701. a handle; 702. a pull rod; 703. a limiting disc; 704. a second non-slip mat; 705. a third spring; 706. positioning a rod; 8. a rotating structure; 801. a second damping disc; 802. a third motor; 803. a carriage; 804. a guide frame; 805. connecting blocks; 806. and a hydraulic cylinder.

Detailed Description

The present invention will be further described with reference to the following detailed description so that the technical means, the creation features, the achievement purposes and the effects of the present invention can be easily understood.

As shown in fig. 1 to 11, the blank polishing device for mechanical gear production according to the present invention includes an operation table 1, a driving structure 2 for driving a polishing structure 3 to move is disposed on the operation table 1, and the polishing structure 3 is slidably connected to the operation table 1; the operating table 1 is provided with an overturning structure 4 for controlling four mounting structures 6 to overturn, the mounting structures 6 are provided with fixing structures 7 for fixing gears, and a rotating structure 8 for driving the mounting structures 6 to rotate is arranged inside the overturning structure 4; the operating platform 1 is provided with a limiting structure 5 for limiting the overturning structure 4;

the turnover structure 4 comprises a support frame 403, two support frames 403 are fixed on the operating table 1, an installation shaft 404 is fixed on the support frame 403, the installation shaft 404 is rotatably connected with a turnover frame 401, a rectangular array is arranged on the turnover frame 401 and provided with four fixed discs 402, an installation structure 6 for installing gears is arranged on the fixed discs 402, and a rotating structure 8 is arranged on the installation shaft 404.

Specifically, the limiting structure 5 includes a guide rod 502, the guide rod 502 is fixed on the operating platform 1, a fixture block 503 is slidably connected to the guide rod 502, the fixture block 503 is engaged with a limiting groove 405 on the turnover frame 401, a first spring 504 is arranged between the fixture block 503 and the operating platform 1, a pull rope 505 is fixed on the fixture block 503, the pull rope 505 is wound around the guide wheel 506 and fixed on the pedal 501, and the pedal 501 is slidably connected with the operating platform 1; the foot steps on and presses footboard 501, footboard 501 drives stay cord 505, stay cord 505 twines on leading wheel 506, the switching-over of being convenient for, make stay cord 505 pull fixture block 503's effect better, fixture block 503 slides with operation panel 1, fixture block 503 slides with guide bar 502, make fixture block 503's slip effect better, fixture block 503 contradicts first spring 504 compression, make fixture block 503 and spacing groove 405 non-block, then anticlockwise rotation upset frame 401, make and rotate between upset frame 401 and the installation axle 404, rotate ninety degrees after, loosen footboard 501, first spring 504 extension drive fixture block 503 and another spacing groove 405 block, and then fix upset frame 401, it is more convenient to make the position control of upset frame 401.

Specifically, the mounting structure 6 includes a guide ring 609, the fixed disk 402 is rotatably connected with the guide ring 609, the guide ring 609 is fixed with a first connecting rod 608, the first connecting rod 608 is fixed with a connecting shaft 605, the connecting shaft 605 is provided with a positioning block 603, the positioning block 603 is provided with a positioning groove 604, the connecting shaft 605 is slidably connected with a sliding sleeve 601, the sliding sleeve 601 is fixed with a first anti-slip pad 602, the sliding sleeve 601 is fixed with a second connecting rod 610, the second connecting rod 610 is fixed with a first damping disk 606, and a second spring 607 is arranged between the first damping disk 606 and the first connecting rod 608.

Specifically, the fixing structure 7 includes a limiting disc 703, the limiting disc 703 is engaged with the positioning block 603, a second anti-slip pad 704 is disposed on the limiting disc 703, a positioning rod 706 is slidably connected to the limiting disc 703, the positioning rod 706 is engaged with the positioning slot 604, a pull rod 702 is fixed to the positioning rod 706, the pull rod 702 is slidably connected to the limiting disc 703, the pull rod 702 penetrates through a third spring 705, and the third spring 705 is mounted between the positioning rod 706 and the limiting disc 703; a handle 701 is fixed on the pull rod 702; when a gear needs to be installed, a connecting shaft 605 on the right side of the operating platform 1 is in a horizontal state and is positioned outside the operating platform 1, the gear is sleeved on the connecting shaft 605, the gear is abutted against the first anti-skid pad 602, then the handle 701 is held by a hand, the pull rod 702 is pulled, the pull rod 702 drives the positioning rod 706 to slide into the limiting disc 703, the positioning rod 706 is abutted against the third spring 705 to be compressed, then the limiting disc 703 is clamped with the positioning block 603, the second anti-skid pad 704 on the limiting disc 703 is abutted against the gear, the handle 701 is released, the third spring 705 extends to drive the positioning rod 706 to be clamped with the positioning groove 604, and further the limiting disc 703 is fixed, meanwhile, the connecting shaft 605 is positioned on the right side, the height is reduced, the gear is conveniently vertically placed on the connecting shaft 605, and the installation efficiency of the gear is greatly improved; be convenient for install new gear when processing the gear, improved the efficiency that the gear was polished greatly, and reduced mounting structure 6's height through the upset mode, and then made the installation of gear more convenient.

Specifically, the rotating structure 8 includes a connecting block 805, the connecting block 805 is fixed to the mounting shaft 404, a guide frame 804 is fixed to the connecting block 805, a sliding bracket 803 is connected to the guide frame 804 in a sliding manner, a third motor 802 is mounted on the sliding bracket 803, a second damping disc 801 is fixed to an output shaft of the third motor 802, and a hydraulic cylinder 806 is arranged between the sliding bracket 803 and the guide frame 804; when the gear rotates to the top end, the hydraulic cylinder 806 extends to drive the sliding frame 803 to slide with the guide frame 804, so that the second damping disc 801 is abutted against the first damping disc 606, and after abutting against the first damping disc 606, the first damping disc 606 drives the second connecting rod 610, meanwhile, the first damping disc 606 abuts against the second spring 607 to be compressed, the second connecting rod 610 drives the sliding sleeve 601 to slide upwards, so that the first anti-skid pad 602 on the sliding sleeve 601 has a better clamping and fixing effect on the gear, and then the third motor 802 rotates to drive the guide ring 609 to rotate, so that the angle of the gear is changed; the operation flexibility is greatly improved; the gear polishing machine is convenient for polishing different positions of the gear, and greatly improves the polishing efficiency.

Specifically, the driving structure 2 includes a supporting frame 201 and a first motor 203, the supporting frame 201 is fixed on the operating platform 1, the first motor 203 is fixed on the supporting frame 201, a transmission shaft 202 is fixed on the first motor 203, the transmission shaft 202 is rotatably connected with the operating platform 1, a lead screw 206 is rotatably connected on the operating platform 1, gears 205 are respectively arranged on the lead screw 206 and the transmission shaft 202, and a chain 204 is wound on the gear 205; then, the first motor 203 drives the transmission shaft 202 to rotate, so that the gear 205 on the transmission shaft 202 drives the gear 205 on the screw rod 206 to rotate through the chain 204, the screw rod 206 drives the sliding frame 301 to slide on the operating table 1 through threads, and the grinding stone 303 slowly corresponds to the gear, so that the gears with different diameters can be conveniently ground.

Specifically, the polishing structure 3 includes a sliding frame 301, the screw rod 206 is connected to the sliding frame 301 through a thread, the sliding frame 301 is connected to the operating platform 1 in a sliding manner, a sliding plate 207 is fixed on the sliding frame 301, the sliding plate 207 is connected to the operating platform 1 in a sliding manner, a second motor 306 is installed inside the sliding frame 301, a transmission disc 305 is fixed on an output shaft of the second motor 306, a driving shaft 304 is connected to the transmission disc 305 in a rotating manner, the driving shaft 304 rolls in a sliding groove 307 on the polishing frame 302, the polishing frame 302 is connected to the sliding frame 301 in a sliding manner, and a polishing stone 303 is fixed on the polishing frame 302; then the second motor 306 rotates, the second motor 306 drives the transmission disc 305 to rotate, the driving shaft 304 rolls in the sliding groove 307, and then the polishing frame 302 is driven to reciprocate up and down, so that the gear is polished by the polishing stone 303, and meanwhile, the sliding frame 301 is provided with the sliding plate 207, so that dust is effectively prevented from entering the screw rod 206, and the operation precision is improved.

When the invention is used, firstly, a first motor 203, a second motor 306, a third motor 802 and a hydraulic cylinder 806 thereof are connected to a control box, when a gear needs to be installed, a connecting shaft 605 on the right side of an operating platform 1 is in a horizontal state and is positioned on the outer side of the operating platform 1, the gear is sleeved on the connecting shaft 605, so that the gear is abutted against a first anti-skid pad 602, then a handle 701 is held by a hand, a pull rod 702 is pulled, the pull rod 702 drives a positioning rod 706 to slide into a limiting disc 703, the positioning rod 706 is abutted against a third spring 705 to be compressed, then the limiting disc 703 is clamped with a positioning block 603, a second anti-skid pad 704 on the limiting disc 703 is abutted against the gear, the handle 701 is released, the third spring 705 extends to drive the positioning rod 706 to be clamped with a positioning groove 604, so that the limiting disc 703 is fixed, meanwhile, the connecting shaft 605 is positioned on the right side, the height is reduced, and the gear is conveniently and vertically placed on the connecting shaft 605, the mounting efficiency of the gear is greatly improved; the novel gear is convenient to mount while the gear is machined, the gear polishing efficiency is greatly improved, and the height of the mounting structure 6 is reduced in a turnover mode, so that the gear is more convenient to mount;

the foot presses pedal 501, pedal 501 drives pull rope 505, pull rope 505 is wound on guide wheel 506, reversing is facilitated, the effect that pull rope 505 pulls fixture block 503 is better, fixture block 503 slides with operating table 1, fixture block 503 slides with guide rod 502, the sliding effect of fixture block 503 is better, fixture block 503 is pressed against first spring 504 to enable fixture block 503 not to be clamped with limiting groove 405, turning frame 401 is rotated anticlockwise to enable turning frame 401 and mounting shaft 404 to rotate, pedal 501 is loosened after turning by ninety degrees, first spring 504 extends to drive fixture block 503 to be clamped with the other limiting groove 405, turning frame 401 is further fixed, and position adjustment of turning frame 401 is more convenient;

when the gear rotates to the top end, the hydraulic cylinder 806 extends to drive the sliding frame 803 to slide with the guide frame 804, so that the second damping disc 801 is abutted against the first damping disc 606, and after abutting against the first damping disc 606, the first damping disc 606 drives the second connecting rod 610, meanwhile, the first damping disc 606 abuts against the second spring 607 to be compressed, the second connecting rod 610 drives the sliding sleeve 601 to slide upwards, so that the first anti-skid pad 602 on the sliding sleeve 601 has a better clamping and fixing effect on the gear, and then the third motor 802 rotates to drive the guide ring 609 to rotate, so that the angle of the gear is changed; the operation flexibility is greatly improved; different positions of the gear can be conveniently polished, and the polishing efficiency is greatly improved;

then the first motor 203 drives the transmission shaft 202 to rotate, so that the gear 205 on the transmission shaft 202 drives the gear 205 on the screw rod 206 to rotate through the chain 204, the screw rod 206 drives the sliding frame 301 to slide on the operating table 1 through threads, and the grinding stone 303 slowly corresponds to the gear, so that the gears with different diameters can be conveniently ground; then the second motor 306 rotates, the second motor 306 drives the transmission disc 305 to rotate, the driving shaft 304 rolls in the sliding groove 307, and then the polishing frame 302 is driven to reciprocate up and down, so that the polishing stone 303 polishes the gear, meanwhile, the sliding frame 301 is provided with the sliding plate 207, dust is effectively prevented from entering the screw rod 206, and the operation precision is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The blank polishing device for mechanical gear production is characterized by comprising an operating platform (1), wherein a driving structure (2) for driving a polishing structure (3) to move is arranged on the operating platform (1), and the polishing structure (3) is connected with the operating platform (1) in a sliding manner; the operating platform (1) is provided with a turnover structure (4) for controlling four mounting structures (6) to turn over, the mounting structures (6) are provided with fixing structures (7) for fixing gears, and a rotating structure (8) for driving the mounting structures (6) to rotate is arranged inside the turnover structure (4); the operating platform (1) is provided with a limiting structure (5) for limiting the overturning structure (4);

the overturning structure (4) comprises supporting frames (403), two supporting frames (403) are fixed on the operating platform (1), an installation shaft (404) is fixed on each supporting frame (403), the installation shaft (404) is connected with an overturning frame (401) in a rotating mode, four fixed discs (402) are arranged on the overturning frame (401) in a rectangular array mode, installation structures (6) for installing gears are arranged on the fixed discs (402), and rotating structures (8) are arranged on the installation shafts (404);

the limiting structure (5) comprises a guide rod (502), the guide rod (502) is fixed on the operating platform (1), a clamping block (503) is connected onto the guide rod (502) in a sliding mode, the clamping block (503) is clamped with a limiting groove (405) in the turnover frame (401), and a first spring (504) is arranged between the clamping block (503) and the operating platform (1); a pull rope (505) is fixed on the fixture block (503), the pull rope (505) is wound on the guide wheel (506) and fixed on the pedal (501), and the pedal (501) is connected with the operating platform (1) in a sliding manner;

the mounting structure (6) comprises a guide ring (609), the guide ring (609) is rotatably connected to the fixed disc (402), a first connecting rod (608) is fixed to the guide ring (609), a connecting shaft (605) is fixed to the first connecting rod (608), a positioning block (603) is arranged on the connecting shaft (605), and a positioning groove (604) is arranged on the positioning block (603); a sliding sleeve (601) is connected onto the connecting shaft (605) in a sliding manner, a first anti-slip pad (602) is fixed onto the sliding sleeve (601), a second connecting rod (610) is fixed onto the sliding sleeve (601), a first damping disc (606) is fixed onto the second connecting rod (610), and a second spring (607) is arranged between the first damping disc (606) and the first connecting rod (608);

the fixing structure (7) comprises a limiting disc (703), the limiting disc (703) is clamped with the positioning block (603), a second anti-skid pad (704) is arranged on the limiting disc (703), a positioning rod (706) is connected onto the limiting disc (703) in a sliding manner, and the positioning rod (706) is clamped with the positioning groove (604); a pull rod (702) is fixed on the positioning rod (706), the pull rod (702) is connected with the limiting disc (703) in a sliding manner, the pull rod (702) penetrates through a third spring (705), and the third spring (705) is arranged between the positioning rod (706) and the limiting disc (703); a handle (701) is fixed on the pull rod (702);

rotating-structure (8) are including connecting block (805), connecting block (805) are fixed in installation axle (404), be fixed with leading truck (804) on connecting block (805), sliding connection has balladeur train (803) on leading truck (804), install third motor (802) on balladeur train (803), be fixed with second damping dish (801) on the output shaft of third motor (802), be equipped with pneumatic cylinder (806) between balladeur train (803) and leading truck (804).

2. The blank grinding device for mechanical gear production according to claim 1, characterized in that: drive structure (2) include carriage (201) and first motor (203), be fixed with carriage (201) on operation panel (1), be fixed with first motor (203) on carriage (201), be fixed with transmission shaft (202) on first motor (203), rotate between transmission shaft (202) and operation panel (1) and be connected, it is connected with lead screw (206) to rotate on operation panel (1), all be equipped with gear (205) on lead screw (206) and transmission shaft (202), the winding has chain (204) on gear (205).

3. The blank grinding device for producing the mechanical gear is characterized in that: polishing structure (3) is including smooth frame (301), lead screw (206) threaded connection is in smooth frame (301), sliding connection between smooth frame (301) and operation panel (1), be fixed with slide (207) on smooth frame (301), sliding connection between slide (207) and operation panel (1), smooth frame (301) internally mounted has second motor (306), be fixed with drive plate (305) on the output shaft of second motor (306), it is connected with drive shaft (304) to rotate on drive plate (305), drive shaft (304) roll in spout (307) on polishing frame (302), sliding connection between polishing frame (302) and smooth frame (301), be fixed with on polishing frame (302) and polish stone (303).