CN112355863B

CN112355863B - Large building stone polishing equipment

Info

Publication number: CN112355863B
Application number: CN202011260324.0A
Authority: CN
Inventors: 栾勇
Original assignee: Individual
Current assignee: Macheng Huayang Chuangxin Stone Industry Co.,Ltd.
Priority date: 2020-11-12
Filing date: 2020-11-12
Publication date: 2021-10-08
Anticipated expiration: 2040-11-12
Also published as: CN112355863A

Abstract

The invention discloses large building stone polishing equipment which comprises a transmission device, a translation mechanism, a polishing device and a transposition device, wherein the transmission device, the translation mechanism, the polishing device and the transposition device are arranged on a rack, the transmission device and the translation device transmit the polishing device to a stone polishing position through the movement of an internal transmission assembly, the polishing device rotates through the operation of an internal transmission set to further polish the polished stone, the transposition device rotates inside to perform transposition on the polished stone, and meanwhile, the transmission device and the translation device are matched with the polishing device to polish, and the transmission device and the translation device perform auxiliary displacement on the polishing device. The invention can polish the building stones, greatly save the cost, and can comprehensively polish the building stones with different specifications, thereby improving the efficiency.

Description

Large building stone polishing equipment

Technical Field

The invention relates to the field of building stone polishing, in particular to large-scale building stone polishing equipment.

Background

After the large building stone is discharged, the surface is rough and uneven, the cost of the stone material is high, the polishing of the stone material needs polishing technology of polishing personnel, manual polishing wastes time and labor, the polished dust particles are harmful to human bodies, the cost is high, the fault tolerance rate is low, and the large building stone polishing equipment is specially disclosed for solving the problem.

Disclosure of Invention

The large building stone polishing equipment comprises a transmission device, a translation device, a polishing device and a transposition device.

The translation device is arranged on the transmission device, the polishing device is arranged at the front end of the translation device, and the indexing device is arranged on the transmission device.

Transmission include bearing bottom plate, bottom plate fixed plate, transmission mount, motor, go up transmission helical gear, right side transmission axle, right side transmission straight-teeth gear, right side transmission helical gear, left side underdrive axle, left side underdrive straight-teeth gear, left side transmission straight-teeth gear, transmission piece, transmission slider, rack and slider fixed plate, the bottom plate fixed plate have two fixed mounting at the middle part both ends of bearing bottom plate one end, the transmission mount pass through bottom plate fixed mounting on the upper portion of bearing bottom plate, motor fixed mounting on the upper portion of transmission mount, last transmission helical gear fixed mounting in the one end of motor, the right side on transmission axle fixed mounting in the side middle part position of transmission mount, left side underdrive axle fixed mounting inboard in the below of transmission mount, left side underdrive straight-teeth gear pass left side underdrive axle and install the inside below and the right side transmission straight-teeth gear of transmission mount in the inside below of transmission mount The gear meshes, the left side on the transmission straight-teeth gear pass the left side under the transmission shaft install the upper end of transmission straight-teeth gear under the left side, the transmission slider have three respectively fixed mounting transfer three sides about the transmission piece, the slider fixed plate have two, respectively fixed mounting is on the transmission slider surface of transmission piece left and right sides.

The translation device comprises a translation fixing plate, side fixing blocks, a foot plate fixing plate, a motor fixing foot plate, a stepping motor, an optical rail, a lead screw, a shaft connector, a sliding block, a bearing seat, a fixing foot plate, a connecting plate, a fixing foot plate, a servo motor, a ball screw, a transmission optical axis, a shaft coupling, a transmission plate and a transmission plate fixing plate, wherein the translation fixing plate is fixedly connected with two upper transmission bevel gears, the side fixing blocks are fixedly arranged at two ends of the translation fixing plate, the foot plate fixing plate is fixedly arranged on the side surface of the side fixing block on the right side of the translation fixing plate, the motor fixing foot plate is fixedly arranged on the side surface of the foot plate fixing plate, the stepping motor is fixedly arranged at the end part of the motor fixing foot plate, the optical rail is provided with two ends which penetrate through the upper and lower shaft holes of the two side fixing blocks, the lead screw is fixedly arranged in the middle shaft hole of the two side fixing blocks, the slider have two and pass two light rails respectively, bearing frame and lead screw carry out the ball cooperation, slider connecting plate and connecting plate have two slider connecting plates to pass two light rails and lead screw respectively and carry out fixed connection through two connecting plates, fixed sole fixed mounting at the connecting plate lower surface of below, servo motor fixed mounting on fixed sole, ball's both ends pass in the middle shaft hole of two connecting plates, the transmission optical axis have two both ends to pass in the both ends shaft hole of two connecting plates respectively, the both ends of shaft coupling fix ball and servo motor respectively, the inboard both ends shaft hole of transmission plate pass two transmission optical axes respectively, the transmission plate fixed plate have four respectively fixed mounting four outer surfaces in the transmission plate outside.

The polishing device comprises a fixing plate, a polishing connecting plate, a side fixing plate, a rotating motor, a rotating shaft, a rotating plate, a dust cover, a polishing motor, a transmission bevel gear, a polishing fixing plate, a transmission shaft, a driven bevel gear, a driven worm, a turbine transmission shaft, a driven turbine, a polishing plate, a connecting fixing plate, a connecting transmission shaft, a left driven bevel gear, a right driven bevel gear, a middle driven shaft, a middle driven spur gear, a middle impulse bevel gear, a lower driven shaft, a lower driven spur gear, a belt transmission shaft, an upper belt transmission spur gear, a lower belt transmission spur gear, a left side spur gear, a belt and a dust removal fan, wherein the fixing plate is arranged outside the transmission plate and fixedly connected with four transmission plate fixing plates, the polishing connecting plate is provided with two ends which are respectively fixedly arranged on the fixing plate, the side fixing plate is provided with two ends which are respectively arranged on the fixing plate and fixedly connected with the two polishing connecting plates, the rotary motor is fixedly arranged at the upper end of the right side fixing plate, one end of the rotary shaft penetrates through the right side fixing plate to be fixedly connected with the rotary motor, a middle shaft hole of the rotary plate penetrates through the rotary shaft to be welded, the dust cover is fixedly arranged on the surface of the lower end of the rotary plate, the polishing motor is fixedly arranged in the dust cover, the transmission bevel gear is fixedly connected with the end part of the polishing motor, the polishing fixing plates are respectively and fixedly arranged at the front section and the rear section on the left side of the rotary plate, two ends of the transmission shaft penetrate through the shaft holes at the upper ends of the two polishing fixing plates, the driven worm is fixedly arranged at the rear end of the transmission shaft, the turbine transmission shaft penetrates through the shaft hole at the rear end on the right side of the rotary plate, the driven turbine shaft hole penetrates through the turbine transmission shaft to be in transmission fit with the driven worm, and the polishing plate is fixedly arranged at one end of the turbine transmission shaft, the connection fixed plate have two respectively fixed mounting both sides in the middle of the lower extreme of rotor plate, connection transmission shaft both ends pass two connection fixed plates respectively, right driven helical gear fixed mounting in connection transmission shaft right side one end, middle driven shaft one end pass in the middle shaft hole of rotor plate, lower belt drive spur gear pass the rotor plate and install the upper surface at the rotor plate, left side spur gear carry out the belt drive cooperation through belt and lower belt drive spur gear, dust removal fan fixed mounting left side spur gear top.

The transposition device comprises a motor fixing plate, a transposition motor, a driving bevel gear, a transposition shaft, a lower driven bevel gear, a right driven straight gear, a left driven straight gear, an internal tooth straight gear and a transposition disc, the motor fixing plate is fixedly arranged on the upper surface of the bearing bottom plate, the transposition motor is fixedly arranged on the outer side surface of the motor fixing plate, the driving bevel gear is fixedly connected with one end of the indexing motor, the indexing shaft is fixedly arranged on the upper surface of the bearing bottom plate, the lower driven helical gear penetrates through the indexing shaft to be in transmission fit with the driving helical gear, the right driven spur gear is fixedly arranged at one end of the lower side of the indexing shaft, the left driven straight gear and the right driven straight gear are in transmission fit, the internal tooth straight gear is meshed with the left driven straight gear, and the transposition disc is fixedly arranged on the lower surface of the internal tooth straight gear.

Furthermore, the right side transmission straight gear pass transmission shaft rotation on the right side and install in the inside of transmission mount, the right side transmission helical gear pass transmission shaft rotation on the right side and install in the upper end of right side transmission straight gear, right side transmission helical gear meshes with last transmission helical gear.

Furthermore, the rack is fixedly arranged above the transmission block, and the rack is in gear engagement with the transmission straight gear on the left side.

Furthermore, two ends of the shaft connector are respectively in synchronous transmission with the end parts of the fixed screw rod and the stepping motor.

Furthermore, the driven bevel gear is rotatably arranged at the front end of the transmission shaft, and the driven bevel gear is in transmission fit with the transmission bevel gear.

Furthermore, the left driven helical gear is fixedly arranged at one end of the left side of the connecting transmission shaft, and the left driven helical gear is in transmission fit with the driven helical gear.

Furthermore, the middle impulse helical gear is arranged above the middle driven straight gear and penetrates through the middle driven shaft, and the middle impulse helical gear is in transmission fit with the right driven helical gear.

Furthermore, middle driven spur gear pass middle driven shaft and install in the rotor plate below, the one end fixed mounting of lower driven shaft in the shaft hole on rotor plate right side, lower driven spur gear rotate the other end of installing at lower driven shaft, lower driven spur gear meshes with middle driven spur gear.

Furthermore, one end of the belt transmission shaft is fixedly arranged in a shaft hole above the right side of the rotating plate, the upper belt transmission straight gear is rotatably arranged at the other end of the belt transmission shaft, and the upper belt transmission straight gear is in transmission engagement with the lower driven straight gear.

Compared with the prior art, the invention has the beneficial effects that: (1) the invention can be suitable for various specifications and can polish the building stone; (2) the invention can comprehensively polish the building stones with different specifications, and can improve the efficiency; (3) the invention can automatically polish and polish different building stones, and can greatly save cost.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic diagram of the transmission structure of the present invention.

FIG. 3 is a schematic view of a translation structure according to the present invention.

FIG. 4 is a schematic view of the internal structure of the translation device according to the present invention.

FIG. 5 is a schematic view of the internal assembly of the polishing apparatus of the present invention.

FIG. 6 is a schematic view of a rotational structure of the polishing apparatus according to the present invention.

FIG. 7 is a schematic view of an indexing device according to the present invention.

In the figure: 1-a transmission device; 2-a translation device; 3-a polishing device; 4-a transposition device; 101-a load-bearing floor; 102-a base plate fixing plate; 103-a transmission fixing frame; 104-a motor; 105-upper transmission bevel gear; 106-right upper transmission shaft; 107-right side transmission spur gear; 108-right drive bevel gear; 109-left lower drive shaft; 110-left underdrive spur gear; 111-left upper spur gear; 112-a transmission block; 113-a drive slide; 114-a rack; 115-a slider fixing plate; 201-translation fixing plate; 202-side fixing block; 203-baseboard fixing board; 204-motor fixing foot plate; 205-a stepper motor; 206-optical track; 207-lead screw; 208-a shaft connector; 209-slide block; 210-a bearing seat; 211-slider connection plate; 212-a connecting plate; 213-fixed foot plate; 214-a servo motor; 215-ball screw; 216 — Transmission optical axis; 217-a coupling; 218-a drive plate; 219-drive plate fixed plate; 301-a fixed plate; 302-polishing the connection plate; 303-side fixing plate; 304-a rotating electrical machine; 305-a rotation axis; 306-rotating plate; 307-a dust cover; 308-polishing the motor; 309-a transmission bevel gear; 310-polishing the fixed plate; 311-a drive shaft; 312-a driven bevel gear; 313-a driven worm; 314-a turbine drive shaft; 315-a driven turbine; 316-polishing plate; 317-connecting a fixed plate; 318-connecting the transmission shaft; 319-left driven bevel gear; 320-right driven bevel gear; 321-an intermediate driven shaft; 322-intermediate driven spur gear; 323-intermediate impulse bevel gear; 324-a lower driven shaft; 325-lower driven spur gear; 326-belt drive shaft; 327-upper belt drive spur gear; 328-lower belt transmission spur gear; 329-left spur gear; 330-a belt; 331-a dust removal fan; 401-motor fixing plate; 402-an indexing motor; 403-driving bevel gear; 404-an indexing shaft; 405-lower driven bevel gear; 406-right driven spur gear; 407-left driven spur gear; 408-an internal toothed spur gear; 409-transpose disk.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): a large building stone polishing apparatus as shown in fig. 1, 2, 3, 4, 5, 6, 7 comprises a driving device 1, a translation device 2, a polishing device 3 and an indexing device 4.

The translation device 2 is arranged on the transmission device 1, the polishing device 3 is arranged at the front end of the translation device 2, and the indexing device 4 is arranged on the transmission device 1.

The transmission device 1 comprises a bearing base plate 101, a base plate fixing plate 102, a transmission fixing frame 103, a motor 104, an upper transmission bevel gear 105, a right upper transmission shaft 106, a right transmission spur gear 107, a right transmission bevel gear 108, a left lower transmission shaft 109, a left lower transmission spur gear 110, a left upper transmission spur gear 111, a transmission block 112, a transmission slider 113, a rack 114 and a slider fixing plate 115, wherein the base plate fixing plate 102 is provided with two ends fixedly arranged at the middle part of one end of the bearing base plate 101, the transmission fixing frame 103 is fixedly arranged at the upper part of the bearing base plate 101 through the base plate fixing plate 102, the motor 104 is fixedly arranged at the upper part of the transmission fixing frame 103, the motor 104 is a power source, when the motor 104 rotates, the upper transmission bevel gear 105 fixedly connected with the motor rotates synchronously to drive the right transmission bevel gear 108 to transmit with the right transmission spur gear 107 fixedly connected with the right transmission bevel gear, and the upper transmission bevel gear 105 is fixedly arranged at one end of the motor 104, the right upper transmission shaft 106 is fixedly arranged at the middle part of the side of the transmission fixing frame 103, when the right transmission spur gear 107 rotates, the left lower transmission spur gear 110 and the left upper transmission spur gear 111 which are meshed with the right upper transmission shaft are driven to carry out synchronous transmission, the left lower transmission shaft 109 is fixedly arranged at the lower inner side of the transmission fixing frame 103, the left lower transmission spur gear 110 passes through the left lower transmission shaft 109 and is arranged at the lower part inside the transmission fixing frame 103 to be meshed with the right transmission spur gear 107, the left upper transmission spur gear 111 passes through the left lower transmission shaft 109 and is arranged at the upper end of the left lower transmission spur gear 110, when the transmission spur gear 111 on the left side transmits, the rack 114 is driven to translate left and right, three transmission sliding blocks 113 are respectively and fixedly arranged on the left lower side and the right lower side of the transmission block 112, and two sliding block fixing plates 115 are respectively and fixedly arranged on the surfaces of the transmission sliding blocks 113 on the left side and the right side of the transmission block 112.

The translation device 2 comprises a translation fixing plate 201, a side fixing block 202, a foot plate fixing plate 203, a motor fixing foot plate 204, a stepping motor 205, an optical rail 206, a screw 207, a shaft connector 208, a slider 209, a bearing seat 210, a fixing foot plate 213, a connecting plate 212, a fixing foot plate 213, a servo motor 214, a ball screw 215, a transmission optical axis 216, a shaft coupler 217, a transmission plate 218 and a transmission plate fixing plate 219, wherein the translation fixing plate 201 is fixedly connected with two upper transmission bevel gears 105, the side fixing block 202 is provided with two fixing blocks which are fixedly arranged at two ends of the translation fixing plate 201, the foot plate fixing plate 203 is fixedly arranged on the side surface of the side fixing block 202 on the right side of the translation fixing plate 201, the motor fixing foot plate 204 is fixedly arranged on the side surface of the foot plate fixing plate 203, the stepping motor 205 is fixedly arranged at the end of the motor fixing foot plate 204, the stepping motor 205 is a power source, when the stepping motor 205 rotates, the shaft connector 208 drives the screw 207 to rotate so as to drive the two slider connecting plates 211 and the connecting plate 212 to perform translation The optical rail 206 has two ends passing through the upper and lower shaft holes of the two side fixing blocks 202, the screw 207 is fixedly installed in the middle shaft hole of the two side fixing blocks 202, two blocks of the slider 209 pass through the two optical rails 206 respectively, the bearing seat 210 is in ball fit with the screw 207, two slider connecting plates 211 and two slider connecting plates 212 pass through the two optical rails 206 and the screw 207 respectively and are fixedly connected through the two connecting plates 212, a fixing foot plate 213 is fixedly installed on the lower surface of the connecting plate 212 below, the servo motor 214 is fixedly installed on the fixing foot plate 213, two ends of the ball screw 215 pass through the middle shaft hole of the two connecting plates 212, the servo motor 214 is a power source, when the servo motor 214 rotates, the transmission plate 218 is driven to move up and down through the bearing seat, the transmission optical axis 216 has two ends passing through the shaft holes at the two ends of the two connecting plates 212 respectively, two ends of the coupling are fixed on the ball screw 215 and the servo motor 214 respectively, the two shaft holes at the two ends of the inner side of the driving plate 218 respectively penetrate through the two driving optical shafts 216, and four driving plate fixing plates 219 are respectively fixedly arranged on the outer surfaces of the four ends of the outer side of the driving plate 218.

The polishing device 3 comprises a fixed plate 301, a polishing connecting plate 302, a side fixed plate 303, a rotating motor 304, a rotating shaft 305, a rotating plate 306, a dustproof cover 307, a polishing motor 308, a transmission bevel gear 309, a polishing fixed plate 310, a transmission shaft 311, a driven bevel gear 312, a driven worm 313, a turbine transmission shaft 314, a driven turbine 315, a polishing plate 316, a connecting fixed plate 317, a connecting transmission shaft 318, a left driven bevel gear 319, a right driven bevel gear 320, a middle driven shaft 321, a middle driven spur gear 322, a middle impulse bevel gear 323, a lower driven shaft 324, a lower driven spur gear 325, a belt transmission shaft 326, an upper belt transmission spur gear 327, a lower belt transmission spur gear 328, a left spur gear 329, a belt 330 and a dust removing fan 331, wherein the fixed plate 301 is arranged outside the transmission plate 218 and fixedly connected with four transmission plate fixed plates 219, the polishing connecting plate 302 is provided with two blocks which are respectively and fixedly arranged at two ends of the fixed plate 301, the side fixing plate 303 is provided with two polishing connecting plates 302 which are respectively arranged at the end part of the fixing plate 301 for fixed connection, a rotating motor 304 is fixedly arranged at the upper end of the right side fixing plate 303, the rotating motor 304 is a power source, when the rotating motor 304 rotates, the rotating plate 306 is driven by a rotating shaft 305 for rotation, one end of the rotating shaft 305 passes through the right side fixing plate 303 and is fixedly connected with the rotating motor 304, the middle shaft hole of the rotating plate 306 passes through the rotating shaft 305 for welding, a dust cover 307 is fixedly arranged on the surface of the lower end of the rotating plate 306, a polishing motor 308 is fixedly arranged in the dust cover 307, a transmission bevel gear 309 is fixedly connected with the end part of the polishing motor 308, the polishing motor 308 is a power source and synchronously rotates with the transmission bevel gear 309 fixedly connected with the polishing motor 308 when the polishing motor 308 rotates, and the polishing fixing plate 310 is provided with two sections which are respectively fixedly arranged at the front and back of the left side of the rotating plate 306, when the driving bevel gear 309 rotates, the driven bevel gear 312 engaged with the driving bevel gear is driven to drive the driven worm 313 to synchronously rotate, when the driven bevel gear 312 rotates, the driven bevel gear 319 and the right driven bevel gear 320 fixedly connected with the driven bevel gear are driven to rotate, two ends of the driving shaft 311 penetrate through shaft holes at the upper ends of the two polishing fixing plates 310, the driven worm 313 is fixedly arranged at the rear end of the driving shaft 311, when the driven worm 313 rotates, the driven worm 315 is driven to drive the driven worm to rotate, the turbine driving shaft 314 penetrates through the shaft hole at the rear end of the right side of the rotating plate 306, the shaft hole of the driven worm 315 penetrates through the turbine driving shaft 314 to be in transmission fit with the driven worm 313, the polishing plate 316 is fixedly arranged at one end of the turbine driving shaft 314, two connecting fixing plates 317 are respectively fixedly arranged at two sides of the middle of the lower end of the rotating plate 306, and two ends of the connecting driving shaft 318 respectively penetrate through the two connecting fixing plates 317, the right driven bevel gear 320 is fixedly installed at one end of the right side of the connecting transmission shaft 318, when the right driven bevel gear 320 rotates, the middle driven shaft 321 engaged with the right driven bevel gear is driven to perform synchronous transmission with the middle driven spur gear 322 fixedly connected with the right driven bevel gear, when the middle driven spur gear 322 rotates, the lower driven spur gear 325 is driven to transmit with the upper belt transmission spur gear 327 engaged with the lower driven spur gear, one end of the middle driven shaft 321 passes through the middle shaft hole of the rotating plate 306, a lower belt-driven spur gear 328 is installed on the upper surface of the rotating plate 306 through the rotating plate 306, when the upper belt transmission straight gear 327 rotates, the lower belt transmission straight gear 328 fixedly connected with the upper belt transmission straight gear rotates, the left side straight gear 329 is in belt transmission with the lower belt transmission straight gear 328 through a belt 330, the left side straight gear 329 is in belt transmission matching with the lower belt transmission straight gear 328 through the belt 330, and the dust removing fan 331 is fixedly installed above the left side straight gear 329.

The indexing device 4 comprises a motor fixing plate 401, an indexing motor 402, a driving bevel gear 403, an indexing shaft 404, a lower driven bevel gear 405, a right driven spur gear 406, a left driven spur gear 407, an internal tooth spur gear 408 and an indexing disc 409, the motor fixing plate 401 is fixedly installed on the upper surface of the bearing base plate 101, the indexing motor 402 is fixedly installed on the outer side surface of the motor fixing plate 401, the driving bevel gear 403 is fixedly connected with one end of the indexing motor 402, the indexing shaft 404 is fixedly installed on the upper surface of the bearing base plate 101, the lower driven bevel gear 405 penetrates through the indexing shaft 404 to be in transmission fit with the driving bevel gear 403, the right driven spur gear 406 is fixedly installed at one end of the lower side of the indexing shaft 404, the left driven spur gear 407 is in transmission fit with the right driven spur gear 406, the internal spur gear 408 is meshed with the left driven spur gear 407, and the indexing disc 409 is fixedly installed on the lower surface of the internal spur gear 408.

A right transmission spur gear 107 is installed inside the transmission fixing frame 103 through a right upper transmission shaft 106, and a right transmission helical gear 108 is installed at the upper end of the right transmission spur gear 107 through the right upper transmission shaft 106 to be engaged with the upper transmission helical gear 105.

The rack 114 is fixedly arranged above the transmission block 112 and is in transmission fit with the left upper transmission spur gear 111.

Two ends of the shaft connector 208 are respectively fixed with the lead screw 207 and the end of the stepping motor 205 for synchronous transmission.

The driven bevel gear 312 is arranged at the front end of the transmission shaft 311 and is in transmission fit with the transmission bevel gear 309.

The left driven bevel gear 319 is fixedly arranged at one end of the left side of the connecting transmission shaft 318 and is in transmission fit with the driven bevel gear 312.

The middle impulse bevel gear 323 is arranged above the middle driven spur gear 322 and passes through the middle driven shaft 321 to be in transmission fit with the right driven bevel gear 320.

An intermediate driven spur gear 322 is installed below the rotating plate 306 through an intermediate driven shaft 321, one end of a lower driven shaft 324 passes through a shaft hole at one end of the right side of the rotating plate 306, and a lower driven spur gear 325 passes through the lower driven shaft 324 to be engaged with the intermediate driven spur gear 322.

One end of a belt transmission shaft 326 is inserted into the right upper shaft hole of the rotating plate 306, and an upper belt transmission spur gear 327 is inserted into the belt transmission shaft 326 to be in transmission engagement with the lower driven spur gear 325.

Claims

1. The utility model provides a large-scale building stone polishing equipment, includes transmission (1), translation device (2), burnishing device (3) and transposition device (4), its characterized in that:

the translation device (2) is arranged on the transmission device (1), the polishing device (3) is arranged at the front end of the translation device (2), and the indexing device (4) is arranged on the transmission device (1);

the transmission device (1) comprises a bearing bottom plate (101), a bottom plate fixing plate (102), a transmission fixing frame (103), a motor (104), an upper transmission bevel gear (105), a right upper transmission shaft (106), a right transmission spur gear (107), a right transmission bevel gear (108), a left lower transmission shaft (109), a left lower transmission spur gear (110), a left upper transmission spur gear (111), a transmission block (112), a transmission slider (113), a rack (114) and a slider fixing plate (115), wherein the number of the bottom plate fixing plates (102) is two, the two transmission bevel gears are fixedly arranged at two ends of the middle part of one end of the bearing bottom plate (101), the transmission fixing frame (103) is fixedly arranged at the upper part of the bearing bottom plate (101) through the bottom plate fixing plate (102), the motor (104) is fixedly arranged at the upper part of the transmission fixing frame (103), the upper transmission bevel gear (105) is fixedly arranged at one end of the motor (104), the right upper transmission shaft (106) is fixedly arranged at the middle part of the side of the transmission fixing frame (103), the left lower transmission shaft (109) is fixedly arranged at the inner side below the transmission fixing frame (103), the left lower transmission spur gear (110) penetrates through the left lower transmission shaft (109) and is arranged at the lower part inside the transmission fixing frame (103) to be meshed with the right transmission spur gear (107), the left upper transmission spur gear (111) penetrates through the left lower transmission shaft (109) and is arranged at the upper end of the left lower transmission spur gear (110), the transmission sliding blocks (113) are three, are respectively and fixedly arranged at the left lower side and the right lower side of the transmission block (112), and two sliding block fixing plates (115) are respectively and fixedly arranged on the surfaces of the transmission sliding blocks (113) at the left side and the right side of the transmission block (112);

the translation device (2) comprises a translation fixing plate (201), side fixing blocks (202), a foot plate fixing plate (203), a motor fixing foot plate (204), a stepping motor (205), an optical rail (206), a lead screw (207), a shaft connector (208), a sliding block (209), a bearing seat (210), a sliding block connecting plate (211), a connecting plate (212), a fixing foot plate (213), a servo motor (214), a ball screw (215), a transmission optical axis (216), a coupler (217), a transmission plate (218) and a transmission plate fixing plate (219), wherein the translation fixing plate (201) is fixedly connected with two upper transmission bevel gears (105), the side fixing blocks (202) are fixedly arranged at two ends of the translation fixing plate (201), the foot plate fixing plate (203) is fixedly arranged on the side surface of the side fixing block (202) on the right side of the translation fixing plate (201), the utility model discloses a motor fixed foot board (204) fixed mounting is in the side surface of sole fixed plate (203), step motor (205) fixed mounting at the tip of motor fixed foot board (204), light rail (206) have two, both ends pass in the upper and lower shaft hole of two side fixed blocks (202), lead screw (207) fixed mounting in the middle shaft hole of two side fixed blocks (202), slider (209) have two to pass two light rails (206) respectively, bearing frame (210) and lead screw (207) carry out ball cooperation, slider connecting plate (211) and connecting plate (212) have two, two slider connecting plates (211) pass light rail (206) and lead screw (207) respectively and carry out fixed connection through two connecting plates (212), fixed foot board (213) fixed mounting connecting plate (212) lower surface below, servo motor (214) fixed mounting on fixed foot board (213), two ends of the ball screw (215) penetrate through the middle shaft holes of the two connecting plates (212), two transmission optical shafts (216) are arranged, two ends of the ball screw penetrate through the shaft holes at the two ends of the two connecting plates (212), two ends of the coupler (217) are fixed on the ball screw (215) and the servo motor (214) respectively, the shaft holes at the two ends of the inner side of the transmission plate (218) penetrate through the two transmission optical shafts (216) respectively, and four transmission plate fixing plates (219) are fixedly arranged on the outer surfaces of the four ends of the outer side of the transmission plate (218) respectively;

the polishing device (3) comprises a fixing plate (301), a polishing connecting plate (302), a side fixing plate (303), a rotating motor (304), a rotating shaft (305), a rotating plate (306), a dust cover (307), a polishing motor (308), a transmission bevel gear (309), a polishing fixing plate (310), a transmission shaft (311), a driven bevel gear (312), a driven worm (313), a turbine transmission shaft (314), a driven turbine (315), a polishing plate (316), a connection fixing plate (317), a connection transmission shaft (318), a left driven bevel gear (319), a right driven bevel gear (320), a middle driven shaft (321), a middle driven spur gear (322), a middle impulse bevel gear (323), a lower driven shaft (324), a lower driven spur gear (325), a belt transmission shaft (326), an upper belt transmission spur gear (327), a lower belt transmission spur gear (328), Left side spur gear (329), belt (330) and dust removal fan (331), fixed plate (301) install and carry out fixed connection in driving plate (218) outside and four driving plate fixed plates (219), polishing connecting plate (302), there are two both ends of fixed mounting respectively in fixed plate (301), side fixed plate (303) have two, install respectively that the tip at fixed plate (301) carries out fixed connection through two polishing connecting plates (302), rotating electrical machines (304) fixed mounting in the upper end of right side fixed plate (303), rotation axis (305) one end pass right side fixed plate (303) and rotating electrical machines (304) and carry out fixed connection, rotation plate (306) in the middle of the shaft hole pass rotation axis (305) and weld, dust cover (307) fixed mounting at rotation plate (306) lower extreme surface, polishing motor (308) fixed mounting in the inside of dust cover (307), the polishing device is characterized in that the transmission bevel gear (309) is fixedly connected with the end part of the polishing motor (308), two polishing fixing plates (310) are respectively and fixedly arranged at the front section and the rear section on the left side of the rotating plate (306), two ends of the transmission shaft (311) penetrate through shaft holes at the upper ends of the two polishing fixing plates (310), the driven worm (313) is fixedly arranged at the rear end of the transmission shaft (311), the turbine transmission shaft (314) penetrates through the shaft hole at the rear end of the right side of the rotating plate (306), the shaft hole of the driven turbine (315) penetrates through the turbine transmission shaft (314) to be in transmission fit with the driven worm (313), the polishing plate (316) is fixedly arranged at one end of the turbine transmission shaft (314), two connecting fixing plates (317) are respectively and fixedly arranged at two sides in the middle of the lower end of the rotating plate (306), and two ends of the connecting transmission shaft (318) respectively penetrate through the connecting fixing plates (317), the right driven bevel gear (320) is fixedly installed at one end of the right side of the connecting transmission shaft (318), one end of a middle driven shaft (321) penetrates through a middle shaft hole of the rotating plate (306), the lower belt transmission spur gear (328) penetrates through the rotating plate (306) and is installed on the upper surface of the rotating plate (306), the left side spur gear (329) is in belt transmission fit with the lower belt transmission spur gear (328) through a belt (330), and the dust removing fan (331) is fixedly installed above the left side spur gear (329);

the indexing device (4) comprises a motor fixing plate (401), an indexing motor (402), a driving bevel gear (403), an indexing shaft (404), a lower driven bevel gear (405), a right driven spur gear (406), a left driven spur gear (407), an internal tooth spur gear (408) and an indexing disc (409), wherein the motor fixing plate (401) is fixedly installed on the upper surface of a bearing base plate (101), the indexing motor (402) is fixedly installed on the outer side surface of the motor fixing plate (401), the driving bevel gear (403) is fixedly connected with one end of the indexing motor (402), the indexing shaft (404) is fixedly installed on the upper surface of the bearing base plate (101), the lower driven bevel gear (405) penetrates through the indexing shaft (404) to be in transmission fit with the driving bevel gear (403), the right driven bevel gear (406) is fixedly installed at one end of the lower side of the indexing shaft (404), the left driven spur gear (407) is in transmission fit with the right driven spur gear (406), the internal tooth spur gear (408) is meshed with the left driven spur gear (407), and the transposition disc (409) is fixedly installed on the lower surface of the internal tooth spur gear (408).

2. A large building stone polishing apparatus according to claim 1, wherein: the right transmission straight gear (107) penetrates through the right upper transmission shaft (106) to be rotatably installed inside the transmission fixing frame (103), the right transmission helical gear (108) penetrates through the right upper transmission shaft (106) to be rotatably installed at the upper end of the right transmission straight gear (107), and the right transmission helical gear (108) is meshed with the upper transmission helical gear (105).

3. A large building stone polishing apparatus according to claim 1, wherein: the rack (114) is fixedly arranged above the transmission block 112, and the rack (114) is in gear engagement with the transmission straight gear (111) on the left side.

4. A large building stone polishing apparatus according to claim 1, wherein: and two ends of the shaft connector (208) are respectively in synchronous transmission with the end parts of the fixed lead screw (207) and the stepping motor (205).

5. A large building stone polishing apparatus according to claim 1, wherein: the driven bevel gear (312) is rotatably arranged at the front end of the transmission shaft (311), and the driven bevel gear (312) is in transmission fit with the transmission bevel gear (309).

6. A large building stone polishing apparatus according to claim 1, wherein: the left driven bevel gear (319) is fixedly arranged at one end of the left side of the connecting transmission shaft (318), and the left driven bevel gear (319) is in transmission fit with the driven bevel gear (312).

7. A large building stone polishing apparatus according to claim 1, wherein: the middle impulse bevel gear (323) is arranged above the middle driven straight gear (322) and penetrates through the middle driven shaft (321), and the middle impulse bevel gear (323) is in transmission fit with the right driven bevel gear (320).

8. A large building stone polishing apparatus according to claim 1, wherein: middle driven spur gear (322) pass middle driven shaft (321) and install in rotor plate (306) below, the one end fixed mounting of lower driven shaft (324) in the shaft hole on rotor plate (306) right side, lower driven spur gear (325) rotate the other end of installing at lower driven shaft (324), lower driven spur gear (325) mesh with middle driven spur gear (322).

9. A large building stone polishing apparatus according to claim 1, wherein: one end of the belt transmission shaft (326) is fixedly arranged in a shaft hole above the right side of the rotating plate (306), the upper belt transmission straight gear (327) is rotatably arranged at the other end of the belt transmission shaft (326), and the upper belt transmission straight gear (327) is in transmission engagement with the lower driven straight gear (325).