CN112959148B

CN112959148B - Tubular product excircle grinding device for industrial production

Info

Publication number: CN112959148B
Application number: CN202110194422.7A
Authority: CN
Inventors: 吴明龙
Original assignee: Dalian Jinjiang Automobile Parts Co ltd
Current assignee: Dalian Jinjiang Automobile Parts Co ltd
Priority date: 2021-02-20
Filing date: 2021-02-20
Publication date: 2023-04-07
Anticipated expiration: 2041-02-20
Also published as: CN112959148A

Abstract

The invention relates to an excircle polishing device, in particular to an excircle polishing device for pipes for industrial production, which comprises a fixed underframe, pipe fixing devices, a plurality of pipe polishing devices and an upper cover plate, wherein the pipe fixing devices are fixedly arranged on the fixed underframe, the pipe fixing devices are arranged on the pipe polishing devices, the upper cover plate is arranged on the pipe fixing devices, and a plurality of supporting and limiting devices are arranged in the device, so that the movement is more stable.

Description

Tubular product excircle grinding device for industrial production

Technical Field

The invention relates to an outer circle polishing device, in particular to an outer circle polishing device for a pipe for industrial production.

Background

Tubular product is more common building materials, and before tubular product production or use, need polish to the excircle of tubular product, the polishing of tubular product excircle not only can influence the pleasing to the eye of use, still directly influences the precision of using, the polishing mode of old-fashioned is mostly utilizing the grinding machine, utilize the grinding machine though can guarantee the precision of polishing, nevertheless the clamping position can not get to polish, need more change the clamping face, and change the clamping face and not only need alignment again, still cause the clamp of polishing face to hinder easily.

Disclosure of Invention

The invention mainly solves the technical problem of providing a pipe excircle polishing device for industrial production, 1. The device is internally provided with various supporting and limiting devices, so that the movement is more stable; 2. the device adopts the rotation and revolution of the pipe, so that the grinding is more uniform; 3. this device tubular product and the board integral contact of polishing when polishing prevent to polish board single position work, produce the recess of polishing, cause the damage of board of polishing.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a tubular product excircle grinding device for industrial production, includes fixed chassis, tubular product fixing device, tubular product grinding device and upper cover plate, fixed chassis fixed mounting have tubular product fixing device, tubular product fixing device is provided with a plurality ofly, tubular product fixing device installs on tubular product grinding device, the last upper cover plate of installing of tubular product fixing device.

As a further optimization of the technical scheme, the pipe outer circle polishing device for industrial production comprises a power motor A, a driving gear, a fixed chassis and a pipe fixing mechanism, wherein the power motor A is fixedly arranged on the fixed chassis, the output end of the power motor A is provided with the driving gear, the driving gear is connected with the pipe fixing mechanism, and the pipe fixing mechanism is slidably arranged on the fixed chassis;

the fixed chassis include the arc tooth piece, drive the bent axle, the drive pole, feed gear, the board is placed to tubular product, field type mounting bracket, cross thread piece A, connecting rod A, tight piece mount in top, tight piece in top, connecting rod B, cross thread piece B, two-way screw rod, the arc tooth piece meshes with drive gear mutually through the tooth, fixed mounting has the drive bent axle on the arc tooth piece, movable mounting has the drive pole on the drive bent axle, fixed mounting has feed gear on the drive pole, feed gear is connected with tubular product grinding device, the board fixed mounting is placed on drive pole to the tubular product, fixed mounting has field type mounting bracket on the board is placed to the tubular product, slidable mounting has cross thread piece A on the field type mounting bracket, connecting rod A's one end movable mounting is on cross thread piece A, connecting rod A's other end movable mounting is on tight piece mount in top, fixed mounting is on the tight piece mount in top, movable mounting has connecting rod B on the tight piece mount in top, connecting rod B movable mounting is on cross thread piece B, cross thread piece B slidable mounting is on field type mounting bracket, two-way screw rod movable mounting is on the board is placed to the two-way screw rod, two-way screw rod through screw thread piece and cross thread piece B.

As a further optimization of the technical scheme, the invention relates to a tubular product excircle polishing device for industrial production, which comprises a fixed base column, a fixed gear disc, a cross sliding chute A, a polishing plate, a fixed cross, a positioning rod and a polishing adjusting mechanism, wherein the fixed gear disc is fixedly arranged above the fixed base column and is meshed with a feeding gear through teeth;

the fixed cross comprises a cross body and a cross fixing rod, wherein the cross fixing rod is fixedly arranged on the cross body and is fixedly arranged on the fixing gear disc;

polishing adjustment mechanism include power motor B, the driving gear, the supporting wheel, the slip ratch, the stopper, the slide bar, annular balladeur train, connecting rod C, the connecting block, fixed slide bar, a spring, power motor B fixed mounting is on the cross body, the driving gear is installed to power motor B's output, the driving gear passes through the tooth with the slip ratch and meshes mutually, the slip ratch contacts with the supporting wheel, slip ratch fixed mounting is on the stopper, fixed mounting has the slide bar on the stopper, equal slidable mounting of slip ratch and slide bar is on fixed slide bar, fixed mounting has annular balladeur train on the slip ratch, annular balladeur train slidable mounting is on fixed slide bar, movable mounting has connecting rod C on the annular balladeur train, movable mounting has the connecting block on the connecting rod C, connecting block fixed mounting is on the board of polishing, the spring suit is on fixed slide bar, the both ends of spring are fixed mounting respectively on annular balladeur train and fixed fluted disc.

As a further optimization of the technical scheme, the pipe outer circle polishing device for industrial production comprises an upper cover plate, wherein the upper cover plate comprises a hoisting block, a cover plate body, an annular sliding groove and a positioning hole, the hoisting block is fixedly arranged on the cover plate body, and the annular sliding groove and the positioning hole are both arranged on the cover plate body.

The pipe excircle polishing device for industrial production has the beneficial effects that:

1. the bidirectional threaded screw 217 is rotated, the bidirectional threaded screw 217 is in threaded connection with the cross threaded block A211 and the cross threaded block B216 to further drive the cross threaded block B216 and the cross threaded block A211 to slide on the field-type mounting frame 210, the cross threaded block A211 and the cross threaded block B216 move to drive the jacking block fixing frame 213 and the jacking block 214 to move through the connecting rod A212 and the connecting rod B215, and then contact with the inner wall of a pipe to realize the function of fixing the pipe, the transverse displacement of the cross threaded block B216 and the cross threaded block A211 can be effectively limited by the sliding movement of the cross threaded block B216 and the cross threaded block A211 on the field-type mounting frame 210, so that the movement is more stable, the pipe is fixed by driving the jacking block fixing frame 213 and the jacking block 214 to move through the connecting rod A212 and the connecting rod B215 by utilizing the movement of the cross threaded block A211 and the cross threaded block B216, so that the fixed position of the pipe is the middle part, and the fixing of the pipe is more stable;

2. the connecting rod B215 and the connecting rod A212 respectively provide up-and-down jacking force to prevent the pipe from generating longitudinal displacement under the action of unidirectional force, the power motor A201 is started, the power motor A201 drives the driving gear 202 at the output end to rotate, the driving gear 202 rotates to be meshed with the arc-shaped tooth block 205, further, the driving crankshaft 206 is driven to rotate, the driving gear 206 is driven to rotate to drive the driving rod 207 to rotate around the fixed chassis 203, the driving rod 207 rotates to drive the pipe placing plate 209 to rotate around the fixed chassis 203 through the feeding gear 208, the feeding gear 208 rotates to be meshed with the fixed chassis 302 through meshing, further, the feeding gear 208 rotates to drive the pipe placing plate 209 to rotate, the pipe placing plate 209 rotates around the fixed chassis 203, the polishing is more uniform, meanwhile, the single position of the polishing plate 304 is prevented from being polished, and the polishing plate 304 generates a polishing groove;

3. the power motor B310 rotates to drive the driving gear 311 to rotate, the driving gear 311 rotates to be meshed with the sliding gear rod 313, so that the sliding gear rod 313 slides on the fixed sliding rod 319, the sliding gear rod 313 slides on the fixed sliding rod 319 to drive the sliding rod 315 to slide on the fixed sliding rod 319 through the limiting block 314, the sliding rod 315 slides on the fixed sliding rod 319 to limit the sliding gear rod 313, the sliding gear rod 313 is prevented from swinging, the sliding gear rod 313 moves to drive the annular sliding frame 316 to slide on the fixed sliding rod 319, the annular sliding frame 316 moves to press the sliding spring 320 and simultaneously drives the connecting rod C317 to move, the connecting rod 317C moves to drive the polishing plate 304 to slide on the cross frame body 308 and the fixed gear disc 302 through the connecting block 318, and the polishing plate 304 moves to be in contact with a pipe, so that the polishing function is realized;

4. after the pipe is installed, the cover plate body 402 is covered, the cover plate body 402 limits the bidirectional threaded screw 217 through the annular sliding groove 403, and the bidirectional threaded screw 217 is supported, so that the bidirectional threaded screw 217 rotates more stably.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic overall three-dimensional structure diagram of the pipe outer circle polishing device for industrial production.

Fig. 2 is a schematic view of an overall supplementary three-dimensional structure of the pipe outer circle polishing device for industrial production.

Fig. 3 is a schematic perspective view of a pipe fixing device 2 of the pipe outer circle polishing device for industrial production.

Fig. 4 is a supplementary three-dimensional structural diagram of the pipe fixing device 2 of the pipe outer circle polishing device for industrial production.

Fig. 5 is a schematic perspective view of a pipe fixing mechanism 204 of the pipe outer circle polishing device for industrial production according to the present invention.

Fig. 6 is a supplementary perspective view of the pipe fixing mechanism 204 of the pipe outer circle polishing device for industrial production according to the present invention.

Fig. 7 is a schematic perspective view of a pipe polishing device 3 of the pipe outer circle polishing device for industrial production according to the present invention.

Fig. 8 is a supplementary three-dimensional structural diagram of a pipe polishing device 3 of the pipe outer circle polishing device for industrial production.

Fig. 9 is a schematic perspective view of a polishing plate 304 of the pipe outer circle polishing device for industrial production according to the present invention.

Fig. 10 is a schematic perspective view of a fixing cross 305 of the pipe outer circle polishing device for industrial production according to the present invention.

Fig. 11 is a supplementary perspective structure diagram of a fixing cross 305 of the pipe outer circle polishing device for industrial production according to the present invention.

Fig. 12 is a schematic perspective view of a polishing adjustment mechanism 307 of the pipe outer circle polishing device for industrial production according to the present invention.

Fig. 13 is a schematic partial three-dimensional structure diagram of a polishing adjusting mechanism 307 of the pipe outer circle polishing device for industrial production.

Fig. 14 is a schematic perspective view of an upper cover plate 4 of the pipe outer circle grinding device for industrial production according to the present invention.

Fig. 15 is a supplementary perspective view of the upper cover plate 4 of the pipe outer circle grinding device for industrial production according to the present invention.

In the figure: a fixed chassis 1; a pipe fixing device 2; a power motor A201; carrying the gear 202; a fixed chassis 203; a tube fixing mechanism 204; an arc-shaped tooth block 205; driving the crankshaft 206; driving the rod 207; a feed gear 208; a tube placing plate 209; a field mount 210; a cross thread block A211; a connecting rod A212; a holding block fixing frame 213; a puller block 214; link B215; a cross-thread block B216; a two-way threaded screw 217; a pipe polishing device 3; a fixed bottom pillar 301; a fixed gear disk 302; a cross chute A303; grinding the plate 304; a stationary cross 305; a positioning rod 306; a grinding adjustment mechanism 307; a cross body 308; a cross fixing bar 309; a power motor B310; a drive gear 311; a support wheel 312; a sliding rack bar 313; a stop block 314; a slide bar 315; an annular carriage 316; a link C317; a connection block 318; a fixed slide bar 319; a spring 320; an upper cover plate 4; a hoisting block 401; a cover plate body 402; an annular slide groove 403; the holes 404 are located.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 and 2, and the pipe outer circle polishing device for industrial production comprises a fixed chassis 1, a pipe fixing device 2, a pipe polishing device 3 and an upper cover plate 4, wherein the fixed chassis 1 is fixedly provided with the pipe fixing device 2, the pipe fixing devices 2 are arranged in a plurality, the pipe fixing device 2 is arranged on the pipe polishing device 3, and the upper cover plate 4 is arranged on the pipe fixing device 2.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 3, 4, 5, and 6, and the present embodiment further describes the first embodiment, where the pipe fixing device 2 includes a power motor a201, a driving gear 202, a fixing chassis 203, and a pipe fixing mechanism 204, the power motor a201 is fixedly installed on the fixing chassis 1, the output end of the power motor a201 is installed with the driving gear 202, the driving gear 202 is connected to the pipe fixing mechanism 204, and the pipe fixing mechanism 204 is slidably installed on the fixing chassis 203;

the fixed chassis 203 comprises an arc-shaped tooth block 205, a driving crankshaft 206, a driving rod 207, a feeding gear 208, a pipe placing plate 209, a field-type mounting frame 210, a cross-shaped thread block A211, a connecting rod A212, a jacking block fixing frame 213, a jacking block 214, a connecting rod B215, a cross-shaped thread block B216 and a bidirectional threaded screw 217, wherein the arc-shaped tooth block 205 is meshed with the driving gear 202 through teeth, the driving crankshaft 206 is fixedly arranged on the arc-shaped tooth block 205, the driving rod 207 is movably arranged on the driving crankshaft 206, the feeding gear 208 is fixedly arranged on the driving rod 207, the feeding gear 208 is connected with the pipe polishing device 3, the pipe placing plate 209 is fixedly arranged on the driving rod 207, the field-type mounting frame 210 is fixedly arranged on the pipe placing plate 209, the cross-shaped thread block A211 is slidably arranged on the field-type mounting frame 210, one end of the connecting rod A212 is movably arranged on the cross-shaped thread block A211, the other end of the connecting rod A212 is movably arranged on the jacking block fixing frame 213, a puller block 214 is fixedly arranged on a puller block fixing frame 213, a connecting rod B215 is movably arranged on the puller block fixing frame 213, the connecting rod B215 is movably arranged on a cross thread block B216, the cross thread block B216 is slidably arranged on a field type mounting frame 210, a bidirectional thread screw 217 is movably arranged on a pipe placing plate 209, a cross thread block A211 and a cross thread block B216 are arranged on the bidirectional thread screw 217 through threads, a pipe is placed on the pipe placing plate 209, the bidirectional thread screw 217 is rotated, the bidirectional thread screw 217 is in threaded connection with the cross thread block A211 and the cross thread block B216, the cross thread block B216 and the cross thread block A211 are further driven to slide on the field type mounting frame 210, the cross thread block A211 and the cross thread block B216 move to drive the puller block fixing frame 213 and the puller block 214 to move through the connecting rod A212 and the connecting rod B215, and further contact with the inner wall of the pipe to realize the function of fixing the pipe, the transverse displacement of the cross thread block B216 and the cross thread block A211 can be effectively limited by sliding the cross thread block B216 and the cross thread block A211 on the field type mounting frame 210, so that the movement is more stable, the cross thread block A211 and the cross thread block B216 move to drive the jacking block fixing frame 213 and the jacking block 214 to move and fix a pipe through the connecting rod A212 and the connecting rod B215, so that the fixed position of the pipe is the middle part of the pipe, the pipe is fixed more stably, the connecting rod B215 and the connecting rod A212 respectively provide up-and-down jacking force to prevent the pipe from generating longitudinal displacement under the action of unidirectional force, the power motor A201 is started, the power motor A201 drives the driving gear 202 at the output end to rotate, the driving gear 202 rotates to be meshed with the arc-shaped tooth block 205, the crankshaft 206 is driven to rotate, the crankshaft 206 drives the driving rod 207 to rotate around the fixed chassis 203, and the driving rod 207 rotates to drive the pipe placing plate 209 to rotate around the fixed chassis 203 through the feeding gear 208.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 7, 8, 9, 10, 11, 12, and 13, and the present embodiment further describes an embodiment, where the pipe polishing apparatus 3 includes a fixed bottom pillar 301, a fixed gear disc 302, a cross sliding chute a303, a polishing plate 304, a fixed cross 305, a positioning rod 306, and a polishing adjustment mechanism 307, the fixed gear disc 302 is fixedly installed above the fixed bottom pillar 301, the fixed gear disc 302 is engaged with the feeding gear 208 through teeth, the cross sliding chute a303 is disposed on the fixed gear disc 302, two ends of the polishing plate 304 are respectively installed in the cross sliding chute a303 disposed on the fixed gear disc 302 and on the fixed cross 305, the fixed cross 305 is fixedly installed on the fixed gear disc 302, the positioning rod 306 is fixedly installed on the fixed cross 305, the polishing adjustment mechanism 307 is movably installed with the polishing plate 304, and the polishing adjustment mechanism 307 is fixedly installed on the fixed gear disc 302;

the fixed cross 305 comprises a cross body 308 and a cross fixing rod 309, the cross fixing rod 309 is fixedly installed on the cross body 308, and the cross fixing rod 309 is fixedly installed on the fixed gear plate 302;

the grinding adjusting mechanism 307 comprises a power motor B310, a driving gear 311, a supporting wheel 312, a sliding gear rod 313, a limiting block 314, a sliding rod 315, an annular sliding frame 316, a connecting rod C317, a connecting block 318, a fixed sliding rod 319 and a spring 320, wherein the power motor B310 is fixedly arranged on the cross frame body 308, the driving gear 311 is arranged at the output end of the power motor B310, the driving gear 311 is meshed with the sliding gear rod 313 through teeth, the sliding gear rod 313 is in contact with the supporting wheel 312, the sliding gear rod 313 is fixedly arranged on the limiting block 314, the sliding rod 315 is fixedly arranged on the limiting block 314, the sliding gear rod 313 and the sliding rod 315 are both slidably arranged on the fixed sliding rod 319, the annular sliding gear rod 313 is fixedly arranged on the annular sliding frame 316, the annular sliding frame 316 is slidably arranged on the fixed sliding rod 319, the connecting rod C317 is movably arranged on the annular sliding frame 316, the connecting block 318 is fixedly arranged on the grinding plate 304, the spring 320 is sleeved on the fixed sliding rod 319, two ends of the spring 320 are respectively fixedly installed on the annular sliding frame 316 and the fixed gear disc 302, the power motor B310 rotates to drive the driving gear 311 to rotate, the driving gear 311 rotates to be meshed with the sliding gear rod 313, so that the sliding gear rod 313 slides on the fixed sliding rod 319, the sliding gear rod 313 slides on the fixed sliding rod 319 to drive the sliding rod 315 to slide on the fixed sliding rod 319 through the limit block 314, the sliding rod 315 slides on the fixed sliding rod 319 to limit the sliding gear rod 313 and prevent the sliding gear rod 313 from swinging, the sliding gear rod 313 moves to drive the annular sliding frame 316 to slide on the fixed sliding rod 319, the annular sliding frame 316 moves to press the spring 320 and simultaneously drives the connecting rod C317, the connecting rod C moves to drive the polishing plate 304 to slide on the cross frame body 308 and the fixed gear disc 302 through the connecting block 318, and the polishing plate 304 moves to be in contact with a pipe, the polishing function is realized.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 14 and 15, and the present embodiment further describes a first embodiment, where the upper cover plate 4 includes a lifting block 401, a cover plate body 402, an annular sliding groove 403, and a positioning hole 404, the lifting block 401 is fixedly mounted on the cover plate body 402, the annular sliding groove 403 and the positioning hole 404 are both disposed on the cover plate body 402, after the pipe is mounted, the cover plate body 402 is covered, and the cover plate body 402 limits the bidirectional threaded screw 217 through the annular sliding groove 403, so as to support the bidirectional threaded screw 217, and make the bidirectional threaded screw 217 rotate more stably.

The invention relates to a pipe excircle polishing device for industrial production, which has the working principle that:

the pipe is placed on the pipe placing plate 209, the bidirectional threaded screw 217 is rotated, the bidirectional threaded screw 217 is in threaded connection with the cross threaded block A211 and the cross threaded block B216, the cross threaded block B216 and the cross threaded block A211 are further driven to slide on the field type mounting rack 210, the cross threaded block A211 and the cross threaded block B216 move through the connecting rod A212 and the connecting rod B215 to drive the tightening block fixing rack 213 and the tightening block 214 to move, and then the pipe is contacted with the inner wall of the pipe to realize the function of fixing the pipe, the cross threaded block B216 and the cross threaded block A211 can slide on the field type mounting rack 210 through the cross threaded block B216 and the cross threaded block A211 to effectively limit the transverse displacement of the cross threaded block B216 and the cross threaded block A211, the movement is more stable, the tightening block A213 and the tightening block 214 are driven to move to fix the pipe through the connecting rod A212 and the connecting rod B215 by the movement of the cross threaded block A211 and the cross threaded block B216, the pipe fixing position is the middle of the pipe, the pipe is fixed more stably, the connecting rod B215 and the connecting rod A212 respectively provide up-down jacking force, the pipe is prevented from being longitudinally displaced due to unidirectional force, the power motor A201 is started, the power motor A201 drives the driving gear 202 at the output end to rotate, the driving gear 202 rotates to be meshed with the arc-shaped tooth block 205, the driving crankshaft 206 is driven to rotate to drive the driving rod 207 to rotate around the fixed chassis 203, the driving rod 207 rotates to drive the pipe placing plate 209 to rotate around the fixed chassis 203 through the feeding gear 208, the feeding gear 208 rotates to be meshed with the fixed chassis 302 through being meshed with the fixed chassis, the feeding gear 208 rotates, the pipe placing plate 209 is driven to rotate, the pipe placing plate 209 rotates around the fixed chassis 203 and rotates to enable the grinding to be more uniform, meanwhile, the grinding plate 304 is prevented from being ground at a single position, and the grinding plate 304 generates a grinding groove.

The power motor B310 is started, the power motor B310 rotates to drive the driving gear 311 to rotate, the driving gear 311 rotates through being meshed with the sliding gear rod 313, the sliding gear rod 313 slides on the fixed sliding rod 319, the sliding rod 315 drives the sliding rod 315 to slide on the fixed sliding rod 319 through the limiting block 314, the sliding rod 315 slides on the fixed sliding rod 319 to limit the sliding gear rod 313, the sliding gear rod 313 is prevented from swinging, the sliding gear rod 313 moves to drive the annular sliding frame 316 to slide on the fixed sliding rod 319, the annular sliding frame 316 moves to press the sliding spring 320 and simultaneously drives the connecting rod 317C to move, the connecting rod 317C moves to drive the polishing plate 304 to slide on the cross frame body 308 and the fixed gear disc 302 through the connecting block 318, and the polishing plate 304 moves to be in contact with a pipe, so that a polishing function is achieved.

After the pipe is installed, the cover plate body 402 is covered, the cover plate body 402 limits the bidirectional threaded screw 217 through the annular sliding groove 403, and the bidirectional threaded screw 217 is supported, so that the bidirectional threaded screw 217 rotates more stably.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a tubular product excircle grinding device for industrial production, includes fixed chassis (1), tubular product fixing device (2), tubular product grinding device (3) and upper cover plate (4), its characterized in that: the fixed underframe (1) is fixedly provided with a plurality of pipe fixing devices (2), the pipe fixing devices (2) are arranged on the pipe polishing device (3), and the pipe fixing devices (2) are provided with an upper cover plate (4);

the pipe fixing device (2) comprises a power motor A (201), a driving gear (202), a fixing chassis (203) and a pipe fixing mechanism (204), wherein the power motor A (201) is fixedly arranged on the fixing chassis (1), the driving gear (202) is arranged at the output end of the power motor A (201), the driving gear (202) is connected with the pipe fixing mechanism (204), and the pipe fixing mechanism (204) is slidably arranged on the fixing chassis (203);

the fixed chassis (203) comprises an arc-shaped tooth block (205), a driving crankshaft (206), a driving rod (207), a feeding gear (208), a pipe placing plate (209), a field-shaped mounting rack (210), a cross thread block A (211), a connecting rod A (212), a jacking block fixing rack (213), a jacking block (214), a connecting rod B (215), a cross thread block B (216) and a two-way threaded screw rod (217), the arc-shaped tooth block (205) is meshed with the driving gear (202) through teeth, the driving crankshaft (206) is fixedly installed on the arc-shaped tooth block (205), the driving rod (207) is movably installed on the driving crankshaft (206), the feeding gear (208) is fixedly installed on the driving rod (207), the cross thread block A (211) is movably installed on the field-shaped mounting rack (210), one end of the connecting rod A (212) is movably installed on the cross thread block A (211), the other end of the connecting rod A (213) is fixedly installed on the jacking block (213), the jacking block (213) is installed on the fixing rack (213), the connecting rod B (215) is movably arranged on the cross thread block B (216), the cross thread block B (216) is slidably arranged on the field-type mounting frame (210), the two-way thread screw (217) is movably arranged on the pipe placing plate (209), and the cross thread block A (211) and the cross thread block B (216) are arranged on the two-way thread screw (217) through threads;

the pipe polishing device (3) comprises a fixed bottom column (301), a fixed gear disc (302), a cross sliding groove A (303), a polishing plate (304), a fixed cross (305), a positioning rod (306) and a polishing adjusting mechanism (307), wherein the fixed gear disc (302) is fixedly installed above the fixed bottom column (301), the fixed gear disc (302) is meshed with a feeding gear (208) through teeth, the cross sliding groove A (303) is arranged on the fixed gear disc (302), two ends of the polishing plate (304) are respectively installed in the cross sliding groove A (303) arranged on the fixed gear disc (302) and on the fixed cross (305), the fixed cross (305) is fixedly installed on the fixed gear disc (302), the positioning rod (306) is fixedly installed on the fixed cross (305), the polishing adjusting mechanism (307) is movably installed with the polishing plate (304), and the polishing adjusting mechanism (307) is fixedly installed on the fixed gear disc (302);

the fixed cross (305) comprises a cross body (308) and a cross fixing rod (309), the cross fixing rod (309) is fixedly installed on the cross body (308), and the cross fixing rod (309) is fixedly installed on the fixed toothed disc (302);

the polishing adjusting mechanism (307) comprises a power motor B (310), a driving gear (311), a supporting wheel (312), a sliding gear rod (313), a limiting block (314), a sliding rod (315), an annular sliding frame (316), a connecting rod C (317), a connecting block (318), a fixed sliding rod (319) and a spring (320), wherein the power motor B (310) is fixedly installed on a cross body (308), the driving gear (311) is installed at the output end of the power motor B (310), the driving gear (311) is meshed with the sliding gear rod (313) through teeth, the sliding gear rod (313) is in contact with the supporting wheel (312), the sliding gear rod (313) is fixedly installed on the limiting block (314), the sliding rod (315) is fixedly installed on the limiting block (314), the sliding gear rod (313) and the sliding rod (315) are both slidably installed on the fixed sliding rod (319), the annular sliding frame (316) is fixedly installed on the fixed sliding rod (313), the annular sliding frame (316) is slidably installed on the fixed sliding rod (316), the connecting rod C (318) is movably installed on the fixed sliding rod (318), and the connecting block (304) is sleeved on the fixed sliding rod (319), two ends of the spring (320) are respectively and fixedly arranged on the annular sliding frame (316) and the fixed gear disc (302).

2. The pipe outer circle grinding device for industrial production according to claim 1, characterized in that: the upper cover plate (4) comprises a lifting block (401), a cover plate body (402), an annular sliding groove (403) and a positioning hole (404), the lifting block (401) is fixedly installed on the cover plate body (402), and the annular sliding groove (403) and the positioning hole (404) are both arranged on the cover plate body (402).