CN115502809A - Aluminum pipe burring polishing equipment - Google Patents

Abstract

The invention discloses aluminum pipe deburring polishing equipment, which belongs to the technical field of pipeline processing and comprises a bottom plate, wherein a feeding support, a polishing support and a deburring support are fixedly installed on the bottom plate, a feeding polishing assembly for polishing is arranged on the polishing support, a plurality of friction plates are arranged on the feeding polishing assembly, an aluminum pipe is clamped and centered through the friction plates for polishing, a deburring assembly for deburring a port of the aluminum pipe is arranged on the deburring support, a deburring blade and a sliding tooth block are arranged on the deburring assembly, the deburring blade is fixedly connected to the sliding tooth block, and the sliding tooth block slides to adapt to the diameter of the aluminum pipe so as to remove burrs.

Description

Aluminum pipe burring polishing equipment

Technical Field

The invention relates to the technical field of pipeline machining, in particular to an aluminum pipe deburring and polishing device.

Background

Aluminum pipes are widely used in various industries, such as: the aluminum pipe used in daily life usually needs different specifications such as pipe diameter, length and the like, and is polished for attractiveness so as to show the luster of the aluminum pipe; the cutting method has the advantages that the long aluminum pipe is often cut when the aluminum pipe with specific length is needed, burrs are easily generated at the pipe orifice after cutting, workers are easily scratched when the aluminum pipe is installed due to the burrs, the aluminum pipes with different pipe diameters are cut to the required length according to requirements when the aluminum pipe is produced, the pipe wall is polished, and the pipe orifice is deburred.

The invention patent with the publication number of CN110814911B in the prior art provides automatic deburring equipment for an excircle of a port of a steel pipe, which comprises a rack, a feeding assembly, a clamping rotating part, a limiting assembly, a polishing assembly, a discharging assembly and a driving assembly; the polishing assembly comprises a fixed block, a port polishing plate and an outer circle polishing plate; provide power drive by drive assembly, the spacing subassembly that sets up on the frame inner wall through the cooperation of centre gripping rotating part carries the steel pipe centre gripping of coming with the material loading subassembly and drives its rotation, polish the processing through the burr of port grinding plate to steel pipe port department at the pivoted in-process, and limit the position at steel pipe both ends through the port grinding plate, and polish the processing through the excircle department of perpendicular setting on port grinding plate outer lane to the steel pipe port at the pivoted in-process, and make the steel pipe relative rotation in the clamp splice through the produced frictional force of excircle grinding plate and steel pipe port excircle contact, let steel pipe port and port excircle polish more abundant and even, the advantage lies in: the automatic steel pipe grinding machine has the advantages that the automatic working processes of automatic feeding, automatic grinding and automatic discharging of steel pipes are realized, the labor intensity of workers is greatly reduced, the grinding efficiency of the steel pipes is improved, the automatic steel pipe grinding machine cannot work on steel pipes with different pipe diameters and lengths, meanwhile, the automatic steel pipe grinding machine cannot polish the pipe walls of the steel pipes, and only deburring can be carried out on ports.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the pipeline with different radiuses can be polished and deburred only by replacing and adjusting the positions of parts; need artifical unloading of going up, increase personnel intensity of labour.

Aiming at the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides an aluminum pipe burring polishing equipment, includes the bottom plate, fixed mounting pay-off support, polishing support, burring support on the bottom plate, the polishing support on be provided with the pay-off polishing subassembly that is used for the polishing, the pay-off polishing subassembly on be provided with the several friction disc, polish through several friction disc with the aluminum pipe clamp is tight, centering, the burring support on be provided with the burring subassembly that is used for aluminum pipe port deburring, the burring subassembly on be provided with burring blade, slip tooth piece, burring blade fixed connection on the slip tooth piece, thereby the diameter size that adapts to the aluminum pipe through the slip tooth piece removes the burr.

Preferably, the movable bottom plate is slidably mounted on the bottom plate, the other deburring support is fixedly mounted on the movable bottom plate, the lead screw motor is fixedly mounted on the bottom plate, the length adjusting lead screw is fixedly mounted on the lead screw motor, the length adjusting lead screw is in threaded connection with the movable bottom plate, the movable bottom plate is enabled to generate displacement by starting and stopping the lead screw motor, and therefore the distance between the two deburring supports is adjusted.

Preferably, the feeding support on fixed mounting two sets of spring pieces that tighten up, two sets of tighten up the spring piece and set up about the pipeline symmetry, tighten up the spring piece other end and rotate and connect the pay-off gyro wheel, the feeding support on two pay-off motors of slidable mounting, pay-off motor and pay-off gyro wheel fixed connection.

Preferably, the bottom plate on fixed connection polishing motor, polishing motor goes up fixed connection motor gear, polishing support on rotate and connect hollow carousel, hollow carousel on rotate and connect hollow rotating shaft, polishing support on rotate and connect transmission gear axle, transmission gear axle and motor gear meshing, hollow carousel and transmission gear axle pass through belt II and be connected, hollow rotating shaft pass through belt I and be connected with polishing motor.

Preferably, hollow rotating disc on fixed connection spring I, spring I other end fixed connection adjust the driving lever, hollow rotating shaft on fixed connection sun gear, hollow rotating disc on rotate and connect gear I, gear II, gear III, sun gear respectively with gear I, gear II, gear III meshing, rotate on the hollow rotating disc and connect an adjustment driving lever, hollow rotating disc on rotate and connect a plurality of connecting rods II, rotate respectively on the connecting rod II and connect friction gear axle I, friction gear axle II, friction gear axle III, on friction gear axle I, friction gear axle II, friction gear axle III respectively fixed connection friction axle, the friction epaxial cover is equipped with the friction disc, adjustment driving lever and friction gear axle I rotate and be connected, the gear on the friction gear axle I mesh with gear I, friction gear axle I on rotate and connect connecting rod I, gear II on rotate and connect driving lever I, gear I respectively with connecting rod I, friction gear axle II rotate and be connected, friction connecting rod II on rotate and connect the driving lever, gear II on the gear III respectively connect the driving lever.

Preferably, bottom plate and removal bottom plate on respectively fixed mounting have a flitch, a clamping bracket, hydraulic buffer pole, be close to the fixedly connected with response piece on the clamping bracket of removal bottom plate, be close to the fixed mounting cutting machine on the clamping bracket of polishing support, on two clamping bracket respectively two cylinders of fixed connection I, two cylinders I set up about hydraulic buffer pole symmetry, on the cylinder I respectively fixed connection clamping plate, fixedly connected with stay cord on one of them clamping plate, the other end fixed connection rack of stay cord, the rack on fixed connection spring II, be close to II other ends of spring and the polishing support fixed connection of polishing support, be close to II other ends of spring and the removal bottom plate fixed connection of removal bottom plate, two burring supports on respectively swing joint have outer circle framves.

Preferably, outer race one end fixed connection burring gear II, the last rotation connection bearing I of burring gear II, two burring support on respectively fixed mounting several cylinder II and a burring motor, fixed mounting burring gear I on the burring motor, burring gear I and II intermittent type meshing of burring gear, cylinder II and I fixed connection of bearing, two burring support on rotate respectively and install a bearing II, fixed mounting several spring III on the bearing II, spring III and outer race fixed connection, outer race on the rotation connection burring gear III, outer race on sliding connection slip cogwheel, sliding shaft, the last fixed connection burring blade of sliding gear piece, sliding shaft and III gear threaded connection of sliding shaft, burring gear III and the meshing of slip cogwheel.

Preferably, polishing support and removal bottom plate on respectively fixed mounting pole socket, rotate the installation dwang on the pole socket, the one end fixed mounting dwang gear that deburring gear III was kept away from to the dwang, the pole socket on slidable mounting rack, slide bar, rack and dwang gear engagement, slide bar and dwang thread engagement.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the aluminum pipe deburring and polishing equipment, the functions of automatic feeding, self-centering clamping and pipe diameter self-adaption polishing are realized by arranging the feeding and polishing assembly; (2) According to the aluminum pipe deburring and polishing equipment, the length of an aluminum pipe can be conveniently changed by arranging the lead screw motor and the length adjusting lead screw; (3) According to the aluminum pipe deburring and polishing equipment, the deburring gear III, the sliding tooth block and the pull rope are arranged, so that the deburring blade can be automatically adaptive to the operation according to the radius of a pipeline; (4) According to the deburring and polishing equipment for the aluminum pipe, disclosed by the invention, the hydraulic buffer rod and the clamping plate are arranged, so that the pipe can be automatically blanked after deburring, and the labor intensity of personnel is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention from a front view.

FIG. 2 is a schematic top view of the overall structure of the present invention.

Fig. 3 is a schematic view of the overall structure of the present invention.

FIG. 4 is a schematic view of a feed polishing assembly.

FIG. 5 is a schematic view of a partial structure of a feeding polishing assembly.

FIG. 6 is a schematic view of a partial structure of a feeding polishing assembly.

Fig. 7 is a schematic structural view of the deburring assembly.

Fig. 8 is a partial structural schematic view of the deburring component.

Fig. 9 is a partial structural schematic diagram of the deburring component ii.

Fig. 10 is a schematic view of a partial structure of the deburring assembly.

Reference numerals: 2-feeding a polishing component; 3-deburring the assembly; 4-a pipeline; 101-a base plate; 102-a feed carriage; 103-polishing the stent; 104-a deburring bracket; 105-length adjusting lead screw; 106-moving the bottom plate; 107-lead screw motor; 201-hollow turntable; 202-hollow rotating shaft; 203-spring I; 204-a feeding motor; 205-feed rollers; 206-tightening the spring block; 207-polishing motor; 208-belt I; 209-Belt II; 210-drive gear shaft; 211-motor gear; 212-adjusting a deflector rod; 213-friction plate; 214-friction shaft; 215-friction gear shaft I; 216-connecting rod I; 217-gear i; 218-link II; 219-sun gear; 220-a driving lever I; 221-gear II; 222-gear III; 223-connecting rod III; 224-a driving lever II; 225-friction gear shaft II; 226-friction gear shaft iii; 301-a clamping plate; 302-a clamping bracket; 303-a cutter; 304-a sensing piece; 305-a deburring motor; 306-deburring gear i; 307-cylinder I; 308-a discharge plate; 309-pull rope; 310-spring II; 311-deburring gear II; 312-bearing I; 313-cylinder II; 314-an outer race; 315-bearing ii; 316-spring iii; 317-deburring gear III; 318-hydraulic buffer rod; 319-deburring blade; 320-sliding tooth block; 321-a sliding shaft; 322-a slide bar; 323-rotating rod; 324-a rack; 325-rotating rod gear; 326-rod holder.

Detailed Description

The technical scheme of the invention is further explained by the specific embodiment in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1-3, a feeding bracket 102, a polishing bracket 103 and a deburring bracket 104 are fixedly mounted on a base plate 101, a feeding polishing assembly 2 for polishing is arranged on the polishing bracket 103, a deburring assembly 3 for deburring at an aluminum pipe port is arranged on the deburring bracket 104, a movable base plate 106 is slidably mounted on the base plate 101, another deburring bracket 104 is fixedly mounted on the movable base plate 106, a lead screw motor 107 is fixedly mounted on the base plate 101, a length adjusting lead screw 105 is fixedly mounted on the lead screw motor 107, the length adjusting lead screw 105 is in threaded connection with the movable base plate 106, the movable base plate 106 is enabled to generate displacement by starting and stopping the lead screw motor 107, and therefore the distance between the two deburring brackets 104 is adjusted.

As shown in fig. 4, two sets of tightening spring blocks 206 are fixedly mounted on the feeding bracket 102, the two sets of tightening spring blocks 206 are symmetrically arranged with respect to the pipeline 4, the other end of the tightening spring block 206 is rotatably connected with the feeding roller 205, two feeding motors 204 are slidably mounted on the feeding bracket 102, the feeding motors 204 are fixedly connected with the feeding roller 205, the feeding roller 205 is controlled to rotate by starting and stopping the feeding motors 204 so as to convey the pipeline 4, and the feeding roller 205 clamps the pipeline 4 according to the size of the pipeline 4 through the two sets of tightening spring blocks 206.

As shown in fig. 4-6, a polishing motor 207 is fixedly connected to the bottom plate 101, a motor gear 211 is fixedly connected to the polishing motor 207, a hollow rotary table 201 is rotatably connected to the polishing support 103, a hollow rotary shaft 202 is rotatably connected to the hollow rotary table 201, a transmission gear shaft 210 is rotatably connected to the polishing support 103, the transmission gear shaft 210 is engaged with the motor gear 211, the hollow rotary table 201 is connected to the transmission gear shaft 210 through a belt ii 209, the hollow rotary shaft 202 is connected to the polishing motor 207 through a belt i 208, the hollow rotary table 201 and the hollow rotary shaft 202 start to rotate by starting the polishing motor 207, and the hollow rotary table 201 and the hollow rotary shaft 202 rotate in opposite directions. The hollow rotary disc 201 is fixedly connected with a spring I203, the other end of the spring I203 is fixedly connected with an adjusting deflector rod 212, the hollow rotary shaft 202 is fixedly connected with a central gear 219, the hollow rotary disc 201 is rotatably connected with a gear I217, a gear II 221 and a gear III 222, the central gear 219 is respectively meshed with the gear I217, the gear II 221 and the gear III 222, the hollow rotary disc 201 is rotatably connected with the adjusting deflector rod 212, the hollow rotary disc 201 is rotatably connected with a plurality of connecting rods II 218, the connecting rods II 218 are respectively rotatably connected with a friction gear shaft I215, a friction gear shaft II 225 and a friction gear shaft III 226, the friction gear shaft I215, the friction gear shaft II 225 and the friction gear shaft III 226 are respectively and fixedly connected with a friction shaft 214, the friction shaft 214 is sleeved with a friction plate 213, the adjusting deflector rod 212 is rotatably connected with the friction gear shaft I215, the gear on the friction gear shaft I215 is meshed with the gear I217, the friction gear shaft I215 is rotatably connected with a connecting rod I216, the gear II 221 is rotatably connected with a driving lever I220, the driving lever I220 is respectively rotatably connected with a connecting rod I216 and a friction gear shaft II 225, the friction gear shaft II 225 is rotatably connected with a connecting rod III 223, the gear III 222 is rotatably connected with a driving lever II 224, the driving lever II 224 is respectively rotatably connected with a connecting rod III 223 and a friction gear shaft III 226, the adjusting driving lever 212 is pressed by a spring I203 to enable the adjusting driving lever 212 to rotate for a certain angle, the adjusting driving lever 212 rotates to enable the friction gear shaft I215 to be close to the pipeline 4, meanwhile, when the friction gear shaft I215 is close to the bottom plate 101, the connecting rod I216 enables the gear II 221 to rotate for a certain angle, then the friction gear shaft II 225 is also close to the pipeline 4, and similarly, the friction gear shaft III 226 is also close to the pipeline 4, wherein the motion tracks of the friction gear shaft I215, the friction gear shaft II 225 and the friction gear shaft III 226 are the same, so that the friction plates 213 clamp the pipe 4 to play a centering role, and one of the power transmission paths of the friction plates 213 rotating is as follows: the polishing motor 207 is connected with a belt I208, the belt I208 is connected with a central gear 219, the central gear 219 is connected with a gear I217, the gear I217 is connected with a friction gear shaft I215, the friction gear shaft I215 is connected with a friction shaft 214, the friction shaft 214 is connected with a friction plate 213, and the other routes are the same; the power transmission path of the revolution of the friction plate 213 is: polishing the motor 207 to the motor gear 211, the motor gear 211 to the transmission gear shaft 210, the transmission gear shaft 210 to the belt II 209, the belt II 209 to the spring I203, and the spring I203 makes the friction plate 213 revolve; the pipe 4 can be completely polished by the effect of the friction plate 213 rotating while revolving.

As shown in fig. 7-9, a discharging plate 308, a clamping bracket 302 and a hydraulic buffer rod 318 are respectively and fixedly installed on the bottom plate 101 and the movable bottom plate 106, a sensing piece 304 is fixedly connected to the clamping bracket 302 close to the movable bottom plate 106, a cutting machine 303 is fixedly installed on the clamping bracket 302 close to the polishing bracket 103, two cylinders i 307 are respectively and fixedly connected to the two clamping brackets 302, the two cylinders i 307 are symmetrically arranged with respect to the hydraulic buffer rod 318, the clamping plates 301 are respectively and fixedly connected to the cylinders i 307, a pulling rope 309 is fixedly connected to one of the clamping plates 301, a rack 324 is fixedly connected to the other end of the pulling rope 309, a spring ii 310 is fixedly connected to the rack 324, the other end of the spring ii 310 close to the polishing bracket 103 is fixedly connected to the polishing bracket 103, and the other end of the spring ii 310 close to the movable bottom plate 106 is fixedly connected to the movable bottom plate 106, the outer ring frames 314 are movably connected to the two deburring brackets 104 respectively, when the pipeline 4 moves to the touch sensing piece 304, the pipeline 4 is cut by the cutting machine 303, then the pipeline 4 falls on the hydraulic buffer rod 318 along a track formed by the clamping brackets 302, the top of the hydraulic buffer rod 318 is an inclined plane, so that the pipeline 4 always tends to move towards the discharge plate 308, at the moment, the pipeline 4 is surrounded by the clamping brackets 302, then the air cylinder I307 is started, so that the pipeline 4 is clamped by the clamping plate 301, because the clamping center of the clamping plate 301 is overlapped with the axis of the outer ring frame 314, after the pipeline 4 is clamped by the clamping plate 301, the pipeline 4 can press the hydraulic buffer rod 318 to slowly descend until the axis of the pipeline 4 is overlapped with the axis of the outer ring frame 314, then the air cylinder I307 is reset, the pipeline 4 loses the clamping of the clamping plate 301, and the hydraulic buffer rod 318 is reset slowly, because of the inclined plane design at the top of the hydraulic buffer rod 318, so that the pipe 4 rolls out onto the outfeed plate 308 and is then collected.

As shown in fig. 7-10, one end of the outer ring 314 is fixedly connected with a deburring gear ii 311, the deburring gear ii 311 is rotatably connected with a bearing i 312, two deburring brackets 104 are respectively and fixedly provided with a plurality of cylinders ii 313 and a deburring motor 305, the deburring motor 305 is fixedly provided with a deburring gear i 306, the deburring gear i 306 is intermittently meshed with the deburring gear ii 311, two deburring brackets 104 are respectively and rotatably provided with a bearing ii 315, the bearing ii 315 is fixedly provided with a plurality of springs iii 316, the springs iii 316 are fixedly connected with the outer ring 314, the outer ring 314 is rotatably connected with a deburring gear iii 317, the outer ring 314 is slidably connected with a sliding tooth block 320, a sliding shaft 321, a sliding tooth block 320 is fixedly connected with a blade 319, the sliding shaft 321 is provided with a non-self-locking thread, the deburring gear iii 317 is in threaded connection with the sliding shaft 321, the deburring gear iii is meshed with a rotating rod 320, a polishing bracket 103 and a movable bottom plate 106 are respectively and fixedly provided with a rod seat, one end of the rod seat 326, the deburring gear 323, the other end of the deburring gear 317 is fixedly connected with a rotating rod 325, the sliding rod seat is meshed with the sliding rack 322, and the sliding rod 322 is capable of pushing the sliding rack 322. When I307 stretches out at the cylinder and makes grip block 301 centre gripping pipeline 4, stay cord 309 can be dragged, thereby determine the volume of dragging of stay cord 309 according to the diameter of pipeline 4, stay cord 309 can make rack 324 displacement after dragging, rack 324 displacement makes dwang 323 rotate, dwang 323 rotates and makes slide bar 322 displacement, slide bar 322 displacement makes slide shaft 321 displacement, slide shaft 321 displacement makes deburring gear III 317 rotate, deburring gear III 317 rotates and makes the displacement of sliding tooth piece 320, the radius that deburring blade 319 was polished can be adjusted to the displacement of sliding tooth piece 320, thereby automatically, adapt to the radius of pipeline 4, polish to it. When the grinding is finished, the cylinder II 313 pushes the bearing I312 through extending out of the cylinder II 313, the cylinder II 313 and the bearing I312 are in intermittent contact, the bearing I312 pushes the deburring gear II 311, the outer ring frame 314 is enabled to overcome the elastic force of the spring III 316 and start to move in the direction away from the hydraulic buffer rod 318, the deburring gear II 311 is disengaged from the deburring gear I306 at the moment, the cylinder II 313 is retracted when the grinding is needed, the outer ring frame 314 starts to move in the direction close to the hydraulic buffer rod 318 under the action of the spring III 316 at the moment, then the deburring blade 319 butts against the pipeline 4, pressure is provided by the spring III 316, meanwhile, the deburring gear II 311 is engaged with the deburring gear I306, and the deburring blade 319 starts to perform deburring work on the pipeline 4.

The working principle is as follows: the length of the aluminum pipe is determined by adjusting the position of the movable bottom plate 106 by starting the lead screw motor 107, under the action of the spring I203, a plurality of friction plates 213 can clamp the pipeline 4, at the moment, the polishing motor 207 and the feeding motor 204 are started, the hollow rotating shaft 202 and the hollow rotating disc 201 start to rotate, the friction plates 213 start to rotate and revolve, the feeding roller 205 also slowly feeds the pipeline 4, so that the pipeline 4 is polished while being displaced, then the pipeline 4 is cut by the cutting machine 303 when the pipeline 4 moves to touch the induction plate 304, then the pipeline 4 drops on the hydraulic buffer rod 318, then the cylinder I307 is started, the clamping plate 301 clamps the pipeline 4 and enables the pipeline 4 to move downwards until the pipeline 4 is concentric with the outer ring frame 314, at the moment, the clamping plate 301 does not move any more, the position of the deburring blade 319 does not change any more, then the cylinder II 313 is retracted, the deburring gear I306 rotates the outer ring frame 314, the deburring blade 319 provides pressure through the spring III 316, the deburring is used for deburring the pipeline 4, then extends out of the cylinder II 313, the deburring blade 318 is retracted, at the clamping plate 301, at the deburring is retracted, the hydraulic buffer rod 308, the hydraulic buffer rod is retracted, and the hydraulic buffer rod 308, and the hydraulic buffer rod is returned to the top of the hydraulic buffer rod.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (8)

1. The utility model provides an aluminum pipe burring polishing equipment which characterized in that: including bottom plate (101), fixed mounting pay-off support (102), polishing support (103), burring support (104) on bottom plate (101), polishing support (103) on be provided with pay-off polishing subassembly (2) that are used for the polishing, pay-off polishing subassembly (2) on be provided with several friction disc (213), polish through several friction disc (213) with the aluminum pipe clamp tightly, centering, burring support (104) on be provided with burring subassembly (3) that are used for the aluminum pipe port to remove the burr, burring subassembly (3) on be provided with burring blade (319), slip tooth piece (320), burring blade (319) fixed connection on slip tooth piece (320), thereby the diameter size that adapts to the aluminum pipe through the slip of slip tooth piece (320) removes the burr.

2. The aluminum pipe deburring polishing apparatus as recited in claim 1, wherein: the deburring device is characterized in that a movable bottom plate (106) is slidably mounted on the bottom plate (101), another deburring bracket (104) is fixedly mounted on the movable bottom plate (106), a lead screw motor (107) is fixedly mounted on the bottom plate (101), a length adjusting lead screw (105) is fixedly mounted on the lead screw motor (107), the length adjusting lead screw (105) is in threaded connection with the movable bottom plate (106), the movable bottom plate (106) is enabled to generate displacement by starting and stopping the lead screw motor (107), and therefore the distance between the two deburring brackets (104) is adjusted.

3. The aluminum pipe deburring apparatus as recited in claim 1, wherein: the pipeline conveying device is characterized in that two groups of tightening spring blocks (206) are fixedly mounted on the conveying support (102), the tightening spring blocks (206) are symmetrically arranged about a pipeline (4), the other end of each tightening spring block (206) is rotatably connected with a conveying roller (205), two conveying motors (204) are slidably mounted on the conveying support (102), and the conveying motors (204) are fixedly connected with the conveying rollers (205).

4. The aluminum pipe deburring polishing apparatus as claimed in claim 2, wherein: bottom plate (101) on fixed connection polishing motor (207), fixed connection motor gear (211) on polishing motor (207), polishing support (103) on rotate and connect hollow turntable (201), hollow turntable (201) on rotate and connect hollow pivot (202), polishing support (103) on rotate and connect drive gear axle (210), drive gear axle (210) and motor gear (211) meshing, hollow turntable (201) be connected through belt II (209) with drive gear axle (210), hollow pivot (202) be connected with polishing motor (207) through belt I (208).

5. The aluminum pipe deburring polishing apparatus as recited in claim 4, wherein: the hollow rotary disc (201) is fixedly connected with a spring I (203), the other end of the spring I (203) is fixedly connected with an adjusting deflector rod (212), the hollow rotary shaft (202) is fixedly connected with a central gear (219), the hollow rotary disc (201) is rotatably connected with a gear I (217), a gear II (221) and a gear III (222), the central gear (219) is respectively meshed with the gear I (217), the gear II (221) and the gear III (222), the hollow rotary disc (201) is rotatably connected with an adjusting deflector rod (212), the hollow rotary disc (201) is rotatably connected with a plurality of connecting rods II (218), the connecting rods II (218) are respectively rotatably connected with a friction gear shaft I (215), a friction gear shaft II (225) and a friction gear shaft III (226), the friction gear shaft I (215), the friction gear shaft II (225) and the friction shaft III (226) are respectively and fixedly connected with a friction shaft (214), the friction plate (213) is sleeved on the friction shaft (214), the adjusting deflector rod (212) is rotatably connected with the friction shaft (215), the gear I (215) is meshed with the gear I (217) of the gear I (215), the gear I) and the gear I (216) and the gear shaft I (221) and the gear shaft I (216) are connected with the gear shaft I (220), the driving lever I (220) is respectively in rotating connection with the connecting rod I (216) and the friction gear shaft II (225), the friction gear shaft II (225) is connected with the connecting rod III (223) in a rotating mode, the gear III (222) is connected with the driving lever II (224) in a rotating mode, and the driving lever II (224) is respectively in rotating connection with the connecting rod III (223) and the friction gear shaft III (226).

6. The aluminum pipe deburring polishing apparatus as claimed in claim 2, wherein: the polishing machine is characterized in that a discharge plate (308), a clamping support (302) and a hydraulic buffer rod (318) are respectively and fixedly mounted on the base plate (101) and the movable base plate (106), an induction sheet (304) is fixedly connected to the clamping support (302) close to the movable base plate (106), a cutting machine (303) is fixedly mounted on the clamping support (302) close to the polishing support (103), two cylinders I (307) and two cylinders I (307) are respectively and fixedly connected to the two clamping supports (302) and symmetrically arranged about the hydraulic buffer rod (318), the cylinders I (307) are respectively and fixedly connected to the clamping plate (301), a pull rope (309) is fixedly connected to one clamping plate (301), a rack (324) is fixedly connected to the other end of the pull rope (309), a spring II (310) is fixedly connected to the rack (324), the other end of the spring II (310) close to the polishing support (103) is fixedly connected to the polishing support (103), the other end of the spring II (310) close to the movable base plate (106) is fixedly connected to the movable base plate (106), and deburring brackets (104) are respectively and movably connected to an outer ring frame (314).

7. The aluminum pipe deburring polishing apparatus as recited in claim 6, wherein: one end of the outer ring frame (314) is fixedly connected with a deburring gear II (311), a bearing I (312) is rotatably connected onto the deburring gear II (311), a plurality of cylinders II (313) and a deburring motor (305) are respectively and fixedly installed on the deburring supports (104), a deburring gear I (306) is fixedly installed on the deburring motor (305), the deburring gear I (306) is intermittently meshed with the deburring gear II (311), the cylinders II (313) are fixedly connected with the bearing I (312), a bearing II (315) is respectively and rotatably installed on the deburring supports (104), a plurality of springs III (316) are fixedly installed on the bearing II (315), the springs III (316) are fixedly connected with the outer ring frame (314), the outer ring frame (314) is rotatably connected with the deburring gear III (317), the outer ring frame (314) is slidably connected with a sliding tooth block (320) and a sliding shaft (321), the sliding tooth block (320) is fixedly connected with the deburring tooth block (319), the sliding shaft (321) is in threaded connection with the deburring gear III (317), and the deburring tooth block (320) is meshed with the deburring tooth block (320).

8. The aluminum pipe deburring polishing apparatus as recited in claim 7, wherein: polishing support (103) and remove bottom plate (106) on fixed mounting pole seat (326) respectively, rotate installation dwang (323) on pole seat (326), one end fixed mounting dwang gear (325) of burring gear III (317) are kept away from in dwang (323), pole seat (326) on slidable mounting rack (324), slide bar (322), rack (324) and dwang gear (325) meshing, slide bar (322) and dwang (323) threaded engagement.

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