CN117961706A - Forming equipment for PVC pipeline processing and manufacturing - Google Patents

Abstract

The invention discloses a forming device for PVC pipeline processing and manufacturing, which relates to the technical field of pipeline processing and manufacturing, wherein dust collection openings are formed in two sides of a polishing barrel, a centralized box is rotatably connected to the center of one side of an assembly disc, the inside of the centralized box penetrates through the assembly disc and is communicated with the inside of a driving rotary tube, a dust collection telescopic corrugated tube is connected between the polishing barrel close to the centralized box and the centralized box, and an annular box is arranged on one side of the assembly disc.

Description

Forming equipment for PVC pipeline processing and manufacturing

Technical Field

The invention relates to the technical field of pipeline processing and manufacturing, in particular to a forming device for PVC pipeline processing and manufacturing.

Background

The PVC pipeline is a protection pipeline which is frequently used in the building field and is used for protecting circuits and water pipes and has high corrosion resistance, and the PVC pipeline is uniformly and well appreciated by the engineering industry due to the characteristics of light weight, corrosion resistance, high compressive strength, safety, convenience and the like.

The PVC pipeline is required to be cut in sections according to the requirements when being processed and manufactured, burrs are often left at the cutting end of the pipeline after the pipeline is cut, the cutting end of the PVC pipeline is required to be polished after the pipeline is manufactured so as to ensure the final forming quality of the produced pipeline, the inner side and the outer side of the pipeline end are polished by the conventional polishing roller, the polishing roller is directly used for polishing the inner side and the outer side of the pipeline end, the polishing mode not only can lead to the dust produced by polishing to splash the polluted air quality everywhere, during working, the temperature of the polishing roller and the polished pipeline rises under the action of friction force, so that the pipeline is easily damaged when the polishing roller is faster in aging speed, and the quality of the final polished and formed pipeline is influenced.

Disclosure of Invention

The invention provides a forming device for processing and manufacturing a PVC pipeline, which can effectively solve the problems that in the background technology, the PVC pipeline needs to be cut in sections according to requirements during processing and manufacturing, burrs are often left at a cutting end of the pipeline after the pipeline is cut, the cutting end of the PVC pipeline needs to be polished after the pipeline is manufactured to ensure the final forming quality of the pipe, the inner side and the outer side of the pipeline end are polished by the conventional polishing operation generally directly using a polishing roller, the polishing mode can not only cause fragments generated by polishing to splash around to pollute the air quality, but also easily damage the pipeline when the temperature of the polishing roller and the polished pipeline is increased under the action of friction force, so that the aging speed of the polishing roller is faster and the quality of the pipeline finally polished and formed is influenced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the molding equipment for processing and manufacturing the PVC pipeline comprises a base, wherein a polishing and dedusting assembly is arranged at the top of the base and comprises a driving motor;

the automatic grinding machine is characterized in that a driving motor is installed at one end of the top of the base, the output end of the driving motor is connected with a driving rotary pipe, the top end of the driving rotary pipe is connected with an assembly disc, an adjusting slide rail is arranged at the triangular position of the assembly disc, an adjusting slide block is installed inside the adjusting slide rail in a sliding mode, one side of the assembly disc is located at one side of each adjusting slide rail and is rotatably provided with an adjusting screw rod, the adjusting screw rod is connected with one end of an adjacent adjusting slide block through threads, the other end of the adjusting slide block is connected with a bidirectional groove, two ends of the inside of the bidirectional groove are slidably provided with bidirectional slide blocks, an adjusting bidirectional screw rod is rotatably installed inside the bidirectional groove, two ends of the adjusting bidirectional screw rod are respectively connected with the adjacent bidirectional slide blocks through threads, a servo motor is installed at the top of the bidirectional groove, the output end of the servo motor is connected with one end of the adjacent adjusting bidirectional screw rod, and the top end of the bidirectional slide block is provided with a grinding cylinder;

The dust collection device is characterized in that dust collection openings are formed in two sides of the polishing cylinder, a centralized box is connected with the center of one side of the assembly plate in a rotating mode, the inside of the centralized box is communicated with the inside of the driving rotary pipe through penetrating through the assembly plate, a dust collection telescopic corrugated pipe is connected between the polishing cylinder and the centralized box, which is close to the centralized box, an annular box is installed on one side of the assembly plate, a rotary ring is connected with one side of the annular box in a rotating mode, a linkage rod is connected between the triangular position of one side of the assembly plate and the rotary ring, and the dust collection telescopic corrugated pipe is also connected between the polishing cylinder and the rotary ring and located outside.

According to the technical scheme, the pleated cloth is arranged on one side of the bidirectional groove, the connection part between the grinding cylinder and the bidirectional sliding block penetrates through the pleated cloth, the outer side of the bidirectional sliding block is tightly attached to the inner side of the bidirectional groove, and the contact surface between the bidirectional sliding block and the bidirectional groove is a smooth surface;

The utility model discloses a dust collecting device, including the base, the mounting disc triangle position department installs the flabellum, the base top is located mounting disc one side and installs the removal slide rail, it installs the dust collecting tube to remove slide rail top and be located the outside slip of drive commentaries on classics pipe, isolation net is installed to dust collecting tube one end, sliding connection between drive commentaries on classics pipe and the isolation net, collection box is installed to dust collecting tube bottom trompil, the push electric putter is installed at the base top, push electric putter output is connected with dust collecting tube outside one side.

According to the technical scheme, the bottom of the annular box is provided with the conveying box, one side of the top of the base is provided with the dust storage cabinet, the top of one side of the dust storage cabinet is provided with the exhaust fan, the exhaust fan exhaust end is connected with the top of the inner side of the dust storage cabinet, a filter screen is arranged at the joint between the exhaust fan exhaust end and the dust storage cabinet, and a conveying pipe is connected between the top of the dust storage cabinet and the conveying box;

The top end of the polishing cylinder is rotationally connected with a correction wheel, the outer side of the correction wheel is provided with a heat dissipation hole, the top end of the dust storage cabinet is connected with a hot air pipe, and the hot air pipe is connected with an air outlet end of an external hot air blower.

According to the technical scheme, the rotary joint is arranged at one end of the driving rotary pipe, the rotary joint is rotatably connected with the transfer cover at the position of the outer side of the driving rotary pipe corresponding to the rotary joint, and the transfer cover is connected with the top of the dust storage cabinet.

According to the technical scheme, the vibration seat is installed to assembly dish one side, inside slidable mounting of vibration seat has the vibration slider, be connected with connecting spring between vibration slider and the inside bottom of vibration seat, the vibration slider top is connected with vertical pole that scrapes, vertical pole top that scrapes is connected with horizontal pole that scrapes, dust collecting pipe inboard both sides are provided with the vibration arch.

According to the technical scheme, the pointer is installed on one side of the adjusting slide block, scale marks are arranged on one side of the adjusting slide rail, and the contact surface between the adjusting slide block and the adjusting slide rail is a smooth surface.

According to the technical scheme, the driving motor, the servo motor, the exhaust fan and the pushing electric push rod input end are electrically connected with the output end of the external controller, and the input end of the external controller is electrically connected with the output end of the external power supply.

According to the technical scheme, the conveying cleaning assembly is arranged at the top of the base and comprises a lifting cylinder;

Lifting cylinders are uniformly arranged on two sides of the top of the base, a conveying roller is arranged between two adjacent lifting cylinder output ends, a conveying motor is arranged at one end of one conveying roller, the output end of the conveying motor is connected with one end of a rotating shaft of the adjacent conveying roller, the other end of the rotating shaft of the conveying roller is connected with a driving wheel, and a linkage belt is wrapped between the two adjacent driving wheels;

The cleaning device comprises a base, a rotary gear ring, a connecting rod, a driving gear, a cleaning motor, a mounting rack, a water delivery telescopic bellows, a cleaning roller, a water delivery pipe and a cleaning motor.

According to the technical scheme, fixed bi-directional screw is installed in the rotation of base top, fixed motor is installed to base top position in fixed bi-directional screw one end, fixed motor output is connected with fixed bi-directional screw axis of rotation one end, fixed slide bar is installed to base top position in fixed bi-directional screw one side, fixed slide bar outside both ends slidable mounting has the sliding seat, two the sliding seat is connected through the screw thread with fixed bi-directional screw both ends respectively, the grip block is installed at the sliding seat top, the rubber pad has been adhered to the grip block opposite side.

According to the technical scheme, the conveying motor, the fixed motor, the cleaning motor and the servo electric push rod are electrically connected with the output end of the external controller, the input end of the external controller is electrically connected with the output end of the external power supply, the other end of the water conveying pipe is connected with the water outlet end of the external water pump, and the horizontal heights of the two ends of the conveying roller are higher than the horizontal heights in the middle.

Compared with the prior art, the invention has the beneficial effects that:

1. the device is provided with the polishing dust removal assembly, the adjusting slide block is driven to move in the adjusting slide rail through the rotating adjusting screw rod, so that the positions of the polishing cylinders are changed, the polishing cylinders can be suitable for pipelines with different diameters, meanwhile, the distance between two adjacent polishing cylinders is controlled through control servo, the two adjacent polishing cylinders are attached to the inner wall and the outer wall of one end of a pipeline to be polished, the device is suitable for pipelines with different thicknesses, the application range is wider, manual holding of polishing equipment is not needed during polishing, and the labor intensity is greatly reduced;

Under the action of the exhaust fan during polishing, the chips generated by polishing the outer side of the pipeline enter the annular box from the dust suction opening on the outer polishing cylinder and the dust suction telescopic corrugated pipe connected with the dust suction opening, finally enter the dust storage cabinet for collection, meanwhile, the chips generated by the inner side of the pipeline enter the centralized box from the dust suction opening on the inner polishing cylinder and the dust suction telescopic corrugated pipe connected with the dust suction telescopic corrugated pipe, are discharged through the driving rotary pipe and the switching opening and enter the dust storage cabinet for collection, the chips generated by polishing the inner side and the outer side of the pipeline are prevented from flying around, the working environment of the site is protected, meanwhile, when the external air enters the polishing cylinder from the opening at the top end of the polishing cylinder and the dust suction opening, the heat generated by polishing and the pipeline can be taken away by the real-time flow of the external air, the continuous rising of the polishing cylinder and the pipeline temperature is prevented under the action of friction force, the pipeline is further protected while the aging speed of the polishing roller is slower, the quality of the finally polished and formed pipeline is further ensured, meanwhile, the hot air is conveyed through the hot air to be sprayed out from the heat dissipation holes on the correction wheel, the hot air is softened, and the top end of the pipeline is matched with the extrusion of the correction wheel, and the deformed pipeline end of the polishing cylinder can be polished;

During polishing, under the effect of the fan blades, the chips which are not sucked by the polishing cylinder enter the dust collecting pipe, the longitudinal scraping rod knocks the dust collecting pipe to enable the dust collecting pipe to vibrate, the chips are prevented from being hung on the inner side of the dust collecting pipe, the longitudinal scraping rod and the transverse scraping rod push the chips adsorbed on the inner wall of the dust collecting pipe and the inner side of the isolation net into the collecting box, the dust removing effect is further enhanced, and the air flow guided by the fan blades can also take away heat generated on the polishing cylinder and the pipeline, so that the quality of the pipeline is further guaranteed.

2. The pipeline is placed at the top of the conveying roller, the pipeline is automatically centered, the lifting cylinder drives the conveying roller and the pipeline at the top to ascend, the central shaft of the pipeline and the central shaft of the driving rotary pipe are positioned on the same straight line, the position fixing of the pipeline is completed, the conveying and transferring operation of the subsequent pipeline are facilitated, the sliding seats and the clamping plates at the two ends of the fixed sliding rod are driven to be close to each other by the fixed motor, the pipeline with different diameters can be clamped and fixed by the equipment, and the polishing effect is prevented from being influenced by rotation when the pipeline is cleaned and polished in the follow-up process;

The cleaning roller is driven to rotate through the cleaning motor, the driving gear and the rotating gear ring are driven to rotate, the cleaning roller is driven to clean the outer side of a pipeline at the polishing end, the fact that impurities are adhered to the outer side of the pipeline to affect the subsequent polishing effect is avoided, meanwhile, the cleaning roller is driven to move through the servo electric push rod, the cleaning roller can clean pipelines with different diameters by means of adjustment of the servo electric push rod, cleaning water is conveyed to between the annular baffle plates through the water conveying pipe through the external water pump, the cleaning roller enters the inside of the installation frame through the water conveying telescopic corrugated pipe, finally, the cleaning roller is soaked by the sprayed water, so that the subsequent cleaning effect is better, and meanwhile, when the cleaning roller is dirty, the sprayed cleaning water can clean the cleaning roller, and the cleaning roller can be used continuously.

In summary, the cleaning motor drives the cleaning roller to rotate in the conveying cleaning assembly, the outer side of the pipeline at the end to be polished is cleaned, impurities are prevented from damaging the pipeline when the polishing cylinder polishes the pipeline, the polishing and dedusting assembly improves the final pipeline polishing and forming quality, the real-time flow of the external air of the polishing and dedusting assembly can take away the heat generated by polishing and the pipeline, the polishing cylinder and the pipeline are prevented from continuously rising in temperature, the pipeline is further protected, and the interaction of the two assemblies further ensures the final polishing and forming pipeline quality.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the installation structure of the dust bin of the invention;

FIG. 3 is a schematic view of the structure of the sanding and dust removing assembly of the present invention;

FIG. 4 is a schematic view of the mounting structure of the grinding drum of the present invention;

FIG. 5 is a schematic view of the mounting structure of the adjusting screw of the present invention;

FIG. 6 is a schematic view of the transport cleaning assembly of the present invention;

FIG. 7 is a schematic view of the mounting structure of the clamping plate of the present invention;

FIG. 8 is a schematic view of the mounting structure of the cleaning roller of the present invention;

FIG. 9 is an enlarged view of area A from FIG. 8 in accordance with the present invention;

reference numerals in the drawings: 1. a base;

2. Polishing and dedusting components; 201. a driving motor; 202. driving the rotary pipe; 203. a mounting plate; 204. adjusting the sliding rail; 205. an adjusting slide block; 206. adjusting a screw rod; 207. a bi-directional slot; 208. a two-way slider; 209. adjusting a bidirectional screw; 210. a servo motor; 211. polishing a cylinder; 212. a dust collection port; 213. a centralizing box; 214. a dust collection telescopic corrugated pipe; 215. an annular box; 216. a rotating ring; 217. a linkage rod; 218. a pleated cloth; 219. a transport box; 220. a dust storage cabinet; 221. an exhaust fan; 222. a delivery tube; 223. a transfer port; 224. a transfer cover; 225. a fan blade; 226. moving the slide rail; 227. a dust collecting pipe; 228. an isolation net; 229. pushing the electric push rod; 230. a vibration seat; 231. vibrating the slider; 232. a connecting spring; 233. a longitudinal scraping rod; 234. a transverse scraping rod; 235. vibrating the bulge; 236. a pointer; 237. scale marks; 238. a collection box; 239. a correction wheel; 240. a heat radiation hole; 241. a hot air pipe;

3. Conveying the cleaning assembly; 301. a lifting cylinder; 302. a conveying roller; 303. a conveying motor; 304. a driving wheel; 305. a linkage belt; 306. fixing a bidirectional screw; 307. fixing a motor; 308. fixing the slide bar; 309. a sliding seat; 310. a clamping plate; 311. a rubber pad; 312. an annular baffle; 313. rotating the gear ring; 314. a rotating ring; 315. a connecting rod; 316. a fixing hoop; 317. a drive gear; 318. cleaning a motor; 319. a servo electric push rod; 320. a mounting frame; 321. a cleaning roller; 322. a water spraying hole; 323. a water delivery telescopic corrugated pipe; 324. a water pipe.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: 1-9, the invention provides a molding equipment technical scheme for PVC pipeline processing and manufacturing, which comprises a base 1, wherein the top of the base 1 is provided with a polishing and dedusting assembly 2, the polishing and dedusting assembly 2 comprises a driving motor 201, a driving rotary pipe 202, an assembling disk 203, an adjusting sliding rail 204, an adjusting sliding block 205, an adjusting screw rod 206, a bidirectional groove 207, a bidirectional sliding block 208, an adjusting bidirectional screw rod 209, a servo motor 210, a polishing cylinder 211, a dust collection port 212, a concentration box 213, a dust collection telescopic corrugated pipe 214, an annular box 215, a rotary ring 216, a linkage rod 217, a pleated cloth 218, a conveying box 219, a dust storage cabinet 220, an exhaust fan 221, a conveying pipe 222, an adapting port 223, a transfer cover 224, fan blades 225, a moving sliding rail 226, a dust collection pipe 227, an isolation net 228, a pushing electric push rod 229, a vibration seat 230, a vibration sliding block 231, a connecting spring 232, a longitudinal scraping rod 233, a transverse scraping rod 234, a vibration protrusion 235, a pointer 236, a scale line 237, a collection box 238, a correction wheel 239, a heat dissipation hole 240 and a hot air pipe 241;

A driving motor 201 is installed at one end of the top of the base 1, a driving rotary pipe 202 is connected to the output end of the driving motor 201, an assembling disk 203 is connected to the top end of the driving rotary pipe 202, an adjusting slide rail 204 is arranged at the triangular position of the assembling disk 203, an adjusting slide block 205 is slidably installed inside the adjusting slide rail 204, an adjusting screw rod 206 is rotatably installed on one side of each adjusting slide rail 204 on one side of the assembling disk 203, the adjusting screw rod 206 is connected with one end of an adjacent adjusting slide block 205 through threads, a bidirectional groove 207 is connected to the other end of the adjusting slide block 205, bidirectional slide blocks 208 are slidably installed at two ends inside the bidirectional groove 207, an adjusting bidirectional screw 209 is rotatably installed inside the bidirectional groove 207, two ends of the adjusting bidirectional screw 209 are respectively connected with the adjacent bidirectional slide blocks 208 through threads, a servo motor 210 is installed at the top of the bidirectional groove 207, the output end of the servo motor 210 is connected with one end of the adjacent adjusting bidirectional screw 209, and a grinding cylinder 211 is installed at the top end of the bidirectional slide block 208;

A pleated cloth 218 is arranged on one side of the bidirectional groove 207, the connection part between the polishing cylinder 211 and the bidirectional slide block 208 penetrates through the pleated cloth 218, the pleated cloth 218 can isolate the inside of the bidirectional groove 207 from the outside, chips generated by polishing are prevented from entering the bidirectional groove 207 to prevent the rotation of the bidirectional screw 209 from being regulated, the outer side of the bidirectional slide block 208 is tightly attached to the inner side of the bidirectional groove 207, the contact surface between the bidirectional slide block 208 and the bidirectional groove 207 is a smooth surface, and the bidirectional slide block 208 can stably move in the bidirectional groove 207, so that the friction resistance between the bidirectional slide block 208 and the bidirectional groove 207 is reduced;

The two sides of the polishing cylinder 211 are provided with dust collection ports 212, the center of one side of the assembly disk 203 is rotationally connected with a concentration box 213, the inside of the concentration box 213 penetrates through the assembly disk 203 and is communicated with the inside of the driving rotary pipe 202, a dust collection telescopic corrugated pipe 214 is connected between the polishing cylinder 211 close to the concentration box 213 and the concentration box 213, an annular box 215 is installed on one side of the assembly disk 203, a rotary ring 216 is rotationally connected on one side of the annular box 215, a linkage rod 217 is connected between the triangular position on one side of the assembly disk 203 and the rotary ring 216, and a dust collection telescopic corrugated pipe 214 is also connected between the polishing cylinder 211 and the rotary ring 216 which are positioned on the outer side;

The bottom of the annular box 215 is provided with a conveying box 219, one side of the top of the base 1 is provided with a dust storage cabinet 220, one side of the top of the dust storage cabinet 220 is provided with an exhaust fan 221, the exhaust end of the exhaust fan 221 is connected with the top of the inner side of the dust storage cabinet 220, a filter screen is arranged at the joint between the exhaust end of the exhaust fan 221 and the dust storage cabinet 220, and a conveying pipe 222 is connected between the top of the dust storage cabinet 220 and the conveying box 219;

the top end of the polishing cylinder 211 is rotationally connected with a correction wheel 239, a heat dissipation hole 240 is formed in the outer side of the correction wheel 239, the top end of the dust storage cabinet 220 is connected with a hot air pipe 241, the hot air pipe 241 is connected with an air outlet end of an external hot air machine, hot air is conveyed by the hot air machine to be sprayed out of the heat dissipation hole 240 on the correction wheel 239 before polishing, the sprayed hot air softens the top end of a pipeline, and the pipeline polishing end can be corrected by being matched with the extrusion of the correction wheel 239;

When the exhaust fan 221 is started and the polishing cylinder 211 positioned on the outer side polishes the outer side of one end of the pipeline, fragments generated on the outer side of the pipeline can enter the annular box 215 from the dust collection opening 212 on the outer side polishing cylinder 211 and the dust collection telescopic corrugated pipe 214 connected with the dust collection opening, and finally enter the dust storage cabinet 220 through the conveying box 219 and the conveying pipe 222 to be collected, so that the fragments generated on the outer side of the pipeline during polishing can be prevented from flying around;

a transfer cover 224 is rotatably connected to the outer side of the driving rotary pipe 202 at the position corresponding to the transfer interface 223, the transfer cover 224 is connected with the top of the dust storage cabinet 220, when the exhaust fan 221 is started, the polishing cylinder 211 close to the concentration box 213 polishes the inner side of one end of the pipeline, and scraps generated by the inner side of the pipeline can enter the concentration box 213 from the dust collection opening 212 on the polishing cylinder 211 and the dust collection telescopic bellows 214 connected with the dust collection opening 212, then enter the driving rotary pipe 202 and are discharged from the position of the transfer opening 223 into the dust storage cabinet 220 to finish collection;

The fan blade 225 is arranged at the triangular position of the assembly disk 203, the movable slide rail 226 is arranged at the top of the base 1 and positioned at one side of the assembly disk 203, the dust collecting pipe 227 is arranged at the top of the movable slide rail 226 and is slidably arranged at the outer side of the driving rotary pipe 202, the isolating net 228 is arranged at one end of the dust collecting pipe 227, the driving rotary pipe 202 is slidably connected with the isolating net 228, the collecting box 238 is arranged at the bottom opening of the dust collecting pipe 227, the pushing electric push rod 229 is arranged at the top of the base 1, and the output end of the pushing electric push rod 229 is connected with one side of the outer side of the dust collecting pipe 227;

A vibration seat 230 is arranged on one side of the assembly disk 203, a vibration sliding block 231 is arranged in the vibration seat 230 in a sliding manner, a connecting spring 232 is connected between the vibration sliding block 231 and the bottom of the inner side of the vibration seat 230, the top end of the vibration sliding block 231 is connected with a longitudinal scraping rod 233, the top end of the longitudinal scraping rod 233 is connected with a transverse scraping rod 234, and vibration bulges 235 are arranged on two sides of the inner side of the dust collecting pipe 227;

When polishing, the electric push rod 229 is pushed to drive the dust collecting pipe 227 to move along the movable slide rail 226, so that the opening end of the dust collecting pipe 227 is close to the assembling disc 203, at this time, the longitudinal scraping rod 233 is attached to the inner wall of the dust collecting pipe 227, the transverse scraping rod 234 is attached to the inner side of the isolating net 228, when the driving motor 201 drives the assembling disc 203 and the fan blades 225 to rotate, under the action of the fan blades 225, the chips which are not sucked by the polishing cylinder 211 enter the dust collecting pipe 227, and simultaneously, the longitudinal scraping rod 233 and the transverse scraping rod 234 rotate to push the chips adsorbed on the inner wall of the dust collecting pipe 227 and the inner side of the isolating net 228 into the collecting box 238, when the longitudinal scraping rod 233 collides with the vibrating protrusion 235, the vibrating slider 231 contracts towards the inside of the vibrating seat 230, and when the longitudinal scraping rod 233 is separated from the vibrating protrusion 235, the dust collecting pipe 227 vibrates under the rebound of the connecting spring 232, so as to prevent the chips from being hung on the inner side of the dust collecting pipe 227;

The pointer 236 is arranged on one side of the adjusting slide block 205, the scale mark 237 is arranged on one side of the adjusting slide rail 204, the adjusting slide block 205 can be driven to move in the adjusting slide rail 204 by rotating the adjusting screw rod 206, so that the position of the polishing cylinder 211 is changed, pipelines with different diameters can be applied to the polishing cylinder 211, when the position of the polishing cylinder 211 is adjusted, the accurate adjustment of the position of the polishing cylinder 211 is facilitated by observing the position of the pointer 236 corresponding to the scale mark 237, the contact surface between the adjusting slide block 205 and the adjusting slide rail 204 is a smooth surface, the friction resistance between the adjusting slide block 205 and the adjusting slide rail 204 is reduced, and the adjusting screw rod 206 is more labor-saving when rotated;

the input ends of the driving motor 201, the servo motor 210, the exhaust fan 221 and the pushing electric push rod 229 are electrically connected with the output end of an external controller, the input end of the external controller is electrically connected with the output end of an external power supply, and each electric element is controlled by the external controller so as to be convenient for automatic control;

The top of the base 1 is provided with a conveying cleaning assembly 3, and the conveying cleaning assembly 3 comprises a lifting cylinder 301, a conveying roller 302, a conveying motor 303, a driving wheel 304, a linkage belt 305, a fixed bidirectional screw 306, a fixed motor 307, a fixed sliding rod 308, a sliding seat 309, a clamping plate 310, a rubber pad 311, an annular baffle 312, a rotary gear ring 313, a rotary ring 314, a connecting rod 315, a fixed hoop 316, a driving gear 317, a cleaning motor 318, a servo electric push rod 319, a mounting frame 320, a cleaning roller 321, a water spraying hole 322, a water conveying telescopic corrugated pipe 323 and a water conveying pipe 324;

Lifting cylinders 301 are uniformly arranged on two sides of the top of the base 1, a conveying roller 302 is arranged between the output ends of two adjacent lifting cylinders 301, a conveying motor 303 is arranged at one end of one conveying roller 302, the output end of the conveying motor 303 is connected with one end of the rotating shaft of the adjacent conveying roller 302, the other end of the rotating shaft of the conveying roller 302 is connected with a driving wheel 304, and a linkage belt 305 is coated between the two adjacent driving wheels 304;

The top of the base 1 is provided with an annular baffle 312, a fixed hoop 316 is connected between the tops of the outer sides of the two annular baffles 312, a rotary gear ring 313 is rotatably arranged between the outer sides of the annular baffles 312, a rotary ring 314 is rotatably arranged between the inner sides of the annular baffles 312, a connecting rod 315 is connected between the rotary gear ring 313 and the rotary ring 314, two sides of the top of the base 1 are rotatably provided with a driving gear 317, the driving gear 317 and the rotary gear ring 313 are meshed with each other, one side of one driving gear 317 is provided with a cleaning motor 318, the output end of the cleaning motor 318 is connected with one end of a rotating shaft of an adjacent driving gear 317, the triangular position of the rotary ring 314 is provided with a servo electric push rod 319, the output end of the servo electric push rod 319 is connected with a mounting frame 320, the top of the mounting frame 320 is rotatably provided with a cleaning roller 321, water spraying holes 322 are uniformly formed in the top of the mounting frame 320, a water delivery telescopic bellows 323 is connected between the top of the mounting frame 320 and the rotary ring 314, and the top of the annular baffle 312 is connected with one end of the water delivery pipe 324;

The top of the base 1 is rotatably provided with a fixed bidirectional screw 306, one end of the top of the base 1, which is positioned at the fixed bidirectional screw 306, is provided with a fixed motor 307, the output end of the fixed motor 307 is connected with one end of a rotating shaft of the fixed bidirectional screw 306, one side, which is positioned at the top of the base 1, of the fixed bidirectional screw 306 is provided with a fixed slide rod 308, two ends of the outer side of the fixed slide rod 308 are slidably provided with sliding seats 309, the two sliding seats 309 are respectively connected with two ends of the fixed bidirectional screw 306 through threads, the top of the sliding seat 309 is provided with a clamping plate 310, and the opposite sides of the clamping plate 310 are adhered with rubber pads 311;

The fixed motor 307 drives the fixed bidirectional screw 306 to rotate, and drives the sliding seats 309 and the clamping plates 310 at the two ends of the fixed sliding rod 308 to be close to each other under the action of threaded connection, so as to clamp and fix pipelines with different diameters, prevent the pipeline from rotating along with the polishing of the polishing cylinder 211, and simultaneously facilitate the cleaning of the outer side of the pipeline by the cleaning cylinder 321;

The conveying motor 303, the fixed motor 307, the cleaning motor 318 and the servo electric push rod 319 input end are electrically connected with the external controller output end, the external controller input end is electrically connected with the external power supply output end, the other end of the water conveying pipe 324 is connected with the water outlet end of the external water pump, the external water pump can convey cleaning water to the space between the annular baffles 312 through the water conveying pipe 324, water between the annular baffles 312 enters the installation frame 320 through the water conveying telescopic corrugated pipe 323, finally, the cleaning water is sprayed out from the water spraying holes 322, the horizontal heights of the two ends of the conveying roller 302 are higher than the horizontal heights in the middle, and when the pipeline is placed at the top of the conveying roller 302, the pipeline can be automatically centered, so that the position of the pipeline can be conveniently adjusted.

The working principle and the using flow of the invention are as follows: when the device is used, the position of the grinding cylinder 211 is adjusted according to a pipeline to be processed, the adjusting screw rod 206 is rotated, under the limiting action of the adjusting slide block 205 and the adjusting slide rail 204, the adjusting screw rod 206 drives the adjusting slide block 205 to move on the adjusting slide rail 204, and the position of the pointer 236 corresponding to the scale mark 237 is observed to facilitate the accurate adjustment of the position of the grinding cylinder 211, so that the grinding cylinder 211 is suitable for pipelines with different diameters;

Placing a pipeline to be polished on the top of a conveying roller 302, wherein the horizontal height of two ends of the conveying roller 302 is higher than the middle horizontal height, when the pipeline is placed on the top of the conveying roller 302, automatically centering the pipeline, starting a lifting cylinder 301, driving all the conveying rollers 302 and the pipeline on the top by the lifting cylinder 301 to lift the central shaft of the pipeline and the central shaft of a driving rotary pipe 202 in the same line, stopping running by the lifting cylinder 301 when the central shaft of the pipeline and the central shaft of the driving rotary pipe 202 are in the same line, starting a conveying motor 303, driving the conveying roller 302 to rotate by the conveying motor 303, driving the pipeline to move under the action of friction force, and suspending running by the conveying motor 303 when the end to be polished of the pipeline is flush with a cleaning roller 321;

The fixed motor 307 is started, the fixed motor 307 drives the fixed bidirectional screw 306 to rotate, the sliding seats 309 and the clamping plates 310 at the two ends of the fixed sliding rod 308 are driven to be close to each other under the threaded connection effect, so that pipelines with different diameters are clamped and fixed, the rubber pad 311 starts the buffering and anti-skid effects, and the pipelines are protected and simultaneously prevented from rotating to influence the polishing effect during subsequent cleaning and polishing;

Starting a servo electric push rod 319, driving a cleaning roller 321 by the servo electric push rod 319 to move, enabling the cleaning roller 321 to be attached to the outer side of a polishing end of a pipeline, enabling the cleaning roller 321 to clean pipelines with different diameters by means of adjustment of the servo electric push rod 319, starting an external water pump, conveying cleaning water between annular baffles 312 through a water conveying pipe 324, enabling the water conveyed between the annular baffles 312 to enter an installation frame 320 through a water conveying telescopic bellows 323, and finally spraying out water from a water spraying hole 322, wherein the sprayed water wets the cleaning roller 321, so that the subsequent cleaning effect is better, and meanwhile, when the cleaning roller 321 is dirty, the sprayed cleaning water can clean the cleaning roller 321, so that the cleaning roller 321 can be continuously used;

Starting a cleaning motor 318, wherein the cleaning motor 318 drives a driving gear 317 and a rotary gear ring 313 to rotate, the rotary gear ring 313 is fixedly connected with a rotary ring 314 through a connecting rod 315 in a rotary way, the rotary gear ring 313 drives a servo electric push rod 319, a mounting frame 320 and a cleaning roller 321 to rotate, and the cleaning roller 321 cleans the outer side of a pipeline to be polished;

After cleaning, the conveying motor 303 starts to drive the pipeline to move, so that the cleaned end to be polished moves between two adjacent correction wheels 239, the servo motor 210 is started, the servo motor 210 is controlled to drive the adjusting bidirectional screw 209 to rotate, the bidirectional sliding block 208 is controlled to move in the bidirectional groove 207, the distance between two adjacent polishing cylinders 211 is controlled, the two adjacent correction wheels 239 are attached to the inner wall and the outer wall of one end of the pipeline to be polished, the driving motor 201 and an external hot air blower are started, the driving motor 201 drives the driving rotary pipe 202 and the assembly disk 203 to rotate, the polishing cylinders 211 and the correction wheels 239 are driven to rotate, hot air conveyed by the hot air blower is sprayed out from the dust suction opening 212 on the polishing cylinders 211 and the heat dissipation holes 240 on the correction wheels 239 through the hot air pipes 241, the top ends of the sprayed hot air softens the pipeline, and the deformed pipeline top ends are corrected by matching with the extrusion of the correction wheels 239;

After correction is completed, the hot air blower stops running, the hot air pipe 241 is closed, the driving motor 201 stops running, the conveying motor 303 moves the pipeline, the polishing cylinder 211 is attached to the inner wall and the outer wall of the polishing end, the driving motor 201 drives the driving rotary pipe 202 and the assembly disc 203 to rotate, and then drives the polishing cylinder 211 to rotate, the inner wall and the outer wall of the end to be polished of the pipeline are polished by the polishing cylinder 211, under the connection action of the linkage rod 217, the rotation of the assembly disc 203 synchronously drives the rotating ring 216 to rotate, the exhaust fan 221 is started, scraps produced by polishing the outer side of the pipeline enter the annular box 215 from the dust suction opening 212 on the outer side polishing cylinder 211 and the dust suction telescopic corrugated pipe 214 connected with the dust suction opening 212, and finally enter the dust storage cabinet 220 through the conveying box 219 and the conveying pipe 222 to be collected, and scraps produced by the inner side of the pipeline enter the collecting box 213, and then enter the driving rotary pipe 202 to be discharged from the position of the switching opening 223 to enter the dust storage cabinet 220 to be completely collected, and the scraps produced by the pipeline on the inner side and the outer side are prevented from flying around the site;

Under the action of the exhaust fan 221, external air not only drives the chips generated by polishing to collect, but also can take away heat generated by the polishing cylinder 211 and the pipeline through the real-time flow of the external air when the external air enters the polishing cylinder 211 from the top opening of the polishing cylinder 211 and the dust collection opening 212, so that the temperatures of the polishing cylinder 211 and the pipeline are prevented from continuously rising under the action of friction force, the aging speed of the polishing roller is slower, the pipeline is further protected, and the quality of the finally polished pipeline is further ensured;

Meanwhile, before polishing starts, the pushing electric push rod 229 is started, the pushing electric push rod 229 drives the dust collecting tube 227 to move along the moving slide rail 226, so that the opening end of the dust collecting tube 227 is close to the assembling disc 203, at the moment, the longitudinal scraping rod 233 is attached to the inner wall of the dust collecting tube 227, the transverse scraping rod 234 is attached to the inner side of the isolation net 228, when the driving motor 201 drives the assembling disc 203 and the fan blades 225 to rotate, under the action of the fan blades 225, chips which are not sucked by the polishing cylinder 211 enter the dust collecting tube 227, meanwhile, the longitudinal scraping rod 233 and the transverse scraping rod 234 rotate, when the longitudinal scraping rod 233 collides with the vibrating protrusion 235, the vibrating sliding block 231 contracts towards the inside of the vibrating seat 230, when the longitudinal scraping rod 233 is separated from the vibrating protrusion 235, the longitudinal scraping rod 233 knocks the dust collecting tube 227 under the rebound of the connecting spring 232, so that the dust collecting tube 227 is prevented from vibrating, the chips are hung on the inner side of the dust collecting tube 227, the chips adsorbed on the inner wall of the dust collecting tube 227 are pushed into the collecting box 238, and after polishing is finished, the collecting box 238 is opened to remove the chips, and the dust collecting effect is further enhanced.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The molding equipment for PVC pipeline processing and manufacturing comprises a base (1), and is characterized in that a polishing and dedusting assembly (2) is arranged at the top of the base (1), and the polishing and dedusting assembly (2) comprises a driving motor (201);

The grinding machine comprises a base (1), wherein a driving motor (201) is arranged at one end of the top of the base, a driving rotary pipe (202) is connected to the output end of the driving motor (201), an assembly disc (203) is connected to the top end of the driving rotary pipe (202), an adjusting sliding rail (204) is arranged at the triangular position of the assembly disc (203), an adjusting sliding block (205) is slidably arranged inside the adjusting sliding rail (204), an adjusting screw rod (206) is rotatably arranged at one side of each adjusting sliding rail (204) on one side of the assembly disc (203), one end of each adjusting screw rod (206) is connected with one end of an adjacent adjusting sliding block (205) through threads, a bidirectional groove (207) is connected to the other end of each adjusting sliding block (205), two bidirectional sliding blocks (208) are slidably arranged at two ends inside the bidirectional groove (207), two ends of each adjusting bidirectional sliding rod (209) are respectively connected with the adjacent bidirectional sliding blocks (208) through threads, a servo motor (210) is arranged at the top of each bidirectional groove (207), and one end of each servo motor (210) is connected with the adjacent adjusting sliding block (208) through threads, and a grinding cylinder (211) is arranged at the top end of each bidirectional sliding block;

Dust collection openings (212) are formed in two sides of the polishing barrel (211), a centralized box (213) is connected with one side of the assembly disc (203) in a rotating mode, the centralized box (213) penetrates through the assembly disc (203) and is communicated with the inside of the driving rotary tube (202), a dust collection telescopic corrugated tube (214) is connected between the polishing barrel (211) and the centralized box (213) which are close to the centralized box (213), an annular box (215) is mounted on one side of the assembly disc (203), a rotary ring (216) is connected with one side of the annular box (215) in a rotating mode, a linkage rod (217) is connected between the triangular position on one side of the assembly disc (203) and the rotary ring (216), and the dust collection telescopic corrugated tube (214) is also connected between the polishing barrel (211) and the rotary ring (216) which are located outside.

2. The molding equipment for PVC pipeline processing and manufacturing according to claim 1, wherein a pleated cloth (218) is arranged on one side of the bidirectional groove (207), the connection part between the polishing cylinder (211) and the bidirectional sliding block (208) penetrates through the pleated cloth (218), the outer side of the bidirectional sliding block (208) is tightly attached to the inner side of the bidirectional groove (207), and the contact surface between the bidirectional sliding block (208) and the bidirectional groove (207) is a smooth surface;

The utility model discloses a dust collecting device, including base (1), drive rotary tube (202), dust collecting tube (227), collecting box (238) are installed to assembly dish (203) triangle position department installs flabellum (225), base (1) top is located assembly dish (203) one side and installs removal slide rail (226), removal slide rail (226) top is located drive rotary tube (202) outside slidable mounting has dust collecting tube (227), isolation net (228) are installed to dust collecting tube (227) one end, sliding connection between drive rotary tube (202) and isolation net (228), collecting box (238) are installed to dust collecting tube (227) bottom trompil, push electric push rod (229) are installed at base (1) top, push electric push rod (229) output is connected with dust collecting tube (227) outside one side.

3. The molding equipment for processing and manufacturing the PVC pipeline according to claim 1, wherein a conveying box (219) is installed at a bottom opening of the annular box (215), a dust storage cabinet (220) is installed at one side of the top of the base (1), an exhaust fan (221) is installed at one side top of the dust storage cabinet (220), an exhaust end of the exhaust fan (221) is connected with the top of the inner side of the dust storage cabinet (220), a filter screen is installed at the joint between the exhaust end of the exhaust fan (221) and the dust storage cabinet (220), and a conveying pipe (222) is connected between the top of the dust storage cabinet (220) and the conveying box (219);

The utility model discloses a dust storage cabinet, including grinding section of thick bamboo (211), dust storage cabinet (220), hot-blast main (241) are connected with correction wheel (239) in rotation of grinding section of thick bamboo (211) top, heat dissipation hole (240) have been seted up in correction wheel (239) outside, hot-blast main (241) are connected with outside air heater and give vent to anger the end and be connected.

4. A forming device for processing and manufacturing a PVC pipe according to claim 3, wherein a rotating port (223) is formed at one end of the driving rotating tube (202), a transferring cover (224) is rotatably connected to the outer side of the driving rotating tube (202) corresponding to the position of the rotating port (223), and the transferring cover (224) is connected to the top of the dust storage cabinet (220).

5. The molding equipment for processing and manufacturing the PVC pipeline according to claim 1, wherein a vibration seat (230) is installed on one side of the assembly disc (203), a vibration sliding block (231) is installed inside the vibration seat (230) in a sliding mode, a connecting spring (232) is connected between the vibration sliding block (231) and the inner bottom of the vibration seat (230), a longitudinal scraping rod (233) is connected to the top end of the vibration sliding block (231), a transverse scraping rod (234) is connected to the top end of the longitudinal scraping rod (233), and vibration protrusions (235) are arranged on two sides of the inner side of the dust collecting tube (227).

6. The molding equipment for processing and manufacturing the PVC pipeline according to claim 1, wherein a pointer (236) is arranged on one side of the adjusting slide block (205), graduation marks (237) are arranged on one side of the adjusting slide rail (204), and a contact surface between the adjusting slide block (205) and the adjusting slide rail (204) is a smooth surface.

7. A molding apparatus for PVC pipe manufacturing according to claim 3, wherein the driving motor (201), the servo motor (210), the exhaust fan (221) and the pushing electric push rod (229) are electrically connected to an external controller input, and the external controller input is electrically connected to an external power output.

8. The molding equipment for PVC pipeline processing and manufacturing according to claim 1, wherein a conveying cleaning assembly (3) is arranged on the top of the base (1), and the conveying cleaning assembly (3) comprises a lifting cylinder (301);

Lifting cylinders (301) are uniformly arranged on two sides of the top of the base (1), a conveying roller (302) is arranged between the output ends of two adjacent lifting cylinders (301), a conveying motor (303) is arranged at one end of one conveying roller (302), the output end of the conveying motor (303) is connected with one end of a rotating shaft of the adjacent conveying roller (302), the other end of the rotating shaft of the conveying roller (302) is connected with a driving wheel (304), and a linkage belt (305) is wrapped between the two adjacent driving wheels (304);

Annular baffle (312) are installed at base (1) top, two be connected with fixed hoop (316) between annular baffle (312) outside top, rotatory gear ring (313) are installed in rotation between annular baffle (312) outside, rotatory ring (314) are installed in rotation between annular baffle (312) inboard, be connected with connecting rod (315) between rotatory gear ring (313) and rotatory ring (314), drive gear (317) are installed in rotation of base (1) top both sides, intermesh between drive gear (317) and rotatory gear ring (313), one drive gear (317) one side is installed clean motor (318), clean motor (318) output is connected with adjacent drive gear (317) axis of rotation one end, rotatory ring (314) triangle position department is installed servo electricity push rod (319), servo electricity push rod (319) output is connected with mounting bracket (320), clean cylinder (321) are installed in rotation at mounting bracket (320) top, even hole (322) have been seted up at mounting bracket (320) top, mounting bracket (320) and annular baffle (314) one side are connected with water delivery pipe (323) one side of being connected with water delivery pipe (324).

9. The molding equipment for processing and manufacturing the PVC pipeline according to claim 8, wherein a fixed bidirectional screw (306) is rotatably installed at the top of the base (1), a fixed motor (307) is installed at one end of the fixed bidirectional screw (306) at the top of the base (1), the output end of the fixed motor (307) is connected with one end of a rotating shaft of the fixed bidirectional screw (306), a fixed sliding rod (308) is installed at one side of the fixed bidirectional screw (306) at the top of the base (1), sliding seats (309) are slidably installed at two ends of the outer side of the fixed sliding rod (308), the two sliding seats (309) are respectively connected with two ends of the fixed bidirectional screw (306) through threads, a clamping plate (310) is installed at the top of the sliding seats (309), and rubber pads (311) are adhered to the opposite sides of the clamping plate (310).

10. The molding device for processing and manufacturing the PVC pipe according to claim 8, wherein the input ends of the conveying motor (303), the fixed motor (307), the cleaning motor (318) and the servo electric push rod (319) are electrically connected with the output end of the external controller, the input end of the external controller is electrically connected with the output end of the external power supply, the other end of the water pipe (324) is connected with the water outlet end of the external water pump, and the two ends of the conveying roller (302) are higher than the middle level.