CN110978352B

CN110978352B - Trimming and transferring equipment for lock tube plastic part for architectural decoration and working method of trimming and transferring equipment

Info

Publication number: CN110978352B
Application number: CN201911367982.7A
Authority: CN
Inventors: 李雯雯; 王双炎; 霍国涛
Original assignee: Qingdao Guogong Architectural Decoration Co ltd
Current assignee: Qingdao Guogong architectural decoration Co.,Ltd.
Priority date: 2019-12-26
Filing date: 2019-12-26
Publication date: 2021-12-28
Anticipated expiration: 2039-12-26
Also published as: CN110978352A

Abstract

The invention discloses a trimming and transferring device for a lock tube plastic part for architectural decoration and a working method thereof. The invention has the beneficial effects that: the second hydraulic cylinder drives the rotary grinding cylinder to extend downwards into a sleeve groove of the locking pipe plastic part through the second driving shaft, the fourth motor drives the rotary grinding cylinder to rotate through the second rotating shaft to scrape and grind the inner wall of the sleeve groove, the inner wall of the sleeve groove is ensured to be smoother and smoother, the friction force between the rotary grinding cylinder and the locking pipe plastic part is increased through the rubber strip, the locking pipe plastic part is ensured to be more efficiently conveyed to the extension plate of the rotary table, and the position of the locking pipe plastic part conveyed to the rotary table is more accurate; the motor five drives the sleeve rail two and the drill screw shaft to adjust left and right on the sleeve rail one, so that the position of the drill screw shaft for drilling the groove on the lock pipe plastic part is more accurate, and the area range of the drill screw shaft capable of being adjusted movably is greatly improved.

Description

Trimming and transferring equipment for lock tube plastic part for architectural decoration and working method of trimming and transferring equipment

Technical Field

The invention relates to trimming and transferring equipment, in particular to trimming and transferring equipment for a plastic part of a lock pipe for architectural decoration and a working method of the trimming and transferring equipment, and belongs to the technical field of application of the trimming and transferring equipment.

Background

The lock pipe working of plastics uses more and more frequently in the architectural decoration field, establishes fixedly through the lock pipe working of plastics to indoor pipe fitting cover, when guaranteeing that indoor walk the pipe neatness is higher, makes pipeline steadiness and security higher when using again.

In the lock pipe working of plastics course of working, maintain and transmit the indispensable of equipment, transmit the sleeve pipe inslot wall on the equipment to the lock pipe working of plastics through maintaining and polish and maintain, guarantee the sleeve pipe groove and establish the back to the pipe fitting cover, can not cause the scraping damage to the pipe fitting outer wall, and transmit the equipment through maintaining and bore the spiral shell groove to lock pipe working of plastics edge, the assembly in the lock pipe working of plastics later stage of being convenient for is fixed, carry out concora crush processing to the lock pipe working of plastics afterwards, transport the lock pipe working of plastics and remove to next appointed point and reprocess at last.

The existing trimming and transferring equipment for the lock tube plastic part for architectural decoration still has many defects when in use, the efficiency of polishing and trimming the inner wall of a sleeve groove of the lock tube plastic part by the existing trimming and transferring equipment is low, the position of polishing and trimming the inner wall of the sleeve groove is not accurate enough and is suitable, and only the sleeve groove on the lock tube plastic part with the same thickness can be polished and trimmed, the adaptability range of the trimming and transferring equipment is small, the working position of opening a drill screw shaft on the lock tube plastic part is not accurate, the area range of the drill screw shaft on the trimming and transferring equipment which can be movably adjusted is small, the trimming and transferring equipment can only clamp and move the lock tube plastic part with the same width, the limitation of the work is large, the lock tube plastic part can be transferred and moved out of an external coverage angle, and the flexibility of the use is poor.

Disclosure of Invention

The invention aims to solve the problem that the polishing and trimming efficiency of the inner wall of a sleeve groove of a lock tube plastic part is low by the conventional trimming and transferring equipment; the positions of polishing and finishing the inner wall of the sleeve groove are not accurate and suitable enough; the sleeve grooves on the lock tube plastic parts with the same thickness can only be polished, trimmed and processed, and the working adaptability range of the trimming and transferring equipment is small; the working position of the drill screw shaft for opening the lock tube plastic part is not accurate, and the area range of the drill screw shaft on the trimming and transferring device capable of being movably adjusted is small; the trimming and transferring equipment can only clamp and move the locking pipe plastic pieces with the same width, so that the working limitation is large; the problem that the covering angle of the lock tube plastic part which can be transferred and moved out is too small and the flexibility of use is poor is solved, and the trimming and transferring equipment for the lock tube plastic part for architectural decoration and the working method thereof are provided.

The purpose of the invention can be realized by the following technical scheme: a trimming and transferring device for a locking pipe plastic part for architectural decoration comprises a carrying platform with a cuboid-shaped structure, a conveying disc, a rotary disc, a groove trimming seat, a groove opening mechanism and a transferring disc, wherein the conveying disc is arranged in the middle above the carrying platform, the rotary disc is arranged on one side of the conveying disc, the groove trimming seat is arranged on one side of the rotary disc, the groove opening mechanism is arranged on one side of the groove trimming seat, and the transferring disc is arranged below one end of the groove opening mechanism;

the middle part of the conveying disc is provided with an annular rolling conveying belt, the middle part of the rolling conveying belt is sleeved with a rubber belt strip, and the friction force between the rubber belt strip and a lock tube plastic part is increased, so that the lock tube plastic part is more efficiently conveyed to an extension plate of the rotary disc, and the position of the lock tube plastic part conveyed to the rotary disc is more accurate;

the turntable is of a cross structure, four extending plates are circumferentially arranged on the turntable, a first motor is vertically arranged below the middle of the turntable, a first rotating shaft is rotatably connected above the first motor, and the top of the first rotating shaft is connected to the bottom of the center of the turntable;

a side supporting plate is horizontally arranged above the groove repairing seat, two ends of the side wall of the side supporting plate are respectively provided with a second rectangular motor, a synchronous belt is rotatably connected below the two second rectangular motors, a first rectangular sliding block penetrates through the synchronous belt in a sleeved mode, a cylindrical sleeve shaft is arranged in the middle of the two second rectangular motors, the sleeve shaft penetrates through the middle of the sliding block, a first hydraulic cylinder is vertically arranged at one end of the sliding block, a first driving shaft stretches below the first hydraulic cylinder to be connected with a groove grinding assembly, and the sliding block is sleeved on the sleeve shaft to move in the process that the synchronous belt drives the sliding block to adjust forwards and backwards, so that the sliding block drives the groove grinding assembly to be more stable and firm;

the top of the grinding groove assembly is provided with a motor III, a rotary plate of a circular structure is rotatably connected below the motor III through a rotary shaft III, four hydraulic cylinders II are vertically arranged at the bottom of the rotary plate in an equal radian mode, a motor IV is movably connected below the hydraulic cylinders II through a driving shaft II, and a rotary grinding cylinder of a cylindrical structure is rotatably connected below the motor IV through a rotary shaft II;

a first sleeve rail is horizontally arranged on the slotting mechanism, a fifth motor is sleeved on the first sleeve rail, a second sleeve rail is horizontally arranged above the fifth motor, a sixth motor is sleeved on the second sleeve rail, a rectangular side hanging seat is arranged on one side of the sixth motor, a third hydraulic cylinder is vertically arranged above one end of the side hanging seat, a seventh motor is movably connected below the third hydraulic cylinder through a third driving shaft, and a drill screw shaft is rotatably connected below the seventh motor;

a motor eight is vertically arranged below one end of the transfer disc, a sleeve rail three is rotatably connected above the motor eight through a rotating shaft four, the sleeve rail three is horizontally arranged, two motors nine are sleeved on the sleeve rail three, a flat pressing assembly is vertically arranged on the side wall of one end of one motor nine, and a clamping and conveying assembly is arranged at one end of the other motor nine;

a fourth hydraulic cylinder is vertically arranged above the middle part of the flat pressing assembly, and a pressing plate with a cuboid structure is connected below the fourth hydraulic cylinder in a stretching mode through a driving shaft;

the clamping and conveying assembly is of an inverted U-shaped structure, the upper end face of the clamping and conveying assembly is horizontally arranged, and clamping and carrying blocks are arranged at two ends below the clamping and conveying assembly;

the clamping and carrying block is horizontally provided with a fifth hydraulic cylinder, one end of the fifth hydraulic cylinder is connected with a rubber pad in an extending mode through a fifth driving shaft, friction force of the fifth hydraulic cylinder in contact with the locking plastic part is increased through the rubber pad, and the locking plastic part is guaranteed to be more stable and firm when being transferred.

The invention has further technical improvements that: the two ends of the rolling belt are provided with ten motors, the ten motors are rotatably connected with the rolling belt through transmission shafts, and the ten motors drive the rolling belt to roll so as to drive the lock tube plastic part to move and convey.

The invention has further technical improvements that: the inner walls of two ends of the motor five, which are close to the first sleeve rail, are rotatably connected with the first roller, the two first rollers are respectively connected to the first rolling grooves on two sides of the first sleeve rail, and the motor five is movably connected with the second sleeve rail through the first roller in the first rolling groove.

The invention has further technical improvements that: the lower part of the motor six is rotatably connected with a roller II, a hollow rolling groove II matched with the roller II is arranged above the sleeve rail II, and the motor six is movably connected with the side hanging seat in the rolling groove II through the roller II.

The invention has further technical improvements that: it is provided with the screw thread to bore spiral shaft lateral wall spiral, guarantees to bore the spiral shaft and can go out the spiral groove that has the internal screw thread to the lock tube working of plastics rotary drill, makes things convenient for lock tube working of plastics later stage to carry out fixed mounting, and bores the spiral shaft bottom and be conical structure, is convenient for bore the spiral shaft and bores fluting in the lock tube working of plastics rotary drill.

The invention has further technical improvements that: two sides of the two motors nine are rotatably connected with a third roller wheel close to the inner wall of one end of the third sleeve rail, the third roller wheel is connected to a third rolling groove on the three side walls of the third sleeve rail, and the two motors nine are movably connected with the flat pressing assembly on the third sleeve rail through the third roller wheel.

The invention has further technical improvements that: the clamping carrying blocks on two sides below the clamping and conveying assembly are symmetrically arranged, and the clamping carrying blocks can be used for clamping and fixing two sides of a lock tube plastic part respectively.

The invention has further technical improvements that: grind groove subassembly, side and hang seat, concora crush subassembly and press from both sides and send the subassembly bottom and all be provided with infrared sensor, detect the position of lock pipe working of plastics through infrared sensor, and infrared sensor and carry the inside PLC controller communication connection of putting the platform, process and transmit work to locking working of plastics through the part on the PLC controller control this equipment.

A working method of a trimming and transferring device for plastic parts of a lock tube for architectural decoration specifically comprises the following steps:

the method comprises the following steps: placing a plurality of lock tube plastic pieces side by side on a rolling conveying belt of a conveying disc for moving and conveying, driving the rotary disc to rotate and transfer by a first motor through a rotating shaft, butting one end of the rotary disc with one end of the conveying disc, conveying the lock tube plastic pieces onto extension plates of the rotary disc by the conveying disc, sequentially rotating the rotary disc, supporting all the four extension plates of the rotary disc with the lock tube plastic pieces, driving a sliding block and a grinding groove component to move right above the lock tube plastic pieces by a second motor through a synchronous belt after the lock tube plastic pieces are conveyed onto the rotary disc, driving a rotary grinding cylinder to downwardly extend into a casing groove of the lock tube plastic pieces by a second hydraulic cylinder through a second driving shaft, and driving the rotary grinding cylinder to scrape and grind the inner wall of the casing groove through the second motor;

step two: after the groove trimming processing of the lock pipe plastic part is finished, the rotary table drives the lock pipe plastic part to rotate and move, the motor II is driven to move back and forth on the sleeve rail II in a matching mode by the motor III, the drill screw shaft is moved to the position above the lock pipe plastic part, the hydraulic cylinder tee joint drives the drill screw shaft to move downwards through the driving shaft III, the motor III drives the drill screw shaft to rotate, the groove is processed on the lock pipe plastic part, and the sleeve rail II and the drill screw shaft are driven to move left and right in a matching mode by the motor V on the sleeve rail I;

step three: after the lock tube plastic part is processed by the drilling groove, the turntable continues to drive the lock tube plastic part to rotate and move, the flat pressing component is driven to move on the third sleeve rail by matching with the motor nine, the flat pressing component is moved to the position right above the lock tube plastic part, then the hydraulic cylinder four-way drives the pressing plate to extend downwards through the driving shaft four-way, and the lock tube plastic part is subjected to flat pressing processing through the pressing plate;

step four: after the flat pressing processing of the locking pipe plastic part is completed, the other motor nine drives the clamping and conveying assembly to move back and forth on the sleeve rail III, the locking pipe plastic part is clamped in the clamping and conveying assembly, the two clamping and carrying blocks drive the driving shaft V and the rubber pads to stretch through the hydraulic cylinder V, the two rubber pads clamp the locking pipe plastic part respectively, and the motor eight drives the sleeve rail III to rotate through the rotating shaft IV, so that the locking pipe plastic part is transferred and moved out.

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

1. when the invention is used, a plurality of lock tube plastic pieces are placed on a rolling conveying belt of a conveying disc side by side to be conveyed, a first motor drives the rotating disc to rotate and transfer through a rotating shaft, one end of the rotating disc is butted with one end of the conveying disc, the conveying disc conveys the lock tube plastic pieces to extension plates of the rotating disc, then the rotating disc rotates in sequence, all the four extension plates of the rotating disc support the lock tube plastic pieces, after the lock tubes are conveyed to the rotating disc, a second motor drives a sliding block and a grinding groove component to move right above the lock tube plastic pieces through a synchronous belt, a second hydraulic cylinder drives a rotary grinding cylinder to extend downwards into a casing groove of the lock tube plastic pieces through a second driving shaft, a fourth motor drives the rotary grinding cylinder to rotate through the second rotating shaft to scrape and grind the inner wall of the casing groove, the inner wall of the casing groove is ensured to be more smooth and smooth, the friction force between the lock tube plastic pieces is increased through rubber strips, and the lock tube plastic pieces are ensured to be conveyed to the extension plates of the rotating disc more efficiently, and the position of the material to be loaded on the turntable is more accurate.

2. When the groove repairing seat is used for repairing grooves of sleeve grooves on the lock pipe plastic part, the lock pipe plastic part is driven to rotate and adjust through the rotary table, the grinding groove component is driven to move back and forth through the synchronous belt by matching with the motor II, the grinding groove component is guaranteed to move to a position right above the lock pipe plastic part for groove repairing work more accurately and quickly, the sliding block is sleeved on the sleeve shaft to move in the process that the synchronous belt drives the sliding block to move back and forth, the sliding block drives the grinding groove component to be more stable and firm, the position of the rotary grinding cylinder extending into the sleeve groove of the lock pipe plastic part is adjusted by matching with the motor III to drive the rotary plate to rotate and adjust through the rotary shaft III, the groove repairing efficiency of the device for repairing grooves of the lock pipe plastic part is greatly improved while the position of the device for repairing grooves of the sleeve grooves of the lock pipe plastic part is guaranteed to be more accurate, and pneumatic cylinder one drives the groove grinding subassembly through the drive shaft and adjusts the activity from top to bottom, guarantees that this equipment can repair the groove processing to the lock pipe working of plastics of different thickness, has improved the scope of this equipment work adaptation to cooperation pneumatic cylinder two drives the activity of adjusting from top to bottom of grinding section of thick bamboo soon through drive shaft two, when having improved the scope that grinding section of thick bamboo can be adjusted from top to bottom, has improved the precision of grinding in grinding section of thick bamboo stretches into the sleeve pipe groove of lock pipe working of plastics again soon.

3. After the groove processing is finished to the lock pipe working of plastics by the repairment back of groove, the carousel drives the rotatory removal of lock pipe working of plastics, cooperation motor six drives seven back-and-forth movements of motor on set rail two, will bore the spiral shell axle and remove to lock pipe working of plastics top, pneumatic cylinder tee bend is crossed drive axle three and is driven the spiral shell axle activity of boring downwards, motor seven drives the spiral shell axle rotation of boring, to the processing of boring the groove on the lock pipe working of plastics, be convenient for the installation in lock pipe working of plastics later stage, fixed use, and cooperation motor five drives set rail two and bore the spiral shell axle and control the regulation activity about the spiral shell axle on set rail one, when guaranteeing that the spiral shell axle carries out the position of boring the groove to the lock pipe working of plastics more accurately, very big improvement again can the movable regulation's area scope.

4. After the lock tube plastic part is processed by the drilling groove, the turntable continues to drive the lock tube plastic part to rotate and move, the motor nine is matched to drive the flat pressing component to move on the sleeve rail III, the flat pressing component is moved to the position right above the lock tube plastic part, then, the hydraulic cylinder four-way drives the pressing plate to extend downwards through the driving shaft four-way, and the lock tube plastic part is subjected to flat pressing processing through the pressing plate, so that the upper end surface and the lower end surface of the lock tube plastic part are enabled to be smoother; after the flat pressing processing of the lock tube plastic part is finished, the other motor nine drives the clamping and conveying assembly to move back and forth on the sleeve rail III, the lock tube plastic part is clamped in the clamping and conveying assembly, the two clamping and carrying blocks drive the driving shaft V and the rubber pads to stretch through the hydraulic cylinder V, the two rubber pads clamp the lock tube plastic part respectively, the motor eight drives the sleeve rail III to rotate through the rotating shaft IV, so that the lock tube plastic part is transferred and moved out, the coverage angle for transferring and moving the lock tube plastic part out is wider, the clamping and conveying assembly can clamp and fix the lock tube plastic parts with different widths, and the use flexibility is guaranteed; the equipment has strong working diversity, small occupied area, good social benefit and economic benefit and is suitable for popularization and use.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic overall perspective structure of the present invention.

Fig. 2 is an exploded perspective view of the present invention.

FIG. 3 is a schematic diagram of a conveying tray according to the present invention.

FIG. 4 is a schematic view of the turntable structure of the present invention.

FIG. 5 is a front view of the connection between the turntable and the rotating shaft according to the present invention.

FIG. 6 is a schematic view of a trimming seat according to the present invention.

Fig. 7 is a schematic view of a wear groove assembly according to the present invention.

Fig. 8 is a front elevational view of the wear groove assembly of the present invention.

Fig. 9 is a structural schematic view of a grooving mechanism according to the present invention.

FIG. 10 is a schematic view of the structure of the transfer plate of the present invention.

FIG. 11 is a schematic view of a clip carrier block structure according to the present invention.

In the figure: 1. a loading platform; 2. a delivery tray; 3. a turntable; 4. trimming a groove seat; 5. a grooving mechanism; 6. a transfer tray; 7. rolling and conveying the belt; 8. a rubber tape strip; 9. a first motor; 10. a first rotating shaft; 11. a side supporting plate; 12. a second motor; 13. a sleeve shaft; 14. a slider; 15. a synchronous belt; 16. a first hydraulic cylinder; 17. a first driving shaft; 18. a grind trough assembly; 19. a third motor; 20. rotating the plate; 21. a second hydraulic cylinder; 22. a second driving shaft; 23. a fourth motor; 24. a second rotating shaft; 25. rotationally grinding the cylinder; 26. a rotating shaft III; 27. sleeving a first rail; 28. a fifth motor; 29. sleeving a second rail; 30. a sixth motor; 31. a side hanging seat; 32. a hydraulic cylinder III; 33. a third driving shaft; 34. a seventh motor; 35. drilling a screw shaft; 36. a motor eight; 37. a rotating shaft IV; 38. sleeving a rail III; 39. a motor nine; 40. a flat pressing component; 41. a fourth hydraulic cylinder; 42. driving shaft four; 43. pressing a plate; 44. a pinch assembly; 45. clamping a carrying block; 46. a fifth hydraulic cylinder; 47. a fifth driving shaft; 48. a rubber pad; 49. and (5) extending the plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, a trimming and transferring device for a plastic locking tube for architectural decoration comprises a loading platform 1 with a rectangular structure, a conveying disc 2, a rotary disc 3, a trimming seat 4, a grooving mechanism 5 and a transferring disc 6, wherein the conveying disc 2 is arranged in the middle above the loading platform 1, the rotary disc 3 is arranged on one side of the conveying disc 2, the trimming seat 4 is arranged on one side of the rotary disc 3, the grooving mechanism 5 is arranged on one side of the trimming seat 4, and the transferring disc 6 is arranged below one end of the grooving mechanism 5;

the middle part of the conveying disc 2 is provided with an annular rolling conveying belt 7, the middle part of the rolling conveying belt 7 is sleeved with a rubber belt strip 8, friction between the rubber belt strip 8 and a lock tube plastic part is increased, the lock tube plastic part is conveyed to the extension plate 49 of the rotary disc 3 more efficiently, and the position of the lock tube plastic part conveyed to the rotary disc 3 is more accurate;

the rotary table 3 is of a cross structure, four extending plates 49 are circumferentially arranged on the rotary table 3, a first motor 9 is vertically arranged below the middle of the rotary table 3, a first rotating shaft 10 is rotatably connected above the first motor 9, and the top of the first rotating shaft 10 is connected to the bottom of the center of the rotary table 3;

a side supporting plate 11 is horizontally arranged above the groove repairing seat 4, two ends of the side wall of the side supporting plate 11 are respectively provided with a second rectangular motor 12, a synchronous belt 15 is rotatably connected below the two second rectangular motors 12, a first rectangular sliding block 14 penetrates through and is sleeved on the synchronous belt 15, a cylindrical sleeve shaft 13 is arranged in the middle of the two second rectangular motors 12, the sleeve shaft 13 penetrates through the middle of the sliding block 14, a first hydraulic cylinder 16 is vertically arranged at one end of the sliding block 14, a groove grinding assembly 18 extends and is connected below the first hydraulic cylinder 16 through a first driving shaft 17, the sliding block 14 is sleeved on the sleeve shaft 13 to move in the process that the synchronous belt 15 drives the sliding block 14 to adjust forwards and backwards, and the sliding block 14 is enabled to drive the groove grinding assembly 18 to be more stable and firm;

the top of the grinding groove assembly 18 is provided with a motor III 19, a rotary plate 20 with a circular structure is rotatably connected below the motor III 19 through a rotary shaft III 26, four hydraulic cylinders II 21 are vertically arranged at the bottom of the rotary plate 20 in an equal radian manner, a motor IV 23 is movably connected below the hydraulic cylinders II 21 through a driving shaft II 22, and a rotary grinding cylinder 25 with a cylindrical structure is rotatably connected below the motor IV 23 through a rotary shaft II 24;

a first sleeve rail 27 is horizontally arranged on the slotting mechanism 5, a fifth motor 28 is sleeved on the first sleeve rail 27, a second sleeve rail 29 is horizontally arranged above the fifth motor 28, a sixth motor 30 is sleeved on the second sleeve rail 29, a cuboid-shaped side hanging seat 31 is arranged on one side of the sixth motor 30, a third hydraulic cylinder 32 is vertically arranged above one end of the side hanging seat 31, a seventh motor 34 is movably connected below the third hydraulic cylinder 32 through a third driving shaft 33, and a drill screw shaft 35 is rotatably connected below the seventh motor 34;

a motor eight 36 is vertically arranged below one end of the transfer disc 6, a sleeve rail three 38 is rotatably connected above the motor eight 36 through a rotating shaft four 37, the sleeve rail three 38 is horizontally arranged, two motor nine 39 are sleeved on the sleeve rail three 38, a flat pressing assembly 40 is vertically arranged on the side wall of one end of one motor nine 39, and a clamping and conveying assembly 44 is arranged at one end of the other motor nine 39;

a hydraulic cylinder IV 41 is vertically arranged above the middle part of the flat pressing assembly 40, and a pressing plate 43 with a cuboid structure is connected below the hydraulic cylinder IV 41 in an extending manner through a driving shaft IV 42;

the clamping and conveying assembly 44 is of an inverted U-shaped structure, the upper end face of the clamping and conveying assembly 44 is horizontally arranged, and clamping and carrying blocks 45 are arranged at two ends below the clamping and conveying assembly 44;

wherein, press from both sides the carrier block 45 and go up the level and be provided with pneumatic cylinder five 46, and pneumatic cylinder five 46 one end stretches through drive shaft five 47 and is connected with rubber pad 48, through rubber pad 48 increase with the frictional force of locking working of plastics contact, guarantee that the locking working of plastics is more firm, firm when being forwarded.

The two ends of the rolling belt 7 are provided with ten motors, the ten motors are rotatably connected with the rolling belt 7 through transmission shafts, and the ten motors drive the rolling belt 7 to roll so as to drive the locking pipe plastic part to move and convey.

The inner walls of two ends of the motor five 28, which are close to the first sleeve rail 27, are rotatably connected with the first rollers, the first rollers are respectively connected to the first rolling grooves on two sides of the first sleeve rail 27, and the motor five 28 is movably connected with the second sleeve rail 29 in the first rolling grooves through the first rollers.

A second roller is rotatably connected below the sixth motor 30, a second hollow rolling groove matched with the second roller is formed above the second sleeve rail 29, and the sixth motor 30 is movably connected with the side hanging seat 31 in the second rolling groove through the second roller.

It is provided with the screw thread to bore spiral shaft 35 lateral wall spiral, guarantees to bore spiral shaft 35 and can go out the spiral groove that has the internal screw thread to the lock tube working of plastics auger bit, makes things convenient for lock tube working of plastics later stage to carry out fixed mounting, and bores 35 bottoms of spiral shaft and be conical structure, is convenient for bore spiral shaft 35 auger bit to fluting in the lock tube working of plastics.

Two sides of the two motor nines 39 close to one end of the sleeve rail III 38 are rotatably connected with a roller III, the roller III is connected to a rolling groove III on the side wall of the sleeve rail III 38, and the two motor nines 39 are movably connected with the flat pressing assembly 40 on the sleeve rail III 38 through the roller III.

The clamping and carrying blocks 45 on two sides below the clamping and carrying assembly 44 are symmetrically arranged, and the clamping and carrying blocks 45 can be used for clamping and fixing two sides of a lock tube plastic part respectively.

The bottoms of the grinding groove component 18, the side hanging seat 31, the flat pressing component 40 and the clamping and conveying component 44 are respectively provided with an infrared sensor, the position of a lock tube plastic part is detected through the infrared sensor with the model of OS137-3, the infrared sensor is in communication connection with a PLC (programmable logic controller) in the loading and placing table 1, and the component on the equipment is controlled through the PLC with the model of CPM1A to process and transfer the locked plastic part.

the method comprises the following steps: a plurality of lock tube plastic pieces are placed on a rolling conveying belt 7 of a conveying disc 2 side by side for moving conveying, a first motor 9 drives a rotary disc 3 to rotate and transfer through a first rotating shaft 10, one end of the rotary disc 3 is in butt joint with one end of the conveying disc 2, the conveying disc 2 conveys the lock tube plastic pieces to extension plates 49 of the rotary disc 3, then the rotary disc 3 rotates by 90 degrees in sequence, all the four extension plates 49 of the rotary disc 3 are supported with the lock tube plastic pieces, after the lock tube plastic pieces are conveyed to the rotary disc 3, a second motor 12 drives a sliding block 14 and a grinding groove component 18 to move right above the lock tube plastic pieces through a synchronous belt 15, a second hydraulic cylinder 21 drives a rotary grinding cylinder 25 to extend downwards into a casing groove of the lock tube plastic pieces through a second driving shaft 22, and a fourth motor 23 drives the rotary grinding cylinder 25 to rotate through a second rotating shaft 24 to scrape and grind the inner wall of the casing groove;

step two: after the groove trimming processing of the lock pipe plastic part is finished, the rotary table 3 drives the lock pipe plastic part to rotate and move, the motor six 30 is matched to drive the motor seven 34 to move back and forth on the sleeve rail two 29, the drill screw shaft 35 is moved to the position above the lock pipe plastic part, the hydraulic cylinder three 32 drives the drill screw shaft 35 to move downwards through the driving shaft three 33, the motor seven 34 drives the drill screw shaft 35 to rotate, the groove trimming processing is carried out on the lock pipe plastic part, and the motor five 28 is matched to drive the sleeve rail two 29 and the drill screw shaft 35 to move left and right in a regulating mode on the sleeve rail one 27;

step three: after the lock tube plastic part is processed by the drilling groove, the turntable 3 continues to drive the lock tube plastic part to rotate, the motor nine 39 is matched to drive the flat pressing component 40 to move on the sleeve rail three 38, the flat pressing component 40 is moved to the position right above the lock tube plastic part, then, the hydraulic cylinder four 41 drives the pressing plate 43 to extend downwards through the driving shaft four 42, and the lock tube plastic part is subjected to flat pressing processing through the pressing plate 43;

step four: after the flat pressing processing of the locking pipe plastic part is completed, the other motor nine 39 drives the clamping and conveying assembly 44 to move back and forth on the sleeve rail three 38, the locking pipe plastic part is clamped in the clamping and conveying assembly 44, the two clamping and carrying blocks 45 drive the driving shaft five 47 and the rubber pads 48 to stretch through the hydraulic cylinder five 46, the two rubber pads 48 respectively clamp the locking pipe plastic part, and the motor eight 36 drives the sleeve rail three 38 to rotate through the rotating shaft four 37, so that the locking pipe plastic part is transferred and moved out.

When the pipe locking and grinding device is used, a plurality of pipe locking plastic pieces are placed on a rolling conveying belt 7 of a conveying disc 2 side by side for moving and conveying, a motor I9 drives a rotary disc 3 to rotate and transfer through a rotating shaft I10, one end of the rotary disc 3 is in butt joint with one end of the conveying disc 2, the conveying disc 2 conveys the pipe locking plastic pieces to an extension plate 49 of the rotary disc 3, then the rotary disc 3 rotates for 90 degrees in sequence, all four extension plates 49 of the rotary disc 3 support the pipe locking plastic pieces, after the pipe locking plastic pieces are conveyed to the rotary disc 3, a motor II 12 drives a sliding block 14 and a grinding groove assembly 18 to move right above the pipe locking plastic pieces through a synchronous belt 15, a hydraulic cylinder II 21 drives a rotary grinding cylinder 25 to extend downwards into a casing groove of the pipe locking plastic pieces through a driving shaft II 22, a motor IV 23 drives the rotary grinding cylinder 25 to rotate through a rotating shaft II 24 to scrape and grind the inner wall of the casing groove, and ensure that the inner wall of the casing groove is smoother and smoother, the friction force between the rubber belt strips 8 and the lock tube plastic part is increased, so that the lock tube plastic part is more efficiently conveyed to the extension plate 49 of the turntable 3, and the position conveyed to the turntable 3 is more accurate;

when the groove repairing seat 4 is used for repairing the groove of the sleeve groove on the lock tube plastic part, the rotary table 3 is used for driving the lock tube plastic part to rotate and adjust, the motor II 12 is matched for driving the groove grinding assembly 18 to move back and forth through the synchronous belt 15, the groove repairing work position is more accurate and rapid when the groove grinding assembly 18 moves to the position right above the lock tube plastic part, the sliding block 14 is sleeved on the sleeve shaft 13 to move in the process that the synchronous belt 15 drives the sliding block 14 to adjust back and forth, the sliding block 14 is used for driving the groove grinding assembly 18 to be more stable and firm, the motor III 19 is matched for driving the rotary plate 20 to rotate and move through the rotating shaft III 26 to adjust the position of the rotary grinding cylinder 25 extending into the sleeve groove of the lock tube plastic part, and different sleeve grooves on the lock tube are respectively scraped and ground through the four rotary grinding cylinders 25 while the position of the groove repairing work of the lock tube plastic part is ensured to be more accurate, The groove repairing processing greatly improves the groove repairing efficiency of the equipment on the lock pipe plastic part, the hydraulic cylinder 16 drives the grinding groove component 18 to move up and down through the driving shaft I17, the equipment is ensured to be capable of performing groove repairing processing on the lock pipe plastic parts with different thicknesses, the working adaptation range of the equipment is improved, the hydraulic cylinder II 21 is matched with the driving shaft II 22 to drive the rotary grinding cylinder 25 to move up and down, the range of the rotary grinding cylinder 25 capable of moving up and down is improved, and the precision of grinding when the rotary grinding cylinder 25 extends into a sleeve groove of the lock pipe plastic part is improved;

after the groove processing is repaiied to the lock pipe working of plastics and is accomplished, carousel 3 drives the rotatory removal of lock pipe working of plastics, cooperation motor six 30 drives seven 34 back-and-forth movements of motor on set rail two 29, will bore screw shaft 35 and remove to the lock pipe working of plastics top, pneumatic cylinder three 32 drives through drive shaft three 33 and bores screw shaft 35 downward activity, motor seven 34 drives and bores screw shaft 35 rotatory, to the processing of boring the groove on the lock pipe working of plastics, be convenient for the installation in lock pipe working of plastics later stage, fixed use, and cooperation motor five 28 drives set rail two 29 and boring screw shaft 35 left and right sides regulation activity on set rail one 27, when guaranteeing that boring screw shaft 35 carries out the position of boring the groove to the lock pipe working of plastics more accurate, very big improvement again the area scope that boring screw shaft 35 can the activity regulation.

After the lock tube plastic part is processed by the drilling groove, the rotary table 3 continues to drive the lock tube plastic part to rotate and move, the motor nine 39 is matched to drive the flat pressing component 40 to move on the sleeve rail three 38, the flat pressing component is moved to be right above the lock tube plastic part, then the hydraulic cylinder four 41 drives the pressing plate 43 to extend downwards through the driving shaft four 42, the lock tube plastic part is subjected to flat pressing through the pressing plate 43, and the upper end surface and the lower end surface of the lock tube plastic part are enabled to be more smooth; after the flat pressing processing of the locking pipe plastic part is finished, the other motor nine 39 drives the clamping and conveying assembly 44 to move back and forth on the sleeve rail three 38, the locking pipe plastic part is clamped in the clamping and conveying assembly 44, the two clamping and carrying blocks 46 drive the driving shaft five 47 and the rubber pads 48 to stretch through the hydraulic cylinder five 46, the two rubber pads 48 respectively clamp the locking pipe plastic part, the motor eight 36 drives the sleeve rail three 38 to rotate through the rotating shaft four 37, so that the locking pipe plastic part is transferred and moved out, the covering angle for transferring and moving the locking pipe plastic part out is wider, the clamping and conveying assembly 44 can clamp and fix the locking pipe plastic parts with different widths, and the use flexibility is guaranteed

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a device is forwarded in finishing of lock pipe working of plastics for architectural decoration which characterized in that: including platform (1), delivery disc (2), carousel (3), groove repairing seat (4), fluting mechanism (5) and transport dish (6), its characterized in that are put to the year of rectangular bodily form structure: the conveying disc (2) is arranged in the middle of the upper portion of the carrying platform (1), a rotary disc (3) is arranged on one side of the conveying disc (2), a groove repairing seat (4) is arranged on one side of the rotary disc (3), a groove opening mechanism (5) is arranged on one side of the groove repairing seat (4), and a transfer disc (6) is arranged below one end of the groove opening mechanism (5);

wherein the middle part of the conveying disc (2) is provided with an annular rolling belt (7), and the middle part of the rolling belt (7) is sleeved with a rubber belt strip (8);

the turntable (3) is of a cross structure, four extending plates (49) are circumferentially arranged on the turntable (3), a first motor (9) is vertically arranged below the middle part of the turntable (3), a first rotating shaft (10) is rotatably connected above the first motor (9), and the top of the first rotating shaft (10) is connected to the bottom of the center of the turntable (3);

a side supporting plate (11) is horizontally arranged above the groove repairing seat (4), two rectangular motors (12) are arranged at two ends of the side wall of the side supporting plate (11), a synchronous belt (15) is rotatably connected below the two motors (12), a rectangular sliding block (14) penetrates through the synchronous belt (15), a cylindrical sleeve shaft (13) is arranged in the middle between the two motors (12), the sleeve shaft (13) penetrates through the middle of the sliding block (14), a hydraulic cylinder I (16) is vertically arranged at one end of the sliding block (14), and a groove grinding assembly (18) is connected below the hydraulic cylinder I (16) in an extending mode through a driving shaft I (17);

the top of the grinding groove assembly (18) is provided with a motor III (19), a rotary plate (20) with a circular structure is rotatably connected below the motor III (19) through a rotating shaft III (26), four hydraulic cylinders II (21) are vertically arranged at the bottoms of the rotary plate (20) in an equal radian manner, a motor IV (23) is movably connected below the hydraulic cylinders II (21) through a driving shaft II (22), and a rotary grinding cylinder (25) with a cylindrical structure is rotatably connected below the motor IV (23) through a rotating shaft II (24);

a first sleeve rail (27) is horizontally arranged on the slotting mechanism (5), a fifth motor (28) is sleeved on the first sleeve rail (27), a second sleeve rail (29) is horizontally arranged above the fifth motor (28), a sixth motor (30) is sleeved on the second sleeve rail (29), a cuboid-shaped side hanging seat (31) is arranged on one side of the sixth motor (30), a third hydraulic cylinder (32) is vertically arranged above one end of the side hanging seat (31), a seventh motor (34) is connected below the third hydraulic cylinder (32) in an extending mode through a third driving shaft (33), and a drill screw shaft (35) is rotatably connected below the seventh motor (34);

an eighth motor (36) is vertically arranged below one end of the transfer disc (6), a third sleeve rail (38) is rotatably connected above the eighth motor (36) through a fourth rotating shaft (37), the third sleeve rail (38) is horizontally arranged, two motors nine (39) are sleeved on the third sleeve rail (38), a flat pressing assembly (40) is vertically arranged on the side wall of one end of one motor nine (39), and a clamping and conveying assembly (44) is arranged at one end of the other motor nine (39);

a hydraulic cylinder IV (41) is vertically arranged above the middle part of the flat pressing assembly (40), and a pressing plate (43) with a cuboid structure is connected below the hydraulic cylinder IV (41) in an extending way through a driving shaft IV (42);

the clamping and conveying assembly (44) is of an inverted U-shaped structure, the upper end surface of the clamping and conveying assembly (44) is horizontally arranged, and clamping and carrying blocks (45) are arranged at two ends below the clamping and conveying assembly (44);

and a hydraulic cylinder five (46) is horizontally arranged on the load clamping block (45), and one end of the hydraulic cylinder five (46) is connected with a rubber pad (48) through a driving shaft five (47) in an extending manner.

2. The trimming and transferring device of the lock tube plastic part for architectural decoration according to claim 1, wherein both ends of the roller belt (7) are provided with ten motors, and the ten motors are rotatably connected with the roller belt (7) through transmission shafts.

3. The plastic piece trimming and transferring device for the lock tube for architectural decoration as claimed in claim 1, wherein the inner wall of one end of each of two sides of the motor five (28) close to the first casing rail (27) is rotatably connected with a first roller, the two first rollers are respectively connected to the first rolling grooves on two sides of the first casing rail (27), and the motor five (28) is movably connected with the second casing rail (29) in the first rolling grooves through the first rollers.

4. The trimming and transferring device for the plastic parts of the lock tubes for architectural decoration according to claim 1, wherein a second roller is rotatably connected below the sixth motor (30), a second hollow rolling groove matched with the second roller is arranged above the second sleeve rail (29), and the sixth motor (30) is movably connected with the side hanging seat (31) in the second rolling groove through the second roller.

5. The trimming and transferring device for the plastic parts of the lock tube for architectural decoration as claimed in claim 1, wherein the side wall of the drill screw shaft (35) is spirally provided with threads, and the bottom of the drill screw shaft (35) is of a conical structure.

6. The plastic piece trimming and transferring device of the lock tube for architectural decoration as claimed in claim 1, wherein two sides of the two motors nine (39) are rotatably connected with the rollers three near one end of the sleeve rail three (38), the rollers three are connected to the rolling grooves three of the side wall of the sleeve rail three (38), and the two motors nine (39) are movably connected with the flat pressing component (40) on the sleeve rail three (38) through the rollers three.

7. The plastic piece trimming and transferring device of the lock tube for architectural decoration as claimed in claim 1, wherein the clamping and carrying blocks (45) at both sides below the clamping and carrying assembly (44) are symmetrically arranged.

8. The trimming and forwarding device for the plastic parts of the lock tubes for architectural decoration according to claim 1, wherein infrared sensors are arranged at the bottoms of the grinding groove assembly (18), the side hanging seat (31), the flat pressing assembly (40) and the clamping and conveying assembly (44), and are in communication connection with a PLC (programmable logic controller) inside the loading platform (1).

9. The working method of the trimming and transferring device for the plastic parts of the lock tube for architectural decoration as claimed in claim 1, wherein the method comprises the following steps:

the method comprises the following steps: a plurality of locking pipe plastic pieces are placed on a rolling conveying belt (7) of a conveying disc (2) side by side to be moved and conveyed, a motor I (9) drives a rotating disc (3) to rotate and move through a rotating shaft I (10), one end of the rotating disc (3) is in butt joint with one end of the conveying disc (2), the conveying disc (2) conveys the locking pipe plastic pieces to an extending plate (49) of the rotating disc (3), and then, the rotating disc (3) rotates 90 degrees in turn, all the four extending plates (49) of the rotating disc (3) are supported with lock tube plastic pieces, after the lock tube plastic part is conveyed to the turntable (3), the motor II (12) drives the sliding block (14) and the grinding groove component (18) to move right above the lock tube plastic part through the synchronous belt (15), the hydraulic cylinder II (21) drives the rotary grinding cylinder (25) to extend downwards into the sleeve groove of the lock tube plastic part through the driving shaft II (22), a motor IV (23) drives a rotary grinding cylinder (25) to rotate through a rotating shaft II (24) to scrape and grind the inner wall of the sleeve groove;

step two: after the groove repairing processing of the lock pipe plastic part is finished, the rotary disc (3) drives the lock pipe plastic part to rotate and move, the motor six (30) is matched to drive the motor seven (34) to move back and forth on the sleeve rail II (29), the drill screw shaft (35) is moved to the position above the lock pipe plastic part, the hydraulic cylinder III (32) drives the drill screw shaft (35) to move downwards through the driving shaft III (33), the motor seven (34) drives the drill screw shaft (35) to rotate, the groove drilling processing is carried out on the lock pipe plastic part, and the motor five (28) is matched to drive the sleeve rail II (29) and the drill screw shaft (35) to move left and right in a regulating mode on the sleeve rail I (27);

step three: after the lock tube plastic part is processed by the drilling groove, the rotary table (3) continues to drive the lock tube plastic part to rotate, the motor nine (39) is matched to drive the flat pressing component (40) to move on the sleeve rail three (38), the flat pressing component (40) is moved to the position right above the lock tube plastic part, then the hydraulic cylinder four (41) drives the pressing plate (43) to extend downwards through the driving shaft four (42), and the lock tube plastic part is subjected to flat pressing processing through the pressing plate (43);

step four: after the flat pressing processing of the lock pipe plastic part is completed, the other motor nine (39) drives the clamping and conveying assembly (44) to move back and forth on the sleeve rail three (38), the lock pipe plastic part is clamped in the clamping and conveying assembly (44), the two clamping and carrying blocks (45) drive the driving shaft five (47) and the rubber pads (48) to stretch through the hydraulic cylinder five (46), the two rubber pads (48) respectively clamp the lock pipe plastic part, the motor eight (36) drives the sleeve rail three (38) to rotate through the rotating shaft four (37), and therefore the lock pipe plastic part is transferred and moved out of the lock pipe plastic part.