CN111890668B

CN111890668B - Steel wire plastic pipe spooling equipment

Info

Publication number: CN111890668B
Application number: CN202010755541.0A
Authority: CN
Inventors: 陈钦才; 杨建军; 李创奎; 陈学明
Original assignee: Shenzhen Premase Precision Manufacturing Technology Development Co ltd
Current assignee: Shenzhen Premase Precision Manufacturing Technology Development Co ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2022-06-14
Anticipated expiration: 2040-07-31
Also published as: CN111890668A

Abstract

The utility model provides a steel wire plastic pipe spooling equipment, includes the frame, according to the direction of processing set gradually in the automatic unwinding device of frame side and set up automatic feed device, winding device, cutters, rubber coating device and discharging device in the frame, automatic feed device includes portal frame, upper and lower adjusting cylinder, lifter plate, first drawing material motor, second draw material motor, first feeding belt and second feeding belt, be equipped with on the crossbeam of portal frame about the adjusting cylinder, about the adjusting cylinder drive the lifter plate up-and-down motion, the lifter plate with same one side of portal frame is equipped with first drawing material motor with the second draws the material motor, the opposite side of lifter plate is equipped with first drawing the material action wheel, through first feeding belt with first drawing the material that the material action wheel is connected draws from the driving wheel. The invention has the advantages of reasonable design, adjustable pitch, uniform encapsulation distance and stable winding tension.

Description

Steel wire plastic pipe spooling equipment

Technical Field

The invention relates to the technical field of plastic pipe production, in particular to a steel wire plastic pipe winding device.

Background

In the prior art, the steel wire winding of plastic pipe mainly adopts artifical wire winding's mode, but this kind of mode exists two windings double helix pitch control unstablely, and the rubber coating distance is inhomogeneous, defects such as wire winding tension control unstablely.

Thus, the prior art is subject to improvements and improvements.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the steel wire plastic pipe winding equipment which is reasonable in design, adjustable in pitch, uniform in rubber coating distance and stable in winding tension.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a steel wire plastic pipe spooling equipment, includes the frame, according to the direction of processing set gradually in the automatic unwinding device of frame side and set up automatic feed device, winding device, cutters, rubber coating device and discharging device in the frame, automatic feed device includes portal frame, upper and lower adjusting cylinder, lifter plate, first material motor, second material motor, first feeding belt and second feeding belt of drawing, be equipped with on the crossbeam of portal frame from top to bottom adjusting cylinder, from top to bottom adjusting cylinder drives the lifter plate up-and-down motion, the lifter plate with same one side of portal frame is equipped with first material motor that draws with the second material motor that draws, the opposite side of lifter plate be equipped with first material action wheel that draws, pass through first feeding belt with first material that draws that the material action wheel is connected draws from driving wheel, second and passes through second feeding belt with the second that the second draws the material to connect draws the material action wheel The material is from the driving wheel, be equipped with on the second feeding belt with first V type groove matched with second V type groove on the first feeding belt, the first output shaft that draws the material motor passes the lifter plate drive first drawing the material action wheel, the second output shaft that draws the material motor passes the lifter plate drive the second draws the material action wheel.

Preferably, a guide pipe is arranged between the automatic feeding device and the winding device.

Preferably, a support frame is arranged between the guide pipe and the winding device, a rubber coating wheel is arranged on one side of the support frame, an elastic plate is arranged above a cross beam of the support frame, springs are arranged between the elastic plate and two ends of the cross beam of the support frame, and an encoder matched with the rubber coating wheel is arranged on the elastic plate.

Preferably, the lifting plate is further provided with a plurality of first tensioning wheels matched with the first feeding belts and a plurality of second tensioning wheels matched with the second feeding belts.

Preferably, winding device includes wire winding motor, backup pad, winder plate, first drum and second drum, wire winding motor's output shaft passes through belt drive wire winding from the driving wheel, the wire winding from the driving wheel rotate through the axis of rotation install in the backup pad, for in the axis of rotation the wire winding is equipped with from the opposite side of driving wheel the winder plate, install through first physiosis axle on the winder plate first drum is installed through second physiosis axle the second drum, still be equipped with on the winder plate respectively with first drum second drum matched with first wire gyro wheel, second wire gyro wheel.

Preferably, a tension controller is arranged on the rotating shaft and close to the winding driven wheel.

Preferably, a first magnetic powder damper is arranged on the winding board and opposite to the other side of the first inflatable shaft and connected with the first inflatable shaft, and a second magnetic powder damper is arranged on the winding board and opposite to the other side of the second inflatable shaft and connected with the second inflatable shaft.

Preferably, cutters is including supporting riser, slip table cylinder, connecting rod, embracing and pressing from both sides the cylinder, embracing and pressing from both sides clamping jaw, cutter cylinder and cutter tool, install on the support riser the slip table cylinder, slip table cylinder drive is embraced and is pressed from both sides cylinder mounting panel up-and-down motion, embrace and install on the clamp cylinder mounting panel embrace and press from both sides the cylinder, embrace the output shaft pin joint two that presss from both sides the cylinder the one end of connecting rod, two the equal pin joint of the other end of connecting rod has embrace and press from both sides the clamping jaw, embrace and be equipped with cutter cylinder mounting panel on the clamp cylinder mounting panel, install on the cutter cylinder mounting panel the cutter cylinder, cutter cylinder drive and two embrace and press from both sides clamping jaw matched with cutter tool.

Preferably, the rubber coating device comprises a linear module and a rubber coating component which is arranged on the linear module and driven by the linear module to do linear reciprocating motion, the rubber coating component comprises a rubber coating support plate, a rubber wheel, a non-stick wheel motor, a rubber coating cutter, a rubber coating cutting cylinder, a rubber coating cutting table, a guide shaft, a rotary rubber coating motor and a rotary rubber coating driven wheel, the rubber wheel and the non-stick wheel are arranged on one side of the rubber coating support plate, the non-stick wheel is driven by the non-stick wheel motor which is arranged on the other side of the rubber coating support plate, the rubber coating cutting table is arranged on the side of the non-stick wheel, the rubber coating cutter is matched above the rubber coating cutting table, the rubber coating cutter is driven by the rubber coating cutting cylinder, the guide shaft is arranged at the tail end of the rubber coating cutting table, the guide shaft is rotatably arranged on the rubber coating support plate, the rotary rubber coating driven wheel which is arranged on the other side of the rubber coating support plate is arranged on the guide shaft, the rotary rubber-coated driven wheel is connected with an output shaft of the rotary rubber-coated motor through a belt.

Preferably, the discharging device comprises support columns, a discharging linear module, a lifting cylinder, a clamping jaw cylinder, clamping jaws, a material receiving slideway, a horizontal moving cylinder, a shearing cylinder and scissors, the discharging linear module is mounted on the two support columns, the lifting cylinder is mounted on the discharging linear module and driven by the discharging linear module to do linear reciprocating motion, the lifting cylinder drives the clamping jaw cylinder to move up and down, and the clamping jaw cylinder drives the two clamping jaws; the lower parts of the two clamping jaws are matched with the material receiving slide way.

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

due to the adoption of the structural design, the winding machine is reasonable in design, adjustable in pitch, uniform in rubber coating distance and stable in winding tension.

Drawings

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

FIG. 2 is a schematic structural view of an automatic feeding device of the present invention;

FIG. 3 is a schematic structural diagram of a winding device according to the present invention;

FIG. 4 is another schematic structural view of the winding device for hairstyle;

FIG. 5 is a schematic structural view of a cutter device according to the present invention;

FIG. 6 is another schematic diagram of the construction of the cutter according to the present invention;

FIG. 7 is a schematic view of the encapsulation apparatus of the present invention;

FIG. 8 is a schematic structural view of a discharging device of the present invention.

The reference numbers in the figures are respectively:

(100) a frame, (200) an automatic unreeling device, (300) an automatic feeding device, (400) a winding device, (500) a cutter device, (600) a rubber coating device, (700) a discharging device,

(301) a portal frame, (302) an up-and-down adjusting cylinder, (303) a lifting plate, (304) a first pulling motor, (305) a second pulling motor, (306) a first feeding belt, (307) a second pulling belt, (308) a first pulling driving wheel, (309) a first pulling driven wheel, (310) a second pulling driving wheel, (311) a second pulling driven wheel, (312) a first V-shaped groove, (313) a second V-shaped groove, (314) a rubber wrapping wheel, (315) an elastic plate, (316) (317) a spring, (318) an encoder, (319) a first tensioning wheel, (320) a second tensioning wheel, (321) a guide pipe, (322) a support frame,

(401) a winding motor, (402) a support plate, (403) a winding plate, (404) a first wire coil, (405) a second wire coil, (406) a winding driven wheel, (407) a first air shaft, (408) a second air shaft, (409) a first wire roller, (410) a second wire roller, (411) a tension controller, (412) a magnetic powder damper, (413) a magnetic powder damper,

(501) a supporting vertical plate, (502) a sliding table air cylinder, (503) (504) a connecting rod, (505) a clamping cylinder, (506) (507) a clamping jaw, (508) a cutter air cylinder, (509) a cutter jig, (510) a clamping air cylinder mounting plate, (511) a cutter air cylinder mounting plate,

(601) a linear module, (602) a rubber coating supporting plate, (603) a rubber wheel, (604) a non-stick wheel, (605) a non-stick wheel motor, (606) a rubber belt cutting knife, (607) a rubber belt cutting air cylinder, (608) a rubber belt cutting table, (609) a guide shaft, (610) a rotary rubber coating motor, (611) a rotary rubber coating driven wheel,

(701) (702) a support column, (703) a discharging linear module, (704) a lifting cylinder, (705) a clamping jaw cylinder, (706) (707) a clamping jaw, and (708) a material receiving slideway.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings:

referring to fig. 1-8, the invention relates to a steel wire plastic pipe winding apparatus, which comprises a frame 100, an automatic unwinding device 200, an automatic feeding device 300, a winding device 400, a cutter device 500, a rubber coating device 600 and a discharging device 700, wherein the automatic unwinding device is arranged at the side of the frame in sequence according to a processing direction, the automatic feeding device 300, the winding device 400, the cutter device 500, the rubber coating device 600 and the discharging device 700 are arranged on the frame, the automatic unwinding device adopts an automatic unwinding device in the prior art, the automatic feeding device comprises a portal frame 301, an up-and-down adjusting cylinder 302, a lifting plate 303, a first material pulling motor 304, a second material pulling motor 305, a first material feeding belt 306 and a second material feeding belt 307, the up-and-down adjusting cylinder 302 is arranged on a cross beam of the portal frame 301, the up-and-down adjusting cylinder 302 drives the lifting plate 303 to move up and down, the first material pulling motor 304 and the second material pulling motor 305 are arranged on the same side of the lifting plate 303 and the portal frame 301, a first pulling driving wheel 308, a first pulling driven wheel 309 and a second pulling driving wheel 310 which are connected with the first pulling driving wheel 308 through the first feeding belt 306, and a second pulling driven wheel 311 which is connected with the second pulling driving wheel 310 through the second feeding belt 307 are arranged on the other side of the lifting plate 303, a second V-shaped groove 313 which is matched with a first V-shaped groove 312 on the first feeding belt 306 is arranged on the second feeding belt 307, an output shaft of the first pulling motor 304 passes through the lifting plate 303 to drive the first pulling driving wheel 308, an output shaft of the second pulling motor 305 passes through the lifting plate 303 to drive the second pulling driving wheel 310, the automatic unreeling device sends the plastic pipe into a channel formed by matching of the first V-shaped groove and the second V-shaped groove, and the first V-shaped groove and the second V-shaped groove can effectively prevent the plastic pipe from deviating, the first feeding belt is driven by the first material pulling motor, the second feeding belt is driven by the second material pulling motor, and the plastic pipe moves forwards under the action of the first feeding belt and the second feeding belt and is conveyed to the winding device.

A guide pipe 321 is arranged between the automatic feeding device 300 and the winding device 400 and used for guiding the plastic pipe coming out of the automatic feeding device, so that the plastic pipe can conveniently enter the winding device.

A supporting frame 322 is arranged between the guide pipe 321 and the winding device 400, a rubber-coated wheel 314 is arranged on one side of the supporting frame 322, an elastic plate 315 is arranged above a cross beam of the supporting frame 322,

springs

316 and 317 are respectively arranged between the elastic plate 315 and two ends of the cross beam of the supporting frame 313, an encoder 318 matched with the rubber-coated wheel 314 is arranged on the elastic plate 315, and the encoder is arranged on the elastic plate and connected with the supporting frame through the springs, so that the encoder is in pressure contact with the plastic pipe but does not deform the plastic pipe.

The lifting plate 303 is further provided with four first tensioning wheels 319 matched with the first feeding belt 306 and four second tensioning wheels 320 matched with the second feeding belt 307, and the four first tensioning wheels 319 and the four second tensioning wheels are used for controlling tensioning forces of the first feeding belt and the second feeding belt.

The winding device comprises a winding motor 401, a support plate 402, a winding plate 403, a first wire coil 404 and a second wire coil 405, an output shaft of the winding motor 401 drives a winding driven wheel 406 through a belt, the winding driven wheel 406 is rotatably installed on the support plate 402 through a rotating shaft, the winding plate 403 is arranged on the rotating shaft opposite to the winding driven wheel, the first wire coil 404 is installed on the winding plate 403 through a first air expansion shaft 407, the second wire coil 405 is installed through a second air expansion shaft 408, a first wire roller 409 and a second wire roller 410 which are respectively matched with the first wire coil 404 and the second wire coil are further arranged on the winding plate 403, steel wires are wound on the first wire coil and the second wire coil, after a plastic pipe enters the winding device, the winding motor drives the first wire coil and the second wire coil to rotate, the steel wires on the first plastic coil wind the plastic pipe under the action of the first wire roller, the steel wire on the second wire coil also winds the plastic pipe under the action of the second wire roller.

A tension controller 411 is arranged on the rotating shaft and close to the winding driven wheel to keep the running speed of the winding device.

For on the winder 403 the opposite side of first physiosis axle 407 is equipped with first magnetic powder damper 412, first magnetic powder damper 412 with first physiosis axle 407 is connected, for on the winder 403 the opposite side of second physiosis axle 408 is equipped with second magnetic powder damper 413, second magnetic powder damper with second physiosis axle 408 is connected, through setting up first magnetic powder damper and second magnetic powder damper, controls wire-wound tensioning to how much and wire-wound speed automatically regulated tension value according to first drum and the second drum line of going on a thread.

The cutter device comprises a supporting vertical plate 501, a sliding table cylinder 502, connecting

rods

503 and 504, a clamping cylinder 505,

clamping jaws

506 and 507, a cutter cylinder 508 and a cutter jig 509, wherein the supporting vertical plate 501 is provided with the sliding table cylinder 502, the sliding table cylinder 502 drives the clamping cylinder mounting plate 510 to move up and down, the clamping cylinder mounting plate 510 is provided with the clamping cylinder 505, the output shaft of the clamping cylinder 505 is pivoted with two ends of the connecting

rods

503 and 504, the other ends of the connecting

rods

503 and 504 are respectively pivoted with the

clamping jaws

506 and 507, the clamping cylinder mounting plate 510 is provided with the cutter cylinder mounting plate 511, the cutter cylinder mounting plate 511 is provided with the cutter cylinder 508, the cutter cylinder 508 drives and two clamping jaws matched with the cutter jig 509, when a plastic pipe around a finished line enters the cutter device, the sliding table cylinder drives the clamping cylinder to move upwards, the clamping cylinder drives the clamping jaw to clamp the plastic pipe through the connecting rod, and the cutter cylinder drives the cutter jig to cut off the plastic pipe; then, each working unit is reset.

The rubber coating device comprises a linear module 601 and a rubber coating assembly which is arranged on the linear module 601 and is driven by the linear module to do linear reciprocating motion, the rubber coating assembly comprises a rubber coating support plate 602, a rubber wheel 603, a non-stick wheel 604, a non-stick wheel motor 605, a rubber coating cutter 606, a rubber coating cutting cylinder 607, a rubber coating cutting table 608, a guide shaft 609, a rotary rubber coating motor 610 and a rotary rubber coating driven wheel 611, the rubber wheel 603 and the non-stick wheel 604 are arranged on one side of the rubber coating support plate 602, the non-stick wheel 604 is driven by the non-stick wheel motor 605 on the other side of the rubber coating support plate 602, the rubber coating cutting table 608 is arranged on the side of the non-stick wheel 605, the rubber coating cutter 606 is matched above the rubber coating cutting table 608, the rubber coating cutter 606 is driven by the rubber coating cutting cylinder 607, the guide shaft 609 is arranged at the tail end of the rubber coating cutting table 608, the guide shaft 609 is rotatably mounted on the rubber-coated support plate 602, the rotary rubber-coated driven wheel 611 located on the other side of the rubber-coated support plate 602 is arranged on the guide shaft 609, the rotary rubber-coated driven wheel 611 is connected with an output shaft of the rotary rubber-coated motor 610 through a belt, a rubber belt is wound on the rubber wheel, a cut plastic pipe enters the guide shaft, the non-stick wheel motor drives the non-stick wheel, the rubber belt is wound on the plastic pipe under the action of the non-stick wheel, the guide shaft rotates under the action of the rotary rubber-coated motor to enable the rubber belt to be wound on the plastic pipe, and after the plastic pipe is wound with the rubber belt, the rubber belt cutting cylinder drives the rubber belt cutting knife to cut the rubber belt.

The discharging device comprises supporting

columns

701 and 702, a discharging linear module 703, a lifting cylinder 704, a clamping jaw cylinder 705,

clamping jaws

706 and 707 and a material receiving slideway 708, the discharging linear module 703 is installed on the two supporting

columns

701 and 702, the lifting cylinder 704 is installed on the discharging linear module 703 and is driven by the discharging linear module to do linear reciprocating motion, the lifting cylinder 704 drives the clamping jaw cylinder 705 to move up and down, and the clamping jaw cylinder 705 drives the two

clamping jaws

706 and 707; two the below cooperation of clamping jaw connect material slide 708, after the sticky tape had been twined to the plastic pipe, ejection of compact sharp module drive lift cylinder removes to rubber coating device direction, lift cylinder drive clamping jaw cylinder is down, clamping jaw cylinder drive two clamping jaws clip the plastic pipe of having twined the sticky tape, lift cylinder drive clamping jaw cylinder goes upward, ejection of compact sharp module drive lift cylinder removes to keeping away from rubber coating device direction and connects the material to slide to the top, lift cylinder drive clamping jaw cylinder is down, clamping jaw cylinder drive clamping jaw loosens the plastic pipe of having twined the sticky tape, each last work unit carries out operation on next step.

In conclusion, the invention solves the defects in the prior art through the structural design and has the characteristics of reasonable design, adjustable pitch, uniform rubber coating distance, stable winding tension and the like.

The above description is only a preferred embodiment of the present invention, and any modification and/or equivalent replacement and/or improvement made within the technical scope of the claims of the present application should be included in the protection scope of the present invention. The protection scope of the present application is subject to the claims and their equivalents, and is not limited by the specific description in the specification.

Claims

1. The utility model provides a steel wire plastic pipe spooling equipment which characterized in that: the automatic feeding device comprises a portal frame, an upper adjusting cylinder, a lower adjusting cylinder, a lifting plate, a first pulling motor, a second pulling motor, a first feeding belt and a second feeding belt, the upper adjusting cylinder and the lower adjusting cylinder are arranged on a cross beam of the portal frame and drive the lifting plate to move up and down, the first pulling motor and the second pulling motor are arranged on the same side of the lifting plate and the portal frame, a first pulling driving wheel, a first pulling driven wheel, a second pulling driving wheel and a second pulling driven wheel are arranged on the other side of the lifting plate, the first pulling driven wheel, the second pulling driving wheel and the second pulling driven wheel are connected through the first feeding belt and the first pulling driving wheel respectively, and the second pulling driven wheel is connected through the second feeding belt and the second pulling driving wheel respectively, a second V-shaped groove matched with the first V-shaped groove on the first feeding belt is formed in the second feeding belt, an output shaft of the first material pulling motor penetrates through the lifting plate to drive the first material pulling driving wheel, and an output shaft of the second material pulling motor penetrates through the lifting plate to drive the second material pulling driving wheel; the winding device is characterized in that a support frame is arranged between the guide pipe and the winding device, rubber-coated wheels are arranged on one side of the support frame, an elastic plate is arranged above a cross beam of the support frame, springs are arranged between the elastic plate and two ends of the cross beam of the support frame, and encoders matched with the rubber-coated wheels are arranged on the elastic plate.

2. The steel wire plastic pipe winding apparatus according to claim 1, wherein: and a guide pipe is arranged between the automatic feeding device and the winding device.

3. The steel wire plastic pipe winding apparatus according to claim 1, wherein: and the lifting plate is also provided with a plurality of first tensioning wheels matched with the first feeding belts and a plurality of second tensioning wheels matched with the second feeding belts.

4. The steel wire plastic pipe winding apparatus of claim 1, wherein: winding device includes wire winding motor, backup pad, winder plate, first drum and second drum, the output shaft of wire winding motor passes through the belt drive wire winding from the driving wheel, the wire winding from the driving wheel pass through the axis of rotation rotate install in the backup pad, for in the axis of rotation the wire winding is equipped with from the opposite side of driving wheel the winder plate, install through first physiosis axle on the winder plate first drum is installed through second physiosis axle the second drum, still be equipped with on the winder plate respectively with first drum second drum matched with first wire gyro wheel, second wire gyro wheel.

5. The steel wire plastic pipe winding apparatus according to claim 4, wherein: and a tension controller is arranged on the rotating shaft and close to the winding driven wheel.

6. The steel wire plastic pipe winding apparatus according to claim 4, wherein: the magnetic powder damper is characterized in that a first magnetic powder damper is arranged on the other side, opposite to the first inflatable shaft, of the winding plate and connected with the first inflatable shaft, a second magnetic powder damper is arranged on the other side, opposite to the second inflatable shaft, of the winding plate and connected with the second inflatable shaft.

7. The steel wire plastic pipe winding apparatus according to claim 1, wherein: the cutters is including supporting riser, slip table cylinder, connecting rod, embracing double-layered cylinder, embracing and pressing from both sides clamping jaw, cutter cylinder and cutter tool, install on the support riser the slip table cylinder, slip table cylinder drive is embraced and is pressed from both sides cylinder mounting panel up-and-down motion, embrace and press from both sides and install on the cylinder mounting panel embrace and press from both sides the cylinder, embrace the output shaft pin joint two that presss from both sides the cylinder the one end of connecting rod, two the equal pin joint of the other end of connecting rod has embrace and press from both sides the clamping jaw, embrace and be equipped with cutter cylinder mounting panel on pressing from both sides the cylinder mounting panel, install on the cutter cylinder mounting panel the cutter cylinder, cutter cylinder drive and two embrace and press from both sides clamping jaw matched with cutter tool.

8. The steel wire plastic pipe winding apparatus according to claim 1, wherein: the rubber coating device comprises a linear module and a rubber coating component which is arranged on the linear module and driven by the linear module to do linear reciprocating motion, the rubber coating component comprises a rubber coating supporting plate, a rubber wheel, a non-stick wheel motor, a rubber coating cutter, a rubber coating cutting cylinder, a rubber coating cutting table, a guide shaft, a rotary rubber coating motor and a rotary rubber coating driven wheel, the rubber wheel and the non-stick wheel are arranged on one side of the rubber coating supporting plate, the non-stick wheel is driven by the non-stick wheel motor positioned on the other side of the rubber coating supporting plate, the rubber coating cutting table is arranged beside the non-stick wheel, the rubber coating cutter is matched above the rubber coating cutting table, the rubber coating cutter is driven by the rubber coating cutting cylinder, the guide shaft is arranged at the tail end of the rubber coating cutting table, the guide shaft is rotationally arranged on the rubber coating supporting plate, and the rotary rubber coating driven wheel positioned on the other side of the rubber coating supporting plate is arranged on the guide shaft, the rotary rubber-coated driven wheel is connected with an output shaft of the rotary rubber-coated motor through a belt.

9. The steel wire plastic pipe winding apparatus according to claim 1, wherein: the discharging device comprises support columns, a discharging linear module, a lifting cylinder, a clamping jaw cylinder, clamping jaws, a material receiving slideway, a horizontal moving cylinder, a shearing cylinder and scissors, wherein the discharging linear module is installed on the two support columns; the lower parts of the two clamping jaws are matched with the material receiving slide way.