CN111795220A - High-impact-resistance PVC pipeline, processing device and processing technology thereof - Google Patents

Abstract

The invention discloses a high-impact PVC pipeline, a processing device and a processing technology thereof. In the PVC pipeline, the bulges and the grooves which are distributed alternately are arranged on the pipe wall of the outer pipe body, and have a buffering effect; the processing device performs flaring operation through the flaring device or cuts the pipe fitting through the cutting part, and simultaneously satisfies the adjustment operation of the inner diameter and the outer diameter of the pipe fitting, improves the applicability of equipment, adopts different adjustment modes aiming at different pipe fittings, is favorable for reducing the damage of the pipe fitting, avoids the waste of the pipe fitting, and reduces the cost.

Description

High-impact-resistance PVC pipeline, processing device and processing technology thereof

Technical Field

The invention relates to the field of PVC (polyvinyl chloride) pipelines, in particular to a high-impact-resistance PVC pipeline, a processing device and a processing technology thereof.

Background

Polyvinyl chloride (PVC) is a high molecular compound polymerized from vinyl chloride monomer, and is one of the general plastic varieties with large output; the corrosion-resistant water-based paint has excellent corrosion resistance due to excellent chemical stability, acid resistance and alkali resistance, and is widely applied to the fields of industry, agriculture, municipal engineering, building water supply and drainage and the like. The outer wall of the pipe body in the prior art is circular, and is very easy to damage when being impacted, and in addition, the pipe body is in direct contact with external concrete/sunlight in the use, so that the service life is influenced.

Disclosure of Invention

The invention aims to provide a high-impact-resistance PVC pipeline, a processing device and a processing technology thereof, wherein bulges and grooves which are distributed at intervals are arranged on the pipe wall of an outer pipe body, the bulges and the grooves have a buffer effect, so that the impact resistance of the pipe body is improved, and the outer pipe body is contacted with the outside in the using process, so that the service life of the inner pipe body is ensured; carry out the flaring operation through the flaring ware or cut the pipe fitting through cutting member, satisfy the adjustment operation of pipe fitting internal diameter and external diameter simultaneously, improve equipment's suitability adopts different adjustment methods to different pipe fittings, is favorable to reducing the damage of pipe fitting, avoids tubular product extravagant, reduce cost.

The purpose of the invention can be realized by the following technical scheme:

high impact PVC pipeline, PVC pipeline include outer body and interior body, are equipped with the metal level between outer body and the interior body, and the inner wall of interior body is equipped with antibacterial coating, and outer body includes the arch and the recess of array distribution, and arch and recess are distributed alternately.

The metal layer and the outer tube body are bonded together through an adhesive, the metal layer and the inner tube body are bonded together through an adhesive, and the metal layer is made of iron/copper/aluminum.

The outer tube body is made of foam materials.

Further, processingequipment includes the support frame, and the below of support frame is equipped with the material loading spare, is equipped with the centre gripping driving piece on the support frame, and the one end of support frame is equipped with the impeller that is used for the body processing, and the other end is equipped with the body machined part, and the below of support frame is equipped with and pushes away the material spare.

The body machined part comprises a sixth cylinder, an output shaft of the sixth cylinder is connected with a driving connecting shaft in a rotating mode, a limiting block is arranged on an output shaft of the sixth cylinder, the driving connecting shaft comprises a second connecting shaft, one end of the second connecting shaft is provided with a square frame, the other end of the second connecting shaft is provided with a connecting plate, a third rotating connecting hole is formed in the square frame, a second connecting column which is symmetrically distributed is arranged on the connecting plate, and a fourth gear is arranged on the second connecting shaft.

The pipe body machining part comprises a rack and a second motor, the rack is located in the sliding groove and slides, an output shaft of the second motor is fixedly connected with a fifth gear, and the fifth gear and the fourth gear are in meshed transmission with the rack.

The second connecting column on one side is provided with a flaring device, and the second connecting column on the other side is provided with a cutting part;

the flaring device comprises a flaring device body, a third connecting column is arranged on the flaring device body, a fixing hole is formed in the third connecting column, and the flaring device is fixed on the second connecting column through the fixing hole.

The cutting part comprises a connecting piece, a clamp is arranged on the connecting piece, and a cutter is arranged on the clamp.

The connecting piece includes the sleeve, and telescopic one end is equipped with the fourth spliced pole, is equipped with the clearing hole of array distribution on the sleeve, is equipped with the fifth backup pad in the clearing hole, is equipped with the sliding connection hole in the fifth backup pad, and the below of fifth backup pad is equipped with the mounting panel of symmetric distribution, and the mounting panel is located the both sides of sliding connection hole, rotates the first set screw who is equipped with the array distribution on the mounting panel, and the connecting piece passes through the fourth spliced pole to be fixed on the second spliced pole.

The fixture comprises a clamping block, a first placing groove is formed in the clamping block, second fixing screw rods distributed in an array mode are arranged on the two sides of the first placing groove, a sliding block is arranged below the clamping block, the fixture is located in a sliding connecting hole through the sliding block to slide, and the fixture is fixed on the connecting piece through the first fixing screw rods in an extrusion mode.

The cutter is placed in the first placing groove and is extruded and fixed through the second fixing screw rod.

Furthermore, the support frame includes the workstation, and the below of workstation is equipped with the supporting legs that the array distributes.

The novel workbench is characterized in that a first square hole is formed in the workbench, first supporting plates are arranged on the workbench and on two sides of the first square hole, first through holes are symmetrically distributed in the first supporting plates, a second supporting plate is arranged at one end of the first square hole on the workbench, a third supporting plate is arranged at the other end of the first square hole, a second through hole is formed in the second supporting plate, a third through hole is formed in the third supporting plate, a sliding supporting block is arranged on the third supporting plate, a sliding groove is formed in the sliding supporting block, a first U-shaped support is arranged on one side of the third supporting plate, and a fourth through hole is formed in the first.

And a fourth supporting plate is arranged on the workbench, and a fifth through hole is formed in the fourth supporting plate.

A second U-shaped support is arranged below the workbench, a sixth through hole is formed in the second U-shaped support, and the second U-shaped support is located below the first square hole.

The feeder hopper that the below of workstation, one side of second U type support were equipped with the slope and distribute is equipped with first connecting block between feeder hopper and the second U type support, and first connecting block is located the one end of feeder hopper and carries on spacingly to the body, is equipped with the second connecting block on the first connecting block, is equipped with the seventh through hole on the second connecting block, is equipped with the second quad slit on the feeder hopper.

The lower part of workstation is equipped with the first bracing piece of symmetric distribution, and first bracing piece and feeder hopper are located the both sides of second U type support respectively, are equipped with the second bracing piece between the first bracing piece, are equipped with the ejection of compact guide bar of symmetric distribution on the second bracing piece, ejection of compact guide bar slope distribution.

Furthermore, an adjusting foot is arranged below the supporting frame and fixed below the supporting foot to adjust the level of the workbench.

Further, the feeding part comprises a first air cylinder, the first air cylinder is fixed below the second U-shaped support, an output shaft of the second U-shaped support penetrates through a sixth through hole to be connected with a first supporting block in a fastening mode, and a second placing groove is formed in the first supporting block.

The feeding part comprises a second cylinder, the second cylinder is fixed below the second connecting block, an output shaft of the second cylinder is fixedly connected with a third supporting block through a seventh through hole, and an inclined guide surface is arranged on the third supporting block.

Furthermore, the centre gripping driving piece includes third cylinder and fourth cylinder, third cylinder and fourth cylinder of symmetric distribution, and the third cylinder is fixed on the first backup pad of one side, and the fourth cylinder is fixed on the first backup pad of opposite side.

The output shaft of the third cylinder passes through the first through hole and is connected with a first clamping piece in a fastening mode, and the output shaft of the fourth cylinder passes through the first through hole and is connected with a second clamping piece in a fastening mode.

The second clamping part comprises a first connecting shaft, one end of the first connecting shaft is fixedly connected with an output shaft of the fourth cylinder, the other end of the first connecting shaft is provided with an arc-shaped block, arc-shaped supporting plates are arranged on two sides of the arc-shaped block, first rotating connecting holes distributed in an array mode are formed in the arc-shaped supporting plates, wheel bodies distributed in the array mode are arranged between the arc-shaped supporting plates, and the wheel bodies are located in the first rotating connecting holes to rotate.

The first clamping piece is the same as the second clamping piece in structure, and the difference lies in that one end of the wheel body on the first clamping piece is provided with a first gear, the arc-shaped supporting plate of the first clamping piece is provided with second gears distributed in an array in a rotating mode, the second gears and the first gears are distributed alternately, the second gears are in meshing transmission with the first gears, a third U-shaped support is arranged on the arc-shaped supporting plate on one side of the first clamping piece, a first motor is arranged on the third U-shaped support, an output shaft of the first motor is fixedly connected with a third gear, the third gear is fixedly connected with the second gear, and the first motor drives the wheel body to rotate.

Furthermore, the pushing part comprises a fifth cylinder fixed on the second supporting plate, an output shaft of the fifth cylinder is rotatably connected with an end contact part, the end contact part comprises a third connecting block, one end of the third connecting block is provided with a first connecting column, the other end of the third connecting block is provided with a contact block, the first connecting column is provided with a second rotating connecting hole, the contact block is provided with a conical block, and the end contact part is rotatably connected with the output shaft of the fifth cylinder through the second rotating connecting hole.

Further, the material pushing part comprises linear electric cylinders which are symmetrically distributed, the linear electric cylinders are fixed below the discharging guide rod, the material pushing part comprises a sliding connecting piece, the sliding connecting piece comprises a first connecting rod, second connecting rods are arranged at two ends of the first connecting rod, an installation block is arranged below the second connecting rod, and the sliding connecting piece is installed and fixed on a sliding block of the linear electric cylinders through the installation block.

Furthermore, the inclined direction of the inclined guide surface is the same as the inclined direction of the feed hopper and the inclined direction of the discharging guide rod.

Further, the processing technology for processing the pipe body by the processing device is characterized by comprising the following steps:

s1: feeding material

Place the body in the feeder hopper in proper order, through second cylinder drive third supporting shoe upwards removal through the second quad slit, with the body jack-up in the feeder hopper, the body leads to in the second standing groove through the effect of slope spigot surface, and the second cylinder withdrawal is through first cylinder drive body rebound.

S2: one-time positioning

The second motor drives the fifth gear to rotate, so that the mouth expander rotates to the position coaxial with the end contact element, the fifth cylinder drives the end contact element to move, meanwhile, the sixth cylinder drives the driving connecting shaft to move, two ends of the pipe body are respectively positioned through extrusion of the end contact element and the mouth expander, and the first cylinder moves downwards.

S3: clamping of

The third cylinder and the fourth cylinder respectively drive the first clamping piece and the second clamping piece to move so as to clamp the tube body, the sixth cylinder drives the driving connecting shaft to return, the fifth cylinder drives the end contact piece to return, and the effect of the driving connecting shaft and the end contact piece on the tube body is removed.

S4: drive the

The first motor drives the wheel body on the first clamping piece to rotate, so that the pipe body rotates.

S5: inner diameter adjustment/outer diameter adjustment

When the inner diameter is adjusted, the pipe body rotates, the fifth cylinder drives the end contact element, the sixth cylinder drives the driving connecting shaft, the two ends of the pipe body are extruded, meanwhile, the pipe body rotates, and the pipe body is subjected to flaring operation through the flaring device; during the external diameter adjustment, the second motor drives the fifth gear to rotate, so that the cutting part rotates to the position which is coaxial with the end contact part, the fifth cylinder drives the end contact part to move, the sixth cylinder drives the cutting part to move, the external part of the rotating pipe body is adjusted through the cutter, and the size of the pipe body is adjusted through the position of the adjusting clamp on the connecting piece.

S6: returning material

After the pipe body is machined, the first motor stops working, the fifth cylinder drives the end contact element to return, the sixth cylinder drives the driving connecting shaft/cutting element to return, the first cylinder drives the first supporting block to move upwards to enable the second placing groove to be supported below the pipe body, the third cylinder and the fourth cylinder drive the first clamping element and the second clamping element to move respectively to release clamping on the pipe body, the linear electric cylinder drives the sliding connecting piece to move to enable the second connecting rod to be located below the pipe body, the first cylinder drives the first supporting block to move downwards to enable the pipe body to flow out along the second connecting rod, the linear electric cylinder drives the sliding connecting piece to retract, and the operation is repeated to conduct machining operation on the pipe body.

The invention has the beneficial effects that:

1. the PVC pipeline has the advantages that the bulges and the grooves which are distributed at intervals are arranged on the pipe wall of the outer pipe body, the bulges and the grooves have a buffering effect, the shock resistance of the pipe body is improved, and the outer pipe body is contacted with the outside in the using process, so that the service life of the inner pipe body is ensured;

2. the PVC pipeline processing device performs flaring operation through the flaring device or cuts the pipe fitting through the cutting piece, simultaneously meets the adjustment operation of the inner diameter and the outer diameter of the pipe fitting, improves the applicability of equipment, adopts different adjustment modes aiming at different pipe fittings, is beneficial to reducing the damage of the pipe fitting, avoids the waste of the pipe fitting and reduces the cost.

Drawings

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

FIG. 1 is a schematic view of the PVC pipe structure of the present invention;

FIG. 2 is a schematic view of the construction of the processing apparatus of the present invention;

FIG. 3 is a schematic view of the construction of the processing apparatus of the present invention;

FIG. 4 is a schematic view of the support frame of the present invention;

FIG. 5 is a schematic view of the supporting frame of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 5A according to the present invention;

FIG. 7 is a schematic view of the support frame of the present invention;

FIG. 8 is a cross-sectional view of a processing apparatus of the present invention;

FIG. 9 is a schematic view of a second clamp of the present invention;

FIG. 10 is a schematic view of a first clamp of the present invention;

FIG. 11 is a schematic view of an end contact configuration of the present invention;

FIG. 12 is a schematic view of a portion of a tubular body workpiece according to the present invention;

FIG. 13 is a schematic view of the construction of the driving connecting shaft of the present invention;

FIG. 14 is a schematic view of the expander construction of the present invention;

FIG. 15 is a schematic view of a cutting element of the present invention;

FIG. 16 is a schematic view of a connector configuration of the present invention;

FIG. 17 is a schematic view of the clamp construction of the present invention;

fig. 18 is a schematic view of the slip connector configuration of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

High impact resistant PVC pipeline, PVC pipeline include outer body 201 and interior body 203, as shown in fig. 1, are equipped with metal layer 204 between outer body 201 and the interior body 203, and the inner wall of interior body 203 is equipped with antibacterial coating 202, and outer body 201 includes array distribution's arch 2011 and recess 2012, and arch 2011 and recess 2012 distribute alternately.

The metal layer 204 and the outer tube 201 are bonded together by an adhesive, the metal layer 204 and the inner tube 203 are bonded together by an adhesive, and the metal layer 204 is made of iron/copper/aluminum.

The outer tube 201 is made of foam.

The processing device for the high-impact PVC pipeline comprises a support frame 1, as shown in figures 2 and 3, an adjusting pin 2 is arranged below the support frame 1, a feeding part 3 is arranged below the support frame 1, a clamping driving part 4 is arranged on the support frame 1, a pushing part 5 for processing the pipe body is arranged at one end of the support frame 1, a pipe body machining part 6 is arranged at the other end of the support frame 1, and a pushing part 7 is arranged below the support frame 1.

The support frame 1 comprises a workbench 11, as shown in fig. 4 and 5, supporting legs 12 distributed in an array are arranged below the workbench 11, and the adjusting legs 2 are fixed below the supporting legs 12 to adjust the level of the workbench 11.

The working table 11 is provided with a first square hole 13, the working table 11 and both sides of the first square hole 13 are provided with first supporting plates 14, the first supporting plates 14 are provided with first through holes 141 which are symmetrically distributed, one end of the first square hole 13 on the working table 11 is provided with a second supporting plate 15, the other end of the first square hole is provided with a third supporting plate 16, the second supporting plate 15 is provided with a second through hole 151, the third supporting plate 16 is provided with a third through hole 161, as shown in fig. 6, the third supporting plate 16 is provided with a sliding supporting block 162, the sliding supporting block 162 is provided with a sliding groove 163, one side of the third supporting plate 16 is provided with a first U-shaped bracket 164, and the first U-shaped bracket 164 is provided with.

The fourth support plate 17 is disposed on the table 11, and a fifth through hole 171 is disposed on the fourth support plate 17.

A second U-shaped bracket 18 is arranged below the working table 11, as shown in fig. 7, a sixth through hole 181 is arranged on the second U-shaped bracket 18, and the second U-shaped bracket 18 is located below the first square hole 13.

Feed hopper 19 that the below of workstation 11, one side of second U type support 18 were equipped with the slope and distribute is equipped with first connecting block 191 between feed hopper 19 and the second U type support 18, and first connecting block 191 is located feed hopper 19's one end and carries on spacingly to the body, is equipped with second connecting block 193 on the first connecting block 191, is equipped with seventh through hole 194 on the second connecting block 193, is equipped with second quad slit 192 on the feed hopper 19.

First supporting rods 101 which are symmetrically distributed are arranged below the workbench 11, the first supporting rods 101 and the feed hopper 19 are respectively positioned at two sides of the second U-shaped support 18, second supporting rods 102 are arranged between the first supporting rods 101, symmetrically distributed discharge guide rods 103 are arranged on the second supporting rods 102, and the discharge guide rods 103 are obliquely distributed.

The feeding member 3 includes a first cylinder 31, as shown in fig. 8, the first cylinder 31 is fixed below the second U-shaped bracket 18, an output shaft of the second U-shaped bracket 18 is fixedly connected with a first supporting block 32 through a sixth through hole 181, and a second placing groove 33 is arranged on the first supporting block 32.

The feeding part 3 comprises a second cylinder 34, the second cylinder 34 is fixed below a second connecting block 193, an output shaft of the second cylinder 34 penetrates through a seventh through hole 194 to be fixedly connected with a third supporting block 35, an inclined guide surface 36 is arranged on the third supporting block 35, and the inclined direction of the inclined guide surface 36 is the same as the inclined direction of the feeding hopper 19 and the discharging guide rod 103.

The clamping driving member 4 comprises a third cylinder 41 and a fourth cylinder 42 which are symmetrically distributed, the third cylinder 41 and the fourth cylinder 42, the third cylinder 41 is fixed on the first supporting plate 14 on one side, and the fourth cylinder 42 is fixed on the first supporting plate 14 on the other side.

The output shaft of the third cylinder 41 is fixedly connected to the first clamping member 44 through the first through hole 141, and the output shaft of the fourth cylinder 42 is fixedly connected to the second clamping member 43 through the first through hole 141.

The second clamping member 43 includes a first connecting shaft 431, as shown in fig. 9, one end of the first connecting shaft 431 is fastened to the output shaft of the fourth cylinder 42, the other end of the first connecting shaft is provided with an arc block 432, two sides of the arc block 432 are provided with arc support plates 433, the arc support plates 433 are provided with first rotation connecting holes 434 distributed in an array manner, wheel bodies 435 distributed in an array manner are arranged between the arc support plates 433, and the wheel bodies 435 are located in the first rotation connecting holes 434 for rotation.

The first clamping member 44 and the second clamping member 43 have the same structure, and the difference is that a first gear 442 is disposed at one end of a wheel body 435 on the first clamping member 44, as shown in fig. 10, second gears 441 are disposed on an arc-shaped supporting plate 433 of the first clamping member 44 in a rotating manner and distributed in an array, the second gears 441 and the first gears 442 are distributed at intervals, the second gears 441 and the first gears 442 are in meshing transmission, a third U-shaped bracket 443 is disposed on the arc-shaped supporting plate 433 on one side of the first clamping member 44, a first motor 444 is disposed on the third U-shaped bracket 443, an output shaft of the first motor 444 is fixedly connected to the third gear 445, the third gear 445 and the second gear 441 are fixedly connected, and the first motor 444 drives the wheel body 435 to rotate.

The pushing member 5 includes a fifth cylinder 51, the fifth cylinder 51 is fixed on the second support plate 15, an output shaft of the fifth cylinder 51 is rotatably connected with an end contact member 52, the end contact member 52 includes a third connection block 521, as shown in fig. 11, one end of the third connection block 521 is provided with a first connection column 522, the other end is provided with a contact block 524, the first connection column 522 is provided with a second rotation connection hole 523, the contact block 524 is provided with a tapered block 525, and the end contact member 52 is rotatably connected with the output shaft of the fifth cylinder 51 through the second rotation connection hole 523.

The pipe body machining part 6 comprises a sixth cylinder 61, as shown in fig. 12 and 13, the sixth cylinder 61 is fixed on a fourth supporting plate 17, an output shaft of the sixth cylinder 61 passes through a fifth through hole 171 and is rotatably connected with a driving connecting shaft 62, a limiting block 612 is arranged on an output shaft of the sixth cylinder 61, the driving connecting shaft 62 comprises a second connecting shaft 621, one end of the second connecting shaft 621 is provided with a square frame body 622, the other end of the second connecting shaft is provided with a connecting plate 623, a third rotating connecting hole 624 is formed in the square frame body 622, a second connecting column 626 in symmetrical distribution is arranged on the connecting plate 623, and a fourth gear 625 is arranged on the second connecting.

The tubular body work piece 6 comprises a toothed rack 63, the toothed rack 63 sliding in a slide 163.

The first U-shaped bracket 164 is provided with a second motor 64, an output shaft of the second motor 64 passes through the fourth through hole 165 and is tightly connected with a fifth gear 641, and the fifth gear 641 and a fourth gear 625 are in meshing transmission with the rack 63.

The second connecting column 626 on one side is provided with a flaring device 65 and the second connecting column 626 on the other side is provided with a cutting element 66.

The expander 65 comprises an expander body 651, as shown in fig. 14, a third connecting column 652 is provided on the expander body 651, a fixing hole 653 is provided on the third connecting column 652, and the expander 65 is fixed on the second connecting column 626 through the fixing hole 653.

The cutting member 66 includes a connecting member 661, as shown in fig. 15, a clamp 662 is provided on the connecting member 661, and a cutter 663 is provided on the clamp 662.

Connecting piece 661 includes sleeve 6611, as shown in fig. 16, the one end of sleeve 6611 is equipped with fourth spliced pole 6612, be equipped with the through hole 6613 of array distribution on the sleeve 6611, be equipped with fifth backup pad 6614 in the through hole 6613, be equipped with sliding connection hole 6615 on the fifth backup pad 6614, the below of fifth backup pad 6614 is equipped with mounting panel 6616 of symmetric distribution, mounting panel 6616 is located the both sides of sliding connection hole 6615, rotate on the mounting panel 6616 and be equipped with the first set screw 6617 of array distribution, connecting piece 661 is fixed on second spliced pole 626 through fourth spliced pole 6612.

The clamp 662 comprises a clamp block 6621, as shown in fig. 17, a first placing groove 6622 is formed in the clamp block 6621, second fixing screws 6623 distributed in an array are respectively arranged on two sides of the first placing groove 6622, a slider 6624 is arranged below the clamp block 6621, the clamp 662 is located in the sliding connection hole 6615 through the slider 6624 to slide, and the slider 6624 is extruded through the first fixing screw 6617 to fix the clamp 662 on the connecting member 661.

The cutter 663 is placed in the first placement groove 6622, and the cutter 663 is pressed and fixed by the second fixing screw 6623.

The pushing member 7 includes linear electric cylinders 71 which are symmetrically distributed, the linear electric cylinders 71 are fixed below the discharging guide rod 103, the pushing member 7 includes a sliding connecting member 72, the sliding connecting member 72 includes a first connecting rod 721, as shown in fig. 18, two ends of the first connecting rod 721 are both provided with a second connecting rod 722, an installation block 723 is arranged below the second connecting rod 722, and the sliding connecting member 72 is installed and fixed on a sliding block of the linear electric cylinder 71 through the installation block 723.

The processing technology of the high impact PVC pipeline comprises the following steps:

s1: feeding material

The tubes are sequentially placed in the feed hopper 19, the third supporting block 35 is driven by the second air cylinder 34 to move upwards to pass through the second square hole 192, the tubes in the feed hopper 19 are jacked up, the tubes are guided into the second placing groove 33 through the effect of the inclined guide surface 36, the second air cylinder 34 retracts, and the tubes are driven by the first air cylinder 31 to move upwards.

S2: one-time positioning

The second motor 64 drives the fifth gear 641 to rotate, so that the expander 65 rotates to a position coaxial with the end contact piece 52, the fifth cylinder 51 drives the end contact piece 52 to move, the sixth cylinder 61 drives the driving connecting shaft 62 to move, the two ends of the pipe body are respectively pressed and positioned with the expander 65 through the end contact piece 52, and the first cylinder 31 moves downwards.

S3: clamping of

The third cylinder 41 and the fourth cylinder 42 drive the first clamping piece 44 and the second clamping piece 43 to move respectively to clamp the pipe body, the sixth cylinder 61 drives the driving connecting shaft 62 to retract, the fifth cylinder 51 drives the end contact piece 52 to retract, and the action of the driving connecting shaft 62 and the end contact piece 52 on the pipe body is released.

S4: drive the

The first motor 444 drives the wheel 435 on the first clamping member 44 to rotate, so that the tube rotates.

S5: inner diameter adjustment/outer diameter adjustment

When the inner diameter is adjusted, the pipe body rotates, the fifth air cylinder 51 drives the end contact element 52, the sixth air cylinder 61 drives the driving connecting shaft 62, the two ends of the pipe body are extruded, and meanwhile, the pipe body rotates, and flaring operation is carried out on the pipe body through the flaring device 65; when the outer diameter is adjusted, the second motor 64 drives the fifth gear 641 to rotate, so that the cutting member 66 rotates to a position coaxial with the end contact member 52, the fifth air cylinder 51 drives the end contact member 52 to move, the sixth air cylinder 61 drives the cutting member 66 to move, the outside of the rotating pipe body is adjusted through the cutter 663, and the size of the pipe body is adjusted through the position of the adjusting clamp 662 on the connecting member 661.

S6: returning material

After the pipe is machined, the first motor 444 stops working, the fifth air cylinder 51 drives the end contact piece 52 to retract, the sixth air cylinder 61 drives the driving connecting shaft 62/the cutting piece 66 to retract, the first air cylinder 31 drives the first supporting block 32 to move upwards, the second placing groove 33 is supported below the pipe, the third air cylinder 41 and the fourth air cylinder 42 respectively drive the first clamping piece 44 and the second clamping piece 43 to move, clamping on the pipe is released, the linear electric cylinder 71 drives the sliding connection piece 72 to move, the second connecting rod 722 is located below the pipe, the first air cylinder 31 drives the first supporting block 32 to move downwards, the pipe flows out along the second connecting rod 722, the linear electric cylinder 71 drives the sliding connection piece 72 to retract, and the operation is repeated to machine the pipe.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (10)

1. The high-impact-resistance PVC pipeline is characterized by comprising an outer pipe body (201) and an inner pipe body (203), wherein a metal layer (204) is arranged between the outer pipe body (201) and the inner pipe body (203), an antibacterial coating (202) is arranged on the inner wall of the inner pipe body (203), the outer pipe body (201) comprises bulges (2011) and grooves (2012) which are distributed in an array manner, and the bulges (2011) and the grooves (2012) are distributed at intervals;

the metal layer (204) and the outer pipe body (201) are bonded together through an adhesive, the metal layer (204) and the inner pipe body (203) are bonded together through an adhesive, and the metal layer (204) is made of iron/copper/aluminum;

the outer tube body (201) is made of foam materials.

2. The processing device of the high impact PVC pipeline according to claim 1, wherein the processing device comprises a support frame (1), a feeding part (3) is arranged below the support frame (1), a clamping driving part (4) is arranged on the support frame (1), a pushing part (5) for processing the pipe body is arranged at one end of the support frame (1), a pipe body machining part (6) is arranged at the other end of the support frame (1), and a pushing part (7) is arranged below the support frame (1);

the pipe body machining part (6) comprises a sixth air cylinder (61), an output shaft of the sixth air cylinder (61) is rotatably connected with a driving connecting shaft (62), an output shaft of the sixth air cylinder (61) is provided with a limiting block (612), the driving connecting shaft (62) comprises a second connecting shaft (621), one end of the second connecting shaft (621) is provided with a square frame body (622), the other end of the second connecting shaft (621) is provided with a connecting plate (623), the square frame body (622) is provided with a third rotating connecting hole (624), the connecting plate (623) is provided with symmetrically distributed second connecting columns (626), and the second connecting shaft (621) is provided with a fourth gear (625;

the pipe body machining part (6) comprises a rack (63) and a second motor (64), the rack (63) is located in the sliding groove (163) to slide, an output shaft of the second motor (64) is fixedly connected with a fifth gear (641), and the fifth gear (641) and a fourth gear (625) are in meshing transmission with the rack (63);

a flaring device (65) is arranged on the second connecting column (626) on one side, and a cutting piece (66) is arranged on the second connecting column (626) on the other side;

the flaring device (65) comprises a flaring device main body (651), a third connecting column (652) is arranged on the flaring device main body (651), a fixing hole (653) is arranged on the third connecting column (652), and the flaring device (65) is fixed on the second connecting column (626) through the fixing hole (653);

the cutting part (66) comprises a connecting part (661), a clamp (662) is arranged on the connecting part (661), and a cutter (663) is arranged on the clamp (662);

the connecting piece (661) comprises a sleeve (6611), one end of the sleeve (6611) is provided with a fourth connecting column (6612), the sleeve (6611) is provided with through holes (6613) distributed in an array manner, a fifth supporting plate (6614) is arranged in the through holes (6613), the fifth supporting plate (6614) is provided with sliding connecting holes (6615), the lower part of the fifth supporting plate (6614) is provided with mounting plates (6616) distributed symmetrically, the mounting plates (6616) are positioned at two sides of the sliding connecting holes (6615), the mounting plates (6616) are rotatably provided with first fixing screw rods (6617) distributed in an array manner, and the connecting piece (661) is fixed on the second connecting column (626) through the fourth connecting column (6612);

the clamp (662) comprises a clamping block (6621), a first placing groove (6622) is formed in the clamping block (6621), second fixing screw rods (6623) distributed in an array mode are arranged on two sides of the first placing groove (6622), a sliding block (6624) is arranged below the clamping block (6621), the clamp (662) is located in the sliding connecting hole (6615) through the sliding block (6624) to slide in, and the sliding block (6624) is extruded through the first fixing screw rods (6617) to fix the clamp (662) on the connecting piece (661);

the cutter (663) is placed in the first placing groove (6622) and is extruded and fixed to the cutter (663) through the second fixing screw rod (6623).

3. The processing device of the high impact PVC pipeline according to claim 2, wherein the support frame (1) comprises a workbench (11), and support feet (12) distributed in an array are arranged below the workbench (11);

a first square hole (13) is formed in the workbench (11), first supporting plates (14) are arranged on the workbench (11) and on two sides of the first square hole (13), first through holes (141) are symmetrically distributed in the first supporting plates (14), a second supporting plate (15) is arranged on the workbench (11) and at one end of the first square hole (13), a third supporting plate (16) is arranged at the other end of the first square hole, second through holes (151) are formed in the second supporting plate (15), third through holes (161) are formed in the third supporting plate (16), a sliding supporting block (162) is arranged on the third supporting plate (16), a sliding groove (163) is formed in the sliding supporting block (162), a first U-shaped support (164) is arranged on one side of the third supporting plate (16), and a fourth through hole (165) is formed in the first U-shaped support (164);

a fourth supporting plate (17) is arranged on the workbench (11), and a fifth through hole (171) is formed in the fourth supporting plate (17);

a second U-shaped support (18) is arranged below the workbench (11), a sixth through hole (181) is formed in the second U-shaped support (18), and the second U-shaped support (18) is located below the first square hole (13);

a feeding hopper (19) which is distributed obliquely is arranged below the workbench (11) and on one side of the second U-shaped support (18), a first connecting block (191) is arranged between the feeding hopper (19) and the second U-shaped support (18), one end, located at the feeding hopper (19), of the first connecting block (191) limits the position of the pipe body, a second connecting block (193) is arranged on the first connecting block (191), a seventh through hole (194) is formed in the second connecting block (193), and a second square hole (192) is formed in the feeding hopper (19);

the lower part of workstation (11) is equipped with first bracing piece (101) of symmetric distribution, and first bracing piece (101) are located the both sides of second U type support (18) respectively with feeder hopper (19), are equipped with second bracing piece (102) between first bracing piece (101), are equipped with symmetric distribution's ejection of compact guide bar (103) on second bracing piece (102), ejection of compact guide bar (103) slope distribution.

4. The processing device of the high impact PVC pipeline according to the claim 3, characterized in that the adjusting foot (2) is arranged under the supporting frame (1), and the adjusting foot (2) is fixed under the supporting foot (12) to adjust the level of the workbench (11).

5. The processing device of the high impact PVC pipeline according to claim 3, wherein the feeding part (3) comprises a first air cylinder (31), the first air cylinder (31) is fixed below the second U-shaped bracket (18), an output shaft of the second U-shaped bracket (18) is fixedly connected with a first supporting block (32) through a sixth through hole (181), and a second placing groove (33) is arranged on the first supporting block (32);

the feeding part (3) comprises a second cylinder (34), the second cylinder (34) is fixed below a second connecting block (193), an output shaft of the second cylinder (34) penetrates through a seventh through hole (194) to be fixedly connected with a third supporting block (35), and an inclined guide surface (36) is arranged on the third supporting block (35).

6. The processing device of the high impact PVC pipe according to claim 3, wherein the clamping driving member (4) comprises a third cylinder (41) and a fourth cylinder (42) which are symmetrically distributed, the third cylinder (41) and the fourth cylinder (42) are fixed on the first supporting plate (14) on one side, and the fourth cylinder (42) is fixed on the first supporting plate (14) on the other side;

an output shaft of the third cylinder (41) passes through the first through hole (141) and is connected with a first clamping piece (44) in a fastening mode, and an output shaft of the fourth cylinder (42) passes through the first through hole (141) and is connected with a second clamping piece (43) in a fastening mode;

the second clamping piece (43) comprises a first connecting shaft (431), one end of the first connecting shaft (431) is fixedly connected with an output shaft of the fourth cylinder (42), an arc-shaped block (432) is arranged at the other end of the first connecting shaft, arc-shaped supporting plates (433) are arranged on two sides of the arc-shaped block (432), first rotating connecting holes (434) distributed in an array are formed in the arc-shaped supporting plates (433), wheel bodies (435) distributed in an array are arranged between the arc-shaped supporting plates (433), and the wheel bodies (435) are located in the first rotating connecting holes (434) and rotate;

the first clamping piece (44) and the second clamping piece (43) are identical in structure, and the difference is that one end of an upper wheel body (435) of the first clamping piece (44) is provided with a first gear (442), second gears (441) distributed in an array mode are arranged on an arc supporting plate (433) of the first clamping piece (44) in a rotating mode, the second gears (441) and the first gears (442) are distributed at intervals, the second gears (441) and the first gears (442) are in meshed transmission, a third U-shaped support (443) is arranged on the arc supporting plate (433) on one side of the first clamping piece (44), a first motor (444) is arranged on the third U-shaped support (443), an output shaft of the first motor (444) is fixedly connected with the third gear (445), the third gear (445) is fixedly connected with the second gear (441), and the first motor (444) drives the wheel body (435) to rotate.

7. The processing device of the high impact PVC pipeline according to claim 3, wherein the pushing member (5) comprises a fifth cylinder (51), the fifth cylinder (51) is fixed on the second support plate (15), an output shaft of the fifth cylinder (51) is rotatably connected with an end contact member (52), the end contact member (52) comprises a third connecting block (521), one end of the third connecting block (521) is provided with a first connecting column (522), the other end of the third connecting block is provided with a contact block (524), the first connecting column (522) is provided with a second rotating connecting hole (523), the contact block (524) is provided with a conical block (525), and the end contact member (52) is rotatably connected with the output shaft of the fifth cylinder (51) through the second rotating connecting hole (523).

8. The processing device of the high impact PVC pipeline according to claim 3, wherein the material pushing part (7) comprises symmetrically distributed linear electric cylinders (71), the linear electric cylinders (71) are fixed below the discharging guide rod (103), the material pushing part (7) comprises a sliding connecting part (72), the sliding connecting part (72) comprises a first connecting rod (721), two ends of the first connecting rod (721) are provided with second connecting rods (722), a mounting block (723) is arranged below the second connecting rod (722), and the sliding connecting part (72) is mounted and fixed on a sliding block of the linear electric cylinders (71) through the mounting block (723).

9. Processing plant for high impact PVC piping according to claim 5, characterized in that the inclined direction of the inclined guide surface (36) is the same as the inclined direction of the feed hopper (19) and the discharge guide bar (103).

10. The machining process for machining the pipe body by the machining device according to any one of claims 2 to 9, wherein the machining process comprises the following steps:

s1: feeding material

The pipe bodies are sequentially placed in a feed hopper (19), a third supporting block (35) is driven to move upwards through a second square hole (192) through a second air cylinder (34) to jack up the pipe bodies in the feed hopper (19), the pipe bodies are guided into a second placing groove (33) through the effect of an inclined guide surface (36), the second air cylinder (34) retracts, and the pipe bodies are driven to move upwards through a first air cylinder (31);

s2: one-time positioning

The second motor (64) drives the fifth gear (641) to rotate, so that the mouth expander (65) rotates to a position coaxial with the end contact piece (52), the fifth cylinder (51) drives the end contact piece (52) to move, meanwhile, the sixth cylinder (61) drives the driving connecting shaft (62) to move, two ends of the pipe body are respectively positioned with the mouth expander (65) in a pressing mode through the end contact piece (52), and the first cylinder (31) moves downwards;

s3: clamping of

The third air cylinder (41) and the fourth air cylinder (42) respectively drive the first clamping piece (44) and the second clamping piece (43) to move so as to clamp the pipe body, the sixth air cylinder (61) drives the driving connecting shaft (62) to retract, the fifth air cylinder (51) drives the end contact piece (52) to retract, and the effect of the driving connecting shaft (62) and the end contact piece (52) on the pipe body is relieved;

s4: drive the

A first motor (444) drives a wheel body (435) on the first clamping piece (44) to rotate, so that the pipe body rotates;

s5: inner diameter adjustment/outer diameter adjustment

When the inner diameter is adjusted, the pipe body rotates, the fifth air cylinder (51) drives the end contact piece (52), the sixth air cylinder (61) drives the driving connecting shaft (62), the two ends of the pipe body are extruded, meanwhile, the pipe body rotates, and flaring operation is carried out on the pipe body through the flaring device (65); when the outer diameter is adjusted, the second motor (64) drives the fifth gear (641) to rotate, so that the cutting piece (66) rotates to a position coaxial with the end contact piece (52), the fifth air cylinder (51) drives the end contact piece (52) to move, the sixth air cylinder (61) drives the cutting piece (66) to move, the outside of the rotating pipe body is adjusted through the cutter (663), and the size of the pipe body is adjusted through the position of the adjusting clamp (662) on the connecting piece (661);

s6: returning material

After the pipe body is machined, the first motor (444) stops working, the fifth air cylinder (51) drives the end contact piece (52) to retract, the sixth air cylinder (61) drives the driving connecting shaft (62)/the cutting piece (66) to retract, the first air cylinder (31) drives the first supporting block (32) to move upwards, the second placing groove (33) is supported below the pipe body, the third air cylinder (41) and the fourth air cylinder (42) respectively drive the first clamping piece (44) and the second clamping piece (43) to move, clamping on the pipe body is released, the linear electric cylinder (71) drives the sliding connecting piece (72) to move, so that the second connecting rod (722) is positioned below the pipe body, the first air cylinder (31) drives the first supporting block (32) to move downwards, so that the pipe body flows out along the second connecting rod (722), the linear electric cylinder (71) drives the sliding connecting piece (72) to retract, and the operation is repeated to process the pipe body.

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