CN111086055A

CN111086055A - Plastic conduit cutting device based on electric automation

Info

Publication number: CN111086055A
Application number: CN201911121802.7A
Authority: CN
Inventors: 闫志伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2020-05-01

Abstract

The invention discloses a plastic pipeline cutting device based on electric automation, which comprises an operation table and a plurality of cross beams, wherein the cross beams are positioned right above the operation table, the lower ends of the cross beams are fixedly provided with lifting plates through second electric-hydraulic push rods, the lifting plates are positioned between the operation table and the cross beams, and the number of the second electric-hydraulic push rods is multiple; the lower end of the cross beam and the upper end of the operating platform are respectively provided with a pressing structure and a supporting transmission structure, and the pressing structure comprises a fixed rod, a fixed groove, a first electro-hydraulic push rod, a cutting machine, a supporting cylinder and a pressing wheel; and a supporting cylinder is fixedly arranged on the surface of the lower end of the lifting plate. The invention can realize the automatic conveying of the pipeline by arranging the plurality of driving wheels and the guide wheels on the surface of the operating platform, and meanwhile, the counting switch arranged on the rear side of the driving wheels can realize the control of the length of the conveying pipeline according to the principle that the circumferences of each circle of rotation of the driving wheels are the same, so that the cutting machine can accurately cut the pipeline into the specified length.

Description

Plastic conduit cutting device based on electric automation

Technical Field

The invention relates to the technical field of electrical automation, in particular to a plastic pipeline cutting device based on electrical automation.

Background

At present, electrical engineering and the automation major thereof are emerging subjects in the field of electrical information, but because of being closely related to daily life and industrial production of people, the development is very rapid, and the automation major is relatively mature at present, the automation major becomes an important component of high-tech industries, is widely applied to the fields of industry, agriculture, national defense and the like, and plays an increasingly important role in national economy.

People all are manual operation to the cutting of plastic conduit before electric automatization is not popularized, it is fixed with the pipeline through dedicated anchor clamps, then measure the pipeline of appointed length and make the mark again, reuse cutting machine cuts off the pipeline along marking department at last, the automatic fixed and the function of cutting off to the pipeline of can only realizing to the mechanical equipment of pipeline cutting at present, the pipeline of support length of still can not accurate selection cuts, still need artifical detection control length, can not be automatic behind the cut-off pipeline carry to the lower extreme of cutting machine the operation of cutting continues. Therefore, we propose a plastic pipe cutting device based on electrical automation.

Disclosure of Invention

The invention aims to provide an electric automation-based plastic pipeline cutting device, which can realize automatic pipeline conveying by arranging a plurality of driving wheels and guide wheels on the surface of an operation table, and can realize the control of the length of a conveying pipeline according to the principle that the circumferences of every circle of rotation of the driving wheels are the same because of a counting switch arranged on the rear side of the driving wheels, so that a cutting machine can accurately cut the pipeline into a specified length, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a plastic pipeline cutting device based on electric automation comprises an operation table and a plurality of cross beams, wherein the cross beams are positioned right above the operation table, lifting plates are fixed at the lower ends of the cross beams through second electric-hydraulic push rods, the lifting plates are positioned between the operation table and the cross beams, and the number of the second electric-hydraulic push rods is multiple; the lower end of the beam and the upper end of the operating platform are respectively provided with a pressing structure and a supporting transmission structure;

the pressing structure comprises a fixed rod, a fixed groove, a first electro-hydraulic push rod, a cutting machine, a support cylinder and a pressing wheel; the surface of the lower end of the lifting plate is fixedly provided with three supporting cylinders, the bottom of each supporting cylinder is provided with a pressing wheel through a second fixing plate, the pressing wheels are rotatably fixed at the bottom of the second fixing plate through supporting plates on the front side and the rear side, the lower end of the lifting plate between the supporting cylinders on the left side is fixedly provided with two fixing grooves through fixing rods, and the lower end of the lifting plate between the two fixing grooves is fixedly provided with a cutting machine through a first electro-hydraulic push rod;

the supporting transmission structure comprises a guide wheel, a driving wheel, a transmission disc, a counting switch, a bump and a servo motor; leading wheel and drive wheel are a plurality ofly, and a plurality of leading wheels and a plurality of drive wheel pass through the backup pad in turn rotatable fix in the upper end of operation panel, and the equal transmission of front side of drive wheel is fixed with the driving disc, servo motor fixes the operation panel front side at the drive wheel lower extreme, and is connected through belt transmission between servo motor and the driving disc, and leftmost the drive wheel rear side transmission is fixed with the lug, and the backup pad fixed surface of lug lower extreme has the count switch, supports in the cell body of leading wheel and drive wheel upper end and is fixed with the pipeline.

As a preferred embodiment of the present invention, an industrial vacuum cleaner is disposed at the lower end of the console, a dust hood is fixed at the rear side of the console at the lower end of the rear side of the cutting machine, the dust hood is communicated with the industrial vacuum cleaner through a dust suction pipe, and the industrial vacuum cleaner is electrically connected to an external power supply device.

As a preferred embodiment of the present invention, a connecting rod is inserted and fixed in the supporting cylinder, the second fixing plate for fixing the pressing wheel is connected to the bottom of the connecting rod, the connecting rod is fixed in the supporting cylinder through a limiting block at the upper end, and a spring is connected and fixed between the top of the connecting rod and the supporting cylinder.

As a preferred embodiment of the present invention, the vertical height of the fixing groove is greater than the vertical height of the pressing wheel, and rubber pads are attached and fixed in the groove bodies on the surfaces of the fixing groove, the pressing wheel, the driving wheel and the guide wheel.

As a preferred embodiment of the present invention, the cutting machine is fixedly mounted at the bottom of the first electro-hydraulic push rod through a first fixing plate, and the first fixing plate is fixed at the bottom of the first electro-hydraulic push rod through welding.

In a preferred embodiment of the present invention, a third fixing plate is welded and fixed to a front side of the operation table at a lower end of the servo motor, and the servo motor is supported and fixed to an upper end of the third fixing plate.

As a preferred embodiment of the present invention, the upper end of the fixing groove is fixedly connected to the bottom of the fixing rod by welding.

In a preferred embodiment of the present invention, a plurality of support legs are supported and fixed on both sides of the bottom of the operating platform.

As a preferred embodiment of the invention, the first electro-hydraulic push rod, the second electro-hydraulic push rod, the servo motor and the cutting machine are all connected with a control computer, and the output end of the counting switch is connected with the input end of the control computer.

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

1. according to the plastic pipeline cutting device based on electric automation, the plurality of driving wheels and the plurality of guide wheels are arranged on the surface of the operating platform, so that automatic conveying of pipelines can be achieved, meanwhile, due to the counting switch arranged on the rear side of each driving wheel, the length of the conveying pipeline can be controlled according to the principle that the circumferences of each circle of rotation of the driving wheels are the same, and the pipeline can be accurately cut into the specified length by the cutting machine.

2. According to the plastic pipeline cutting device based on electric automation, the industrial dust collector is arranged at the lower end of the operating platform, the dust hood is fixed on the rear side of the operating platform at the lower end of the rear side of the cutting machine and communicated with the industrial dust collector through the dust collection pipe, the industrial dust collector is electrically connected with external power supply equipment, when the cutting machine is used for cutting a pipeline, the dust hood located on the rear side of the cutting position can suck dust generated by cutting by matching with the industrial dust collector, and pollution of the dust to the surrounding environment is avoided.

3. According to the plastic pipeline cutting device based on electric automation, the connecting rod is fixedly inserted into the supporting barrel, the second fixing plate for fixing the pressing wheel is connected to the bottom of the connecting rod, the connecting rod is fixed inside the supporting barrel through the limiting block at the upper end, the spring is fixedly connected between the top of the connecting rod and the supporting barrel, the pressing wheel is fixed to the bottom of the connecting rod inserted into the supporting barrel, the connecting rod is pressed downwards under the action of the spring, the pressing wheel can be tightly pressed on the upper end of the pipeline, and the pipeline can be smoothly conveyed.

4. According to the plastic pipeline cutting device based on electric automation, the vertical height of the fixing groove is larger than that of the pressing wheel, the rubber pads are fixedly attached to the inside of the groove bodies on the surfaces of the fixing groove, the pressing wheel, the driving wheel and the guide wheel, when the height of the fixing groove is larger than that of the pressing wheel, the fixing groove can not limit the movement of a pipeline when the pressing wheel supports the pipeline, and the rubber pads can guarantee that the anti-skidding effect among the fixing groove, the pressing wheel, the driving wheel, the guide wheel and the pipeline is obvious.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of the overall structure of an electrical automation-based plastic pipe cutting device according to the present invention;

FIG. 2 is a schematic view of a pinch roller and a guide wheel fixed pipeline structure of the plastic pipeline cutting device based on electric automation;

fig. 3 is a schematic view of a fixing groove structure of the plastic pipe cutting device based on electric automation according to the present invention;

FIG. 4 is a schematic view of a bump and a counter switch fixing structure of the plastic pipe cutting device based on electrical automation according to the present invention;

fig. 5 is a schematic circuit connection structure diagram of the plastic pipe cutting device based on electric automation.

In the figure: 1. an operation table; 2. a cross beam; 3. a lifting plate; 4. fixing the rod; 5. fixing grooves; 6. a first electro-hydraulic push rod; 7. a first fixing plate; 8. a cutter; 9. a dust hood; 10. a spring; 11. a support cylinder; 12. a second fixing plate; 13. a pinch roller; 14. a second electro-hydraulic push rod; 15. a pipeline; 16. a dust collection pipe; 17. industrial vacuum cleaners; 18. a connecting rod; 19. a guide wheel; 20. a drive wheel; 21. a drive plate; 22. a third fixing plate; 23. a servo motor; 24. a belt; 25. a support plate; 26. a support leg; 27. a rubber pad; 28. a bump; 29. and a counting switch.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a technical solution: a plastic pipeline cutting device based on electric automation comprises an operation table 1 and a plurality of cross beams 2, wherein the cross beams 2 are located right above the operation table 1, lifting plates 3 are fixed at the lower ends of the cross beams 2 through second electric-hydraulic push rods 14, the lifting plates 3 are located between the operation table 1 and the cross beams 2, and the number of the second electric-hydraulic push rods 14 is multiple; the lower end of the beam 2 and the upper end of the operating platform 1 are respectively provided with a pressing structure and a supporting transmission structure;

the pressing structure comprises a fixed rod 4, a fixed groove 5, a first electro-hydraulic push rod 6, a cutting machine 8, a support cylinder 11 and a pressing wheel 13; the surface of the lower end of the lifting plate 3 is fixedly provided with three supporting cylinders 11, the bottom of each supporting cylinder 11 is provided with a pressing wheel 13 through a second fixing plate 12, the pressing wheels 13 are rotatably fixed at the bottom of the second fixing plate 12 through supporting plates 25 on the front side and the rear side, the lower end of the lifting plate 3 between the supporting cylinders 11 on the left side is fixedly provided with two fixing grooves 5 through fixing rods 4, and the lower end of the lifting plate 3 between the two fixing grooves 5 is fixedly provided with a cutting machine 8 through a first electro-hydraulic push rod 6;

the supporting transmission structure comprises a guide wheel 19, a driving wheel 20, a transmission disc 21, a counting switch 29, a bump 28 and a servo motor 23; the guide wheels 19 and the driving wheels 20 are multiple, the guide wheels 19 and the driving wheels 20 are alternately and rotatably fixed at the upper end of the operating table 1 through supporting plates 25, a transmission disc 21 is fixed on the front side of each driving wheel 20 in a transmission mode, the servo motor 23 is fixed on the front side of the operating table 1 at the lower end of each driving wheel 20, the servo motor 23 is connected with the transmission disc 21 in a transmission mode through a belt 24, a convex block 28 is fixed on the rear side of the leftmost driving wheel 20 in a transmission mode, a counting switch 29 is fixed on the surface of the supporting plate 25 at the lower end of the convex block 28, and a pipeline 15 is fixedly supported in groove bodies at the upper ends of the guide wheels.

In this embodiment (see fig. 1, 2, 3, and 4), a plurality of driving wheels 20 and guide wheels 19 are disposed on the surface of the operating table 1, so that the pipeline 15 can be automatically conveyed, and the counting switch 29 disposed at the rear side of the driving wheels 20 can control the length of the pipeline 15 according to the principle that the circumferences of each rotation of the driving wheels 20 are the same, so that the cutting machine 8 can precisely cut the pipeline 15 into a specific length.

The industrial dust collector 17 is arranged at the lower end of the operating platform 1, the dust hood 9 is fixed on the rear side of the operating platform 1 at the lower end of the rear side of the cutting machine 8, the dust hood 9 is communicated with the industrial dust collector 17 through the dust suction pipe 16, and the industrial dust collector 17 is electrically connected with external power supply equipment.

In this embodiment (please refer to fig. 1), an industrial vacuum cleaner 17 is disposed at the lower end of the console 1, a dust hood 9 is fixed at the rear side of the console 1 at the lower end of the rear side of the cutting machine 8, the dust hood 9 is communicated with the industrial vacuum cleaner 17 through a dust suction pipe 16, and the industrial vacuum cleaner 17 is electrically connected with an external power supply device, when the cutting machine 8 is used for cutting the pipeline 15, the dust hood 9 located at the rear side of the cutting position can suck dust generated by cutting in cooperation with the industrial vacuum cleaner 17, so as to prevent the dust from polluting the surrounding environment.

A connecting rod 18 is inserted and fixed in the supporting cylinder 11, the second fixing plate 12 for fixing the pressing wheel 13 is connected to the bottom of the connecting rod 18, the connecting rod 18 is fixed in the supporting cylinder 11 through a limiting block at the upper end, and a spring 10 is connected and fixed between the top of the connecting rod 18 and the supporting cylinder 11.

In this embodiment (please refer to fig. 1), a connecting rod 18 is fixed through inserting inside of a supporting cylinder 11, and the second fixing plate 12 of the fixed pinch roller 13 is connected at the bottom of the connecting rod 18, the connecting rod 18 is fixed inside the supporting cylinder 11 through the limiting block of the upper end, and the top of the connecting rod 18 is connected and fixed with the spring 10 with the supporting cylinder 11, make the pinch roller 13 fix the connecting rod 18 bottom inserted in the supporting cylinder 11, push down the connecting rod 18 under the effect of the spring 10, can guarantee that the pinch roller 13 is inseparabler to press at the upper end of the pipeline 15, guarantee that the pipeline 15 can be smoothly transported.

The vertical height of the fixed groove 5 is greater than that of the pressing wheel 13, and rubber pads 27 are attached and fixed in groove bodies on the surfaces of the fixed groove 5, the pressing wheel 13, the driving wheel 20 and the guide wheel 19.

In this embodiment (see fig. 1, 2, and 3), the vertical height of the fixing groove 5 is greater than the vertical height of the pressing wheel 13, and the groove bodies on the surfaces of the fixing groove 5, the pressing wheel 13, the driving wheel 20, and the guide wheel 19 are all attached and fixed with a rubber pad 27, when the height of the fixing groove 5 is greater than the pressing wheel 13, when the pressing wheel 13 supports the pipeline 15, the fixing groove 5 does not limit the movement of the pipeline 15, and the rubber pad 27 can ensure that the anti-slip effect between the fixing groove 5, the pressing wheel 13, the driving wheel 20, the guide wheel 19, and the pipeline 15 is obvious.

The cutting machine 8 is fixedly mounted at the bottom of the first electro-hydraulic push rod 6 through a first fixing plate 7, and the first fixing plate 7 is fixed at the bottom of the first electro-hydraulic push rod 6 in a welding mode.

Wherein, all welded fastening has third fixed plate 22 in the operation panel 1 front side of servo motor 23 lower extreme, and servo motor 23 supports the upper end of fixing at third fixed plate 22.

Wherein, the upper end of the fixed groove 5 is fixedly connected to the bottom of the fixed rod 4 in a welding mode.

Wherein, the both sides of the bottom of operation panel 1 all support fixedly there are stabilizer blades 26, stabilizer blade 26 is a plurality of.

The first electro-hydraulic push rod 6, the second electro-hydraulic push rod 14, the servo motor 23 and the cutting machine 8 are all connected with a control computer, and the output end of the counting switch 29 is connected with the input end of the control computer.

It should be noted that the present invention is an electrical automation-based plastic pipeline cutting device, which includes an operation table 1, a cross beam 2, a lifting plate 3, a fixing rod 4, a fixing groove 5, a first electro-hydraulic push rod 6, a first fixing plate 7, a cutting machine 8, a dust hood 9, a spring 10, a support cylinder 11, a second fixing plate 12, a pressure wheel 13, a second electro-hydraulic push rod 14, a pipeline 15, a dust pipe 16, an industrial dust collector 17, a connecting rod 18, a guide wheel 19, a driving wheel 20, a driving disc 21, a third fixing plate 22, a servo motor 23, a belt 24, a support plate 25, a support leg 26, a rubber pad 27, a bump 28, and a counter switch 29, wherein the components are all common standard components or components known to those skilled in the art, and the structure and principle of the device can be known to those skilled in the art through technical manuals or through conventional experimental methods, when the device works, the pipeline 15 is placed on the upper, then the second electro-hydraulic push rod 14 is driven by a control computer to move downwards, a pinch roller 13 at the lower end of a support cylinder 11 is just supported and fixed at the upper end of a pipeline 15, then a servo motor 23 is started to drive a driving wheel 20 to rotate, the driving wheel 20 can drive the pipeline 15 to slowly move towards the right side at the upper end of the operating platform 1 when rotating, in the rotating process of the driving wheel 20, the protruding end of a lug 28 contacts a counting switch 29 once when rotating for one circle, because the circumference of the driving wheel 20 is fixed, the conveyed length of the pipeline 15 is the circumference of the driving wheel 20 when counting once, according to the principle, after the counting switch 29 records the number of contact times, the length of the conveying pipeline 15 can be known until the length is the same as the required length, the servo motor 23 stops the rotation of the driving wheel 20 and a guide wheel 19, so that the conveying of the pipeline 15 is stopped, at this moment, the, the connecting rod 18 is slightly pressed into the supporting cylinder 11, then the fixing groove 5 moves downwards and can be pressed at the upper end of the pipeline 15, so that the pipeline 15 is fixed, then the cutting machine 8 and the industrial dust collector 17 are started, the first electro-hydraulic push rod 6 drives the cutting machine 8 downwards, the pipeline 15 can be cut off (the length of the cutting pipeline 15 is the horizontal distance from the leftmost driving wheel 20 to the cutting machine 8 and the number of times of multiplying the circumference of the driving wheel 20), after the cut pipeline 15 is taken off, the second electro-hydraulic push rod 14 can drive the lifting plate 3 to move upwards to the position where the pressing wheel 13 can just press the pipeline 15, then the operation is continuously repeated to finish the purpose of automatically cutting the pipeline 15, and dust generated by cutting is absorbed by the industrial dust collector 17 through the dust collection hood 9.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a plastic conduit cutting device based on electric automatization, includes operation panel (1) and crossbeam (2), its characterized in that: the cross beam (2) is positioned right above the operating platform (1), the lower end of the cross beam (2) is fixedly provided with a lifting plate (3) through a second electro-hydraulic push rod (14), the lifting plate (3) is positioned between the operating platform (1) and the cross beam (2), and the number of the second electro-hydraulic push rods (14) is multiple; the lower end of the beam (2) and the upper end of the operating platform (1) are respectively provided with a pressing structure and a supporting transmission structure;

the pressing structure comprises a fixed rod (4), a fixed groove (5), a first electro-hydraulic push rod (6), a cutting machine (8), a support cylinder (11) and a pressing wheel (13); the surface of the lower end of the lifting plate (3) is fixedly provided with three supporting cylinders (11), the bottom of each supporting cylinder (11) is provided with a pressing wheel (13) through a second fixing plate (12), the pressing wheels (13) are rotatably fixed at the bottom of the second fixing plate (12) through supporting plates (25) on the front side and the rear side, the lower end of the lifting plate (3) between the supporting cylinders (11) on the two sides of the left side is fixedly provided with a fixing groove (5) through a fixing rod (4), the number of the fixing grooves (5) is two, and the lower end of the lifting plate (3) between the two fixing grooves (5) is fixedly provided with a cutting machine (8) through a first electro-hydraulic push rod (6);

the supporting transmission structure comprises a guide wheel (19), a driving wheel (20), a transmission disc (21), a counting switch (29), a bump (28) and a servo motor (23); the guide wheels (19) and the driving wheels (20) are multiple, the guide wheels (19) and the driving wheels (20) are fixed at the upper end of the operating platform (1) through the alternate rotation of the supporting plates (25), the driving discs (21) are fixed on the front sides of the driving wheels (20) in a transmission mode, the servo motor (23) is fixed on the front side of the operating platform (1) at the lower end of the driving wheels (20), the servo motor (23) is connected with the driving discs (21) through the belt (24) in a transmission mode, the leftmost side of the driving wheels (20) is fixed with the protruding blocks (28) in a transmission mode, the surface of the supporting plate (25) at the lower end of the protruding blocks (28) is fixed with the counting switches (29), and the pipelines (15) are fixed in the grooves at the upper ends of the guide wheels (19) and.

2. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: the industrial dust collector is characterized in that an industrial dust collector (17) is arranged at the lower end of the operating platform (1), a dust hood (9) is fixed on the rear side of the operating platform (1) at the lower end of the rear side of the cutting machine (8), the dust hood (9) is communicated with the industrial dust collector (17) through a dust suction pipe (16), and the industrial dust collector (17) is electrically connected with external power supply equipment.

3. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: a connecting rod (18) is fixedly inserted into the supporting barrel (11), a second fixing plate (12) for fixing the pressing wheel (13) is connected to the bottom of the connecting rod (18), the connecting rod (18) is fixed into the supporting barrel (11) through a limiting block at the upper end, and a spring (10) is fixedly connected between the top of the connecting rod (18) and the supporting barrel (11).

4. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: the vertical height of fixed slot (5) is greater than the vertical height of pinch roller (13), and all laminate and be fixed with rubber pad (27) in fixed slot (5), pinch roller (13), drive wheel (20) and leading wheel (19) surface's the cell body.

5. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: the cutting machine (8) is fixedly installed at the bottom of the first electro-hydraulic push rod (6) through a first fixing plate (7), and the first fixing plate (7) is fixed at the bottom of the first electro-hydraulic push rod (6) in a welding mode.

6. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: the front side of the operating platform (1) at the lower end of the servo motor (23) is fixedly welded with a third fixing plate (22), and the servo motor (23) is fixedly supported at the upper end of the third fixing plate (22).

7. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: the upper end of the fixing groove (5) is fixedly connected to the bottom of the fixing rod (4) in a welding mode.

8. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: both sides of the bottom of the operating platform (1) are fixedly provided with a plurality of support legs (26) in a supporting manner.

9. A plastic pipe cutting apparatus based on electrical automation as claimed in claim 1 wherein: the first electro-hydraulic push rod (6), the second electro-hydraulic push rod (14), the servo motor (23) and the cutting machine (8) are all connected with a control computer, and the output end of the counting switch (29) is connected with the input end of the control computer.