CN115008539B - Quick-assembling type electric power protection tube processing production equipment - Google Patents

Abstract

The invention discloses a quick-assembly type electric power protection tube processing production device which comprises a support base, wherein one end of the support base is connected with a hydraulic telescopic rod, the other end of the support base is connected with a discharging plate, a discharging ejection mechanism is arranged on the discharging plate, the support base is connected with a support frame, the telescopic ends of the hydraulic telescopic rod are connected with connecting guide rods in pairs, the tops of the two connecting guide rods are connected with a fixed pressing plate, and a processing supporting plate is arranged above the support frame in parallel. After the electric power pipe to be processed is put on the processing supporting plate, the electric power pipe can be quickly fixed and pressed by the fixed pressing plate, so that the processing such as cutting is convenient, after the processing is finished, the processing supporting plate is lifted, and when the next electric power pipe is in butt joint, the processed electric power pipe on the processing supporting plate is linked and detached, the processed electric power pipe does not need to be manually detached, the next electric power pipe is convenient to clamp, and the processing efficiency is improved.

Description

Quick-assembling type electric power protection tube processing production equipment

Technical Field

The invention relates to the technical field of power protection tube processing, in particular to a quick-assembly power protection tube processing production device.

Background

The power protection tube is a tube body penetrating through a cable wire and is used for protecting a wire body for power penetrating through the inside; the common electric power protection tube is a plastic tube body, so that the cutting processing treatment is convenient;

fig. 8 is a cutting device for production and processing of an MPP power protection tube, with an authorized bulletin number CN216682449U, which can effectively fix the power protection tube on a processing table for cutting processing, but has the following disadvantages: the cutting device for the production and processing of the existing MPP power protection tube is required to manually operate the pressing frame when the power protection tube is processed in the cutting processing, so that the pressing frame is used for fixedly pressing the power protection tube on a processing table, after the processing is completed, the fixed pressing frame is released, then the power protection tube is taken down, the next power protection tube is installed, the whole process is slow, and the efficiency is low.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a quick-assembly type power protection tube processing production device.

The aim of the invention can be achieved by the following technical scheme:

the quick-assembly type electric power protection tube processing production equipment comprises a supporting base, one end of the supporting base is connected with a hydraulic telescopic rod, the other end of the supporting base is connected with a discharging plate, a discharging pushing mechanism is arranged on the discharging plate, a supporting frame is connected to the supporting base, the telescopic ends of the hydraulic telescopic rods are connected with connecting guide rods in pairs, the tops of the two connecting guide rods are connected with a fixed pressing plate, a processing supporting plate is arranged above the supporting frame in parallel, the connecting guide rods slide through one end of the processing supporting plate, supporting lugs below the processing supporting plate are connected to the connecting guide rods, and one end, close to the supporting frame, of the discharging plate is obliquely connected with an inclined guide plate; the middle of the processing supporting plate is provided with a through hole, a movable rotating plate is embedded in the through hole, one end of the movable rotating plate, which is far away from the connecting guide rod, is movably connected with the edge of the through hole through a hinge, and the edge of the inner side of the through hole is connected with a stop block below the movable rotating plate; and a linkage ejection mechanism which is matched and connected with the telescopic end of the hydraulic telescopic rod is arranged below the supporting frame.

As a further scheme of the invention: the linkage ejection mechanism comprises a shaft bracket, the shaft bracket is vertically connected to the end face of the supporting base corresponding to the supporting frame, the top of the shaft bracket is rotationally connected with a rotating column, one side of the rotating column, which is close to the hydraulic telescopic rod, is connected with a rotary push plate, and the top of the shaft bracket is also connected with a limiting block positioned on the lower side of the rotary push plate; the rotary column is coaxially connected with a linkage gear, the telescopic end of the hydraulic telescopic rod is vertically connected with a rack meshed with the linkage gear, and the rack and the linkage gear are elastic rubber bodies; and a coil spring is connected between the rotating end of the rotating column and the shaft bracket.

As a further scheme of the invention: the material discharging and pushing mechanism comprises a strip-shaped chute, a pushing slide plate is slidably connected to the strip-shaped chute, a first connecting spring is horizontally connected between the pushing slide plate and the strip-shaped chute, and a limit conduction mechanism is arranged at one end, close to the hydraulic telescopic rod, of the material discharging plate.

As a further scheme of the invention: the limit transmission mechanism comprises a stepping motor, the stepping motor is connected to the discharging plate, a winding column is connected to the spindle end of the stepping motor, linkage ropes with opposite winding directions are wound at the two ends of the winding column respectively, telescopic connecting rods are connected to the edge of the winding column in pairs, two telescopic connecting rods are located below two sides of the winding column respectively, a second connecting spring is connected between the telescopic ends and the fixed ends of the telescopic connecting rods, connecting guide rails are connected to the telescopic ends of the telescopic connecting rods, a partition plate is connected to the connecting guide rails in a sliding mode, and a position fixing mechanism is arranged on the partition plate.

As a further scheme of the invention: the linkage rope is a steel wire rope, and the outer wall is smooth.

As a further scheme of the invention: the partition plate is an elastic rubber plate body.

As a further scheme of the invention: the position fixing mechanism comprises a connecting block, the connecting block is connected to the top of the partition plate, the connecting block is located above the corresponding connecting guide rail, and a fixing bolt is connected to the connecting block in a threaded mode.

As a further scheme of the invention: anti-skid patterns are formed on the end surfaces of the connecting guide rail and the fixing bolt, which are in contact with each other.

The invention has the beneficial effects that:

1. after the electric power pipe to be processed is put on the processing supporting plate, the electric power pipe can be quickly fixed and pressed by the fixed pressing plate, so that the processing such as cutting is convenient, after the processing is finished, the processing supporting plate is lifted, and when the next electric power pipe is in butt joint, the processed electric power pipe on the processing supporting plate is linked and detached, so that the processed electric power pipe does not need to be manually detached, the next electric power pipe is convenient to clamp, and the processing efficiency is improved;

2. when the power pipes are discharged onto the processing supporting plate, the spacing is carried out by virtue of the paired partition plates, so that only one power pipe is ensured to be discharged at a time, and the interval between the paired partition plates can be adjusted according to the pipe diameters of the power pipes, so that the power pipes with different pipe diameters can be conveniently handled, and the effective conduction discharging is realized.

Drawings

The invention is further described below with reference to the accompanying drawings.

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

FIG. 2 is an enlarged schematic view of the structure of FIG. 1 at A;

FIG. 3 is a schematic top view of the cooperative connection of the rack, the linkage gear and the rotary push plate in the present invention;

FIG. 4 is an enlarged schematic view of the structure at B in FIG. 1;

FIG. 5 is a schematic top view of the mating connection of the process pallet and the stationary platen of the present invention;

FIG. 6 is a schematic top view of the mated connection of the discharge plate, the divider plate and the ejector slide plate of the present invention;

FIG. 7 is a schematic view of the left-hand construction of the mating connection of the divider plate and the connecting rail in the present invention;

fig. 8 is a schematic structural view of a conventional cutting device for producing and processing an MPP power protection tube.

In the figure: 1. a support base; 2. a hydraulic telescopic rod; 3. a support frame; 4. processing the supporting plate; 5. supporting the bump; 6. connecting a guide rod; 7. a fixed pressing plate; 8. an inclined guide plate; 9. a discharge plate; 10. pushing the sliding plate; 11. a power tube; 12. a stepping motor; 13. winding a column; 14. a linkage rope; 15. a connecting guide rail; 16. a partition plate; 17. a telescopic connecting rod; 18. a second connecting spring; 19. a movable rotating plate; 20. a through port; 21. a linkage gear; 22. a rack; 23. a shaft bracket; 24. a rotating column; 25. rotating the push plate; 26. a coil spring; 27. a limiting block; 28. a connecting block; 29. a fixing bolt; 30. a strip-shaped chute; 31. a first connecting spring; 32. processing a plate; 33. a pressing and holding frame; 34. supporting the sloping plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 8, the existing cutting device for producing and processing the MPP power protection tube comprises a processing plate 32, wherein the processing plate 32 is used for placing the power protection tube which needs to be processed and cut, the bottoms of the two ends of the processing plate 32 are respectively connected with a supporting inclined plate 34, the supporting inclined plates 34 are used for supporting the whole device, the processing plate 32 is also connected with a pressing and holding frame 33, and the pressing and holding frame 33 is used for fixedly pressing the power protection tube placed on the processing plate 32 so as to facilitate the processing and cutting.

As shown in fig. 1-7, a quick-assembly type electric protection tube processing production device comprises a support base 1, wherein one end of the support base 1 is vertically and fixedly connected with a hydraulic telescopic rod 2 through a frame body, the telescopic end of the hydraulic telescopic rod 2 faces downwards, the other end of the support base 1 is horizontally and fixedly connected with a discharge plate 9 through the frame body, a discharge ejection mechanism is arranged on the discharge plate 9 and comprises a strip-shaped chute 30, an ejection slide plate 10 is slidingly connected at the strip-shaped chute 30, a first connecting spring 31 is horizontally connected between the ejection slide plate 10 and the strip-shaped chute 30, an unprocessed electric tube 11 is transversely arranged on the discharge plate 9, the ejection slide plate 10 slides to one end of the strip-shaped chute 30 away from the hydraulic telescopic rod 2, the first connecting spring 31 compresses to generate rebound force, the ejection slide plate 10 is conveniently driven to slide towards the direction close to the hydraulic telescopic rod 2, realizing pushing, one end of the discharging plate 9, which is close to the hydraulic telescopic rod 2, is provided with a limiting transmission mechanism, the limiting transmission mechanism comprises a stepping motor 12, the stepping motor 12 is fixedly connected above the rear side of the discharging plate 9 through a frame body, a winding column 13 is fixedly connected to the spindle end of the stepping motor 12, the front end and the rear end of the winding column 13 are respectively wound with a linkage rope 14 with opposite winding directions, the linkage rope 14 is a steel wire rope, the outer wall is smooth, the service life is long, the edge of the discharging plate 9, which is close to the winding column 13, is vertically and fixedly connected with telescopic connecting rods 17 in pairs, two telescopic connecting rods 17 are respectively positioned below two sides of the winding column 13, a second connecting spring 18 is connected between the telescopic ends and the fixed ends of the telescopic connecting rods 17, connecting guide rails 15 are horizontally and fixedly connected to the telescopic ends of the two telescopic connecting rods 17, a partition plate 16 is slidably connected to each connecting guide rail 15, the partition plate 16 is an elastic rubber plate body, the partition plate 16 is provided with a position fixing mechanism, the position fixing mechanism comprises a connecting block 28, the connecting block 28 is connected to the top of the partition plate 16, the connecting block 28 is positioned above the corresponding connecting guide rail 15, a fixing bolt 29 is connected to the connecting block 28 in a threaded manner, when the partition plate 16 transversely slides along the connecting guide rail 15 to stop at the corresponding position, the fixing bolt 29 is rotated to enable the fixing bolt 29 to abut against the outer wall of the connecting guide rail 15, so that the partition plate 16 is fixed in position, anti-skid lines are formed on the end faces of the connecting guide rail 15 and the fixing bolt 29, which are contacted with each other, friction force between the two partition plates is increased conveniently, slipping is avoided, the tail ends of the linkage ropes 14 are connected to the corresponding connecting guide rails 15, the two partition plates 16 keep a relative position which is higher than the other, and when the electric power pipe 11 is transversely arranged on the discharging plate 9, the push slide plate 10 is made to abut against the right side of the electric power pipe 11, meanwhile, the partition plate 16 far away from the push slide plate 10 is made to be in shielding on the left side of the arranged electric power pipe 11, namely, the electric power pipe 11 is limited to be positioned on the discharge plate 9, the partition plate 16 close to the push slide plate 10 is higher than the position of the electric power pipe 11, the telescopic connecting rod 17 corresponding to the partition plate 16 is in an extension state, the connected second connecting spring 18 is also in an extension state and has a rebound force, meanwhile, the distance between the two partition plates 16 is exactly the pipe diameter of the electric power pipe 11, when the electric power pipe 11 contacting the partition plate 16 is required to be discharged for processing, the stepping motor 12 is controlled to start to operate so as to drive the winding column 13 to rotate clockwise, and the winding column 13 winds the linkage rope 14 connected with the connecting guide rail 15 positioned at a lower position in the process, simultaneously releasing the linkage rope 14 connected with the connecting guide rail 15 at a higher position, so that the separation plate 16 contacting the power tube 11 is lifted and separated from the power tube 11 due to the pulling of the linkage rope 14, the separation plate 16 at the higher position is released from the winding column 13 due to the corresponding linkage rope 14, the separation plate 16 at the position is pressed between two adjacent power tubes 11 by the resilience force of the corresponding second connecting spring 18, the power tube 11 at the front position rolls down, the subsequent power tube 11 is blocked from advancing by the thrust of the pushing slide plate 10, so that only the next power tube 11 can be discharged each time for processing treatment, the separation plate 16 can be slid along the connecting guide rail 15 according to the pipe diameter of the power tube 11, the distance between the two separation plates 16 is adjusted, after the adjustment, the fixing bolts 29 on the top connection blocks 28 of the separation plate 16 are rotated, the fixing bolts 29 are pressed on the outer wall of the connecting guide rail 15, and the position of the separation plate 16 is fixed;

the support base 1 is horizontally and fixedly connected with the support frame 3 through a frame body, the telescopic ends of the hydraulic telescopic rods 2 are vertically and fixedly connected with the connecting guide rods 6 in pairs through plate bodies, the tops of the two connecting guide rods 6 are horizontally and fixedly connected with the fixed pressing plates 7, the machining support plates 4 are arranged above the support frame 3 in parallel, the connecting guide rods 6 slide through one ends of the machining support plates 4, the connecting guide rods 6 are fixedly connected with the support lugs 5 below the machining support plates 4, one ends of the discharge plates 9, close to the support frame 3, of the inclined guide plates 8 are obliquely and fixedly connected, the inclined guide plates 8 are used for guiding and discharging the lowered power pipes 11, and when the hydraulic telescopic rods 2 are in a contracted state, the machining support plates 4 are just positioned below the tail end positions of the inclined guide plates 8 so as to conveniently catch the lowered power pipes 11 guided by the inclined guide plates 8; the middle of the processing supporting plate 4 is provided with a through hole 20, the through hole 20 is provided with a movable rotating plate 19 in a jogged manner, one end of the movable rotating plate 19 away from the connecting guide rod 6 is movably connected with the edge of the through hole 20 through a hinge, the edge of the inner side of the through hole 20 is connected with a stop block positioned below the movable rotating plate 19, the stop block enables the movable rotating plate 19 to be unable to rotate downwards so as to support the falling power tube 11, and the movable rotating plate 19 can rotate upwards to tilt so as to push down the power tube 11 conveniently; the lower part of the supporting frame 3 is provided with a linkage ejection mechanism which is matched and connected with the telescopic end of the hydraulic telescopic rod 2, the linkage ejection mechanism comprises a shaft bracket 23, the shaft bracket 23 is vertically and fixedly connected with the end face of the supporting base 1 corresponding to the supporting frame 3, the top of the shaft bracket 23 is horizontally and rotatably connected with a rotary column 24, one side of the rotary column 24, which is close to the hydraulic telescopic rod 2, is horizontally and fixedly connected with a rotary push plate 25, the top of the shaft bracket 23 is also fixedly connected with a limiting block 27 positioned on the lower side of the rotary push plate 25, and the limiting block 27 enables the rotary push plate 25 to rotate clockwise only along with the rotary column 24 and not anticlockwise; the rotary column 24 is coaxially connected with the linkage gear 21, the telescopic end of the hydraulic telescopic rod 2 is vertically connected with a rack 22 meshed with the linkage gear 21 through a connecting plate, the rack 22 and the linkage gear 21 are elastic rubber bodies, and in the descending process of the rack 22, the rotary push plate 25 on the rotary column 24 is blocked by the limiting block 27 and cannot rotate anticlockwise, so that the tooth bodies meshed with the rack 22 and the linkage gear 21 deform due to extrusion in the process; a coil spring 26 is connected between the rotating end of the rotating post 24 and the shaft bracket 23;

when the power tube 11 is required to be processed by the related handheld equipment, the stepping motor 12 is controlled to run, one power tube 11 is pushed to roll down on the processing supporting plate 4 along the inclined guide plate 8, then the hydraulic telescopic rod 2 is controlled to extend downwards, the connecting guide rod 6 connected with the telescopic end of the hydraulic telescopic rod 2 drives the fixed pressing plate 7 and the processing supporting plate 4 to descend together, the rack 22 at the telescopic end of the hydraulic telescopic rod 2 is extruded to pass through the position of the linkage gear 21 in the process, the linkage gear 21 and the rotary column 24 can not rotate due to the existence of the limiting block 27, when the processing supporting plate 4 descends to the position of the supporting frame 3, the processing supporting plate 4 is stopped, at the moment, the hydraulic telescopic rod 2 continues to drive the fixed pressing plate 7 to descend through the connecting guide rod 6, and finally the fixed pressing plate 7 fixedly presses the power tube 11 on the processing supporting plate 4, the cutting processing is convenient, then control hydraulic telescopic handle 2 shrink drive processing layer board 4 rise reset, when carrying out next power tube 11 processing, rack 22 of hydraulic telescopic handle 2 flexible end just rises and passes linkage gear 21, linkage gear 21 can clockwise rotation this moment, and the support lug 5 on the in-process connection guide arm 6 still does not contact processing layer board 4, so processing layer board 4 still laminates in supporting frame 3 top, clockwise rotatory linkage gear 21 just drives the pivot post 24 and rotates, pivot post 24 just drives rotatory push pedal 25 rotatory perk, the movable swivel plate 19 that pushes up on processing layer board 4, movable swivel plate 19 just rotatory perk, will be in the power tube 11 that has accomplished processing on the processing layer board 4 and pushed down, conveniently carry out next power tube 11 processing fast.

The working principle of the invention is as follows: transversely arranging the power pipes 11 to be processed on the discharge plate 9, sliding the separation plates 16 along the connecting guide rails 15 according to the pipe diameters of the power pipes 11, adjusting the distance between the two separation plates 16, rotating the fixing bolts 29 on the top connecting blocks 28 of the separation plates 16 after the distance between the two separation plates 16 is adjusted, enabling the fixing bolts 29 to be abutted against the outer walls of the connecting guide rails 15, fixing the positions of the separation plates 16, enabling the separation plates 16 at lower positions to be abutted against one side of the arranged power pipes 11, and enabling the pushing sliding plates 10 to be abutted against the other side of the arranged power pipes 11;

when the electric power pipes 11 are required to be discharged for processing, the stepping motor 12 is controlled to start to operate, the winding column 13 is driven to rotate clockwise, the linkage rope 14 connected with the connecting guide rail 15 at the lower position is wound around the winding column 13 in the process, the linkage rope 14 connected with the connecting guide rail 15 at the higher position is released, the partition plate 16 contacting the electric power pipes 11 is lifted and separated from the electric power pipes 11 due to the pulling of the linkage rope 14, the partition plate 16 at the higher position is released from the winding column 13 due to the release of the corresponding linkage rope 14, the partition plate 16 at the position is lowered and extruded between the two adjacent electric power pipes 11 by the resilience force of the corresponding second connecting spring 18, the electric power pipes 11 at the front position are enabled to roll down, the subsequent electric power pipes 11 are blocked from advancing by the thrust of the push slide plate 10, so that only one electric power pipe 11 is discharged each time for processing can be ensured, the partition plate 16 at the higher position is controlled to be reversed, the winding column 13 is wound and the corresponding linkage rope 14 is released, the partition plate 16 is enabled to be directly lifted and the lower position of the partition plate 16 is enabled to be discharged to be convenient to be pushed to be discharged to the lower position than the partition plate 16 is pushed to the lower position by the push plate 9;

the discharged power tube 11 rolls down on the processing supporting plate 4 along the inclined guide plate 8, then the hydraulic telescopic rod 2 is controlled to extend downwards, the connecting guide rod 6 connected with the telescopic end of the hydraulic telescopic rod 2 drives the fixed pressing plate 7 and the processing supporting plate 4 to descend together, and when the next power tube 11 is processed, the rack 22 at the telescopic end of the hydraulic telescopic rod 2 ascends through the linkage gear 21, the linkage gear 21 can rotate clockwise, due to the limiting block 27, the linkage gear 21 and the rotating post 24 cannot rotate, when the processing supporting plate 4 descends to the position of the supporting frame 3, the processing supporting plate 4 stops, at the moment, the hydraulic telescopic rod 2 continues to drive the fixed pressing plate 7 to descend through the connecting guide rod 6, finally the fixed pressing plate 7 fixedly presses the power tube 11 on the processing supporting plate 4, cutting processing is convenient, then the hydraulic telescopic rod 2 is controlled to shrink to drive the processing supporting plate 4 to ascend and reset, and when the next power tube 11 is processed, the rack 22 at the telescopic end of the hydraulic telescopic rod 2 ascends through the linkage gear 21, the linkage gear 21 can rotate clockwise, the supporting lug 5 on the connecting guide rod 6 does not contact the supporting plate 4, when the processing supporting plate 4 descends to the supporting frame 3, the rotating the supporting plate 4 rotates, the rotating the supporting plate 19 is driven by the rotating plate 19, the rotating the supporting plate is driven by the rotating plate 19, the rotating along the rotating direction of the supporting plate is convenient, the rotating along the rotating the supporting plate 19, the rotating along the rotating direction, the rotating direction is finished, and the processing plate is convenient, and the processing is finished.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (5)

1. The utility model provides a fast-assembling formula electric power protection tube processing production facility, includes support base (1), the one end of support base (1) is connected with hydraulic telescoping rod (2), the other end of support base (1) is connected with row flitch (9), a serial communication port, be provided with row material ejector mechanism on row flitch (9), be connected with supporting frame (3) on support base (1), the flexible end pair of hydraulic telescoping rod (2) is connected with connecting rod (6), two the top of connecting rod (6) all is connected with fixed clamp plate (7), supporting frame (3) top parallel arrangement has processing layer board (4), connecting rod (6) slip pass the one end of processing layer board (4), be connected with on connecting rod (6) and be in support lug (5) of processing layer board (4) below, row material board (9) are close to the one end slope of supporting frame (3) is connected with inclined guide plate (8); a through hole (20) is formed in the middle of the processing supporting plate (4), a movable rotating plate (19) is embedded in the through hole (20), one end, away from the connecting guide rod (6), of the movable rotating plate (19) is movably connected to the edge of the through hole (20) through a hinge, and a stop block positioned below the movable rotating plate (19) is connected to the inner edge of the through hole (20); a linkage ejection mechanism which is matched and connected with the telescopic end of the hydraulic telescopic rod (2) is arranged below the supporting frame (3); the linkage ejection mechanism comprises a shaft bracket (23), the shaft bracket (23) is vertically connected to the end face of the supporting base (1) corresponding to the supporting frame (3), a rotating column (24) is rotatably connected to the top of the shaft bracket (23), a rotary push plate (25) is connected to one side, close to the hydraulic telescopic rod (2), of the rotating column (24), and a limiting block (27) located on the lower side of the rotary push plate (25) is further connected to the top of the shaft bracket (23); the rotary column (24) is coaxially connected with a linkage gear (21), the telescopic end of the hydraulic telescopic rod (2) is vertically connected with a rack (22) meshed with the linkage gear (21), and the rack (22) and the linkage gear (21) are elastic rubber bodies; a coil spring (26) is connected between the rotating end of the rotating column (24) and the shaft bracket (23); the discharging ejection mechanism comprises a strip-shaped chute (30), an ejection slide plate (10) is slidably connected to the strip-shaped chute (30), a first connecting spring (31) is horizontally connected between the ejection slide plate (10) and the strip-shaped chute (30), and a limit conduction mechanism is arranged at one end, close to the hydraulic telescopic rod (2), of the discharging plate (9); the limiting and conducting mechanism comprises a stepping motor (12), the stepping motor (12) is connected to the discharging plate (9), a winding column (13) is connected to the spindle end of the stepping motor (12), linkage ropes (14) with opposite winding directions are wound at the two ends of the winding column (13) respectively, telescopic connecting rods (17) are connected to the edge of the discharging plate (9) close to the winding column (13) in pairs, two telescopic connecting rods (17) are respectively located below two sides of the winding column (13), a second connecting spring (18) is connected between the telescopic ends of the telescopic connecting rods (17) and the fixed ends, connecting guide rails (15) are connected to the telescopic ends of the telescopic connecting rods (17), partition plates (16) are connected to the telescopic ends of the connecting guide rails (15) in a sliding mode respectively, and position fixing mechanisms are arranged on the partition plates (16).

2. The quick-assembling type power protection tube processing and producing device according to claim 1, wherein the linkage rope (14) is a steel wire rope, and the outer wall is smooth.

3. The quick-assembly power protection tube processing and production device according to claim 1, wherein the separation plate (16) is an elastic rubber plate body.

4. The quick-assembly type power protection tube processing production device according to claim 1, wherein the position fixing mechanism comprises a connecting block (28), the connecting block (28) is connected to the top of the partition plate (16), the connecting block (28) is located above the corresponding connecting guide rail (15), and a fixing bolt (29) is connected to the connecting block (28) in a threaded mode.

5. The processing and production equipment for the quick-assembly type power protection pipe according to claim 4, wherein anti-skid patterns are formed on the end surfaces of the connecting guide rail (15) and the fixing bolt (29) which are in contact with each other.