CN117087145B - Multipurpose plastic pipe straightening, laying and recycling device - Google Patents

Abstract

The invention provides a multipurpose plastic pipe straightening, laying and recycling device, which relates to the technical field of pipe laying and recycling and comprises an installation supporting part; the installation support part is connected with an auxiliary recovery device in a sliding way; the auxiliary recovery device is connected with a limiting device in a sliding way; the auxiliary recovery device is fixedly connected with a pressure regulating tightening part; the pressure regulating tightening part is provided with a reverse driving device; the installation support part is fixedly connected with a linkage driving device; the linkage driving device is fixedly connected with a straightening and cleaning device; three straightening devices are connected to the straightening cleaning device in a sliding manner; the three straightening devices are distributed on the straightening and cleaning device in an annular array; local accumulation and winding can be avoided, and extrusion damage of the pipe can be effectively avoided; the problems that the existing pipe laying and recycling device is extremely easy to cause local accumulation, the linkage straightening cleaning cannot be realized, and sand and stone impurities are extremely easy to cause extrusion damage to the pipe in the straightening process are solved.

Description

Multipurpose plastic pipe straightening, laying and recycling device

Technical Field

The invention relates to the technical field of pipe laying and recycling, in particular to a multipurpose plastic pipe straightening, laying and recycling device.

Background

In the actual building construction process, plastic pipes are widely applied, for example, plastic pipes are used in the scenes of electric protection and the like, because the construction quality and the construction efficiency are closely related, meanwhile, the flatness of the pipes plays an important role in subsequent threading and service life, and at the moment, a good plastic pipe straightening, laying and recycling device capable of assisting in tightly attaching the pipes is particularly important.

However, for the traditional plastic pipe straightening, laying and recycling device at present, the equipment cost is high, reverse pull and tightening cannot be realized, laying and recycling are loose, laying quality is poor, auxiliary smooth recycling cannot be realized, local accumulation is very easy to cause, recycling process effect is poor, linkage straightening and cleaning cannot be realized, sand and stone impurities are very easy to cause extrusion damage to the pipe in the straightening process, the use cost is increased, and meanwhile, follow-up secondary cleaning is required, and overall suitability is poor.

Disclosure of Invention

In view of the above, the invention provides a multipurpose plastic pipe straightening, laying and recycling device which is provided with a back driving device, can realize linkage back driving and tightening, has better process effect, can effectively avoid the situations of loosening and the like of the recycled pipe, can obviously increase the recycling length, can realize follow-up guiding while being provided with the back driving device, and has better protection pipeline and smart and practical structure.

The invention provides a multipurpose plastic pipe straightening, laying and recycling device, which particularly comprises an installation supporting part; the installation support part is connected with an auxiliary recovery device in a sliding way; the auxiliary recovery device is connected with a limiting device in a sliding way; the auxiliary recovery device is fixedly connected with a pressure regulating tightening part; the pressure regulating tightening part is provided with a reverse driving device; the installation support part is fixedly connected with a linkage driving device; the linkage driving device is fixedly connected with a straightening and cleaning device; three straightening devices are connected to the straightening cleaning device in a sliding manner; the three straightening devices are distributed on the straightening and cleaning device in an annular array; the mounting support includes: the four corners of the bottom of the support mounting plate are respectively provided with a movable roller; two sliding grooves are formed in the support mounting plate; the two roller frames are respectively fixedly connected to the support mounting plate; the recovery roller is rotationally connected to the two roller frames; the elastic clamping piece shaft is clamped and connected to the recovery roller in a sliding manner; the elastic clamping piece shaft is sleeved with a spring; the driving belt wheel is fixedly connected to the side surface of the recovery roller; the two positioning blocks are respectively fixedly connected to the side surfaces of the two roller frames; the auxiliary recovery device includes: the recovery sliding frame is connected to the support mounting plate in a sliding manner; the two elastic sliding shafts are respectively fixedly connected to the recovery sliding frame; two sides of the two elastic sliding shafts are respectively sleeved with a fitting tension spring; the outsides of the four attaching tension springs are respectively connected to two sides of the recovery sliding frame.

Optionally, the limiting device includes: the two limiting sliding shafts are respectively sleeved with springs; the two limiting sliding shafts are respectively and slidably connected to the recovery sliding frame; the limiting lifting rod is fixedly connected to the two limiting sliding shafts; the two positioning shafts are respectively fixedly connected to the limiting lifting rod; the two positioning shafts are respectively aligned with the positioning blocks.

Optionally, the back driving device includes: the driving installation rod is fixedly connected to the roller frame on the same side as the driving gear; the rotating sliding sleeve is rotationally connected to the driving installation rod; a hexagonal hole is formed in the middle of the rotary sliding sleeve; the driving belt pulley group is fixedly connected to the rotating sliding sleeve; the driving belt wheel group consists of two belt wheels; the driving belt wheel group is connected with the auxiliary belt wheel through belt transmission; the six-sided sliding shaft is connected to the rotary sliding sleeve in a sliding manner; the hexagonal sliding shaft is of a hexagonal column structure; the tightening rubber wheel is fixedly connected to the hexagonal sliding shaft; the tightening rubber wheel is rotationally connected to the pressure regulating installation block.

Optionally, the mounting support further includes: the driving motor is arranged on the roller frame at the same side with the driving belt wheel through a bracket; the shaft end of the driving motor is provided with a belt wheel; the belt wheel at the shaft end of the driving motor is connected with the driving belt wheel through belt transmission; the driving gear is fixedly connected to the other end of the recovery roller; the driven gear is rotationally connected to the roller frame on the same side as the driving gear; the driven gear is meshed with the driving gear; an auxiliary belt wheel is fixedly connected to the driven gear.

Optionally, the straightening device includes: the straightening sliding shafts are provided with six in total and are respectively connected to the straightening installation cylinder in a sliding way; the six straightening sliding shafts are respectively sleeved with a straightening reset spring; the straightening wheel frames are three and fixedly connected to six straightening sliding shafts; the three straightening wheel frames are distributed in the straightening installation cylinder in an annular array manner; the straightening wheels are provided with three rows, and the three rows of straightening wheels are respectively and rotatably connected to the three straightening wheel frames; the three extrusion inclined blocks are fixedly connected to the three straightening wheel frames respectively; the three extrusion inclined blocks are respectively attached to the extrusion threaded rings.

Optionally, the auxiliary recovery device further comprises: the floating squeezing frame is connected to the elastic sliding shaft in a sliding manner; two sides of the floating extrusion frame are respectively connected with four attaching tension springs; the sliding fit shaft bracket is connected to the floating extrusion frame in a sliding manner; the positioning wheel is rotationally connected to the sliding adaptive shaft bracket; the middle part of the positioning wheel is of an arc-shaped concave structure; the two adapting tension springs are respectively sleeved on the sliding adapting shaft bracket; the two adapting tension springs are respectively connected between the bottom of the sliding adapting shaft bracket and the floating extrusion frame.

Optionally, the pressure regulating tightening part further includes: the two sleeves are respectively connected to the pressure regulating installation block in a sliding way; the two sleeves are respectively connected to the two spring shafts in a sliding way; the extrusion wheel frame is fixedly connected to the two sleeves; the extrusion wheel frame is connected to the pressure regulating installation block in a sliding way; the extrusion roller is rotationally connected to the extrusion wheel frame; the middle part of the extrusion roller is of an arc-shaped concave structure.

Optionally, the linkage driving device includes: the linkage installation frame is fixedly connected to the support installation plate through bolts; the driving worm is rotationally connected to the linkage mounting frame; the linkage belt pulley is fixedly connected to the shaft end of the side face of the driving worm; the linkage belt wheel is connected with the driving belt wheel group through belt transmission.

Optionally, the pressure-regulating tightening part includes: the pressure regulating installation block is fixedly connected to the floating extrusion frame; the driving screw rod is in threaded connection with the pressure regulating installation block; a rotary hand wheel is arranged at the bottom of the driving screw rod; the sliding adjusting plate is connected to the pressure adjusting installation block in a sliding manner; the sliding adjusting plate is rotationally connected with a driving screw rod; the two spring shafts are respectively sleeved with a pressure regulating spring; the two spring shafts are fixedly connected to the sliding adjusting plate.

Optionally, the straightening and cleaning device includes: the straightening installation cylinder is fixedly connected to the linkage installation frame; threads are arranged on the outer side of the straightening installation cylinder; the extrusion thread ring is in threaded connection with the straightening installation cylinder; a rotating handle is arranged at the outer side of the extrusion thread ring; the rotary cleaning cylinder is rotationally connected to the straightening installation cylinder; a linkage worm wheel fixedly sleeved on the rotary cleaning cylinder; the linkage worm wheel is meshed with the driving worm; the cleaning brush is fixedly connected inside the rotary cleaning cylinder.

The pipe laying recovery device has the beneficial effects that according to the pipe laying recovery device provided by the embodiments of the invention, the recovered fitting degree can be effectively improved, local accumulation and winding can be avoided, meanwhile, the pipe laying is straighter, the pipe extrusion damage can be effectively avoided, the cleaning can be assisted, and the subsequent working strength is reduced.

In addition, through setting up supplementary recovery unit, can assist the realization and closely evenly wind the pipe, retrieve the quality is higher, and is simple structure stable, can adapt more different diameter pipes, staff easy operation is high-efficient, whether lay or retrieve, all can realize stable direction, can effectually avoid the pipe to pile up in the part, and a structure is simpler, the cost is lower, the stop device who sets up is in can assisting the supplementary recovery unit of location, through the adaptation extension spring that sets up on supplementary recovery unit, can realize exerting a reverse pulling force, the improvement pipe rolling's that can be better the laminating degree is higher between the adjacent pipe, through setting up supplementary recovery unit, the effectual recovery quality that has improved, through using the spring that presss from both sides tight elasticity clamping piece axle cooperation its suit, carry out clamp location to the pipe end, then under driving motor's drive, it rotates to drive the recovery roller, realize the rolling and retrieve the pipe, simultaneously can slide and remove the recovery carriage, position the pipe through the locating wheel on the recovery carriage, when the pipe winding, through locating wheel cooperation extension spring, make the pipe closely laminate each other, the extension spring that can be had the reverse pulling to the side to reach the end, can carry out the reverse pulling force through setting up and can be more easily, the whole can be more stable, and can carry out the recovery through the reverse length through setting up the reverse pull roller, and can carry out the improvement, and can be more practical and can realize the recovery.

In addition, by arranging the pressure regulating tightening part and matching with the back driving device, the tension of pipe recovery can be effectively improved, the rolling is more tight, the other effect of auxiliary relaxation avoidance is that the rolling quantity can be improved, meanwhile, the back driving device has an important effect when in laying, a back friction force can be provided in the same assistance, the pipe laying is straighter, the arranged pressure regulating tightening part has the important effect of assisting in realizing free adjustment of extrusion force, thereby adjusting the friction force of tightening the rubber wheel, the whole structure is simpler and more stable, more practical, can be better suitable for pipes with different specifications, can avoid the damage of the pipes by extrusion, can ensure enough friction force, the arranged back driving device can slide along with the floating extrusion frame, and can ensure continuous rotation output, the structure is ingenious and stable, when the recovery roller rotates and winds, the driving gear can be simultaneously driven to rotate, at the moment, the driving gear can drive the driven gear to rotate, then the auxiliary belt wheel on the driven gear drives the rotating sliding sleeve on the set driving belt wheel group to rotate, thereby immediately realizing the driving of the hexagonal sliding shaft to rotate, meanwhile, the hexagonal sliding shaft with a hexagonal column structure is adopted, not only can be driven to rotate by the rotating sliding sleeve, but also can slide on the rotating sliding sleeve, the tightening rubber wheel can be driven to rotate when the hexagonal sliding shaft rotates, the driven gear can reversely drive, the application of friction force in the direction is realized, the tightness of recovery winding is improved, meanwhile, the driving device which follows the sliding of the floating compaction frame is adopted, the positioning wheel can be more conveniently guided, the sliding adjusting plate can be driven to slide through the rotating driving screw rod, the two spring shafts are driven to move simultaneously, in-process extrusion gyro wheel no longer removes when extrudeing the pipe, just realizes extrusion pressure regulating spring immediately, through adjusting pressure regulating spring's extrusion dynamics, realizes conveying the elasticity to extrusion gyro wheel and extrudees the pipe, and simple structure is stable, and is more practical, and the suitability is stronger.

In addition, through setting up coalignment cooperation setting up coalignment cleaning device and linkage drive arrangement, can assist and realize the linkage clearance, can effectually avoid there being silt sand stone from the pipe surface of ground recovery, can carry out corresponding coalignment processing again after realizing the clearance, can effectually avoid impurity such as sand stone to cause wearing and tearing to the pipe when coalignment carries out coalignment, especially, to sand stone, if there is sand stone in the pipe outside when carrying out coalignment, very easily cause the extrusion damage to the pipe, increase the cost, can reduce the follow-up work load of pipe recovery simultaneously, need not the staff and take turns to the clearance again, when rotating the sliding sleeve and rotate, drive worm wheel through drive pulley group drive setting rotates, realize driving the clearance brush on the alignment installation section of thick bamboo and rotate the silt impurity on the cleaning pipe, through rotating extrusion screwed ring, extrusion bevel block that the extrusion set up is realized driving three alignment wheels and is facing to clamp simultaneously, no matter make recovery work or in laying work, can avoid the pipeline to bend locally, improve pipeline whole life, avoid the pipeline to exist to cause the damage when laying or retrieve, the whole plastic effect of bending is more applicable to improvement.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic view of the overall paving recycling apparatus according to an embodiment of the present invention;

FIG. 2 shows a schematic side view of a paving recycling apparatus according to an embodiment of the present invention;

FIG. 3 shows a cross-sectional view of the internal structure of a paving recycling apparatus according to an embodiment of the present invention;

FIG. 4 shows a schematic view of the bottom of a paving recycling apparatus according to an embodiment of the present invention;

FIG. 5 shows a schematic view of a mounting support according to an embodiment of the invention;

FIG. 6 shows a cross-sectional view of the internal structure of a mounting support according to an embodiment of the invention;

FIG. 7 shows an enlarged partial schematic view of a mounting support according to an embodiment of the invention;

FIG. 8 shows a schematic view of an auxiliary recovery device according to an embodiment of the invention;

FIG. 9 shows a schematic view of a spacing device according to an embodiment of the present invention;

FIG. 10 shows a schematic view of a pressure regulating cinching portion according to an embodiment of the present invention;

FIG. 11 shows a cross-sectional view of the interior of a pressure regulating cinch according to an embodiment of the present invention;

fig. 12 shows a schematic view of a back drive according to an embodiment of the invention;

FIG. 13 shows a schematic of a linkage drive according to an embodiment of the invention;

fig. 14 shows a schematic view of an alignment cleaning device according to an embodiment of the invention;

fig. 15 shows a schematic view of an alignment device according to an embodiment of the invention.

List of reference numerals

1. Mounting a supporting part; 101. a support mounting plate; 1011. moving the roller; 102. a roller frame; 103. a recovery roller; 104. clamping the elastic clamping piece shaft; 105. a driving belt wheel; 106. a positioning block; 107. a driving motor; 108. a drive gear; 109. a driven gear; 1091. an auxiliary belt wheel; 2. an auxiliary recovery device; 201. recovering the sliding frame; 202. an elastic sliding shaft; 2021. attaching a tension spring; 203. a floating squeeze frame; 204. sliding the adaptive shaft bracket; 205. a positioning wheel; 206. a tension spring is adapted; 3. a limiting device; 301. a limit sliding shaft; 302. a limiting lifting rod; 304. positioning a shaft; 4. a pressure-regulating tightening part; 401. a pressure regulating mounting block; 402. driving a screw rod; 402. driving a screw rod; 403. a sliding adjusting plate; 404. a spring shaft; 4041. a pressure regulating spring; 405. a sleeve; 406. extruding the wheel frame; 4061. extruding rollers; 5. a reverse driving device; 501. driving the mounting rod; 502. rotating the sliding sleeve; 503. driving the belt pulley group; 504. a hexagonal sliding shaft; 505. tightening the rubber wheel; 6. a linkage driving device; 601. a linkage mounting rack; 602. driving a worm; 6021. a linkage belt wheel; 7. straightening and cleaning device; 701. straightening the mounting cylinder; 702. extruding a threaded ring; 703. rotating the cleaning cylinder; 704. a linked worm wheel; 705. cleaning brushes; 8. a straightening device; 801. straightening a sliding shaft; 8011. straightening the reset spring; 802. straightening wheel frames; 803. a straightening wheel; 804. and extruding the inclined block.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 15:

the invention provides a multipurpose plastic pipe straightening, laying and recycling device, which comprises an installation supporting part 1; the installation support part 1 is connected with an auxiliary recovery device 2 in a sliding way; the auxiliary recovery device 2 is connected with a limiting device 3 in a sliding way; the auxiliary recovery device 2 is fixedly connected with a pressure regulating tightening part 4; the pressure regulating tightening part 4 is provided with a back driving device 5; the installation support part 1 is fixedly connected with a linkage driving device 6; the linkage driving device 6 is fixedly connected with a straightening and cleaning device 7; three straightening devices 8 are connected to the straightening and cleaning device 7 in a sliding manner; the three straightening devices 8 are distributed on the straightening and cleaning device 7 in an annular array; the mounting support 1 includes: the support mounting plate 101, and the four corners of the bottom of the support mounting plate 101 are respectively provided with a movable roller 1011; two sliding grooves are formed in the support mounting plate 101; the two roller frames 102 are arranged, and the two roller frames 102 are respectively and fixedly connected to the support mounting plate 101; a recovery roller 103, the recovery roller 103 being rotatably connected to the two roller frames 102; a clamping elastic clamping piece shaft 104, the clamping elastic clamping piece shaft 104 being slidably connected to the recovery roller 103; the clamping elastic clamping piece shaft 104 is sleeved with a spring; a driving pulley 105, the driving pulley 105 being fixedly connected to the side of the recovery roller 103; the two positioning blocks 106 are arranged, and the two positioning blocks 106 are respectively and fixedly connected to the side surfaces of the two roller frames 102; the auxiliary recovery device 2 includes: a recovery carriage 201, the recovery carriage 201 being slidably connected to the support mounting plate 101; the two elastic sliding shafts 202 are arranged, and the two elastic sliding shafts 202 are fixedly connected to the recovery sliding frame 201 respectively; two sides of the two elastic sliding shafts 202 are respectively sleeved with a laminating tension spring 2021; the outer sides of the four lamination springs 2021 are respectively connected to both sides of the recovery carriage 201.

Furthermore, according to an embodiment of the present invention, as shown in fig. 5 to 9, the mounting support 1 further includes: a drive motor 107, the drive motor 107 being mounted on the roller frame 102 on the same side as the drive pulley 105 via a bracket; the shaft end of the driving motor 107 is provided with a belt wheel; the belt wheel at the shaft end of the driving motor 107 is connected with the driving belt wheel 105 through belt transmission; a drive gear 108, the drive gear 108 being fixedly connected to the other end of the recovery roller 103; a driven gear 109, the driven gear 109 being rotatably connected to the roller frame 102 on the same side as the drive gear 108; the driven gear 109 is meshed with the driving gear 108; an auxiliary belt pulley 1091 is fixedly connected to the driven gear 109; the auxiliary recovery device 2 further includes: a floating squeeze frame 203, the floating squeeze frame 203 being slidably connected to the elastic sliding shaft 202; two sides of the floating extrusion frame 203 are respectively connected with four laminating tension springs 2021; a sliding fit shaft bracket 204, the sliding fit shaft bracket 204 being slidably connected to the floating squeeze bracket 203; the positioning wheel 205, the positioning wheel 205 is rotatably connected to the sliding adaptive shaft bracket 204; the middle part of the positioning wheel 205 is of an arc-shaped concave structure; the two adapting tension springs 206 are arranged, and the two adapting tension springs 206 are respectively sleeved on the sliding adapting shaft bracket 204; two adapting tension springs 206 are respectively connected between the bottom of the sliding adapting shaft bracket 204 and the floating squeeze bracket 203; the limiting device 3 includes: the two limiting sliding shafts 301 are arranged, and springs are sleeved on the two limiting sliding shafts 301 respectively; the two limit sliding shafts 301 are respectively and slidably connected to the recovery sliding frame 201; the limiting lifting rod 302, wherein the limiting lifting rod 302 is fixedly connected to the two limiting sliding shafts 301; the two positioning shafts 304 are arranged, and the two positioning shafts 304 are respectively and fixedly connected to the limiting lifting rod 302; the two positioning shafts 304 are respectively aligned with the positioning blocks 106, the pipe can be tightly and uniformly wound by arranging the auxiliary recovery device 2, the recovery quality is higher, the structure is simple and stable, the pipe with more different diameters can be adapted, the operation of workers is simple and efficient, the stable guide can be realized no matter the pipe is paved or recovered, the pipe can be effectively prevented from being locally piled up, the structure is simpler, the manufacturing cost is lower, the limiting device 3 is used for assisting in positioning the auxiliary recovery device 2, the reverse pulling force can be applied by the adapting tension spring 206 arranged on the auxiliary recovery device 2, the winding compactness of the pipe can be better improved, the bonding degree between adjacent pipes is higher, the recovery quality is effectively improved by arranging the auxiliary recovery device 2, the pipe end is clamped and positioned by using the spring matched with the elastic clamping piece shaft 104 in a sleeved mode, then the recovery roller 103 is driven by the driving motor 107 to rotate, the pipe is rolled and recovered, meanwhile, the recovery sliding frame 201 can be moved in a sliding mode, the pipe is positioned by the positioning wheel 205 on the recovery sliding frame 201, when the pipe is wound, the pipe is tightly attached to each other by matching the positioning wheel 205 with the proper tension spring 206, when the pipe on the recovery roller 103 reaches the end of the side face, the pulling force of the proper tension spring 206 is only needed to reversely slide the recovery sliding frame 201, the structure is simple and stable, the practicability is effectively improved, the positioning shaft 304 is driven to be inserted into the positioning block 106 by pulling the limiting lifting rod 302, the positioning is fast to position, the pipe is more labor-saving, the use is more convenient, wherein the elastic sliding shaft 202 on the recovery slider 201 can be adapted to the production process according to the length of the recovery roller 103.

Further, according to an embodiment of the present invention, as shown in fig. 10 to 12, the pressure-regulating tightening part 4 includes: the pressure regulating installation block 401, the pressure regulating installation block 401 is fixedly connected to the floating extrusion frame 203; the driving screw rod 402 is in threaded connection with the pressure regulating installation block 401; a rotary hand wheel is arranged at the bottom of the driving screw 402; a sliding adjusting plate 403, the sliding adjusting plate 403 being slidably connected to the pressure adjusting mounting block 401; a driving screw 402 is rotatably connected to the sliding adjusting plate 403; the two spring shafts 404 are arranged, and the two spring shafts 404 are respectively sleeved with a pressure regulating spring 4041; two spring shafts 404 are fixedly connected to the sliding adjustment plate 403; the pressure-regulating tightening part 4 further includes: the two sleeves 405 are arranged, and the two sleeves 405 are respectively and slidably connected to the pressure regulating installation block 401; two sleeves 405 are slidably connected to the two spring shafts 404, respectively; a squeeze wheel frame 406, the squeeze wheel frame 406 being fixedly connected to two sleeves 405; the extrusion wheel frame 406 is slidably connected to the pressure regulating mounting block 401; a squeeze roller 4061, the squeeze roller 4061 being rotatably coupled to the squeeze wheel frame 406; the middle part of the extrusion roller 4061 is of an arc-shaped concave structure; the reverse driving device 5 includes: the drive mounting rod 501, the drive mounting rod 501 is fixedly connected to the roller frame 102 on the same side as the drive gear 108; a rotating slide bush 502, the rotating slide bush 502 is rotationally connected to the driving installation rod 501; a hexagonal hole is formed in the middle of the rotary sliding sleeve 502; the driving belt pulley group 503, the driving belt pulley group 503 is fixedly connected to the rotating sliding sleeve 502; the driving pulley group 503 is composed of two pulleys; the driving belt wheel group 503 is connected with an auxiliary belt wheel 1091 through belt transmission; a hexagonal sliding shaft 504, the hexagonal sliding shaft 504 being slidably connected to the rotating sliding sleeve 502; the hexagonal sliding shaft 504 has a hexagonal column structure; the tightening rubber wheel 505, the tightening rubber wheel 505 is fixedly connected to the hexagonal sliding shaft 504; the tightening rubber wheel 505 is rotatably connected to the pressure regulating mounting block 401, by arranging the pressure regulating tightening part 4 and matching with the back driving device 5, the tension of pipe recovery can be effectively increased, the winding is more tight, the other effect of auxiliary relaxation avoidance is that the winding amount can be increased, the back driving device 5 has an important effect during laying, a back traction friction force can be also provided in an auxiliary manner, the pipe laying is straighter, the arranged pressure regulating tightening part 4 has the important effect that free adjustment of extrusion force can be realized in an auxiliary manner, the friction force of the tightening rubber wheel 505 can be adjusted, the whole structure is simpler and more stable, the device is more practical, the device is better suitable for pipes with different specifications, the damage to the pipes due to extrusion can be avoided, the enough friction force can be ensured, the arranged back driving device 5 can slide along with the floating extrusion frame 203, meanwhile, the continuous rotation output can be ensured, the structure is ingenious and stable, when the recovery roller 103 rotates and winds, the driving gear 108 is simultaneously driven to rotate, at the moment, the driving gear 108 can drive the driven gear 109 to rotate, then the driving sliding sleeve 502 on the driving belt pulley group 503 which is arranged by the driving of the auxiliary pulley 1091 on the driven gear 109 rotates, then the driving of the hexagonal sliding shaft 504 is realized, meanwhile, the hexagonal sliding shaft 504 with a hexagonal column structure can be driven to rotate by the driving sliding sleeve 502 and simultaneously can slide on the driving sliding sleeve 502, the tightening rubber wheel 505 can be driven to rotate when the hexagonal sliding shaft 504 rotates, the driven gear 109 realizes the driving which can reversely apply friction force in the direction, the tightness of recovery and winding is improved, and meanwhile, the driving device 5 which follows the sliding of the floating extrusion frame 203 is adopted, so that the positioning wheel 205 can be more convenient for guiding, through rotating drive lead screw 402, can drive the slip regulating plate 403 and slide, drive two spring shafts 404 and remove simultaneously, in-process extrusion gyro wheel 4061 no longer removes when the pipe is extruded, just realizes immediately that extrusion pressure regulating spring 4041, through the extrusion dynamics of adjusting pressure regulating spring 4041, realizes conveying the extrusion gyro wheel 4061 with the elasticity and extrudees the pipe, simple structure is stable, and is more practical, and the suitability is stronger.

Furthermore, according to an embodiment of the present invention, as shown in fig. 13 to 15, the linkage driving device 6 includes: the linkage installation frame 601, the linkage installation frame 601 is fixedly connected to the support installation plate 101 through bolts; the driving worm 602, the driving worm 602 is rotatably connected to the linkage mounting frame 601; a linkage belt wheel 6021, wherein the linkage belt wheel 6021 is fixedly connected with the side shaft end of the driving worm 602; the linkage belt wheel 6021 is connected with the driving belt wheel group 503 through belt transmission; the straightening and cleaning device 7 includes: an alignment mounting cylinder 701, the alignment mounting cylinder 701 being fixedly connected to the linkage mounting frame 601; threads are arranged on the outer side of the straightening installation cylinder 701; a pressing thread ring 702, the pressing thread ring 702 being screwed on the alignment mount 701; a rotating handle is arranged outside the extrusion thread ring 702; a rotating cleaning cylinder 703, the rotating cleaning cylinder 703 being rotatably connected to the alignment mounting cylinder 701; a linkage worm wheel 704, wherein the linkage worm wheel 704 is fixedly sleeved on the rotary cleaning cylinder 703; the linkage worm wheel 704 is meshed with the driving worm 602; the cleaning brush 705, the cleaning brush 705 is fixedly connected inside the rotary cleaning cylinder 703; the straightening device 8 includes: the straightening sliding shafts 801 are provided with six straightening sliding shafts 801, and the six straightening sliding shafts 801 are respectively and slidably connected to the straightening installation cylinder 701; the six straightening sliding shafts 801 are respectively sleeved with straightening reset springs 8011; the straightening wheel frames 802 are arranged in three, and the three straightening wheel frames 802 are fixedly connected to six straightening sliding shafts 801; three straightening wheel frames 802 are distributed in the straightening installation cylinder 701 in an annular array; the straightening wheels 803, the straightening wheels 803 are provided with three rows, and the three rows of straightening wheels 803 are respectively and rotatably connected to the three straightening wheel frames 802; the extrusion inclined blocks 804 are arranged in three, and the three extrusion inclined blocks 804 are fixedly connected to the three straightening wheel frames 802 respectively; the three extrusion bevel blocks 804 are respectively attached to the extrusion thread ring 702, the straightening device 8 is matched with the straightening cleaning device 7 and the linkage driving device 6, linkage cleaning can be realized in an auxiliary mode, the existence of silt and sand on the surface of a pipe recovered from the ground can be effectively avoided, corresponding straightening treatment can be realized, impurities such as sand and stone can be effectively avoided, abrasion to the pipe is caused when the straightening device 8 is used for straightening, especially, sand and stone exist on the outer side of the pipe when the straightening work is carried out, extrusion damage to the pipe is extremely easy to cause, cost is increased, subsequent workload of pipe recovery can be reduced, labor-saving cleaning is not required again by staff, when the sliding sleeve 502 is rotated, the driving worm 602 which is arranged by driving the worm wheel set 503 is driven to rotate, the cleaning brush 705 on the pipe is driven to rotate, the extrusion thread ring 702 is rotated, the extrusion bevel blocks 804 which are arranged are driven to drive the three-row straightening wheels to clamp simultaneously, no matter the pipe is made to be in straightening work, the pipe is folded, the service life of the pipe is prolonged, the plastic pipeline is prevented from being more greatly prolonged, and the whole plastic pipeline is more hard to be paved, and the whole pipeline is prevented from being broken, and the whole pipeline is more hard to be paved, and the whole pipeline is more hard to be more convenient to be folded, and the whole pipeline is prevented from being more broken, and the pipeline is more hard to be paved.

Specific use and action of the embodiment: in the invention, firstly, when the pipe is recovered, the recovery roller 103 is driven by the driving motor 107 to rotate, the recovery sliding frame 201 can be moved in a sliding way, the pipe is positioned by the positioning wheel 205 on the recovery sliding frame 201, when the pipe is wound, the pipe is tightly attached to each other by matching the positioning wheel 205 with the proper tension spring 206, when the pipe on the recovery roller 103 reaches the end of the side, the recovery sliding frame 201 is only required to slide reversely, the tension of the proper tension spring 206 is reversed, the positioning shaft 304 is driven to be inserted into the positioning block 106 by pulling the limiting lifting rod 302, the driving gear 108 is simultaneously driven to rotate when the recovery roller 103 rotates and winds, the driving gear 108 drives the driven gear 109 to rotate at the moment, and then the rotating sliding sleeve 502 on the driving belt pulley group 503 arranged by the auxiliary belt pulley 1091 on the driven gear 109 is driven to rotate, the hexagonal sliding shaft 504 is driven to rotate, the hexagonal sliding shaft 504 with a hexagonal column structure is adopted, the hexagonal sliding shaft 504 can be driven to rotate by the rotating sliding sleeve 502 and slide on the rotating sliding sleeve 502, the tightening rubber wheel 505 can be driven to rotate when the hexagonal sliding shaft 504 rotates, the driven gear 109 can be reversely driven to apply friction force in the direction to improve the tightness of recovery rolling, the driving device 5 which slides along with the floating extrusion frame 203 is adopted, the sliding adjusting plate 403 can be driven to slide by rotating the driving screw 402 to drive the two spring shafts 404 to move simultaneously, the extrusion roller 4061 does not move when extruding a pipe, the extrusion pressure adjusting spring 4041 is realized immediately, the extrusion force of the extrusion pressure adjusting spring 4041 is regulated, the elasticity is transmitted to the extrusion roller 4061 to extrude the pipe, the friction coefficient is adjusted, and when the rotating sliding sleeve 502 rotates, simultaneously, the driving worm 602 which is arranged by driving the belt pulley group 503 rotates, the driving linkage worm wheel 704 is realized to rotate, the cleaning brush 705 on the straightening installation cylinder 701 is driven to rotate to clean sediment impurities on a pipe, the extruding thread ring 702 is rotated, the extruding inclined blocks 804 which are arranged in an extruding mode are used for driving three rows of straightening wheels 803 on the three straightening wheel frames 802 to clamp in opposite directions simultaneously, clamping and straightening are realized, the driving motor 107 drives in the opposite directions when pipes are paved, pipe release is realized, the supporting installation plate 101 is pulled to move and paved, the straightening device 8 is paved and straightened in the process, the reverse driving device 5 also provides a reverse friction force to be convenient for tightening the pipe, and finally the use process of the multipurpose plastic pipe straightening, paving and recycling device is completed.

Finally, it should be noted that the present invention is generally described in terms of a/a pair of components, such as the location of each component and the mating relationship therebetween, however, those skilled in the art will appreciate that such location, mating relationship, etc. are equally applicable to other components/other pairs of components.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (8)

1. The multipurpose plastic pipe straightening, laying and recycling device is characterized by comprising an installation supporting part (1); an auxiliary recovery device (2) is connected to the installation support part (1) in a sliding manner; the auxiliary recovery device (2) is connected with a limiting device (3) in a sliding way; the auxiliary recovery device (2) is fixedly connected with a pressure regulating tightening part (4); a back driving device (5) is arranged on the pressure regulating tightening part (4); a linkage driving device (6) is fixedly connected to the mounting support part (1); the linkage driving device (6) is fixedly connected with a straightening and cleaning device (7); three straightening devices (8) are connected to the straightening and cleaning device (7) in a sliding manner; the mounting support (1) comprises: the support mounting plate (101), the four corners of the bottom of the support mounting plate (101) are respectively provided with a movable roller (1011); two sliding grooves are formed in the support mounting plate (101); the two roller frames (102) are arranged, and the two roller frames (102) are respectively and fixedly connected to the support mounting plate (101); the recovery roller (103), the recovery roller (103) is connected to the two roller frames (102) in a rotating way; a clamping elastic clamping piece shaft (104), wherein the clamping elastic clamping piece shaft (104) is connected to the recovery roller (103) in a sliding manner; a spring is sleeved on the clamping elastic clamping piece shaft (104); a driving belt wheel (105), wherein the driving belt wheel (105) is fixedly connected to the side surface of the recovery roller (103); the two positioning blocks (106) are arranged, and the two positioning blocks (106) are respectively and fixedly connected to the side surfaces of the two roller frames (102); the auxiliary recovery device (2) comprises: a recovery sliding frame (201), wherein the recovery sliding frame (201) is connected to the support mounting plate (101) in a sliding manner; the two elastic sliding shafts (202) are arranged, and the two elastic sliding shafts (202) are fixedly connected to the recovery sliding frame (201) respectively; two sides of the two elastic sliding shafts (202) are respectively sleeved with an attaching tension spring (2021); the outer sides of the four attaching tension springs (2021) are respectively connected to the two sides of the recovery sliding frame (201);

the auxiliary recovery device (2) further comprises: a floating squeezing frame (203), wherein the floating squeezing frame (203) is connected on the elastic sliding shaft (202) in a sliding way; two sides of the floating extrusion frame (203) are respectively connected with four attaching tension springs (2021); the sliding fit shaft bracket (204), the sliding fit shaft bracket (204) is connected on the floating extrusion frame (203) in a sliding way; the positioning wheel (205), the positioning wheel (205) is connected on the sliding adaptive shaft bracket (204) in a rotating way; the middle part of the positioning wheel (205) is of an arc-shaped concave structure; the two adapting tension springs (206) are arranged, and the two adapting tension springs (206) are respectively sleeved on the sliding adapting shaft bracket (204); the two adapting tension springs (206) are respectively connected between the bottom of the sliding adapting shaft bracket (204) and the floating extrusion frame (203);

the limiting device (3) comprises: the two limiting sliding shafts (301) are arranged, and springs are respectively sleeved on the two limiting sliding shafts (301); the two limiting sliding shafts (301) are respectively and slidably connected to the recovery sliding frame (201); the limiting lifting rod (302), the limiting lifting rod (302) is fixedly connected to the two limiting sliding shafts (301); the two positioning shafts (304) are arranged, and the two positioning shafts (304) are respectively and fixedly connected to the limiting lifting rod (302); the two positioning shafts (304) are aligned with the two positioning blocks (106), respectively.

2. The multipurpose plastic pipe straightening, laying and recycling apparatus according to claim 1, wherein: the mounting support (1) further comprises: the driving motor (107), the driving motor (107) is installed on the roller frame (102) at the same side with the driving belt wheel (105) through a bracket; the shaft end of the driving motor (107) is provided with a belt wheel; the belt wheel at the shaft end of the driving motor (107) is connected with the driving belt wheel (105) through belt transmission; the driving gear (108), the driving gear (108) is fixedly connected with the other end of the recovery roller (103); a driven gear (109), wherein the driven gear (109) is rotatably connected to the roller frame (102) on the same side as the driving gear (108); the driven gear (109) is meshed with the driving gear (108); an auxiliary belt wheel (1091) is fixedly connected to the driven gear (109).

3. The multipurpose plastic pipe straightening, laying and recycling apparatus according to claim 1, wherein: the pressure-regulating tightening part (4) comprises: the pressure regulating installation block (401), the pressure regulating installation block (401) is fixedly connected to the floating extrusion frame (203); the driving screw rod (402), the driving screw rod (402) is connected to the pressure regulating installation block (401) in a threaded manner; a rotary hand wheel is arranged at the bottom of the driving screw rod (402); the sliding adjusting plate (403), the sliding adjusting plate (403) is connected on the pressure adjusting installation block (401) in a sliding way; a driving screw rod (402) is rotatably connected to the sliding adjusting plate (403); the two spring shafts (404) are arranged, and pressure regulating springs (4041) are respectively sleeved on the two spring shafts (404); two spring shafts (404) are fixedly connected to the sliding adjusting plate (403).

4. A multipurpose plastic pipe straightening, laying and recycling apparatus according to claim 3, wherein: the pressure regulating tightening part (4) further comprises: the two sleeves (405) are arranged, and the two sleeves (405) are respectively and slidably connected to the pressure regulating installation block (401); the two sleeves (405) are respectively connected to the two spring shafts (404) in a sliding way; the extrusion wheel frame (406), the extrusion wheel frame (406) is fixedly connected to the two sleeves (405); the extrusion wheel frame (406) is connected to the pressure regulating installation block (401) in a sliding way; a squeeze roller (4061), the squeeze roller (4061) being rotatably connected to the squeeze wheel frame (406); the middle part of the extrusion roller (4061) is of an arc-shaped concave structure.

5. The multipurpose plastic pipe straightening, laying and recycling apparatus according to claim 4, wherein: the reverse drive device (5) includes: the driving installation rod (501), the driving installation rod (501) is fixedly connected to the roller frame (102) on the same side with the driving gear (108); a rotary sliding sleeve (502), wherein the rotary sliding sleeve (502) is rotationally connected to the drive mounting rod (501); a hexagonal hole is formed in the middle of the rotary sliding sleeve (502); the driving belt pulley group (503), the driving belt pulley group (503) is fixedly connected to the rotating sliding sleeve (502); the driving belt wheel group (503) consists of two belt wheels; the driving belt wheel group (503) is connected with an auxiliary belt wheel (1091) through belt transmission; the six-sided sliding shaft (504), the six-sided sliding shaft (504) is connected on the rotary sliding sleeve (502) in a sliding way; the hexagonal sliding shaft (504) is of a hexagonal column structure; the tightening rubber wheel (505), the tightening rubber wheel (505) is fixedly connected to the hexagonal sliding shaft (504); the tightening rubber wheel (505) is rotatably connected to the pressure regulating mounting block (401).

6. The multipurpose plastic pipe straightening, laying and recycling apparatus according to claim 5, wherein: the linkage driving device (6) comprises: the linkage installation frame (601), the linkage installation frame (601) is fixedly connected to the support installation plate (101) through bolts; the driving worm (602), the driving worm (602) is rotatably connected to the linkage mounting frame (601); the linkage belt wheel (6021), the linkage belt wheel (6021) is fixedly connected with the side shaft end of the driving worm (602); the linkage belt wheel (6021) is connected with the driving belt wheel group (503) through a belt transmission.

7. The multipurpose plastic pipe straightening, laying and recycling apparatus according to claim 6, wherein: the straightening and cleaning device (7) comprises: the straightening installation cylinder (701), the straightening installation cylinder (701) is fixedly connected to the linkage installation frame (601); threads are arranged on the outer side of the straightening installation cylinder (701); the extrusion thread ring (702), the extrusion thread ring (702) is connected to the alignment mounting cylinder (701) in a threaded manner; a rotating handle is arranged at the outer side of the extrusion thread ring (702); a rotary cleaning cylinder (703), wherein the rotary cleaning cylinder (703) is rotationally connected to the straightening installation cylinder (701); a linkage worm wheel (704), wherein the linkage worm wheel (704) is fixedly sleeved on the rotary cleaning cylinder (703); the linkage worm wheel (704) is meshed with the driving worm (602); and the cleaning brush (705), wherein the cleaning brush (705) is fixedly connected inside the rotary cleaning cylinder (703).

8. The multipurpose plastic pipe straightening, laying and recycling apparatus according to claim 7, wherein: the straightening device (8) comprises: the straightening sliding shafts (801) are provided with six straightening sliding shafts (801), and the six straightening sliding shafts (801) are respectively and slidably connected to the straightening installation cylinder (701); the six straightening sliding shafts (801) are respectively sleeved with straightening reset springs (8011); the straightening wheel frames (802), the straightening wheel frames (802) are provided with three, and the three straightening wheel frames (802) are fixedly connected to six straightening sliding shafts (801); the three straightening wheel frames (802) are distributed in the straightening installation cylinder (701) in an annular array; the straightening wheels (803) are provided with three rows, and the three rows of straightening wheels (803) are respectively and rotatably connected to the three straightening wheel frames (802); the extrusion inclined blocks (804), the extrusion inclined blocks (804) are three, and the three extrusion inclined blocks (804) are respectively and fixedly connected to the three straightening wheel frames (802); the three extrusion inclined blocks (804) are respectively attached to the extrusion threaded rings (702).