CN117184741B - Conveying equipment for PE pipeline processing - Google Patents

Abstract

The invention relates to the technical field of pipeline conveying, in particular to conveying equipment for PE pipeline processing, which comprises a bottom plate, a lifting device, a conveying bin, a conveying device, an intermittent blanking device, a whole row of pushing devices and a distance adjusting baffle device. The conventional PE pipeline transportation mode is usually manual transportation or forklift control to load and unload PE pipelines to a transportation vehicle, so that the problem of time and labor consumption in loading and unloading is solved, and the loading efficiency is low. The lifting device, the conveying device, the intermittent discharging device, the whole row pushing device and the distance adjusting baffle device are matched, so that the conveying efficiency is effectively improved, the number of PE pipelines which are loaded side by side can be adjusted, the problem that PE pipelines are not orderly stacked after carriages with different widths are loaded side by side is avoided, the purpose of filling the carriages can be achieved by orderly stacking the PE pipelines in layers in a mode of pushing the PE pipelines in whole rows in the carriages, the problem that the PE pipelines possibly fall and are damaged when a forklift is controlled manually is avoided, and the loading efficiency is improved.

Description

Conveying equipment for PE pipeline processing

Technical Field

The invention relates to the technical field of pipeline conveying, in particular to conveying equipment for PE pipeline processing.

Background

A PE pipe is a pipe made using polyethylene material. Polyethylene is a thermoplastic plastic widely used in the field of pipes, and has excellent physical and chemical properties, so that the polyethylene is an ideal pipe material. The PE pipeline has the advantages of good corrosion resistance, high strength and impact resistance, light weight, convenient installation, long service life, environmental protection and sustainability, and the like, and is widely applied to various fields including water supply, water drainage, gas transportation, chemical transportation and the like. They are widely used because of their excellent performance and cost effectiveness, providing a reliable and economical solution for plumbing. The PE pipeline needs to be transferred to a finished product warehouse or a storage yard for storage after production and inspection are finished, or needs to be transported to a construction site or a goods yard of a customer for temporary storage or use.

The conventional PE pipeline transportation mode is usually manual transportation or a forklift is controlled to load and unload the PE pipeline to a transportation vehicle, so that the problem of time and labor consumption in loading and unloading exists, the PE pipeline needs to be lifted to a position higher than a carriage during transportation by the forklift, the problem of PE pipeline falling damage possibly exists, the PE pipeline needs to be carefully and lightly placed and arranged in order during transportation, and the problem of damage to the pipeline caused by throwing and dragging along the ground is also avoided, so that the loading efficiency is lower.

Disclosure of Invention

The conveying equipment for PE pipeline processing can solve the problems.

The conveying equipment for PE pipeline processing comprises a bottom plate, wherein a lifting device is arranged on the bottom plate, a transmission bin is arranged at the upper end of the lifting device, a conveying device is arranged in the transmission bin, an intermittent blanking device is arranged in the middle of the conveying device, a whole row of pushing devices are arranged at the upper end of the left side of the transmission bin, and a distance adjusting baffle device positioned in the middle of the conveying device on the left side is arranged at the bottom end of the transmission bin.

The whole row of pushing devices comprise alignment pushing mechanisms, and lifting baffle mechanisms are arranged at the front end and the rear end of the transmission bin at positions corresponding to the alignment pushing mechanisms.

The conveying device comprises two groups of transmission components which are arranged in a rotating mode on the left side and the right side of a transmission bin, each group of transmission components consists of two transmission rollers which are arranged in a bilateral symmetry mode, two first transmission belts are sleeved on the transmission components on the left side in a front-back symmetry mode, a rotating motor is installed at the rear end of the transmission bin through a motor base, an output shaft of the rotating motor rotates to penetrate through the transmission bin to be connected to any one transmission roller on the transmission components on the left side, two second transmission belts are sleeved on the transmission components on the right side in a front-back symmetry mode, the rotating motor is installed at the rear end of the transmission bin through the motor base, an output shaft of the rotating motor rotates to penetrate through the transmission bin to be connected to any one transmission roller on the transmission components on the right side, a plurality of PE pipelines are arranged at the upper ends of the first transmission belts and the second transmission belts, and a guide blanking plate is arranged at the right end of the transmission bin corresponding to the second transmission belts.

As a preferable technical scheme of the invention, the intermittent blanking device comprises a first rotating shaft rotatably installed in a transmission bin, a sickle-shaped shifting block capable of being attached to a PE pipeline is arranged in the middle of the first rotating shaft, a cylindrical fluted disc rotatably connected to the transmission bin is arranged at the rear end of the first rotating shaft in a penetrating mode, an intermittent motor is installed on the lower side of the rear end of the transmission bin through a motor seat, a second rotating shaft is connected to an output shaft of the intermittent motor, intermittent gears with staggered gear teeth are arranged on the upper side and the lower side of the second rotating shaft respectively, the gear teeth on the two intermittent gears form a complete circumference shape when seen from top to bottom, and the two intermittent gears are meshed with the cylindrical fluted disc.

As a preferable technical scheme of the invention, the distance adjusting baffle device comprises a first rectangular through hole which is formed in a position between two corresponding left transmission rollers at the bottom end of a transmission bin, a first rectangular slide plate is slidably arranged in the first rectangular through hole, an electric telescopic rod is arranged at the bottom end of the transmission bin, the telescopic end of the electric telescopic rod is connected to the right end of the first rectangular slide plate, a first rectangular slide groove is formed in the upper end of the first rectangular slide plate, a round angle slide plate with a round angle at the front end is slidably arranged in the first rectangular slide groove, and the lower end of the round angle slide plate is connected to the first rectangular slide plate through a plurality of first compression springs.

As a preferable technical scheme of the invention, the lifting baffle mechanism comprises a second rectangular through hole which is arranged at the front end and the rear end of the transmission bin and corresponds to the position of the first transmission belt, a second rectangular chute which is communicated with the second rectangular through hole is arranged at the front end and the rear end of the transmission bin, a trapezoid slide plate with an inclined surface facing to the front end is arranged in the second rectangular through hole in a sliding manner, the upper end of the trapezoid slide plate is connected in the transmission bin through a plurality of second compression springs, and the second compression springs are connected in the second rectangular chute.

As a preferable technical scheme of the invention, the alignment pushing mechanism comprises a rectangular supporting plate, wherein the upper end of a transmission bin is provided with a first rectangular supporting seat corresponding to a first transmission belt, the rear end of the rectangular supporting plate is provided with a first rectangular supporting seat, the middle part of the first rectangular supporting seat is provided with a forward and reverse motor through a motor seat, the output shaft of the forward and reverse motor is connected with a screw rod, the first rectangular supporting seat is respectively provided with a sliding rod at the left side and the right side of the screw rod, the front side of the screw rod is provided with a second rectangular sliding plate in threaded connection with the second rectangular sliding plate, the lower side of the second rectangular sliding plate is provided with a rectangular pushing plate corresponding to a second rectangular through hole, the rectangular pushing plate is provided with a plurality of limiting cylinders corresponding to PE pipelines, the rectangular pushing plate and the left end of the second rectangular sliding plate are jointly provided with a concave connecting rod, and the front end of the transmission bin is provided with a third rectangular through hole which is communicated with the second rectangular through hole.

As a preferable technical scheme of the invention, the lifting device comprises four telescopic round rods connected to a transmission bin, wherein the four telescopic round rods are arranged at the upper end of a bottom plate, a rectangular sliding rail is arranged in the middle of the upper end of the bottom plate, a second rectangular supporting seat is arranged at the right end of the bottom plate, a hydraulic push rod is arranged at the left end of the second rectangular supporting seat, a rectangular sliding seat is arranged at the telescopic end of the hydraulic push rod, a supporting rod is arranged at the upper side of the rectangular sliding seat, rollers are rotatably arranged at the front end and the rear end of the supporting rod, two rectangular supporting plates are arranged at the bottom end of the transmission bin and correspond to the two rollers, a runway-shaped through hole with the left side and the right side being low is formed in the rectangular supporting plates, and the rollers are in rolling connection with the runway-shaped through hole.

The conveying device for the PE pipeline processing conveying equipment has the beneficial effects that 1, the conveying device can convey a plurality of PE pipelines to the left side to wait for loading, and the PE pipelines are only required to be placed in the conveying bin in batches by a manual control forklift, so that the PE pipelines are prevented from being manually carried for many times or conveyed into a carriage by the control forklift, and the conveying efficiency is improved.

2. According to the PE pipeline processing conveying equipment, the intermittent blanking device is matched with the distance adjusting baffle device, the blanking quantity of the intermittent blanking device can be controlled according to the width of the carriage of the transport vehicle, PE pipelines with the width corresponding to the carriage can be simultaneously loaded in a side-by-side loading mode, the quantity of the PE pipelines loaded in side-by-side mode can be adjusted according to different transport carriages, and the problem that PE pipelines with different widths are not orderly stacked after the carriage is loaded side-by-side is avoided.

3. According to the conveying equipment for PE pipeline processing, the lifting baffle mechanism is matched with the alignment pushing mechanism, so that a plurality of PE pipelines can be pushed into a carriage accurately under the condition that arrangement of PE pipelines is not affected, loading efficiency is effectively improved by adopting a parallel loading mode, the PE pipelines are arranged in order, and the problem that the positions of the PE pipelines need to be adjusted again manually is avoided.

4. The lifting device adopted by the conveying equipment for PE pipeline processing is matched with the whole row of pushing devices, so that the purpose of filling the carriage can be realized by orderly stacking the carriage in layers in a mode of pushing PE pipelines in the whole row in the carriage, the problem that a forklift is controlled manually to lift the PE pipelines and the PE pipelines possibly fall and damage is avoided, and the loading efficiency is improved.

Drawings

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

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a front cross-sectional view of the present invention.

Fig. 5 is a left cross-sectional view of the present invention.

Fig. 6 is a schematic perspective view of an intermittent blanking device of the present invention.

Fig. 7 is a schematic perspective view of the alignment pushing mechanism of the present invention.

In the figure: 1. a bottom plate; 2. a lifting device; 21. a telescopic round rod; 22. a rectangular slide rail; 23. a second rectangular supporting seat; 24. a hydraulic push rod; 25. a rectangular slide; 26. a support rod; 27. a roller; 28. rectangular supporting plates; 29. a racetrack-shaped through-hole; 3. a transmission bin; 4. a transfer device; 41. a conveying roller; 42. a first transmission belt; 43. a rotating electric machine; 44. a second transmission belt; 45. PE pipeline; 46. guiding a blanking plate; 47. a transmission assembly; 5. intermittent blanking device; 51. a first rotating shaft; 52. sickle-shaped shifting blocks; 53. cylindrical fluted disc; 54. an intermittent motor; 55. a second rotating shaft; 56. an intermittent gear; 6. a whole row of pushing devices; 61. an alignment pushing mechanism; 611. a rectangular support plate; 612. a first rectangular supporting seat; 613. a forward and reverse rotation motor; 614. a screw rod; 615. a slide bar; 616. a second rectangular sliding plate; 617. a rectangular pushing plate; 618. a limit cylinder; 619. a female connecting rod; 620. a third rectangular through hole; 62. a lifting baffle mechanism; 621. rectangular through holes II; 622. a second rectangular chute; 623. a trapezoidal slide plate; 624. a compression spring II; 7. a distance adjusting baffle device; 71. a first rectangular through hole; 72. a first rectangular slide plate; 73. an electric telescopic rod; 74. a first rectangular chute; 75. round angle sliding plate; 76. and a first compression spring.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1 and 5, a conveying device for processing a PE pipeline comprises a bottom plate 1, a lifting device 2 is installed on the bottom plate 1, a transmission bin 3 is installed at the upper end of the lifting device 2, a conveying device 4 is installed in the transmission bin 3, an intermittent blanking device 5 is installed in the middle of the conveying device 4, a whole row of pushing devices 6 is arranged at the upper end of the left side of the transmission bin 3, and a distance adjusting baffle device 7 positioned in the middle of the conveying device 4 on the left side is installed at the bottom end of the transmission bin 3.

Referring to fig. 1, 5 and 7, the whole row of pushing devices 6 includes an alignment pushing mechanism 61, and lifting baffle mechanisms 62 are installed at positions of the front and rear ends of the conveying bin 3 corresponding to the alignment pushing mechanism 61.

Referring to fig. 3-5, the conveying device 4 includes two sets of transmission components 47 rotatably disposed on the left and right sides of the conveying bin 3, each set of transmission components 47 is composed of two transmission rollers 41 symmetrically disposed on the left side, two first transmission belts 42 are symmetrically sleeved on the transmission components 47 on the front and back sides, the rear end of the conveying bin 3 is provided with a rotating motor 43 through a motor base, an output shaft of the rotating motor 43 rotates to penetrate through the conveying bin 3 and is connected to any one of the transmission rollers 41 on the left side transmission components 47, two second transmission belts 44 are symmetrically sleeved on the transmission components 47 on the right side, the rear end of the conveying bin 3 is provided with a rotating motor 43 through the motor base, an output shaft of the rotating motor 43 rotates to penetrate through the conveying bin 3 and is connected to any one of the transmission rollers 41 on the right side transmission components 47, a plurality of PE pipelines 45 are disposed on the first transmission belts 42 and the upper ends of the second transmission belts 44, and the right end of the conveying bin 3 is provided with a guiding blanking plate 46 corresponding to the second transmission belts 44.

Firstly, the tail part of a carriage of a transport vehicle is aligned to the rear side of a transport bin 3 and is positioned at a position where a PE pipeline 45 is placed on a first transport belt 42, a rotating motor 43 on the right side is used for controlling a transport roller 41 to rotate so as to drive a second transport belt 44 to rotate, the PE pipeline 45 is placed on a guide blanking plate 46 in batches by a manual control forklift, the PE pipeline 45 is sequentially rolled onto the second transport belt 44 by the guide blanking plate 46, then the second transport belt 44 drives the PE pipeline 45 to move leftwards, a conveying device 4 can transport a plurality of PE pipelines 45 to the left side for waiting for loading, and only the manual control forklift is needed to place the PE pipeline 45 in the transport bin 3 in batches, so that manual repeated transportation is avoided or the PE pipeline 45 is transported into the carriage by the manual control forklift, and the conveying efficiency is improved.

Referring to fig. 3, 5 and 6, the intermittent blanking device 5 includes a first rotating shaft 51 rotatably mounted on the conveying bin 3, a sickle-shaped shifting block 52 capable of being attached to the PE pipe 45 is disposed in the middle of the first rotating shaft 51, a cylindrical fluted disc 53 rotatably connected to the conveying bin 3 is rotatably disposed at the rear end of the first rotating shaft 51, an intermittent motor 54 is mounted on the lower side of the rear end of the conveying bin 3 through a motor base, an output shaft of the intermittent motor 54 is connected with a second rotating shaft 55, intermittent gears 56 with staggered gear teeth are disposed on the upper side and the lower side of the second rotating shaft 55, and gear teeth on the two intermittent gears 56 form a complete circumference when viewed from top to bottom, and the two intermittent gears 56 are meshed with the cylindrical fluted disc 53.

Referring to fig. 3-5, the distance adjusting baffle device 7 includes a first rectangular through hole 71 formed at a position between two conveying rollers 41 corresponding to the left side at the bottom end of the conveying bin 3, a first rectangular slide plate 72 is slidably disposed in the first rectangular through hole 71, an electric telescopic rod 73 is mounted at the bottom end of the conveying bin 3, a telescopic end of the electric telescopic rod 73 is connected to the right end of the first rectangular slide plate 72, a first rectangular slide groove 74 is formed at the upper end of the first rectangular slide plate 72, a round corner slide plate 75 with a round corner at the front end is slidably disposed in the first rectangular slide groove 74, and the lower end of the round corner slide plate 75 is connected to the first rectangular slide plate 72 through a plurality of first compression springs 76.

The first rectangular sliding plate 72 is controlled to slide to the position corresponding to the carriage of the transport vehicle through the first rectangular through hole 71 by the electric telescopic rod 73, the first rectangular sliding plate 72 drives the round corner sliding plate 75 to move to the position corresponding to the carriage of the transport vehicle, at the moment, the round corner sliding plate 75 is located between the two first conveying belts 42, the second rotating shaft 55 is controlled to rotate through the intermittent motor 54, the second rotating shaft 55 drives the intermittent gear 56 in the opposite direction to intermittently stir the cylindrical fluted disc 53, the first rotating shaft 51 is driven to rotate in a forward and reverse mode through the cylindrical fluted disc 53, the first rotating shaft 51 drives the sickle-shaped shifting block 52 to rotate in a forward and reverse mode, PE pipelines 45 on the second conveying belts 44 are intermittently transported to the first conveying belts 42, the first conveying belts 42 are controlled to rotate through the rotary motor 43 on the left side, the PE pipelines 45 are driven to move leftwards until the PE pipelines 45 are blocked by the round corner sliding plate 75, when the PE pipelines 45 on the first conveying belts 42 are accumulated to a sufficient width, the intermittent motor 54 stops rotating, the intermittent blanking device 5 is matched with the adjustable baffle device 7, the intermittent blanking device 5 can be controlled to drive the PE pipelines 5 to rotate in a forward and reverse mode according to the width of the carriage, the width of the transport vehicle carriage, the PE pipelines can be synchronously loaded in the same number as the PE pipelines 45, and the number of the PE pipelines can not be loaded in the carriage 45 after the carriage 45 are synchronously.

Referring to fig. 4 and 5, the lifting baffle mechanism 62 includes a second rectangular through hole 621 formed at the front and rear ends of the conveying bin 3 and corresponding to the first conveying belt 42, a second rectangular chute 622 connected to the second rectangular through hole 621 formed at the front and rear ends of the conveying bin 3, a trapezoid slide plate 623 with an inclined surface facing the front end is slidably disposed in the second rectangular through hole 621, the upper ends of the trapezoid slide plate 623 are connected in the conveying bin 3 through a plurality of second compression springs 624, and the second compression springs 624 are connected in the second rectangular chute 622.

Referring to fig. 3, 4 and 7, the aligning pushing mechanism 61 includes a rectangular supporting plate 611 disposed at the upper end of the conveying bin 3 and corresponding to the first conveying belt 42, a first rectangular supporting seat 612 is disposed at the rear end of the rectangular supporting plate 611, a forward and reverse motor 613 is mounted at the middle of the first rectangular supporting seat 612 via a motor seat, a lead screw 614 is connected to an output shaft of the forward and reverse motor 613, a slide bar 615 is disposed at the left and right sides of the lead screw 614 on the first rectangular supporting seat 612, a second rectangular sliding plate 616 is connected to the front side of the lead screw 614 via threads, the second rectangular sliding plate 616 is slidably connected to the two slide bars 615, a rectangular pushing plate 617 is disposed at the lower side of the second rectangular sliding plate 616 and corresponding to the second rectangular through hole 621, a plurality of limiting cylinders 618 are disposed at the rectangular pushing plate 617 and corresponding to the PE pipeline 45, a concave connecting rod 619 is jointly disposed at the left end of the rectangular pushing plate 617, and a third rectangular through hole 620 is formed at the front end of the conveying bin 3 and corresponding to the concave connecting rod.

When the PE pipelines 45 on the first transmission belt 42 are accumulated to a sufficient carriage width, the screw rod 614 is controlled by the forward and reverse motor 613 to rotate so as to drive the second rectangular sliding plate 616 to slide along the two sliding rods 615 towards the carriage, the second rectangular sliding plate 616 drives the rectangular pushing plate 617 to slide towards the carriage through the concave connecting rod 619, at this time, the rectangular pushing plate 617 drives the PE pipelines 45 to move and contact the trapezoid sliding plate 623 through the limiting cylinder 618, the PE pipelines 45 and the limiting cylinder 618 are propped against and contact the trapezoid sliding plate 623 to slide upwards under the action of the second compression spring 624, so that the rectangular pushing plate 617 is simultaneously inserted into the PE pipelines 45 through the limiting cylinders 618 until a row of PE pipelines 45 finishes loading operation, the forward and reverse motor 613 is used for controlling the rectangular pushing plate 617 to move to the original position, the sickle-shaped shifting block 52 is controlled by the intermittent motor 54 to continuously perform intermittent unloading operation until the PE pipelines 45 on the first transmission belt 42 are accumulated to a sufficient carriage width again, the lifting baffle mechanism 62 is matched with the alignment pushing mechanism 61, and the PE pipelines 45 can be pushed into the carriage side by side under the condition that the PE pipelines 45 are not affected, the PE pipelines 45 are accurately arranged, the manual loading efficiency is improved, and the problem of the PE pipelines can be effectively avoided.

Referring to fig. 2, 4 and 5, the lifting device 2 includes four telescopic round rods 21 connected to the conveying bin 3 and disposed at the upper end of the bottom plate 1, a rectangular slide rail 22 is disposed in the middle of the upper end of the bottom plate 1, a second rectangular support seat 23 is disposed at the right end of the bottom plate 1, a hydraulic push rod 24 is mounted at the left end of the second rectangular support seat 23, a rectangular slide seat 25 is disposed at the telescopic end of the hydraulic push rod 24, a support rod 26 is disposed at the upper side of the rectangular slide seat 25, rollers 27 are rotatably disposed at the front end and the rear end of the support rod 26, two rectangular supporting plates 28 are disposed at the bottom end of the conveying bin 3 corresponding to the two rollers 27, a runway-shaped through hole 29 with left low side and right high side is formed in the rectangular supporting plates 28, and the rollers 27 are in rolling connection with the runway-shaped through hole 29.

When the intermittent motor 54 is used for controlling the sickle-shaped shifting block 52 to rotate forwards and backwards again to continue intermittent discharging, the hydraulic push rod 24 is used for controlling the rectangular slide seat 25 to slide leftwards along the rectangular slide rail 22, the rectangular slide seat 25 drives the roller 27 to slide leftwards along the rectangular slide rail 22 through the support rod 26, the roller 27 drives the conveying bin 3 to move upwards through the rectangular bearing plate 28 while rolling along the runway-shaped through hole 29 until the PE pipeline 45 on the first conveying belt 42 moves upwards, the rectangular push plate 617 is used for controlling the rectangular push plate 617 to move the PE pipelines 45 inwards to the carriage until one row of PE pipelines 45 are positioned on the last row of PE pipelines 45, after the loading operation is completed repeatedly, the rectangular slide seat 25 is controlled to slide rightwards along the rectangular slide rail 22 through the hydraulic push rod 24, the conveying bin 3 can be lowered to the original position, the telescopic end of the telescopic round rod 21 moves downwards along the conveying bin 3 to the original position, the lifting device 2 is matched with the whole row of push device 6, the PE pipeline 45 can be pushed into the carriage in a whole row of PE pipeline 45 in a tidy way, and the carriage is fully stacked in a full layer of the carriage in the whole row of PE pipeline can be completely, the PE pipeline can be prevented from being damaged, and the problem of manual loading can be avoided.

In the description of the embodiments of the present invention, it should be noted that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "outer," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the embodiments of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the embodiments of the present invention. Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "a plurality", "a plurality of groups" is two or more.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "connected," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not limited in scope by the present invention, so that all equivalent changes according to the structure, shape and principle of the present invention are covered in the scope of the present invention.

Claims (1)

1. The utility model provides a PE pipeline processing is with conveying equipment, includes bottom plate (1), its characterized in that, install elevating gear (2) on bottom plate (1), transmission storehouse (3) are installed to elevating gear (2) upper end, install conveyer (4) in transmission storehouse (3), conveyer (4) mid-mounting has intermittent type unloader (5), transmission storehouse (3) left side upper end is provided with whole row pusher (6), distance adjusting baffle device (7) at conveyer (4) middle part in left side are installed to transmission storehouse (3) bottom;

the lifting device (2) comprises four telescopic round rods (21) which are arranged at the upper end of a bottom plate (1) and connected to a conveying bin (3), a rectangular sliding rail (22) is arranged in the middle of the upper end of the bottom plate (1), a second rectangular supporting seat (23) is arranged at the right end of the bottom plate (1), a hydraulic push rod (24) is arranged at the left end of the second rectangular supporting seat (23), a rectangular sliding seat (25) is arranged at the telescopic end of the hydraulic push rod (24), a supporting rod (26) is arranged at the upper side of the rectangular sliding seat (25), rollers (27) are rotatably arranged at the front end and the rear end of the supporting rod (26), two rectangular supporting plates (28) are arranged at the bottom end of the conveying bin (3) corresponding to the two rollers (27), a runway-shaped through hole (29) with left low and right high is formed in the rectangular supporting plates (28), and the rollers (27) are in rolling connection with the runway-shaped through hole (29);

the whole row of pushing devices (6) comprise alignment pushing mechanisms (61), and lifting baffle mechanisms (62) are arranged at the front end and the rear end of the conveying bin (3) corresponding to the positions of the alignment pushing mechanisms (61);

the conveying device (4) comprises two groups of transmission components (47) which are rotationally arranged on the left side and the right side of the conveying bin (3), each group of transmission components (47) consists of two transmission rollers (41) which are symmetrically arranged on the left side and the right side, two first transmission belts (42) are symmetrically sleeved on the transmission components (47) on the front and the back, the rear end of the conveying bin (3) is provided with a rotating motor (43) through a motor seat, an output shaft of the rotating motor (43) rotates and penetrates through the transmission bin (3) to be connected to any one transmission roller (41) on the left side transmission component (47), two second transmission belts (44) are symmetrically sleeved on the transmission components (47) on the right side, the rear end of the conveying bin (3) is provided with the rotating motor (43) through the motor seat, the output shaft of the rotating motor (43) penetrates through the transmission bin (3) to be connected to any one transmission roller (41) on the right side, a plurality of PE (45) are placed at the upper ends of the first transmission belts (42) and the second transmission belts (44), and the second transmission bin (3) is correspondingly provided with a guide plate (46);

the intermittent blanking device (5) comprises a first rotating shaft (51) rotatably installed in a transmission bin (3), a sickle-shaped shifting block (52) capable of being attached to a PE pipeline (45) is arranged in the middle of the first rotating shaft (51), a cylindrical fluted disc (53) rotatably connected to the transmission bin (3) is arranged at the rear end of the first rotating shaft (51) in a penetrating mode, the lower side of the rear end of the transmission bin (3) is provided with an intermittent motor (54) through a motor seat, an output shaft of the intermittent motor (54) is connected with a second rotating shaft (55), intermittent gears (56) with staggered gear tooth positions are respectively arranged on the upper side and the lower side of the second rotating shaft (55), gear teeth on the two intermittent gears (56) form a complete circumference shape when seen from top to bottom, and the two intermittent gears (56) are meshed with the cylindrical fluted disc (53);

the aligning pushing mechanism (61) comprises a rectangular supporting plate (611) arranged at the upper end of a transmission bin (3) corresponding to a first transmission belt (42), a first rectangular supporting seat (612) is arranged at the rear end of the rectangular supporting plate (611), a positive and negative rotation motor (613) is mounted at the middle part of the first rectangular supporting seat (612) through a motor seat, a lead screw (614) is connected to an output shaft of the positive and negative rotation motor (613), a slide rod (615) is respectively arranged at the left side and the right side of the lead screw (614) on the first rectangular supporting seat (612), a second rectangular sliding plate (616) is connected to the front side of the lead screw (614) through threads, the second rectangular sliding plate (616) is connected with two slide rods (615) in a sliding mode, a rectangular pushing plate (617) is arranged at the lower side of the second rectangular sliding plate (616) corresponding to a second rectangular through hole (621), a plurality of limit cylinders (618) are arranged at the middle part of the first rectangular pushing plate (617) corresponding to PE pipelines (45), a concave connecting rod (619) is jointly arranged at the left end of the second rectangular pushing plate (616), and a third rectangular through hole (620) is formed at the front end of the transmission bin (3) corresponding to the second rectangular through hole (621);

the lifting baffle mechanism (62) comprises a second rectangular through hole (621) which is formed in the front end and the rear end of the conveying bin (3) and corresponds to the first conveying belt (42), a second rectangular chute (622) which is communicated with the second rectangular through hole (621) is formed in the front end and the rear end of the conveying bin (3), a trapezoid slide plate (623) with an inclined surface facing the front end is arranged in the second rectangular through hole (621) in a sliding mode, the upper end of the trapezoid slide plate (623) is connected into the conveying bin (3) through a plurality of second compression springs (624), and the second compression springs (624) are connected into the second rectangular chute (622);

the distance adjusting baffle device (7) comprises a first rectangular through hole (71) which is formed in the bottom end of the transmission bin (3) and corresponds to the position between the two left transmission rollers (41), a first rectangular sliding plate (72) is arranged in the first rectangular through hole (71) in a sliding mode, an electric telescopic rod (73) is arranged at the bottom end of the transmission bin (3), the telescopic end of the electric telescopic rod (73) is connected to the right end of the first rectangular sliding plate (72), a first rectangular sliding groove (74) is formed in the upper end of the first rectangular sliding plate (72), a round corner sliding plate (75) with a round corner at the front end is arranged in the first rectangular sliding groove (74), and the lower end of the round corner sliding plate (75) is connected to the first rectangular sliding plate (72) through a plurality of first compression springs (76).