CN113086679B

CN113086679B - Cement telegraph pole unloading and rolling device

Info

Publication number: CN113086679B
Application number: CN202110380914.5A
Authority: CN
Inventors: 朱龙君
Original assignee: Dingyuan Power Supply Co of State Grid Anhui Electric Power Co Ltd
Current assignee: Dingyuan Power Supply Co of State Grid Anhui Electric Power Co Ltd
Priority date: 2021-04-09
Filing date: 2021-04-09
Publication date: 2022-12-09
Anticipated expiration: 2041-04-09
Also published as: CN113086679A

Abstract

A cement telegraph pole unloading roll-off device relates to a cement telegraph pole unloading device, wherein a semicircular rubber sheet A (4) is arranged on the inner surface of a semicircular clamping plate A (3), a semicircular rubber sheet B (14) is arranged on the inner surface of a semicircular clamping plate B (12), semicircular guard plates A (1) formed by inward bending are respectively arranged on two sides of a semicircular plate A (2), semicircular guard plates B (13) formed by inward bending are respectively arranged on two sides of a semicircular plate B (15), the semicircular plate A is hinged with one end of the semicircular plate B, two sides of the other ends of the semicircular plate A and the semicircular plate B are respectively connected with each other through connecting screws to form a whole circle, the inner ends and the outer ends of a plurality of damping springs (5) are uniformly and fixedly connected to the opposite surfaces of the semicircular clamping plate A and the semicircular plate A, and the inner ends and the outer ends of another plurality of damping springs are uniformly and fixedly connected to the opposite surfaces of the semicircular clamping plate B and the semicircular plate B; the invention ensures the safety of the cement telegraph pole during unloading by utilizing the double-layer protection of the semicircular rubber sheets and the damping springs.

Description

Unloading and rolling device for cement telegraph pole

[ technical field ] A

The invention relates to a cement telegraph pole unloading device, in particular to a cement telegraph pole unloading roll-off device.

[ background of the invention ]

As is known, the supporting overhead conductor mainly utilizes wooden poles, cement poles, electric power towers and the like, and the wooden poles have poor corrosion resistance and a small application range; the electric iron tower has large floor area and higher cost, is mainly used for high-voltage or extra-high voltage electric power lines, and the cement telegraph pole is widely used in field ground, roadside and residential area green belts; current cement wire pole transportation uses self-made tractor of taking self-discharging device, nevertheless receives the restriction influence at the district scope in the city and can't use basically, so use freight train transportation cement wire pole mostly, utilize the freight train to send the construction to plant the ground after the dumper always be a problem at the cement wire pole, the rigid dumper can lead to the light person of cement wire pole to appear the crack, serious lead to the fracture of cement wire pole.

[ summary of the invention ]

In order to overcome the defects in the background art, the invention discloses a cement telegraph pole unloading roll-off device, which ensures the safety of the cement telegraph pole during unloading by utilizing the double-layer protection of a semicircular rubber sheet and a damping spring.

The technical scheme for realizing the invention is as follows:

the cement telegraph pole unloading roll-off device comprises a semicircular clamping plate A, a semicircular rubber sheet A, a semicircular clamping plate B, a semicircular rubber sheet B, a semicircular plate A, a semicircular plate B, damping springs and connecting screws, wherein the semicircular rubber sheet A is arranged on the inner face of the semicircular clamping plate A, the semicircular rubber sheet B is arranged on the inner face of the semicircular clamping plate B, semicircular guard plates A formed by inward bending are respectively arranged on two sides of the semicircular plate A, semicircular guard plates B formed by inward bending are respectively arranged on two sides of the semicircular plate B, the semicircular plate A is hinged with one end of the semicircular plate B, two sides of the other end of the semicircular plate A and the other end of the semicircular plate B are respectively connected with each other through the connecting screws to form a whole circle, the inner ends and the outer ends of a plurality of damping springs are uniformly and fixedly connected to the opposite faces of the semicircular clamping plate A and the semicircular plate A, and the inner ends and the outer ends of the plurality of damping springs are uniformly and fixedly connected to the opposite faces of the semicircular clamping plate B; the anti-breaking device is characterized in that a semicircular rubber sheet A in the semicircular clamping plate A and a semicircular rubber sheet B in the semicircular clamping plate B are respectively sleeved on the outer face of the telegraph pole to obtain the anti-breaking effect of the cement telegraph pole during unloading.

The cement telegraph pole unloading and rolling device is characterized in that double connecting rings are arranged on the inner side of one end of the semicircular plate A, and a gap is formed between the double connecting rings; the one end inboard of semicircle board B is equipped with single go-between, and the opening of semicircle board A double link is worn to the single link of semicircle board B, and the axle hole B of single link is worn to the axle middle part, the both ends of axle are the articulated connection of the axle hole A formation of the double link of fixed connection respectively.

The cement telegraph pole unloading roll-off device is characterized in that side connecting pieces B are arranged on the outer sides of two semicircular guard plates A at the other ends of the semicircular plates A respectively, side connecting pieces A are arranged on the outer sides of two semicircular guard plates B at the other ends of the semicircular plates B respectively, and screws of two connecting screws respectively penetrate through the through holes A of the two side connecting pieces B of the semicircular plates A and the through holes B of the two side connecting pieces A of the semicircular plates B and then are locked by nuts.

The cement telegraph pole unloading and rolling device is characterized in that two rows of outer fixing holes A are formed in the surrounding semicircular surface of the semicircular plate A; two rows of inner fixing holes A are formed in the surrounding semicircular surface of the semicircular clamping plate A, straight rods arranged at the inner end and the outer end of each damping spring penetrate through the inner fixing holes A of the semicircular clamping plate A and the outer fixing holes A of the semicircular clamping plate A respectively and then are bent through the end parts to form fixed connection; or the straight rods respectively arranged at the inner end and the outer end of the damping springs penetrate through the inner fixing hole A of the semicircular clamping plate A and the outer fixing hole A of the semicircular plate A to form fixed connection through welding connection.

The cement telegraph pole unloading and rolling device is characterized in that two rows of outer fixing holes B are formed in the surrounding semicircular surface of the semicircular plate B; two rows of inner fixing holes B are formed in the surrounding semicircular surface of the semicircular clamping plate B, and straight rods respectively arranged at the inner end and the outer end of the other plurality of damping springs penetrate through the inner fixing holes B of the semicircular clamping plate B and the outer fixing holes B of the semicircular clamping plate B and are bent through the end parts to form fixed connection; or straight rods respectively arranged at the inner end and the outer end of each damping spring penetrate through the inner fixing hole B of the semicircular clamping plate B and the outer fixing hole B of the semicircular clamping plate B to be fixedly connected through welding.

The cement telegraph pole unloading roll-off device is characterized in that the two ends of the semicircular clamping plate A are respectively provided with an outer bending A, the two ends of the semicircular clamping plate B are respectively provided with an outer bending B, and the outer bending A of the semicircular clamping plate A and the two outer bending B of the semicircular clamping plate B are opposite to form the anti-dislocation of the semicircular clamping plate A and the semicircular clamping plate B.

The cement telegraph pole unloading roll-off device is characterized in that the semicircular clamping plate A, the semicircular clamping plate B, the semicircular plate A and the semicircular plate B are made of spring steel materials, stainless steel materials or aluminum alloy materials.

When the cement telegraph pole unloading roll-off device is used, a telegraph pole is pulled out of a vehicle compartment by using a pull rope, one end of the telegraph pole is suspended, a set of cement telegraph pole unloading roll-off device is taken, two nuts are taken down, a semicircular plate A and a semicircular plate B are opened, then a semicircular rubber sheet A and a semicircular rubber sheet B are respectively sleeved on the outer edge surface of the telegraph pole close to the end part, then screws are respectively used for penetrating through a through hole A of a connecting sheet B at two sides of the semicircular plate A and a through hole B of a connecting sheet A at two sides of the semicircular plate B and then locked by the nuts, the pull rope is manually pulled to enable the semicircular plate A or the semicircular plate B at one end of the telegraph pole to fall on the ground, and at the moment, the semicircular plate A is protected by a semicircular guard plate A and a damping spring; or the semicircular plate B obtains the telegraph pole to be free from damage under the protection of the semicircular guard plate B and another damping spring; then unload another set of cement wire pole and roll the ware and take off two nuts, open semicircle board A and semicircle board B after, overlap semicircle sheet rubber A and semicircle sheet rubber B respectively on the wire pole is close to the outer fringe face of tip, then it is died by the nut lock after passing the perforation A of semicircle board A both sides connection piece B and the perforation B of semicircle board B both sides connection piece A respectively to utilize the screw, hold the semicircle board A or the semicircle board B that the stay cord made the wire pole other end by the manual work and fall subaerial, the semicircle board A acquires the wire pole other end and also avoids the injury under semicircle backplate A and damping spring's protection this moment.

The cement telegraph pole unloading roll-off device is applied and suitable for unloading soil ground in fields and newly repaired pavements.

The cement telegraph pole unloading roll-off device is applied and suitable for rolling off at a high position of a ramp.

Through the disclosure, the beneficial effects of the invention are as follows:

according to the cement telegraph pole unloading and rolling device, the semicircular rubber sheets A and the semicircular rubber sheets B are respectively arranged on the inner surfaces of the semicircular clamping plates A and the semicircular clamping plates B, and a first protection structure for the telegraph pole is obtained by utilizing the interference fit of a circular structure formed by the semicircular rubber sheets A and the semicircular rubber sheets B and the outer edge surface of the telegraph pole; the damping spring further weakens the amplitude transmitted by the semicircular plate A and the semicircular plate B; the semicircular guard plates A arranged on the two sides of the semicircular plate A effectively increase the strength of the semicircular plate A; the semicircular guard plates B arranged on the two sides of the semicircular plate B effectively increase the strength of the semicircular plate B; the double connecting rings and the single connecting rings arranged at one ends of the semicircular plate A and the semicircular plate B are hinged to facilitate the connection of the other ends of the semicircular plate A and the semicircular plate B, particularly, the double connecting rings and the single connecting rings arranged at one ends of the semicircular plate A and the semicircular plate B are positioned at the inner sides of the semicircular plate A and the semicircular plate B, and the side connecting sheets B and the side connecting sheets A arranged at the outer sides of the semicircular guard plate A and the semicircular guard plate B at the other ends of the semicircular plate A and the semicircular plate B ensure that the circular structure of the outer edge of the semicircular plate A and the semicircular guard plate B cannot be in hard contact with the ground; the invention has reasonable structure, is easy to unload the cement telegraph pole and can ensure the safety of the cement telegraph pole during unloading.

[ description of the drawings ]

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

FIG. 2 is a schematic view of the shock absorbing spring structure of the present invention;

FIG. 3 is a schematic perspective view of a semicircular plate A of the present invention;

FIG. 4 is a schematic perspective view of a semicircular plate B according to the present invention;

FIG. 5 is a schematic perspective view of a semi-circular fastener plate A according to the present invention;

FIG. 6 is a schematic perspective view of a semi-circular chuck plate A of the present invention;

FIG. 7 is a schematic perspective view of a semicircular rubber sheet A according to the present invention;

FIG. 8 is a schematic perspective view of a semicircular rubber sheet B according to the present invention;

FIG. 9 is a schematic view of the present invention in use;

in the figure: 1. a semicircular guard plate A; 2. a semicircular plate A; 3. a semicircular clamping plate A; 4. a semicircular rubber sheet A; 5. a damping spring; 6. bending A outwards; 7. a double link ring; 8. a shaft; 9. a single connection ring; 10. bending B outwards; 11. bending the end part; 12. a semicircular clamping plate B; 13. a semicircular guard plate B; 14. a semicircular rubber sheet B; 15. a semicircular plate B; 16. a nut; 17. a side connection sheet A; 18. a side connection sheet B; 19. a screw; 20. a straight rod; 21. a semicircular groove A; 22. an outer fixing hole A; 23. opening the gap; 24. the shaft hole A; 25. punching a hole A; 26. a shaft hole B; 27. punching a hole B; 28. an outer fixing hole B; 29. a semicircular groove B; 30. an inner fixing hole A; 31. an inner fixing hole B; 32. a vehicle; 33. pulling a rope; 34. a utility pole; 35. and (4) the ground.

[ detailed description ] embodiments

The invention will be further illustrated with reference to the following examples; the following examples are not intended to limit the present invention, and are only used as a support for the implementation of the present invention, and any equivalent structure replacement within the technical framework of the present invention is included in the protection scope of the present invention;

the cement telegraph pole unloading roll-off device disclosed in the attached drawings 1-8 is combined and comprises a semicircular clamping plate A3, a semicircular rubber sheet A4, a semicircular clamping plate B12, a semicircular rubber sheet B14, a semicircular plate A2, a semicircular plate B15, damping springs 5 and connecting screws, wherein the semicircular rubber sheet A4 is arranged on the inner surface of the semicircular clamping plate A3, the semicircular rubber sheet B14 is arranged on the inner surface of the semicircular clamping plate B12, semicircular protective plates A1 formed by inward bending are respectively arranged on two sides of the semicircular plate A2, semicircular protective plates B13 formed by inward bending are respectively arranged on two sides of the semicircular plate B15, the semicircular plate A2 is hinged with one end of the semicircular plate B15, two sides of the other ends of the semicircular plate A2 and the semicircular plate B15 are respectively connected with each other through the connecting screws to form a whole circle, the inner ends and the outer ends of the damping springs 5 are fixedly connected to the opposite surfaces of the semicircular clamping plate A3 and the semicircular plate A2 uniformly, and the inner ends and the outer ends of the damping springs 5 are fixedly connected to the opposite surfaces of the semicircular plate B12 and the semicircular plate B15 uniformly; the semicircular rubber sheet A4 in the semicircular clamping plate A3 and the semicircular rubber sheet B14 in the semicircular clamping plate B12 are respectively sleeved on the outer surface of the telegraph pole 34 to obtain the fracture prevention of the cement telegraph pole during unloading.

With reference to fig. 1, 3 and 4, a double connecting ring 7 is arranged on the inner side of one end of the semicircular plate A2, and a gap 23 is formed between the double connecting rings 7; the inner side of one end of the semicircular plate B15 is provided with a single connecting ring 9, the single connecting ring 9 of the semicircular plate B15 penetrates through the opening 23 of the double connecting rings 7 of the semicircular plate A2, the middle part of the shaft 8 penetrates through a shaft hole B26 of the single connecting ring 9, and two ends of the shaft 8 are fixedly connected with shaft holes A24 of the double connecting rings 7 respectively to form hinged connection; the outer sides of two semicircular guard plates A1 at the other end of the semicircular plate A2 are respectively provided with a side connecting sheet B18, the outer sides of two semicircular guard plates B13 at the other end of the semicircular plate B15 are respectively provided with a side connecting sheet A17, and screws 19 of two connecting screws respectively penetrate through a perforation A25 of the connecting sheet B18 at the two sides of the semicircular plate A2 and a perforation B27 of the connecting sheet A17 at the two sides of the semicircular plate B15 and then are locked by nuts 16.

With reference to fig. 1, 2, 3 and 4, two rows of outer fixing holes a22 are formed on the surrounding semicircular surface of the semicircular plate A2; two rows of inner fixing holes A30 are formed in the surrounding semicircular surface of the semicircular clamping plate A3, and straight rods 20 respectively arranged at the inner end and the outer end of the damping springs 5 penetrate through the inner fixing holes A30 of the semicircular clamping plate A3 and the outer fixing holes A22 of the semicircular plate A2 and then are fixedly connected through end bending 11; or the straight rods 20 respectively arranged at the inner end and the outer end of the damping springs 5 penetrate through the inner fixing hole A30 of the semicircular clamping plate A3 and the outer fixing hole A22 of the semicircular plate A2 and then are fixedly connected through welding; two rows of outer fixing holes B28 are arranged on the surrounding semicircular surface of the semicircular plate B15; two rows of inner fixing holes B31 are formed in the surrounding semicircular surface of the semicircular clamping plate B12, and straight rods 20 respectively arranged at the inner end and the outer end of the other plurality of damping springs 5 penetrate through the inner fixing holes B31 of the semicircular clamping plate B12 and the outer fixing holes B28 of the semicircular plate B15 and then are fixedly connected through end bending 11; or the straight rods 20 respectively arranged at the inner end and the outer end of the damping springs 5 penetrate through the inner fixing holes B31 of the semicircular snap-gauge B12 and the outer fixing holes B28 of the semicircular snap-gauge B15 and then are fixedly connected through welding.

With reference to fig. 1, 5 and 6, the two ends of the semicircular clamping plate A3 are respectively provided with an external bending A6, the two ends of the semicircular clamping plate B12 are respectively provided with an external bending B10, and the external bending A6 of the semicircular clamping plate A3 and the two external bending B10 of the semicircular clamping plate B12 are opposite to each other to form the anti-dislocation structure of the semicircular clamping plate A3 and the semicircular clamping plate B12.

According to the cement telegraph pole unloading roll-off device disclosed by the invention, with reference to the attached drawings 1-8, the semicircular clamping plate A3, the semicircular clamping plate B12, the semicircular plate A2 and the semicircular plate B15 are made of any one of spring steel materials, stainless steel materials or aluminum alloy materials, the cement telegraph pole unloading roll-off device is preferably made of spring steel, and the thickness of the semicircular clamping plate A3, the semicircular clamping plate B12, the semicircular plate A2 and the semicircular plate B15 is 8 mm-one centimeter; the thickness of the semicircular rubber sheet A4 and the semicircular rubber sheet B14 is about one centimeter to one point and five centimeters;

two sets of cement pole unloading roll-off devices are manufactured according to the diameters, close to two ends, of a cement pole, namely, a semicircular rubber sheet A4 in one set of semicircular clamping plate A3 and a semicircular rubber sheet B14 in the semicircular clamping plate B12 are matched with the outer diameter of the thick end of the cement pole in an interference fit mode, and a semicircular rubber sheet A4 in the other set of semicircular clamping plate A3 and a semicircular rubber sheet B14 in the semicircular clamping plate B12 are matched with the outer diameter of the thin end of the cement pole in an interference fit mode;

the installation process is as follows:

with reference to fig. 1, 2, 3, 4, 5 or 6, when the semicircular snap-gauge A3, the semicircular snap-gauge B12, the semicircular snap-gauge A2 and the semicircular snap-gauge B15 are made of spring steel or stainless steel, the eight damping springs 5 are divided into two rows, the outer ends of the straight rods 20 of the damping springs 5 are inserted into the outer fixing holes a22 from the semicircular groove a21 formed between the two semicircular guard plates A1 of the semicircular snap-gauge A2, then the straight rods 20 are respectively clinched by a hammer and fixed by argon arc welding, the inner ends of the two rows of straight rods 20 of the eight damping springs 5 are inserted into the inner fixing holes a30 of the semicircular snap-gauge A3, the straight rods 20 are respectively clinched by a hammer and fixed by argon arc welding, and then the semicircular rubber sheet A4 and the inner surface of the semicircular snap-gauge A3 are bonded together by YH-818 special glue; similarly, the other eight damping springs 5 are divided into two rows, the outer ends of the straight rods 20 of the damping springs 5 are inserted into the outer fixing holes B28 from the semicircular grooves B29 formed between the semicircular plate B15 and the two semicircular guard plates B13, then the straight rods 20 are respectively clinched by using a hammer and then fixed by using argon arc welding, the inner ends of the two rows of straight rods 20 of the other eight damping springs 5 are inserted into the inner fixing holes B31 of the semicircular clamping plate B12, the straight rods 20 are respectively clinched by using a hammer and then fixed by using argon arc welding, and then the semicircular rubber sheets B14 are bonded with the inner surfaces of the semicircular clamping plates B12 by using YH-818 special glue; if the semicircular clamping plate A3, the semicircular clamping plate B12, the semicircular plate A2 and the semicircular plate B15 which are made of aluminum alloy materials are used, argon arc welding is not needed when the damping spring 5 is connected with the semicircular clamping plate A3, the semicircular clamping plate B12, the semicircular plate A2 and the semicircular plate B15, but the reserved lengths of the straight rods 20 at the two ends of the damping spring 5 are increased to be adjacent to each other, and the straight rods can be wound with each other to be separated; if the rubber plate is used on a cement road surface or an asphalt road surface, the rubber plate with the thickness not less than 2 centimeters is stuck on the outer surfaces of the semicircular plate A2 and the semicircular plate B15; the single connecting ring 9 at one end of the semicircular plate B15 is penetrated in the notch 23 of the double connecting ring 7 at one end of the semicircular plate A2, and the shaft 8 is penetrated in the shaft hole B26 of the single connecting ring 9 and the shaft hole A24 of the double connecting ring 7 to obtain hinged connection; two screws 19 respectively penetrate through a through hole A25 of a connecting sheet B18 at the side of the semicircular plate A2 and a through hole B27 of a connecting sheet A17 at the side of the semicircular plate B15, are respectively connected with a nut 16, and then the other set of screws is installed in the same way for later use;

when the concrete telegraph pole unloading and rolling device is used, the telegraph pole 34 is pulled out of a carriage of a vehicle 32 by the pull rope 33 with reference to the attached drawings 1 to 8 and 9, one end of the telegraph pole 34 is suspended, a set of cement telegraph pole unloading and rolling device is taken, two nuts 16 are taken down, after the semicircular plate A2 and the semicircular plate B15 are opened, the semicircular rubber sheet A4 and the semicircular rubber sheet B14 are respectively sleeved on the outer edge surface of the telegraph pole 34 close to the end part, then the screws 19 respectively penetrate through the through holes A25 of the connecting sheets B18 at two sides of the semicircular plate A2 and the through holes B27 of the connecting sheets A17 at two sides of the semicircular plate B15 and are locked by the nuts 16, the pull rope 33 is manually pulled to enable the semicircular plate A2 or the semicircular plate B15 at one end of the telegraph pole 34 to fall on the ground 35, and at the moment, the semicircular plate A2 is protected by the semicircular guard plate A1 and the damping spring 5; or the semicircular plate B15 obtains the telegraph pole 34 from being injured under the protection of the semicircular guard plate B13 and the other damping spring 5; then another set of cement telegraph pole unloading roll-off device is taken down, the two nuts 16 are taken off, after the semicircular plate A2 and the semicircular plate B15 are opened, the semicircular rubber sheet A4 and the semicircular rubber sheet B14 are respectively sleeved on the outer edge surface of the telegraph pole 34 close to the end part, then the screws 19 respectively penetrate through the through holes A25 of the connecting sheets B18 at the two sides of the semicircular plate A2 and the through holes B27 of the connecting sheets A17 at the two sides of the semicircular plate B15 and are locked by the nuts 16, the pull rope 33 is manually pulled to enable the semicircular plate A2 or the semicircular plate B15 at the other end of the telegraph pole 34 to fall on the ground 35, and at the moment, the semicircular plate A2 obtains the other end of the telegraph pole 34 under the protection of the semicircular guard plate A1 and the damping spring 5 and is also prevented from being damaged; the invention is suitable for unloading the soil ground in the field and newly repaired road or suitable for rolling off at high positions of the ramp.

The invention is not described in detail in the prior art.

Claims

1. The utility model provides a cement wire pole rolls ware of unloading, includes semicircle cardboard A (3), semicircle sheet rubber A (4), semicircle cardboard B (12), semicircle sheet rubber B (14), semicircle board A (2), semicircle board B (15), damping spring (5) and connecting screw, characterized by: the inner surface of the semicircular clamping plate A (3) is provided with a semicircular rubber sheet A (4), the inner surface of the semicircular clamping plate B (12) is provided with a semicircular rubber sheet B (14), two sides of the semicircular plate A (2) are respectively provided with a semicircular protective plate A (1) formed by inward bending, two sides of the semicircular plate B (15) are respectively provided with a semicircular protective plate B (13) formed by inward bending, the semicircular plate A (2) is hinged with one end of the semicircular plate B (15), two sides of the other end of the semicircular plate A (2) and the other end of the semicircular plate B (15) are respectively connected with each other through connecting screws to form a whole circle, the inner ends and the outer ends of the plurality of damping springs (5) are uniformly and fixedly connected to the opposite surfaces of the semicircular clamping plate A (3) and the semicircular plate A (2), and the inner ends and the outer ends of the plurality of damping springs (5) are uniformly and fixedly connected to the opposite surfaces of the semicircular clamping plate B (12) and the semicircular plate B (15); the semicircular rubber sheet A (4) in the semicircular clamping plate A (3) and the semicircular rubber sheet B (14) in the semicircular clamping plate B (12) are respectively sleeved on the outer surface of the telegraph pole (34) to prevent the cement telegraph pole from being broken during unloading.

2. The cement pole unloading roll-off device of claim 1, wherein: a double connecting ring (7) is arranged on the inner side of one end of the semicircular plate A (2), and a gap (23) is formed between the double connecting rings (7); the one end inboard of semicircle board B (15) is equipped with single go-between (9), and in opening (23) of semicircle board A (2) double link (7) were worn in single go-between (9) of semicircle board B (15), and axle hole B (26) in single go-between (9) were worn in axle (8) middle part, the both ends of axle (8) are the axle hole A (24) formation articulated connection of fixed connection double link (7) respectively.

3. The cement pole roll-off unit of claim 1, wherein: the outer sides of two semicircular guard plates A (1) at the other ends of the semicircular plates A (2) are respectively provided with a side connecting piece B (18), the outer sides of two semicircular guard plates B (13) at the other ends of the semicircular plates B (15) are respectively provided with a side connecting piece A (17), and screws (19) of two connecting screws respectively penetrate through a through hole A (25) of the connecting piece B (18) at the two sides of the semicircular plates A (2) and a through hole B (27) of the connecting piece A (17) at the two sides of the semicircular plates B (15) and then are locked by nuts (16).

4. The cement pole roll-off unit of claim 1, wherein: two rows of outer fixing holes A (22) are arranged on the surrounding semicircular surface of the semicircular plate A (2); two rows of inner fixing holes A (30) are formed in the surrounding semicircular surface of the semicircular clamping plate A (3), straight rods (20) respectively arranged at the inner end and the outer end of the damping springs (5) penetrate through the inner fixing holes A (30) of the semicircular clamping plate A (3) and the outer fixing holes A (22) of the semicircular plate A (2) and then are fixedly connected through end bending (11); or the straight rods (20) respectively arranged at the inner end and the outer end of the damping springs (5) penetrate through the inner fixing hole A (30) of the semicircular clamping plate A (3) and the outer fixing hole A (22) of the semicircular plate A (2) and then are fixedly connected through welding.

5. The cement pole unloading roll-off device of claim 1, wherein: two rows of outer fixing holes B (28) are arranged on the surrounding semicircular surface of the semicircular plate B (15); two rows of inner fixing holes B (31) are formed in the surrounding semicircular surface of the semicircular clamping plate B (12), and straight rods (20) respectively arranged at the inner end and the outer end of the other damping spring (5) penetrate through the inner fixing holes B (31) of the semicircular clamping plate B (12) and the outer fixing holes B (28) of the semicircular plate B (15) and then are fixedly connected through end parts bent (11); or the straight rods (20) respectively arranged at the inner end and the outer end of the damping springs (5) penetrate through the inner fixing hole B (31) of the semicircular clamping plate B (12) and the outer fixing hole B (28) of the semicircular plate B (15) and then are fixedly connected through welding.

6. The cement pole roll-off unit of claim 1, wherein: the anti-dislocation device is characterized in that the two ends of the semicircular clamping plate A (3) are respectively provided with an outer bending A (6), the two ends of the semicircular clamping plate B (12) are respectively provided with an outer bending B (10), and the outer bending A (6) of the semicircular clamping plate A (3) and the two outer bending B (10) of the semicircular clamping plate B (12) are opposite to form the anti-dislocation of the semicircular clamping plate A (3) and the semicircular clamping plate B (12).

7. The cement pole unloading roll-off device of claim 1, wherein: semicircle cardboard A (3), semicircle cardboard B (12), semicircle board A (2) and semicircle board B (15) are any one of spring steel material, stainless steel material or aluminum alloy material.

8. Use of the cement pole roll-off device of any of claims 1 to 7 in an unloading station, wherein: when the cement telegraph pole unloading roll falling device is used, the telegraph pole (34) is pulled out of a carriage of a vehicle (32) by using the pull rope (33), one end of the telegraph pole (34) is suspended, a set of cement telegraph pole unloading roll falling device is taken, two nuts (16) are taken down, after the semicircular plate A (2) and the semicircular plate B (15) are opened, the semicircular rubber sheet A (4) and the semicircular rubber sheet B (14) are respectively sleeved on the outer edge surface of the telegraph pole (34) close to the end part, then the screws (19) are respectively used for penetrating through the through holes A (25) of the connecting sheets B (18) on the two sides of the semicircular plate A (2) and the through holes B (27) of the connecting sheets A (17) on the two sides of the semicircular plate B (15), the semicircular plate A (2) or the semicircular plate B (15) on one end of the telegraph pole (34) is locked by the nuts (16), and the semicircular plate A (2) is manually pulled to fall on the ground (35), and at the moment, the semicircular plate A (2) is protected by the semicircular guard plate A (1) and the damping spring (5); or the semicircular plate B (15) obtains the telegraph pole (34) from being damaged under the protection of the semicircular guard plate B (13) and the other damping spring (5); then another set of cement telegraph pole unloading roll-off device is taken down, two nuts (16) are taken down, after a semicircular plate A (2) and a semicircular plate B (15) are opened, a semicircular rubber sheet A (4) and a semicircular rubber sheet B (14) are respectively sleeved on the outer edge face of the telegraph pole (34) close to the end part, then screws (19) are utilized to respectively penetrate through a perforation A (25) of a connecting sheet B (18) on two sides of the semicircular plate A (2) and a perforation B (27) of a connecting sheet A (17) on two sides of the semicircular plate B (15), then the nuts (16) are locked, a pull rope (33) is manually pulled to enable the semicircular plate A (2) or the semicircular plate B (15) on the other end of the telegraph pole (34) to fall on the ground (35), and at the moment, the semicircular plate A (2) obtains the other end of the telegraph pole (34) under the protection of a semicircular protective plate A (1) and a damping spring (5) to prevent damage.

9. The use of the cement pole unloader roll off of claim 8, wherein: the cement telegraph pole unloading roll-off device is suitable for unloading soil ground in fields and newly repaired pavements.

10. The use of the cement pole unloader roll off of claim 8, wherein: the cement telegraph pole unloading roll-off device is suitable for rolling off at high positions of ramps.