CN211393737U - Cable drum conveyer fixture - Google Patents

Abstract

The utility model discloses a cable drum conveyer fixture, include: the distance between two side arms of the U-shaped part is greater than the width of the cable coil, and the length of the two side arms of the U-shaped part is greater than the radius of the cable coil; the side shafts comprise 2 side shafts, the diameters of the side shafts are smaller than the through holes in the middle shaft of the cable drum, the side shafts are movably mounted on two side arms of the U-shaped part, the moving direction of the side shafts is perpendicular to the two side arms of the U-shaped part, and the distance from the side shafts to a connecting arm of the U-shaped part is larger than the radius of the cable drum; the side shaft is movably connected to two side arms of the U-shaped part through a telescopic driving mechanism, the telescopic direction of the telescopic driving mechanism is perpendicular to the two side arms of the U-shaped part, and the telescopic driving mechanism is connected to the two side arms of the U-shaped part. The problems of complex operation and danger in the prior art are solved.

Description

Cable drum conveyer fixture

Technical Field

The utility model relates to a mechanical equipment technical field especially relates to a cable drum conveyer fixture.

Background

Photovoltaic power plant construction place, the removal of cable drum generally adopts wire rope to bind, adopts the crane handling, but wire rope binds the crane handling and has following problem:

the operation is complex, the steel wire rope is required to be used for binding before each hoisting, the binding process is complex, and the operation time is long;

the cable drum is dangerous and weighs more than 2 tons, the cable drum is bound by a steel wire rope and suspended in the air in the hoisting process of the crane, the cable drum can swing under the suspension arm of the crane due to the motion of the crane or the blowing of strong wind, the crane can be turned on one side if careless, and even the cable drum slips from the steel wire rope and smashes people and objects on the ground.

Disclosure of Invention

In order to solve the shortcomings and shortcomings of the prior art, the utility model discloses a first-line objective provides a cable drum conveyer fixture.

The technical scheme of the utility model is that: a cable spool transportation device clamping mechanism comprising:

the distance between two side arms of the U-shaped part is greater than the width of the cable coil, and the length of the two side arms of the U-shaped part is greater than the radius of the cable coil;

the side shafts comprise 2 side shafts, the diameters of the side shafts are smaller than the through holes in the middle shaft of the cable drum, the side shafts are movably mounted on two side arms of the U-shaped part, the moving direction of the side shafts is perpendicular to the two side arms of the U-shaped part, and the distance from the side shafts to a connecting arm of the U-shaped part is larger than the radius of the cable drum; the side shaft is movably connected to two side arms of the U-shaped part through a telescopic driving mechanism, the telescopic direction of the telescopic driving mechanism is perpendicular to the two side arms of the U-shaped part, and the telescopic driving mechanism is connected to the two side arms of the U-shaped part.

Furthermore, the end face of the telescopic driving mechanism, which is close to one side of the side shaft, is fixedly connected with a disc, the disc is perpendicular to the side shaft, and the central axis of the disc is superposed with the side shaft.

Further, still include:

the rotating shaft is provided with a hole with a diameter larger than that of the side shaft along the length direction of the side shaft, the side shaft penetrates out of the hole, one end of the rotating shaft is fixedly connected to the end face, close to the side shaft, of the disc, the central axis of the rotating shaft is overlapped with that of the side shaft, the end, far away from the disc, of the rotating shaft is fixedly connected with a chuck, and the diameter of the chuck is larger than that of the rotating shaft;

the center of the movable disc is provided with a mounting hole with a diameter larger than that of the chuck, one end of the mounting hole is fixedly connected with a baffle ring, the inner diameter of the baffle ring is larger than the outer diameter of the rotating shaft and smaller than the outer diameter of the chuck, and the movable disc is a permanent magnet made of neodymium iron boron;

the disc is a permanent magnet made of neodymium iron boron, and the magnetic poles of the opposite surfaces of the disc and the movable disc are the same in polarity.

Further, the outer surface of the side part of the side shaft is rotatably connected with a rotary drum through a pulley structure, the inner diameter of the rotary drum is larger than that of the side shaft, and the outer diameter of the rotary drum is smaller than that of the hole of the rotating shaft.

Further, the U-shaped piece is parallel to the horizontal plane.

Further, the side arm of the U-shaped piece is a telescopic rod.

Further, the telescopic driving mechanism is an electric telescopic rod.

Furthermore, the telescopic driving mechanism is connected to two side arms of the U-shaped part through a damping mechanism.

Further, the shock absorbing mechanism includes:

the plane of the U-shaped frame is vertical to the horizontal plane, and a connecting rod of the U-shaped frame is fixedly connected with a side arm of the U-shaped piece;

the buffer comprises 2 buffers, two ends of one buffer are respectively and fixedly connected with an upper side rod of the U-shaped frame and the telescopic driving mechanism, and two ends of the other buffer are respectively and fixedly connected with a lower side rod of the U-shaped frame and the telescopic driving mechanism;

the locating piece, the setting element both ends difference fixed connection U type frame's upper bar and lower bar, the setting element middle section is the vertical body of rod of direction, the middle section activity of setting element is pegged graft in the riser on telescopic driving mechanism.

Further, the buffer includes:

the inserted bar is a permanent magnet;

the inner diameter of the cylinder body is matched with the inserted link, and the inserted link is movably inserted in the cylinder body;

the permanent magnet push block is matched with the inner diameter of the barrel, the length of the permanent magnet push block is smaller than that of the barrel, the permanent magnet push block is arranged in the barrel, and the polarity of the magnetic pole at the upper part of the permanent magnet push block is the same as that of the magnetic pole at the lower part of the inserted link;

the inserted bar and the permanent magnet push block are made of neodymium iron boron.

The utility model has the advantages that:

compared with the prior art, the utility model discloses when needs transport cable drum, insert the side shaft of movable mounting on U type spare both sides arm in the through hole of cable drum both sides axis department, promote cable drum through promoting fixture and make cable drum rotate around the side shaft, it is more laborsaving convenient to make the side shaft insert the perforation of cable drum center pin department through flexible actuating mechanism, and when putting down cable drum, only need make the side shaft break away from the perforation of cable drum both sides axis department through the shrink of control flexible actuating mechanism, just can lift cable drum off. The utility model discloses a roll on ground and replace handling in the high altitude, promoted the security of cable drum transport, adopt flexible actuating mechanism control side shaft to stretch out and draw back and come centre gripping and uninstallation cable drum, simple swift more.

Drawings

FIG. 1 is a perspective view of a cable spool transportation device for a photovoltaic power plant when transporting a cable spool;

FIG. 2 is a perspective view of a cable spool transportation device for a photovoltaic power plant;

FIG. 3 is a top view of the U-shaped part;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 5 is a top plan view of a cable spool transportation device for a photovoltaic power plant;

FIG. 6 is a cross-sectional view taken along line C-C of FIG. 5;

fig. 7 is a partial view at D in fig. 6.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

example 1 was carried out: referring to fig. 1 to 7, a cable drum transportation device clamping mechanism includes: the distance between two side arms 302 of the U-shaped member 3 is greater than the width of the cable drum 7, and the length of the two side arms 302 of the U-shaped member 3 is greater than the radius of the cable drum 7; the side shafts 4 comprise 2 side shafts 4, the diameter of each side shaft 4 is smaller than that of a through hole at the central axis of the cable drum 7, the side shafts 4 are movably arranged on two side arms 302 of the U-shaped member 3, the moving direction of each side shaft 4 is perpendicular to the two side arms 302 of the U-shaped member 3, and the distance from each side shaft 4 to a connecting arm 301 of the U-shaped member 3 is larger than the radius of the cable drum 7; the side shaft 4 is movably connected to two side arms 302 of the U-shaped part 3 through a telescopic driving mechanism 5, the telescopic direction of the telescopic driving mechanism 5 is perpendicular to the two side arms 302 of the U-shaped part 3, and the telescopic driving mechanism 5 is connected to the two side arms 302 of the U-shaped part 3. The telescopic driving mechanism 5 can be an electric telescopic rod or a hydraulic telescopic rod.

The utility model discloses when needs transport cable drum 7, with movable mounting in the side shaft 4 on 3 both sides arms 302 of U type spare insert the perforation of the axis department in 7 both sides of cable drum, promote cable drum 7 through promoting fixture and make cable drum 7 rotate around side shaft 4, it is more laborsaving convenient to make the perforation that side shaft 4 inserted 7 center pins of cable drum department through flexible actuating mechanism 5, and when putting down cable drum 7, only need make side shaft 4 break away from the perforation of 7 both sides axis departments of cable drum through the 5 shrink of flexible actuating mechanism of control, just can lift cable drum 7 off. The utility model discloses a roll on ground and replace handling in the high altitude, promoted the security of cable drum 7 transport, adopt flexible centre gripping and uninstallation cable drum 7 of coming of 5 control side shafts of flexible actuating mechanism, it is simple more swift.

Furthermore, the end surface of the telescopic driving mechanism 5 close to the side shaft 4 is fixedly connected with a disc 501, the disc 501 is perpendicular to the side shaft 4, and the central axis of the disc is overlapped with the side shaft 4.

The disc 501 can prevent the edge angle of the end face of the telescopic driving mechanism 5 close to the side shaft 4 from being hung with the cable drum 7 when rotating, and the cable drum 7 or the clamping mechanism is damaged.

Further, still include: the diameter of the rotating shaft 504 is larger than that of the side shaft 4, a hole which is larger than that of the side shaft 4 is formed in the rotating shaft 504 along the length direction of the side shaft 4, the side shaft 4 penetrates out of the hole, one end of the rotating shaft 504 is fixedly connected to the end face, close to the side shaft 4, of the disc 501, the central axis of the rotating shaft 504 is overlapped with that of the side shaft 4, the end, far away from the disc 501, of the rotating shaft 504 is fixedly connected with a chuck 503, and the diameter of the chuck; the movable disc 502 is provided with a mounting hole with a diameter larger than that of the chuck 503 in the center, one end of the mounting hole is fixedly connected with a baffle ring 5021, the inner diameter of the baffle ring 5021 is larger than the outer diameter of the rotating shaft 504 and smaller than that of the chuck 503, and the movable disc 502 is a permanent magnet made of neodymium iron boron; the disc 501 is a permanent magnet made of neodymium iron boron, and the magnetic poles of the opposite surfaces of the disc 501 and the movable disc 502 are the same in polarity.

During the use, because the magnetic pole of the relative face is the same between activity dish 502 and disc 501 for activity dish 502 can not with disc 501 direct contact, thereby has guaranteed that the frictional force between activity dish 502 and disc 501 is minimum, activity dish 502 and cable drum 7 direct contact when cable drum 7 contacts activity dish 502, cable drum 7 rotates and drives activity dish 502 and rotate together, makes cable drum 7 can not wear and tear fixture or cable drum 7 because of the friction with disc 501 direct contact. Meanwhile, the catch ring 5021 is located at one side close to the disc 501, and due to the limiting effect of the chuck 503 and the snap ring 5021, the movable disc 502 is limited to move on the rotating shaft 504 along the axial direction of the rotating shaft 504.

Further, the outer surface of the side part of the side shaft 4 is rotatably connected with a drum 401 through a pulley structure, the inner diameter of the drum 401 is larger than that of the side shaft 4, and the outer diameter of the drum 401 is smaller than the inner diameter of the hole of the rotating shaft 504.

When the cable drum 7 is clamped by the side shaft 4, the friction force between the cable drum 7 and the side shaft 4 is smaller, and the abrasion of the clamping mechanism and the cable drum 7 is overhauled.

Further, the U-shaped element 3 is parallel to the horizontal plane.

Make U type spare 3 atress of U type spare 3 parallel with the length direction of U type spare 3 when push-and-pull cable drum 7 to avoid U type spare 3 to receive the power perpendicular with length direction, increase U type spare 3 life.

Further, the side arm 302 of the U-shaped member 3 is a telescopic rod.

The telescopic link can be hydraulic telescoping cylinder also can be electric telescopic handle, and the effect of playing is the cable drum 7 that adapts to different diameters.

Further, the telescopic driving mechanism 5 is an electric telescopic rod.

The electric telescopic rod is simple and easy to control.

Further, the telescopic driving mechanism 5 is connected to the two side arms 302 of the U-shaped member 3 through the shock absorbing mechanism 6.

Damper 6 makes cable drum 7 receive ground unevenness's influence at the roll in-process, and cable drum 7 vibrates from top to bottom, because damper 6 absorbing effect can eliminate the influence that cable drum 7 vibration led to the fact U type spare 3, makes operating personnel operate more comfortablely.

Further, the damper mechanism 6 includes: the plane where the U-shaped frame 601 is located is vertical to the horizontal plane, and a connecting rod 6011 of the U-shaped frame 601 is fixedly connected with a side arm 302 of the U-shaped part 3; the number of the buffers 603 is 2, two ends of one buffer 603 are respectively and fixedly connected with the upper side rod 6012 of the U-shaped frame 601 and the telescopic driving mechanism 5, and two ends of the other buffer 603 are respectively and fixedly connected with the lower side rod 6013 of the U-shaped frame 601 and the telescopic driving mechanism 5; the positioning member 602, the upper side pole 6012 and the lower side pole 6013 of the U-shaped frame 601 are respectively and fixedly connected to two ends of the positioning member 602, the middle section of the positioning member 602 is a rod body with a vertical direction, and the middle section of the positioning member 602 is movably inserted into the vertical hole 501 of the telescopic driving mechanism 5.

The buffer 603 can be an air bag buffer or a spring buffer, when in use, the side shaft 4 vibrates to drive the telescopic driving mechanism 5 to vibrate, and the vibration is weakened after being transmitted to the U-shaped frame 601 due to the buffering effect of the buffer 603.

Further, the buffer 603 includes: an insert bar 6031, the insert bar 6031 being a permanent magnet; the inner diameter of the cylinder 6032 is matched with that of an insert rod 6031, and the insert rod 6031 is movably inserted into the cylinder 6032; the permanent magnet pushing block 6033 is matched with the inner diameter of the cylinder 6032, the length of the permanent magnet pushing block 6033 is smaller than that of the cylinder 6032, the permanent magnet pushing block 6033 is installed in the cylinder 6032, and the polarity of the magnetic pole at the upper part of the permanent magnet pushing block 6033 is the same as that of the magnetic pole at the lower part of the insert rod 6031; the inserted link 6031 and the permanent magnet push block 6033 are made of neodymium iron boron.

Because the spring has used for a long time and can deform the gasbag and leak gas, adopt the effort between inserted bar 6031 and permanent magnetism ejector pad 6033 as the buffer power, great increase the life of buffer 603. The neodymium iron boron has strong magnetism, and the provided buffering force is larger.

Example 2 was carried out: referring to fig. 1 to 7, a cable drum transportation device for a photovoltaic power station comprises a vehicle body 1, and further comprises: the lifting mechanism 2 is fixedly connected to the front part or the rear part of the vehicle body 1; the connecting arm 301 of the U-shaped part 3 is fixedly connected with the lifting mechanism 2, the distance between two side arms 302 of the U-shaped part 3 is greater than the width of the cable drum 7, and the length of the two side arms 302 of the U-shaped part 3 is greater than the radius of the cable drum 7; the side shaft 4, the side shaft 4 includes 2, the diameter of the side shaft 4 is less than the perforation of the centre axis of the cable drum 7, the side shaft 4 is movably mounted on the two side arms 302 of the U-shaped member 3, the moving direction of the side shaft 4 is perpendicular to the two side arms 302 of the U-shaped member 3, and the distance from the side shaft 4 to the connecting arm 301 of the U-shaped member 3 is greater than the radius of the cable drum 7.

The utility model discloses when needs transport cable drum 7, with movable mounting in the side shaft 4 on 3 both sides arms 302 of U type spare inserts the perforation of the axis department in 7 both sides of cable drum, promote cable drum 7 through automobile body 1, make cable drum 7 rotate around side shaft 4, 2 lifts and to make 3 lifts of U type spare of elevating system, thereby adjustment cable drum 7 height, make pressure between cable drum 7 and ground be fit for, can not crush cable drum 7 when automobile body 1 promotes cable drum 7 and rolls, and make U type spare 3 can be applicable to the cable drum 7 of various diameters through elevating system 2.

Further, the U-shaped element 3 is parallel to the horizontal plane.

Make U type spare 3 atress of U type spare 3 parallel with the length direction of U type spare 3 when push-and-pull cable drum 7 to avoid U type spare 3 to receive the power perpendicular with length direction, increase U type spare 3 life.

Further, the two side arms 302 of the U-shaped member 3 are parallel to the longitudinal direction of the vehicle body 1.

The push-pull force of the vehicle body 1 is parallel to the length direction of the two side arms 302 of the U-shaped member 3, so that the two side arms 302 of the U-shaped member 3 are prevented from being subjected to a force perpendicular to the length direction, and the service life of the two side arms 302 of the U-shaped member 3 is prolonged.

Further, the side arm 302 of the U-shaped member 3 is a telescopic rod.

The telescopic link can be hydraulic telescoping cylinder also can be electric telescopic handle, and the effect of playing is the cable drum 7 that adapts to different diameters.

Furthermore, the side shaft 4 is movably connected to the two side arms 302 of the U-shaped member 3 through a telescopic driving mechanism 5, the telescopic direction of the telescopic driving mechanism 5 is perpendicular to the two side arms 302 of the U-shaped member 3, and the telescopic driving mechanism 5 is connected to the two side arms 302 of the U-shaped member 3.

The telescopic driving mechanism 5 can be a hydraulic cylinder or an electric telescopic rod, and plays a role in enabling the side shaft 4 to be inserted into the through hole in the central shaft of the cable drum 7, so that labor is saved.

Further, the telescopic driving mechanism 5 is an electric telescopic rod.

The electric telescopic rod is simple and easy to control.

Further, the telescopic driving mechanism 5 is connected to the two side arms 302 of the U-shaped member 3 through the shock absorbing mechanism 6.

Damper 6 makes cable drum 7 receive ground unevenness's influence at the roll in-process, and cable drum 7 vibrates from top to bottom, because damper 6 absorbing effect can eliminate the influence that cable drum 7 vibration caused automobile body 1, makes operating personnel operate more comfortablely.

Further, the damper mechanism 6 includes:

the plane where the U-shaped frame 601 is located is vertical to the horizontal plane, and a connecting rod 6011 of the U-shaped frame 601 is fixedly connected with a side arm 302 of the U-shaped part 3; the number of the buffers 603 is 2, two ends of one buffer 603 are respectively and fixedly connected with the upper side rod 6012 of the U-shaped frame 601 and the telescopic driving mechanism 5, and two ends of the other buffer 603 are respectively and fixedly connected with the lower side rod 6013 of the U-shaped frame 601 and the telescopic driving mechanism 5; the positioning member 602, the upper side pole 6012 and the lower side pole 6013 of the U-shaped frame 601 are respectively and fixedly connected to two ends of the positioning member 602, the middle section of the positioning member 602 is a rod body with a vertical direction, and the middle section of the positioning member 602 is movably inserted into the vertical hole 501 of the telescopic driving mechanism 5.

The buffer 603 can be an air bag buffer or a spring buffer, when in use, the side shaft 4 vibrates to drive the telescopic driving mechanism 5 to vibrate, and the vibration is weakened after being transmitted to the U-shaped frame 601 due to the buffering effect of the buffer 603.

Further, the buffer 603 includes: an insert bar 6031, the insert bar 6031 being a permanent magnet; the inner diameter of the cylinder 6032 is matched with that of an insert rod 6031, and the insert rod 6031 is movably inserted into the cylinder 6032; the permanent magnet pushing block 6033, permanent magnet pushing block 6033 and barrel 6032 internal diameter phase-match, permanent magnet pushing block 6033 length is less than barrel 6032, permanent magnet pushing block 6033 installs in barrel 6032, the magnetic pole polarity on permanent magnet pushing block 6033 upper portion is the same with the magnetic pole polarity of inserted bar 6031 lower part.

Because the spring has used for a long time and can deform the gasbag and leak gas, adopt the effort between inserted bar 6031 and permanent magnetism ejector pad 6033 as the buffer power, great increase the life of buffer 603.

Further, the material of the insert rod 6031 and the permanent magnet push block 6033 is neodymium iron boron.

The neodymium iron boron has strong magnetism, and the provided buffering force is larger.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A cable spool conveyer fixture which characterized in that includes:

the distance between two side arms (302) of the U-shaped piece (3) is larger than the width of the cable drum (7), and the length of the two side arms (302) of the U-shaped piece (3) is larger than the radius of the cable drum (7);

the side shafts (4), the side shafts (4) comprise 2, the diameter of each side shaft (4) is smaller than that of a through hole in the middle shaft of the cable drum (7), the side shafts (4) are movably mounted on two side arms (302) of the U-shaped member (3), the moving direction of each side shaft (4) is perpendicular to the two side arms (302) of the U-shaped member (3), and the distance from each side shaft (4) to a connecting arm (301) of the U-shaped member (3) is larger than the radius of the cable drum (7); the side shaft (4) is movably connected to two side arms (302) of the U-shaped part (3) through a telescopic driving mechanism (5), the telescopic direction of the telescopic driving mechanism (5) is perpendicular to the two side arms (302) of the U-shaped part (3), and the telescopic driving mechanism (5) is connected to the two side arms (302) of the U-shaped part (3).

2. The cable drum transport device clamping mechanism according to claim 1,

the end face of the telescopic driving mechanism (5) close to one side of the side shaft (4) is fixedly connected with a disc (501), the disc (501) is perpendicular to the side shaft (4), and the central axis of the disc is overlapped with the side shaft (4).

3. The cable drum transport device clamping mechanism according to claim 2,

further comprising:

the rotating shaft (504) is provided with a hole with a diameter larger than that of the side shaft (4) along the length direction of the side shaft (4), the side shaft (4) penetrates out of the hole, one end of the rotating shaft (504) is fixedly connected to the end face, close to the side shaft (4), of the disc (501), the central axis of the rotating shaft (504) is overlapped with the central axis of the side shaft (4), the end, far away from the disc (501), of the rotating shaft (504) is fixedly connected with a chuck (503), and the diameter of the chuck (503) is larger than that of the rotating shaft (504);

the movable disc (502), the center of the movable disc (502) is provided with a mounting hole with a diameter larger than that of the chuck (503), one end of the mounting hole is fixedly connected with a baffle ring (5021), the inner diameter of the baffle ring (5021) is larger than the outer diameter of the rotating shaft (504) and is smaller than that of the chuck (503), and the movable disc (502) is a permanent magnet made of neodymium iron boron;

the disc (501) is a permanent magnet made of neodymium iron boron, and the magnetic poles of the opposite surfaces of the disc (501) and the movable plate (502) are the same in polarity.

4. A cable drum transport device clamping mechanism according to claim 3,

the outer surface of the side part of the side shaft (4) is rotatably connected with a rotary drum (401) through a pulley structure, the inner diameter of the rotary drum (401) is larger than that of the side shaft (4), and the outer diameter of the rotary drum (401) is smaller than that of a hole of the rotating shaft (504).

5. The cable drum transport device clamping mechanism according to claim 1,

the U-shaped part (3) is parallel to the horizontal plane.

6. The cable drum transport device clamping mechanism according to claim 1,

the side arm (302) of the U-shaped member (3) is a telescopic rod.

7. The cable drum transport device clamping mechanism according to claim 1,

the telescopic driving mechanism (5) is an electric telescopic rod.

8. The cable drum transport device clamping mechanism according to claim 1,

the telescopic driving mechanism (5) is connected to two side arms (302) of the U-shaped part (3) through a damping mechanism (6).

9. A cable drum transport device clamping mechanism according to claim 8,

the damper mechanism (6) includes:

the plane where the U-shaped frame (601) is located is vertical to the horizontal plane, and a connecting rod (6011) of the U-shaped frame (601) is fixedly connected with a side arm (302) of the U-shaped part (3);

the buffer (603) comprises 2 buffers, two ends of one buffer (603) are respectively and fixedly connected with an upper side rod (6012) of the U-shaped frame (601) and the telescopic driving mechanism (5), and two ends of the other buffer (603) are respectively and fixedly connected with a lower side rod (6013) of the U-shaped frame (601) and the telescopic driving mechanism (5);

the positioning piece (602), the upside pole (6012) and the downside pole (6013) of setting element (602) both ends difference fixed connection U type frame (601), setting element (602) middle section is the vertical body of rod of direction, the middle section activity of setting element (602) is pegged graft in the riser on telescopic driving mechanism (5).

10. The cable drum transport device clamping mechanism according to claim 9,

the buffer (603) comprises:

the insert rod (6031), the insert rod (6031) is a permanent magnet;

the inner diameter of the cylinder (6032) is matched with the insert rod (6031), and the insert rod (6031) is movably inserted into the cylinder (6032);

the permanent magnet pushing block (6033), the inner diameter of the permanent magnet pushing block (6033) is matched with that of the barrel (6032), the length of the permanent magnet pushing block (6033) is smaller than that of the barrel (6032), the permanent magnet pushing block (6033) is installed in the barrel (6032), and the polarity of a magnetic pole at the upper part of the permanent magnet pushing block (6033) is the same as that of a magnetic pole at the lower part of the inserting rod (6031);

the inserted bar (6031) and the permanent magnet push block (6033) are made of neodymium iron boron.

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