CN109399369B - Drum-type cable collection device for communication engineering - Google Patents

Abstract

The invention relates to communication engineering equipment, in particular to a drum-type cable collecting device for communication engineering, which comprises a cable winding mechanism, a damping mechanism and a moving mechanism, wherein the drum-type cable collecting device is provided with an anti-slip buckle mechanism when cables are arranged so as to prevent a drum from rotating reversely, the drum-type cable collecting device is provided with a lifting mechanism which can be adjusted according to the number of the cables, the drum-type cable collecting device is provided with a good damping mechanism in the transportation and cable collecting processes, and the drum-type cable collecting device is also provided with a telescopic moving mechanism which is convenient for moving and is also convenient for stably placing the drum-type cable collecting device. The cable winding mechanism is connected with the damping mechanism through welding, and the damping mechanism is connected with the moving mechanism through welding.

Description

Drum-type cable collection device for communication engineering

Technical Field

The invention relates to communication engineering equipment, in particular to a drum-type cable collecting device for communication engineering.

Background

In the construction process of communication engineering, cables are indispensable transmission media, a great amount of cables are inconvenient to arrange and transport, and in order to solve the problem, a drum-type cable collection device for communication engineering is designed to solve the problem.

Disclosure of Invention

The invention mainly solves the technical problem of providing a drum-type cable collection device for communication engineering, which is provided with an anti-slip buckle mechanism when cables are arranged so as to prevent a drum from rotating reversely, a lifting mechanism is arranged on the device, the device can be adjusted according to the number of the cables, and has a good damping mechanism in the process of transportation and cable collection, and the device is also provided with a telescopic moving mechanism which is convenient for the device to move and is also convenient for the stable arrangement of the device.

In order to solve the technical problems, the invention relates to a communication engineering device, in particular to a drum-type cable collecting device for communication engineering, which comprises a cable winding mechanism, a damping mechanism and a moving mechanism, wherein the cable winding mechanism is connected with the damping mechanism in a welding mode, and the damping mechanism is connected with the moving mechanism in a welding mode.

The cable winding mechanism comprises an anti-slip buckle winding mechanism, a winding power mechanism, a lifting connecting mechanism, a lifting mechanism and a structural shell, wherein the anti-slip buckle winding mechanism is connected with the structural shell through welding;

the anti-slip buckle winding mechanism comprises a winding drum, an anti-slip gear, a rotary connecting gear, a fixing piece, a clamping block fixing piece, an anti-slip clamping block and an auxiliary positioning mechanism, wherein the fixing piece is connected with the structural shell through welding, the fixing piece is adaptive to the rotary connecting gear through a through hole, the rotary connecting gear is connected with the gear I through a gear chain, the anti-slip gear is connected with the rotary connecting gear through welding, the winding drum is connected with the rotary connecting gear through welding, the clamping block fixing piece is connected with the fixing piece through welding, the fixing piece is connected with the anti-slip clamping block through a fastening bolt, the anti-slip clamping block is adaptive to the anti-slip gear, the auxiliary positioning mechanism is connected with the fixing piece through welding, and the auxiliary positioning mechanism is;

the auxiliary positioning mechanism comprises a sealing cover, a sealing groove shell, a supporting spring and a T-shaped positioning piece, the sealing cover is connected with the sealing groove shell through a fastening bolt, the sealing groove shell is connected with the fixing piece through welding, the sealing groove shell and the supporting spring are matched through a groove, the supporting spring is connected with the T-shaped positioning piece through welding, the T-shaped positioning piece is matched with the sealing cover through a through hole, and the T-shaped positioning piece is in contact connection with the anti-skidding clamping block;

the winding power mechanism comprises a first gear, a second gear, an engine supporting plate, a square connecting block and an air support, wherein the first gear is meshed with the second gear, the second gear is connected with the engine through welding, the engine is connected with the engine supporting plate through a fastening screw, the engine supporting plate is matched with the structural shell through a groove, the structural shell is connected with the first gear, the square connecting block is connected with the air support through welding, and the air support is connected with the structural shell through welding;

the lifting connecting mechanism comprises a gear III, a gear IV, a servo and a track fixing piece, wherein the track fixing piece is connected with the structural shell through welding, the track fixing piece is matched with the servo through a groove, the servo is connected with the gear IV, the gear IV is meshed with the gear III, the gear III is connected with the servo, and the gear III is meshed with the gear II;

the lifting mechanism comprises a fifth gear, a sixth gear and a lifting supporting leg, wherein the fifth gear is meshed with the fourth gear, the fifth gear is connected with the sixth gear through a gear chain, the fifth gear is meshed with the lifting supporting leg, and the lifting supporting leg is connected with the fixing piece through welding;

the damping mechanism comprises a buffer gas support, a strong spring, a fixed plate support and an annular external connecting piece, the buffer gas support is connected with the fixed plate support through a fastening screw, the buffer gas support is connected with the structural shell through welding, the strong spring is connected with the fixed plate support through welding, the strong spring is connected with the structural shell through welding, and the annular external connecting piece is connected with the fixed plate support through welding;

the buffer gas support comprises a buffer cylinder, a connecting support rod and two fixing positioning blocks, wherein the buffer cylinder is connected with the fixed plate support through a fastening screw, the buffer cylinder is connected with the connecting support rod through a fastening bolt, the connecting support rod is connected with the fixing positioning blocks through the fastening bolt, one fixing positioning block is connected with the fixed plate support through welding, and the other fixing positioning block is connected with the structural shell through welding;

the moving mechanism comprises a moving fixed plate and a telescopic moving wheel, the moving fixed plate is connected with the fixed plate support through welding, and the moving fixed plate is connected with the telescopic moving wheel through welding;

the flexible wheel that removes includes H shape track pole, connect the stock, flexible gas props, connect the quarter butt, the gyro wheel connecting rod, the gyro wheel, H shape track pole is connected through the welding with the removal fixed plate, H shape track pole is connected through fastening bolt with connecting the stock, it is connected through fastening bolt with connecting the quarter butt to connect the stock, it is connected with gyro wheel connecting rod fastening bolt to connect the quarter butt, the gyro wheel connecting rod is connected through fastening bolt with the gyro wheel, flexible gas props and H shape track pole is connected through fastening bolt, flexible gas props and is connected through fastening bolt with being connected the quarter butt, the gyro wheel connecting rod is connected through fastening bolt with being connected the quarter butt.

As a further optimization of the technical scheme, the supporting spring and the strong spring of the cable collecting device for the drum-type communication engineering are made of carbon steel.

As a further optimization of the technical solution, the number of the strong springs of the cable collecting device for drum-type communication engineering of the present invention is plural.

As a further optimization of the technical scheme, the fifth gear and the sixth gear of the cable collection device for the drum-type communication engineering are positioned on the same vertical line.

As a further optimization of the technical scheme, the long connecting rod, the short connecting rod and the roller connecting rod of the cable collection device for the drum-type communication engineering are all made of stainless steel.

As a further optimization of the technical scheme, the annular external connecting piece of the cable collecting device for the drum-type communication engineering is made of iron.

The drum-type cable collection device for communication engineering has the beneficial effects that:

the invention relates to a drum-type cable collection device for communication engineering, which is provided with an anti-slip buckle mechanism when cables are arranged, a drum is prevented from rotating reversely, the device is provided with a lifting mechanism, the lifting mechanism can be adjusted according to the number of the cables, the device is provided with a good damping mechanism in the transportation and cable collection processes, and the device is also provided with a telescopic moving mechanism, is convenient to move and is also convenient for stable placement of the device.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a drum-type cable collection device for communication engineering according to the present invention.

Fig. 2 is a schematic structural diagram of a cable winding mechanism 1 of a drum-type cable collection device for communications engineering according to the present invention.

Fig. 3 is a schematic structural view of an anti-slip buckle and wire winding mechanism 1-1 of a cable collection device for drum-type communication engineering according to the present invention.

Fig. 4 is a schematic structural diagram of an auxiliary positioning mechanism 1-1-7 of a cable collection device for drum-type communication engineering according to the present invention.

Fig. 5 is a schematic structural diagram of a winding power mechanism 1-2 of a cable collection device for drum-type communication engineering according to the present invention.

Fig. 6 is a schematic structural diagram of a lifting connection mechanism 1-3 of a cable collection device for drum-type communication engineering according to the present invention.

Fig. 7 is a schematic structural diagram of a lifting mechanism 1-4 of a drum-type cable collection device for communication engineering according to the present invention.

Fig. 8 is a schematic structural diagram of a damping mechanism 2 of a cable collecting device for drum-type communication engineering according to the present invention.

Fig. 9 is a schematic structural view of a buffer gas strut 2-1 of a cable collection device for drum-type communication engineering according to the present invention.

Fig. 10 is a schematic structural diagram of a moving mechanism 3 of a drum-type cable collection device for communications engineering according to the present invention.

Fig. 11 is a schematic structural view of a retractable moving wheel 3-2 of a cable collection device for drum-type communication engineering according to the present invention.

In the figure: a cable winding mechanism 1; an anti-slip buckle winding mechanism 1-1; a winding roller 1-1-1; 1-1-2 of an anti-skid gear; the rotary connecting gear 1-1-3; fixing pieces 1-1-4; a clamping block fixing part 1-1-5; 1-1-6 parts of an anti-skid fixture block; auxiliary positioning mechanisms 1-1-7; 1-1-7-1 of a sealing cover; sealing the groove shell 1-1-7-2; 1-1-7-3 of a supporting spring; 1-1-7-4 of a T-shaped positioning piece; a winding power mechanism 1-2; a first gear 1-2-1; gear two 1-2-2; 1-2-3 of an engine; 1-2-4 parts of an engine supporting plate; 1-2-5 parts of a square connecting block; 1-2-6 of gas strut; a lifting connection mechanism 1-3; gear three 1-3-1; gear four 1-3-2; 1-3-3 of a server; 1-3-4 of a track fixing piece; 1-4 of a lifting mechanism; gear five 1-4-1; gear six 1-4-2; 1-4-3 of a lifting support leg; 1-5 of structural shell; a damper mechanism 2; 2-1 of buffer gas strut; a buffer cylinder 2-1-1; connecting the support rods 2-1-2; 2-1-3 of fixed positioning blocks; a strong spring 2-2; 2-3 of a fixed plate support; 2-4 of annular external connecting piece; a moving mechanism 3; moving the fixed plate 3-1; 3-2 of telescopic moving wheels; an H-shaped track rod 3-2-1; connecting a long rod 3-2-2; 3-2-3 parts of a telescopic gas strut; connecting short rods 3-2-4; 3-2-5 of a roller connecting rod; and 3-2-6 of rollers.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present invention relates to a communication engineering device, and more specifically to a drum-type cable collection device for communication engineering, which comprises a cable winding mechanism 1, a damping mechanism 2, and a moving mechanism 3, wherein the cable winding mechanism 1 is connected with the damping mechanism 2 by welding, the damping mechanism 2 is connected with the moving mechanism 3 by welding, the device has an anti-slip buckle mechanism for preventing the drum from rotating reversely when cables are arranged, the device has a lifting mechanism, and can be adjusted according to the number of cables, and the device has a good damping mechanism, a telescopic moving mechanism, and is convenient for moving and stable placement of the device during transportation and cable collection.

The cable winding mechanism 1 comprises an anti-slip buckle winding mechanism 1-1, a winding power mechanism 1-2, a lifting connecting mechanism 1-3, a lifting mechanism 1-4 and a structural shell 1-5, wherein the anti-slip buckle winding mechanism 1-1 is connected with the structural shell 1-5 through welding, the structural shell 1-5 is connected with the winding power mechanism 1-2, the winding power mechanism 1-2 is connected with the anti-slip buckle winding mechanism 1-1 through a gear chain, the anti-slip buckle winding mechanism 1-1 is connected with the lifting mechanism 1-4 through welding, the lifting mechanism 1-4 is meshed with the lifting connecting mechanism 1-3, the lifting connecting mechanism 1-3 is meshed with the winding power mechanism 1-2, and the lifting connecting mechanism 1-3 is connected with the structural shell 1-5 through welding, the winding power mechanism 1-2 controls the lifting of the anti-skid buckle winding mechanism 1-1 and the winding of the cable;

the anti-skid thread buckling and winding mechanism 1-1 comprises a thread winding roller 1-1-1, an anti-skid gear 1-1-2, a rotary connecting gear 1-1-3, a fixing piece 1-1-4, a clamping block fixing piece 1-1-5, an anti-skid clamping block 1-1-6 and an auxiliary positioning mechanism 1-1-7, wherein the fixing piece 1-1-4 is connected with a structural shell 1-5 through welding, the fixing piece 1-1-4 is adapted to the rotary connecting gear 1-1-3 through a through hole, the rotary connecting gear 1-1-3 is connected with a gear 1-2-1 through a gear chain, the anti-skid gear 1-1-2 is connected with the rotary connecting gear 1-1-3 through welding, the winding roller 1-1-1 is connected with the rotary connecting gear 1-1-3 by welding, the clamping block fixing piece 1-1-5 is connected with the fixing piece 1-1-4 by welding, the fixing piece 1-1-4 is connected with the anti-skid fixture block 1-1-6 by a fastening bolt, the anti-skid fixture block 1-1-6 is adapted to the anti-skid gear 1-1-2, the auxiliary positioning mechanism 1-1-7 is connected with the fixing piece 1-1-4 by welding, the auxiliary positioning mechanism 1-1-7 is connected with the anti-skid fixture block 1-1-6 by contact, the anti-skid gear 1-1-2 is matched with the anti-skid fixture block 1-1-6, and the anti-skid fixture block 1-1-6 prevents the winding roller 1-1-1 from rotating clockwise, the winding roller 1-1-1 is a cable winding roller, the clamping block fixing piece 1-1-5 plays a role in fixing the anti-skid clamping block 1-1-6, and the fixing piece 1-1-4 is combined with a plurality of parts;

the auxiliary positioning mechanism 1-1-7 comprises a sealing cover 1-1-7-1, a sealing groove shell 1-1-7-2, a supporting spring 1-1-7-3 and a T-shaped positioning piece 1-1-7-4, wherein the sealing cover 1-1-7-1 is connected with the sealing groove shell 1-1-7-2 through a fastening bolt, the sealing groove shell 1-1-7-2 is connected with the fixing piece 1-1-4 through welding, the sealing groove shell 1-1-7-2 is adapted with the supporting spring 1-1-7-3 through a groove, the supporting spring 1-1-7-3 is connected with the T-shaped positioning piece 1-1-7-4 through welding, the T-shaped positioning piece 1-1-7-4 is matched with the sealing cover 1-1-7-1 through a through hole, the T-shaped positioning piece 1-1-7-4 is in contact connection with the anti-skid fixture block 1-1-6, the supporting spring 1-1-7-3 supports the T-shaped positioning piece 1-1-7-4, the T-shaped positioning piece 1-1-7-4 supports the anti-skid fixture block 1-1-6, and the sealing cover 1-1-7-1 plays a role in fixing parts;

the winding power mechanism 1-2 comprises a first gear 1-2-1, a second gear 1-2-2, an engine 1-2-3, an engine supporting plate 1-2-4, a square connecting block 1-2-5 and an air support 1-2-6, wherein the first gear 1-2-1 is meshed with the second gear 1-2-2, the second gear 1-2-2 is connected with the engine 1-2-3 through welding, the engine 1-2-3 is connected with the engine supporting plate 1-2-4 through fastening screws, the engine supporting plate 1-2-4 is adapted to a structural shell 1-5 through a groove, the structural shell 1-5 is connected with the first gear 1-2-1, the square connecting block 1-2-5 is connected with the air support 1-2-6 through welding, the gas strut 1-2-6 is connected with the structural shell 1-5 through welding, the gas strut 1-2-6 is started, the gas strut 1-2-6 supports the engine supporting plate 1-2-4, thereby realizing the upward displacement of the gear II 1-2-2 and the engine 1-2-3, when the gear II 1-2-2 is meshed with the gear I1-2-1, the gas strut 1-2-6 is stopped, the engine 1-2-3 is started, the engine 1-2-3 drives the gear II 1-2-2, the gear II 1-2-2 drives the gear I1-2-1, and the gear I1-2-1 drives the rotary connecting gear 1-1-3, so that the winding roller 1-1-1 rotates anticlockwise;

the lifting connecting mechanism 1-3 comprises a gear three 1-3-1, a gear four 1-3-2, a servo machine 1-3-3 and a track fixing piece 1-3-4, wherein the track fixing piece 1-3-4 is connected with a structural shell 1-5 through welding, the track fixing piece 1-3-4 is matched with the servo machine 1-3-3 through a groove, the servo machine 1-3-3 is connected with the gear four 1-3-2, the gear four 1-3-2 is meshed with the gear three 1-3-1, the gear three 1-3-1 is connected with the servo machine 1-3-3, the gear three 1-3-1 is meshed with the gear two 1-2-2, and the servo machine 1-3-3 drives the gear three 1-3-1 and the gear four 1-3-2 The track fixing piece 1-3-4 plays a role in fixed connection under the action of movement;

the lifting mechanism 1-4 comprises a gear five 1-4-1 and a gear six 1-4-2, lifting support legs 1-4-3, a gear five 1-4-1 is meshed with a gear four 1-3-2, the gear five 1-4-1 is connected with a gear six 1-4-2 through a gear chain, the gear five 1-4-1 is meshed with the lifting support legs 1-4-3, the lifting support legs 1-4-3 are connected with fixing pieces 1-1-4 through welding, the lifting support legs 1-4-3 play a role of supporting the fixing pieces 1-1-4, and the gear five 1-4-1 and the gear six 1-4-2 drive the lifting support legs 1-4-3 to lift;

the damping mechanism 2 comprises a buffer gas strut 2-1, a strong spring 2-2, a fixed plate support 2-3 and an annular external part 2-4, wherein the buffer gas strut 2-1 is connected with the fixed plate support 2-3 through a fastening screw, the buffer gas strut 2-1 is connected with a structural shell 1-5 through welding, the strong spring 2-2 is connected with the fixed plate support 2-3 through welding, the strong spring 2-2 is connected with the structural shell 1-5 through welding, the annular external part 2-4 is connected with the fixed plate support 2-3 through welding, the buffer gas strut 2-1 and the strong spring 2-2 play a role in supporting and buffering, and the annular external part 2-4 plays a role in connecting external equipment;

the buffer gas strut 2-1 comprises a buffer cylinder 2-1-1 and a connecting support rod 2-1-2, the fixing and supporting device comprises fixing and positioning blocks 2-1-3, a buffer cylinder 2-1-1 is connected with a fixing plate support 2-3 through fastening screws, the buffer cylinder 2-1-1 is connected with a connecting and supporting rod 2-1-2 through fastening bolts, the connecting and supporting rod 2-1-2 is connected with the fixing and positioning block 2-1-3 through fastening bolts, the number of the fixing and positioning blocks 2-1-3 is two, one fixing and positioning block is connected with the fixing plate support 2-3 through welding, the other fixing and positioning block is connected with a structural shell 1-5 through welding, the fixing and positioning block 2-1-3 plays a role in connection, and the connecting and supporting rod 2-1-2 plays a role in supporting;

the moving mechanism 3 comprises a moving fixed plate 3-1 and a telescopic moving wheel 3-2, the moving fixed plate 3-1 is connected with a fixed plate support 2-3 through welding, the moving fixed plate 3-1 is connected with the telescopic moving wheel 3-2 through welding, and the moving fixed plate 3-1 plays a role of fixing parts;

the telescopic movable wheel 3-2 comprises an H-shaped track rod 3-2-1, a long connecting rod 3-2-2, a telescopic gas strut 3-2-3, a short connecting rod 3-2-4, a roller connecting rod 3-2-5 and a roller 3-2-6, the H-shaped track rod 3-2-1 is connected with a movable fixing plate 3-1 through welding, the H-shaped track rod 3-2-1 is connected with the long connecting rod 3-2-2 through a fastening bolt, the long connecting rod 3-2-2 is connected with the short connecting rod 3-2-4 through a fastening bolt, the short connecting rod 3-2-4 is connected with the roller connecting rod 3-2-5 through a fastening bolt, the roller connecting rod 3-2-5 is connected with the roller 3-2-6 through a fastening bolt, the telescopic gas strut 3-2-3 is connected with the H-shaped track rod 3-2-1 through a fastening bolt, the telescopic gas strut 3-2-3 is connected with the short connecting rod 3-2-4 through a fastening bolt, the roller connecting rod 3-2-5 is connected with the short connecting rod 3-2-4 through a fastening bolt, the telescopic gas strut 3-2-3 controls the telescopic of the roller 3-2-6, and the long connecting rod 3-2-2, the short connecting rod 3-2-4 and the roller connecting rod 3-2-5 play roles in connection and fixation.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, wherein the supporting springs 1-1-7-3 and the strong springs 2-2 are made of carbon steel.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment in which a plurality of the power springs 2-2 are provided.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, in which the gears five 1 to 4-1 and the gears six 1 to 4-2 are located on the same vertical line.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, wherein the long connecting rod 3-2-2, the short connecting rod 3-2-4, and the roller connecting rod 3-2-5 are made of stainless steel.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes the first embodiment, in which the material of the ring-shaped outer connectors 2 to 4 is iron.

The use method of the device comprises the following steps: starting the gas strut 1-2-6, the gas strut 1-2-6 supports the engine supporting plate 1-2-4, so as to realize upward displacement of the gear II 1-2-2 and the engine 1-2-3, when the gear II 1-2-2 is engaged with the gear I1-2-1, the gas strut 1-2-6 stops, the engine 1-2-3 is started, the engine 1-2-3 drives the gear II 1-2-2, the gear II 1-2-2 drives the gear I1-2-1, the gear I1-2-1 drives the rotary connecting gear 1-1-3, so that the winding drum 1-1-1 rotates anticlockwise, the cable is recycled, and the rotary connecting gear 1-1-3 rotates, the anti-skid fixture blocks 1-1-6 are pulled, when the rotary connecting gear 1-1-3 slides downwards clockwise, the anti-skid fixture blocks 1-1-6 support the anti-skid gear 1-1-2, so that the rotary connecting gear 1-1-3 is prevented from rotating clockwise, and the auxiliary positioning mechanisms 1-1-7 play a role in supporting the anti-skid fixture blocks 1-1-6.

The air support 1-2-6 moves downwards, the servo machine 1-3-3 drives the gear three 1-3-1 and the gear four 1-3-2 to move upwards, so that the gear two 1-2-2 is meshed with the gear three 1-3-1, the engine 1-2-3 is started, the engine 1-2-3 drives the gear three 1-3-1, the gear three 1-3-1 drives the gear four 1-3-2, the gear four 1-3-2 drives the gear five 1-4-1, the gear five 1-4-1 drives the lifting support leg 1-4-3 to move upwards and the gear six 1-4-2, thereby realizing the height increase of the anti-skid thread-winding mechanism 1-1, and increasing the distance between devices, the increase of the winding amount is realized.

The buffer gas support 2-1 and the strong spring 2-2 both play a role in damping the cable winding mechanism 1, and the annular external connecting piece 2-4 is convenient for an external power device to be connected with the device.

The telescopic gas strut 3-2-3 contracts, and the connecting short rod 3-2-4 is pulled, so that the roller connecting rod 3-2-5 rotates, and the contraction of the roller 3-2-6 is realized.

This device has anti-skidding mechanism of detaining in arrangement cable, prevents that the cylinder antiport, and the device possesses elevating system, can adjust according to how much of cable, and at the in-process that transportation and cable were collected, the device has fine damper, and the device still is provided with flexible moving mechanism, and the device of being convenient for removes, and the stability of the device of also being convenient for is put.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a drum-type is cable collection device for communication engineering, includes cable winding mechanism (1), damper (2), moving mechanism (3), and cable winding mechanism (1) is connected through the welding with damper (2), and damper (2) are connected through the welding with moving mechanism (3), its characterized in that: the cable winding mechanism (1) comprises an anti-slip buckle winding mechanism (1-1), a winding power mechanism (1-2), a lifting connecting mechanism (1-3), a lifting mechanism (1-4) and a structural shell (1-5), wherein the anti-slip buckle winding mechanism (1-1) is connected with the structural shell (1-5) through welding, the structural shell (1-5) is connected with the winding power mechanism (1-2), the winding power mechanism (1-2) is connected with the anti-slip buckle winding mechanism (1-1) through a gear chain, the anti-slip buckle winding mechanism (1-1) is connected with the lifting mechanism (1-4) through welding, the lifting mechanism (1-4) is occluded with the lifting connecting mechanism (1-3), and the lifting connecting mechanism (1-3) is occluded with the winding power mechanism (1-2), the lifting connecting mechanism (1-3) is connected with the structural shell (1-5) by welding;

the anti-skid thread buckling and winding mechanism (1-1) comprises a winding roller (1-1-1), an anti-skid gear (1-1-2), a rotary connecting gear (1-1-3), a fixing piece (1-1-4), a clamping block fixing piece (1-1-5), an anti-skid clamping block (1-1-6) and an auxiliary positioning mechanism (1-1-7), wherein the fixing piece (1-1-4) is connected with a structure shell (1-5) through welding, the fixing piece (1-1-4) is matched with the rotary connecting gear (1-1-3) through a through hole, the rotary connecting gear (1-1-3) is connected with a gear I (1-2-1) through a gear chain, the anti-skid gear (1-1-2) is connected with the rotary connecting gear (1-1-3) through welding, the winding drum (1-1-1) is connected with the rotary connecting gear (1-1-3) through welding, the clamping block fixing piece (1-1-5) is connected with the fixing piece (1-1-4) through welding, the fixing piece (1-1-4) is connected with the anti-skidding fixture block (1-1-6) through a fastening bolt, the anti-skidding fixture block (1-1-6) is adapted to the anti-skidding gear (1-1-2), the auxiliary positioning mechanism (1-1-7) is connected with the fixing piece (1-1-4) through welding, and the auxiliary positioning mechanism (1-1-7) is in contact connection with the anti-skidding fixture block (1-1-6);

the auxiliary positioning mechanism (1-1-7) comprises a sealing cover (1-1-7-1), a sealing groove shell (1-1-7-2), a supporting spring (1-1-7-3) and a T-shaped positioning piece (1-1-7-4), wherein the sealing cover (1-1-7-1) is connected with the sealing groove shell (1-1-7-2) through a fastening bolt, the sealing groove shell (1-1-7-2) is connected with the fixing piece (1-1-4) through welding, the sealing groove shell (1-1-7-2) is adapted to the supporting spring (1-1-7-3) through a groove, the supporting spring (1-1-7-3) is connected with the T-shaped positioning piece (1-1-7-4) through welding, the T-shaped positioning piece (1-1-7-4) is matched with the sealing cover (1-1-7-1) through the through hole, and the T-shaped positioning piece (1-1-7-4) is in contact connection with the anti-skid clamping block (1-1-6);

the winding power mechanism (1-2) comprises a first gear (1-2-1), a second gear (1-2-2), an engine (1-2-3), an engine supporting plate (1-2-4), a square connecting block (1-2-5) and an air support (1-2-6), wherein the first gear (1-2-1) is meshed with the second gear (1-2-2), the second gear (1-2-2) is connected with the engine (1-2-3) through welding, the engine (1-2-3) is connected with the engine supporting plate (1-2-4) through fastening screws, the engine supporting plate (1-2-4) is matched with the structural shell (1-5) through a groove, the structural shell (1-5) is connected with the first gear (1-2-1), the square connecting block (1-2-5) is connected with the gas strut (1-2-6) through welding, and the gas strut (1-2-6) is connected with the structural shell (1-5) through welding;

the lifting connecting mechanism (1-3) comprises a gear III (1-3-1) and a gear IV (1-3-2), the servo motor comprises a servo motor (1-3-3) and a track fixing piece (1-3-4), wherein the track fixing piece (1-3-4) is connected with a structural shell (1-5) through welding, the track fixing piece (1-3-4) is matched with the servo motor (1-3-3) through a groove, the servo motor (1-3-3) is connected with a gear four (1-3-2), the gear four (1-3-2) is meshed with a gear three (1-3-1), the gear three (1-3-1) is connected with the servo motor (1-3-3), and the gear three (1-3-1) is meshed with a gear two (1-2-2);

the lifting mechanism (1-4) comprises a fifth gear (1-4-1), a sixth gear (1-4-2) and lifting support legs (1-4-3), the fifth gear (1-4-1) is meshed with the fourth gear (1-3-2), the fifth gear (1-4-1) is connected with the sixth gear (1-4-2) through a gear chain, the fifth gear (1-4-1) is meshed with the lifting support legs (1-4-3), and the lifting support legs (1-4-3) are connected with the fixing pieces (1-1-4) through welding;

the damping mechanism (2) comprises a buffer gas strut (2-1), a strong spring (2-2), a fixed plate support (2-3) and an annular external part (2-4), the buffer gas strut (2-1) is connected with the fixed plate support (2-3) through a fastening screw, the buffer gas strut (2-1) is connected with the structural shell (1-5) through welding, the strong spring (2-2) is connected with the fixed plate support (2-3) through welding, the strong spring (2-2) is connected with the structural shell (1-5) through welding, and the annular external part (2-4) is connected with the fixed plate support (2-3) through welding;

the buffer gas strut (2-1) comprises a buffer cylinder (2-1-1), a connecting support rod (2-1-2) and a fixed positioning block (2-1-3), the buffer cylinder (2-1-1) is connected with the fixed plate support (2-3) through a fastening screw, the buffer cylinder (2-1-1) is connected with the connecting support rod (2-1-2) through a fastening bolt, the connecting support rod (2-1-2) is connected with the fixed positioning block (2-1-3) through a fastening bolt, the number of the fixed positioning blocks (2-1-3) is two, one is connected with the fixed plate support (2-3) through welding, and the other is connected with the structural shell (1-5) through welding;

the moving mechanism (3) comprises a moving fixed plate (3-1) and a telescopic moving wheel (3-2), the moving fixed plate (3-1) is connected with the fixed plate support (2-3) through welding, and the moving fixed plate (3-1) is connected with the telescopic moving wheel (3-2) through welding;

the telescopic movable wheel (3-2) comprises an H-shaped track rod (3-2-1), a long connecting rod (3-2-2), a telescopic gas strut (3-2-3), a short connecting rod (3-2-4), a roller connecting rod (3-2-5) and a roller (3-2-6), the H-shaped track rod (3-2-1) is connected with the movable fixing plate (3-1) through welding, the H-shaped track rod (3-2-1) is connected with the long connecting rod (3-2-2) through a fastening bolt, the long connecting rod (3-2-2) is connected with the short connecting rod (3-2-4) through a fastening bolt, the short connecting rod (3-2-4) is connected with the roller connecting rod (3-2-5) through a fastening bolt, the roller connecting rod (3-2-5) is connected with the roller (3-2-6) through a fastening bolt, the telescopic gas strut (3-2-3) is connected with the H-shaped track rod (3-2-1) through a fastening bolt, the telescopic gas strut (3-2-3) is connected with the connecting short rod (3-2-4) through a fastening bolt, and the roller connecting rod (3-2-5) is connected with the connecting short rod (3-2-4) through a fastening bolt.

2. The cable collection device for drum-type communication engineering of claim 1, wherein: the supporting springs (1-1-7-3) and the strong springs (2-2) are made of carbon steel.

3. The cable collection device for drum-type communication engineering of claim 1, wherein: the number of the strong springs (2-2) is more than one.

4. The cable collection device for drum-type communication engineering of claim 1, wherein: and the fifth gear (1-4-1) and the sixth gear (1-4-2) are positioned on the same vertical line.

5. The cable collection device for drum-type communication engineering of claim 1, wherein: the long connecting rod (3-2-2), the short connecting rod (3-2-4) and the roller connecting rod (3-2-5) are all made of stainless steel.

6. The cable collection device for drum-type communication engineering of claim 1, wherein: the annular external connecting piece (2-4) is made of iron.

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