CN219807600U - Cable coiling device for cable - Google Patents

Abstract

The utility model relates to the field of cable winding equipment, and provides a wire coiling device for cables, which comprises a frame, a motor, a winding disc and a lifting frame, wherein the motor and the winding disc are both connected to the frame, the motor is used for driving the winding disc to rotate relative to the frame, and the winding disc is used for winding the cables; the overhead frame is arranged on a path of the cable moving towards the winding disc, the overhead frame is used for erecting the cable, and the erecting height of the overhead frame to the cable is higher than the setting height of the winding disc. The utility model has the effect of reducing the risk of scratch between the insulating jacket and the ground in the process of winding the cable.

Description

Cable coiling device for cable

Technical Field

The utility model relates to the field of cable winding equipment, in particular to a wire coiling device for cables.

Background

The cable comprises a plurality of wire harnesses and an insulating jacket for wrapping the wire harnesses. In comparatively small-size mill, the device of rolling cable is comparatively simple and easy, generally includes frame and motor, and the motor is installed in the frame, and the output of motor is connected with the rolling dish. When the cable is wound, the motor is started, the motor drives the winding disc to rotate, and the cable is wound on the winding disc under the guidance of staff.

In order to facilitate the guiding of cables and the carrying and transferring of reeled cables by workers in a sitting posture, the setting height of the reeling disc is usually about 0.5m, but the cables between the stacking position of the cables and the position of the reeling disc can drop on the ground due to gravity. When the winding disc rotates at a high speed, the cables falling on the ground can scratch the ground, so that the insulating jacket is damaged, and the appearance is affected.

Disclosure of Invention

In order to reduce the risk of scratch between an insulating jacket and the ground in the process of winding a cable, the utility model provides a cable winding device for the cable.

The utility model provides a wire coiling device for a cable, which adopts the following technical scheme:

the wire coiling device for the cables comprises a frame, a motor, a coiling disc and a lifting frame, wherein the motor and the coiling disc are connected to the frame, the motor is used for driving the coiling disc to rotate relative to the frame, and the coiling disc is used for winding the cables; the overhead frame is arranged on a path of the cable moving towards the winding disc, the overhead frame is used for erecting the cable, and the erecting height of the overhead frame to the cable is higher than the setting height of the winding disc.

Through adopting above-mentioned technical scheme, utilize the overhead that picks up to pile the cable between the position of cable and the rolling dish place to reduce the contact between cable and the ground of waiting to roll, thereby reduce the in-process insulating overcoat of rolling cable and ground scratch risk.

Optionally, the overhead has a supporting part, the supporting part is used for erectting the cable, the both ends of supporting part all are provided with and separate the fender portion, separate the fender portion and be used for restricting the cable is followed the supporting part drops.

Because the stacking of cable is comparatively messy, therefore the in-process that the cable moved to the rolling dish, the cable had along radial removal of self, through adopting above-mentioned technical scheme, utilized the separation stop portion to form the separation stop in the radial of cable, reduced the risk that the cable dropped from the supporting part.

Optionally, a placement table is arranged at the top of the frame.

By adopting the technical scheme, on one hand, after the winding and cutting of a winding cable are completed, a worker places the wire end of the cable on a placing table so as to facilitate the next taking; on the other hand, the placing table can also be used as a worker placing tool or a temporary quality inspection table, so that the space of a factory is reasonably distributed and utilized while the practicability of the rack is improved.

Optionally, the device further comprises a tensioning mechanism, wherein the tensioning mechanism comprises a first tensioning wheel and a second tensioning wheel, and the first tensioning wheel and the second tensioning wheel are connected to the frame; the setting height of the first tensioning wheel is higher than that of the second tensioning wheel.

By adopting the technical scheme, on one hand, the two tensioning wheels are utilized to tension the cable, so that the compactness of the cable when the cable is wound on the winding disc is improved; on the other hand, when the cable is wound, the cable is enabled to be in contact with the second tensioning wheel and the first tensioning wheel in sequence, and the first tensioning wheel is higher than the second tensioning wheel in height, so that after the cable is cut off, the first tensioning wheel plays a supporting role on the cable head part of the cable, and the risk that the cable head position of the cable falls on the ground is reduced.

Optionally, the frame is provided with the locating part, the locating part is located the top of first take-up pulley, the locating part with have between the first take-up pulley and be used for supplying the interval that the cable passed through.

By adopting the technical scheme, the limiting piece and the first tensioning wheel are utilized to form certain limit on the cable, so that the risk that the wire end falls on the ground after the cable is cut off is further reduced; in addition, in the rolling process, the limiting piece is pressed on the cable, and the risk that the cable is separated from the first tensioning wheel due to self elasticity is reduced.

Optionally, the tensioning mechanism further includes a third tensioning wheel, and the setting height of the third tensioning wheel is higher than the setting height of the first tensioning wheel.

Through adopting above-mentioned technical scheme, under the position that stacks the cable and the setting position of rolling disc under the condition that far away, perhaps the cable need turn over under the condition on the route between the two, add the third take-up pulley that highly is higher than first take-up pulley, when improving tensioning effect, also cooperate with the overhead frame of choosing, further reduce the risk that the cable falls in ground.

Optionally, the frame is provided with a foam-rubber cushion, and the foam-rubber cushion is arranged on a path along which the cable moves towards the winding disc; the foam-rubber cushion is provided with a cleaning groove, the cleaning groove is used for allowing the cable to pass through, and the groove wall of the cleaning groove is used for allowing the cable to abut.

Through adopting above-mentioned technical scheme, when the rolling cable, wear to locate clean groove with the cable, utilize the cell wall in clean groove to wipe the outer wall of cable to reduce impurity such as the attached dust in cable surface of rolling, batting.

Optionally, the foam-rubber cushion is detachably connected with the limiting piece.

By adopting the technical scheme, the cleaning and replacement of the sponge cushion are convenient.

Optionally, a clamping piece is arranged on the side wall of the stand, one end of the clamping piece is provided with a hinge part, the clamping piece is hinged to the other end of the stand through the hinge part, and a handheld part for being pinched by a human hand is arranged at the other end of the stand; the clamping piece is provided with an abutting part, the abutting part is positioned between the hinge part and the handheld part, and the abutting part is used for abutting the cable; the frame is provided with a torsion spring for forcing the hand-held part to abut against the frame.

By adopting the technical scheme, when the winding of the coiled cable is completed and the cable is cut off, the clamping piece is broken by the hand-held part, the wire end position of the cable is placed between the clamping piece and the rack, then the force applied to the hand-held part is removed, and the clamping piece and the rack are used for clamping the cable; when the next winding is performed, the cable is taken out through the same action, so that the operation of staff is facilitated, and the risk that the cable falls on the ground is reduced.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the cable is lifted by arranging the lifting frame between the cable stacking position and the winding disc arranging position, so that the contact between the cable and the ground is reduced, and the risk of scraping and rubbing the insulating jacket of the cable and the ground is reduced;

2. by arranging the tensioning assembly, the cable moving towards the winding disc is tensioned, so that the risk that the cable falls on the ground is further reduced, and the tightening degree of the wound cable is improved;

3. through set up the foam-rubber cushion that has seted up clean groove in the frame, utilize the cell wall in clean groove to wipe the impurity such as dust, batting that adhere to the cable surface between with the butt between the cable.

Drawings

Fig. 1 is a schematic overall structure of embodiment 1 of the present utility model.

Fig. 2 is a schematic overall structure of embodiment 2 of the present utility model.

Fig. 3 is an enlarged schematic view of fig. 2 at a section a.

Fig. 4 is an enlarged schematic view of fig. 2 at section B.

Reference numerals illustrate: 1. a frame; 11. a placement table; 2. a motor; 3. a reel; 4. a lifting frame; 41. a lifting part; 42. a support part; 43. a barrier section; 5. a tensioning mechanism; 51. a first tensioning wheel; 52. a second tensioning wheel; 53. a third tensioning wheel; 6. a limiting piece; 7. a rotating roller; 71. a sponge cushion; 711. a cleaning tank; 8. a clamping member; 81. a hinge part; 82. a hand-held part; 83. an abutting portion; 84. a torsion spring; 9. a cable.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses a wire coiling device for a cable.

Example 1

Referring to fig. 1, a wire coiling device for a wire 9 includes a frame 1, a motor 2, a coiling disc 3, a take-up stand 4, and a tensioning mechanism 5. The motor 2 and the winding disc 3 are both connected to the frame 1, the motor 2 is used for driving the winding disc 3 to rotate relative to the frame 1, and the winding disc 3 is used for winding the cable 9. The overhead frame 4 is arranged on a path of the cable 9 moving towards the winding disc 3, the overhead frame 4 is used for erecting the cable 9, and the height of an erecting point of the overhead frame 4 to the cable 9 is higher than the setting height of the winding disc 3.

Specifically, the connection between the motor 2 and the winding disc 3 includes, but is not limited to, the winding disc 3 being directly connected to the output shaft of the motor 2, being connected through a gear, or being connected through a chain, as long as the motor 2 can drive the winding disc 3 to rotate relative to the frame 1.

The lifting frame 4 is connected to the frame 1, and in other embodiments, the lifting frame 4 may be erected on the ground. The connection mode of the lifting frame 4 and the frame 1 can be fixed connection or detachable connection. The specific installation position and number of the lifting frames 4 are determined according to the space setting of the factory and the stacking position of the cables 9 to be wound. By means of the design, when the cable 9 is wound, the cable 9 is firstly erected on the lifting frame 4, and then guided to the winding disc 3 by a worker for winding, so that the cable 9 to be wound near the winding disc 3 is lifted by the lifting frame 4, and the risk of scratch between an insulating jacket and the ground in the process of winding the cable 9 is reduced.

Referring to fig. 1, a placing table 11 is arranged at the upper part of the frame 1, and the height of the placing table 11 is between 0.6m and 0.7m, so that a worker can conveniently place tools or objects, and the device can also be used as a quality inspection table, so that the worker can conveniently inspect the quality of the cable 9 after winding, and the space of a factory is reasonably utilized.

Referring to fig. 1, the raising frame 4 has a raising portion 41 and a supporting portion 42, the raising portion 41 is extended in the height direction of the frame 1, the supporting portion 42 is horizontally provided, and the supporting portion 42 is used for erecting the cable 9. The support portion 42 is provided with a blocking portion 43 at both ends thereof, the blocking portion 43 being for restricting the cable 9 from falling off the support portion 42. The supporting portion 42 may be a rod-shaped structure, a plate-shaped structure, or an irregular shape, as long as the cable 9 is supported. The blocking portion 43 may be a rod-like structure, a plate-like structure, or an irregular shape as long as the cable 9 is restricted from falling out of the supporting portion 42.

Referring to fig. 1, the tensioning mechanism 5 includes a first tensioning wheel 51, a second tensioning wheel 52 and a third tensioning wheel 53, where the three tensioning wheels are all connected to the frame 1, and the first tensioning wheel 51 and the second tensioning wheel 52 are both disposed at a lower height than the placement table 11, and the first tensioning wheel 51 is higher than the second tensioning wheel 52, and in this embodiment, the first tensioning wheel 51 is located above the second tensioning wheel 52; in other embodiments, the first tensioning wheel 51 may also be located obliquely above the second tensioning wheel 52.

Referring to fig. 1, the third tension pulley 53 is higher than the first tension pulley 51 and is equal to the support 42 in height, and the third tension pulley 53 and the support 42 are provided at both ends of the frame 1. When the cable 9 is wound, the cable 9 is firstly erected on the supporting part 42, and then the third tensioning wheel 53, the second tensioning wheel 52 and the first tensioning wheel 51 are sequentially wound, so that the cable 9 is lifted by the lifting frame 4 and the third tensioning wheel 53, the cable 9 is tensioned by the three tensioning wheels, the wire to be wound, which is close to the winding disc 3, is in a tensioned state, the looseness in the winding process of the wire is reduced, and meanwhile, the risk that the cable 9 falls on the ground is further reduced.

Referring to fig. 1, a side wall of the frame 1 is provided with a stopper 6, the stopper 6 is located above the first tension pulley 51, and a space for passing the cable 9 exists between the stopper 6 and the first tension pulley 51. The limiting piece 6 and the frame 1 can be fixedly connected or detachably connected.

The limiting member 6 has a cylindrical structure, and in other embodiments, the limiting member 6 may have a semi-cylindrical structure or a prismatic structure.

The limiting piece 6 is utilized to press the cable 9 passing through the first tensioning wheel 51, so that the risk that the cable 9 falls off from the first tensioning wheel 51 due to self elasticity is reduced; meanwhile, since the first tensioning wheel 51 is the last tensioning wheel through which the cable 9 passes and is located above the second tensioning wheel 52, when a winding cable 9 is wound and broken, a worker can place the wire end of the cable 9 on the placement table 11 for next winding, and under the action of abutting and friction of the limiting piece 6, the probability that the wire end falls from the placement table 11 is low.

The implementation principle of the embodiment 1 is as follows: when the cable 9 is wound, the cable 9 is firstly erected and lifted on the supporting part 42 of the overhead frame 4, then the cable 9 is sequentially wound around the third tensioning wheel 53, the second tensioning wheel 52 and the first tensioning wheel 51, finally, a worker holds the wire end of the cable 9 to guide the cable 9 to the winding disc 3, and the motor 2 is started to wind.

Example 2

Referring to fig. 2 and 3, the present embodiment is different from embodiment 1 in that a rotating roller 7 is rotatably connected to a side wall of the frame 1, and the rotating roller 7 is located between the take-up reel 3 and the first tension pulley 51.

Referring to fig. 3, the rotating roller 7 is provided at a circumferential side thereof with a sponge pad 71, and the sponge pad 71 is circumferentially disposed along the rotating roller 7. The sponge pad 71 is provided with a cleaning groove 711, and the cleaning groove 711 is circumferentially provided around the rotating roller 7. The cleaning groove 711 is used for the cable 9 to pass through, and the groove wall of the cleaning groove 711 is used for the side wall of the cable 9 to abut. Thereby wiping the cable 9 by using the foam cushion 71 in the winding process of the cable 9, and reducing the dust, the batting and other impurities attached to the surface of the cable 9.

Further, the sponge pad 71 is set to be in a sleeve shape, and the sponge pad 71 is sleeved on the rotating roller 7, so that the detachable connection of the sponge pad 71 and the rotating roller 7 is realized, and the sponge pad 71 can be replaced conveniently in time. Meanwhile, in order to reduce the risk of the sponge pad 71 falling off from the rotating roller 7, an anti-slip layer (not shown) made of latex is adhesively fixed to the inner wall of the sponge pad 71.

Referring to fig. 2 and 4, the side wall of the frame 1 is provided with a clamp 8, the clamp 8 being located between the take-up reel 3 and the turning roller 7. The clip 8 has a hinge portion 81, a hand-held portion 82, and an abutment portion 83. The clamping piece 8 is hinged to the frame 1 through a hinge part 81, a hand holding part 82 is used for being pinched by a hand, an abutting part 83 is located between the hinge part 81 and the hand holding part 82, and the abutting part 83 is used for being abutted by the cable 9. The housing 1 is provided with a torsion spring 84, the torsion spring 84 being adapted to urge the hand-held portion 82 against the housing 1. When a worker finishes winding a coiled cable 9 and cuts off the cable 9, the hand-held part 82 is broken off, the cable 9 is placed between the abutting part 83 and the frame 1, the force applied to the hand-held part 82 is removed, and the abutting part 83 and the frame 1 are used for clamping the cable 9 for temporary fixation; when the next winding is carried out, the wire end of the cable 9 is taken out again, so that the operation of staff is facilitated.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (9)

1. A wire coiling device for a cable, characterized in that: the winding machine comprises a frame (1), a motor (2), a winding disc (3) and a lifting frame (4), wherein the motor (2) and the winding disc (3) are both connected to the frame (1), the motor (2) is used for driving the winding disc (3) to rotate relative to the frame (1), and the winding disc (3) is used for winding a cable (9); the overhead frame (4) is arranged on a path of the cable (9) moving towards the winding disc (3), the overhead frame (4) is used for erecting the cable (9), and the erecting height of the overhead frame (4) to the cable (9) is higher than the setting height of the winding disc (3).

2. A wire coiling device for cables as in claim 1, wherein: the overhead lifting frame (4) is provided with a supporting portion (42), the supporting portion (42) is used for erecting the cable (9), two ends of the supporting portion (42) are provided with baffle portions (43), and the baffle portions (43) are used for limiting the cable (9) to fall from the supporting portion (42).

3. A wire coiling device for cables as in claim 1, wherein: the top of the frame (1) is provided with a placement table (11).

4. A wire coiling device for cables as in any of the claims 1-3, wherein: the device further comprises a tensioning mechanism (5), wherein the tensioning mechanism (5) comprises a first tensioning wheel (51) and a second tensioning wheel (52), and the first tensioning wheel (51) and the second tensioning wheel (52) are both connected to the frame (1); the arrangement height of the first tensioning wheel (51) is higher than the arrangement height of the second tensioning wheel (52).

5. A wire coiling device for cables as in claim 4, wherein: the frame (1) is provided with a limiting piece (6), the limiting piece (6) is located above the first tensioning wheel (51), and a space for the cable (9) to pass through is formed between the limiting piece (6) and the first tensioning wheel (51).

6. A wire coiling device for cables as in claim 4, wherein: the tensioning mechanism (5) further comprises a third tensioning wheel (53), and the setting height of the third tensioning wheel (53) is higher than that of the first tensioning wheel (51).

7. A wire coiling device for cables as in claim 1, wherein: the frame (1) is provided with a foam-rubber cushion (71), and the foam-rubber cushion (71) is arranged on a path along which the cable (9) moves towards the winding disc (3); the foam-rubber cushion (71) is provided with a cleaning groove (711), the cleaning groove (711) is used for the cable (9) to pass through, and the groove wall of the cleaning groove (711) is used for the cable (9) to abut against.

8. A wire coiling device for cables as in claim 7, wherein: the foam-rubber cushion (71) is detachably connected with the frame (1).

9. A wire coiling device for cables as in claim 1, wherein: the side wall of the frame (1) is provided with a clamping piece (8), one end of the clamping piece (8) is provided with a hinge part (81), and the clamping piece (8) is hinged to the frame (1) through the hinge part (81); the clamping piece (8) is provided with a hand holding part (82) for being pinched by a human hand; the clamping piece (8) is provided with an abutting part (83), the abutting part (83) is positioned between the hinging part (81) and the handheld part (82), and the abutting part (83) is used for abutting the cable (9); the frame (1) is provided with a torsion spring (84), the torsion spring (84) being used for forcing the hand-held part (82) to abut against the frame (1).