CN113213259B

CN113213259B - Power construction cable winding device

Info

Publication number: CN113213259B
Application number: CN202110642701.5A
Authority: CN
Inventors: 孙伯顺; 张紫雯; 孙杨
Original assignee: Huai'an Jingong Power Engineering Co ltd
Current assignee: Huai'an Jingong Power Engineering Co ltd
Priority date: 2021-06-09
Filing date: 2021-06-09
Publication date: 2022-12-06
Anticipated expiration: 2041-06-09
Also published as: CN113213259A

Abstract

The invention is suitable for the technical field of power construction, and provides a power construction cable winding device, which comprises a base A, a support and a winding support, wherein the support is movably connected with the base A through a base B, and the power construction cable winding device also comprises: the winding mechanism is movably connected with the bracket and is used for driving the winding brackets with different specifications to rotate so as to complete winding and rolling of cables with different specifications; and a force breaking mechanism, which is movably connected with the support and used for breaking the twisting force of the cable when the cable is wound, wherein the force breaking mechanism comprises a limiting part, a rotating component and a force breaking auxiliary component, and the limiting part is positioned on the base B and is in sliding fit with the sliding groove A arranged on the support. The invention can break the twisting force generated by the cable when the cable is wound, and protect the safety of the internal circuit of the cable.

Description

Power construction cable winding device

Technical Field

The invention belongs to the technical field of power construction, and particularly relates to a cable winding device for power construction.

Background

With the coming of the new century, electric power has entered into thousands of households, basically, people can enjoy the convenience brought by electric power, and meanwhile, the life of people becomes more colorful.

Electric power need use the wind to twine the cable when laying, then transport the cable after will twining to corresponding laying position and use with power laying personnel.

But the twisting strength (the effort that produces when the cable rolling was screwed up) that can not effectual elimination cable self produced when current cable wind device twines the cable causes the damage of cable inner line.

Disclosure of Invention

The embodiment of the invention aims to provide a power construction cable winding device, and aims to solve the problem that the existing cable winding device cannot effectively eliminate twisting force generated by a cable when the cable is wound, so that the internal line of the cable is damaged.

The embodiment of the invention is realized in such a way that the power construction cable winding device comprises a base A, a bracket and a winding bracket, wherein the bracket is movably connected with the base A through a base B, and the power construction cable winding device also comprises:

the winding mechanism is movably connected with the bracket and is used for driving the winding brackets with different specifications to rotate so as to complete winding and rolling of cables with different specifications; and

the breaking mechanism is movably connected with the support and used for breaking the twisting force carried by the cable when the cable is wound, the breaking mechanism comprises a limiting part, a rotating component and a breaking auxiliary component, and the limiting part is positioned on the base B and is in sliding fit with a sliding groove A formed in the support;

the rotating component in the breaking mechanism can drive the cable to be always positioned at the same angle with the support in a mode of driving the support to rotate in a reciprocating mode in the horizontal direction, the acting force generated by screwing the cable drives the support to slide in a reciprocating mode along the sliding groove A, the torque generated by screwing the cable is transmitted to the breaking auxiliary component, and the acting force generated when the cable is wound and wound is broken by the breaking auxiliary component in a mode of driving the support to slide along the sliding groove A.

On the basis of the technical scheme, the invention also provides the following optional technical scheme:

the further technical scheme is as follows: the winding mechanism includes:

the winding assembly is movably connected with the bracket and is used for winding the cable;

and the linear displacement assembly is movably connected with the bracket and is matched with the winding assembly for use, and is used for driving the cable to perform linear reciprocating motion so as to ensure that the cable is uniformly wound.

The further technical scheme is as follows: the rotating member comprises a sliding piece B and an elastic component B, the sliding piece B is in sliding fit with a slot B arranged on the base A and a slot C arranged on the base B respectively, and the sliding piece B is connected with the inner wall of the slot C through the elastic component B.

The further technical scheme is as follows: the auxiliary component for breaking strength comprises a rotating shaft, the rotating shaft is located in a cavity formed in the base B, the rotating shaft is rotatably connected with the base B, the base B is in transmission connection with the support through a transmission assembly, one end of the base B is connected with a driving assembly B, the other end of the base B is connected with a torque corner sensor (not marked in the figure), and the base B is electrically connected with the torque corner sensor.

The further technical scheme is as follows: the winding assembly comprises a driving assembly A and a fixing piece, the driving assembly A is connected with the fixing piece, the fixing piece is fixedly connected with the support, a main shaft is connected in the fixing piece in a rotating mode, and the main shaft is connected with the mounting assembly.

The further technical scheme is as follows: the winding assembly is provided with a mounting assembly used for mounting the winding support on the winding assembly, the mounting assembly comprises a supporting piece and a telescopic assembly, the supporting piece is in sliding fit with a sliding groove B formed in the winding support, and the telescopic assembly can drive the supporting piece to perform linear reciprocating motion.

The further technical scheme is as follows: the linear displacement subassembly includes the box, it is connected with the lead screw to rotate on the box, the one end and the drive assembly C of fixed connection on the box of lead screw are connected, screw-thread fit has the connecting piece on the lead screw, connecting piece and box sliding fit, be connected with the spool on the connecting piece.

According to the electric power construction cable winding device provided by the embodiment of the invention, the winding mechanism is used for winding and winding the cable by driving the winding bracket to rotate; the base B is driven by the breaking mechanism through the rotating component to rotate in the horizontal direction around the base A so as to ensure that the cable and the support always keep the same angle, the acting force generated by screwing the cable per se drives the support to slide along the sliding groove A, meanwhile, the torque generated by rotating the support can be transmitted to the breaking auxiliary component, and the breaking auxiliary component assists the support to slide along the sliding groove A so as to break the acting force generated by screwing the cable per se.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a rotating member in the present invention.

Fig. 3 is a schematic structural view of a force breaking auxiliary member in the present invention.

Fig. 4 is a schematic view of the structure of the mounting assembly of the present invention.

Fig. 5 is a schematic structural view of a winding support in the present invention.

Notations for reference numerals: the device comprises a base A1, a base B2, a support 3, a support 4, an expansion piece 5, a main shaft 6, a main shaft 7, a driving component A8, a sliding chute A9, a screw rod 10, a wire pipe 11, a box body 12, a connecting piece 13, a slot A14, an elastic component A15, a sliding piece A16, a through hole 17, a winding support 18, a sliding chute B19, a sliding piece B20, a rotating shaft 21, a motor B22, a flat gear 23, a limiting piece 24 and a fixing piece 25.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Referring to fig. 1 and 5, for an embodiment of the present invention, an electric power construction cable winding apparatus includes a base A1, a bracket 3, and a winding bracket 18, where the bracket 3 is movably connected to the base A1 through a base B2, and further includes:

the winding mechanism is movably connected with the bracket 3 and is used for driving the winding bracket 18 to rotate so as to complete winding and rolling of the cable; and

broken strength mechanism, with 3 swing joint of support for the twisting strength that cable self had when abolishing the cable winding, broken strength mechanism includes locating part 24, rotating member and broken strength auxiliary member, locating part 24 be located base B2 and with set up spout A9 sliding fit on support 3.

In the embodiment of the invention, the winding mechanism can drive the winding bracket 18 to rotate and wind the cables, and the arrangement aims at winding and winding the cables with different specifications; broken strength mechanism drives base B2 and rotates in order to ensure that cable and support 3 remain same angle throughout in the horizontal direction round base A1 through rotating member, the winding mechanism of being convenient for carries out the rolling to the cable and the effort that cable self screwed up the production of being convenient for can drive support 3 and slide along spout A9, support 3 pivoted moment of torsion can transmit simultaneously and give broken strength auxiliary member, broken strength auxiliary member 3 slides along spout A9, with this effort of breaking cable self screwing up the production.

Referring to fig. 1, as an embodiment of the present invention, the winding mechanism includes:

the winding assembly is movably connected with the bracket 3 and is used for winding the cable;

and the linear displacement component is movably connected with the bracket 3 and is matched with the winding component for use, and is used for driving the cable to perform linear reciprocating motion so as to ensure that the cable is uniformly wound.

In the embodiment of the present invention, the winding mechanism drives the winding frame 18 to rotate by using the winding assembly, and the linear displacement assembly can drive the cable to perform a linear reciprocating motion, so as to uniformly wind the cable on the winding frame 18.

Referring to fig. 1-2, as an embodiment of the present invention, the rotating member includes a sliding element B20 and an elastic component B, the sliding element B20 is respectively in sliding fit with a slot B opened on the base A1 and a slot C opened on the base B2, and the sliding element B20 is connected with an inner wall of the slot C through the elastic component B.

Preferably, the elastic component B is any one of a spring, a pressure spring and an elastic steel plate.

In the embodiment of the invention, the cable drives the base B2 to rotate around the central axis of the base A1, at the moment, the sliding part B20 extrudes the elastic component B to slide along the slot position C until the cable moves to a fixed angle with the bracket 3, namely, the cable forms an angle of 180 degrees with the spool 11, at the moment, the sliding part B20 is clamped into the slot position B again under the action of the elastic component B for the next rotation, and the arrangement aims to ensure that the bracket 3 and the cable are always in the same angle all the time.

As an alternative to this embodiment, the base B2 may be rotated manually by a motor or by a worker.

Referring to fig. 1 and fig. 3, as an embodiment of the present invention, the auxiliary component for breaking strength includes a rotating shaft 21, the rotating shaft 21 is located in a cavity (not shown) formed in the base B2, the rotating shaft 21 is rotatably connected to the base B2, the base B2 is in transmission connection with the bracket 3 through a transmission assembly, one end of the base B2 is connected to a driving assembly B22, the other end of the base B2 is connected to a torque angle sensor (not shown), and the base B2 is electrically connected to the torque angle sensor.

Preferably, the driving component B22 is a stepping motor or a hand wheel.

Preferably, the transmission assembly is an intermeshing gear rack assembly.

In the embodiment of the present invention, the driving component B22 drives the rotating shaft 21 to rotate, and the rotating shaft 21 drives the bracket 3 to rotate in the vertical direction through the transmission component, which is configured to drive the bracket 3 to rotate in the vertical direction.

As an alternative to this embodiment, the auxiliary assembly may directly drive the support 3 to rotate in the vertical direction by means of a stepper motor or a hand wheel fixedly connected to the support 3.

Referring to fig. 1, as an embodiment of the present invention, the winding assembly includes a driving assembly A8 and a fixing member 25, the driving assembly A8 is connected to the fixing member 25, the fixing member 25 is fixedly connected to the bracket 3, a spindle 7 is rotatably connected to the fixing member 25, and the spindle 7 is connected to the mounting assembly.

Preferably, the fixing member 25 has a cylindrical shape.

Preferably, the driving assembly A8 is a stepping motor.

In the embodiment of the present invention, the driving component A8 drives the main shaft 7 to rotate in the fixing component 25, and the rotating main shaft 7 drives the mounting component connected thereto to rotate, and this arrangement is to drive the winding bracket mounted on the mounting component to rotate through the winding component, so as to wind and wind the cable.

As an alternative of this embodiment, the winding assembly may also rotate the mounting assembly by manually shaking the hand wheel to drive the spindle 7.

Referring to fig. 1 and 4, as an embodiment of the present invention, a mounting assembly for mounting the winding bracket 18 on the winding assembly is disposed on the winding assembly, the mounting assembly includes a supporting member 4 and a telescopic assembly, the supporting member 4 is slidably engaged with a sliding slot B19 formed on the winding bracket 18, and the telescopic assembly can drive the supporting member 4 to perform a linear reciprocating motion.

Preferably, the telescopic assembly comprises a main shaft 6, the main shaft 6 is fixedly connected with a support piece 4 through a telescopic piece 5, the telescopic piece 5 is fixedly connected with a sliding piece A16 in sliding fit with the main shaft 6, one end of the telescopic piece 5 is fixedly connected with the support piece 4, and the other end of the telescopic piece 5 is connected with the main shaft 6 through an elastic assembly A15.

Preferably, the telescopic member 5 is rod-shaped.

Preferably, the support 4 is L-shaped.

Preferably, the sliding member a is block-shaped.

Preferably, the elastic component a15 is any one of a spring, a pressure spring or an elastic steel plate.

Preferably, the bracket 3 is provided with a through hole 17, and the through hole 17 is perpendicular to the main shaft 7. The purpose of this arrangement is to facilitate the placement of the winding cradle 18 on the support 4 through the through hole 17.

In the embodiment of the present invention, the winding bracket 18 passes through the through hole 17, the supporting member 4 is aligned with the sliding slot B19, and then the winding bracket 18 is slid, and at this time, the elastic component a15 fixes the winding bracket 18 by clinging the supporting member 4 to the inner wall of the sliding slot B19, which is designed to fix the winding brackets 18 of different specifications, and the through hole 17 formed on the bracket 3 facilitates the installation of the winding bracket 18 on the supporting member 4.

As an alternative to this embodiment, the mounting assembly may also incorporate any of an electric telescopic rod, a hydraulic cylinder and a pneumatic cylinder.

Referring to fig. 1, as an embodiment of the present invention, the linear displacement assembly includes a box 12, a lead screw 10 is rotatably connected to the box 12, one end of the lead screw 10 is connected to a driving assembly C (not shown) fixedly connected to the box 12, a connecting member 13 is screwed on the lead screw 10, the connecting member 13 is slidably engaged with the box 12, and a line pipe 11 is connected to the connecting member 13.

Preferably, the connecting member 13 is block-shaped, and the connecting surface with the conduit 11 is an inclined surface.

Preferably, the driving component C is a stepping motor or a hand-operated wheel.

Preferably, the conduit 11 is fixedly connected to the connecting piece 13 in an inclined manner.

In the embodiment of the present invention, the motor C drives the lead screw 10 to rotate, the rotating lead screw 10 drives the connecting member 13 in threaded connection therewith to perform a linear reciprocating motion along the box 12, that is, the connecting member 13 drives the cable to perform a linear reciprocating motion through the conduit 11, and the connecting member 13 fixed on the connecting member 13 in an inclined manner facilitates the cable to drive the bracket 3 to rotate through a self-tightening force, so that the purpose of the arrangement is to match with the winding assembly to uniformly wind the cable on the winding bracket.

As an alternative to this embodiment, the linear displacement assembly may also use a motor to cooperate with a rotary gear pair to drive the screw rod 10 to rotate reciprocally.

The embodiment of the invention provides a power construction cable winding device, and the winding device is provided with a winding mechanism and a winding mechanism, so that the technical effect of breaking the twisting force of a cable to protect the safety of the internal circuit of the cable during the winding of the cable is achieved through the winding mechanism and the winding mechanism.

The above description is only for the specific embodiments of the present disclosure, but the scope of the present disclosure is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present disclosure, and shall cover the scope of the present disclosure. Therefore, the protection scope of the present disclosure shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a power construction cable winding device, includes base A, support and winding support, the support pass through base B with base A swing joint still includes:

the winding mechanism is movably connected with the bracket and is used for driving the winding bracket to rotate so as to complete winding and rolling of the cable; and

the rotating component in the breaking mechanism can enable the cable to be always positioned at the same angle with the bracket in a mode of driving the bracket to rotate in a reciprocating manner in the horizontal direction, the acting force generated by screwing the cable per se drives the bracket to slide in a reciprocating manner along the sliding chute A, the torque generated by screwing the cable per se is transmitted to the breaking auxiliary component, and the acting force generated when the cable is wound and wound is broken by the breaking auxiliary component in a mode of driving the bracket to slide along the sliding chute A;

the rotating member comprises a sliding piece B and an elastic component B, the sliding piece B is respectively in sliding fit with a slot B arranged on the base A and a slot C arranged on the base B, and the sliding piece B is connected with the inner wall of the slot C through the elastic component B;

the auxiliary component for breaking strength comprises a rotating shaft, the rotating shaft is located in a cavity formed in the base B, the rotating shaft is connected with the base B in a rotating mode, the base B is connected with the support through a transmission assembly in a transmission mode, one end of the base B is connected with the driving assembly B, the other end of the base B is connected with the torque corner sensor, and the base B is electrically connected with the torque corner sensor.

2. The power construction cable winder of claim 1, wherein the winding mechanism comprises:

3. The power construction cable winding device according to claim 2, wherein the winding assembly comprises a driving assembly A and a fixing member, the driving assembly A is connected with the fixing member, the fixing member is fixedly connected with the bracket, a main shaft is rotatably connected with the fixing member, and the main shaft is connected with the mounting assembly.

4. The power construction cable winding device according to claim 2, wherein the linear displacement assembly comprises a box body, a lead screw is rotatably connected to the box body, one end of the lead screw is connected with a driving assembly C fixedly connected to the box body, a connecting piece is in threaded fit with the lead screw, the connecting piece is in sliding fit with the box body, and a wire pipe is connected to the connecting piece.

5. The power construction cable winding device according to claim 2 or 4, wherein the winding assembly is provided with a mounting assembly for mounting the winding support on the winding assembly, the mounting assembly comprises a support member and a telescopic assembly, the support member is in sliding fit with a sliding groove B formed in the winding support, and the telescopic assembly can drive the support member to perform linear reciprocating motion.