CN113213253A

CN113213253A - Cable winding and winding device

Info

Publication number: CN113213253A
Application number: CN202110505935.5A
Authority: CN
Inventors: 尚广兵
Original assignee: Hefeishi Shenzhao Electronic Co ltd
Current assignee: Hefeishi Shenzhao Electronic Co ltd
Priority date: 2021-05-10
Filing date: 2021-05-10
Publication date: 2021-08-06

Abstract

The invention provides a cable winding and winding device, which comprises: the device comprises a bracket, a length meter, a rotating assembly, a translation assembly and a cable drum; the support comprises a base and two supporting pieces, the two supporting pieces are fixedly connected with the base, and the two supporting pieces are arranged oppositely in parallel; the length gauge is arranged on the bracket and used for measuring the length of the cable; the translation assembly is arranged on the support; the rotating assembly is fixedly arranged on the translation assembly, and the translation assembly can drive the rotating assembly to move along the axial direction of the translation assembly; the rotating assembly is in transmission connection with the cable drum shaft, and the rotating assembly can drive the cable drum to rotate around the cable drum shaft. The winding device is simple and practical in structure, and can wind different cables; the length of the wound cable can be measured; different rotating speeds can be automatically set according to different cables; the generated cable reel can be provided with two cable ports for two persons to use simultaneously; it is also possible to wind two different cables on one cable drum.

Description

Cable winding and winding device

Technical Field

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

Background

The cable is a generic term for optical cables, electric cables, and the like. The cable has many purposes, is mainly used for controlling installation, connecting equipment, transmitting power and other multiple functions, and is a common and indispensable object in daily life. The cable and the formed cable need to be wound into a coil so as to facilitate the subsequent procedures of packaging, storing, transporting and the like. Simple winding often makes the middle thick and thin after the cable is coiled; the winding is carried out by using machinery, and the winding force for the thin cable is too large, so that the cable is damaged; for thicker cables, when the winding force is insufficient, the generated cable reel is loose, and occupies more space; coiled cables often have only one cable port for a user to pull out, requiring waiting if multiple users are using the cable at the same time.

Disclosure of Invention

In order to solve the above problems, the present invention provides a cable winding and winding device, including: the device comprises a bracket, a length meter, a rotating assembly, a translation assembly and a cable drum;

the support comprises a base and two supporting pieces, the two supporting pieces are fixedly connected with the base, and the two supporting pieces are oppositely arranged in parallel;

the length gauge is mounted on the bracket and used for measuring the length of the cable;

the translation assembly is mounted on the support;

the rotating assembly is fixedly arranged on the translation assembly, and the translation assembly can drive the rotating assembly to move along the axial direction of the translation assembly;

the rotating assembly is in transmission connection with the cable drum shaft and can drive the cable drum to rotate around the cable drum shaft.

Further, the support still includes the lifting means, the lifting means is used for driving the translation subassembly and reciprocates.

Further, the cable winding and winding device further comprises a force measuring assembly, and the force measuring assembly is used for testing the force borne by the cable during winding;

the force measuring assembly is connected with the cable.

Furthermore, the force measuring assembly is in communication connection with the rotating assembly and is further used for controlling the rotating speed of the rotating assembly according to the force borne by the cable during winding test.

Furthermore, the cable drum further comprises a first wrapping post and a second wrapping post, and cables are wound on the first wrapping post and the second wrapping post;

the first wrapping post and the second wrapping post are arranged on the outer side of the middle of the cable drum.

Further, the first wrapping post and the second wrapping post are both cylindrical wrapping posts.

Further, the cable is wound clockwise and counterclockwise around the cable drum after being wound in an S-shape between the first winding post and the second winding post, respectively.

Further, the cable is wound clockwise or counterclockwise around the cable drum after being wound in a U-shape between the first winding leg and the second winding leg.

Furthermore, the first wrapping post and the second wrapping post are respectively provided with a fixing piece, and the fixing pieces are used for fixing the cable.

Further, the cable is fixed on the fixing piece of the first winding post and/or the second winding post, and the cable drum is wound clockwise or anticlockwise.

The cable winding and winding device provided by the invention is simple and practical in structure, and can wind cables with different diameters; the length of the wound cable can be measured; different rotating speeds can be automatically set according to different cables; the generated cable reel can be provided with two cable ports for two persons to use simultaneously; it is also possible to wind two different cables on one cable drum.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a cable winding and winding device according to an embodiment of the invention;

FIG. 2 illustrates a schematic winding of a cable drum according to an embodiment of the present invention;

FIG. 3 shows another schematic winding of a cable drum according to an embodiment of the invention.

Illustration of the drawings: 1. a support; 2. a length gauge; 3. a rotating assembly; 4. a translation assembly; 5. a cable drum; 51. a first winding post; 52. a second winding post.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a cable winding and winding device, which comprises the following components: the device comprises a bracket 1, a length gauge 2, a rotating assembly 3, a translation assembly 4 and a cable drum 5; the support 1 comprises a base and two supporting pieces, wherein the two supporting pieces are fixedly connected with the base and are oppositely arranged in parallel; the length meter 2 is arranged on the bracket 1, and the length meter 2 is used for measuring the length of a cable; the translation assembly 4 is mounted on the support; the rotating assembly 3 is fixedly arranged on the translation assembly 4, and the translation assembly 4 can drive the rotating assembly 3 to move along the axial direction of the translation assembly 4; the rotating component 3 is in transmission connection with the cable drum 5, and the rotating component 3 can drive the cable drum 5 to rotate around the cable drum 5 in the axial direction.

Illustratively, the invention relates to a cable winding and winding device which is used for winding a cable into a coil. The invention can wind various types of cables into coils. The device of the invention can be designed into different sizes according to actual requirements so as to meet the actual requirements.

The cable winding and winding device comprises: the device comprises a bracket 1, a length gauge 2, a rotating assembly 3, a translation assembly 4 and a cable drum 5; the support 1 comprises a base and two supporting pieces, wherein the two supporting pieces are fixedly connected with the base, and the two supporting pieces are oppositely arranged in parallel. The support 1 can be placed on a horizontal ground, can also be installed on an inclined plane with a certain angle, and even the support 1 can be fixed on a wall surface vertical to the ground. The support 1 comprises a base and two supporting pieces. The base can be for arbitrary design, can be current ground or wall even, as long as satisfy support piece can fixed connection to the base on, and when the device was used for the cable winding, support 1 can stabilize support cable winding rolling work can. The two supports are arranged in parallel and opposite each other, and the cable drum 5 is located between the two supports when the device is in operation. The length meter 2 is mounted on the bracket 1, and the length meter 2 is used for measuring the length of the cable. The length meter 2 can use, but not limited to, the following design, and uses an optical device to measure the moving speed of the cable end when the cable is wound or pulled out, and then obtains the length of the cable rolled or pulled out according to the moving time of the cable.

The translation assembly 4 is mounted on the support; the rotating assembly 3 is fixedly arranged on the translation assembly 4, and the translation assembly 4 can drive the rotating assembly 3 to move along the axial direction of the translation assembly 4; the rotating component 3 is in transmission connection with the cable drum 5, and the rotating component 3 can drive the cable drum 5 to rotate around the cable drum 5 in the axial direction. One end of the cable is fixed on the cable drum 5, and the cable drum 5 rotates around the axis direction of the cable drum 5 to drive the cable to be wound on the cable drum 5. The rotating component 3 is in transmission connection with the cable drum 5, and the rotating component 3 can drive the cable drum 5 to rotate around the cable drum 5 in the axial direction. The rotating component 3 is in shaft transmission connection with the cable drum 5, and the rotating component 3 can be a motor and drives the cable drum 5 to rotate; the rotating assembly 3 can also be a handle, and the cable drum 5 is manually driven to rotate. The translation assembly 4 is arranged on the support, the rotating assembly 3 is fixedly arranged on the translation assembly 4, and the translation assembly 4 drives the rotating assembly 3 to move along the axial direction of the translation assembly 4, so that the cable drum 5 can also move along the axial direction of the translation assembly 4. When the cable twines like this, cable section of thick bamboo 5 is rotatory to be moved about simultaneously for the cable can be even twine on cable section of thick bamboo 5, the phenomenon that the middle height both ends are low can not appear. Preferably, the cable drum 5 is in shaft transmission connection with the rotating assembly 3, and the cable drum 5 can also be taken down from the rotating assembly 3, so that after the cable is wound, the cable winding and winding device is replaced with a new cable drum 5 for winding again. Translation subassembly 4 can use but following mode of not limiting, if translation mechanism can be the translation cylinder, the translation cylinder setting is on the support, and the rotation component 3 is connected to the translation cylinder, and the translation cylinder can drive rotation component 3 and move along 4 directions of translation mechanism.

If the translation mechanism 4 can be a hinge structure, the hinge is arranged on the bracket, the hinge is connected with the rotating component 3, and the hinge can move along the direction of the translation mechanism 4.

Specifically, the support 1 further comprises a lifting assembly, and the lifting assembly is used for driving the translation assembly 4 to move up and down.

Illustratively, when the cable drum 5 is heavy, it is difficult to manually replace the cable drum, requiring mechanical assistance. The lifting assembly drives the translation assembly 4 to move up and down. After the cable is wound, the lifting assembly drives the translation assembly 4 to move downwards, and finally drives the cable drum 5 to move downwards. When the cable drum 5 is lowered to the ground, the already wound cable drum 5 is taken down and replaced with a new cable drum 5. The lifting assembly drives the translation assembly 4 to move upwards to reach a proper height, and then the cable is wound. The lifting assembly can be designed independently, such as a separate crane, and is connected with the translation assembly 4 when needed; the lifting assembly can also be arranged on the support 1, if hydraulic equipment is arranged on two sides of the support respectively, the hydraulic equipment on two sides is connected to two ends of the translation assembly 4 respectively. The hydraulic equipment can drive the translation assembly 4 to move up and down.

Specifically, the cable winding and winding device further comprises a force measuring assembly, and the force measuring assembly is used for testing the force borne by the cable during winding; the force measuring assembly is connected with the cable. The force measuring assembly is also in communication connection with the rotating assembly 3 and is further used for controlling the rotating speed of the rotating assembly 3 according to the force borne by the cable during winding test.

For example, when some cables are subjected to a certain pulling force, the interior of the cable may be damaged, which may ultimately affect the use of the cable. When some thicker cables are wound, if the winding force is insufficient, the finally wound cables are looser and occupy more space. When the cable is wound, the rotation of the cable drum 5 can provide certain tension for the cable, when the rotation speed of the cable drum 5 is high, the tension for the cable is high, and when the rotation speed of the cable drum 5 is low, the tension for the cable is low. The cable winding and winding device further comprises a force measuring assembly, and the force measuring assembly is used for testing the force borne by the cable during winding; the force measuring assembly is connected with the cable. The force measuring assembly can be connected with a cable in a mode without limitation, one end of the cable is connected with the cable winding and winding device for winding, one end of the force measuring assembly is of an annular structure, the far end of the other end of the cable is arranged in the annular structure, the cable is abutted against the inner side of the annular structure with a certain force, and the cable can slide in the annular structure; when the cable is wound, the cable will exert a certain pulling force on the force-measuring assembly through the loop structure. Through the force measuring assembly, the force borne by the cable when the cable is wound at present can be obtained. The force measuring assembly is also in communication connection with the rotating assembly 3 and controls the speed at which the rotating assembly 3 rotates. And according to the cable needing to be wound, obtaining the maximum tension and the minimum tension in advance. When the cable is wound, the force measuring assembly detects the tensile force applied to the cable in real time. When the current pulling force is larger than the maximum value of the pulling force, the force measuring assembly controls the rotating speed of the rotating assembly 3 to slow until the current pulling force is within a normal range value; when the current pulling force is smaller than the pulling force minimum value, the rotating speed of the rotating assembly 3 is controlled by the force measuring assembly to be accelerated until the current pulling force is within a normal range value.

Specifically, the cable drum 5 further includes a first winding post 51 and a second winding post 52; the first and second wrapping posts 51 and 53 are wound with cables and arranged outside the middle of the cable drum 5 on the first and second wrapping posts 51 and 52. The first winding post 51 and the second winding post 52 are both cylindrical winding posts. The cable is wound around the cable drum 5 clockwise and counterclockwise after being wound in an S-shape between the first and second winding

legs

51 and 52, respectively. The cable is wound clockwise or counterclockwise around the cable drum 5 after being wound in a U-shape between the first and second winding

legs

51 and 52.

For example, in a conventional cable tray, only one cable port is provided for users, so that users need to wait for the cable port to be used by the users. According to the cable winding and winding device, the wound cable drum is provided with two cable ports, and two users can use the cable drum at the same time. When the cable is wound, one end of the cable needs to be fixed on the cable drum 5 firstly, and then winding is carried out. The cable drum 5 further includes a first winding post 51 and a second winding post 52; the middle outer side of the cable drum 5 is provided with a first winding post 51 and a second winding post 52, and the first winding post 51 and the second winding post 52 are used for fixing a cable. The invention uses two ways to fix the cable. One is a wound form. There are two ways of winding. The first winding post 51 and the second winding post 52 are both cylindrical winding posts. In the first winding manner, after the middle section of the cable is wound between the first winding post 51 and the second winding post 52 in an S-shape, as shown in fig. 2, the cable drum 5 rotates, and at this time, both sides of the middle section of the cable are respectively wound around the cable drum 5 clockwise and counterclockwise. In the second winding manner, after the middle section of the cable is wound into a U shape between the first winding post 51 and the second winding post 52, as shown in fig. 3, the cable drum 5 rotates toward the U-shaped closed direction, and at this time, both sides of the middle section of the cable are wound clockwise or counterclockwise around the cable drum 5.

Specifically, the first winding post 51 and the second winding post 52 are respectively provided with a fixing member, and the fixing members are used for fixing a cable. The cable is fixed on the fixing piece of the first winding post 51 and/or the second winding post 52 and is wound around the cable drum 5 clockwise or counterclockwise.

Another way of fixing is, for example, a fixed type. The first winding post 51 and the second winding post 52 are respectively provided with a fixing member, and the fixing member can use various designs, such as a clip, and the fixing member can fix a cable. One end of the cable is fixed on the fixing piece of the first winding post 51 and/or the second winding post 52, and the cable drum 5 rotates to finally generate the cable disc with only one cable port. The middle section of the cable is fixed to the fixing member of the first winding post 51 and/or the second winding post 52, and the cable drum 5 rotates to finally form a cable drum with two cable ports. The cable winding and winding device designed by the invention can wind two different cables on one cable drum 5. One ends of two different cables are respectively fixed on the fixing pieces of the first winding post 51 and the second winding post 52, and the cable drum 5 rotates to finally generate a cable reel with two different cables.

The cable winding and winding device provided by the invention is simple and practical in structure, and can wind different cables; the length of the wound cable can be measured; different rotating speeds can be automatically set according to different cables; the generated cable reel can be provided with two cable ports for two persons to use simultaneously; it is also possible to wind two different cables on one cable drum.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A cable winding and winding device is characterized in that,

the cable winding and winding device comprises: the device comprises a bracket (1), a length gauge (2), a rotating assembly (3), a translation assembly (4) and a cable drum (5);

the support (1) comprises a base and two supporting pieces, wherein the two supporting pieces are fixedly connected with the base and are oppositely arranged in parallel;

the length meter (2) is mounted on the bracket (1), and the length meter (2) is used for measuring the length of a cable;

the translation assembly (4) is mounted on the support;

the rotating assembly (3) is fixedly arranged on the translation assembly (4), and the translation assembly (4) can drive the rotating assembly (3) to move along the axial direction of the translation assembly (4);

the rotating assembly (3) is in shaft transmission connection with the cable drum (5), and the rotating assembly (3) can drive the cable drum (5) to rotate around the axis direction of the cable drum (5).

2. The cable wrap-up device of claim 1,

the support (1) further comprises a lifting assembly, and the lifting assembly is used for driving the translation assembly (4) to move up and down.

3. The cable wrap-up device of claim 1,

the cable winding and winding device further comprises a force measuring assembly, and the force measuring assembly is used for testing the force borne by the cable during winding;

the force measuring assembly is connected with the cable.

4. The cable wrap-up device of claim 3,

the force measuring assembly is also in communication connection with the rotating assembly (3) and is further used for controlling the rotating speed of the rotating assembly (3) according to the force borne by the cable during winding test.

5. The cable wrap-up device of claim 1,

the cable drum (5) further comprises a first wrapping post (51) and a second wrapping post (52), and cables are wound on the first wrapping post (51) and the second wrapping post (52);

the first winding post (51) and the second winding post (53) are arranged on the outer side of the middle of the cable drum (5).

6. The cable wrap-up device of claim 5,

the first winding post (51) and the second winding post (52) are both cylindrical winding posts.

7. The cable wrap-up device of claim 6,

the cable is wound around the cable drum (5) clockwise and counterclockwise respectively after being wound between the first winding post (51) and the second winding post (52) in an S shape.

8. The cable wrap-up device of claim 6,

the cable is wound clockwise or counterclockwise around the cable drum (5) after being wound in a U shape between the first winding leg (51) and the second winding leg (52).

9. The cable wrap-up device of claim 5,

and the first winding post (51) and the second winding post (52) are respectively provided with a fixing piece, and the fixing pieces are used for fixing cables.

10. The cable wind-up winder of claim 9,

the cable is fixed on a fixing piece of the first winding post (51) and/or the second winding post (52), and is wound around a cable drum (5) clockwise or anticlockwise.