CN217113963U

CN217113963U - A stranded mechanism for producing 5G communication cable

Info

Publication number: CN217113963U
Application number: CN202123384328.2U
Authority: CN
Inventors: 李光睿
Original assignee: Jiangsu Feilian Electronic Technology Co ltd
Current assignee: Jiangsu Feilian Electronic Technology Co ltd
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2022-08-02
Anticipated expiration: 2031-12-29

Abstract

The utility model discloses a stranded mechanism for producing 5G communication cable, including the frame, set gradually in the frame and unreel subassembly, guide subassembly and rolling subassembly, and the single strand cable unreels by unreeling the subassembly to guide the transposition through the guide subassembly, and carry out the rolling by the rolling subassembly. Through setting up this stranded mechanism, can select the strand number of cable according to the demand of actual production to the transposition provides big data and high-speed cable.

Description

A stranded mechanism for producing 5G communication cable

Technical Field

The utility model relates to a cable processing field especially relates to a stranded mechanism for producing 5G communication cable.

Background

The fifth Generation Mobile Communication Technology (5th Generation Mobile Communication Technology, abbreviated as 5G) is a new Generation broadband Mobile Communication Technology with the characteristics of high speed, low time delay and large connection, and is a network infrastructure for realizing man-machine interconnection.

The characteristics of high speed, low time delay and large connection in 5G communication are realized by high-performance cables, the number of strands of a wire harness in the 5G communication cable is increased, the increase of the number of strands causes the existing cable twisting mechanism to be difficult to meet the processing requirement, and if the equipment is directly used, the excessive twisting of the 5G cable or the overlong length of the cable can be caused, so that the communication speed is reduced.

Therefore, the inventor of the present invention aims to invent a stranded mechanism for producing 5G communication cables in response to the problem.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above disadvantages, the present invention provides a stranded mechanism for producing 5G communication cables.

In order to achieve the above purpose, the utility model discloses a technical scheme is: a stranded mechanism for producing a 5G telecommunication cable, comprising,

the frame is arranged on the ground;

the unwinding assembly is arranged on the rack and can unwind a cable coil;

the guide assembly comprises a guide bottom plate, a guide disc is arranged on the guide bottom plate, a guide hole is formed in the guide disc and is used for a single-stranded cable to pass through, a rotating arc-shaped hole is formed in the guide disc, an adjusting shaft is arranged on the guide bottom plate and is located in the rotating arc-shaped hole, teeth are arranged on the outer diameter of the guide disc, a rack is arranged on the guide bottom plate and is meshed with the teeth, and the guide disc can rotate when the rack moves;

the winding assembly can wind the cable passing through the guide assembly.

Furthermore, the guide assemblies are arranged in a plurality, gradual stranding of the multi-core cable is achieved through the guide of the guide assemblies, and finally the qualified stranded cable is formed and wound.

Furthermore, the guide disc is circular, and the circle center of the rotating arc-shaped hole is the circle center of the guide disc. Through the setting of concentric circles promptly, guaranteed that the guide dish can rotate, the dynamics of control transposition then.

Furthermore, the adjusting shafts are arranged in two, and the two adjusting shafts are located in the rotating arc-shaped holes. Namely, the stability of the rotating process can be ensured through the arrangement of the two adjusting shafts.

Furthermore, the teeth arranged on the outer diameter of the guide disc are distributed for 180 degrees, and meanwhile, the rotating arc-shaped holes are arranged for 180 degrees. And the matched distance between the two adjusting shafts is controlled within 10 degrees, so that the rotating range of the guide disc can be ensured, and the rotating process is more stable.

Further, the rack is connected with a driving cylinder, and the rack can move under the action of the driving cylinder. Namely, the rotation of the guide plate is realized through the movement of the rack.

Furthermore, the guide holes of the guide disc are arranged in a plurality of numbers, one guide hole is arranged at the circle center of the guide disc, the circle center is used as the center, the guide holes are arranged in concentric circles along the radius direction, at least two concentric circles are arranged, and the guide holes are arranged on each concentric circle at equal intervals. That is, if the twisting is performed in a single layer, one concentric circle and a central guide hole are used, and if the twisting is performed in two layers, two concentric circles are used to match the central guide hole.

Furthermore, unreel the subassembly including unreeling the dish, set up the unreeling roller on the unreeling dish, set up the cable book on the unreeling roller, and set up on the unreeling dish and compress tightly the piece, compress tightly the piece and can compress tightly the cable. Through the setting of a plurality of subassemblies of unreeling promptly, can realize the synchronous transposition of multicore cable.

Furthermore, the pressing piece can be a small cylinder, and the cable coil surface layer is pressed at the end part of a telescopic rod of the cylinder; the cable coil can also be arranged in other shapes, for example, a buffer spring is arranged, a pressing rod is arranged on the buffer spring, the pressing rod is arranged along the radial direction, and the buffer spring always presses the pressing rod to realize the pressing of the cable coil.

Further, the rolling assembly comprises a rolling plate, a rolling roller is arranged on the rolling plate, the rolling roller is connected with a rolling motor, and the rolling motor can drive the rolling roller to rotate. The winding motor provides power for the winding roller, winding after twisting is achieved, and subsequent processing is facilitated, for example, a protective layer, an insulating layer and the like are subsequently added.

The utility model relates to a stranded transposition mechanism's for producing 5G communication cable beneficial effect is, through setting up this stranded transposition mechanism, can select the strand number of cable according to the demand of actual production to the transposition provides big data and high speed's cable.

Drawings

Fig. 1 is a schematic structural view of a stranded mechanism for producing a 5G telecommunication cable.

Fig. 2 is a schematic view of one set of guide assemblies.

FIG. 3 is a schematic view of another set of guide assemblies.

Fig. 4 is a schematic view after stranding the strands.

Fig. 5 is a schematic view of the unwinding assembly.

In the figure:

1. a frame, 2, an unreeling component, 3, a guiding component, 4 and a reeling component,

21. a unreeling disc 22, an unreeling roller 23, a pressing piece,

31. a guide bottom plate 32, a guide disc 33, an adjusting shaft 34, teeth 35, a rack 36, a driving cylinder 321, a guide hole 322, a rotary arc-shaped hole,

41. a winding plate 42, a winding roller 43 and a winding motor.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1-5, in the present embodiment, a stranded mechanism for producing a 5G telecommunication cable includes:

the device comprises a rack 1, wherein the rack 1 is arranged on the ground;

the unwinding assembly 2 is arranged on the rack 1, and the unwinding assembly 2 can unwind a cable coil;

the guide assembly 3 comprises a guide bottom plate 31, a guide disc 32 is arranged on the guide bottom plate 31, a guide hole 321 is arranged on the guide disc 32, the guide hole 321 is used for a single-strand cable to pass through, a rotating arc-shaped hole 322 is arranged on the guide disc 32, an adjusting shaft 33 is arranged on the guide bottom plate 31, the adjusting shaft 33 is located in the rotating arc-shaped hole 322, teeth 34 are arranged on the outer diameter of the guide disc 32, a rack 35 is arranged on the guide bottom plate 31, the rack 35 is meshed with the teeth 34, and when the rack 35 moves, the guide disc 32 can rotate;

and the winding component 4 can wind the cable passing through the guide component 3 by the winding component 4.

Further, the guide assemblies 3 are arranged in a plurality of modes, gradual stranding of the multi-core cable is achieved through the guide of the guide assemblies 3, and finally qualified stranded cables are formed and rolled.

Further, the guiding plate 32 is circular, and the center of the rotating arc hole 322 is the center of the guiding plate 32. That is, the guide plate 32 can rotate by the arrangement of the concentric circles, and then the twisting force is controlled.

Further, the number of the adjusting shafts 33 is two, and the two adjusting shafts 33 are located in the rotating arc-shaped hole 322. Namely, by providing two adjusting shafts 33, the stability of the rotation process can be ensured.

Further, the teeth 34 provided on the outer diameter of the guide disk 32 are arranged at 180 degrees, while the rotation arc holes 322 are arranged at 180 degrees. And the distance between the two adjusting shafts 33 is controlled within 10 degrees in a matching way, so that the rotating range of the guide disc 32 can be ensured, and meanwhile, the rotating process is more stable.

Further, the rack 35 is connected to a driving cylinder 36, and the rack 35 can move under the action of the driving cylinder 36. I.e. the rotation of the guide disc 32 is effected by the movement of the toothed rack 35.

Further, the guide holes 321 of the guide disk 32 are arranged in a plurality of numbers, one guide hole is arranged at the center of the circle of the guide disk 32, the center of the circle is used as the center, the guide holes are arranged in concentric circles along the radius direction, at least two concentric circles are arranged, and the guide holes 321 are arranged on each concentric circle at equal intervals. That is, if the twisting is performed in a single layer, one concentric circle and the guide hole 321 at the center may be used, and if the twisting is performed in two layers, two concentric circles may be used to match the guide hole 321 at the center.

Further, unreel subassembly 2 including unreeling the dish 21, set up on unreeling the dish 21 and unreel roller 22, set up the cable on unreeling roller 22 and roll up, and set up on unreeling the dish 21 and compress tightly 23, compress tightly 23 and can compress tightly the cable. Through the setting of a plurality of subassemblies 2 of unreeling, can realize the synchronous transposition of multicore cable promptly.

Furthermore, the pressing piece 23 can be a small cylinder, and the cable coil surface layer can be pressed on the end part of a telescopic rod of the cylinder; the cable coil can also be arranged in other shapes, for example, a buffer spring is arranged, a pressing rod is arranged on the buffer spring, the pressing rod is arranged along the radial direction, and the buffer spring always presses the pressing rod to realize the pressing of the cable coil.

Further, the winding assembly 4 comprises a winding plate 41, a winding roller 42 is arranged on the winding plate 41, the winding roller 42 is connected with a winding motor 43, and the winding motor 43 can drive the winding roller 42 to rotate. Namely, the winding motor 43 is used for providing power for the winding roller 42, so that winding after twisting is realized, and subsequent processing is facilitated, such as subsequent increase of a protective layer, an insulating layer and the like.

The stranded mechanism for producing the 5G communication cable has the advantages that the stranded mechanism is arranged, so that the number of strands of the cable can be selected according to actual production requirements, stranding is carried out, and the cable with large data and high speed is provided.

Referring to the attached drawings, six conductors are stranded outside a central conductor, the central conductor is unreeled from an unreeling assembly, 7 wires are selected to sequentially pass through two groups of guide assemblies, the guide assemblies gradually become smaller, the wires are led out from a forming hole on a forming plate, and a reeling assembly is used for reeling.

Wherein, the control of transposition degree is controlled by two sets of guide assembly, through the gradual increase transposition degree for the fashioned performance of cable final can be guaranteed.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims

1. A multi-strand twisting mechanism for producing 5G telecommunication cables, comprising:

the frame is arranged on the ground;

the unwinding assembly is arranged on the rack and can unwind a cable coil;

the winding assembly can wind the cable passing through the guide assembly.

2. The multi-strand twisting mechanism for producing 5G telecommunication cables as claimed in claim 1, wherein: the guide disc is circular, and the circle center of the rotating arc-shaped hole is the circle center of the guide disc.

3. The multi-strand twisting mechanism for producing 5G telecommunication cables as claimed in claim 1, wherein: the regulating shaft sets up two, and two the regulating shaft all is located rotatory arc downthehole.

4. The multi-strand stranding mechanism for producing 5G communication cables according to claim 1, wherein: the teeth arranged on the outer diameter of the guide disc are distributed for 180 degrees, and meanwhile, the rotating arc-shaped holes are arranged for 180 degrees.

5. The multi-strand twisting mechanism for producing 5G telecommunication cables as claimed in claim 1, wherein: the rack is connected with a driving cylinder, and can move under the action of the driving cylinder.

6. The multi-strand twisting mechanism for producing 5G telecommunication cables as claimed in claim 1, wherein: the guiding holes of the guiding disc are arranged in a plurality of numbers, one guiding hole is arranged at the circle center of the guiding disc, the circle center is used as the center, the guiding holes are arranged in concentric circles along the radius direction, at least two concentric circles are arranged, and the guiding holes are arranged on each concentric circle at equal intervals.

7. The multi-strand twisting mechanism for producing 5G telecommunication cables as claimed in claim 1, wherein: the unreeling assembly comprises an unreeling disc, an unreeling roller is arranged on the unreeling disc, a cable reel is arranged on the unreeling roller, a pressing piece is arranged on the unreeling disc, and the pressing piece can press the cable.

8. The multi-strand twisting mechanism for producing 5G telecommunication cables as claimed in claim 1, wherein: the winding assembly comprises a winding plate, a winding roller is arranged on the winding plate, the winding roller is connected with a winding motor, and the winding motor can drive the winding roller to rotate.