CN214279682U - Electromagnetic brake device of stranding machine - Google Patents

Abstract

The utility model provides an electromagnetic brake device of a stranding machine, which is a first synchronous belt wheel connected by a main motor; the first transmission shaft is coaxially connected with the second synchronous belt pulley, the third synchronous belt pulley and the fifth synchronous belt pulley; the full-machine brake is arranged on the first transmission shaft; a fourth synchronous belt wheel driven by the third synchronous belt wheel, a sixth synchronous belt wheel driven by the fifth synchronous belt wheel, and the fourth synchronous belt wheel and the sixth synchronous belt wheel are respectively connected with the winch bow; a fifteenth gear meshed with the fourteenth gear, and a twenty-second synchronous pulley coaxially connected with the fifteenth gear; with twenty first gear coaxial coupling's twentieth synchronous pulley, with the driven twenty fourth synchronous pulley of twentieth synchronous pulley, install electromagnetic brake on the transmission shaft of connecting between twenty first gear and the twentieth synchronous pulley, can avoid the stranded conductor to be broken, also can guarantee that the pinhole number of stranded conductor, the change of lay length are also little, moreover the utility model discloses a stranding machine electromagnetic brake device simple structure.

Description

Electromagnetic brake device of stranding machine

Technical Field

The utility model relates to a stranding machine electromagnetic brake device

Background

The high-speed wire twisting machine is a twisting mechanical device which can be widely applied to various soft/hard conductor wires (copper wires, enameled wires, tinned wires, copper-clad steel, copper-clad aluminum and the like) and electronic wires (such as power wires, earphone wires, telephone wires, PVC wires, network wires and the like), so that a plurality of single conductors are twisted into one strand to meet the process requirements of the wires.

As shown in fig. 1, the high-speed wire twisting machine includes an unwinding control 1, a wire passing 2, a wire passing nozzle 3, a main motor 4, a winding shaft 5, a twisting bow 6, a wire arranging device 7, a winding control 8 and a wire releasing rack 10. For a high-speed stranding machine, when the copper wires 9 pass through the twisting bow 6 on the high-speed stranding machine, the twisting bow 6 makes the individual copper wires 9 be spirally wound together in a circular motion mode. Copper wires with different specifications and different numbers are stranded together according to a certain arrangement sequence and a certain stranding distance to form a copper conductor (stranded wire) with a larger diameter, the stranded copper conductor is much softer than a single copper wire with the same diameter, and the bending performance of the manufactured electric wire is also better.

The stranded wire produced by the existing high-speed stranding machine has large pin hole number and large variation of a lay length value, and the stranded wire is easy to be stretched and even broken.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stranding machine electromagnetic brake device.

In order to solve the above problem, the utility model provides a stranding machine electromagnetic brake device, include:

the main motor is connected with a first synchronous belt wheel;

a second timing pulley driven by the first timing pulley;

the first transmission shaft is coaxially connected with the second synchronous belt pulley, the third synchronous belt pulley and the fifth synchronous belt pulley;

the full-machine brake is mounted on the first transmission shaft;

a fourth synchronous belt wheel driven by the third synchronous belt wheel and a sixth synchronous belt wheel driven by the fifth synchronous belt wheel, wherein the fourth synchronous belt wheel and the sixth synchronous belt wheel are respectively connected with the winch bow;

a seventh timing pulley coaxially connected to the fourth timing pulley, an eighth timing pulley driven by the seventh timing pulley, a ninth gear coaxially connected to the eighth timing pulley, a tenth gear meshing with the ninth gear, an eleventh gear meshing with the tenth gear, a twelfth gear coaxially connected to the eleventh gear, a thirteenth gear meshing with the twelfth gear, a fourteenth gear coaxially connected to the thirteenth gear, a fifteenth gear meshing with the fourteenth gear, and a twenty-second timing pulley coaxially connected to the fifteenth gear;

a twenty-third synchronous pulley driven by the twenty-second synchronous pulley, a sixteenth synchronous pulley coaxially connected with the twenty-third synchronous pulley, a seventeenth synchronous pulley driven by the sixteenth synchronous pulley, a first eighteen gear coaxially connected with the seventeenth synchronous pulley, a first nineteenth gear meshed with the first eighteen gear, and a twenty-first gear meshed with the first nineteenth gear;

and a twenty-fourth synchronous pulley which is coaxially connected with the twenty-first gear and is driven by the twenty-fourth synchronous pulley, wherein an electromagnetic brake is arranged on a transmission shaft connected between the twenty-first gear and the twenty-fourth synchronous pulley.

Further, in above-mentioned stranding machine electromagnetic brake device, the electromagnetic brake includes: brake moving plate and with brake moving plate complex brake stator, wherein, the brake stator is installed on the fixed plate, the brake moving plate is installed on the second transmission shaft of being connected between twenty-first gear and the twentieth synchronous pulley.

Further, in above-mentioned stranding machine electromagnetic brake device, still include: and the traction wheel is connected with the twenty-second synchronous belt wheel.

Further, in above-mentioned stranding machine electromagnetic brake device, still include: the clutch is connected with the first eighteen gears.

Further, in above-mentioned stranding machine electromagnetic brake device, still include: and the winding shaft is connected with the first nineteen gear.

Further, in above-mentioned stranding machine electromagnetic brake device, still include: and the wire arranger is connected with the twenty-fourth synchronous belt wheel.

Compared with the prior art, the utility model is provided with the first synchronous belt wheel connected with the main motor; a second timing pulley driven by the first timing pulley; the first transmission shaft is coaxially connected with the second synchronous belt pulley, the third synchronous belt pulley and the fifth synchronous belt pulley; the full-machine brake is arranged on the first transmission shaft; a fourth synchronous belt wheel driven by the third synchronous belt wheel and a sixth synchronous belt wheel driven by the fifth synchronous belt wheel, wherein the fourth synchronous belt wheel and the sixth synchronous belt wheel are respectively connected with the winch bow; a seventh timing pulley coaxially connected to the fourth timing pulley, an eighth timing pulley driven by the seventh timing pulley, a ninth gear coaxially connected to the eighth timing pulley, a tenth gear meshing with the ninth gear, an eleventh gear meshing with the tenth gear, a twelfth gear coaxially connected to the eleventh gear, a thirteenth gear meshing with the twelfth gear, a fourteenth gear coaxially connected to the thirteenth gear, a fifteenth gear meshing with the fourteenth gear, and a twenty-second timing pulley coaxially connected to the fifteenth gear; a twenty-third synchronous pulley driven by the twenty-second synchronous pulley, a sixteenth synchronous pulley coaxially connected with the twenty-third synchronous pulley, a seventeenth synchronous pulley driven by the sixteenth synchronous pulley, a first eighteen gear coaxially connected with the seventeenth synchronous pulley, a first nineteenth gear meshed with the first eighteen gear, and a twenty-first gear meshed with the first nineteenth gear; with twenty-first gear coaxial coupling's twentieth synchronous pulley, with the driven twenty-fourth synchronous pulley of twentieth synchronous pulley, install electromagnetic brake on the transmission shaft of connecting between twenty-first gear and the twentieth synchronous pulley, can avoid the stranded conductor to be broken, also can guarantee that the pinhole number of stranded conductor, the change of lay length are also little, moreover the utility model discloses a stranding machine electromagnetic brake device simple structure.

Drawings

Fig. 1 is a flowchart of an electromagnetic brake device of a stranding machine according to an embodiment of the present invention;

fig. 2 is a transmission diagram of an electromagnetic brake device of a stranding machine according to an embodiment of the present invention;

fig. 3 is a partial structural view of an electromagnetic brake device of a wire machine according to an embodiment of the present invention.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 2 and 3, the utility model provides a stranding machine electromagnetic braking device, include:

a primary motor 4, a first timing pulley Z1 connected to the primary motor 4;

a second timing pulley Z2, the second timing pulley Z2 being driven by the first timing pulley Z1;

a first transmission shaft 11, a third timing pulley Z3 and a fifth timing pulley Z5, the first transmission shaft 11 coaxially connecting the second timing pulley Z2, the third timing pulley Z3 and the fifth timing pulley Z5;

the full-automatic brake 12 is arranged on the first transmission shaft 11;

a fourth synchronous pulley Z4 driven by the third synchronous pulley Z3, a sixth synchronous pulley Z6 driven by the fifth synchronous pulley Z5, and the fourth synchronous pulley Z4 and the sixth synchronous pulley Z6 are respectively connected with a winch bow 6;

a seventh timing pulley Z7 coaxially connected to the fourth timing pulley Z4, an eighth timing pulley Z8 driven by the seventh timing pulley Z7, a ninth gear Z9 coaxially connected to the eighth timing pulley Z8, a tenth gear Z10 meshed with the ninth gear Z9, an eleventh gear Z11 meshed with the tenth gear Z10, a twelfth gear Z12 coaxially connected to the eleventh gear Z11, a thirteenth gear Z13 meshed with the twelfth gear Z12, a fourteenth gear Z14 coaxially connected to the thirteenth gear Z13, a fifteenth gear Z15 meshed with the fourteenth gear Z14, and a twenty-second timing pulley Z22 coaxially connected to the fifteenth gear Z15;

a twenty-third synchronous pulley Z23 driven by the twenty-second synchronous pulley Z22, a first sixteen synchronous pulley Z16 coaxially connected with the twenty-third synchronous pulley Z23, a first seventeen synchronous pulley Z17 driven by the first sixteen synchronous pulley Z16, a first eighteen gear Z18 coaxially connected with the first seventeen synchronous pulley Z17, a first nineteen gear Z19 meshed with the first eighteen gear Z18, and a twenty-first gear Z21 meshed with the first nineteen gear Z19;

a twentieth synchronous pulley Z20 coaxially connected with the twentieth gear Z21, a twentieth synchronous pulley Z24 driven by the twentieth synchronous pulley Z20, and an electromagnetic brake 13 is arranged on a transmission shaft connected between the twentieth gear Z21 and the twentieth synchronous pulley Z20.

Here, the first synchronous pulley Z1 is driven by the motor, the second synchronous pulley Z2 is driven by the cog belt of the first synchronous pulley Z1, the third synchronous pulley Z3 and the fifth synchronous pulley Z5 are coaxially driven (the first transmission shaft 11 is provided with a full-machine brake), the third synchronous pulley Z3 drives the fourth synchronous pulley Z4, the fifth synchronous pulley Z5 drives the sixth synchronous pulley Z6, and the twisting bow is synchronously driven by the Z4 and the Z6 to rotate around the shaft for twisting.

A seventh synchronous pulley Z7 is coaxially driven by a fourth synchronous pulley Z4, an eighth synchronous pulley Z8 is coaxially driven by a synchronous belt of the seventh synchronous pulley Z7, an eighth synchronous pulley Z8 is coaxially driven by a ninth gear Z9, a ninth gear Z9 is driven by a tenth gear Z10, a tenth gear Z10 is driven by an eleventh gear Z11, an eleventh gear Z11 is coaxially driven by a twelfth gear Z12, a twelfth gear Z12 is driven by a thirteenth gear Z13, a thirteenth gear Z13 is coaxially driven by a fourteenth gear Z14, a fourteenth gear Z14 is driven by a fifteenth gear Z15, a fifteenth gear Z15 is coaxially driven by a twenty-second synchronous pulley Z22, a twenty-second synchronous pulley Z22 is coaxially driven by a twenty-third synchronous pulley Z23, a twenty-third synchronous pulley Z23 is coaxially driven by a sixteenth synchronous pulley Z16, a seventeenth synchronous pulley Z17 is coaxially driven by a synchronous belt of a sixteenth synchronous pulley Z16, a seventeenth synchronous pulley Z17 is coaxially driven by a seventeenth synchronous belt of a seventeenth synchronous pulley Z18, the first eighteen gear Z18 drives the first nineteen gear Z19, the first nineteen gear Z19 drives the twenty-first gear Z21, and the twenty-first gear Z21 coaxially drives the twentieth synchronous pulley Z20.

Whole stranding machine drive chain is longer, by first nineteen gear Z19 direct drive rolling axle 5, when the complete machine of stranding machine parkked, because when the stranded conductor diameter on the rolling axle 5 was the biggest (like net weight 150 kilograms), parking inertia was great install electromagnetic brake 13 on the twenty-first gear Z21, electromagnetic brake 13 can be installed epaxially at twenty-first gear Z21, can avoid the stranded conductor to be broken, also can guarantee that the pinhole number of stranded conductor, the change of pitch are also little, moreover the utility model discloses a stranding machine electromagnetic brake device simple structure.

The utility model discloses an in the stranding machine electromagnetic brake device embodiment, electromagnetic brake 13 includes: brake rotor and with brake rotor complex brake stator, wherein, brake stator installs on the fixed plate, brake rotor installs on the second transmission shaft of being connected between twenty-first gear Z21 and the twentieth synchronous pulley Z20.

Here, the brake rotor is mounted on the second transmission shafts of Z20 and Z21, and the brake stator is mounted on the fixed plate. After the stranding machine sends out a braking signal, the twenty-first gear Z21 brakes the first nineteen gear Z19 in time.

As shown in fig. 2, in an embodiment of the electromagnetic brake device of the wire twisting machine of the present invention, the electromagnetic brake device further includes: a traction wheel 15, the traction wheel 15 being connected with the twenty-second synchronous pulley Z22.

As shown in fig. 2, in an embodiment of the electromagnetic brake device of the wire twisting machine of the present invention, the electromagnetic brake device further includes: a clutch 14, said clutch 14 being connected with said first eighteen gear Z18.

As shown in fig. 2, in an embodiment of the electromagnetic brake device of the wire twisting machine of the present invention, the electromagnetic brake device further includes: and the winding shaft 5 is connected with the first nineteen gear Z19.

Here, for a large package of stranded wires with the diameter of the winding disc being greater than 500 mm, the electromagnetic brake 13 is installed, so that the stranded wires can be effectively prevented from being broken, and the change of the pin hole number and the strand pitch of the stranded wires can be ensured to be small.

As shown in fig. 2, in an embodiment of the electromagnetic brake device of the wire twisting machine of the present invention, the electromagnetic brake device further includes: a traverse 7, the traverse 7 being connected with the twenty-fourth timing pulley Z24.

The twenty-first gear Z21 coaxially drives the twentieth synchronous pulley Z20, the twentieth synchronous pulley Z20 coaxially drives the twenty-fourth synchronous pulley Z24 by a synchronous belt, and the twenty-fourth synchronous pulley Z24 coaxially drives the wire arranger 7 to reciprocate, so that the twisted wire is wound on the winding shaft 5, and the whole wire twisting process is completed.

Specifically, a plurality of wires can be twisted through the twisting bow 6, the wires are drawn through the traction wheel 15, the tension of the twisted wires is changed through the clutch 14, and the twisted wires are wound on the winding shaft 5 through the reciprocating motion of the wire arranging device 7.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

It will be apparent to those skilled in the art that various changes and modifications may be made in the invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (6)

1. The utility model provides a stranding machine electromagnetic brake device which characterized in that includes:

the main motor is connected with a first synchronous belt wheel;

a second timing pulley driven by the first timing pulley;

the first transmission shaft is coaxially connected with the second synchronous belt pulley, the third synchronous belt pulley and the fifth synchronous belt pulley;

the full-machine brake is mounted on the first transmission shaft;

a fourth synchronous belt wheel driven by the third synchronous belt wheel and a sixth synchronous belt wheel driven by the fifth synchronous belt wheel, wherein the fourth synchronous belt wheel and the sixth synchronous belt wheel are respectively connected with the winch bow;

a seventh timing pulley coaxially connected to the fourth timing pulley, an eighth timing pulley driven by the seventh timing pulley, a ninth gear coaxially connected to the eighth timing pulley, a tenth gear meshing with the ninth gear, an eleventh gear meshing with the tenth gear, a twelfth gear coaxially connected to the eleventh gear, a thirteenth gear meshing with the twelfth gear, a fourteenth gear coaxially connected to the thirteenth gear, a fifteenth gear meshing with the fourteenth gear, and a twenty-second timing pulley coaxially connected to the fifteenth gear;

a twenty-third synchronous pulley driven by the twenty-second synchronous pulley, a sixteenth synchronous pulley coaxially connected with the twenty-third synchronous pulley, a seventeenth synchronous pulley driven by the sixteenth synchronous pulley, a first eighteen gear coaxially connected with the seventeenth synchronous pulley, a first nineteenth gear meshed with the first eighteen gear, and a twenty-first gear meshed with the first nineteenth gear;

and a twenty-fourth synchronous pulley which is coaxially connected with the twenty-first gear and is driven by the twenty-fourth synchronous pulley, wherein an electromagnetic brake is arranged on a transmission shaft connected between the twenty-first gear and the twenty-fourth synchronous pulley.

2. The electromagnetic brake apparatus of a wire twisting machine as claimed in claim 1, wherein said electromagnetic brake comprises: brake moving plate and with brake moving plate complex brake stator, wherein, the brake stator is installed on the fixed plate, the brake moving plate is installed on the second transmission shaft of being connected between twenty-first gear and the twentieth synchronous pulley.

3. The electromagnetic brake apparatus of a wire twisting machine as claimed in claim 1, further comprising: and the traction wheel is connected with the twenty-second synchronous belt wheel.

4. The electromagnetic brake apparatus of a wire twisting machine as claimed in claim 1, further comprising: the clutch is connected with the first eighteen gears.

5. The electromagnetic brake apparatus of a wire twisting machine as claimed in claim 1, further comprising: and the winding shaft is connected with the first nineteen gear.

6. The electromagnetic brake apparatus of a wire twisting machine as claimed in claim 1, further comprising: and the wire arranger is connected with the twenty-fourth synchronous belt wheel.

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