CN216105259U - Steel rope pay-off device for elevator zipper production - Google Patents

Abstract

The utility model relates to a steel rope pay-off device for elevator zipper production, which comprises a pay-off rack; the pay-off rack is used for paying off the steel rope wound on the steel rope disc; a plurality of stations for placing the steel rope disc are arranged on the pay-off rack side by side, and each station is provided with a driving device; a steel rope tension adjusting module is arranged right in front of each station on the pay-off rack; the steel rope tension adjusting modules respectively comprise two first guide wheels, a slide rod, a sliding roller and a second guide wheel; the two first guide wheels are arranged at the top of the pay-off rack in tandem and are positioned right in front of the corresponding stations; the sliding rod is vertically fixed on the pay-off rack and positioned between the two first guide wheels; the sliding roller is arranged on the sliding rod in a sliding manner; the second leading wheel sets up on the pay off rack. The steel rope pay-off device for elevator zipper production provided by the utility model can effectively control the tension of a steel rope in the transmission process and ensure the consistent length of subsequent cutting.

Description

Steel rope pay-off device for elevator zipper production

Technical Field

The utility model relates to the technical field of lifter zipper production equipment, in particular to a steel rope pay-off device for lifter zipper production.

Background

The lifter zipper main body is a wire harness assembled by a steel wire rope and die-casting joints at two sides, and other parts are inserted into the steel wire rope according to requirements. The lifting control device is mainly applied to lifting control of various vehicle doors and windows. The lifter zipper can be processed and finished by 8 procedures in the production process, and the specific procedures are respectively as follows: 1. cutting the steel rope and continuously beating the flower; 2. die casting is carried out on the steel rope pattern side (A side) after die filling; 3. removing the sharp of the die-cast zinc head; 4. performing fixed-length fine cutting and pattern making on the other side (B side) of the steel rope; 5. die casting after die filling is carried out on the side B of the steel rope; 6. removing the sharp of the die-cast zinc head; 7. performing pre-pull detection on the zinc heads on the two sides, and detecting the binding force of the zinc heads; detecting the lengths of the zinc heads on the two sides, and detecting the length of the product; 8. the spring was manually threaded through the steel cord.

The steel ropes are required to be conveyed orderly before the steel rope cutting and continuous beating process, the tension of the steel ropes in the conveying process is effectively controlled, and the conventional pay-off device cannot meet the requirements, so that the lengths of the steel ropes in the subsequent steel rope cutting and continuous beating process are different.

In order to solve the above problems, the present applicant proposed a wire rope pay-off device for elevator zipper production.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a steel rope pay-off device for elevator zipper production, which can effectively control the tension of a steel rope in the transmission process and ensure the consistent length of subsequent cutting.

In order to achieve the purpose of the utility model, the steel rope pay-off device for producing the elevator zipper comprises a pay-off rack;

the pay-off rack is used for paying off the steel rope wound on the steel rope disc; a plurality of stations for placing the steel rope discs are arranged on the pay-off rack side by side, and each station is provided with a driving device for driving the steel rope discs to rotate;

a steel rope tension adjusting module is arranged right in front of each station on the pay-off rack; the steel rope tension adjusting modules respectively comprise two first guide wheels, a slide rod, a sliding roller and a second guide wheel; the two first guide wheels are arranged at the top of the pay-off rack in tandem and are positioned right in front of the corresponding stations; the sliding rod is vertically fixed on the pay-off rack and positioned between the two first guide wheels; the sliding roller is arranged on the sliding rod in a sliding manner; the second guide wheel is arranged on the pay-off rack.

Preferably, a starting sensor and a stopping sensor are fixed on the sliding rod, the starting sensor is located above the stopping sensor, and the starting sensor and the stopping sensor are respectively and electrically connected with the driving device on the corresponding station.

Preferably, the driving device is a roller motor.

Preferably, the second guide wheel is positioned right below the first guide wheel on the rear side of the pay-off rack.

Compared with the prior art, the steel rope pay-off device for producing the elevator zipper further has the following advantages that:

(1) the tension of the steel rope in the transmission process is effectively controlled, the consistency of the length of the subsequent cutting is ensured, the production efficiency is improved, and the rejection rate is reduced;

(2) simple structure, convenient operation is swift.

Drawings

FIG. 1 is a schematic structural view of a steel cable pay-off device for producing elevator zipper in the present embodiment 1;

fig. 2 is a schematic structural view of the rope pay-off device for elevator zipper production of this embodiment 2.

Wherein the content of the first and second substances,

1-pay-off rack: 101-station; 102-a first guide wheel; 103-a second guide wheel; 104-a sliding roller; 105-start sensor; 106-a stop sensor; 107-a slide bar; 108-a drive device;

2-steel rope reel.

Detailed Description

The utility model is further described below with reference to the following figures and specific examples.

As shown in fig. 1-2, the steel rope pay-off device for elevator zipper production comprises a pay-off rack 1;

the pay-off rack 1 is used for paying off a steel rope wound on a steel rope disc; a plurality of stations 101 for placing steel rope discs are arranged on the pay-off rack 1 side by side, a driving device 108 is arranged on each station 101, and the driving devices 108 are used for driving the steel rope discs to rotate, so that steel ropes on the steel rope discs are paid off; in this embodiment, the driving device 108 is a roller motor.

A steel rope tension adjusting module is arranged right in front of each station 101 on the pay-off rack 1; the steel rope tension adjusting modules respectively comprise two first guide wheels 102, a slide rod 107, a sliding roller 104 and a second guide wheel 103; the two first guide wheels 102 are arranged at the top of the pay-off rack 1 in tandem and are positioned right in front of the corresponding stations 101; the slide bar 107 is vertically fixed on the pay-off rack 1 and located between the two first guide wheels 102, a starting sensor 105 and a stopping sensor 106 are fixed on the slide bar 107, the starting sensor 105 is located above the stopping sensor 106, and the starting sensor 105 and the stopping sensor 106 are respectively electrically connected with the driving devices on the corresponding stations 101; the sliding roller 104 is arranged on the sliding rod 107 in a sliding manner; and the second guide wheel 103 is arranged on the pay-off rack 1 and used for guiding the steel rope to the wire feeding and cutting station 2.

In this embodiment, the second guide wheel 103 is located right below the first guide wheel 102 at the rear side of the pay-off rack 1, so that the installation space is reduced, and the wire arrangement is facilitated.

During the paying-off operation, first of all a reel of steel cable wound around a steel cable is installed in the working position 101, each reel of steel cable is threaded according to the arrow in fig. 1, and the steel cable is continuously fed forward when the machine is running. When the steel rope is conveyed forwards, the sliding roller 104 moves upwards due to the pulling of the steel rope, when the sliding roller 104 senses the starting sensor 105, the first roller motor 213 is started, so that the steel rope disc is driven to rotate, the purpose of conveying the steel rope is achieved, the sliding roller 104 moves downwards along with the continuous conveying of the steel rope, and when the sliding roller 104 senses the stopping sensor 106, the roller motor stops rotating; the circulation can realize automatic wire feeding.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (4)

1. The steel rope pay-off device for producing the elevator zipper is characterized by comprising a pay-off rack;

the pay-off rack is used for paying off the steel rope wound on the steel rope disc; a plurality of stations for placing the steel rope discs are arranged on the pay-off rack side by side, and each station is provided with a driving device for driving the steel rope discs to rotate;

a steel rope tension adjusting module is arranged right in front of each station on the pay-off rack; the steel rope tension adjusting modules respectively comprise two first guide wheels, a slide rod, a sliding roller and a second guide wheel; the two first guide wheels are arranged at the top of the pay-off rack in tandem and are positioned right in front of the corresponding stations; the sliding rod is vertically fixed on the pay-off rack and positioned between the two first guide wheels; the sliding roller is arranged on the sliding rod in a sliding manner; the second guide wheel is arranged on the pay-off rack.

2. A steel rope pay-off device for elevator zipper production as claimed in claim 1, wherein said sliding rod is fixed with a start sensor and a stop sensor, said start sensor is located above said stop sensor, said start sensor and said stop sensor are respectively electrically connected with the driving device on the corresponding station.

3. A steel cord pay-off device for elevator zipper production as claimed in claim 1, wherein said driving means is a roller motor.

4. A steel rope pay-off device for elevator zipper production as claimed in any one of claims 1 to 3, wherein said second guide wheel is located right below the first guide wheel at the rear side of the pay-off rack.

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