CN217704812U - Auxiliary conveying mechanism for splicing tips of wirecord fabrics - Google Patents

Abstract

The utility model discloses a wire cord fabric splicing material point auxiliary conveying mechanism, including the material point auxiliary conveying belt that locates the splicing conveying belt outside side by side, the material point auxiliary conveying belt is parallel and level with the front end entry of splicing conveying belt and locates the rear end exit of feed conveying belt, and the entrance of material point auxiliary conveying belt is equipped with the pinch roller that acts on material point auxiliary conveying belt and provides conveying power for the wire cord fabric piece, and under the drive of independent servo motor, each conveying belt can operate alone, or material point auxiliary conveying belt and feed conveying belt operate in step, or material point auxiliary conveying belt, feed conveying belt, splicing conveying belt three operate in step; and a partition board for isolating the outer side of the long steel wire cord fabric strip from the auxiliary material tip conveying belt or an electromagnetic suction plate capable of sucking the outer side of the long steel wire cord fabric strip away from the auxiliary material tip conveying belt is arranged at the rear side of the splicing line. The utility model discloses can make the material point of wire cord fabric piece obtain power and accurate arrival concatenation line to obtain good concatenation effect.

Description

Auxiliary conveying mechanism for splicing material tips of wirecord fabrics

Technical Field

The utility model relates to a concatenation equipment is decided to the wirecord fabric, specifically is a conveying mechanism is assisted to wirecord fabric concatenation material point.

Background

The steel cord is a tire component covered with rubber on the steel cord.

The steel cord fabric roll is uncoiled on a steel cord fabric cutting and splicing device and is cut into single steel cord fabric sheets (parallelogram shape) with certain angle and width, and the steel cord fabric sheets are coiled for a forming machine after being spliced at the head and the tail.

The splicing process of the steel cord fabric comprises the following steps: the long steel wire cord fabric strip on the splicing conveying belt is in a waiting state, the triangular head of the steel wire cord fabric piece is conveyed by the feeding conveying belt and aligned to the triangular tail of the long steel wire cord fabric strip, the head and the tail of the two sections of steel wire cord fabrics are aligned and spliced together by the splicing wheel, the spliced long steel wire cord fabric strip is conveyed forwards by the splicing conveying belt, the tail of the spliced long steel wire cord fabric strip is stopped at a splicing position, and the next steel wire cord fabric piece is conveyed to be aligned and spliced again after waiting.

In the splicing process of the steel cord fabric, the long steel cord fabric strip stays on the static splicing conveying belt, the single steel cord fabric is conveyed from the feeding conveying belt, and the triangular head of the steel cord fabric sheet rushes into the splicing conveying belt by means of inertia and is just positioned at the tail part of the long steel cord fabric strip.

The steel cord fabric is a soft sheet and has certain viscosity, and particularly when the triangular head of the single steel cord fabric is too wide and too long, the triangular head of the steel cord fabric sheet cannot be conveyed to a splicing position due to the action of resistance, the head and the tail of the steel cord fabric cannot be extruded together by the splicing wheel, and splicing possibly fails.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that a conveying mechanism is assisted to the wirecord fabric splicing material point that the triangle-shaped material point head portion of single wirecord fabric conveyed to the right place when splicing is provided.

The technical scheme includes that the steel cord splicing and tip-assisting conveying mechanism comprises a material tip-assisting conveying belt which is arranged on the outer side of a splicing conveying belt side by side, the material tip-assisting conveying belt is flush with the front-end inlet of the splicing conveying belt and is arranged at the rear-end outlet of a feeding conveying belt, and a pressing wheel which acts on the material tip-assisting conveying belt and provides conveying power for a steel cord piece is arranged at the inlet of the material tip-assisting conveying belt; under the drive of independent servo motors, the material tip auxiliary conveyor belt, the splicing conveyor belt and the feeding conveyor belt can respectively and independently run, or the material tip auxiliary conveyor belt and the feeding conveyor belt can run synchronously, or the material tip auxiliary conveyor belt, the feeding conveyor belt and the splicing conveyor belt can run synchronously.

In order to prevent the spliced long steel wire cord fabric strip from being taken away when the material point auxiliary conveyor belt runs, one measure is to arrange a partition board for separating the outer side of the spliced long steel wire cord fabric strip and the material point auxiliary conveyor belt at the rear side of the splicing line.

In order to avoid taking away the spliced long steel wire cord fabric strips when the material point auxiliary conveyor belt runs, another measure is to arrange a point magnetic suction plate which can suck the outer sides of the long steel wire cord fabric strips (spliced) away from the material point auxiliary conveyor belt at the rear side of the splicing line.

The utility model has the advantages that:

1. the utility model discloses the concatenation of steel cord fabric concatenation material point auxiliary conveyor suitable angle of taking and wide steel cord fabric piece can be solved the problem that wide steel cord fabric piece conveying is not in place, has improved the precision and the efficiency that the steel cord fabric connects.

2. The utility model discloses in the structure, three conveyer belts adopt the same transmission parameter, easily realize the synchronous operation that each conveyer belt was adopted, the control of being convenient for.

3. The utility model discloses a supplementary steel cord fabric sheet material point's of material point conveying, when the material point of steel cord fabric sheet gets into the concatenation conveyer belt region, though the concatenation conveyer belt is motionless, but the supplementary conveyer belt of material point and feed conveyer belt synchronous operation make the steel cord fabric sheet obtain supplementary transport power and accurately arrive the concatenation position, the supplementary conveyer belt of material point need not to retreat the action, and synchronous distance is unrestricted, and synchronous accuracy is high.

4. The utility model discloses a supplementary conveyer belt of material point forces the conveying of wire cord fabric sheet material point, and the supplementary conveyer belt of material point need not to retreat the action, need not to increase the stroke of wire cord fabric piece, does not influence the concatenation efficiency of conventional width wire cord fabric piece.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a schematic structural diagram of another embodiment of the present invention

Drawing number identification: 1. splicing the conveyer belts; 2. a material tip auxiliary conveyor belt; 3. a feeding conveyor belt; 4. a pinch roller; 5. splicing lines; 6. a partition plate; 7. an electromagnetic suction plate; 8. long steel wire cord fabric strips; 9. a steel cord sheet.

Detailed Description

The technical solution of the present invention will be further explained with reference to the embodiments shown in the drawings.

The utility model discloses wire cord splicing material point auxiliary conveyor, including locating the material point auxiliary conveyor 2 outside splicing conveyor 1, material point auxiliary conveyor 2 is parallel to and is put side by side with splicing conveyor 1, the front end entry of splicing conveyor 1 is parallel and level with the front end entry of material point auxiliary conveyor 2 and sets up in the rear end exit of feed conveyor 3 jointly, splicing conveyor 1 adopts conventional conveyer belt width, the width of material point auxiliary conveyor 2 is the width replenishment of splicing conveyor 1, the total width (including the interval distance between the two) between material point auxiliary conveyor 2 and splicing conveyor 1 equals the width of feed conveyor 3; the material point auxiliary conveyor belt 2 and the splicing conveyor belt 1 are provided with angle-adjustable splicing mechanisms above the front portions thereof, the trend of the splicing mechanisms, namely the splicing line 5, is an oblique direction inclined towards the rear outer side, and the oblique angle corresponds to the material point triangular area degree of the steel cord fabric sheet 9, as shown in fig. 1 and 2.

The material point auxiliary conveyor belt 2, the splicing conveyor belt 1 and the feeding conveyor belt 3 are respectively driven by independent servo motors, according to the production process requirements, the material point auxiliary conveyor belt 2, the splicing conveyor belt 1 and the feeding conveyor belt 3 can respectively and independently run, the material point auxiliary conveyor belt 2 can also run synchronously with the feeding conveyor belt 3, and the material point auxiliary conveyor belt 2, the splicing conveyor belt 1 and the feeding conveyor belt 3 can also run synchronously together, as shown in fig. 1 and fig. 2.

A pinch roller 4 (self-powered) pressing on the material point auxiliary conveyor belt 2 is arranged at the front end inlet of the material point auxiliary conveyor belt 2, the position of the pinch roller 4 corresponds to the front end material point of the triangular head of the wirecord fabric piece 9, and the pinch roller 4 can be adjusted leftwards and rightwards according to the material point positions of the wirecord fabric pieces 9 with different material widths, as shown in figures 1 and 2.

A partition plate 6 aligned with the material tip auxiliary conveyor belt 2 is arranged on the rear side of the splicing line 5, and the partition plate 6 is isolated between the outer side of the long steel wire cord fabric strip 8 (spliced) and the material tip auxiliary conveyor belt 2, as shown in fig. 1.

Or an electromagnetic suction plate 7 aligned with the position of the material tip auxiliary conveyor belt 2 is arranged at the rear side of the splicing line 5, and the electromagnetic suction plate 7 can suck the outer side of the long steel wire cord fabric strip 8 (spliced) upwards to leave the material tip auxiliary conveyor belt 2, as shown in fig. 2.

Adopt the utility model discloses the process steps of concatenation wire cord fabric do:

1. the cut wirecord fabric sheet 9 is conveyed to the splicing conveyor belt 1 and the material tip auxiliary conveyor belt 2 on the feeding conveyor belt 3.

2. When the wirecord fabric piece 9 is conveyed to be close to the auxiliary material tip conveying belt 2, the servo motor is started to drive the auxiliary material tip conveying belt 2 and the auxiliary material feeding conveying belt 3 to synchronously run, and when the material tip at the triangular head of the wirecord fabric piece 9 enters the auxiliary material tip conveying belt 2, under the forced feeding effect of pressing the material tip by the pressing wheel 4, the auxiliary material tip conveying belt 2 and the auxiliary material feeding conveying belt 3 jointly convey the triangular head of the wirecord fabric piece 9 to the splicing line.

The outer side of the spliced long steel wire cord fabric strips 8 is isolated by the partition plate 6 or is upwards adsorbed by the electromagnetic adsorption plate 7, so that the long steel wire cord fabric strips 8 are not driven to stay at the splicing position when the material tip auxiliary conveying belt 2 and the feeding conveying belt 3 synchronously run.

3. After splicing, the feeding conveyer belt 3, the splicing conveyer belt 1 and the material point auxiliary conveyer belt 2 synchronously run together to convey the triangular tail end of the wirecord fabric piece 9 spliced on the long wirecord fabric strip 8 to the splicing line 5.

When the feeding conveyer belt 3, the splicing conveyer belt 1 and the material tip auxiliary conveyer belt 2 are synchronously operated, the electromagnetic suction plate 7 is powered off, and the outer side of the long steel wire cord fabric strip 8 is placed on the tip auxiliary conveyer belt 2.

Claims (3)

1. Supplementary conveying mechanism of steel cord fabric concatenation prong, its characterized in that: the material point conveying device comprises material point auxiliary conveying belts (2) which are arranged on the outer sides of splicing conveying belts (1) side by side, wherein the material point auxiliary conveying belts (2) are parallel and level to the front-end inlets of the splicing conveying belts (1) and are arranged at the rear-end outlets of feeding conveying belts (3), and pressing wheels (4) which act on the material point auxiliary conveying belts (2) and provide conveying power for wirecord fabric sheets (9) are arranged at the inlets of the material point auxiliary conveying belts (2); under the drive of independent servo motors, the material tip auxiliary conveyor belt (2), the splicing conveyor belt (1) and the feeding conveyor belt (3) can respectively and independently run, or the material tip auxiliary conveyor belt (2) and the feeding conveyor belt (3) can run synchronously, or the material tip auxiliary conveyor belt (2), the feeding conveyor belt (3) and the splicing conveyor belt (1) can run synchronously.

2. A wirecord splicing tip auxiliary conveying mechanism according to claim 1, characterized in that: and a partition plate (6) for isolating the outer side of the long steel wire curtain cloth strip (8) from the auxiliary material tip conveying belt (2) is arranged at the rear side of the splicing line (5).

3. A wirecord splicing tip auxiliary conveying mechanism according to claim 1, characterized in that: an electromagnetic suction plate (7) capable of sucking the outer side of the long steel wire cord fabric strip (8) away from the auxiliary material tip conveying belt (2) is arranged on the rear side of the splicing line (5).

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