DE112016002775T5 - Gleitpositionierungsfänger - Google Patents

Abstract

The invention relates to a Gleitpositionierungsfänger comprising a arranged at the firing end of a loom frame-shaped track, wherein a frame-shaped optical sensor is arranged at the back of the frame track and four Gleitnuten are arranged inside the frame track, each Gleitnut has two slides, which are driven by a motor , and wherein the sliders in the opposite slide grooves are respectively connected by two parallel wires, and the motor and the sliders are electrically connected to the frame-shaped optical sensor, the wires being driven by a motor and rotating in the opposite direction. When the frame-shaped optical sensor detects the passing weft, the motor is started and the parallel wire moves rapidly through the slider from the side of the frame track. Since the square formed by the four parallel metal wires becomes smaller and smaller at the same time, the weft can be restricted at the center of the frame-shaped path. Due to the inward parallel metal wires, the weft thread can tighten to prevent it from falling off.

Description

Technical area

The invention relates to the field of textile machines, and more particularly to a sliding position weft catcher suitable for a shuttleless loom.

Technical background

Shuttle loom is a traditional shot loom. The shuttle is bulky, heavy, and it is projected back and forth repeatedly. The machine has great vibration, high noise, slow speed and low efficiency.

The shuttlelose loom is a new loom, which was produced after the shuttle loom. The shuttleless loom, with its low weight, low vibration, high efficiency, speed, and low noise, has quickly taken hold of the loom market. Shuttlelose looms are divided into rapier looms, projectile looms, water jet looms, air jet looms, etc. The working principle of the air jet loom is to use the air as the weft insertion medium. To transfer the traction generated by the flow of compressed air to the weft tension, the weft yarn is produced by the shed jet to achieve the purpose of easy weft insertion, since the weft drive medium, such as water or air in flight, will be subjected to an external load. Therefore, each position of the weft thread passes through the weft catcher differently, resulting in that the weft thread is easily separated from the weft catcher.

Summary of the invention

In order to solve the above problem, it is an object of the invention to provide a slide positioning catcher which can accurately detect the weft threads.

The technical solution used by the invention to solve the technical problem is as follows:
The sliding positioning catcher comprises a frame-shaped track which is arranged at the firing end of a loom, wherein a frame-shaped optical sensor is arranged behind the frame-shaped track and four sliding grooves are arranged in the interior of the frame-shaped track. Each slide groove has two slides which are driven by a motor, the slides being correspondingly connected by two parallel wires in the opposite slide grooves, and the motor and slides being electrically connected to the frame-shaped optical sensor, the wires being driven by a motor and to turn in the opposite direction.

Preferably, the linear distance between the vertically intersecting wires is greater than 0.1 mm.

Preferably, an arcuate groove coinciding with the weft yarn is formed at the center of the metal wire, and the groove is scrubbed inside.

Preferably, the arcuate portion of the arcuate groove has an arc of not less than 30 °.

The invention has the advantages that:
When the frame-shaped optical sensor detects the passing weft, the motor is started and the parallel wire moves rapidly through the slider from the side of the frame track. Since the square formed by the four parallel metal wires becomes smaller and smaller at the same time, the weft can be restricted at the center of the frame-shaped path. Due to the inward parallel metal wires, the weft thread can tighten to prevent it from falling off.

Brief description of the drawings

1 is a side view of Gleitpositionierungsfängers.

2 is a front view of Gleitpositionierungsfängers.

3 is a schematic representation of the movement of Gleitpositionierungsfängers.

4 FIG. 10 is an enlarged view of mark I of the slide positioning catcher. FIG.

5 Fig. 10 is a cross-sectional view of mark H of the slide positioning catcher.

Detailed description of the invention

The invention will be described below with reference to the accompanying drawings and embodiments.

In this embodiment, referring to 1 . 2 . 4 and 5 , the sliding positioning catch comprises a frame-shaped track 200 , which is arranged at the end of the weft of a loom. A frame-shaped optical sensor 300 is arranged behind the frame-shaped path. Four sliding grooves 220 are inside the frame-shaped track 200 arranged, and two slides 210 , which are driven by a motor, are in each sliding groove 220 arranged. The sliders 210 in the opposite sliding grooves 220 are correspondingly by two parallel wires 100 connected, and the engine and the slide 210 are electrically connected to the frame-shaped optical sensor 300 connected, and the wires 100 are driven by a motor and turn in the opposite direction.

In the above sliding position interceptor, the linear distance between the vertically intersecting wires is 100 greater than 0.1 mm to prevent vertical lateral abrasion.

In the above sliding position catcher, there is an arcuate groove 50 that with the weft 10 coincides and in the middle of the metal wire 100 is formed, and the groove is scrubbed inside to reduce the friction between the metal wire 100 and the weft 10 increase to prevent the weft break.

In the above sliding position catcher, the arcuate portion has the arcuate groove 50 an arc of not less than 30 °.

Working principle of the above sliding positioning catcher:
With reference to 2 and 4 when the frame-shaped optical sensor 300 the continuous weft 10 detected, the engine is started and the parallel wire 100 moves through the slide 210 from the side of the frame track 200 out fast. Since that of the four parallel metal wires 100 formed quadrangle is getting smaller, can be in the middle of the frame-shaped path at the same time the weft 10 be limited. Due to the inward parallel metal wires 100 can the weft 10 tighten to prevent it from falling off.

The foregoing are only the preferred embodiments of the invention, and it is not intended to limit the invention thereby, but various modifications, equivalent substitutions, improvements, etc., within the spirit and principle of the invention, are intended to be included within the scope of this invention.

Claims (4)

Gleitpositionierungsfänger, characterized in that it has a frame-shaped path ( 200 ) disposed at the firing end of a loom, and a frame-shaped optical sensor ( 300 ) at the back of the frame-shaped track ( 200 ) is arranged, wherein on the inside of the frame-shaped path ( 200 ) four sliding grooves ( 220 ) are arranged and in each sliding groove ( 220 ) two motor-driven slides ( 210 ) are arranged, wherein the slide ( 210 ) in the opposite sliding grooves ( 220 ) by two parallel wires ( 100 ), and the motor and slides ( 210 ) electrically connected to the frame-shaped optical sensor ( 300 ), the wires ( 100 ) are driven by a motor and rotate in the opposite direction. Slide positioning catch according to claim 1, characterized in that the linear distance between the vertically intersecting wires ( 100 ) is greater than 0.1 mm. Gleitpositionierungsfänger according to claim 2, characterized in that an arcuate groove ( 50 ), with the weft thread ( 10 ), in the middle of the metal wire ( 100 ) is formed and the groove is scrubbed inside. Gleitpositionierungsfänger according to claim 2, characterized in that the arcuate portion of the arcuate groove ( 50 ) has an arc of not less than 30 °.

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