CN215559892U - Accurate positioning forced beam splitting device - Google Patents

Abstract

The utility model relates to an accurate positioning forced beam splitting device which comprises a supporting plate, a sliding rail and a beam splitting mechanism, wherein the sliding rail is arranged on the supporting plate along the length direction of the supporting plate, the beam splitting mechanism is driven by a power mechanism and is slidably arranged on the sliding rail, and the beam splitting mechanism comprises a first connecting seat, a second connecting seat, a synchronous belt fixing seat, a beam splitting bracket and a beam splitting plate. The utility model has the advantages that: the positioning is accurate and easy to adjust; reliable operation and convenient maintenance. The bottleneck problem of industry development is effectively solved, the production and manufacturing of the glass fiber drawing machine and the production process and the automation level of glass fiber drawing are improved, and the whole glass fiber industry is promoted to move forward.

Description

Accurate positioning forced beam splitting device

Technical Field

The utility model relates to a precise positioning forced beam splitting device which is used for controlling the beam splitting of yarn.

Background

A glass fiber drawing machine is a mechanical device which draws glass melt into fiber filaments at high speed and winds the fiber filaments into fiber rolls according to a certain rule. At present, most of forced beam splitting used for novel glass fiber drawing in the market is controlled by an air cylinder, and the structure has large error and is difficult to adjust.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a precise positioning forced beam splitting device, and the technical scheme of the utility model is as follows:

a forced beam splitting device with accurate positioning comprises a supporting plate, a sliding rail and a beam collecting mechanism, wherein the sliding rail is arranged on the supporting plate along the length direction of the supporting plate, the beam collecting mechanism is driven by a power mechanism and is slidably arranged on the sliding rail, the beam collecting mechanism comprises a first connecting seat, a second connecting seat, a synchronous belt fixing seat, a beam splitting support and a beam collecting plate, the synchronous belt fixing seat is fixedly connected with a belt of the power mechanism, two sides of the synchronous belt fixing seat are respectively provided with the first connecting seats, the second connecting seat spans across the supporting plate and is connected with the two first connecting seats, and the synchronous belt fixing seat is connected with a sliding block arranged on the sliding rail and moves back and forth along with the sliding block; the upper part of the second connecting seat is provided with a beam splitting bracket which is perpendicular to the supporting plate, and a plurality of beam collecting plates are arranged along the length direction of the beam splitting bracket.

The power mechanism comprises belt wheel fixing seats, fixing plates, a driving belt wheel, a driven belt wheel and a belt, the fixing plates are respectively arranged at two ends of the supporting plate, a belt wheel fixing seat is arranged on each fixing plate, the driven belt wheel is arranged on the belt wheel fixing seats through a belt wheel transmission shaft, and the driving belt wheel is arranged at the lower part of the supporting plate and connected with a guide wire transmission shaft of the guide wire mechanism; the belt sequentially bypasses the driving belt wheel and the two driven belt wheels and is arranged in a closed shape.

And a tensioning frame for tensioning the belt is further arranged on the supporting plate.

The lower part of the supporting plate is provided with a clamping block which is fixedly connected with a thread guide shaft of the thread guide mechanism, and the thread guide transmission shaft is arranged inside the thread guide shaft and is coaxial with the thread guide shaft; and a driving belt wheel is installed at one end of the yarn guide transmission shaft, and the other end of the yarn guide transmission shaft is in transmission connection with a motor through a coupler.

And the two sides of the supporting plate are respectively provided with a protective cover which is arranged along the length direction of the supporting plate.

The utility model has the advantages that: the positioning is accurate and easy to adjust; reliable operation and convenient maintenance. The bottleneck problem of industry development is effectively solved, the production and manufacturing of the glass fiber drawing machine and the production process and the automation level of glass fiber drawing are improved, and the whole glass fiber industry is promoted to move forward.

Drawings

Fig. 1 is a schematic view of the main structure of the present invention.

FIG. 2 is an isometric view of the present invention.

Fig. 3 is another isometric illustration of the present invention.

Fig. 4 is a schematic view of the state of use of the present invention.

Detailed Description

The utility model will be further described with reference to specific embodiments, and the advantages and features of the utility model will become apparent as the description proceeds. These examples are illustrative only and do not limit the scope of the present invention in any way. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model, and that such changes and modifications may be made without departing from the spirit and scope of the utility model.

Referring to fig. 1 to 4, the utility model relates to a precise positioning forced beam splitting device, which comprises a support plate 2-10, a slide rail 2-9 and a beam splitting mechanism, wherein the slide rail 2-9 is arranged on the support plate 2-10 along the length direction of the support plate 2-10, the beam splitting mechanism is driven by a power mechanism and is slidably arranged on the slide rail 2-9, the beam splitting mechanism comprises a first connecting seat 2-13, a second connecting seat 2-14, a synchronous belt fixing seat 2-11, a beam splitting bracket 2-15 and a beam splitting plate 2-20, the synchronous belt fixing seat 2-11 is fixedly connected with a belt 2-7 of the power mechanism, the first connecting seat 2-13 is respectively arranged on two sides of the synchronous belt fixing seat 2-11, the second connecting seat 2-14 crosses the support plate 2-10, the synchronous belt fixing seats 2-11 are connected with upper sliding blocks arranged on the sliding rails 2-9 and move back and forth along with the sliding blocks; the upper part of the second connecting seat 2-14 is provided with a beam splitting bracket 2-15, the beam splitting bracket 2-15 is vertical to the supporting plate 2-10, and a plurality of beam collecting plates 2-20 are arranged along the length direction of the beam splitting bracket 2-15.

The power mechanism comprises belt wheel fixing seats 2-17, fixing plates 2-18, driving belt wheels 2-4, driven belt wheels 2-6 and belts 2-7, wherein the two ends of the supporting plate 2-10 are respectively provided with one fixing plate 2-18, each fixing plate 2-18 is provided with one belt wheel fixing seat 2-17, the belt wheel fixing seats 2-17 are provided with the driven belt wheels 2-6 through belt wheel transmission shafts 2-16, and the driving belt wheels 2-4 are arranged at the lower parts of the supporting plates 2-10 and connected with a guide wire transmission shaft of a guide wire mechanism (in the prior art); the belt 2-7 sequentially bypasses the driving belt wheel 2-4 and the two driven belt wheels 2-6 and is arranged in a closed shape.

And a tensioning frame 2-8 for tensioning the belt 2-7 is also arranged on the supporting plate 2-10.

The lower part of the supporting plate 2-10 is provided with a clamping block 2-1, the clamping block 2-1 is fixedly connected with a guide wire shaft of a guide wire mechanism, and a guide wire transmission shaft is arranged in the guide wire shaft and is coaxial with the guide wire shaft; one end of the yarn guide transmission shaft is provided with a driving belt wheel 2-4, and the other end of the yarn guide transmission shaft is in transmission connection with a motor 2-5 through a coupler.

Two sides of the supporting plate 2-10 are respectively provided with a protective cover 2-19, and the protective covers 2-19 are arranged along the length direction of the supporting plate 2-10.

The working principle of the utility model is as follows: the clamping block 2-1 is connected with a yarn guide shaft 2-2 of a yarn guide mechanism, a yarn guide transmission shaft 2-3 in the yarn guide shaft is connected with a driving belt wheel 2-4, and a motor 2-5 is connected with the transmission shaft 2-3, so that power is provided for accurate positioning and forced beam splitting. The driving belt wheel 2-4 and the driven belt wheel 2-6 are driven by a belt 2-7, and a tensioning frame 2-8 is additionally arranged in order to prevent the belt from loosening in the operation process; the bundling plates 2-20 are fixed on the beam splitting supports 2-15, and the number of the beam splitting plates is different according to different production lines, so that yarns are split into different strands through the beam splitting plates.

Specifically, the method comprises the following steps: the clamping block 2-1 is connected with the thread guide shaft 2-2 through bolt clamping, the transmission shaft 2-3 is connected with the driving pulley 2-4 through a key, the motor 2-5 is connected with the transmission shaft 2-3 through a coupler, the driving pulley 2-4 is fixed on the pulley fixing seat 2-5 through a bolt, the driving pulley 2-4 is connected with the driven pulley 2-6 through a belt, the slide rail 2-9 is installed on the support plate 2-10 through a bolt, the synchronous belt fixing seat 2-11 is connected with the fixing plate 2-12 through a bolt and is connected with the slide block on the slide rail 2-9 through a bolt, the first connecting seat 2-13 is connected with the synchronous belt fixing seat 2-11 through a bolt, the second connecting seat 2-14 is connected with the first connecting seat 2-13 through a bolt, the beam splitting supports 2-15 are connected with the second connecting seats 2-14 through bolts, the driven belt wheels 2-6 are connected with the belt wheel transmission shafts 2-16 through keys and connected with the belt wheel fixing seats 2-17 through the belt wheel transmission shafts, the belt wheel fixing seats 2-17 are connected with the fixing plates 2-18 through bolts, and the beam collecting plates 2-20 are connected with the beam splitting supports 2-15 through bolts.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (5)

1. A forced beam splitting device with accurate positioning is characterized by comprising a supporting plate, a sliding rail and a beam collecting mechanism, wherein the sliding rail is arranged on the supporting plate along the length direction of the supporting plate, the beam collecting mechanism is driven by a power mechanism and is slidably arranged on the sliding rail, the beam collecting mechanism comprises a first connecting seat, a second connecting seat, a synchronous belt fixing seat, a beam splitting support and a beam collecting plate, the synchronous belt fixing seat is fixedly connected with a belt of the power mechanism, the two sides of the synchronous belt fixing seat are respectively provided with the first connecting seats, the second connecting seat spans across the supporting plate and is connected with the two first connecting seats, and the synchronous belt fixing seat is connected with a sliding block arranged on the sliding rail and moves back and forth along with the sliding block; the upper part of the second connecting seat is provided with a beam splitting bracket which is perpendicular to the supporting plate, and a plurality of beam collecting plates are arranged along the length direction of the beam splitting bracket.

2. The precise positioning forced beam splitting device according to claim 1, wherein the power mechanism comprises a pulley fixing seat, fixing plates, a driving pulley, a driven pulley and the belt, the fixing plates are respectively installed at two ends of the supporting plate, a pulley fixing seat is installed on each fixing plate, the driven pulley is installed on the pulley fixing seat through a pulley transmission shaft, and the driving pulley is arranged at the lower part of the supporting plate and connected with a wire guiding transmission shaft of a wire guiding mechanism; the belt sequentially bypasses the driving belt wheel and the two driven belt wheels and is arranged in a closed shape.

3. The precise positioning and forcing beam splitting device as claimed in claim 2, wherein a tensioning frame for tensioning the belt is further mounted on the supporting plate.

4. The precise positioning forced beam splitting device according to claim 2 or 3, wherein a clamping block is arranged at the lower part of the supporting plate, the clamping block is fixedly connected with a guide wire shaft of the guide wire mechanism, and the guide wire transmission shaft is arranged inside the guide wire shaft and is coaxial with the guide wire shaft; and a driving belt wheel is installed at one end of the yarn guide transmission shaft, and the other end of the yarn guide transmission shaft is in transmission connection with a motor through a coupler.

5. The apparatus according to claim 1, wherein a shield is mounted on each side of the support plate, and the shield is disposed along the length of the support plate.

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