CN212077237U - Double-twist spindle system with improved structure - Google Patents

Abstract

The utility model relates to a double-twist spindle system with an improved structure, a twisting motor of which is arranged on a frame and is connected with and drives the twisting spindle to rotate so as to form a yarn balloon; the overfeeding mechanism and the waxing device are arranged at the top of the twisting spindle; the bobbin creel, the friction roller mechanism and the yarn guide mechanism are arranged in a yarn balloon of the twisting spindle; the bobbin creel comprises a mounting seat, a bobbin creel motor, a rotating shaft and a bobbin creel seat; the bobbin creel motor is fixed on the twisting spindle and is connected with a belt wheel I; the rotating shaft is pivoted on the mounting seat, a belt wheel II is connected onto the rotating shaft, and the belt wheel I and the belt wheel II are connected through a synchronous belt I, so that the bobbin creel motor drives the rotating shaft to rotate; the bobbin frame seat is connected to the rotating shaft and is linked with the rotating shaft; the bobbin carriage seat can clamp a winding paper tube. The utility model discloses a two-for-one twisting spindle system has compact structure, function perfect, and a plurality of advantages such as yarn shaping is of high quality.

Description

Double-twist spindle system with improved structure

[ technical field ] A method for producing a semiconductor device

The utility model relates to a twist with fingers coiling forming device of line equipment, concretely relates to compound twist with fingers spindle system with improvement structure belongs to textile machinery technical field.

[ background of the invention ]

It is known that a two-for-one twisted yarn is required to be wound onto a yarn bobbin by the combined action of a winding roller and a yarn guide, as shown in the patent utility model No. 201020588013.2 of the people's republic of china, which was filed earlier by the present applicant. The winding forming device is arranged in a spindle surrounded by a balloon, and due to the limited installation space, the winding forming device adopts a grooved drum to guide yarns and wind and form the yarns. However, grooved-drum yarn guiding can only be used for relatively soft yarns such as cotton yarns and wool; the terylene chemical fiber filament cannot be wound by the grooved drum due to smoothness, so that the terylene chemical fiber filament has certain limitation.

Meanwhile, the bobbin creel in the yarn balloon cannot be automatically lifted along with the increase of the diameter of the yarn bobbin, so that the load on a winding roller is increased, and the energy consumption is increased; if the winding roller slips, even the yarn twist of the same yarn bobbin is inconsistent, so that the quality of the yarn is poor.

In order to solve the above technical problems, it is necessary to provide an innovative double twisting spindle system with an improved structure to overcome the above-mentioned drawbacks of the prior art.

[ Utility model ] content

In order to solve the above problems, an object of the present invention is to provide a double-twist spindle system with improved structure, which has compact structure, perfect function and good yarn forming quality.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a compound twisting spindle system with an improved structure comprises a rack, a twisting motor, a twisting spindle, an overfeed mechanism, a bobbin creel, a friction roller mechanism, a yarn guide mechanism and a waxing device; the twisting motor is arranged on the frame, is connected with the twisting spindle and drives the twisting spindle to rotate so as to form a yarn balloon; the overfeeding mechanism and the waxing device are arranged at the top of the twisting spindle; the bobbin creel, the friction roller mechanism and the yarn guide mechanism are arranged in a yarn balloon of the twisting spindle; the bobbin creel comprises a mounting seat, a bobbin creel motor, a rotating shaft and a bobbin creel seat; the bobbin creel motor is fixed on the twisting spindle and is connected with a belt wheel I; the rotating shaft is pivoted on the mounting seat, a belt wheel II is connected onto the rotating shaft, and the belt wheel I and the belt wheel II are connected through a synchronous belt I, so that the bobbin creel motor drives the rotating shaft to rotate; the bobbin holder seat is connected to the rotating shaft and is linked with the rotating shaft; and the bobbin holder seat can clamp a winding paper tube.

The utility model discloses a two-for-one twisting spindle system with improvement structure further sets up to: the twisting spindle comprises a spindle blade, a yarn separating disc, a yarn tank, an upper mounting plate and a lower mounting plate; wherein the spindle blade is driven by a twisting motor, and the center of the spindle blade is provided with a wire passing channel; the wire separating disc is linked with the spindle blade; the yarn tank is positioned above the filament separating disc; the lower mounting plate is arranged on the yarn tank, and the bobbin creel, the friction roller mechanism and the yarn guide mechanism are arranged on the lower mounting plate; the upper mounting plate is positioned above the lower mounting plate, and the overfeed mechanism and the waxing device are mounted on the upper mounting plate.

The utility model discloses a two-for-one twisting spindle system with improvement structure still sets up to: the yarn guide mechanism comprises a yarn guide bracket, a yarn guide motor, a sliding block, a yarn guide head and a guide rail; the yarn guide motor is arranged on the yarn guide bracket, and a belt wheel III is arranged on the yarn guide motor; a belt wheel IV is arranged on the yarn guide bracket; the belt wheel III and the belt wheel IV are connected through a synchronous belt II; the sliding block is fixedly connected with the synchronous belt II; the yarn guide head is arranged on the sliding block and moves along with the sliding block; a clamping hook is arranged on the sliding block; the clamping hook is clamped into the guide rail and can move along the guide rail.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a bobbin cradle of compound twist of yarn spindle system with improvement structure adjusts the pressure of bobbin cradle through bobbin cradle motor, realizes intelligent backpressure adjustment, makes the yarn shaping of high quality.

2. The utility model discloses a feed guide mechanism of compound twist with fingers spindle system with improvement structure passes through the hold-in range and drives to it is spacing to adopt the guide rail, makes the feed carrier remove stably, leads yarn excellent performance.

[ description of the drawings ]

Fig. 1 is a perspective view of a double twisting spindle system with an improved structure according to the present invention.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a perspective view of another perspective of the present invention.

Fig. 4 is a side view of the present invention.

Fig. 5 is a partially enlarged view at B in fig. 4.

[ detailed description ] embodiments

Referring to the attached drawings 1 to 5 in the specification, the present invention is a re-twisting spindle system with an improved structure, which is composed of a frame 1, a twisting motor 2, a twisting spindle 3, an overfeed mechanism 4, a bobbin cradle 5, a friction roller mechanism 6, a yarn guide mechanism 7, and a waxing device 8.

Wherein, the twisting motor 2 is arranged on the frame 1, and is connected with and drives the twisting spindle 3 to rotate so as to form a yarn balloon 10.

The overfeeding mechanism 4 and the waxing device 8 are arranged at the top of the twisting spindle 3; the bobbin creel 5, the friction roller mechanism 6 and the yarn guide mechanism 7 are arranged in a yarn balloon 10 of the twisting spindle 3, so that the whole device has a compact structure and high space utilization rate.

Furthermore, the twisting spindle 3 is composed of a spindle rod 31, a filament separating disc 32, a yarn can 33, an upper mounting plate 34, a lower mounting plate 35 and the like. Wherein, the spindle 31 is driven by the twisting motor 2, and the center thereof is provided with a silk passing channel 36. The yarn separating disc 32 and the spindle rod 31 are linked, and the yarn coming out of the yarn passing channel 36 is abutted to the bottom of the yarn separating disc 32 and rotates to form a yarn balloon.

The yarn tank 33 is positioned above the yarn separating disc 32 and is in a static state relative to the yarn separating disc 32. The lower mounting plate 35 is mounted on the yarn tank 33, and the bobbin creel 5, the friction roller mechanism 6 and the yarn guide mechanism 7 are mounted on the lower mounting plate. The upper mounting plate 34 is positioned above the lower mounting plate 35, and the overfeed mechanism 4 and the waxing device 8 are mounted on the upper mounting plate.

The overfeed mechanism 4 is used for conveying the twisted yarn and controlling the yarn tension.

The bobbin creel 5 is composed of a mounting base 51, a bobbin creel motor 52, a rotating shaft 53, a bobbin creel base 54 and the like. The creel motor 52 is fixed to the lower mounting plate 35 of the twisting spindle 3, and is connected with a belt wheel I55. The rotating shaft 53 is pivoted on the mounting base 51, a belt wheel II56 is connected on the rotating shaft, and a belt wheel I55 is connected with the belt wheel II56 through a synchronous belt I57, so that the bobbin creel motor 52 drives the rotating shaft 53 to rotate. The bobbin carriage base 54 is connected to the rotating shaft 53, and is interlocked with the rotating shaft 53. The bobbin holder base 54 can hold a bobbin 12 for winding a yarn. The winding paper tube 12 is abutted against the friction roller mechanism 6, and the friction roller mechanism 6 drives the winding paper tube 12 to wind and form the yarn.

The operation of the creel 5 is originally as follows: the friction roller mechanism 6 drives the winding paper tube 12 to rotate, so that the yarn is wound on the winding paper tube 12; as the weight of the yarn wound on the winding paper tube 12 increases, at the moment, the bobbin creel motor 52 rotates and sequentially links the belt pulley I55, the synchronous belt I57 and the belt pulley II56, the belt pulley II56 drives the rotating shaft 53 to turn over, and the rotating shaft 53 links the bobbin creel seat 54, so that the bobbin creel seat 54 is lifted, intelligent backpressure adjustment is realized, and the yarn forming quality is good.

Furthermore, the yarn guide mechanism 7 is composed of a yarn guide bracket 71, a yarn guide motor 72, a slider 73, a yarn guide head 74, a guide rail 75 and the like. The yarn guide bracket 71 is mounted on the lower mounting plate 35. The yarn guide motor 72 is arranged on the yarn guide bracket 71, and a belt wheel III76 is arranged on the yarn guide motor. A belt wheel IV77 is arranged on the yarn guide bracket 71; the pulley III76 and the pulley IV77 are connected through a synchronous belt II (not shown), and the synchronous belt II is adopted to replace the existing steel wire rope, so that the running stability of the yarn guide head 74 can be effectively enhanced. The sliding block 73 is fixedly connected with the synchronous belt II; the thread guide head 74 is mounted on the slide 73 and moves with the slide 73. A clamping hook 78 is arranged on the sliding block 73; the hook 78 is snapped into the guide 75 and can be moved along the guide 75, so that by means of the engagement of the guide 75 and the hook 78, deflection of the thread guide head 74, which affects the thread guide quality, can be avoided.

The overfeeding mechanism 4 and the friction roller mechanism 6 are both prior art, and therefore, the description thereof is omitted.

The utility model discloses a two-for-one twisting spindle system with improvement structure's theory of operation as follows: 1) the twisting motor 2 drives the twisting spindle 3 to rotate to form a yarn balloon 10 and twist the yarn;

2) the yarn is fed into the twisting spindle 3 through the overfeed mechanism 4;

3) the yarn is guided by the yarn guide mechanism 7 to move left and right in a reciprocating manner;

4) the friction roller mechanism 6 abuts against a paper tube 12 attached to the bobbin creel 5, and the friction roller mechanism 6 rotates the paper tube 12 to wind the yarn around the paper tube 12.

The above embodiments are merely preferred embodiments of the present disclosure, which are not intended to limit the present disclosure, and any modifications, equivalents, improvements and the like, which are within the spirit and principle of the present disclosure, should be included in the scope of the present disclosure.

Claims (3)

1. A double-twist spindle system with improved structure is characterized in that: comprises a frame, a twisting motor, a twisting spindle, an overfeeding mechanism, a bobbin cradle, a friction roller mechanism, a yarn guide mechanism and a waxing device; the twisting motor is arranged on the frame, is connected with the twisting spindle and drives the twisting spindle to rotate so as to form a yarn balloon; the overfeeding mechanism and the waxing device are arranged at the top of the twisting spindle; the bobbin creel, the friction roller mechanism and the yarn guide mechanism are arranged in a yarn balloon of the twisting spindle; the bobbin creel comprises a mounting seat, a bobbin creel motor, a rotating shaft and a bobbin creel seat; the bobbin creel motor is fixed on the twisting spindle and is connected with a belt wheel I; the rotating shaft is pivoted on the mounting seat, a belt wheel II is connected onto the rotating shaft, and the belt wheel I and the belt wheel II are connected through a synchronous belt I, so that the bobbin creel motor drives the rotating shaft to rotate; the bobbin holder seat is connected to the rotating shaft and is linked with the rotating shaft; and the bobbin holder seat can clamp a winding paper tube.

2. A double twist spindle system with improved structure as claimed in claim 1, wherein: the twisting spindle comprises a spindle blade, a yarn separating disc, a yarn tank, an upper mounting plate and a lower mounting plate; wherein the spindle blade is driven by a twisting motor, and the center of the spindle blade is provided with a wire passing channel; the wire separating disc is linked with the spindle blade; the yarn tank is positioned above the filament separating disc; the lower mounting plate is arranged on the yarn tank, and the bobbin creel, the friction roller mechanism and the yarn guide mechanism are arranged on the lower mounting plate; the upper mounting plate is positioned above the lower mounting plate, and the overfeed mechanism and the waxing device are mounted on the upper mounting plate.

3. A double twist spindle system with improved structure as claimed in claim 1, wherein: the yarn guide mechanism comprises a yarn guide bracket, a yarn guide motor, a sliding block, a yarn guide head and a guide rail; the yarn guide motor is arranged on the yarn guide bracket, and a belt wheel III is arranged on the yarn guide motor; a belt wheel IV is arranged on the yarn guide bracket; the belt wheel III and the belt wheel IV are connected through a synchronous belt II; the sliding block is fixedly connected with the synchronous belt II; the yarn guide head is arranged on the sliding block and moves along with the sliding block; a clamping hook is arranged on the sliding block; the clamping hook is clamped into the guide rail and can move along the guide rail.

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