CN212051738U - A divide silk seal wire mechanism for wet spinning production line cooling trough - Google Patents

Abstract

The utility model provides a silk separating and guiding mechanism for a cooling water tank of a wet spinning production line, which relates to the technical field of wet spinning production equipment and comprises a guide rod fixed at the lower part of the rear part of the water tank in the water tank and a guide rod II fixed at the top of the front part of the water tank; the method is characterized in that: the guide roller device also comprises a wire dividing rod arranged on the water tank and positioned between the guide rod I and the guide rod II, and a guide roller I, a guide roller II and a guide roller III which are positioned in front of the water tank; the second guide roller is positioned between the first guide roller and the third guide roller and is positioned below the first guide roller and the third guide roller; a plurality of wire separating devices are distributed on the wire separating rod; and the second guide roller is a power roller. Through the utility model discloses the deflector roll that the structure was arranged can increase cornerite (the silk thread wraps the angle of deflector roll), consequently can increase area of contact, and increase frictional force prevents that the silk thread from skidding, makes the silk thread be in the state of straining always.

Description

A divide silk seal wire mechanism for wet spinning production line cooling trough

Technical Field

The utility model relates to a divide silk seal wire mechanism for wet spinning production line cooling trough belongs to wet spinning production facility technical field.

Background

Wet spinning is one of the main spinning methods for chemical fibers, and is called wet spinning for short. The wet spinning comprises the following steps: (1) preparing a spinning solution; (2) extruding the stock solution from the spinneret orifices to form fine flows; (3) the stock solution trickles are solidified into nascent fiber; (4) the nascent fiber is packaged or directly post-treated.

In the step of coagulating the dope into a nascent fiber, the nascent fiber is usually cooled in a water tank, and then divided into filaments and guided for post-treatment. However, after the wet spinning yarns are cooled by the water tank, the friction force is low, the traditional arrangement mode of the godet roller is not reasonable, and the yarns are easy to slip, so that the whole yarn guiding process is influenced, the yarns are easy to loose, and even the yarns are stacked and knotted.

The present application was made based on this.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects in the prior art, the utility model provides a divide silk seal wire mechanism for wet spinning production line cooling trough.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a yarn separating and guiding mechanism for a cooling water tank of a wet spinning production line comprises a guide rod and a guide rod II, wherein the guide rod is fixed in the water tank and positioned at the lower part of the rear part of the water tank, and the guide rod II is fixed at the top of the front part of the water tank; the guide roller device also comprises a wire dividing rod arranged on the water tank and positioned between the guide rod I and the guide rod II, and a guide roller I, a guide roller II and a guide roller III which are positioned in front of the water tank; the second guide roller is positioned between the first guide roller and the third guide roller and is positioned below the first guide roller and the third guide roller; a plurality of wire separating devices are distributed on the wire separating rod; and the second guide roller is a power roller.

In order to facilitate the yarn splitting, the utility model discloses a further preferred scheme does, basin internal fixation has guide arm three, is located between guide arm one and the guide arm two, and the height is less than guide arm two and is higher than guide arm one. The second guide rod can support the silk threads, so that the silk threads are positioned in the silk dividing device, and silk dividing is facilitated.

In order to prevent that the remaining water droplet on the silk thread from to workshop subaerially, the utility model discloses further preferred scheme does, the front side of basin is equipped with the guiding gutter, and the guiding gutter is located deflector roll one, deflector roll two, deflector roll three below.

In order to further increase the friction force, the utility model discloses a further preferred scheme does, the deflector roll two is the rubber roller.

In order to facilitate the separation of a plurality of groups of wires, the utility model discloses a further preferred scheme does, divide the silk ware to include a plurality of collars and be fixed in the V type blend stop of collar below. One or more silk threads are arranged in a V-shaped baffle strip below one mounting ring, the structure of the V-shaped baffle strip is convenient for yarn separation, a plurality of mounting rings are arranged, a plurality of groups of yarns can be separated, and the number of the mounting rings with yarn separating devices is set according to requirements.

In order to adjust the position of the mounting ring on the branch screw rod flexibly, the utility model discloses further preferred scheme does, the top and the lateral part of mounting ring all are equipped with adjusting screw and knob.

The utility model discloses a principle and beneficial effect: the silk thread is wound into the water tank by the first guide rod, cooled by the water tank, wound out of the water tank by the second guide rod, then sequentially wound to the first guide roller, the second guide roller and the third guide roller, then output and conveyed to post-treatment. The guide roller with the structure can increase wrap angles (angles of the silk threads wrapping the guide roller), so that the contact area can be increased, the friction force can be increased, the silk threads are prevented from slipping, and the silk threads are always in a tight state.

Drawings

Fig. 1 is a schematic overall structure diagram of a cooling water tank including the filament separating and guiding mechanism of the present embodiment.

Description of the labeling: the device comprises a water tank 100, a lifting mechanism 200, an X-shaped telescopic frame 201, a motor 202, a driving wheel 203, a belt 204, a screw 205, a nut block 206, a mounting plate 207, a pulley 208, an accessory 209, a translation mechanism 300, a first slide rail 301, a second slide rail 302, a connecting rod 303, a yarn separating and guiding mechanism 400, a first guide rod (not shown in the figure), a bracket 401, a second guide rod 402, a third guide rod 403, a first guide roller 404, a second guide roller 405, a third guide roller 406, a silk thread 407, a yarn separating rod 408, a yarn separating device 409, a mounting ring 410, a V-shaped stop strip 411, an adjusting screw 412, a knob 413 and a guide.

Detailed Description

In order to make the technical means and technical effects achieved by the present invention clearer and more complete, an embodiment is provided, and the following detailed description is made with reference to the accompanying drawings:

as shown in fig. 1, the yarn separating and guiding mechanism for the cooling water tank of the wet spinning production line of the embodiment includes a guide rod fixed at the lower part of the rear of the water tank 100 in the water tank 100 and a guide rod ii 402 fixed at the top of the front of the water tank 100; the water tank 100 further comprises a branch screw 408 which is arranged on the water tank 100 and is positioned between the first guide rod and the second guide rod 402, and a first guide roller 404, a second guide roller 405 and a third guide roller 406 which are positioned in front of the water tank 100; the guide roller II 405 is positioned between the guide roller I404 and the guide roller III 406 and is positioned below the guide roller I404 and the guide roller III 406; a plurality of wire separating devices 409 are distributed on the wire separating rod 408; the second guide roller 405 is a power roller. The filament 407 is wound into the water tank 100 from the first guide, cooled by the water tank 100, wound out of the water tank 100 from the second guide 402, and then sequentially wound to the first guide roll 404, the second guide roll 405, and the third guide roll 406, and then output to the post-treatment. The guide roller arranged in the structure can increase the wrap angle (the angle of the silk thread 407 wrapping the guide roller), so that the contact area can be increased, the friction force can be increased, the silk thread 407 is prevented from slipping, and the silk thread 407 is always in a tight state. The three guide rollers are arranged on the bracket 401 and can rotate, the motor drives the second guide roller 405 to rotate, the silk thread 407 is pulled, and due to the friction effect, the first guide roller 404 and the second guide roller 405 can also rotate along the same direction, and the silk thread 407 is output.

In the water tank 100 of this embodiment, a third guide 403 is fixed between the first guide and the second guide 402, and has a height lower than that of the second guide 402 and higher than that of the first guide. The second guide rod 402 can support the silk thread 407, so that the silk thread 407 is positioned in the silk separator 409, and silk separation is facilitated.

The water tank 100 of the present embodiment is provided with a guiding gutter 500 at the front side, and the guiding gutter 500 is located below the first guide roller 404, the second guide roller 405, and the third guide roller 406. The yarn 407 cooled by the water tank 100 still sticks to water when just exiting the water tank 100 and winding to the guide roller, and water drops through the rotating guide roller, and the guide groove 500 is provided to collect the dropped water.

The second guide roller 405 of this embodiment is a rubber roller, and the rubber roller is a power roller, which can further increase the friction force and pull the yarn 407.

The wire splitter 409 of the present embodiment includes a plurality of mounting rings 410 and a V-shaped barrier fixed below the mounting rings 410. One or more silk threads 407 are placed in a V-shaped baffle 411 below one mounting ring 410, the structure of the V-shaped baffle 411 is convenient for thread separation, a plurality of mounting rings 410 are arranged, a plurality of groups of threads can be separated, and the number of the mounting rings 410 with thread separators 409 is set according to requirements.

The top and side of the mounting ring 410 of this embodiment are provided with an adjustment screw 205412 and a knob 413. By rotating the adjusting screw 205412, the mounting ring 410 can be fastened or loosened, so that the position of the mounting ring 410 on the distributing rod 408 can be flexibly adjusted, and various requirements in the production process are met.

Further, the specific structure of the position-adjustable water tank 100 is as follows: (the following structure is not the technical point to be protected by the present invention, and the following structure does not affect the wire dividing and guiding mechanism of the present embodiment, and is placed here for the completeness of the whole device and easy understanding, and can not be made into the limitation of the present invention)

The position-adjustable water tank comprises a water tank 100 filled with cooling water, a lifting mechanism 200 arranged at the bottom of the water tank 100 and a translation mechanism 300 arranged at the bottom of the lifting mechanism 200. The water tank 100 is lowered by the lifting mechanism 200, and then the water tank 100 is moved out by the translation mechanism 300, so that the water tank 100 can be cleaned or overhauled, and the thread 407 in the water tank 100 is not affected by the taking-out mode.

The lifting mechanism 200 comprises an X-shaped telescopic frame 201, a screw 205, a nut block 206 in threaded fit with the screw 205 and a driving device for driving the screw 205 to rotate; the nut block 206 is rotatably connected to the front diagonal rod of the X-shaped telescopic frame 201. Two screws 205 are arranged in parallel, the two screws 205 penetrate through two threaded holes of a nut block 206, and two ends of the nut block 206 are respectively connected with two sides of the X-shaped telescopic frame 201 in a rotating manner through an accessory 209; the driving device comprises a motor 202 and a driving wheel 203 driven by the motor 202, the whole driving device is mounted on a mounting plate 207 (as shown in fig. 1), and the driving wheel 203 and the ends of two screws 205 are in transmission through a belt 204. Through two screws 205, make X expansion bracket both sides atress can be more even, guarantee that X type expansion bracket 201 is balanced. The driving device drives the screw 205 to rotate, and the nut block 206 in threaded fit with the screw 205 moves on the screw 205 due to the rotation of the screw 205, drives the front diagonal rod of the X-shaped expansion bracket 201 to move forwards/backwards, and realizes the lifting of the X-shaped expansion bracket 201. The screw 205 and the nut convert the rotary motion into the linear motion, so that the displacement distance can be precisely controlled, that is, the height gradient of each lifting is small, so that the lifting height can be precisely controlled, the silk thread 407 can be slowly and slightly returned to the tensioning state when the water tank 100 is installed, and the silk thread 407 is prevented from being snapped. The bottom of the X-shaped telescopic frame 201 is provided with a pulley 208 and a first sliding rail 301, the first sliding rail 301 is provided with two parallel rails, a connecting rod 303 is arranged between the two first sliding rails 301, and the pulley 208 is arranged on the first sliding rail 301. The sliding rail mode of the pulley 208 is adopted to facilitate the pushing of the X-shaped telescopic frame 201. The translation mechanism 300 comprises a second sliding rail 302 arranged at the bottom of the first sliding rail 301, a pulley 208 is arranged on the first sliding rail 301, the whole water tank 100 and the telescopic frame can be taken out in a translation mode by manually pulling a connecting rod 303 between the first sliding rails 301, and the operation is simple and convenient. The bottom of the rear inclined rod of the X-shaped telescopic frame 201 is rotatably connected with the end part of the first sliding rail 301. In order to ensure that the top of the X-shaped telescopic frame 201 is kept at the same height and the water tank 100 is kept horizontal, one end of the rear diagonal rod of the X-shaped telescopic frame 201 needs to be fixed at the rear end of the first slide rail 301, and does not move transversely but can still rotate, so that when the front diagonal rod is pushed, the rear diagonal rod is kept horizontal with the top of the front diagonal rod through rotation.

The above is a detailed description of the technical solutions provided in connection with the preferred embodiments of the present invention, and it should not be assumed that the embodiments of the present invention are limited to the above description, and it will be apparent to those skilled in the art that the present invention can be implemented in a variety of ways without departing from the spirit and scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Claims (6)

1. A yarn separating and guiding mechanism for a cooling water tank of a wet spinning production line comprises a guide rod and a guide rod II, wherein the guide rod is fixed in the water tank and positioned at the lower part of the rear part of the water tank, and the guide rod II is fixed at the top of the front part of the water tank; the method is characterized in that: the guide roller device also comprises a wire dividing rod arranged on the water tank and positioned between the guide rod I and the guide rod II, and a guide roller I, a guide roller II and a guide roller III which are positioned in front of the water tank; the second guide roller is positioned between the first guide roller and the third guide roller and is positioned below the first guide roller and the third guide roller; a plurality of wire separating devices are distributed on the wire separating rod; and the second guide roller is a power roller.

2. The filament dividing and guiding mechanism for the cooling water tank of the wet spinning production line as claimed in claim 1, wherein: and a third guide rod is fixed in the water tank and is positioned between the first guide rod and the second guide rod, and the height of the third guide rod is lower than that of the second guide rod and higher than that of the first guide rod.

3. The filament dividing and guiding mechanism for the cooling water tank of the wet spinning production line as claimed in claim 1, wherein: the front side of basin is equipped with the guiding gutter, and the guiding gutter is located the below of deflector roll one, deflector roll two, deflector roll three.

4. The filament dividing and guiding mechanism for the cooling water tank of the wet spinning production line as claimed in claim 1, wherein: and the guide roller II is a rubber roller.

5. The filament dividing and guiding mechanism for the cooling water tank of the wet spinning production line as claimed in claim 1, wherein: the wire separator comprises a plurality of mounting rings and V-shaped barrier strips fixed below the mounting rings.

6. The filament dividing and guiding mechanism for the cooling water tank of the wet spinning production line as claimed in claim 5, wherein: and the top and the side part of the mounting ring are provided with an adjusting screw rod and a knob.

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