CN212127043U - Fiber production is with tension bracket auxiliary device tied in a bundle - Google Patents

Abstract

The utility model relates to a fibre production is with tension bracket auxiliary device tied in a bundle, belong to the technical field of tension bracket tied in a bundle, it includes the subaerial bottom plate of fixed connection, bottom plate up end fixedly connected with supporting mechanism, vertical sliding connection is in tensioning seal wire mechanism on the supporting mechanism, tensioning seal wire mechanism includes first tensioning subassembly and second tensioning subassembly of vertical sliding connection on the supporting mechanism, first tensioning subassembly and second tensioning subassembly set up along a line orientation interval, first tensioning subassembly and second tensioning subassembly opposite direction that slides, a plurality of yarn guide holes have all been seted up on first tensioning subassembly and the second tensioning subassembly, the bottom plate up end is provided with actuating mechanism, actuating mechanism includes the driving motor of fixed connection in the bottom plate up end, the first tensioning subassembly of driving motor drive slides with second tensioning subassembly. The utility model discloses have the tensile force that increases between creel tied in a bundle and the back spinning equipment fibre bundle and receive to reduce the effect of the alternately condition of kinking of fibre bundle.

Description

Fiber production is with tension bracket auxiliary device tied in a bundle

Technical Field

The utility model belongs to the technical field of the technique of tension bracket tied in a bundle and specifically relates to a tension bracket tied in a bundle auxiliary device is used in fibre production.

Background

The current bundling tension bracket is used for gathering the pre-spun as-spun fiber yarns into yarns with certain total denier according to the traction capacity of post-spinning equipment; the technical requirements of the link are to ensure that the number of the filaments is arranged and level as much as possible, no filaments are swung, no cross is formed, few kinks are formed, and the tension of the number of the filaments is balanced.

The traditional Chinese invention with the publication number of CN110205690A specially facilitates 2019, 9 and 6, discloses a creel for producing polyester fibers, which comprises a creel support frame, wherein the upper end face of the creel support frame is fixedly connected with a plurality of creel main bodies, and the lower end face of each creel main body is rotatably connected with creel wheels. The fiber in the spinning barrel enters the post-spinning equipment from the peripheral side surface of the upper end of the bundling frame wheel.

The above prior art solutions have the following drawbacks: when the distance between the bundling frame and the post-spinning equipment is too large, the fiber bundles between the bundling frame and the post-spinning equipment are influenced by gravity due to insufficient tension force, the middle parts of the fiber bundles bend towards the ground direction, and a plurality of fiber bundles can be crossed and twisted together, so that the quality of post-spun fibers is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a fibre production is with tension bracket auxiliary device tied in a bundle not enough to prior art exists. The tensioning force of the fiber bundle between the bundling frame and the post-spinning equipment is increased, so that the condition of cross twisting of the fiber bundle is reduced, and the influence on the quality of post-spun fibers is reduced.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a fibre production is with tension bracket auxiliary device tied in a bundle, includes the subaerial bottom plate of fixed connection, bottom plate up end fixedly connected with supporting mechanism, vertical sliding connection is in tensioning wire guide mechanism on the supporting mechanism, tensioning wire guide mechanism includes first tensioning subassembly and second tensioning subassembly of vertical sliding connection on supporting mechanism, first tensioning subassembly and second tensioning subassembly set up along a line direction interval, first tensioning subassembly and second tensioning subassembly opposite direction that slides, all seted up a plurality of wire guide holes on first tensioning subassembly and the second tensioning subassembly, the fibre bundle is from the downthehole process of wire guide, the bottom plate up end is provided with actuating mechanism, actuating mechanism includes the driving motor of fixed connection in bottom plate up end, the first tensioning subassembly of driving motor drive slides with second tensioning subassembly.

By adopting the technical scheme, the fiber bundles firstly enter the wire guide hole in the first tensioning assembly and then enter the wire guide hole in the second tensioning assembly after coming out of the bundling tension frame, and the first tensioning assembly and the second tensioning assembly slide oppositely after the driving motor is started, so that the tensioning force in the vertical direction is applied to the fiber bundles, the tensioning force applied to the fiber bundles is effectively increased, and the condition of cross kinking among the fiber bundles is effectively reduced.

The present invention may be further configured in a preferred embodiment as: the first tensioning assemblies comprise two groups, each group of first tensioning assemblies comprises two third support rods which are vertically and slidably connected in the supporting mechanism, the upper end surfaces of the third support rods are vertically and fixedly connected with yarn guide plates, and yarn guide holes are formed in the yarn guide plates in the yarn outlet direction; the second tensioning assembly comprises two fourth supporting rods which are vertically connected in the supporting mechanism in a sliding mode, the wire guide plate is fixedly connected to the upper end face of each fourth supporting rod in a vertical mode, the wire guide holes are formed in the wire guide plate along the wire outlet direction, and the sliding direction of the third supporting rod is opposite to that of the fourth supporting rods.

By adopting the technical scheme, the yarn guide plate is driven to slide when the third supporting rod and the fourth supporting rod slide, so that the yarn guide plate on the first tensioning assembly and the yarn guide plate on the second tensioning assembly slide in opposite directions, the tension force in the vertical direction is provided for the fiber bundle, the yarn guide plate can effectively collect the fiber bundle, the distance between the fiber bundles on two sides of the yarn outlet direction is reduced, and the situation that the fiber bundle is wound on the rotating shaft of the rear spinning equipment when entering the rear spinning equipment is reduced.

The present invention may be further configured in a preferred embodiment as: the inner wall of the guide wire hole is in an arc-shaped design.

By adopting the technical scheme, the arc-shaped design can reduce the damage of the side wall of the yarn guide hole to the fiber bundle and reduce the influence on the quality of the fiber bundle.

The present invention may be further configured in a preferred embodiment as: the inner wall of the wire guide hole is fixedly connected with a tension rod, and the fiber bundle winds around a circle along the periphery of the tension rod.

By adopting the technical scheme, after the fiber bundle enters the wire guide hole, the fiber bundle firstly winds around a circle from the peripheral side surface of the tension rod and then extends out of the wire guide hole, so that the resistance in the fiber bundle outlet direction can be increased, and the tension force borne by the fiber bundle is effectively increased.

The present invention may be further configured in a preferred embodiment as: the supporting mechanism comprises a first supporting component and a second supporting component which are fixedly connected to the bottom plate, the first supporting component comprises a first supporting rod which is fixedly connected to the upper end face of the bottom plate, the third supporting rod is connected to the first supporting rod in a vertical sliding mode, the second supporting component comprises a second supporting rod which is fixedly connected to the upper end face of the bottom plate, and the fourth supporting rod is connected to the second supporting rod in a vertical sliding mode.

Through adopting above-mentioned technical scheme, first bracing piece and second bracing piece provide the supporting role for third bracing piece and fourth bracing piece to have the guide effect.

The present invention may be further configured in a preferred embodiment as: a first sliding groove is vertically formed in the first supporting rod, the third supporting rod is connected in the first sliding groove in a sliding mode, a second sliding groove is vertically formed in the second supporting rod, and the fourth supporting rod is connected in the second sliding groove in a sliding mode.

Through adopting above-mentioned technical scheme, first spout and second spout slide to third bracing piece and fourth bracing piece and play the guide effect.

The present invention may be further configured in a preferred embodiment as: the drive mechanism comprises a drive support assembly fixedly connected to the upper end face of the bottom plate, a drive rod is connected to the drive support assembly in a rotating mode, one end of the drive rod is fixedly connected with the spindle of the drive motor in a coaxial mode, and a first drive assembly for driving the first tensioning assembly to slide and a second drive assembly for driving the second tensioning assembly to slide are arranged on the drive rod.

Through adopting above-mentioned technical scheme, driving motor starts the back, and the actuating lever rotates, drives first drive assembly and the operation of second drive assembly to make first tensioning subassembly and second tensioning subassembly slide simultaneously, easy operation is convenient.

The present invention may be further configured in a preferred embodiment as: the first driving assembly comprises a first driving gear which is coaxially and fixedly connected to the driving rod, a first connecting plate is fixedly connected to the side wall of the third supporting rod, a first driving rack is fixedly connected to one side of the first connecting plate, the first driving gear is meshed with the first driving rack, the second driving assembly comprises a second driving gear which is coaxially and fixedly connected to the driving rod, a second connecting plate is fixedly connected to the side wall of the fourth supporting rod, a second driving rack is fixedly connected to one side of the second connecting plate, the second driving rack is meshed with the second driving gear, and the first driving rack and the second driving rack are respectively located on two sides of the driving rod.

By adopting the technical scheme, after the driving motor drives, the driving rod rotates, the first driving gear and the second driving gear rotate, and the first driving gear and the second driving gear are respectively positioned on two sides of the driving rod, so that the movement directions of the first driving gear and the second driving gear are opposite, the third supporting rod and the fourth supporting rod slide in opposite directions, and the operation is simple and convenient.

The present invention may be further configured in a preferred embodiment as: the drive supporting assembly comprises a bearing seat fixedly connected to the upper end face of the bottom plate, a bearing is fixedly connected to the inside of the bearing seat, and the drive rod is coaxially and fixedly connected to the inside of the bearing.

Through adopting above-mentioned technical scheme, the bearing frame plays the supporting role, and the bearing can reduce the resistance that the actuating lever received in-process of rotating to it is more laborsaving to make the actuating lever rotate.

The present invention may be further configured in a preferred embodiment as: third bracing piece lateral wall and fourth bracing piece lateral wall all rotate to be connected with and connect the bits box, connect the bits box to be located the godet board below, the through-hole has all been seted up to third bracing piece lateral wall and fourth bracing piece lateral wall, connect bits box both ends to set up flutedly, sliding connection has the locating lever in the through-hole, locating lever one end is passed the through-hole joint in the recess.

By adopting the technical scheme, when the fiber bundle passes through the yarn guide hole, part of fibers on the fiber bundle are scraped to the scrap receiving box, the positioning rod slides out of the through hole and the groove after the fibers in the scrap receiving box are accumulated to a specified amount, the scrap receiving box is rotated to enable the fibers to slide out for unified treatment, the operation is simple and convenient, and the influence on the surrounding environment is reduced.

To sum up, the utility model discloses a following at least one useful technological effect:

1. after the fiber bundles come out of the bundling tension frame, the fiber bundles firstly enter the wire guide holes in the first tensioning assembly and then enter the wire guide holes in the second tensioning assembly, and after the first tensioning assembly and the second tensioning assembly slide in opposite directions, the first tensioning assembly and the second tensioning assembly slide in opposite directions after the driving motor is started, so that the fiber bundles are tensioned in the vertical direction, the tensioning force on the fiber bundles is effectively increased, and the condition of cross kinks among the fiber bundles is effectively reduced;

2. when the third supporting rod and the fourth supporting rod slide, the yarn guide plate is driven to slide, so that the yarn guide plate on the first tensioning assembly and the yarn guide plate on the second tensioning assembly slide in opposite directions, a vertical tensioning force is provided for a fiber bundle, the yarn guide plate can effectively collect the fiber bundle, the distance between the fiber bundles on two sides of the yarn outlet direction is reduced, and the condition that the fiber bundle is wound on a rotating shaft of the post-spinning equipment when entering the post-spinning equipment is reduced;

3. when the fiber bundle passes through the yarn guide hole, part of fibers on the fiber bundle are scraped to the scrap receiving box, after the fibers in the scrap receiving box are accumulated to a specified amount, the positioning rod slides out of the through hole and the groove, the scrap receiving box is rotated to enable the fibers to slide out to be uniformly processed, the operation is simple and convenient, and the influence on the surrounding environment is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

fig. 2 is another view angle overall structure diagram of fig. 1.

Reference numerals: 100. a base plate; 200. a support mechanism; 210. a first support assembly; 211. a first support bar; 212. a first chute; 213. a third chute; 220. a second support assembly; 221. a second support bar; 222. a second chute; 223. a fourth chute; 300. a tensioning wire guide mechanism; 310. a first tensioning assembly; 311. a third support bar; 320. a second tensioning assembly; 321. a fourth support bar; 330. a thread guide plate; 340. a wire guide hole; 350. a tension rod; 400. a drive mechanism; 410. a drive support assembly; 411. a bearing seat; 412. a bearing; 420. a drive rod; 430. a drive motor; 440. a first drive assembly; 441. a first connecting plate; 442. a first drive rack; 443. a first drive gear; 450. a second drive assembly; 451. a second connecting plate; 452. a second drive rack; 453. a second drive gear; 500. a chip receiving box; 600. a through hole; 700. positioning a rod; 800. and (4) a groove.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a fiber production is with tension frame auxiliary device tied in a bundle, including fixed connection in subaerial bottom plate 100, bottom plate 100 up end fixedly connected with supporting mechanism 200, vertical sliding connection has tensioning wire guide mechanism 300 on the supporting mechanism 200, is provided with actuating mechanism 400 on the supporting mechanism 200, and actuating mechanism 400 drive tensioning wire guide mechanism 300 slides.

Referring to fig. 1, the support mechanism 200 includes a second support member 220 fixedly attached to the upper end surface of the ground and two sets of first support members 210. The first support member 210 and the second support member 220 are spaced apart in the fiber bundle outgoing direction.

Referring to fig. 1, the first support assembly 210 includes two first support bars 211 vertically fixedly connected to the upper end surface of the base plate 100, and the second support assembly 220 includes two second support bars 221 fixedly connected to the upper end surface of the base plate 100. The distance from the upper end surface of the first support rod 211 to the ground is greater than the distance from the upper end surface of the second support rod 221 to the ground.

Referring to fig. 1, the tension guide mechanism 300 includes a first tension assembly 310 vertically slidably connected to the first support bar 211 and a second tension assembly 320 vertically slidably connected to the second support bar 221, the first tension assembly 310 and the second tension assembly 320 are spaced apart in the outgoing direction, and the first tension assembly 310 and the second tension assembly 320 slide in opposite directions.

Referring to fig. 1, the first tensioning assembly 310 includes a third support rod 311 vertically slidably connected in the first support rod 211, the second tensioning assembly 320 includes a fourth support rod 321 vertically slidably connected on the second support rod 221, the upper end surfaces of the third support rod 311 and the fourth support rod 321 are both fixedly connected with a wire guide plate 330, a plurality of wire guide holes 340 are formed in the wire guide plate 330 along the fiber bundle outlet direction, and a tensioning rod 350 is fixedly connected in the wire guide holes 340.

Referring to fig. 1, the inner wall of the guide wire hole 340 is designed to be arc-shaped, so that damage of the guide wire hole 340 to the fiber bundle is reduced.

Referring to fig. 1, the distance from the upper end surface of the third support bar 311 to the ground is greater than the distance from the upper end surface of the fourth support bar 321 to the ground.

Referring to fig. 1, a first sliding groove 212 is vertically formed in the first supporting rod 211, and the third supporting rod 311 is slidably connected in the first sliding groove 212. The second support rod 221 is vertically provided with a second sliding slot 222 therein, and the fourth support rod 321 is slidably connected in the second sliding slot 222.

Referring to fig. 1, the side walls of the third support rod 311 and the fourth support rod 321 are rotatably connected with a scrap receiving box 500, and the scrap receiving box 500 is located below the thread guide plate 330. Through-holes 600 have all been seted up to third bracing piece 311 lateral wall and fourth bracing piece 321 lateral wall, connect bits box 500 both ends to set up fluted 800, and sliding connection has locating lever 700 in through-hole 600, and locating lever 700 one end passes through-hole 600 joint in fluted 800.

Referring to fig. 1, the free end of the sidewall of the chip receiving box 500 is inclined upward and forms an angle with the horizontal plane.

Referring to fig. 1, the driving mechanism 400 includes a driving support assembly 410 fixedly connected to the upper end surface of the base plate 100, a driving rod 420 rotatably connected to the driving support assembly 410, a driving motor 430 coaxially and fixedly connected to one end of the driving rod 420, and a first driving assembly 440 and a second driving assembly 450 disposed on the driving support assembly 410.

Referring to fig. 1, the first driving assembly 440 includes a first connecting plate 441 fixedly connected to a side wall of the third supporting rod 311, a first driving rack 442 fixedly connected to the first connecting plate 441 toward a side of the cluster frame, and a first driving gear 443 coaxially and fixedly connected to the driving rod 420, wherein the first driving gear 443 is engaged with the first driving rack 442.

Referring to fig. 1, the second driving assembly 450 includes a second connection plate 451 fixedly connected to a side wall of the fourth support rod 321, a second driving rack 452 fixedly connected to a side of the second connection plate 451 facing the cluster frame, a second driving gear 453 coaxially and fixedly connected to the driving rod 420, and the second driving gear 453 is engaged with the second driving rack 452.

Referring to fig. 1, the first and second driving racks 442 and 452 are respectively located at both sides of the driving lever 420.

Referring to fig. 2, the driving support assembly 410 includes a bearing housing 411 fixedly connected to the upper end surface of the base plate 100, a bearing 412 fixedly connected to the inside of the bearing housing 411, and a driving rod 420 coaxially and fixedly connected to the inside of the bearing 412.

Referring to fig. 2, the first supporting rod 211 has a third sliding groove 213 vertically formed in a side wall thereof, the first connecting plate 441 is slidably connected to the third sliding groove 213, the second supporting rod 221 has a fourth sliding groove 223 vertically formed in a side wall thereof, and the second connecting plate 451 is slidably connected to the fourth sliding groove 223.

The implementation manner of the embodiment is as follows: the fiber bundle extending from the creel reaches the guide wire plate 330 of the first tensioning assembly 310 near the creel first, and the fiber bundle extends from the guide wire hole 340 after passing through one turn at the outer circumferential side of the tensioning rod 350; the fiber bundle reaches the guide wire plate 330 of the second tensioning assembly 320, and the fiber bundle extends out of the guide wire hole 340 after passing through one turn on the outer circumferential side of the tensioning rod 350; the fiber bundle then arrives at the thread guide plate 330 of the first tensioning assembly 310, which is remote from the creel, and after the fiber bundle has passed around the outer circumference of the tensioning rod 350 a loop, it protrudes out of the thread guide opening 340 into the post-spinning device.

When the tension of the fiber bundle needs to be adjusted, the driving motor 430 is started, the driving rod 420 rotates to drive the first driving gear 443 and the second driving rack 452 to rotate, and the first driving rack 442 and the second driving rack 452 are respectively located at two sides of the driving rod 420, so that the sliding directions of the first tensioning assembly 310 and the second tensioning assembly 320 are opposite, and the tension of the fiber bundle is adjusted by adjusting the first tensioning assembly 310 and the second tensioning assembly 320.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a fibre production is with tension bracket auxiliary device tied in a bundle which characterized in that: including fixed connection in subaerial bottom plate (100), bottom plate (100) up end fixedly connected with supporting mechanism (200), vertical sliding connection is in tensioning wire guide mechanism (300) on supporting mechanism (200), tensioning wire guide mechanism (300) include vertical sliding connection in first tensioning subassembly (310) and second tensioning subassembly (320) on supporting mechanism (200), first tensioning subassembly (310) and second tensioning subassembly (320) set up along the direction interval of being qualified for the next round of competitions, first tensioning subassembly (310) and second tensioning subassembly (320) slip opposite direction, all seted up a plurality of wire guide holes (340) on first tensioning subassembly (310) and the second tensioning subassembly (320), the tow passes through in following wire guide hole (340), bottom plate (100) up end is provided with actuating mechanism (400), actuating mechanism (400) include fixed connection in driving motor (430) of bottom plate (100) up end, the driving motor (430) drives the first tensioning assembly (310) and the second tensioning assembly (320) to slide.

2. The auxiliary device of the bundling tension bracket for fiber production as claimed in claim 1, wherein: the two groups of the first tensioning assemblies (310) are provided, each first tensioning assembly (310) comprises two third supporting rods (311) which are vertically and slidably connected into the supporting mechanism (200), the upper end faces of the third supporting rods (311) are vertically and fixedly connected with wire guide plates (330), and the wire guide holes (340) are formed in the wire guide plates (330) along the wire outlet direction; second tensioning subassembly (320) include two fourth bracing pieces (321) of vertical sliding connection in supporting mechanism (200), the vertical fixedly connected with seal wire board (330) of fourth bracing piece (321) up end, seal wire hole (340) are seted up on seal wire board (330) along the direction of being qualified for the next round of competitions, third bracing piece (311) and fourth bracing piece (321) slip opposite direction.

3. The auxiliary device of the bundling tension bracket for fiber production as claimed in claim 2, wherein: the inner wall of the wire guide hole (340) is in an arc-shaped design.

4. The auxiliary device of claim 3, wherein the auxiliary device comprises: wire guide hole (340) inner wall fixedly connected with tensioning rod (350), the round is walked around along tensioning rod (350) week side to the tow.

5. The auxiliary device of claim 4, wherein the auxiliary device comprises: supporting mechanism (200) are including first supporting component (210) and second supporting component (220) of fixed connection on bottom plate (100), first supporting component (210) are including first bracing piece (211) of vertical fixed connection in bottom plate (100) up end, the vertical sliding connection of third bracing piece (311) is in first bracing piece (211), second supporting component (220) are including second bracing piece (221) of vertical fixed connection in bottom plate (100) up end, the vertical sliding connection of fourth bracing piece (321) is in second bracing piece (221).

6. The auxiliary device of claim 5, wherein the auxiliary device comprises: a first sliding groove (212) is vertically formed in the first supporting rod (211), the third supporting rod (311) is connected to the first sliding groove (212) in a sliding mode, a second sliding groove (222) is vertically formed in the second supporting rod (221), and the fourth supporting rod (321) is connected to the second sliding groove (222) in a sliding mode.

7. The auxiliary device of claim 6, wherein the auxiliary device comprises: the driving mechanism (400) comprises a driving supporting assembly (410) fixedly connected to the upper end face of the base plate (100), the driving supporting assembly (410) is connected with a driving rod (420) in a rotating mode, one end of the driving rod (420) is fixedly connected with a main shaft of the driving motor (430) in a coaxial mode, and a first driving assembly (440) for driving the first tensioning assembly (310) to slide and a second driving assembly (450) for driving the second tensioning assembly (320) to slide are arranged on the driving rod (420).

8. The auxiliary device of claim 7, wherein the auxiliary device comprises: the first driving assembly (440) comprises a first driving gear (443) coaxially and fixedly connected to the driving rod (420), a first connecting plate (441) is fixedly connected to the side wall of the third supporting rod (311), a first driving rack (442) is fixedly connected to one side of the first connecting plate (441), the first drive gear (443) is engaged with the first drive rack (442), the second drive assembly (450) comprises a second drive gear (453) coaxially fixedly connected to the drive rod (420), the side wall of the fourth supporting rod (321) is fixedly connected with a second connecting plate (451), one side of the second connecting plate (451) is fixedly connected with a second driving rack (452), the second driving rack (452) is meshed with the second driving gear (453), and the first driving rack (442) and the second driving rack (452) are respectively positioned at two sides of the driving rod (420).

9. The auxiliary device of claim 8, wherein the auxiliary device comprises: the drive supporting assembly (410) comprises a bearing seat (411) fixedly connected to the upper end face of the base plate (100), a bearing (412) is fixedly connected in the bearing seat (411), and the drive rod (420) is coaxially and fixedly connected in the bearing (412).

10. The auxiliary device of the bundling tension bracket for fiber production as claimed in claim 9, wherein: third bracing piece (311) lateral wall and fourth bracing piece (321) lateral wall all rotate to be connected with and connect bits box (500), connect bits box (500) to be located yarn guide plate (330) below, through-hole (600) have all been seted up to third bracing piece (311) lateral wall and fourth bracing piece (321) lateral wall, connect bits box (500) both ends to seted up recess (800), sliding connection has locating lever (700) in through-hole (600), through-hole (600) joint is passed to locating lever (700) one end in recess (800).

Images