CN214830879U - Fly frame is used in textile production with clear fine hair mechanism - Google Patents

Abstract

The utility model discloses a fly frame for textile production with fine hair removing mechanism relates to textile production technical field. The utility model discloses a clear fine hair device, conducting bar roller, flyer machine part, take-up device and fly frame main part, fly frame main part top fixedly connected with clear fine hair device rotates in the fly frame main part of clear fine hair device below and is connected with the conducting bar roller, fixedly connected with conducting bar loudspeaker in the fly frame main part of conducting bar roller below, and fly frame main part middle part is provided with the flyer machine part, and fly frame main part bottom is provided with take-up device. The utility model solves the problems that the prior roving frame for textile production leads and twists the fiber strips in the working process, some fine fluff on the fiber strips falls in the machine, and the use of the roving frame is influenced by the accumulated much time; the twisting efficiency is not high, the twisting of the roving frame is the most important step in the work, and the twisting efficiency is not high, so that the working efficiency of the whole device is influenced.

Description

Fly frame is used in textile production with clear fine hair mechanism

Technical Field

The utility model belongs to the technical field of textile production, especially, relate to a fly frame for textile production with clear fine hair mechanism.

Background

The roving frame is a spinning machine for making fiber slivers into roving, mainly plays a role in drafting and twisting, and winds the roving into a certain package so as to meet the processing requirements of the spinning frame, and is divided into a flyer roving frame and a twist roving frame according to the form of a twisting mechanism. The flyer roving frame rotates by means of flyer to continuously apply twist to the sliver so as to produce twisted roving. The twist roving frame clamps and twists the yarn by a pair of twist leather plates, and forms a false twist with alternate forward and reverse directions on the yarn to produce untwisted roving. The flyer roving frame and twist roving frame can be divided into a first channel, a second channel and a single-way roving frame. The feeding form, roving package and number of spindles of the machine of various roving frames are different, but the structure and the function of the machine are approximately the same, but the following disadvantages still exist in the practical use:

1. during the working process of the existing roving frame for textile production, the guiding and twisting of the fiber strips can cause some fine fluff on the fiber strips to fall in the machine, and the use of the roving frame is influenced when more fine fluff is accumulated over time;

2. the existing roving frame for textile production has low twisting efficiency to fiber strips, the roving frame twisting is the most important step in the work, and the low twisting efficiency can influence the working efficiency of the whole device.

Therefore, the conventional roving frame for textile production cannot meet the requirements in practical use, and therefore, an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a fly frame for textile production with clear fine hair mechanism, through setting up clear fine hair device, fan cage, fan main part, first driving motor, flyer parts, first servo motor, first gear, first drive belt, sleeve pipe, hollow wing arm, solid wing arm, palm and winding roller, solved current fly frame for textile production in the course of the work, to the conduction of ribbon and twist, can make some tiny fine wools on the ribbon fall in the machine, long-term accumulating more will influence the use of fly frame; the roving frame for textile production is not high in twisting efficiency of the fiber strips, the roving frame is the most important step in the work, and the problem that the working efficiency of the whole device is influenced due to the fact that the twisting efficiency is not high is solved.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a fly frame for textile production with clear fine hair mechanism, including clear fine hair device, gib roller, flyer machine part, take-up device and fly frame main part, fly frame main part top fixedly connected with clears fine hair device, and clear fine hair device is located the top of fly frame, it is connected with the gib roller to rotate in the fly frame main part of clear fine hair device below, fixedly connected with gib loudspeaker in the fly frame main part of gib roller below, fly frame main part middle part is provided with the flyer machine part, fly frame main part bottom is provided with take-up device.

Further, the fine hair removing device comprises a fan cage, a fan fixing block, a fan main body and a first direct-drive motor, wherein the fan fixing block is fixedly connected to two sides of the fan cage, two ends of the fan fixing block are respectively fixedly connected with a second fixing block on the roving frame main body and the roving frame main body, the fan cage is rotatably connected with the fan main body, a rotating shaft is arranged in the middle of the fan main body, the fan cage is penetrated above the fan main body and is rotatably connected with the first direct-drive motor, the rear part of the first direct-drive motor is fixedly connected with the first fixing block on the roving frame main body, and an output shaft of the first direct-drive motor is connected with the rotating shaft on the fan main body.

Further, the two ends of the conducting bar roller are fixedly connected with roller rotating shafts, one end of each roller rotating shaft penetrates through a first rotating hole in the roving frame main body, one end of each roller rotating shaft is connected with a second direct-drive motor, the second direct-drive motors are located in the roving frame main body, and output shafts of the second direct-drive motors are connected with the roller rotating shafts.

Furthermore, the two sides of the conducting bar horn are fixedly connected with horn fixing blocks, and the horn fixing blocks on the two sides are respectively and fixedly connected with the roving frame main body and a second fixing block on the roving frame main body.

Further, the flyer machine part comprises a first servo motor, a first gear, a first transmission belt, a sleeve, a hollow wing arm, a solid wing arm and a presser finger, wherein the first gear is rotatably connected above the first servo motor, the first servo motor and the first gear are positioned in the main body of the roving frame, an output shaft of the first servo motor is rotatably connected with the first gear, the first transmission belt is rotatably connected outside the first gear, a gear structure is arranged on the inner ring of the first transmission belt, two ends of the first transmission belt are respectively in gear connection with the first gear and the sleeve, the other end of the first transmission belt is rotatably connected with the sleeve, the first transmission belt and the sleeve are positioned in a second fixed block on the main body of the roving frame, the sleeve is positioned in a through hole on the second fixed block, the hollow wing arm and the solid wing arm are fixed on two sides of the lower part of the sleeve, the inner side of the bottom of the solid wing arm is fixedly connected with the presser finger, the winding roller on the winding device is positioned in the pressing palm.

Further, the winding device comprises a second servo motor, a second gear, a second transmission belt and a winding roller, wherein the second gear is rotatably connected to the upper portion of the second servo motor, the second servo motor and the second gear are located inside the roving frame main body, an output shaft of the second servo motor is rotatably connected with the second gear, the second transmission belt is rotatably connected to the outer portion of the second gear, a gear structure is arranged on the inner ring of the second transmission belt, two ends of the second transmission belt are respectively in gear connection with the second gear and the winding roller, the other end of the second transmission belt is rotatably connected with the winding roller, and the winding roller is rotatably connected in a second rotary hole in the fixing base of the roving frame main body.

Furthermore, a first fixed block is fixed on the top of the bobbiner main body and is fixedly connected with a first direct-drive motor on the lint cleaning device, a first rotating hole is arranged on the inner side of the upper part of the roving frame main body, a roller rotating shaft on a sliver roller is rotatably connected in the first rotating hole, a second fixed block is fixed in the middle of the main body of the roving frame, the inner side of the second fixed block is connected with a fan fixed block on the lint cleaning device, a roller rotating shaft on the guide strip roller and a horn fixed block on the guide strip horn, a through hole is arranged in the middle of the second fixed block and penetrates through the second fixed block, a sleeve on the flyer machine part is arranged in the through hole, the bottom of the roving frame main body is fixed with a fixed base, a winding device is connected onto the fixed base, a second rotating hole is formed in the fixed base, and a winding roller on the winding device penetrates through the second rotating hole to be rotatably connected with a second transmission belt located in the fixed base.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up clear fine hair device, fan cage, fan main part and first driving motor always, solved current roving frame for textile production in the course of the work, to the conduction of ribbon and twisting, can make some tiny fine hairs on the ribbon fall in the machine, collect together more problem that then can influence the use of roving frame for a long time, the utility model discloses first driving motor drives the fan main part and rotates, and the fan main part rotates and makes clear fine hair device can produce decurrent wind-force and for the fly frame fine hair.

2. The flyer machine part of the utility model solves the problems that the prior roving frame for textile production has low twisting efficiency to fiber strips, the roving frame twisting is the most important step in the work and the working efficiency of the whole device is affected due to the low twisting efficiency by arranging the flyer machine part, the first servo motor, the first gear, the first transmission belt, the sleeve, the hollow wing arm, the solid wing arm, the presser and the winding roller, the flyer machine part twists the fiber strips through high-speed rotation, the first servo motor drives the first gear to rotate, the first gear rotates to drive the first transmission belt to move, the first transmission belt moves to drive the sleeve to rotate, the fiber strips enter the hollow wing arm from the sleeve, the fiber strips pass through the hollow wing arm to rotate and are connected to the winding roller on the winding device, the sleeve rotates to drive the hollow wing arm and the solid wing arm to rotate, the winding roller on the winding device is positioned in the presser, when the solid wing arm rotates at a high speed, the pressing palm enables the rough yarn to be tightly pressed on the winding roller, and the rough yarn is wound under certain tension.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the lint removing device of the present invention;

FIG. 3 is a schematic structural view of the conducting bar roller of the present invention;

fig. 4 is a schematic structural view of the conducting bar horn of the present invention;

FIG. 5 is a schematic view of the flyer frame of the present invention;

fig. 6 is a schematic structural view of the winding device of the present invention;

fig. 7 is a schematic structural diagram of the roving frame main body of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a velvet cleaning device; 101. a fan cage; 102. a fan fixing block; 103. a fan main body; 104. a first direct drive motor; 200. a sliver roller; 201. a roller rotating shaft; 202. a second direct drive motor; 300. a conducting bar horn; 301. a horn fixing block; 400. a flyer member; 401. a first servo motor; 402. a first gear; 403. a first drive belt; 404. a sleeve; 405. a hollow wing arm; 406. a solid wing arm; 407. pressing the palm; 500. a winding device; 501. a second servo motor; 502. a second gear; 503. a second belt; 504. a winding roller; 600. a roving frame main body; 601. a first fixed block; 602. a first rotary hole; 603. a second fixed block; 604. perforating; 605. a fixed base; 606. and a second rotary hole.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-7, the present invention relates to a roving frame with a flyer machine, comprising a flyer cleaning device 100, a sliver roller 200, a flyer machine 400, a winding device 500 and a roving frame body 600, wherein the top of the roving frame body 600 is fixedly connected with the flyer cleaning device 100, the flyer cleaning device 100 is located at the top of the roving frame, the flyer cleaning device 100 can generate downward wind force to clean the roving frame, the roving frame body 600 below the flyer cleaning device 100 is rotatably connected with the sliver roller 200, the sliver roller 200 guides the slivers into the roving frame, the roving frame body 600 below the sliver roller 200 is fixedly connected with a sliver speaker 300, the sliver speaker 300 plays a bundling role for the slivers, and conveys a plurality of slivers to the roving frame together, the middle part of the roving frame body 600 is provided with the flyer machine 400, the flyer machine 400 twists the slivers through high-speed rotation, the winding device 500 is provided at the bottom of the roving frame body 600, and the winding device 500 winds the roving into a predetermined package.

As shown in fig. 1 and 2, the lint cleaning device 100 comprises a fan cage 101, fan fixing blocks 102, a fan main body 103 and a first direct-drive motor 104, the fan fixing blocks 102 are fixedly connected to two sides of the fan cage 101, two ends of each fan fixing block 102 are respectively fixedly connected to a roving frame main body 600 and a second fixing block 603 on the roving frame main body 600, the fan cage 101 on the lint cleaning device 100 is fixedly connected to the roving frame main body 600 through the fan fixing blocks 102, the fan main body 103 is rotatably connected to the inside of the fan cage 101, a rotating shaft is arranged in the middle of the fan main body 103, the fan main body 103 is rotatably connected to the fan cage 101 through the rotating shaft, wind power generated by the rotation of the fan main body 103 cleans the roving frame, the first direct-drive motor 104 is rotatably connected above the fan main body 103 through the fan cage 101, the rear side of the first direct-drive motor 104 is fixedly connected to the first fixing block 601 on the roving frame main body 600, and the output shaft of the first direct-drive motor 104 is connected to the rotating shaft on the fan main body 103, the first direct drive motor 104 drives the fan main body 103 to rotate.

As shown in fig. 1 and 3, roller rotating shafts 201 are fixedly connected to two ends of a sliver roller 200, one end of each roller rotating shaft 201 penetrates through a first rotating hole 602 in a roving frame main body 600, the sliver roller 200 is rotatably connected with the roving frame main body 600 through the roller rotating shaft 201, the roller rotating shafts 201 rotate to drive the sliver roller 200 to rotate, one end of each roller rotating shaft 201 is connected with a second direct-drive motor 202, the second direct-drive motor 202 is located inside the roving frame main body 600, an output shaft of the second direct-drive motor 202 is connected with the roller rotating shafts 201, and the second direct-drive motors 202 drive the roller rotating shafts 201 to rotate.

As shown in fig. 1 and 4, the horn fixing blocks 301 are fixedly connected to two sides of the bar horn 300, the horn fixing blocks 301 on two sides are respectively fixedly connected to the roving frame main body 600 and the second fixing block 603 on the roving frame main body 600, and the bar horn 300 is fixedly connected to the roving frame main body 600 through the horn fixing blocks 301.

As shown in fig. 1 and 5, the flyer mechanism 400 includes a first servo motor 401, a first gear 402, a first transmission belt 403, a sleeve 404, a hollow wing arm 405, a solid wing arm 406 and a presser finger 407, the first gear 402 is rotatably connected above the first servo motor 401, the first servo motor 401 and the first gear 402 are located inside the roving frame main body 600, an output shaft of the first servo motor 401 is rotatably connected with the first gear 402, the first servo motor 401 drives the first gear 402 to rotate, the first gear 402 rotates to drive the first transmission belt 403 to move, the first gear 402 is used for transmitting a driving force of the first servo motor 401 to the first transmission belt 403, the first transmission belt 403 is rotatably connected to the outside of the first gear 402, a gear structure is arranged inside a ring of the first transmission belt 403, two ends of the first transmission belt 403 are respectively in gear connection with the first gear 402 and the sleeve 404, the first transmission belt 403 moves to drive the sleeve 404 to rotate, the other end of the first transmission belt 403 is rotatably connected with a sleeve 404, the first transmission belt 403 and the sleeve 404 are positioned in a second fixed block 603 on the roving frame main body 600, the sleeve 404 is positioned in a through hole 604 on the second fixed block 603, a fiber strip enters the hollow wing arm 405 from the sleeve 404, the hollow wing arm 405 and the solid wing arm 406 are fixed on two sides of the lower portion of the sleeve 404, the fiber strip penetrates through the hollow wing arm 405 to be rotatably connected to a winding roller 504 on the winding device 500, the sleeve 404 rotates to drive the hollow wing arm 405 and the solid wing arm 406 to rotate, a pressing palm 407 is fixedly connected to the inner side of the bottom of the solid wing arm 406, the winding roller 504 on the winding device 500 is positioned in the pressing palm 407, and the pressing palm 407 enables the roving to be tightly pressed on the winding roller 504 during high-speed rotation of the solid wing arm 406, so that the roving is wound under a certain tension.

As shown in fig. 1 and 6, the winding device 500 includes a second servo motor 501, a second gear 502, a second transmission belt 503 and a winding roller 504, the second gear 502 is rotatably connected above the second servo motor 501, the second servo motor 501 and the second gear 502 are located inside the roving frame main body 600, an output shaft of the second servo motor 501 is rotatably connected with the second gear 502, the second servo motor 501 drives the second gear 502 to rotate, the second gear 502 rotates to drive the second transmission belt 503 to move, the second gear 502 is used to transmit the driving force of the second servo motor 501 to the second transmission belt 503, the second transmission belt 503 is rotatably connected to the outside of the second gear 502, a gear structure is arranged on the inner ring of the second transmission belt 503, two ends of the second transmission belt are respectively in gear connection with the second gear 502 and the winding roller 504, the second transmission belt 503 moves to drive the other winding roller 504, the head of the second transmission belt 503 is rotatably connected with the winding roller 504, the winding roller 504 is rotatably connected to a second rotating hole 606 of a fixed base 605 of the roving frame body 600, and the winding roller 504 rotates to wind the roving into a predetermined package.

As shown in fig. 1 and 7, a first fixing block 601 is fixed on the top of a bobbiner body 600, the first fixing block 601 is fixedly connected with a first direct-drive motor 104 on a lint removing device 100, the bobbiner body 600 fixes the first direct-drive motor 104 on the upper portion thereof through the first fixing block 601 so as to drive the lint removing device 100, a first rotating hole 602 is formed in the inner side of the upper portion of the bobbiner body 600, a roller rotating shaft 201 on a guide bar roller 200 is rotatably connected to the first rotating hole 602, the bobbiner body 600 is rotatably connected with the guide bar roller 200 through the first rotating hole 602, a second fixing block 603 is fixed in the middle of the bobbiner body 600, a fan fixing block 102 on the lint removing device 100, a roller rotating shaft 201 on the guide bar roller 200 and a horn fixing block 301 on the guide bar horn 300 are connected to the inner side of the bobbiner body 600 through the second fixing block 603, a through hole 604 is formed in the middle of the second fixing block 603, the through hole 604 penetrates through the second fixing block 603, the sleeve 404 on the flyer mechanism 400 is arranged in the through hole 604, the fiber strips enter the sleeve 404 through the through hole 604, the bottom of the roving frame main body 600 is fixedly provided with a fixing base 605, the fixing base 605 is connected with the winding device 500, the roving frame main body 600 is connected with the winding device 500 through the fixing base 605, the fixing base 605 is provided with a second rotating hole 606, and the winding roller 504 on the winding device 500 penetrates through the second rotating hole 606 to be rotatably connected with a second transmission belt 503 in the fixing base 605.

One specific application of this embodiment is: the utility model relates to a roving frame for textile production with fine hair removing mechanism, sliver roller 200 guides the fiber strips into the roving frame, second direct drive motor 202 drives roller rotating shaft 201 to rotate, roller rotating shaft 201 rotates and drives sliver roller 200 to rotate, sliver horn 300 plays a bundling role on the fiber strips, collect a plurality of fiber strips into one and deliver the fiber strips to the roving frame for twisting, flyer machine part 400 twists the fiber strips through high-speed rotation, first servo motor 401 drives first gear 402 to rotate, first gear 402 rotates and drives first driving belt 403 to move, first driving belt 403 moves and drives sleeve 404 to rotate, the fiber strips enter hollow wing arm 405 from sleeve 404, the fiber strips pass through hollow wing arm 405 to rotate and connect to winding roller 504 on winding device 500, sleeve 404 rotates and drives hollow wing arm 405 and solid wing arm to rotate, winding roller 504 on winding device 500 is located in presser 407, when the solid wing arm 406 rotates at a high speed, the pressing palm 407 enables the roving to be tightly pressed on the winding roller 504, the roving is wound under a certain tension, the winding device 500 winds the roving into a certain package, the second servo motor 501 drives the second gear 502 to rotate, the second gear 502 rotates to drive the second transmission belt 503 to move, the second transmission belt 503 moves to drive the winding roller 504 to rotate, the winding roller 504 rotates to wind the roving into a certain package, when the device needs to clean fine fluff falling on the device, the first direct drive motor 104 drives the fan main body 103 to rotate, and the fan main body 103 rotates to enable the fluff cleaning device 100 to generate downward wind power to clean the fluff of the roving machine.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (7)

1. A roving frame with a fluff cleaning mechanism for textile production comprises a fluff cleaning device (100), a sliver roller (200), flyer elements (400), a winding device (500) and a roving frame body (600), and is characterized in that: fly frame main part (600) top fixedly connected with device of clearing fine hair (100), it is connected with gib roller (200) to rotate on fly frame main part (600) of clearing fine hair device (100) below, fixedly connected with gib loudspeaker (300) on fly frame main part (600) of gib roller (200) below, fly frame main part (600) middle part is provided with flyer work piece (400), fly frame main part (600) bottom is provided with take-up device (500).

2. The roving frame with the fluff cleaning mechanism for textile production is characterized in that the fluff cleaning device (100) comprises a fan cage (101), a fan fixing block (102), a fan main body (103) and a first direct-drive motor (104), the fan fixing block (102) is fixedly connected to two sides of the fan cage (101), the fan main body (103) is rotatably connected to the inside of the fan cage (101), and the first direct-drive motor (104) is rotatably connected above the fan main body (103) through the fan cage (101).

3. The roving frame with the fluff cleaning mechanism for textile production is characterized in that roller rotating shafts (201) are fixedly connected to two ends of the sliver roller (200), and one end of each roller rotating shaft (201) is connected with a second direct drive motor (202).

4. The roving frame with the velvet cleaning mechanism for textile production is characterized in that horn fixing blocks (301) are fixedly connected to two sides of the conducting bar horn (300).

5. The roving frame with the velvet cleaning mechanism for textile production is characterized in that the flyer mechanism (400) comprises a first servo motor (401), a first gear (402), a first transmission belt (403), a sleeve (404), a hollow wing arm (405), a solid wing arm (406) and a presser finger (407), the first gear (402) is rotatably connected above the first servo motor (401), the first transmission belt (403) is rotatably connected to the outer part of the first gear (402), the sleeve (404) is rotatably connected to the other end of the first transmission belt (403), the hollow wing arm (405) and the solid wing arm (406) are fixed to two sides of the lower part of the sleeve (404), and the presser finger (407) is fixedly connected to the inner side of the bottom of the solid wing arm (406).

6. The roving frame with the velvet cleaning mechanism for textile production is characterized in that the winding device (500) comprises a second servo motor (501), a second gear (502), a second transmission belt (503) and a winding roller (504), the second gear (502) is rotatably connected above the second servo motor (501), the second transmission belt (503) is rotatably connected to the outside of the second gear (502), and the winding roller (504) is rotatably connected to the other end of the second transmission belt (503).

7. The roving frame with the fluff cleaning mechanism for textile production according to claim 1, wherein a first fixed block (601) is fixed at the top of the roving frame main body (600), a first rotating hole (602) is formed in the inner side of the upper part of the roving frame main body (600), a second fixed block (603) is fixed in the middle of the roving frame main body (600), a through hole (604) is formed in the middle of the second fixed block (603), a fixed base (605) is fixed at the bottom of the roving frame main body (600), and a second rotating hole (606) is formed in the fixed base (605).

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