CN114507979A

CN114507979A - Woven jean weaving system

Info

Publication number: CN114507979A
Application number: CN202210153204.3A
Authority: CN
Inventors: 董韦霆
Original assignee: Zhongshan Xingde Textile Pulp Dyeing Co ltd
Current assignee: Zhongshan Xingde Textile Pulp Dyeing Co ltd
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-05-17

Abstract

The invention discloses a woven jean weaving system, which comprises: the weaving machine body is connected with the singeing chamber and used for weaving jean cloth in a shuttle mode, the singeing chamber is used for receiving the jean cloth from the weaving machine body and conducting singeing treatment on the jean cloth, the shuttle-woven jean cloth weaving system further comprises the dust collection device which is connected with the singeing chamber, and the dust collection device is used for removing tiny carbon dust on the surface of the jean cloth singed by the singeing chamber. According to the woven denim fabric system, the tiny carbon ash generated in the singeing step of the denim fabric post-treatment process can be timely treated, and the tiny carbon ash generated in the singeing process is difficult to pollute a workshop; the micro carbon ash can not be mixed into water in the sizing, desizing and washing processes in the fabric post-treatment step, the air sanitation quality of a workshop is improved, the pressure of sewage treatment after the fabric sizing, desizing and washing processes is reduced, and therefore the production cost of the jean fabric is indirectly reduced.

Description

Woven jean weaving system

Technical Field

The invention relates to the technical field of weaving, in particular to a woven jean weaving system.

Background

Jeans wear has long been in the international clothing market due to its unique charm of wear resistance, stiffness and comfort. The post-finishing process of the jean is a key process for making the jean have a unique style. With the progress of the process technology and the development of novel additives, the post-finishing processing of the denim has been greatly developed on the basis of the traditional process, the traditional rinsing and stone grinding are developed into cellulase stone grinding finishing, biological polishing finishing and pure cotton non-ironing finishing, various functional finishing is carried out on the denim, the denim is endowed with the functions of water repellency, flame retardance, ultraviolet resistance, health and the like, the quality and grade of the denim are changed to multifunctional type, and the denim has high added value and economic benefit.

Currently, a woven denim loom is a common tool for denim after-finishing processing. Looms, also called looms, the early looms were manually driven, the technology of shuttleless looms was studied since the 19 th century, gradually pushed to the international market since the 50 th century, since the 70 th century, many novel shuttleless looms were continuously put into the market, shuttleless looms had significant effects on improving fabrics and improving loom efficiency, were widely used in countries throughout the world, and accelerated the process of weaving equipment modification, the occupancy of shuttleless looms in many developed countries has reached around 80%, and a major trend to replace shuttleless looms with shuttleless looms has emerged. The first process of weaving the jean cloth in the last process is singeing, wherein large hair blocks are brushed away by a brush, and small hair blocks or hairiness wound on the surface of the yarn are directly burnt away by fire.

However, because the woven denim is rich in fibers, when the woven denim is sent into a singeing chamber for singeing after being woven by a traditional woven denim loom, tiny carbon ash generated after the fibers are burnt can always adhere to the surface of the woven denim, part of the tiny carbon ash adhering to the surface of the woven denim can be scattered in a workshop along with the flowing of air during operation, the air quality of the workshop is influenced, and the other part of the tiny carbon ash can enter sewage during desizing and washing, so that the sewage treatment pressure is increased.

Disclosure of Invention

Based on the above, there is a need to provide a woven denim fabric system, which can reduce the pollution of the workshop caused by the tiny carbon ash generated in the singeing process and reduce the pressure of sewage treatment.

A woven jean weaving system comprises a weaving machine body, a singeing chamber and a dust suction device, wherein the weaving machine body is connected with the singeing chamber and is used for weaving jean cloth, the singeing chamber is used for receiving the jean cloth from the weaving machine body and conducting singeing treatment on the jean cloth, the dust suction device is connected with the singeing chamber and is used for removing tiny carbon ash on the surface of the jean cloth singed by the singeing chamber; the dust collection device comprises a brushing mechanism and a dust removal mechanism, the brushing mechanism is arranged at an outlet of the singeing chamber, and the dust removal mechanism is connected with the brushing mechanism; the brush hair mechanism comprises a brush hair frame, a brush hair motor and a brush hair stick, the brush hair frame is connected with the singeing chamber, the brush hair motor is fixedly arranged on the brush hair frame, the brush hair stick is arranged on the brush hair frame and is rotationally connected with the brush hair frame, the brush hair motor is in driving connection with the brush hair stick, the brush hair stick stretches across the position of a cloth outlet of the singeing chamber to contact the singed jean, the brush hair motor is used for driving the brush hair stick to rotate, and the brush hair stick is used for rolling and brushing the surface of the jean in the rotating process; dust removal mechanism includes dust absorption frame, the wide mouth of dust absorption and pipe joint, the dust absorption frame with the room of singeing is connected, the dust absorption frame is close to the bristle frame sets up, the wide mouth installation of dust absorption is fixed on the dust absorption frame, the wide mouth of dust absorption have the dust absorption room and with the dust absorption opening of dust absorption room intercommunication, dust absorption open-ended width is greater than the width of brush hair rod, pipe joint installs on the wide mouth of dust absorption and with the dust absorption room intercommunication, pipe joint be used for external dust exhausting fan with to the convulsions of dust absorption room, the wide mouth of dust absorption is used for strideing in jean cloth top, and absorb the carbonization micronic dust on the jean cloth surface under the effect of the external dust exhausting fan of pipe joint.

In one embodiment, the brush mechanism further comprises a brush supporting sliding plate, the brush supporting sliding plate is fixedly arranged on the brush frame and corresponds to the brush stick, and a brush gap is formed between the brush supporting sliding plate and the brush stick and used for allowing denim fabric to penetrate through.

In one embodiment, the brush supporting sliding plate is of a cuboid plate-shaped structure.

In one embodiment, the side of the brush holding sled facing the bristle bars is roughened to a roughened surface.

In one embodiment, the dust removing mechanism further comprises a vibration motor and a vibration plate, the vibration motor is fixedly installed on the dust collection frame, two ends of the vibration plate are slidably connected with the dust collection frame, an output end of the vibration motor is connected with the bottom of the vibration plate, and the vibration motor is used for driving the vibration plate to reciprocate in the vertical direction.

In one embodiment, the vibration plate corresponds to the wide dust suction nozzle.

In one embodiment, a vibration gap is arranged between the vibration plate and the wide dust suction nozzle.

In one embodiment, the shock gap corresponds to the brush gap.

In one embodiment, a plurality of beating protrusions are arranged on one surface of the vibration plate facing the wide dust suction nozzle.

In one embodiment, a plurality of the beating protrusions are distributed on the surface of the vibration plate in a matrix.

The woven jean weaving system drives the brush rod to rotate when the brush motor works, the brush rod is arranged at the position of a cloth outlet of the singeing chamber and contacts the singed jean, the brush rod rotates to brush carbonized dust on the surface of the jean, the dust absorption wide mouth stretches across the upper part of the jean, and the dust absorption wide mouth absorbs the carbonized dust on the surface of the jean through the dust absorption opening under the action of the dust removal fan externally connected with the pipeline joint, so that residual tiny carbon dust after the jean is singed is removed. Because the brushing mechanism and the dust removal mechanism are arranged at the outlet of the singeing chamber, the micro carbon ash generated in the singeing step of the denim fabric post-treatment process can be timely treated, and the micro carbon ash generated in the singeing process can hardly pollute a workshop; meanwhile, after the micro carbon ash on the surface of the denim fabric is treated completely, the micro carbon ash cannot be mixed into water in sizing, desizing and washing processes in the fabric post-treatment step, so that the problem that the micro carbon ash generated in the singeing process pollutes a workshop is solved, the air sanitation quality of the workshop is improved, the pressure of sewage treatment after fabric sizing, desizing and washing is relieved, and the production cost of the denim fabric is indirectly reduced.

Drawings

FIG. 1 is a schematic diagram of a woven denim fabric system in one embodiment;

FIG. 2 is a schematic view of another perspective of the woven denim fabric system of the embodiment of FIG. 1;

FIG. 3 is a schematic view of another embodiment of a woven denim fabric system;

FIG. 4 is a schematic view of another embodiment of a woven denim fabric system;

FIG. 5 is a schematic view of another embodiment of a woven denim fabric system;

FIG. 6 is a schematic perspective view of a flying waste removing apparatus according to an embodiment;

FIG. 7 is a partial schematic structural view of the mounting assembly of the embodiment of FIG. 6;

FIG. 8 is a schematic view, partially in section, of the purge assembly of the embodiment of FIG. 6;

FIG. 9 is a schematic view of another embodiment of a woven denim fabric system;

FIG. 10 is a schematic view of a portion of the woven denim fabric system of the embodiment shown in FIG. 9;

FIG. 11 is a schematic view of a portion of the woven denim fabric system of the embodiment shown in FIG. 9;

fig. 12 is a partial schematic view of the woven denim fabric system of the embodiment of fig. 9.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1 and 2, the present invention provides a woven denim fabric system 30, the woven denim fabric system 30 includes a loom body 300, a singeing chamber 400 and a dust suction device 500, the loom body 300 is connected to the singeing chamber 400, the dust suction device 500 is connected to the singeing chamber 400, the loom body 300 is used for weaving denim fabric, the singeing chamber 400 is used for receiving and singeing denim fabric from the loom body 300, and the dust suction device 500 is used for removing tiny carbon ash on the surface of the denim fabric singed by the singeing chamber 400. The dust collector 500 comprises a brushing mechanism 510 and a dust removing mechanism 520, wherein the brushing mechanism 510 is arranged at the outlet of the singeing chamber 400, and the dust removing mechanism 520 is connected with the brushing mechanism 510. The brushing mechanism 510 comprises a brushing frame 511, a brushing motor 512 and a brushing rod 513, wherein the brushing frame 511 is connected with the singeing chamber 400, the brushing motor 512 is fixedly arranged on the brushing frame 511, the brushing rod 513 is arranged on the brushing frame 511 and is rotationally connected with the brushing frame 511, the brushing motor 512 is drivingly connected with the brushing rod 513, the brushing rod 513 crosses over the cloth outlet 410 of the singeing chamber 400 to contact the singed jean, the brushing motor 512 is used for driving the brushing rod 513 to rotate, and the brushing rod 513 is used for rolling and brushing the surface of the jean in the rotating process. The dust removing mechanism 520 comprises a dust collecting frame 521, a wide dust collecting nozzle 522 and a pipeline connector 523, the dust collecting frame 521 is connected with the singeing chamber 400, the dust collecting frame 521 is arranged close to the bristle holder 511, the wide dust collecting nozzle 522 is fixedly arranged on the dust collecting frame 521, the wide dust collecting nozzle 522 is provided with a dust collecting chamber 523 and a dust collecting opening 524 communicated with the dust collecting chamber 523, the width of the dust collecting opening 524 is larger than that of the bristle stick 513, the pipeline connector 523 is arranged on the wide dust collecting nozzle 522 and communicated with the dust collecting chamber 523, the pipeline connector 523 is externally connected with a dust removing fan to suck air to the dust collecting chamber 523, the wide dust collecting nozzle 522 is used for crossing over the denim fabric, and the wide dust collecting nozzle 522 is used for generating strong suction under the action of the external dust removing fan of the pipeline connector 523 to suck away or suck carbonized micro dust on the surface of the denim fabric.

In the woven denim fabric system 30, the brush motor 512 drives the brush roller 513 to rotate when in operation, the brush roller 513 is arranged at the position of the fabric outlet of the singeing chamber 400 and contacts the singed denim fabric, at this time, the brush roller 513 rotates to brush carbonized dust on the surface of the denim fabric, the dust collection wide nozzle 522 is used for stretching over the denim fabric, and under the action of the dust removal fan externally connected with the pipeline connector 523, the dust collection wide nozzle 522 collects the carbonized dust on the surface of the denim fabric through the dust collection opening 524, so that the residual tiny carbon dust after the denim fabric is singed is removed. Because the brushing mechanism 510 and the dust removal mechanism 520 are arranged at the outlet of the singeing chamber 400, the micro carbon ash generated in the singeing step of the denim fabric post-treatment process can be timely treated, and the micro carbon ash generated in the singeing process can hardly pollute a workshop; after the micro carbon ash on the surface of the denim fabric is completely treated, the micro carbon ash cannot be mixed into water in the sizing, desizing and washing processes in the post-treatment step of the fabric, the problem that the workshop is polluted by the micro carbon ash generated in the singeing process is solved, the air sanitation quality of the workshop is improved, the pressure of sewage treatment after the fabric is sized, desized and washed is reduced, and therefore the production cost of the denim fabric is indirectly reduced.

In the invention, the loom body is a mechanical device for weaving jean cloth, also called a jean shuttle loom or a loom, and integrates the basic functions in the shuttle loom. The same is true for the singeing chamber, the singeing chamber singes the jeans produced by the loom body, the specific structure and principle can refer to the prior art for a process of post-finishing processing of the jeans.

The invention is characterized in that the singeing device and the loom are arranged in the same system to form a shuttle jean weaving system, the jean shuttle loom is generally 450 yards per day, the singeing machine processing speed is generally 75 m/min, in order to solve the speed difference problem, the shuttle jean weaving system also comprises a buffer chamber, the buffer chamber is arranged between the loom body and the singeing chamber, and the buffer chamber, the loom body and the singeing chamber are connected through a conveyor belt, so that the problem of the production processing speed difference between the loom body and the singeing chamber can be solved by arranging the buffer chamber, and the production rate of the jean shuttle loom is adapted. Optionally, to further solve the speed difference problem, the conveyor belt in the buffer chamber is designed in a multi-section S shape, and the conveying speed of the conveyor belt in the buffer chamber is adapted to the speed difference between the loom body and the singeing chamber. It can be understood that through the setting of surge chamber, can make the gray cloth that the loom body knitted get into the surge chamber and do the short time and stay, and can also repair the cloth operation to the gray cloth that weaves in this surge chamber to further improve the gray cloth and carry out the singeing efficiency of singeing the room.

In the actual production process, in the whole woven denim weaving system, a plurality of loom bodies are provided, and the plurality of loom bodies are respectively connected with the singeing chamber through the buffer chamber, that is, the plurality of loom bodies can simultaneously work to produce cloth, and respectively send the cloth into the buffer chamber through the conveyor belt and then are conveyed into the singeing chamber through the buffer chamber. In one embodiment, about 20 loom bodies are matched with 1 singeing chamber, that is to say, 20 loom bodies can work simultaneously to produce cloth, and send the cloth into the buffer chamber through the conveyer belt respectively, and then carry 1 singeing chamber by the buffer chamber in, so that the cloth that 20 loom bodies produced can 1 singeing chamber of adaptation, so that whole production process efficiency is steady, and on the basis that does not influence production efficiency, the technical problem that the workshop is polluted by the small charcoal ash that the singeing process produced has been reduced.

As shown in fig. 1 and fig. 3, in order to make the brush roller 513 better contact the jean fabric, in an embodiment, the brush mechanism 510 further includes a brush supporting sliding plate 514, the brush supporting sliding plate 514 is fixed on the brush holder 511, the brush supporting sliding plate 514 corresponds to the brush roller 513, a brush gap 515 is formed between the brush supporting sliding plate 514 and the brush roller 513, and the brush gap 515 is used for penetrating the jean fabric 31. That is, the denim fabric 31 passes through the brush gap 515 after coming out of the fabric outlet 410 of the singeing chamber 400. The jean cloth 31 contacts with the brush supporting sliding plate 514 and the brush roller 513 respectively in the process of passing through the brush gap 515, the brush supporting sliding plate 514 plays a role of supporting the jean cloth 31, and the brush roller 513 rotates on the surface of the jean cloth 31 to brush carbonized dust on the cloth. It can be understood that the rotational speed of the brush stick 513 is greater than the moving speed of the jean cloth 31 in the process. The brush stick 513 may be a cylindrical object with a brush on the surface, and the brush may be made of soft metal or plastic. Optionally, the brush support skid 514 is a rectangular parallelepiped plate structure. Thus, the brush support sliding plate 514 has a larger area on the side facing the bristle stick 513, which can better support the denim material 31. Optionally, the side of the brush support sled 514 facing the bristle bar 513 is roughened. Therefore, the rough surface can be matched with the brush stick 513 to brush the surface of the jean cloth 31 better, so that carbonized micro dust on the surface of the jean cloth is easier to brush loose.

As shown in fig. 1 and 4, the dust removing mechanism 520 further includes a vibration motor 525 and a vibration plate 526, the vibration motor 525 is mounted and fixed on the dust collecting frame 521, two ends of the vibration plate 526 are slidably connected with the dust collecting frame 521, an output end of the vibration motor 525 is connected with a bottom of the vibration plate 526, the vibration motor 525 is used for driving the vibration plate 526 to reciprocate in a vertical direction, and a distance of the reciprocating motion is small, so that a vibration situation is formed. The vibration plate 526 corresponds to the wide dust suction nozzle 522, a vibration gap 527 is formed between the vibration plate 526 and the wide dust suction nozzle 522, and the vibration gap 527 corresponds to the brush gap 515, so that the denim fabric 31 passes through the vibration gap 527 after coming out of the brush gap 515. The jean fabric 31 contacts the vibration plate 526 and the dust collection wide nozzle 522 in the vibration gap 527, the vibration plate 526 continuously vibrates and beats the jean fabric 31 to beat carbonized micro-dust on the surface of the jean fabric 31 from the surface of the jean fabric 31, and the dust collection wide nozzle 522 generates strong suction force to suck away or absorb the carbonized micro-dust on the surface of the jean fabric under the action of the dust collection fan externally connected with the pipeline connector 523, so that the dust collection efficiency of the dust collection wide nozzle 522 is improved under the cooperation effect of the vibration motor 525 and the vibration plate 526. Optionally, a plurality of beating protrusions 528 are arranged on the side of the vibration plate 526 facing the wide dust suction nozzle 522, and the plurality of beating protrusions 528 are distributed on the surface of the vibration plate 526 in a matrix manner. The beating protrusions 528 beat the jean cloth 31 with the reciprocating motion of the vibrating plate 526, so that the jean cloth 31 can be better beaten, and carbonized dust on the surface of the jean cloth 31 is beaten off the surface of the jean cloth 31.

In order to improve the quality of the jean fabric, in an embodiment, the woven jean weaving system 30 further includes a fly-away device 10, and the fly-away device 10 is installed and fixed at a cloth opening of the loom body 300, that is, at a warp and weft yarn interweaving position, so as to solve the problem that during high-speed weaving of the loom body, the warp yarn is subjected to continuous friction, fibers scraped from the surface are accumulated on the yarn, in front of a frame, at reed teeth, and the like to form fly, and when the loom body travels to the cloth opening (i.e., at the warp and weft yarn interweaving position), the woven fabric is woven into the cloth to cause a secondary point of fly weaving.

Specifically, referring to fig. 5, 6, 7 and 8, the flying waste removing device 10 includes a mounting assembly 100 and a purging assembly 200, the mounting assembly 100 is connected to the purging assembly 200, the mounting assembly 100 includes two square columns 110, two limiting grooves 120, two threaded rods 130, two threaded sleeves 140, two clamping plates 150, two fixing plates 160, two quincuncial knobs 170, two mounting through holes 180 and two screws 190, the limiting grooves 120 are disposed inside the square columns 110, the threaded rods 130 are rotatably connected inside the limiting grooves 120, the threaded sleeves 140 are threadedly connected to the outer surfaces of the threaded rods 130, the inner ends of the clamping plates 150 are connected to the outer ends of the threaded sleeves 140, the outer side walls of the threaded sleeves 140 are in contact with the inner side walls of the limiting grooves 120, and the inner ends of the fixing plates 160 are fixedly connected to the inner lower ends of the square columns 110. The clamping plate 150 and the fixing plate 160 have a clamping space 156 therebetween. The blowing assembly 200 comprises an electric guide rail 210, a connecting block 220, a blowing head 230 and air conveying pipes 240, wherein the inner side end of the connecting block 220 is connected with the outer side end of the electric guide rail 210, the blowing head 230 is arranged at the lower end of the connecting block 220, the output ends of the air conveying pipes 240 are arranged in an inner through hole of the connecting block 220, and the input ends of the air conveying pipes 240 are communicated with an external air compressor.

Above-mentioned shuttle cowboy system of weaving with remove flying flower device 10, start the function through electronic guide rail 210 and drive connecting block 220 and blowhead 230, in step ground reciprocating motion between two square columns 110, blowhead 230 blows out compressed gas at the removal in-process, thereby can effectually sweep the flying flower between the warp, reach the purpose of getting rid of the flying flower between the warp, the secondary point that flies appears in avoiding weaving the cloth, promote the quality and the aesthetic property of the material of weaving, can conveniently and fast accomplish this through the installation component simultaneously and remove the installation and the dismantlement of flying flower device at the loom body, make this use flexibility of removing flying flower device stronger, the range of application is wider.

When the device needs to be installed, firstly, the top end of the fixing plate 160 of one of the square columns 110 is connected with the lower end of the outer side of the loom body 300, so that the inner side wall of the square column 110 is contacted with the outer side wall of the loom body 300, at the moment, the quincuncial knob 170 is rotated to drive the threaded rod 130 to rotate in the limiting groove 120, the threaded rod 130 drives the external threaded sleeve 140 which is in threaded connection with the threaded rod 130 to move in the rotating process, so that the threaded sleeve 140 moves from the inner top end of the limiting groove 120 to the inner bottom end of the limiting groove 120, the threaded sleeve 140 synchronously drives the external clamping plate 150 which is fixedly connected with the threaded sleeve 140 to synchronously move in the moving process, and the clamping plate 150 is contacted with the upper end of the outer side of the loom body 300 in the moving process, the outer side of the loom body 300 is clamped in the clamping space 156 by the mutual force of the fixing plate 160 and the clamping plate 150, thereby achieving the installation of one of the square columns 110. Then, one end of the motor rail 210 is inserted through the mounting through-hole 180, so that one end of the motor rail 210 is supported. Then, the other end of the electric guide rail 210 penetrates through the mounting through hole 180 of the other square column 110, so that the two ends of the electric guide rail 210 are supported. Then another square pole 110 is installed on the other side of the loom body 300 in the same manner while ensuring that the two square poles 110 are at the same horizontal position in the lateral direction. Then, the screw 190 is rotated to bring the lower end of the screw 190 into contact with the top end of the motor rail 210, thereby fixing the motor rail 210. The installation of the fly ash removing device is completed in the mode. When the flying waste removing device is disassembled, the screws 190 at the corresponding positions can be loosened to remove the fixation of the electric guide rail 210, then the quincuncial knobs 170 at the corresponding positions are rotated to enable the clamping plates 150 to be far away from the fixing plate 160, and then the square columns 110 are taken down from the loom body 300, so that the disassembling of the flying waste removing device is completed, and the purpose of convenient disassembling of the flying waste removing device is achieved.

The input end of the air pipe 240 is communicated with an external air compressor, the air compressor continuously conveys compressed air into the air pipe 240 when in operation, then the compressed air in the air pipe 240 is conveyed into the blowhead 230 and then discharged through the output end of the blowhead 230, the tail end of the blowhead 230 faces the surface of the warp yarn at the position in front of the heald frame after passing through the dropper or in front of the cloth opening after the dent, then the electric guide rail 210 is started, when the electric guide rail 210 operates, the connecting block 220 and the blowing head 230 connected with the connecting block 220 are driven to synchronously reciprocate between the two square columns 110, the blowing head 230 blows compressed air in the moving process, the compressed air takes away the fly on the surface of the warp yarn, therefore, the fly waste among the warp yarns can be effectively swept, and the aim of removing the fly waste formed by the fiber scraped on the surface due to the continuous friction of the warp yarns in the process when the warp yarns are woven by a shuttle loom at a high speed is fulfilled.

The output end of the air pipe 240 is connected with the input end of the blowing head 230, so that the compressed air output by the air pipe 240 can be discharged from the output end of the blowing head 230, and the flying among the warps can be removed by the discharged compressed air. The input end of the air pipe 240 is connected with the output end of the air compressor, so that the air pipe 240 can continuously convey compressed air.

In an embodiment, one end of the threaded rod 130 is rotatably connected to the inner top wall of the limiting groove 120, and the other end of the threaded rod 130 penetrates through the lower end of the square column 110, extends to the outside of the square column 110, and is connected to the top end of the plum blossom knob 170, so that it can be ensured that the rotating plum blossom knob 170 can drive the threaded rod 130 to rotate inside the limiting groove 120.

In order to raise the position of the electric guide rail 210 and the warp yarn, so that the blowhead 230 has a flexible adjustment space, in one embodiment, the mounting through-hole 180 is disposed at the top end of the square column 110. Thus, when the square column 110 is installed on the loom body 300, a larger distance exists between the electric guide rail 210 and the warp yarns on the loom body 300, the blowhead 230 is installed on the electric guide rail 210, and a larger distance also exists between the blowhead 230 and the warp yarns on the loom body 300 correspondingly, so that the blowhead 230 has a more flexible adjustment space, and the blowing direction of the blowhead 230 can be adjusted in time as required in the using process.

In one embodiment, the square pillar 110 and the limiting groove 120 are integrally formed, that is, the square pillar 110 is a hollow square pillar with one side open, and the limiting groove 120 is formed on one open side. In one embodiment, the limiting groove 120 is made of a hard plastic material, and the square column 110 is made of a metal material. The limiting groove 120 is nested in the square column 110. Thus, since the square pillar 110 provides a supporting function, a larger thickness is required, and more metal materials are required to increase the thickness, in the present embodiment, the limiting groove 120 is made of a hard plastic material, and the thickness can be borne by the limiting groove 120, so that the metal materials of the square pillar 110 can be saved, and the manufacturing cost can be further reduced.

In order to fix the motor-driven rail 210 to the square column 110, the lower end of the screw 190 is threadedly coupled to the top end through hole of the square column 110. In this way, after the end of the electric rail 210 passes through the mounting through hole 180, the screw 190 is screwed, so that the end of the portion of the lower end of the screw 190 located in the mounting through hole 180 abuts against the end of the electric rail 210, and the electric rail 210 is subjected to the pressing force of the screw 190, so that the friction force with the frame of the mounting through hole 180 of the square column 110 is increased, and the electric rail 210 is fixed on the square column 110, so that the electric rail 210 is kept relatively stable during operation.

Further, both ends of the motor rail 210 are slidably coupled inside the mounting through-holes 180, respectively. That is, when the screw 190 is not in contact with the electric rail 210, the electric rail 210 and the mounting through hole 180 are in a sliding connection state, so that the electric rail 210 can be adjusted to slide into the mounting through hole 180, and the action area of the electric rail 210 can be adjusted according to the width of the cloth according to actual needs.

The lower end of the screw 190 is in contact with the top end of the electric rail 210, and the lower end of the screw 190 is in contact with the top end of the electric rail 210, so that the effect of fixing the electric rail 210 is achieved.

Blowhead 230 is also referred to as a nozzle, and blowhead 230 is movable between the two square posts 110. The blowhead 230 sets the moving speed between the two square columns 110 according to the flying number generated by different cloth types and yarn types, sets the number of times of cleaning back and forth left and right at regular time, and cleans the blowhead 230 once by reciprocating left and right. In one embodiment, blowhead 230 is moved back and forth at a speed of 6 meters/minute.

In one embodiment, the electric guide rail comprises a shell, a screw rod and a motor, a track is formed on the surface of the shell in a concave mode, the screw rod and the motor are arranged inside the shell, the screw rod is connected with the motor in a driving mode, a connecting block is sleeved on the shell and is connected with the shell in a sliding mode, the connecting block is further connected with the screw rod in a rotating mode, therefore, the screw rod is driven to rotate when the motor works, and the screw rod rotates to drive the connecting block to move along the extending direction of the track. And the motor is arranged to rotate, if the motor rotates anticlockwise or clockwise, the screw rod can rotate to drive the connecting block to do reciprocating motion along the extending direction of the track.

In the present embodiment, the fly waste removing device is attached to the loom body. Specifically, the fly waste removing device is mounted at a position in front of a heald frame or a position in front of a cloth opening behind a dent on a loom body. The woven jean system of weaving that has this remove flying flower device, start the gas blow head that the function drove connecting block and outside through electronic guide rail, reciprocating motion between two square columns in step, the gas blow head blows out compressed gas at the removal in-process, thereby can effectually sweep the flying flower between the warp, reach the purpose of getting rid of flying flower between the warp, the number of times of flying flower appears in avoiding weaving the cloth, promote the quality and the aesthetic property of the material of weaving, can conveniently and fast accomplish this through the installation component simultaneously and remove the installation and the dismantlement of flying flower device at the loom body, make this remove flying flower device's use flexibility stronger, the range of application is wider.

In one embodiment, the woven denim fabric system performs the fly removal operation according to the following fly removal method:

step 01: two sets of the flying-off removing devices in the embodiments are arranged on the loom body in a front-back side-by-side mode at the cloth inlet of the loom body and across warp yarns;

step 02: the air delivery pipes of the two sets of flying-flower removing devices are connected with an external air compressor;

step 03: when the loom body works, the electric guide rail and the air compressor are synchronously started;

step 04: according to the distance between the two sets of fly ash removing devices and the cloth inlet of the loom body, calibrating the fly ash device which is close to the cloth inlet of the loom body as a first fly ash removing device, and calibrating the fly ash device which is far away from the cloth inlet of the loom body as a second fly ash removing device;

step 05: setting the moving speed of an electric guide rail of the first flying waste removing device to be 6 m/min, and setting the moving speed of an electric guide rail of the second flying waste removing device to be 6 m/min; wherein, the blowing head reciprocates left and right once on the electric guide rail for cleaning once;

step 06: controlling the input air pressure input into the air pipe of the first fly waste removing device and the input air pressure input into the air pipe of the second fly waste removing device, so that the flow rate of the blowing head of the first fly waste removing device is greater than that of the blowing head of the second fly waste removing device;

step 07: setting two sets of flying-flower removing devices to clean once at intervals of 10-30 min.

According to the shuttle-woven denim weaving system, through the fly removing method, as the moving speed of the electric guide rails is the same, the moving speed of the electric guide rails is 6 m/min, the two sets of fly removing devices move synchronously, the blowing heads blow air to the position in front of the heald frames on the machine body or the position in front of the cloth opening behind the reed dent simultaneously, and as the flow speed of the blowing head of the first fly removing device is greater than that of the blowing head of the second fly removing device, the air flow blown out by the blowing head of the first fly removing device sweeps the fly among the warp yarns, on one hand, the air flow also plays a barrier effect, so that the fly among the warp yarns swept by the blowing head of the second fly removing device is blocked outside, the fly is prevented from entering the machine body, and the fly removing efficiency is improved; meanwhile, the two sets of flying-off removing devices are synchronously cleaned once every 10-30min, so that the operation rule of the woven jean weaving system is adapted, and the flying-off effect is achieved and the energy-saving effect is improved.

step 11: two sets of the flying-off removing devices in the embodiments are arranged on the loom body in a front-back side-by-side mode at the cloth inlet of the loom body and across warp yarns;

step 12: the air delivery pipes of the two sets of flying-flower removing devices are connected with an external air compressor;

step 13: when the loom body works, the electric guide rail and the air compressor are synchronously started;

step 14: according to the distance between the two sets of the fly-removing devices and the cloth inlet of the loom body, the part close to the cloth inlet of the loom body is calibrated as a first fly-removing device, and the part far away from the cloth inlet of the loom body is calibrated as a second fly-removing device;

step 15: arranging a connecting block of a first pass of flying-pattern removing device at the left end of the electric guide rail, and arranging a connecting block of a second pass of flying-pattern removing device at the right end of the electric guide rail, so that a blowing head of the first pass of flying-pattern removing device is far away from a blowing head of the second pass of flying-pattern removing device;

step 16: setting the moving speed of an electric guide rail of the first flying waste removing device to be 6 m/min, and setting the moving speed of an electric guide rail of the second flying waste removing device to be 6 m/min; wherein, the blowing head reciprocates left and right once on the electric guide rail for cleaning once;

and step 17: controlling the input air pressure input into the air pipe of the first fly waste removing device and the input air pressure input into the air pipe of the second fly waste removing device so that the flow rate of the blowing head of the first fly waste removing device is equal to the flow rate of the blowing head of the second fly waste removing device;

step 18: setting the blowing heads of the first flying flower removing device to be obliquely arranged outwards, setting the blowing heads of the second flying flower removing device to be obliquely arranged outwards, wherein the two blowing heads are inclined at 30 degrees in the vertical direction, namely the included angle between the length extending direction of the blowing heads and the vertical direction is 30 degrees;

step 19: setting two sets of flying-flower removing devices to clean once at intervals of 10-30min,

according to the shuttle-woven denim weaving system, by the fly-removing method, as the moving speeds of the electric guide rails are the same, the moving speeds of the electric guide rails are both 6 m/min, the two sets of fly-removing devices move synchronously and are separated from each other after approaching each other, the blowing heads are inclined and blow air to the positions in front of the heald frames on the machine body or the positions in front of the cloth openings behind the reed dent, the air flow blown out by the blowing head of the first fly-removing device and the blowing head of the second fly-removing device sweep the fly among the warp yarns together, so that the fly is prevented from entering the machine body, and the fly-removing efficiency is improved; meanwhile, the two sets of flying-off removing devices are synchronously cleaned once every 10-30min, so that the operation rule of the woven jean weaving system is adapted, and the flying-off effect is achieved and the energy-saving effect is improved.

In one embodiment, two sets of flying-flower removing devices are set to be cleaned synchronously every 10 min; in one embodiment, two sets of flying-flower removing devices are set to be cleaned synchronously every 20 min; in one embodiment, two sets of flying waste removing devices are set to clean once every 30 min. The interval duration of the two sets of fly ash removing devices for synchronously cleaning once can be set according to the weaving condition of the weaving machine body. The moving speed of the electric guide rail can be set according to the weaving condition of the loom body.

To further improve the smoothness of the denim fabric, in one embodiment, the woven denim fabric system further comprises a leveling device, the leveling device comprising: the device comprises a machine tool, a driver, a cloth collecting barrel, a transverse shaft, a collecting barrel, a movable seat, a sliding rail, a unhairing mechanism and a tensioning mechanism; an output shaft of a driver fixedly arranged on the side surface of the machine tool penetrates through the side surface of the machine tool and is fixedly connected with a cloth receiving barrel, a winding barrel is fixedly arranged on the other side of the inner side of the machine tool through a movable seat and a transverse shaft, and the inner sides of sliding rails arranged on the side surface of the machine tool are respectively movably connected with a unhairing mechanism and a tensioning mechanism; the unhairing mechanism comprises a first moving plate, a first clamping plate, a mounting rod, a unhairing rod and a sticky hair paste, wherein the first clamping plate welded to the bottom of the first moving plate is in sliding fit with a sliding rail, and the unhairing rod is movably mounted on the side face of the mounting rod fixedly mounted on the inner side of the first moving plate. The tensioning mechanism comprises a second moving plate, a second clamping plate, an adjusting groove, an adjusting rod, a tensioning rod and a rotating wheel, the second clamping plate at the bottom of the second moving plate is slidably clamped on the inner side of the sliding rail, the side face of the second moving plate is movably connected with the adjusting rod, and the tensioning rod is installed on the side face of the adjusting rod. The side surface of the hair removing stick is embedded with a hair sticking patch. The adjusting rod is movably connected in the adjusting groove, and the top end of the adjusting rod is in threaded connection with the rotating wheel. The number of the hair sticking pieces is two.

In the woven denim weaving system with the leveling device in the embodiment, the unhairing mechanism is arranged on the inner side of the sliding rail arranged on the side surface of the machine tool, the mounting rod is welded on the inner side of the moving plate in the unhairing mechanism, the two groups of unhairing rods are mounted on the side surface of the mounting rod, and the unhairing rods are embedded with the unhairing rods on the side surface and can secondarily remove sundries on the denim fabric, so that the problem of the quality of the denim fabric is further avoided. Adjusting grooves are formed in two sides of a moving plate in the tensioning mechanism, a tensioning roller is mounted on the side face of an adjusting rod movably mounted on the inner side of each adjusting groove, the tensioning roller can tension denim fabric, wrinkles are prevented from occurring in the winding process, the other end of the adjusting rod is connected with a rotating wheel in a threaded mode, the rotating wheel can fix the position of the adjusting rod in the adjusting grooves, and movement is prevented from occurring in the tensioning process.

To further illustrate the woven denim fabric system with the flattening device, please refer to fig. 9-12, in one embodiment, the woven denim fabric system includes a flattening device 20, and the flattening device 20 is disposed adjacent to the dust removing mechanism. Specifically, the leveling device 20 includes a machine tool 2100, a driver 2200, a cloth collecting drum 2300, a transverse shaft 2400, a winding drum 2500, a movable seat 2600, a slide rail 2700, a unhairing mechanism 800 and a tensioning mechanism 900; an output shaft of a driver 2200 fixedly mounted on the side surface of the machine tool 2100 penetrates through the side surface of the machine tool 2100 and is fixedly connected with the cloth cylinder 2300, and the other side of the inner side of the machine tool 2100 is fixedly mounted with a winding cylinder 2500 through a movable seat 2600 and a transverse shaft 2400, and the inner side of a slide 2700 formed on the side surface of the machine tool 2100 is movably connected with the unhairing mechanism 800 and the tensioning mechanism 900 respectively.

The unhairing mechanism 800 comprises a first moving plate 810, a first clamping plate 820, mounting rods 830, unhairing sticks 840, unhairing stickers 850, a first clamping plate 820 welded to the bottom of the first moving plate 810 and a sliding rail 2700 in sliding fit, the unhairing sticks 840 are movably mounted on the side faces of the mounting rods 830 fixedly mounted on the inner side of the first moving plate 810, the unhairing sticks 850 are embedded in the side faces of the unhairing sticks 840, and the number of the unhairing sticks 850 is two.

The installation rod 830 is welded on the inner side of the first movable plate 810 in the unhairing mechanism 800, two groups of unhairing rods 840 are installed on the side faces of the installation rod 830, and the unhairing rod 840 is provided with the hair sticking patch 850 embedded on the side face to remove sundries on the non-woven fabric, so that the quality problem of the non-woven fabric is avoided.

The tensioning mechanism 900 comprises a second moving plate 910, a second clamping plate 920, an adjusting groove 930, an adjusting rod 940, a tensioning stick 950 and a rotating wheel 960, the second clamping plate 920 at the bottom of the second moving plate 910 is slidably clamped inside the sliding rail 2700, the side face of the second moving plate 910 is movably connected with the adjusting rod 940, the tensioning stick 950 is installed on the side face of the adjusting rod 940, the adjusting rod 940 is movably connected in the adjusting groove 930, and the top end of the adjusting rod 940 is in threaded connection with the rotating wheel 960.

An adjusting groove 930 is formed in the side face of the second moving plate 910 in the tensioning mechanism 900, a tensioning roller 950 is mounted on the side face of an adjusting rod 940 movably mounted inside the adjusting groove 930, the tensioning roller 950 can tension the non-woven fabric to avoid wrinkles in the winding process, the other end of the adjusting rod 940 is in threaded connection with a rotating wheel 960, and the rotating wheel 960 can fix the position of the adjusting rod 940 in the adjusting groove 930 to avoid movement in the tensioning process.

The working principle and the using process of the woven jean weaving system with the leveling device in the embodiment are as follows: firstly, the inner sides of sliding rails 2700 formed on the side surfaces of a machine tool 2100 are respectively provided with a unhairing mechanism 800 and a tensioning mechanism 900, the inner side of a first moving plate 810 in the unhairing mechanism 800 is welded with an installation rod 830, the side surfaces of the installation rod 830 are provided with two groups of unhairing sticks 840, sundries on non-woven fabrics can be removed by the unhairing sticks 850 inlaid on the side surfaces of the unhairing sticks 840, and the quality of the non-woven fabrics is prevented from generating problems, the side surfaces of a second moving plate 910 in the tensioning mechanism 900 are provided with an adjusting groove 930, the side surfaces of adjusting rods 940 movably arranged on the inner side of the adjusting groove 930 are provided with tensioning sticks 950, the tensioning sticks 950 can tension the non-woven fabrics, wrinkles are prevented from generating in the winding process, the other ends of the adjusting rods 940 are in threaded connection with a rotating wheel 960, and the rotating wheel 960 can fix the positions of the adjusting rods 940 in the adjusting groove 930 and prevent the moving in the tensioning process.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. A woven denim weaving system comprises a loom body and a singeing chamber, wherein the loom body is connected with the singeing chamber, the loom body is used for weaving denim fabric, the singeing chamber is used for receiving the denim fabric from the loom body and conducting singeing treatment on the denim fabric, and the woven denim weaving system is characterized in that,

the woven denim fabric system further comprises a dust collection device, the dust collection device is connected with the singeing chamber and is used for removing tiny carbon ash on the surface of the denim singed by the singeing chamber;

the dust collection device comprises a brushing mechanism and a dust removal mechanism, the brushing mechanism is arranged at an outlet of the singeing chamber, and the dust removal mechanism is connected with the brushing mechanism;

the brush hair mechanism comprises a brush hair frame, a brush hair motor and a brush hair stick, the brush hair frame is connected with the singeing chamber, the brush hair motor is fixedly arranged on the brush hair frame, the brush hair stick is arranged on the brush hair frame and is rotationally connected with the brush hair frame, the brush hair motor is in driving connection with the brush hair stick, the brush hair stick stretches across the position of a cloth outlet of the singeing chamber to contact the singed jean, the brush hair motor is used for driving the brush hair stick to rotate, and the brush hair stick is used for rolling and brushing the surface of the jean in the rotating process;

dust removal mechanism includes dust absorption frame, the wide mouth of dust absorption and pipe joint, the dust absorption frame with the room of singeing is connected, the dust absorption frame is close to the bristle frame sets up, the wide mouth installation of dust absorption is fixed on the dust absorption frame, the wide mouth of dust absorption have the dust absorption room and with the dust absorption opening of dust absorption room intercommunication, dust absorption open-ended width is greater than the width of brush hair rod, pipe joint installs on the wide mouth of dust absorption and with the dust absorption room intercommunication, pipe joint be used for external dust exhausting fan with to the convulsions of dust absorption room, the wide mouth of dust absorption is used for strideing in jean cloth top, and absorb the carbonization micronic dust on the jean cloth surface under the effect of the external dust exhausting fan of pipe joint.

2. The woven denim fabric system according to claim 1, wherein the brushing mechanism further comprises a brush supporting slide plate, the brush supporting slide plate is fixedly mounted on the brushing frame and corresponds to the brushing sticks, and a brush gap is formed between the brush supporting slide plate and the brushing sticks and used for allowing denim fabric to penetrate through.

3. The woven denim fabric system according to claim 2, wherein said brush support slide is of rectangular parallelepiped plate-like configuration.

4. The woven denim fabric system according to claim 3, wherein a surface of said brush support skid facing said bristle bars is roughened to a roughened surface.

5. The woven denim fabric system according to claim 4, wherein the dust removing mechanism further comprises a vibration motor and a vibration plate, the vibration motor is fixedly mounted on the dust collecting frame, two ends of the vibration plate are slidably connected with the dust collecting frame, an output end of the vibration motor is connected with a bottom of the vibration plate, and the vibration motor is used for driving the vibration plate to reciprocate in a vertical direction.

6. The woven denim fabric system of claim 5, wherein the vibration plate corresponds to the dust suction wide nozzle.

7. The woven denim fabric system of claim 6, wherein a vibration gap is provided between the vibration plate and the wide suction nozzle.

8. The woven denim fabric system of claim 7, wherein the shock gap corresponds to the brush gap.

9. The woven denim fabric system of claim 8, wherein a face of the vibration plate facing the wide suction nozzle is provided with a plurality of beating protrusions.

10. The woven denim fabric system according to claim 9, wherein a plurality of said beating projections are distributed in a matrix on the surface of said vibration plate.