CN114059227B - Textile machine, light woven belt and process method for manufacturing light woven belt - Google Patents

Abstract

The invention discloses a textile machine, a lamp ribbon and a process method for manufacturing the lamp ribbon, wherein the textile machine comprises an emptying frame and a textile main body machine, the emptying frame and the textile main body machine are arranged in front of and behind each other, a first roller for fixing a knitting wire tray, a second roller for fixing the lamp ribbon tray and a third roller for fixing a molding wire tray are sequentially arranged on the emptying frame from top to bottom, the textile main body machine comprises a machine table, a knitting mechanism and a wire passing plate, the knitting mechanism and the wire passing plate are arranged on the machine table, the wire passing plate is positioned between the knitting mechanism and the emptying frame, wire passing holes of knitting wires, lamp ribbons and molding wires are respectively arranged on the wire passing plate, a needle bed and a containing pressing plate are arranged in the knitting mechanism, and the knitting wires, the lamp ribbons and the molding wires are knitted together through the knitting wires by the needle bed to form the lamp ribbon. According to the invention, the braid-knitted band with the lamp beads is knitted in place in one step by only one instrument, the braid-knitted band and the lamp band are knitted together, and other modes are not required for processing and fixing, so that the production efficiency of the lamp braid is greatly improved.

Description

Textile machine, light woven belt and process method for manufacturing light woven belt

Technical Field

The invention relates to the technical field of knitted products, in particular to a textile machine, a light woven belt and a process method for manufacturing the light woven belt.

Background

In addition, in order to enhance the decorative effect at night or indoors, lamp belts, also called as lamp ribbons, are usually disposed on the ornaments, which are usually viewed at night or indoors and have good ornamental value.

However, current weaving machine can't directly weave out these lamp meshbelts, all be earlier preliminary weaving out the knitting, assemble lamp area or make up on weaving the fabric in the later stage again, make processing technology complicated like this, machining efficiency is not high, and because the lamp area is that later stage equipment comes to the weaving belt, the lamp area drops easily, influences the use and the viewing and admiring effect in later stage.

Disclosure of Invention

The invention aims to provide a textile machine, a light woven belt and a process method for manufacturing the light woven belt, so as to solve the technical problems.

The invention provides a textile machine, which comprises a material discharging frame and a textile main body machine, wherein the material discharging frame and the textile main body machine are arranged in front of and behind each other, a first roller for fixing a knitting wire tray, a second roller for fixing a light belt tray and a third roller for fixing a molding wire tray are sequentially arranged on the material discharging frame from top to bottom, the textile main body machine comprises a machine table, a knitting mechanism and a line passing plate, the knitting mechanism and the line passing plate are arranged on the machine table, the line passing plate is positioned between the knitting mechanism and the material discharging frame, line passing holes for knitting wires, light belts and molding wires are respectively arranged on the line passing plate, a needle bed and a containing pressing plate are arranged in the knitting mechanism, and the knitting wires, the light belts and the molding wires are knitted together through the knitting wires by the needle bed to form a light braid.

Furthermore, the main textile machine further comprises a first support plate and a lamp sleeve, the first support plate is fixed on the machine table and located between the wire passing plate and the material placing frame, the wire passing hole of the lamp strip on the wire passing plate is a first through hole, a second through hole is formed in the first support plate, one end of the lamp sleeve is installed on the wire passing plate, the other end of the lamp sleeve is installed on the first support plate, a correcting groove for preventing the lamp strip from rotating when penetrating is arranged in the lamp sleeve in a penetrating mode in the length direction of the lamp sleeve, the correcting groove is matched with the outer contour of the lamp strip, one end of the correcting groove is communicated with the first through hole, and the other end of the correcting groove is communicated with the second through hole.

Furthermore, a guide hopper is further arranged on one side, opposite to the lamp sleeve, of the first support plate, a feeding hole penetrates through the guide hopper, the feeding hole is communicated with the second through hole, and the inner diameter of the feeding hole gradually increases from one end close to the first support plate to one end far away from the first support plate.

Further, the cross sections of the lamp strip and the correction groove are both T-shaped or rectangular; the moulding line has flexibility and can keep the shape after being bent, and the moulding line is an iron line.

Furthermore, the lamp sleeve comprises a first rubber shell and a second rubber shell connected with the first rubber shell, wherein a first groove is formed in the first rubber shell, a second groove is formed in the second rubber shell, the first groove is connected with the second groove to form the correction groove, and the first rubber shell is made of transparent materials.

The spinning main body machine further comprises a threading pipe, a photoelectric sensor, a controller, a power supply, a second support plate and a plurality of groups of magnetic adsorption pieces fixed on the outer side wall of the threading pipe at intervals, wherein a thread passing hole of a braided thread on the thread passing plate is a third through hole, a thread passing hole of a modeling thread on the thread passing plate is a fourth through hole, the second support plate is arranged between the thread passing plate and the discharging frame, a fifth through hole penetrates through the second support plate, the threading pipe is a hose, one end of the threading pipe is arranged on the thread passing plate and communicated with the fourth through hole, the other end of the threading pipe is arranged on the second support plate and communicated with the fifth through hole, the magnetic adsorption pieces are two electromagnetic pieces, the two electromagnetic pieces are oppositely arranged on two sides of the threading pipe, the photoelectric sensor is arranged in the fourth through hole, the power supply is electrically connected with the electromagnetic pieces, and the photoelectric sensor and the power supply are electrically connected with the controller.

Further, the main body of weaving machine still including rotate install in transition pole on the board, the transition pole is including the first body of rod, the second body of rod and the third body of rod that connects gradually, the one end of the first body of rod and the second body of rod all with the board rotates to be connected, the third body of rod detachably with the other end of the first body of rod and the other end of the second body of rod are connected, the first body of rod is gone up the concave first ring channel that is used for injecing the braided wire position that is equipped with, the second body of rod is gone up the concave second ring channel that is used for injecing the molding wire position and is used for injecing the first ring channel of braided wire position, the concave third ring channel that is used for injecing the lamp area position that is equipped with on the third body of rod, first extension board and second extension board all are located the transition pole with between the line board, the third ring channel with the outline phase-match in lamp area.

The invention also provides a lamp mesh belt manufactured by the textile machine, the knitting lines, the lamp belts and the modeling lines are knitted together through the knitting lines to form the lamp mesh belt, the lamp mesh belt comprises the modeling lines, a plurality of knitting lines and at least one lamp belt, the lamp belt penetrates through the middle of the lamp mesh belt, and the modeling lines penetrate through the middle or the side edges of the lamp mesh belt.

The lamp mesh belt further comprises a sub-line and a bus, the sub-line is a modeling line on the side, the modeling line is an iron line, the bus comprises an insulated conducting wire and a plurality of electromagnets connected in series by the insulated conducting wire, and the bus is fixed on the side, where the modeling line is not arranged, of the lamp mesh belt through bonding or weaving.

The invention also provides a process method for manufacturing the light woven tape based on the textile machine, which comprises the following steps:

step a, mounting a material tray of a braided wire on a first roller, mounting a material tray of a modeling wire on a third roller, mounting the material tray of a lamp strip on a second roller and fixing the material tray by using a fixing clamp;

b, respectively passing the knitting yarn, the lamp belt and the modeling yarn through the yarn passing hole in the yarn passing plate and the needle bed and then fixing the knitting yarn, the lamp belt and the modeling yarn on the accommodating pressing plate;

and c, starting the knitting mechanism, and knitting the knitting line, the lamp belt and the modeling line together by the needle bed through the knitting line to form the lamp mesh belt.

The implementation of the invention has the following beneficial effects:

(1) The utility model provides a weaving machine for weaving lamp meshbelt adopts the braider directly to weave and forms the lamp meshbelt, only needs an instrument just one step to put in place to weave out the braid over braid of taking the lamp pearl, and braid over braid and lamp area weave together, need not additionally process fixedly with other modes for the production efficiency of lamp meshbelt improves greatly, and because the lamp area is woven inside the lamp meshbelt, is difficult for droing, and the stability in use is higher.

(2) One end of the lamp sleeve is mounted on the wire passing plate, the other end of the lamp sleeve is mounted on the first support plate, the lamp sleeve is provided with a correction groove which is used for preventing the lamp strip from rotating when penetrating through the lamp strip in a penetrating mode along the length direction of the lamp sleeve, the correction groove is matched with the outer contour of the lamp strip, the lamp strip passes through the correction groove before passing through the wire passing hole, the lamp strip is prevented from being turned and twisted before being woven, the correction groove is matched with the outer contour of the lamp strip, if the cross sections of the correction groove and the lamp strip are both T-shaped or rectangular, the lamp beads of the lamp strip can be guaranteed to be woven in the expected direction, the arrangement is neat, and the weaving attractiveness is high; the internal diameter of feed port increases progressively to the one end of keeping away from first extension board from the one end that is close to first extension board gradually for the direction adjustment in lamp area is progressive, avoids the sudden change of direction, leads to the lamp area jamming to appear, or exogenic action is too big extrudes bad deformation even the lamp pearl and drops.

(3) The molding line is a flexible line, the molding line is provided with a threading pipe and magnetic adsorption pieces fixed on the outer side wall of the threading pipe at intervals, the photoelectric sensor is arranged in the fourth through hole, the photoelectric sensor detects the movement speed and the movement direction of the molding line in the fourth through hole, the molding line is flexible, large tension force is needed for straightening, the straightening force is too large, unhooking and rebounding are easily caused from the containing pressing plate, the machine is greatly damaged after rebounding occurs, the threading is difficult again, more time is needed to be consumed, once the movement speed direction of the molding line is found to be the rebounding direction, signals are immediately transmitted to the controller, the controller controls the magnetic adsorption assembly to be electrified, the rebounding molding line is clamped, rebounding of the molding line is avoided, and the production efficiency is improved.

(4) The lamp meshbelt still includes sub-line and generating line, the sub-line is the molding line of side, the molding line is the iron wire, the generating line includes insulated wire and a plurality of electro-magnets of establishing ties by insulated wire, the generating line is fixed on the side of lamp meshbelt that does not set up the molding line through bonding or weaving, according to the use scene, under the easy destroyed environment of lamp pearl, possess magnetism behind the generating line circular telegram, with the molding line iron wire lock of side, protect the inboard at the lamp meshbelt with the lamp pearl, avoid the lamp pearl to be destroyed, the molding line has the flexibility simultaneously, can also set up different molding as required, and lamp area non-deformable after the molding, stability is high.

Drawings

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

FIG. 1 is a schematic structural view of a textile machine according to an embodiment of the present invention;

FIG. 2 is a schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of a main spinning machine according to an embodiment of the invention;

fig. 4 is a schematic structural diagram of a material placing frame according to an embodiment of the present invention;

FIG. 5 is a schematic partial structure diagram of a main textile machine according to an embodiment of the invention;

FIG. 6 is an enlarged partial schematic view of FIG. 5 at B;

FIG. 7 is a cross-sectional view of a lamp sleeve according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a transition rod according to an embodiment of the present invention;

FIG. 9 is an exploded view of FIG. 8;

FIG. 10 is a schematic structural diagram of a third rod according to an embodiment of the present invention;

FIG. 11 is an exploded view of FIG. 10;

FIG. 12 is a schematic structural diagram of a light strap according to an embodiment of the present invention;

fig. 13 is a partially enlarged schematic view of a portion at C in fig. 12.

Wherein: 10. a material placing frame; 11. a first roller; 12. a first transfer lever; 20. a main spinning machine; 21. a machine platform; 22. a knitting mechanism; 221. a needle bed; 222. a receiving platen; 23. a wire passing plate; 231. a first through hole; 232. a third through hole; 233. a fourth via hole; 24. a first support plate; 25. a lamp bushing; 251. a correction groove; 252. a first rubber shell; 253. a second rubber shell; 254. an observation window; 26. a guide hopper; 261. a feed port; 27. a threading tube; 28. a controller; 29. a second support plate; 291. a fifth through hole; 30. a magnetic force adsorption member; 31. an electromagnetic member; 32. a transition rod; 321. a first rod body; 3211. a first annular groove; 322. a second rod body; 3221. a second annular groove; 323. a third rod body; 3231. a third annular groove; 3232. a first support bar; 3233. an accommodating chamber; 3234. a second support bar; 3235. a clamping block; 3236. a spring; 34. a middle rotating wheel; 35. a tensioning sheet; 351. perforating; 40. a light mesh belt; 41. weaving wires; 42. a light strip; 421. a light wire; 422. a lamp bead; 43. a modeling line; 44. a bus bar; 50. a material tray; 60. and (7) a cover plate.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" 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," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 6 and 12 to 13, the invention discloses a textile machine, which includes a material placing frame 10 and a textile main body machine 20, wherein the material placing frame 10 and the textile main body machine 20 are arranged on the ground in front of and behind, and may be spaced apart from each other, a first roller 11, a second roller and a third roller are sequentially arranged on the material placing frame 10 from top to bottom, the first roller 11 is used for fixing a material tray 50 of a knitting wire 41, the second roller is used for fixing a material tray 50 of a light belt 42, the third roller is used for fixing a material tray 50 of a molding wire 43, the first roller 11, the second roller and the third roller are rotatably connected on the material placing frame 10, and the first roller 11, the second roller and the third roller may also be driven by a motor to rotate so as to pay off.

In this embodiment, the braided wire 41, the light strip 42, and the molding wire 43 are respectively fixed on each tray 50 before leaving the factory, then each tray 50 wound with the braided wire 41, the light strip 42, and the molding wire 43 is respectively fixed on the first roller 11, the second roller, and the third roller, the cover plate 60 is provided on the material placing frame 10, and after the cover plate 60 is removed during replacement, the trays 50 on the first roller 11 and the second roller can be respectively replaced, and the tray 50 on the third roller can be directly removed.

The main textile machine 20 includes a machine table 21, a knitting mechanism 22 and a thread passing plate 23, the knitting mechanism 22 and the thread passing plate 23 are disposed on the machine table 21, the thread passing plate 23 is located between the knitting mechanism 22 and the material discharging rack 10, thread passing holes of a knitting thread 41, a light strip 42 and a modeling thread 43 are respectively disposed on the thread passing plate 23, a needle bed 221 is disposed in the knitting mechanism 22, and the knitting thread 41, the light strip 42 and the modeling thread 43 are knitted together through the knitting thread 41 by the needle bed 221 to form the light woven belt 40.

The textile main body machine 20 further comprises a first support plate 24 and a lamp sleeve 25, the first support plate 24 is fixed on the machine table 21 and located between the wire passing plate 23 and the material placing frame 10, a wire passing hole of the lamp strip 42 on the wire passing plate 23 is a first through hole 231, a second through hole is formed in the first support plate 24, one end of the lamp sleeve 25 is installed on the wire passing plate 23, the other end of the lamp sleeve 25 is installed on the first support plate 24, the lamp sleeve 25 penetrates through a correcting groove 251 which prevents the lamp strip 42 from rotating when penetrating through along the length direction of the lamp sleeve 25, the correcting groove 251 is matched with the outer contour of the lamp strip 42, one end of the correcting groove 251 is communicated with the first through hole 231, the other end of the correcting groove 251 is communicated with the second through hole, the first through hole 231 and the second through hole are the same in size as the correcting groove 251, when the lamp strip 42 needs to penetrate through the correcting groove 251, a threading device is taken into consideration, however, the gap between the correcting groove and the lamp strip and the correcting groove 251 is prevented from being twisted before the lamp strip is woven on the textile main body machine 20.

As a preferred embodiment, the first support plate 24 is further provided with a guiding hopper 26 on the side opposite to the lamp sleeve 25, the guiding hopper 26 penetrates through the feed hole 261, the feed hole 261 is communicated with the second through hole, and the inner diameter of the feed hole 261 gradually increases from the end close to the first support plate 24 to the end far away from the first support plate 24, so that the lamp strip 42 can smoothly enter the correcting groove 251, the direction adjustment of the lamp strip 42 is sequential and gradual, and the phenomenon that the lamp strip is blocked due to sudden change of direction or the lamp beads are crushed, deformed or even fall off due to excessive external force is avoided.

Referring further to fig. 7, preferably, the light strip 42 and the calibration groove 251 are both "T" shaped in cross section, and may also be rectangular in cross section; the lamp strip 42 comprises a lamp wire 421 and lamp beads 422 arranged on the lamp wire 421, the cross section of the lamp strip 42 with the lamp beads 422 is also in a T shape or a rectangle, because the distance between two adjacent lamp beads 422 is short, the cross section of the lamp strip 42 can be defaulted to be also in a T shape or a rectangle, and the lamp strip 42 can be made into a T shape or a rectangle as a whole, certainly, the lamp sleeve 25 can be quickly disassembled, the lamp sleeve 25 enables the lamp beads 422 on the lamp wire 421 to pass through at a certain angle, therefore, under the condition of no cooperation of the lamp sleeve 25, a common textile machine has no way to synchronously weave the lamp wire 421 and other materials into a luminous festival ribbon bow, the cross section of the correction groove 251 can be replaced along with the appearance of the lamp strip 42, the lamp strip 42 needs to be wound on the charging tray 50 in a certain direction except for the circular lamp strip 42, and by arranging the correction groove to be matched with the outer contour of the lamp strip, the lamp strip can be guaranteed that the lamp beads of the lamp strip are woven in the expected direction and arranged neatly, and the woven attractive appearance is high.

The shaping line 43 has flexibility, and the shaping line 43 can keep the shape after bending, and preferably the shaping line 43 is an iron wire, and a waterproof layer can be plated on the surface of the iron wire to avoid rust generation and influence on the appearance.

In a preferred embodiment, the lamp sleeve 25 includes a first plastic shell 252 and a second plastic shell 253 connected to the first plastic shell 252, a first groove is formed on the first plastic shell 252, a second groove is formed on the second plastic shell 253, the first groove and the second groove are connected to form the calibration groove 251, the first plastic shell 252 is made of a transparent material, and the first plastic shell 252 can be used as an observation window 254 to observe the condition of the light strip 42 in the calibration groove 251.

Since the shaping wire 43 is flexible, a tension mechanism must be provided on the third drum of the tray 50 for fixing the shaping wire 43, and the shaping wire 43 must be straightened with a large tension, and too large straightening force tends to cause unhooking and rebounding from the holding platen 222 of the knitting mechanism 22, and after rebounding, the machine is damaged greatly, and re-threading is difficult, which requires much time, and a mechanism for preventing the shaping wire from rebounding must be provided to solve this problem. Specifically, the main textile machine 20 further includes a threading pipe 27, a photoelectric sensor, a controller 28, a power supply, a second support plate 29 and a plurality of sets of magnetic attraction pieces 30 fixed on the outer side wall of the threading pipe 27 at intervals, the threading hole of the braided wire 41 on the threading plate 23 is a third through hole 232, the threading hole of the shaped wire 43 on the threading plate 23 is a fourth through hole 233, the positions of the first through hole 231, the third through hole 232 and the fourth through hole 233 can be set according to the number and specific positions, the second support plate 29 is arranged between the threading plate 23 and the discharging frame 10, the second support plate 29 is provided with a fifth through hole 291 in a penetrating manner, the threading pipe 27 is a hose, one end of the threading pipe 27 is installed on the threading plate 23 and is communicated with the fourth through hole 233, the other end of the threading pipe is installed on the second support plate 29 and is communicated with the fifth through hole 291, the magnetic attraction pieces 30 are two electromagnetic pieces 31, the two electromagnetic pieces 31 are arranged on two sides of the threading pipe 27, the photoelectric sensor is electrically connected with the electromagnetic sensor 31, the photoelectric sensor and the power supply is electrically connected with the controller 28, the photoelectric sensor and the magnetic attraction pieces 43 detect the movement of the shaping wire 43, and the rebound wire control assembly. Therefore, once the movement speed direction of the moulding line is found to be the rebound direction, a signal is immediately transmitted to the controller, the controller controls the magnetic adsorption assembly to be electrified to clamp the rebound moulding line, the rebound of the moulding line is avoided, and the production efficiency is improved.

The wire passing plate 23 can prevent the braided wire 41, the lamp strip 42 and the modeling wire 43 from being stirred together in the transmission process, the transmission is more stable, the first through hole 231, the third through hole 232 and the fourth through hole 233 on the wire passing plate 23 can be arranged in corresponding positions and quantities according to actual needs, and the lamp strip 42 is ensured to be in the middle of the lamp braid, and the modeling wire 43 is ensured to be in the middle or on the side of the lamp braid.

Referring to fig. 3, 8 to 11, the main textile machine 20 further includes a transition rod 32 rotatably mounted on the machine base 21, the transition rod 32 includes a first rod 321, a second rod 322, and a third rod 323 connected in sequence, one end of each of the first rod 321 and the second rod 322 is rotatably connected to the machine base 21, the third rod 323 is detachably connected to the other end of the first rod 321 and the other end of the second rod 322, a first annular groove 3211 for defining a position of the braided wire 41 is recessed in the first rod 321, a second annular groove 3221 for defining a position of the shaped wire 43 is recessed in the second rod 322, a third annular groove 3231 for defining a position of the light strip 42 is recessed in the third rod 323, of course, the first annular groove 1 may also be disposed in the second rod 322 and/or the third rod 323, the first support plate 24 and the second support plate 29 are disposed between the transition rod 32 and the wire passing plate 23, and the third annular groove 3231 is matched with an outer contour of the light strip 32142.

The third rod 323 comprises a first rod 3232, a second rod 3234 and a spring 3236, the first rod 3232 has an accommodating cavity 3233 and a locking groove concavely formed in an inner wall of the accommodating cavity 3233, a locking block 3235 is convexly formed on an outer wall of the second rod 3234, the second rod 3234 is connected to the second rod 322, the first rod 3232 is connected to the first rod 321, the second rod 3234 is inserted into the accommodating cavity 3233 and forms an accommodating space with the first rod 3232, the spring 3236 is compressed in the accommodating space, the locking block 3235 is slidably installed in the locking groove, the third annular groove 3231 is formed in the first rod 3232, when the third rod 323 needs to be detached, one end of the third rod 323 can be pinched toward the other end to compress the spring 3236, and the third rod 323 can be detached from the transition rod 32.

The textile machine further comprises a first transmission rod 12, a second transmission rod, a plurality of middle rotating wheels 34 and a plurality of tension pieces 35, the first transmission rod 12 is rotatably installed on the material placing frame 10, a first roller 11, a second roller and a third roller are sequentially arranged from top to bottom, the third roller is provided with a large material tray 50 and is placed at the lowest part of the textile machine, a whole circle of modeling lines 43 are fixed on the material tray 50, the first transmission rod 12 is located between the first roller 11 and the second roller, a plurality of second annular grooves 3221 and a plurality of third annular grooves 3231 are also concavely arranged on the first transmission rod 12, and the light strip 42 and the modeling lines 43 are transmitted from the first transmission rod 12.

In this embodiment, because of the charging tray 50 of lamp area 42's charging tray 50 size is bigger than traditional charging tray 50 of braided wire 41, receive little charging tray 50 from big charging tray 50 in order to reduce the manual work, also reduce the manual work simultaneously and remove the number of times of changing charging tray 50, directly put lamp area 42's drum on original second roller, it is fixed with lamp area 42's drum with new fixation clamp, in order to reduce manual operation, also increase the output simultaneously, new fixation clamp suits with lamp area 42's drum size, can firmly fix lamp area 42's drum on the second roller.

The second transmission rod, the middle rotating wheels 34 and the tension pieces 35 are arranged on the main textile machine 20, the middle rotating wheels 34, the tension pieces 35 and the second transmission rod are sequentially arranged from top to bottom, the second transmission rod is located between the tension pieces 35 and the transition rod 32, the second transmission rod and the middle rotating wheels 34 are rotatably connected with the machine table 21, and a first annular groove 3211 is concavely arranged on the second transmission rod and used for steering and positioning the braided wire 41.

The knitting mechanism 22 is also provided with a containing pressing plate 222, the knitting mechanism 22 is a commercially available technology, the needle bed 221 can smoothly knit the knitting line 41, the lamp strip 42 and the molding line 43 together to form the lamp braid 40, the containing pressing plate 222 is used for pressing and transmitting the knitted lamp braid 40 to a following rolling mechanism, so that the whole machine can smoothly perform, and the needle bed 221 is positioned between the containing pressing plate 222 and the wire passing plate 23.

The operating method of the textile machine comprises the following steps:

fixing a material tray 50 of the knitting line 41 on the first roller 11, fixing a material tray 50 of the light strip 42 on the second roller, fixing a material tray 50 of the molding line 43 on the third roller, and fixing the end part of the knitting line 41 on the accommodating pressure plate 222 after passing through the middle rotating wheel 34, the through hole 351 of the tensioning sheet 35, the first annular groove 3211 on the second transmission rod and the first annular groove 3211 on the transition rod 32 in sequence, then passing through the third through hole 232 and the needle bed 221; the molding line 43 sequentially bypasses the second annular groove 3221 on the first transmission rod 12 and the second annular groove 3221 on the transition rod 32, then passes through the fifth through hole 291, the threading pipe 27, the fourth through hole 233 and the needle bed 221, and is fixed on the accommodating pressure plate 222; the light belt 42 sequentially bypasses the third annular groove 3231 on the first transmission rod 12 and the third annular groove 3231 on the transition rod 32, then passes through the second through hole, the correction groove 251, the first through hole 231 and the needle bed 221, then is fixed on the holding pressure plate 222, and finally, the textile machine is directly started, so that the light woven belt 40 can be formed by weaving through the weaving wire 41.

The invention also discloses a lamp mesh belt 40 manufactured by the textile machine, wherein the knitting wire 41, the lamp strip 42 and the modeling wire 43 are knitted together through the knitting wire 41 to form the lamp mesh belt 40, the lamp mesh belt 40 comprises the modeling wire 43, a plurality of knitting wires 41 and at least one lamp strip 42, the lamp strip 42 is arranged in the middle of the lamp mesh belt 40 in a penetrating way, and the modeling wire 43 is arranged in the middle or on the side edge of the lamp mesh belt 40 in a penetrating way.

The lamp braid 40 in the embodiment is folded into a required ornament through the braid over braid or is directly hung for decoration, and the lamp strip 42 can be used for illumination, so that the braid over braid can play a decoration role at night, and the lamp strip 42 can also play a certain decoration role, so that the decoration effect of the lamp braid 40 in the embodiment is better, the lamp strip 42 is woven among a plurality of braided wires 41, the lamp strip 42 can be stably fixed in the braid over braid, and the lamp strip 42 can also be stably fixed on the braid over braid when the lamp braid 40 is folded; in addition, because the lamp strip 42 is accommodated between the plurality of braided wires 41, when the lamp strip 42 emits light, the light can be emitted from the inside of the braided strap to the outside of the braided strap, so that the appearance of the lamp braid 40 formed by the lamp strip 42 and the braided strap is more beautiful, and the lamp strip 42 is not easily damaged because of being accommodated between the plurality of braided straps.

It should be noted that the number of the light strips 42 is not limited, and may be one, two, or another number, and when there are multiple light strips 42, it is preferable that the light strips 42 are arranged in parallel, and certainly, in some embodiments, the multiple light strips 42 may also be arranged in a cross manner.

The light wire 421 and the braided wire 41 in this embodiment may be braided in various manners, and may be formed by winding a plurality of braided wires 41 around one light wire 421 with the light wire 421 as a reference, or may be formed by braiding one or more braided wires 41 together with the light wire 421 in a twist-like manner.

In a particular embodiment, the braided wire 41 is made of cloth. First, when the knitting yarn 41 is made of cloth, knitting is facilitated, and when the knitting yarn 41 is made of cloth, the light mesh belt 40 in the embodiment is more beautiful and has more artistic collection and decorative values.

In a more specific embodiment, the cloth is made of one or more materials of silk, cotton, yarn, hemp, nylon, and blends.

It should be noted that, in some other embodiments, the braided wire 41 may also be made of metal, such as iron wire. The molding line 43 can maintain the shape after bending. The light webbing 40 of the present embodiment has the shape line 43, and the shape line 43 can maintain the shape after being bent, so that the light webbing 40 of the present embodiment can be more easily folded into a desired shape, and it is more convenient for a user to rework the light webbing 40.

Specifically, the direction in which the molding line 43 extends is the same as the direction in which the braid extends.

Preferably, the molding threads 43 have two, one on each side of the braid or one in the middle and one on each side. Of course, the specific number and arrangement of the shaping lines 43 are not limited, and other numbers and arrangements are possible, such as zero shaping lines 43, i.e., no shaping lines 43 are provided, and the light webbing 40 is composed of only the light strip 42 and the knitting lines 41.

In a specific embodiment, the light braid 40 further comprises a battery box connected to the braid and a battery mounted in the battery box, and the light wire 421 is electrically connected to the battery through a switch. The light mesh belt 40 in the embodiment is provided with a power supply, can self-emit light, is convenient to be applied to a place far away from a household power supply, does not need to be additionally electrified for the light mesh belt 40 in the embodiment through an electric wire, and is more convenient for a user to use.

In a more specific embodiment, the battery box comprises a box body for installing the battery, a connecting rod with one end hinged on the outer wall of the box body and a buckle fixedly arranged at the free end of the connecting rod, a positioning groove is formed in the position, corresponding to the buckle, on the outer wall of the battery box, and the buckle is detachably clamped and connected in the positioning groove. In this embodiment, the light mesh belt 40 can be clamped between the connecting rod and the box body, and then the light mesh belt 40 and the box body are fixed together by the clamping action of the buckle and the positioning groove, so that the box body in this embodiment can be conveniently fixed at any position of the light mesh belt 40.

In a specific embodiment, the light webbing 40 further includes an inverter connected to the battery box or the webbing, the inverter being connected between the battery and the light wire 421 for converting the dc power output from the battery into ac power. The lamp beads 422 can be periodically lighted through the inverter, so that the ornamental value of the lamp mesh belt 40 is better.

In a specific embodiment, the light strap 40 further includes a remote controller and a remote switch connected to the light wire 421, and the remote controller can wirelessly control the remote switch to be turned on and off. The light webbing 40 in this embodiment is remotely controllable by a remote switch.

In some other embodiments, the light webbing 40 in this embodiment may also be connected to an external power source through a wire, and it should be noted that the external power source may be a household power source, or may be a mobile power source similar to a charger baby.

In other embodiments, the light braid 40 further includes a sub-wire and a bus 44, the sub-wire is a molding wire 43 on the side, the molding wire 43 is an iron wire, the bus 44 includes an insulated conductive wire and a plurality of electromagnets connected in series by the insulated conductive wire, the bus 44 is fixed on a side of the light braid 40 where the molding wire 43 is not disposed by bonding or weaving, the sub-wire and the bus 44 can be adsorbed together, the light bead is protected on the inner side of the light braid, the light bead is prevented from being damaged, meanwhile, the molding wire has flexibility, different moldings can be disposed as required, and the molded light strip is not easy to deform and has high stability.

The invention also discloses a process method for manufacturing the light woven belt 40 based on the textile machine, which comprises the following steps:

step a, mounting a material tray 50 of the braided wire 41 on a first roller 11, mounting a material tray 50 of the modeling wire 43 on a third roller, mounting a material tray 50 of the lamp strip 42 on a second roller and fixing by using a fixing clamp;

step b, fixing the knitting yarn 41, the light belt 42 and the molding yarn 43 on the accommodating pressing plate 222 after respectively passing through the yarn passing hole on the yarn passing plate 23 and the needle bed 221;

and c, starting the knitting mechanism 22, and knitting the knitting line 41, the lamp strip 42 and the modeling line 43 together by the needle bed 221 through the knitting line 41 to form the lamp mesh belt 40.

Since the process is performed on the textile machine, referring to the structure of the textile machine, in the step a, the knitting yarn 41 needs to sequentially pass through the middle rotating wheel 34, the through hole 351 of the tension plate 35, the first annular groove 3211 of the second transmission rod, the first annular groove 3211 of the transition rod 32, then pass through the third through hole 232 and the needle bed 221, and finally be fixed on the receiving platen 222; the molding line 43 sequentially bypasses the second annular groove 3221 on the first transfer lever 12 and the second annular groove 3221 on the transition lever 32, then passes through the fifth through hole 291, the threading tube 27, the fourth through hole 233 and the needle bed 221, and is fixed to the storage platen 222.

In step b, the light strip 42 passes through the second through hole, the correcting groove 251, the first through hole 231 and the needle bed 221 after passing through the third annular groove 3231 on the first transfer rod 12 and the third annular groove 3231 on the transition rod 32 in sequence, and then is fixed on the take-in platen 222.

Through the processing of the textile machine, the lamp belt 42 and the knitting line 41 can be synchronously knitted and produced, and then are connected with direct current or alternating current to output current, so that the festival ribbon and the bowknot knitted by the lamp line 421 can shine, and the labor cost is reduced due to mechanized production; the traditional manual work is broken through, and the lamp strip 42 is fixed on the cloth in different modes; because of the lamp area 42 in the production process in step with can weave the material of cloth, when the lamp area 42 adopted the structure of two-sided symmetry, the product does not have the directionality of bottom surface, and when the lamp pearl of lamp area 42 faced one side, can weave the lamp pearl according to expectation in the direction that the orientation is unanimous, compare more pleasing to the eye with traditional technology, through the production of machine for this product does not have the restriction of length and width.

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 claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (9)

1. A textile machine is characterized in that a plurality of textile machines,

the main spinning machine comprises a discharging frame and a main spinning machine body, wherein the discharging frame and the main spinning machine body are arranged in front and back, a first roller for fixing a knitting wire tray, a second roller for fixing a light belt tray and a third roller for fixing a molding wire tray are sequentially arranged on the discharging frame from top to bottom, the main spinning machine body comprises a machine table, a knitting mechanism and a wire passing plate, the knitting mechanism and the wire passing plate are arranged on the machine table, the wire passing plate is positioned between the knitting mechanism and the discharging frame, knitting wires, the light belt and molding wires are respectively arranged on the wire passing plate, a needle bed and a containing pressing plate are arranged in the knitting mechanism, and the knitting needles knit the knitting wires, the light belt and the molding wires together through the knitting wires to form a light braid;

the spinning main body machine further comprises a first support plate and a lamp sleeve, the first support plate is fixed on the machine table and located between the wire passing plate and the material placing frame, a wire passing hole of a lamp strip on the wire passing plate is a first through hole, a second through hole is formed in the first support plate, one end of the lamp sleeve is installed on the wire passing plate, the other end of the lamp sleeve is installed on the first support plate, a correcting groove for preventing the lamp strip from rotating when penetrating is arranged in the lamp sleeve in a penetrating mode in the length direction of the lamp sleeve, the correcting groove is matched with the outer contour of the lamp strip, one end of the correcting groove is communicated with the first through hole, and the other end of the correcting groove is communicated with the second through hole.

2. Textile machine according to claim 1,

and a guide hopper is further arranged on one side of the first support plate opposite to the lamp sleeve, a feed hole penetrates through the guide hopper, the feed hole is communicated with the second through hole, and the inner diameter of the feed hole is gradually increased from one end close to the first support plate to one end far away from the first support plate.

3. Textile machine according to claim 1,

the cross sections of the lamp strip and the correction groove are both T-shaped or rectangular; the moulding line has flexibility and can keep the shape after being bent, and the moulding line is an iron line.

4. Textile machine according to claim 1,

the lamp sleeve comprises a first rubber shell and a second rubber shell connected with the first rubber shell, wherein a first groove is formed in the first rubber shell, a second groove is formed in the second rubber shell, the first groove is connected with the second groove and forms the correction groove, and the first rubber shell is made of transparent materials.

5. Textile machine according to claim 1,

the spinning main body machine further comprises a threading pipe, a photoelectric sensor, a controller, a power supply, a second support plate and a plurality of groups of magnetic adsorption pieces fixed on the outer side wall of the threading pipe at intervals, wherein a thread passing hole of a braided thread on the thread passing plate is a third through hole, a thread passing hole of a modeling thread on the thread passing plate is a fourth through hole, the second support plate is arranged between the thread passing plate and the discharging frame, a fifth through hole penetrates through the second support plate, the threading pipe is a hose, one end of the threading pipe is arranged on the thread passing plate and communicated with the fourth through hole, the other end of the threading pipe is arranged on the second support plate and communicated with the fifth through hole, the magnetic adsorption pieces are two electromagnetic pieces, the two electromagnetic pieces are oppositely arranged on two sides of the threading pipe, the photoelectric sensor is arranged in the fourth through hole, the power supply is electrically connected with the electromagnetic pieces, and the photoelectric sensor and the power supply are electrically connected with the controller.

6. Textile machine according to claim 1,

weaving main part machine still including rotate install in transition pole on the board, the transition pole is including the first body of rod, the second body of rod and the third body of rod that connects gradually, the one end of the first body of rod and the second body of rod all with the board rotates to be connected, third body of rod detachably with the other end of the first body of rod and the other end of the second body of rod are connected, concave first ring channel that is used for injecing the line position of weaving is equipped with on the first body of rod, concave second ring channel that is used for injecing the molding line position and the first ring channel that is used for injecing the line position of weaving is equipped with on the second body of rod, concave third ring channel that is used for injecing the lamp area position that is equipped with on the third body of rod, first extension board and second extension board are all located the transition pole with between the line board, the third ring channel with the outline phase-match in lamp area.

7. A light braid manufactured with the textile machine of any one of claims 1 to 6,

the lamp mesh belt comprises a molding line, a plurality of knitting lines and at least one lamp belt, the lamp belt penetrates through the middle of the lamp mesh belt, and the molding line penetrates through the middle or the side edge of the lamp mesh belt.

8. The light strap webbing of claim 7,

the lamp braid further comprises a sub-wire and a bus, the sub-wire is a modeling line on the side edge, the modeling line is an iron wire, the bus comprises an insulated conducting wire and a plurality of electromagnets connected in series by the insulated conducting wire, and the bus is fixed on the side edge, which is not provided with the modeling line, of the lamp braid through bonding or weaving.

9. A process for manufacturing light woven tape based on the textile machine of any one of claims 1 to 6,

the method comprises the following steps:

step a, mounting a material tray of a braided wire on a first roller, mounting a material tray of a modeling wire on a third roller, mounting the material tray of a lamp strip on a second roller and fixing the material tray by using a fixing clamp;

b, respectively passing the knitting yarn, the lamp belt and the modeling yarn through the yarn passing hole in the yarn passing plate and the needle bed and then fixing the knitting yarn, the lamp belt and the modeling yarn on the accommodating pressing plate;

and c, starting the knitting mechanism, and knitting the knitting line, the lamp belt and the modeling line together by the needle bed through the knitting line to form the lamp mesh belt.

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