CN111560694A - Plain weaving and hank weaving integrated loom - Google Patents

Abstract

The invention discloses a plain weaving and skeining integrated loom, which relates to the field of spinning and adopts the technical scheme that the loom comprises a rack, heald frames arranged on the rack, a driving piece for driving the heald frames to move, a weft feeding mechanism arranged on one side of the rack and a beating-up mechanism arranged on one side of the heald frames, wherein the heald frames comprise a first heald frame and a second heald frame; the driving piece comprises a first driving component for driving the heald frame to carry out stranding and a second driving component for driving the heald frame to carry out stranding. The invention has the effect of plain weaving and twisted weaving.

Description

Plain weaving and hank weaving integrated loom

Technical Field

The invention relates to the field of spinning, in particular to a plain weaving and skeining integrated loom.

Background

A leno fabric is a fabric woven entirely with a leno weave, and unlike a conventional triple-weave fabric (in which warp yarns are arranged in parallel), the warp yarns in the leno weave are twisted with each other and interwoven with weft yarns in two systems (a warp and a ground warp). During weaving, the ground warp is not moved, and the skein warp is sometimes interwoven with the weft yarn at the right side of the ground warp and sometimes at the left side of the ground warp. When the warp is turned from one ground warp to the other, the two warp yarns are twisted to increase the space between the warp and weft at the twisted position, and form yarn holes on the fabric, so that the twisted fabric is called eyelet fabric. Plain weaving is the most common base fabric weaving method, and plain weaving has the advantages of simple structure, convenient manufacture, low cost and easy popularization.

Referring to fig. 1, a fabric 1 comprises a twisted portion 11 and a plain portion 12, wherein the twisted portion 11 and the plain portion 12 are distributed in a staggered manner, and the length of each twisted portion 11 is the same as the width of the plain portion 12; both the twisted portion 11 and the plain portion 12 are woven by weft yarns 13 and warp yarns 14. The color of the weft 13 of the plain weaving part 12 is dark, and the color of the weft 13 of the twisted weaving part 11 is light; the distance between the adjacent weft threads 13 can be far and stably kept by twisting the two warp threads 14 of the twisted part 11, so that the twisted part 11 can be in a grid shape, the area of a single yarn hole is large, and the light transmittance is good. The plain-weave portion 12 is formed by a conventional plain-weave method, and the color of the weft 13 is dark, so that the light transmittance is poor. The fabric 1 can be used as a sunshade curtain, and is used in double layers, when the twisted part 11 is overlapped with the twisted part 11, light can pass through the twisted part 11; when the twisted portion 11 and the plain portion 12 are overlapped, the light is blocked by the plain portion 12 and the light cannot pass through. However, the conventional loom (air jet loom or water jet loom) can only perform a single type of knitting, and it is difficult to knit such a fabric.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a plain weave and skein integrated loom which can carry out plain weave, skein or plain weave skein and skein weaving.

In order to achieve the purpose, the invention provides the following technical scheme: a plain weaving and skeining integrated loom comprises a rack, heald frames arranged on the rack, a driving piece driving the heald frames to move, a weft feeding mechanism arranged on one side of the rack and a beating-up mechanism arranged on one side of the heald frames, wherein the heald frames comprise a first heald frame and a second heald frame; the driving part comprises a first driving component for driving the heald frame to carry out the stranding and a second driving component for driving the heald frame to carry out the stranding; limiting blocks for limiting the heald frames are arranged at two ends of the heald frames, and sliding grooves for the first heald frame and the second heald frame to slide are formed in one sides, close to the heald frames, of the limiting blocks; the first driving assembly comprises a first motor, a twisting crankshaft driven by the first motor to rotate, a first connecting rod and a second connecting rod which are rotatably connected to the twisting crankshaft; one ends of the first heald frame and the second heald frame, which are close to the first driving component, are rotatably connected with connecting blocks connected with a first connecting rod and a second connecting rod; the second driving assembly comprises a connecting plate fixed on the rack, a second motor arranged on the connecting plate, a plain weave crankshaft driven by the second motor to rotate, a first connecting rod and a second connecting rod which are rotatably connected to the plain weave crankshaft, a third connecting rod with one end hinged to the first connecting rod and a fourth connecting rod with one end hinged to the second connecting rod; the third connecting rod and the fourth connecting rod can be connected with the connecting plate in a sliding mode along the vertical direction.

By adopting the technical scheme, when in stranding, the first driving component works, the second driving component stops, and the heald frame is driven by the first driving component to perform stranding movement; then the first driving component stops, the second driving component works, and the heald frame is driven by the second driving component to perform plain weaving movement, so that the change from the skein to the plain weaving is realized; after the plain weaving is finished, the first driving component works, the second driving component stops, and the heald frame is driven by the first driving component to carry out the hank weaving movement, so that the change from the plain weaving to the hank weaving is realized. The change of the twisting and the plain weaving is realized through the respective driving of the first driving component and the second driving component.

The invention is further configured to: and the limiting block is provided with a resetting component for resetting the first heald frame and the second heald frame.

By adopting the technical scheme, when the loom is switched from the sketching to the plain weaving, the positions of the first heald frame and the second heald frame need to be adjusted, so that the heald frames meet the condition of the plain weaving (namely, the half reed dents of the first heald frame and the second heald frame are mutually staggered), and the effect of the plain weaving is increased.

The invention is further configured to: the reset assembly comprises a fixed plate fixed on the limiting block, a threaded rod connected with the fixed plate, a fixed sleeve fixed at one end of the threaded rod close to the heald frame, a sliding sleeve sleeved on the fixed sleeve and connected with the fixed sleeve in a sliding mode, and an elastic piece driving the sliding sleeve to move in the direction away from the fixed plate.

Through adopting above-mentioned technical scheme, when first heald frame and second heald frame only received the elasticity that the elastic component received, the both ends of first heald frame and second heald frame parallel and level each other, the position of half dent on first heald frame and the second heald frame is crisscross each other this moment to realize the requirement of plain weave, through the elasticity of elastic component, be convenient for drive the reseing of first heald frame and second heald frame.

The invention is further configured to: the elastic part is a spring, the spring is arranged inside the sliding sleeve and the fixed sleeve, and the threaded rod is in threaded connection with the fixed plate.

Through adopting above-mentioned technical scheme, rotate the threaded rod and can change the distance between fixed cover and the fixed plate to can adjust the position of first heald frame and second heald frame under the balanced state, thereby be convenient for change the position of first heald frame and second heald frame under the balanced position.

The invention is further configured to: the number of the beating-up mechanisms is two or more.

By adopting the technical scheme, two or more wefts can be fed in the twisting or flat weaving process, so that the appearance diversity of the fabric is increased.

The invention is further configured to: the first driving component can only drive the second heald frame, and the second driving component can only drive the first heald frame.

Through adopting above-mentioned technical scheme, first drive assembly drives the second heald frame and is swayd the motion, and second drive assembly drives first heald frame and is vertical motion, realizes the hank of different modes, is convenient for carry out different hanks to different fabrics and weaves.

The invention is further configured to: the fourth connecting rod and the second connecting rod are connected in a bolt and nut mode; a third connecting rod is arranged at one end, close to the connecting block, of the first connecting rod; one end of the third connecting rod, which is close to the first connecting rod, is connected with the first connecting rod through a bolt, and one end of the third connecting rod, which is close to the first heald frame, is fixedly connected with the connecting block.

By adopting the technical scheme, the fourth connecting rod is connected with the second connecting rod through the bolt and nut, so that the fourth connecting rod and the second connecting rod can be conveniently installed and detached, and the second heald frame can be conveniently driven to be separated from the second driving component; the end of the third connecting rod close to the first connecting rod is connected with the first connecting rod through a bolt, so that the third connecting rod and the first connecting rod can be conveniently mounted and dismounted, and the first heald frame can be conveniently driven to be separated from the first driving assembly.

In conclusion, the beneficial technical effects of the invention are as follows:

1. when in sketching, the first driving component works, the second driving component stops, and the heald frame is driven by the first driving component to perform sketching movement; then the first driving component stops, the second driving component works, and the heald frame is driven by the second driving component to perform plain weaving movement, so that the change from the skein to the plain weaving is realized; after the plain weaving is finished, the first driving component works, the second driving component stops, and the heald frame is driven by the first driving component to carry out the hank weaving movement, so that the change from the plain weaving to the hank weaving is realized. The change of the twisted weave and the plain weave is realized through the respective drive of the first drive component and the second drive component;

2. when the loom is switched from the hank weaving to the plain weaving, the positions of the first heald frame and the second heald frame are required to be adjusted, so that the heald frames meet the condition of the plain weaving (namely half reed dents of the first heald frame and the second heald frame are mutually staggered), and the effect of the plain weaving is increased;

3. two or more weft yarns can be fed in the twisting or flat weaving process, so that the variety of the appearance of the fabric is increased.

Drawings

FIG. 1 is a schematic plan view of the background art;

FIG. 2 is an overall mechanism diagram of the embodiment;

figure 3 is a diagrammatic illustration of the construction of a heddle frame;

FIG. 4 is a schematic structural view of a reset assembly;

FIG. 5 is a schematic structural diagram of a first driving assembly;

fig. 6 is a schematic structural diagram of the second driving assembly.

In the figure: 1. a fabric; 11. a wringing portion; 12. a plain-weave section; 13. a weft; 14. warp threads; 2. a frame; 21. a let-off roll; 22. a material receiving roller; 3. a heald frame; 31. a first heald frame; 311. connecting blocks; 32. a second heald frame; 33. half reed dent; 331. threading a yarn hole; 34. a limiting block; 341. a chute; 35. a reset assembly; 351. a fixing plate; 352. a threaded rod; 353. fixing a sleeve; 354. a sliding sleeve; 355. a spring; 4. a first drive assembly; 41. a first motor; 42. a speed reducer; 43. twisting and weaving the crankshaft; 44. a first connecting rod; 45. a third connecting rod; 46. a second connecting rod; 5. a second drive assembly; 51. a connecting plate; 52. a second motor; 521. a support block; 53. plain-weaving a crankshaft; 54. a first link; 55. a second link 56, a third link; 57. a fourth connecting rod; 6. a weft insertion mechanism; 7. and a beating-up mechanism.

Detailed Description

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

Example (b): a plain weaving and skein integrated loom is shown in figure 2 and comprises a frame 2, a heald frame 3 arranged on the frame 2, a first driving component 4 for driving the heald frame 3 to do skein movement, a second driving component 5 for driving the heald frame 3 to do plain weaving movement, a weft feeding mechanism 6 arranged on one side of the frame 2 and a beating-up mechanism 7 arranged on one side of the heald frame 3.

The weft insertion mechanism 6 and the beating-up mechanism 7 realize the weft insertion and beating-up functions common in the prior art. Wherein the number of the weft insertion mechanisms 6 is two, and the weft insertion is performed on the wires with different specifications.

One end of the frame 2 is rotatably connected with a let-off roll 21, and the other end is rotatably connected with a receiving roll 22. The warp feeding roller 21 is used for placing arranged warps, and the material receiving roller 22 is used for rolling the woven fabric 1. The weft insertion mechanism 6 and the beating-up mechanism 7 are located on the side of the heald frame 3 near the take-up roller 22.

Referring to fig. 3, the heald frame 3 comprises a first heald frame 31 and a second heald frame 32. The first heald frame 31 and the second heald frame 32 are the same in length, a plurality of half dents 33 are fixed to the bottom ends of the first heald frame 31 and the second heald frame 32, yarn threading holes 331 are formed in the half dents 33, and the warp yarns 14 pass through the yarn threading holes 331. The distance between the two adjacent half dents 33 fixed to the first heald frame 31 or the second heald frame 32 is the same, and when the two ends of the first heald frame 31 and the second heald frame 32 are flush, the half dents 33 of the first heald frame 31 align with the gaps between the half dents 33 of the second heald frame 32, and similarly, the half dents 33 of the second heald frame 32 align with the gaps between the first heald frame 31. One ends of the first heald frame 31 and the second heald frame 32 close to the first driving member 4 are rotatably connected with a connecting block 311 connected with the first driving member 4.

The first heald frame 31 and the second heald frame 32 are provided at both ends thereof with stoppers 34 that limit the movement of the first heald frame 31 and the second heald frame 32. The number of the limiting blocks 34 is two, and the limiting blocks are respectively arranged on two sides of the heald frame 3; and a sliding groove 341 for sliding the first heald frame 31 and the second heald frame 32 is formed at one side of the stopper 34 close to the heald frame 3. The distance between the two stop blocks 34 is slightly smaller than the length of the first heddle frame 31 and the second heddle frame 32, so that the first heddle frame 31 and the second heddle frame 32 cannot disengage from the stop blocks 34 in the feed direction of the warp threads 14. The stopper 34 is further provided with a restoring member 35 for restoring the first heald frame 31 and the second heald frame 32.

Referring to fig. 3 and 4, the restoring assembly 35 includes a fixed plate 351 fixed to the limit block 34, a threaded rod 352 threadedly coupled to the fixed plate 351, a fixed sleeve 353 fixed to an end of the threaded rod 352 adjacent to the heald frame 3, a sliding sleeve 354 sleeved on the fixed sleeve 353 and slidably coupled to the fixed sleeve 353, and a spring 355 disposed inside the fixed sleeve 353 and the sliding sleeve 354. Two ends of the spring 355 are respectively abutted against one end of the sliding sleeve 354 far away from the fixing sleeve 353 and one end of the fixing sleeve 353 far away from the sliding sleeve 354, so as to drive the sliding sleeve 354 to move towards the direction far away from the fixing plate 351. The same fixing plate 351 is threaded with a threaded rod 352, so that the number of the fixing sleeve 353, the sliding sleeve 354 and the spring 355 is two. The ends of the two sliding sleeves 354 which are close to the heddle frames 3 are in abutment with the first heddle frame 31 and the second heddle frame 32, respectively. When the first and second heald frames 31, 32 are subjected to only the pressure given by the fixing sleeves 353 located on both sides of the first and second heald frames 31, 32, both ends of the first and second heald frames 31, 32 are flush.

Referring to fig. 5, the first driving assembly 4 includes a first motor 41, a reducer 42 powered by the first motor 41, a twisted crankshaft 43 rotated by an output shaft of the reducer 42, a first connecting rod 44 and a second connecting rod 46 rotatably connected to the twisted crankshaft 43, and a third connecting rod 45 connected to one end of the second connecting rod 46.

The first motor 41 is a servo motor, and is convenient for controlling the rotation speed and starting and stopping. The first and second connecting rods 44 and 46 are rotatably coupled to the first and second journals of the twisted crankshaft 43, respectively, such that the first and second connecting rods 44 and 46 are just moved alternately. The first connecting rod 44 and the third connecting rod 45 are fixedly connected by bolts. One end of the second connecting rod 46 close to the heald frame 3 is fixedly connected with a connecting block 311 on the second heald frame 32; one end of the third connecting rod 45 close to the heddle frames 3 is fixedly connected to a connecting block 311 on the first heddle frame 31. The staggering of the first and second connecting rods 44, 46 causes the first and second heddle frames 31, 32 to also perform a staggering motion (e.g., when the first heddle frame 31 is traveling at the upper left-most position of its path of motion, the second heddle frame 32 is traveling to the lower right-most position of its path of motion), which in turn causes the heddle frames 3 to perform a leno weave.

Referring to fig. 6, the second driving assembly 5 includes a connecting plate 51 fixed to the frame 2, a second motor 52 disposed on the connecting plate 51, a plain weave crankshaft 53 driven by the second motor 52 to rotate, a first connecting rod 54 and a second connecting rod 55 rotatably connected to the plain weave crankshaft 53, a third connecting rod 56 having one end hinged to the first connecting rod 54, and a fourth connecting rod 57 having one end hinged to the second connecting rod 55. A support block 521 for fixing the second motor 52 is fixed to the connection plate 51, and the second motor 52 is fixed to the support block 521.

The connection plate 51 is disposed below the table of the frame 2. The first link 54 and the second link 55 are rotatably coupled to a first connecting neck and a second connecting neck of the plain-weave crankshaft 53, respectively, so that the first link 54 and the second link 55 are just moved alternately. The third and fourth connecting rods 56, 57 can be connected slidably in the vertical direction with the connecting plate 51, and the ends of the third and fourth connecting rods 56, 57 close to the heddle frames 3 abut against the heddle frames 3. One end of the third link 56 is hinged to the first link 54, and the other end passes through the connecting plate 51 and abuts against the first heald frame 31; one end of the fourth link 57 is hinged to the second link 55, and the other end passes through the connecting plate 51 and abuts against the second heald frame 32. Due to the alternate movement of the first connecting rod 54 and the second connecting rod 55, the first heald frame 31 abutting against the fourth connecting rod 57 and the second heald frame 32 abutting against the third connecting rod 56 can be alternately lifted (the first heald frame 31 is lifted, the second heald frame 32 is lowered; the second heald frame 32 is lifted, the first heald frame 31 is lowered), and the flat weaving of the heald frame 3 is realized.

The fourth connecting rod 57 and the second connecting rod 55 are connected by bolts and nuts, so that the connection and the disassembly between the two are convenient.

The working principle is as follows: when the first driving component 4 works, the second driving component 5 stops working, and at the moment, the first heald frame 31 and the second heald frame 32 carry out the skein weaving. After the stranding is completed, the first driving component 4 stops working, the two ends of the first heald frame 31 and the second heald frame 32 are flush under the driving of the reset component 35, and at the moment, the half dents 33 of the first heald frame 31 and the second heald frame 32 are staggered mutually. Then the second driving component starts to work to drive the first heald frame 31 and the second heald frame 32 to carry out plain weaving. After the plain weaving is finished, the second driving assembly 5 stops working, and the first driving assembly 4 works to carry out the hank weaving. And (5) subsequently circulating, and performing the twisting and plain weaving in a staggered manner.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (7)

1. A plain weaving and skeining integrated loom comprises a rack (2), heald frames (3) arranged on the rack (2), a driving piece for driving the heald frames (3) to move, a weft feeding mechanism (6) arranged on one side of the rack (2) and a beating-up mechanism (7) arranged on one side of the heald frames (3), wherein the heald frames (3) comprise a first heald frame (31) and a second heald frame (32), and the first heald frame (31) and the second heald frame (32) are the same in length; the method is characterized in that: the driving part comprises a first driving component (4) for driving the heald frame (3) to carry out the stranding and a second driving component (5) for driving the heald frame (3) to carry out the stranding; two ends of the heald frame (3) are provided with limiting blocks (34) for limiting the heald frame (3), and one side of each limiting block (34) close to the heald frame (3) is provided with a sliding groove (341) for the first heald frame (31) and the second heald frame (32) to slide;

the first driving assembly (4) comprises a first motor (41), a wringing crankshaft (43) driven by the first motor (41) to rotate, a first connecting rod (44) and a second connecting rod (46) which are rotatably connected to the wringing crankshaft (43); one ends of the first heald frame (31) and the second heald frame (32) close to the first driving component (4) are rotatably connected with connecting blocks (311) connected with a first connecting rod (44) and a second connecting rod (46);

the second driving assembly (5) comprises a connecting plate (51) fixed on the rack (2), a second motor (52) arranged on the connecting plate (51), a plain weave crankshaft (53) driven by the second motor (52) to rotate, a first connecting rod (54) and a second connecting rod (55) which are rotatably connected to the plain weave crankshaft (53), a third connecting rod (56) with one end hinged to the first connecting rod (54) and a fourth connecting rod (57) with one end hinged to the second connecting rod (55); the third connecting rod (56) and the fourth connecting rod (57) can be connected with the connecting plate (51) in a sliding mode along the vertical direction.

2. The flat weaving and sketching integrated loom of claim 1, characterized in that: and the limiting block (34) is provided with a resetting component (35) for resetting the first heald frame (31) and the second heald frame (32).

3. The flat weaving and sketching integrated loom of claim 2, characterized in that: the reset component (35) comprises a fixed plate (351) fixed on a limiting block (34), a threaded rod (352) connected with the fixed plate (351), a fixed sleeve (353) fixed at one end, close to the heald frame (3), of the threaded rod (352), a sliding sleeve (354) sleeved on the fixed sleeve (353) and connected with the fixed sleeve (353) in a sliding mode, and an elastic piece driving the sliding sleeve (354) to move towards the direction far away from the fixed plate (351).

4. The flat weaving and sketching integrated loom of claim 3, characterized in that: the elastic piece is a spring (355), the spring (355) is arranged inside the sliding sleeve (354) and the fixing sleeve (353), and the threaded rod (352) is in threaded connection with the fixing plate (351).

5. The flat weaving and sketching integrated loom of claim 1, characterized in that: the number of the beating-up mechanisms (7) is two or more.

6. The flat weaving and sketching integrated loom of claim 1, characterized in that: the first drive assembly (4) can drive only the second heald frame (32), and the second drive assembly (5) can drive only the first heald frame (31).

7. The flat weaving and sketching integrated loom of claim 6, characterized in that: the fourth connecting rod (57) is connected with the second connecting rod (55) in a bolt and nut mode; one end of the first connecting rod (44) close to the connecting block (311) is provided with a third connecting rod (45); one end of the third connecting rod (45) close to the first connecting rod (44) is connected with the first connecting rod (44) through a bolt, and one end of the third connecting rod (45) close to the first heald frame (31) is fixedly connected with the connecting block (311).

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