CN211199593U - Loom with ultra-high precision device - Google Patents

Abstract

The utility model discloses a loom with a super high precision device, which belongs to the technical field of looms and comprises a loom body, wherein the inner side wall of the loom body is rotatably connected with a loom beam, the surface of the loom beam is connected with warp yarns, the warp yarns are respectively connected with a first heald frame and a second heald frame through a back beam and a dropper, the first heald frame and the second heald frame are connected with weft yarns through warp yarn interweaving, the novel dropper is changed into 10 rows from 8 rows, the material is changed from stainless steel into jade, each end surface is polished very smooth, more weft yarns can be combed simultaneously when the precision is improved, the efficiency is improved, the weft yarns are not scratched, the fabric quality is improved, uneven fabrics woven by the loom can be ironed through a ceramic ironing plate through a steam ironing method, the steam ironing fabric is different from the traditional ironing method, the fabric can not be scalded, the quality of the produced fabrics is improved, the processing of the cloth in the later period is reduced, and the progress is accelerated.

Description

Loom with ultra-high precision device

Technical Field

The utility model relates to a loom technical field especially relates to a take loom of super high accuracy device.

Background

The loom, also called the loom, cotton spinning machine, etc., the loom of early stage relies on the loom that the manpower drives, the shuttleless loom technology has been studied from 19 century onwards, since the 50 s have gradually promoted to the international market, since the 70 s of 20 th century, many new shuttleless looms have been put into the market successively, the shuttleless loom has made the apparent success to improving the fabric and raising the efficiency of the loom, widely adopted in various countries of the world, and accelerated the course that the weaving apparatus reforms, the percentage of occupation of the shuttleless loom has reached about 80% in many developed countries, have appeared and replaced the major trend of the shuttle loom with the shuttleless loom renewal.

Weft yarn needs to pass through the drop wire when the traditional loom weaves, most traditional drop wire pieces are 8 rows of stainless steel thin sheets, the section is sharp, due to the limitation of materials, the drop wire is difficult to grind flat, the warp yarn 17 is easy to scratch or scrape, the later stage weaving process is influenced, the produced fabric is rough, the quality of the fabric is greatly reduced, and due to the fact that the row number is small, the number of the carded warp yarns 17 is limited, the production efficiency and the width of the fabric are reduced, after the traditional loom weaves, due to the fact that cloth is not flat enough, the uniform ironing treatment needs to be carried to ironing positions, the workload of workers is increased, the workers are quite tired, the production efficiency is reduced, and therefore the loom with the ultra-high precision device is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a take loom of super high accuracy device, novel ting jingpian is changed into 10 rows by 8 rows, the material is changed into the jade material by the stainless steel, each terminal surface is all polished very smoothly, when the precision promotes, can comb more woofs simultaneously, efficiency promotes, can not scratch the woof simultaneously, improve the fabric quality, through the uneven cloth that the method that the pottery ironing board can iron the loom through steam ironed, steam irones the fabric and is different from the tradition mode of ironing, can not scald the fabric, the quality of the cloth that makes to produce improves, reduce the later stage and to the processing of cloth, accelerate the progress.

The utility model provides a specific technical scheme as follows:

the utility model provides a pair of take loom of super high accuracy device, including the loom organism, the internal lateral wall of loom rotates and is connected with the beam, the beam surface is connected with the warp, the warp passes through the back beam and stops the warp piece and be connected with a heald frame and No. two heald frames respectively, No. one heald frame and No. two heald frames are through warp interweave and are connected with the woof, the woof parcel is on the shuttle surface, the warp passes through the box seat and is connected with the fabric, the fabric passes through the breast beam and is connected with a batch roller, a batch roller sets up the cloth outlet at the loom organism, the fabric passes through ceramic ironing board bottom and is connected with No. two batch rollers.

Optionally, the dropper is changed into 10 rows from 8 rows, the material is jade, and the end face is smooth.

Optionally, the ceramic ironing plate and the second winding roller are both mounted on the surface of the bracket.

Optionally, the top end of the ceramic ironing plate is connected with a steam valve through a steam pipe, and a plurality of ironing holes are formed in the surface of the ceramic ironing plate.

Optionally, the power input ends of the first take-up roll, the second take-up roll, the first heald frame, the second heald frame and the loom beam are connected with the power output end of the motor, and the motor is provided with a plurality of sets.

The utility model has the advantages as follows:

the embodiment of the utility model provides a take loom of super high accuracy device:

1. novel dropper is changed into 10 rows by 8 rows, the material is changed into the jade material by stainless steel, the very smooth that each terminal surface all polished, when the precision promoted, can comb more warp 17 simultaneously, efficiency promotes, simultaneously can not scratch warp 17, improve fabric quality, warp 17 need pass through the dropper when having solved traditional loom and weaving, traditional dropper is the stainless steel thin slice of 8 rows mostly, the section is sharp-pointed, because the restriction of material, hardly grind, easy scratch or scrape disconnected warp 17, influence the process of weaving in later stage, the very coarse of fabric that makes to produce, make fabric quality greatly reduced, and because the row number is less, warp 17 that can comb is limited, the problem of production efficiency and fabric width has been reduced.

2. Uneven cloth woven by a loom can be ironed through a method of ironing by using ceramic ironing plates through steam, the steam ironing fabric is different from a traditional ironing mode, the fabric can not be scalded, the quality of the produced cloth is improved, the later-stage treatment of the cloth is reduced, the progress is accelerated, the problem that after weaving by using a traditional weaving machine, the traditional weaving machine needs to be conveyed to an ironing position for uniform ironing treatment due to the fact that the cloth is not flat enough, the workload of workers is increased, the workers are very tired, and the production efficiency is reduced is solved.

Drawings

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

Fig. 1 is a schematic overall structure diagram of a loom with an ultra-high precision device according to an embodiment of the present invention;

fig. 2 is a schematic view of an internal principle of a loom with an ultra-high precision device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a ceramic ironing board of a loom with an ultra-high precision device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a dropper of a loom with an ultra-high precision device according to an embodiment of the present invention.

In the figure: 1. a loom body; 2. an electric motor; 3. a cloth outlet; 4. a first take-up roll; 5. a support; 6. a ceramic ironing plate; 7. a second take-up roll; 8. a fabric; 9. a breast beam; 10. a shuttle; 11. a weft yarn; 12. a box base; 13. a first heald frame; 14. a second heald frame; 15. a dropper; 16. a rear beam; 17. warp yarns; 18. a beam of warp; 19. a steam valve; 20. a steam pipe; 21. and ironing the holes.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A loom with an ultra-high precision device according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 4.

Referring to fig. 1 and 2, the embodiment of the utility model provides a take loom of super high accuracy device, including loom organism 1, loom organism 1 inside wall rotates and is connected with beam 18, beam 18 surface connection has warp 17, warp 17 is connected with a heald frame 13 and No. two heald frames 14 respectively through back beam 16 and dropper 15, No. one heald frame 13 and No. two heald frames 14 are interweaved through warp 17 and are connected with woof 11, woof 11 parcel is on shuttle 10 surface, warp 17 is connected with fabric 8 through box seat 12, fabric 8 is connected with a batch roller 4 through breast beam 9, a batch roller 4 sets up the cloth outlet 3 at loom organism 1, fabric 8 is connected with No. two batch rollers 7 through ceramic ironing board 6 bottom.

The example, can iron the uneven cloth that the loom weaved through the method that ceramic ironing board 6 ironed through steam, steam irones the fabric and is different from traditional mode of ironing, can not scald the fabric, make the quality of the cloth of producing improve, reduce the processing to the cloth in later stage, accelerate the progress, solved traditional loom and woven the back because cloth is level and smooth inadequately, need carry the department of ironing and press in unison and handle, increased workman's work load, make very tired out of workman, reduced production efficiency's problem.

Referring to fig. 4, the dropper 15 is changed from 8 rows to 10 rows, is made of jade and has smooth end surface.

The example, novel dropper 15 is changed into 10 rows by 8 rows, the material is changed into the jade material by stainless steel, each terminal surface is all polished very smoothly, when the precision promotes, can comb more warp 17 simultaneously, the efficiency promotes, simultaneously can not scratch warp 17, improve the fabric quality, warp 17 need pass through dropper 15 when having solved traditional loom and weaving, traditional dropper 15 is mostly 8 rows of stainless steel thin slices, the section is sharp-pointed, because the restriction of material, it is difficult to grind, scratch easily or scrape disconnected warp 17, influence the process of weaving in later stage, make the fabric of producing very coarse, make the fabric quality greatly reduced, and because the row number is less, warp 17 that can comb is limited, the problem of production efficiency and fabric width has been reduced.

Referring to fig. 1, the ceramic ironing plate 6 and the second winding roller 7 are both mounted on the surface of the bracket 5.

Illustratively, ironing and reeling of the fabric 8 is facilitated.

Referring to fig. 3, the top end of the ceramic ironing plate 6 is connected to a steam valve 19 through a steam pipe 20, and a plurality of ironing holes 21 are formed on the surface of the ceramic ironing plate 6.

Illustratively, ironing is facilitated.

Referring to fig. 1 and 2, the power input ends of the first take-up roll 4, the second take-up roll 7, the first heald frame 13, the second heald frame 14 and the beam 18 are connected with the power output end of the motor 2, and the motor 2 has a plurality of stations.

Illustratively, intelligent weaving is facilitated.

When the device is used, the warp 17 is coiled on the surface of a weaving shaft 18 in advance, the warp 17 is divided into two strands through a back beam 16 and a dropper 15, one strand passes through a first heald frame 13 and the other strand passes through a second heald frame 14, the weft 11 passes through the middle of the two strands of warp 17 after passing through the heald frames and a box seat 12, a power supply is switched on, a switch of a motor 2 is switched on, a shuttle 10 drives the weft 11 to continuously pass through the middle of the two strands of warp 17, the weaving shaft 18 continuously releases the warp 17, the first heald frame 13 and the second heald frame 14 drive the two strands of warp 17 to clamp the weft 11 in a staggered mode for weaving, a fabric 8 flows out from a cloth outlet 3, is wound by a second winding shaft 7 through a first winding shaft 4 and a ceramic ironing plate 6, a steam valve 19 is switched on, high-temperature and high-pressure steam is uniformly sprayed on the surface of the fabric 8 through a steam pipe 20 and an.

The embodiment of the utility model provides a take loom of super high accuracy device, novel dropper 15 changes 10 rows into by 8 rows, the material is changed into the jade material by the stainless steel, each terminal surface all polishes very smoothly, when the precision promotes, can comb more warp 17 simultaneously, the efficiency promotes, simultaneously can not scratch warp 17, improve the fabric quality, warp 17 need pass through dropper 15 when having solved traditional loom and weaving, traditional dropper 15 is mostly 8 rows of stainless steel thin slices, the section is sharp-pointed, because the restriction of the material, hardly polish flat, easy scratch or scrape off warp 17, influence the process of weaving in later stage, make the fabric that produces very coarse, make the fabric quality reduce greatly, and because the row number is less, the warp 17 that can comb is limited, the problem of production efficiency and fabric width has been reduced, through ceramic ironing board 6 can be through the uneven cloth that the method ironing of steam ironing loom weaves, steam irones the fabric and is different from the tradition mode of ironing, can not scald the fabric, makes the quality of the cloth of producing improve, reduces the processing of later stage to cloth for the progress has solved traditional loom and has weaved the back because cloth is level and smooth inadequately, need carry the department of ironing and unify and iron the processing, has increased workman's work load, makes tired out very of workman, has reduced production efficiency's problem.

The utility model relates to a loom with a super high precision device, which comprises a loom body 1; 2. an electric motor; 3. a cloth outlet; 4. a first take-up roll; 5. a support; 6. a ceramic ironing plate; 7. a second take-up roll; 8. a fabric; 9. a breast beam; 10. a shuttle; 11. a weft yarn; 12. a box base; 13. a first heald frame; 14. a second heald frame; 15. a dropper; 16. a rear beam; 17. warp yarns; 18. a beam of warp; 19. a steam valve; 20. a steam pipe; 21. the ironing holes, the components are all universal standard components or components known to those skilled in the art, and the structure and the principle of the ironing holes are known to those skilled in the art through technical manuals or through routine experimental methods.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (5)

1. A loom with a super high precision device comprises a loom body (1) and is characterized in that, the inner side wall of the loom body (1) is rotationally connected with a weaving shaft (18), the surface of the weaving shaft (18) is connected with warp yarns (17), the warp (17) is respectively connected with a first heald frame (13) and a second heald frame (14) through a back beam (16) and a dropper (15), the first heald frame (13) and the second heald frame (14) are connected with weft yarns (11) in an interweaving way through warp yarns (17), the weft yarns (11) are wrapped on the surface of the shuttle (10), the warp yarns (17) are connected with the fabric (8) through the box seat (12), the fabric (8) is connected with a first coiling roller (4) through a breast beam (9), the first coiling roller (4) is arranged at a cloth outlet (3) of the loom body (1), the fabric (8) is connected with a second coiling roller (7) through the bottom of the ceramic ironing plate (6).

2. Loom with ultra-high precision device according to claim 1, characterized in that said drop wires (15) are changed from 8 rows to 10 rows, made of jade, with smooth end faces.

3. Loom with extra high precision equipment according to claim 1, characterized in that the ceramic ironing plate (6) and the second take-up roll (7) are mounted on the surface of the support (5).

4. The loom of claim 1, characterized in that the top end of the ceramic ironing plate (6) is connected with a steam valve (19) through a steam pipe (20), and the surface of the ceramic ironing plate (6) is provided with a plurality of ironing holes (21).

5. The loom of claim 1, wherein the power input ends of the first take-up roll (4), the second take-up roll (7), the first heald frame (13), the second heald frame (14) and the beam (18) are connected with the power output end of the motor (2), and the motor (2) comprises a plurality of sets.

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