CN103541133B - Textile cutting device - Google Patents
Textile cutting device Download PDFInfo
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- CN103541133B CN103541133B CN201310550392.4A CN201310550392A CN103541133B CN 103541133 B CN103541133 B CN 103541133B CN 201310550392 A CN201310550392 A CN 201310550392A CN 103541133 B CN103541133 B CN 103541133B
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Abstract
The present invention relates to cloth cover and the parallel cutter sweep of field of textile machinery, in particular to a kind of textile cutting device.It comprises weft yarn cutting mechanism (20) and slitter edge shearing mechanism (30), and described weft yarn cutting mechanism (20) is made up of fixed mount (21), knife rest (22), upper knife plate (23) and lower knife plate (24); Described slitter edge shearing mechanism (30) is made up of Connection Block (31), tool rest (35), top blade (32) and bottom knife (33).Fixed mount (21) and tool rest (35) are equipped with cam jacking block (52), and cam jacking block (52) is resisted against on cam (51), and cam (51) is arranged in the rotating shaft (50) of loom (10).When loom (10) works, the drive unit of loom (10) drives rotating shaft (50) to rotate simultaneously, and then drive the work of weft yarn cutting mechanism (20) and slitter edge shearing mechanism (30) to shear weft yarn and slitter edge, without the need to increasing driving arrangement in addition, and then save cost.
Description
Technical field
The present invention relates to cloth cover and the parallel cutter sweep of field of textile machinery, in particular to a kind of textile cutting device.
Background technology
Current known checked cloth loom is equipped with weft yarn cutter can only cut common glass fibre yarn, normally cannot cut composite yarn, and one only has several hours in the life-span of weft yarn cutter, cause checked cloth loom normally to produce, cause production efficiency low, member replacing cost is higher.In addition, cutting mechanism of the prior art carries out work by being in addition equipped with driving mechanism, and loom accessory increases, thus cost is increased.
Such as application number is the Chinese utility model patent of 200820024059.4, it discloses a kind of weft yarn slitter edge shearing mechanism, comprise fixed support and be arranged on the cutting mechanism on fixed support, described cutting mechanism is, one blade installing plate one end be hinged on fixed support arranges blade, the roller bearing that the other end is provided with contacts with driving cam, is provided with spring between blade installing plate and fixed support; To match with the blade on blade installing plate and the below being positioned at blade is provided with the chopping block be fixed on fixed support.Because the impact cutting action of blade is no longer by the restriction of blade pressing pressing force of the spring, but actively controlled by cam, become and be cut into impact cutting, therefore its accommodation is widened greatly, weft yarn regardless of which kind of type all can easily cut off, compared with old-fashioned shear, number of parts is few, mechanism is simple, and blade also no longer adopts expensive alloy material, adopts common material to meet instructions for use, cost is low, but this cutting mechanism carries out work by being in addition equipped with driving mechanism, and loom accessory increases, thus makes cost increase.
Such as application number is the Chinese utility model patent of 201220185267.9 again, and it discloses a kind of slitter edge free shear for loom, it comprises body frame, transmission device, support, setting spacer on the bracket, cutter; Described spacer is arranged weft yarn hook, also comprise swing arm, described cutter is connected in swing arm, and the movement locus of described cutter is arranged at the plane inside spacer, this apparatus structure is simple, it is convenient to shear, and makes cloth not have slitter edge, saves cost, can find out that transmission device is arranged on the body frame of loom by accompanying drawing, the working space of body frame certainly will be decreased like this, and need to provide power source to carry out drive transmission work in addition, certainly will cost be added.
Summary of the invention
The object of this invention is to provide a kind of textile cutting device, the frame that the weft yarn cutting mechanism in this device and slitter edge shearing mechanism are arranged on loom works asynchronously with loom, there is the feature of good stability, but also decrease the replacement frequency of blade; The power resources of weft yarn cutting mechanism and slitter edge shearing mechanism, in the drive motors of loom, like this without the need to being additionally that weft yarn cutting mechanism and slitter edge shearing mechanism arrange power source, certainly will decrease power consumption, thus reduce production cost.
In order to realize above-mentioned purpose of design, the scheme that the present invention adopts is as follows:
A kind of textile cutting device, it comprises weft yarn cutting mechanism and slitter edge shearing mechanism, described weft yarn cutting mechanism and slitter edge shearing mechanism are driven by the motor of loom, like this without the need to being additionally weft yarn cutting mechanism and slitter edge shearing mechanism arranging power source, certainly will power consumption be decreased, thus reduce production cost.
Preferably, described weft yarn cutting mechanism comprises fixed mount, knife rest, upper knife plate and lower knife plate; Described slitter edge shearing mechanism comprises Connection Block, tool rest, top blade and bottom knife.
Lower knife plate is connected with knife rest, and knife rest is fixed on fixed mount, therefore lower knife plate is relative and fixed mount is static; Lower knife plate rotatably is linked together by connecting pin, and lower knife plate can rotate relative to upper knife plate, and the end of lower knife plate is connected with fixed mount rotatability, because be provided with bearing in the junction of lower knife plate and fixed mount.In the course of work, when weft yarn is introduced, upper knife plate lifts just, when upper knife plate move to coordinate with lower knife plate time, weft yarn has been still on lower knife plate, now by upper knife plate, weft yarn is cut off.Because upper knife plate is actively controlled by cam, become and be cut into impact cutting, therefore accommodation more light, the weft yarn regardless of which kind of type all can easily cut off.
In above-mentioned either a program preferably, described knife rest and tool rest are equipped with cam jacking block.When loom remains static, under gravity, cam jacking block is resisted against on the cam in rotating shaft; During loom work, rotating shaft rotarily drives cam in rotating shaft and rotates, and when cam rotates to peak, by the cam jacking block upwards jack-up on knife rest, pushes one end of knife rest to peak, and the upper knife plate at this moment on knife rest moves downward to coordinate with lower knife plate shears weft yarn.
In above-mentioned either a program preferably, described cam jacking block is resisted against on cam.
In above-mentioned either a program preferably, described cam is arranged in the rotating shaft of loom.
When the electric motor starting of loom, rotating shaft on loom starts to rotate, thus the cam in drive rotating shaft rotates, by the cam jacking block jack-up of knife rest when cam rotates to peak, in the process of cam jacking block upwards jack-up, the knife rest promoting upper knife plate is rotated around connecting pin, thus knife plate is moved up and down cut-out weft yarn.
In above-mentioned either a program preferably, described lower knife plate is fixed by screws on knife rest.
In above-mentioned either a program preferably, the front end of described upper knife plate is linked together by connecting pin and knife rest.
In above-mentioned either a program preferably, the connecting portion of described connecting pin and knife rest is provided with spring.When upper knife plate and lower knife plate depart from, carry out by regulating spring contiguous block the distance that holddown spring regulates upper knife plate and lower knife plate, this mechanism is normally worked.
In above-mentioned either a program preferably, the rear end of described upper knife plate is linked together by spring contiguous block and fixed mount.
In above-mentioned either a program preferably, the junction of described connecting pin and upper knife plate is provided with bearing.
In above-mentioned either a program preferably, the end of described upper knife plate is resisted against in the outer rim of cam.
In above-mentioned either a program preferably, the front end of described fixed mount is provided with hook.After weft yarn is passed by shuttle, by the motion of steel button, weft yarn is hooked on hook, thus weft yarn is cut off by weft yarn cutting mechanism.
In above-mentioned either a program preferably, described bottom knife is linked together by screw and Connection Block.
In above-mentioned either a program preferably, the frame of described Connection Block and loom links together.Bottom knife is linked together by screw and Connection Block, and the frame of Connection Block and loom links together, and therefore bottom knife is static relative to Connection Block.Slitter edge shearing mechanism is sheared in the slitter edge process of cloth cover, only have top blade to carry out the shearing cloth cover that moves up and down, and bottom knife remains static.
In above-mentioned either a program preferably, described top blade is linked together by screw and tool rest.
In above-mentioned either a program preferably, described top blade and bottom knife are linked together by pin.
In above-mentioned either a program preferably, the junction of described pin and tool rest is provided with spring.When top blade and bottom knife depart from, carry out by regulating spring contiguous block the distance that holddown spring regulates top blade and bottom knife, this mechanism is normally worked.
When the electric motor starting of loom, rotating shaft on loom starts to rotate, thus the cam in drive rotating shaft rotates, by the cam jacking block jack-up on tool rest when cam rotates to peak, the tool rest that will promote top blade in the process of cam jacking block upwards jack-up rotates around pin respectively, thus top blade is moved up and down cut the slitter edge of cloth cover.
The operation principle of textile cutting device of the present invention is: when the electric motor starting of loom, rotating shaft on loom rotates, thus band moving cam rotates, the upper knife plate in weft yarn cutting mechanism and the top blade in slitter edge shearing mechanism is driven by the cam jacking block driven in weft yarn cutting mechanism and slitter edge shearing mechanism to move up and down in cam rotary course, and then weft yarn is cut off, slitter edge is cut off.
In sum, textile cutting device of the present invention has following advantage: the frame that the weft yarn cutting mechanism in this device and slitter edge shearing mechanism are arranged on loom works asynchronously with loom, has the feature of good stability, but also decrease the replacement frequency of blade; The power resources of weft yarn cutting mechanism and slitter edge shearing mechanism, in the drive motors of loom, like this without the need to being additionally that weft yarn cutting mechanism and slitter edge shearing mechanism arrange power source, certainly will decrease power consumption, thus reduce production cost; Moved up and down by knife plate on cam driven, when weft yarn is introduced, upper knife plate lifts just, when upper knife plate move to coordinate with lower knife plate time, weft yarn has been still on lower knife plate, now by upper knife plate, weft yarn is cut off.Because upper knife plate is actively controlled by cam, become and be cut into impact cutting, therefore accommodation more light, the weft yarn regardless of which kind of type all can easily cut off.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of the preferred embodiment according to textile cutting device of the present invention.
Fig. 2 is the reduced graph of the Fig. 1 according to textile cutting device of the present invention.
Fig. 3 is the structural representation of the weft yarn cutting mechanism shown in the Fig. 1 according to textile cutting device of the present invention.
Fig. 4 is the front view of the weft yarn cutting mechanism shown in the Fig. 1 according to textile cutting device of the present invention.
Fig. 5 is the top view of the weft yarn cutting mechanism shown in the Fig. 1 according to textile cutting device of the present invention.
Fig. 6 is the front view of the slitter edge shearing mechanism shown in the Fig. 1 according to textile cutting device of the present invention.
Fig. 7 is the top view of the slitter edge shearing mechanism shown in the Fig. 1 according to textile cutting device of the present invention.
Number in the figure illustrates:
Loom 10, weft yarn cutting mechanism 20, fixed mount 21, knife rest 22, upper knife plate 23, lower knife plate 24, bearing 25, hook 26, spring contiguous block 27, connecting pin 28, spring 29, slitter edge shearing mechanism 30, Connection Block 31, top blade 32, bottom knife 33, pin 34, tool rest 35, warp thread 40, rotating shaft 50, cam 51, cam jacking block 52, weft yarn 60.
Detailed description of the invention
In order to understand according to textile cutting device of the present invention better, below in conjunction with accompanying drawing, the specific embodiment according to textile cutting device of the present invention is described.
With reference to figure 1, according to the overall structure schematic diagram of textile cutting device of the present invention.A kind of textile cutting device, it comprises weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30, weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30 are driven by the motor of loom 10, like this without the need to additionally arranging power source for weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30, certainly will power consumption be decreased, thus reduce production cost.As shown in Figure 2, the structure diagram of textile cutting device of the present invention.When after the electric motor starting on loom 10, warp thread 40 and weft yarn 60 are run along length direction and width respectively by the guiding of shuttle and finally form cloth cover.When loom 10 works, drive rotating shaft 50 to rotate, in the rotary course of rotating shaft 50, the weft yarn cutting mechanism 20 driven in rotating shaft 50 and slitter edge shearing mechanism 30 are worked, carry out the slitter edge cutting off weft yarn 60, excision cloth cover.
Textile cutting device of the present invention, the frame that the weft yarn cutting mechanism 20 in this device and slitter edge shearing mechanism 30 are arranged on loom 10 works asynchronously with loom 10, has the feature of good stability, but also decrease the replacement frequency of blade; The power resources of weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30, in the drive motors of loom 10, like this without the need to additionally arranging power source for weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30, certainly will decrease power consumption, thus reduce production cost.
Next consult shown in Fig. 3, the structural representation of weft yarn cutting mechanism in the present invention.In the present embodiment, described weft yarn cutting mechanism 20 comprises fixed mount 21, knife rest 22, upper knife plate 23 and lower knife plate 24.Lower knife plate 24 is connected with knife rest 22, and knife rest is fixed on fixed mount 21, therefore lower knife plate 24 is relative and fixed mount 21 is static; Lower knife plate 24 rotatably is linked together by connecting pin 28, and lower knife plate 24 can rotate relative to upper knife plate 23, and the end of lower knife plate 24 is connected with fixed mount 21 rotatability, because be provided with bearing 25 at lower knife plate 24 with the junction of fixed mount 21.In the course of work, when weft yarn 60 is introduced, upper knife plate 23 lifts just, when upper knife plate 23 move to coordinate with lower knife plate 24 time, weft yarn 60 has been still on lower knife plate 24, now by upper knife plate 23, weft yarn 60 is cut off.Because upper knife plate 23 is actively controlled by cam 50, become and be cut into impact cutting, therefore accommodation more light, the weft yarn regardless of which kind of type all can easily cut off.
Found out by Fig. 1, the fixed mount 21 of weft yarn cutting mechanism 20 is arranged in the frame of loom 10, adopt this mounting means to greatly reduce the mounting parts of weft yarn cutting mechanism 20, the drive unit of loom 10 easy to use can drive the work of weft yarn cutting mechanism 20 in addition.When loom 10 works, the motor of loom 10 drives weft yarn cutting mechanism 20 to work asynchronously simultaneously, and therefore avoiding weft yarn cutting mechanism 20 additionally increases drive unit, thus decreases power consumption, reduces production cost.
Next consult shown in Fig. 4, the front view of weft yarn cutting mechanism in the present invention.Shown in this figure, when weft yarn 60 is introduced, upper knife plate 23 lifts just, when upper knife plate 23 move to coordinate with lower knife plate 24 time, weft yarn 60 has been still on lower knife plate 24, now by upper knife plate 23, weft yarn 60 is cut off.Because upper knife plate 23 is actively controlled by cam 50, become and be cut into impact cutting, therefore accommodation more light, the weft yarn regardless of which kind of type all can easily cut off.
In the present embodiment, described knife rest 22 is provided with cam jacking block 52.When loom 10 remains static, under gravity, cam jacking block 52 is resisted against on the cam 51 in rotating shaft 50; When loom 10 works, the cam 51 that rotating shaft 50 rotarily drives in rotating shaft 50 rotates, when cam 51 rotates to peak, by the cam jacking block 52 upwards jack-up on knife rest 22, push one end of knife rest 22 to peak, the upper knife plate 23 at this moment on knife rest 22 moves downward to coordinate with lower knife plate 24 shears weft yarn 60.
In the present embodiment, described lower knife plate 24 is fixed by screws on knife rest 22.
In the present embodiment, the front end of described upper knife plate 23 is linked together by connecting pin 28 and knife rest 22.Upper knife plate 23 in order to ensure that upper knife plate 23 can move up and down on knife rest 22, therefore adopts connecting pin 28 by between upper knife plate 23 and knife rest 22, so when under the effect having external force, will rotate around the axle center of connecting pin 28.
As shown in Figure 5, the top view of weft yarn cutting mechanism in the present invention.In the present embodiment, described connecting pin 28 is provided with spring 29 with the connecting portion of knife rest 22.When upper knife plate 23 departs from lower knife plate 24, carry out holddown spring 29 by regulating spring contiguous block 27 and regulate upper knife plate 23 and the distance of lower knife plate 24, this mechanism is normally worked.
In the present embodiment, the rear end of described upper knife plate 23 is linked together by spring contiguous block 27 and fixed mount 22.
In the present embodiment, described connecting pin 28 is provided with bearing 25 with the junction of upper knife plate 23.Upper knife plate 23 descends knife plate 24 to rotate relatively, in order to ensure that upper knife plate 23 can rotate neatly under the support of knife rest 22, therefore is provided with bearing 25 in the junction of connecting pin 28 and upper knife plate 23.
In the present embodiment, the end of described upper knife plate 23 is resisted against in the outer rim of cam 51.Because upper knife plate 23 is actively controlled by cam 50, become and be cut into impact cutting, therefore accommodation more light, the weft yarn regardless of which kind of type all can easily cut off.
In the present embodiment, the front end of described fixed mount 22 is provided with hook 26.After weft yarn 60 is passed by shuttle, by the motion of steel button, weft yarn 60 is hooked on hook 26, thus weft yarn 60 is cut off by weft yarn cutting mechanism 20.
When the electric motor starting of loom 10, rotating shaft 50 on loom 10 starts to rotate, thus drive the cam 51 in rotating shaft 50 to rotate, by cam jacking block 52 jack-up on knife rest 22 when cam 51 rotates to peak, in the process of cam jacking block 52 upwards jack-up, the knife rest 22 promoting upper knife plate 23 is rotated around connecting pin 28, thus knife plate 23 is moved up and down cut off weft yarn 60.
As shown in Figure 6 and Figure 7, the structural representation of slitter edge shearing mechanism in the present invention.Described slitter edge shearing mechanism 30 comprises Connection Block 31, tool rest 35, top blade 32 and bottom knife 33.
In the present embodiment, the end of described tool rest 35 is provided with cam jacking block 52.In the course of work, top blade 32 on tool rest 35 can carry out moving up and down and to match with bottom knife 33 under the promotion of cam jacking block 52, and then is cut off by the slitter edge of cloth cover.
In the present embodiment, described cam jacking block 52 is resisted against on cam 51.
In the present embodiment, described cam 51 is arranged in the rotating shaft 50 of loom 10.After the electric motor starting of loom 10, rotating shaft 50 rotates under the drive of motor, and because cam 51 is arranged in rotating shaft 50, and phase countershaft 50 is static, therefore in rotating shaft 50 rotary course, is rotated by band moving cam 51.
In the present embodiment, described bottom knife 33 is linked together by screw and Connection Block 31.
In the present embodiment, described Connection Block 31 links together with the frame of loom 10.
Bottom knife 33 is linked together by screw and Connection Block 31, and Connection Block 31 and the frame of loom 10 link together, and therefore bottom knife 33 is static relative to Connection Block 31.Slitter edge shearing mechanism 30 is sheared in the slitter edge process of cloth cover, only have top blade 32 to carry out the shearing cloth cover that moves up and down, and bottom knife 33 remains static.
In the present embodiment, described top blade 32 is linked together by screw and tool rest 35.
In the present embodiment, described top blade 32 is linked together by pin 34 with bottom knife 33.
Top blade 32 is linked together by screw and tool rest 35, and top blade 32 and bottom knife 33 are linked together by pin 34, therefore the relative tool rest 35 of top blade 32 is static.In slitter edge shearing mechanism 30 course of work, bottom knife 33 remains static, and top blade 32 moves up and down under the effect of cam jacking block 52, thus is cut off by the slitter edge of cloth cover.
In the present embodiment, described pin 34 is provided with spring 29 with the junction of tool rest 35.When top blade 32 departs from bottom knife 33, carry out holddown spring 29 by regulating spring contiguous block 27 and regulate top blade 32 and the distance of bottom knife 33, this mechanism is normally worked.
When the electric motor starting of loom 10, rotating shaft 50 on loom 10 starts to rotate, thus drive the cam 51 in rotating shaft 50 to rotate, by cam jacking block 52 jack-up on tool rest 35 when cam 51 rotates to peak, in the process of cam jacking block 52 upwards jack-up, the tool rest 35 promoting top blade 32 is rotated around pin 34 respectively, thus top blade 32 is moved up and down cut the slitter edge of cloth cover.
The operation principle of textile cutting device of the present invention is: when the electric motor starting of loom 10, rotating shaft 50 on loom 10 rotates, thus band moving cam 51 rotates, the upper knife plate 23 in weft yarn cutting mechanism 20 and the top blade 32 in slitter edge shearing mechanism 30 is driven to move up and down the cam jacking block 52 driven in weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30 in cam 51 rotary course, and then weft yarn 60 is cut off, slitter edge is cut off.
In sum, textile cutting device of the present invention has following advantage: the frame that the weft yarn cutting mechanism 20 in this device and slitter edge shearing mechanism 30 are arranged on loom 10 works asynchronously with loom 10, there is the feature of good stability, but also decrease the replacement frequency of blade; The power resources of weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30, in the drive motors of loom 10, like this without the need to additionally arranging power source for weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30, certainly will decrease power consumption, thus reduce production cost; Drive upper knife plate 23 to move up and down by cam 50, when weft yarn 60 is introduced, upper knife plate 23 lifts just, when upper knife plate 23 move to coordinate with lower knife plate 24 time, weft yarn 60 has been still on lower knife plate 24, now by upper knife plate 23, weft yarn 60 is cut off.Because upper knife plate 23 is actively controlled by cam 50, become and be cut into impact cutting, therefore accommodation more light, the weft yarn regardless of which kind of type all can easily cut off.Compared with prior art, weft yarn cutting mechanism 20 and slitter edge shearing mechanism 30 decrease the quantity of part, and cost significantly declines.
It will be apparent to those skilled in the art that textile cutting device of the present invention comprises any combination of each several part in this description.As space is limited and in order to make the simple and clear of description, these combinations are not introduced one by one in detail at this, but after having seen this description, the scope of the present invention that any combination of each several part be made up of this description is formed is self-evident, does not therefore add and repeats.
Claims (13)
1. a textile cutting device, it comprises weft yarn cutting mechanism (20) and slitter edge shearing mechanism (30), it is characterized in that: weft yarn cutting mechanism (20) and slitter edge shearing mechanism (30) are driven by the motor of loom (10); The frame that weft yarn cutting mechanism (20) in this device and slitter edge shearing mechanism (30) are arranged on loom (10) works asynchronously with loom (10); Weft yarn cutting mechanism (20) comprises fixed mount (21), knife rest (22), upper knife plate (23) and lower knife plate (24); Described slitter edge shearing mechanism (30) comprises Connection Block (31), tool rest (35), top blade (32) and bottom knife (33); Knife rest (22) and tool rest (35) are equipped with cam jacking block (52); Cam jacking block (52) is resisted against on cam (51); Cam (51) is arranged in the rotating shaft (50) of loom (10).
2. textile cutting device as claimed in claim 1, is characterized in that: lower knife plate (24) is fixed by screws on knife rest (22).
3. textile cutting device as claimed in claim 1, is characterized in that: the front end of upper knife plate (23) is linked together by connecting pin (28) and knife rest (22).
4. textile cutting device as claimed in claim 3, is characterized in that: connecting pin (28) is provided with spring (29) with the connecting portion of knife rest (22).
5. textile cutting device as claimed in claim 1, is characterized in that: the rear end of upper knife plate (23) is linked together by spring contiguous block (27) and fixed mount (21).
6. textile cutting device as claimed in claim 3, is characterized in that: connecting pin (28) is provided with bearing (25) with the junction of upper knife plate (23).
7. textile cutting device as claimed in claim 1, is characterized in that: the end of upper knife plate (23) is resisted against in the outer rim of cam (51).
8. textile cutting device as claimed in claim 1, is characterized in that: the front end of fixed mount (21) is provided with hook (26).
9. textile cutting device as claimed in claim 1, is characterized in that: bottom knife (33) is linked together by screw and Connection Block (31).
10. textile cutting device as claimed in claim 9, is characterized in that: Connection Block (31) links together with the frame of loom (10).
11. textile cutting devices as claimed in claim 1, is characterized in that: top blade (32) is linked together by screw and tool rest (35).
12. textile cutting devices as claimed in claim 1, is characterized in that: top blade (32) and bottom knife (33) are linked together by pin (34).
13. textile cutting devices as claimed in claim 12, is characterized in that: pin (34) is provided with spring (29) with the junction of tool rest (35).
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310550392.4A CN103541133B (en) | 2013-11-08 | 2013-11-08 | Textile cutting device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201310550392.4A CN103541133B (en) | 2013-11-08 | 2013-11-08 | Textile cutting device |
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| CN103541133A CN103541133A (en) | 2014-01-29 |
| CN103541133B true CN103541133B (en) | 2015-10-21 |
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| CN201310550392.4A Active CN103541133B (en) | 2013-11-08 | 2013-11-08 | Textile cutting device |
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Families Citing this family (6)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN103541133B (en) * | 2013-11-08 | 2015-10-21 | 振石集团恒石纤维基业有限公司 | Textile cutting device |
| CN103993409B (en) * | 2014-05-13 | 2016-01-06 | 绍兴纺织机械集团有限公司 | A kind of High Speed Rapier Loom |
| CN107366153B (en) * | 2017-07-28 | 2022-12-13 | 盐城市星地通信设备有限公司 | Strip cutting mechanism |
| CN108796790B (en) * | 2018-06-29 | 2020-08-04 | 微山天虹科技有限公司 | Cotton thread cutting device |
| CN110331570B (en) * | 2019-06-26 | 2024-03-12 | 湖南莎丽袜业股份有限公司 | Quick shearing machine for processing anti-cracking socks |
| CN113774549B (en) * | 2021-09-02 | 2022-12-16 | 江苏莱纳多智能装备有限公司 | Cam-controlled weft scissors for air-jet loom |
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