CN207293689U - It is a kind of to change material-receiving device for the two-way of Nonwovens Line - Google Patents
It is a kind of to change material-receiving device for the two-way of Nonwovens Line Download PDFInfo
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- CN207293689U CN207293689U CN201721166938.6U CN201721166938U CN207293689U CN 207293689 U CN207293689 U CN 207293689U CN 201721166938 U CN201721166938 U CN 201721166938U CN 207293689 U CN207293689 U CN 207293689U
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- fracture
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Abstract
The utility model discloses a kind of material-receiving device is changed for the two-way of Nonwovens Line, including support plate, material volume roller, transfer roller, electric cabinet, fracture component and splicing component, the splicing component is located at below fracture component, guidance set is equipped between the fracture component and splicing component, fracture component includes coordinating the first fracture component and the second fracture component, splicing component includes the first splicing component and the second splicing component, and guidance set includes the first guidance set and the second guidance set;First guidance set includes two the first guide rollers of installation on the supporting plate, and second guidance set includes two the second guide rollers of installation on the supporting plate.The utility model ensure that the stability and success rate of fracture and splicing at high speeds; can be in more than 200 ms/min speed; the two-way changing-over for either automatically or manually completing lay-by material is not shut down, not only reduces artificial input, and improve production efficiency (30%).
Description
Technical field
A kind of non-woven cloth production auxiliary tool is the utility model is related to, more particularly to one kind is used for Nonwovens Line
Two-way change material-receiving device.
Background technology
The each raw material of material roller of Nonwovens Line need to carry out shutdown feeding after being finished, and at present, have on the market
The device of changing-over material is carried out between two material rollers, by the raw material on the material roller when raw material expected on roller run low
The material roller head that afterbody is rolled up raw material with another carries out splicing operation, and still, the common material-receiving device that changes is typically all
Single cylinder fracture, during running at high speed, this kind changes material-receiving device fracture stability and fracture success rate cannot be guaranteed,
And the wide cut of raw material is restricted, use scope is restricted.
Utility model content
The utility model is in order to solve above-mentioned defect existing in the prior art and deficiency, there is provided one kind may insure to break
Material and splicing stability and success rate at high speeds, can in more than 200 ms/min speed, do not shut down automatically or
The two-way changing-over of lay-by material is manually completed, not only reduces artificial input, but also that improves production efficiency is used for non-woven cloth
The two-way of production line changes material-receiving device.
The technical solution of the utility model:It is a kind of to change material-receiving device, including support for the two-way of Nonwovens Line
Plate, two material volume rollers being arranged on above support plate, the transfer roller being arranged on below support plate, set on the supporting plate automatically controlled
Case, fracture component and splicing component, the splicing component is located at below fracture component, between the fracture component and splicing component
Equipped with guidance set, two material volume rollers are respectively the first material volume roller and the second material volume roller, and the fracture component includes coordinating first
First fracture component of material volume roller and the second fracture component for coordinating the second material volume roller, the splicing component include coordinating first to break
Expect the first splicing component of component and coordinate the second splicing component of the second fracture component, the guidance set includes coordinating first
First guidance set of material volume roller and the second guidance set for coordinating the second material volume roller;First guidance set includes being installed on
Two the first guide rollers in support plate, second guidance set include two the second guide rollers of installation on the supporting plate;
The first splicing component includes the first splicing frame, the first splicing plate being arranged on the first splicing frame and two drivings first and connects
First receiving cylinder of flitch action, the second splicing component include the second splicing frame, be arranged on the second splicing frame the
Two splicing plates and the second receiving cylinder of two driving the second splicing plate actions, size and the second splicing of the first splicing plate
The size of plate matches, and the position of the first splicing plate is corresponding with the position of the second splicing plate, the distance of two the first guide rollers
Match with the width of the first splicing frame, the distance of two the second guide rollers and the width of the second splicing frame match;Described
One fracture component includes the first fracture frame, the first fracture blade being arranged on the first fracture frame and three the first fracture knives of driving
First fracture cylinder of piece action, the second fracture component include the second fracture frame, second be arranged on the second fracture frame
Second fracture cylinder of fracture blade and three the second fracture blade actions of driving.
The utility model coordinates fracture blade to carry out fracture and carried out using double guide rollers former using three fracture cylinders
Material splicing is oriented to, it is ensured that the stability and success rate of fracture and splicing at high speeds, can be more than 200 ms/min
Speed, do not shut down the two-way changing-over for either automatically or manually completing lay-by material, not only reduce artificial input, and improve
Production efficiency (30%).
Preferably, the first splicing frame is equipped with the first knife inserting groove for coordinating the first fracture blade, second splicing
Frame is equipped with the second knife inserting groove for coordinating the second fracture blade.
This kind of structure facilitates the first fracture blade and the second fracture blade down to run, so as to be further ensured that fracture is reliable
Property.
Preferably, First Transition roller of the first guidance set side equipped with the first guidance set of cooperation, described second
Guidance set side is equipped with the second transition roller for coordinating the second guidance set, leads between the first fracture frame and the first splicing frame
The connection of the first movable positioning plate is crossed, is connected between the second fracture frame and the second splicing frame by the second movable positioning plate.
This kind of structure causes the fracture of its raw material splices to be oriented to more steadily reliably, while make fracture component and splicing group
Part forms an entirety, reduces vibrations, has prevented the factors of instability of reloading being likely to occur by poor rigidity.
Preferably, three the first fracture cylinders are respectively a first main fracture cylinder and are arranged on the first main fracture cylinder
The secondary fracture cylinder of two first of both sides, three the second fracture cylinders are respectively a second main fracture cylinder and are arranged on second
The secondary fracture cylinder of two second of main fracture cylinder both sides.
The utility model at the same time acts fracture blade using two countercylinders of a master cylinder collocation so that it is disconnected
Material is more steady reliable.
Preferably, the first fracture blade is connected by the piston rod bottom of the first main connection and the first main fracture cylinder
Connect, the first fracture blade is connected by the first secondary connector with the piston rod bottom of the first secondary fracture cylinder, second fracture
Blade is connected by the second main connection with the piston rod bottom of the second main fracture cylinder, and the second fracture blade is connected by the second pair
Connector is connected with the piston rod bottom of the second secondary fracture cylinder.
This kind of structure make it that the connection between fracture blade and fracture cylinder is more solid and reliable, further ensures that its fracture
Stability and reliability.
Preferably, the first fracture blade by the first blade fixed plate respectively with the first main connection and two first
Secondary connector connection, the second fracture blade are secondary with the second main connection and two second respectively by the second blade fixed plate
Connector connects.
This kind of structure make it that the connection between fracture blade and main connection and secondary connector is more solid and reliable, further
Ensure its fracture stability and reliability.
Preferably, two first straight line bearings and two the are equipped between the first fracture frame and the first blade fixed plate
One positioning guide rod, two first straight line bearings are arranged on the first main fracture cylinder both sides, and the described first secondary fracture cylinder is located at
Two the are equipped between first straight line bearing and the first positioning and guiding bar, between the second fracture frame and the second blade fixed plate
Two linear bearings and two the second positioning and guiding bars, two second straight line bearings are arranged on the second main fracture cylinder both sides, described
Second secondary fracture cylinder is located between second straight line bearing and the second positioning and guiding bar.
This kind of structure ensures the stability and reliability that fracture blade is run up and down, further ensures that the stability of its fracture
And reliability.
Preferably, the first splicing plate is connected by joint among three members with the piston rod end of the first receiving cylinder, institute
State the second splicing plate to be connected with the piston rod end of the second receiving cylinder by the 4th connector, the first splicing plate and second
Silicagel pad is equipped with splicing plate.
This kind of structure make it that the connection of splicing plate and receiving cylinder is more solid and reliable, while make it that splicing more stabilization can
Lean on.
Preferably, the 3rd that two the first splicing cylinders of cooperation are equipped between the first splicing plate and the first splicing frame is straight
Spool is held, and the 4th linear bearing of two the second receiving cylinders of cooperation is equipped between the second splicing plate and the second splicing frame.
This kind of structure make it that the forward-reverse of splicing plate is more steady reliable, thereby further ensures that splicing material steadily may be used
Lean on.
The utility model coordinates fracture blade to carry out fracture and carried out using double guide rollers former using three fracture cylinders
Material splicing is oriented to, it is ensured that the stability and success rate of fracture and splicing at high speeds, can be more than 200 ms/min
Speed, do not shut down the two-way changing-over for either automatically or manually completing lay-by material, not only reduce artificial input, and improve
Production efficiency (30%).
Brief description of the drawings
Fig. 1 is the structure diagram of the utility model;
Fig. 2 removes the front section view after material volume roller for the utility model;
Fig. 3 removes the schematic side view after material volume roller for the utility model;
Fig. 4 removes the schematic top plan view after material volume roller for the utility model;
Fig. 5 removes the section plan after material volume roller for the utility model;
1. first material volume roller in figure, 2. second material volume rollers, 3. first fracture components, 4. second fracture components, 5. first connect
Expect component, 6. second splicing components, 7. first guide rollers, 8. second guide rollers, 9. transfer rollers, 10. support plates, 11. first mistakes
Cross roller, 12. second transition rollers, 13. first movable positioning plates, 14. second movable positioning plates, 15. first splicing framves, 16. first
Splicing plate, 17. first receiving cylinders, 18. second splicing framves, 19. second splicing plates, 20. second receiving cylinders, 21. silicagel pads,
22. the first fracture frame, 23. first main fracture cylinders, 24. first secondary fracture cylinders, 25. first blade fixed plates, 26. first is disconnected
Expect blade, 27. first main connections, 28. first secondary connectors, 29. first knife inserting grooves, 30. second fracture framves, 31. second masters
Fracture cylinder, 32. second secondary fracture cylinders, 33. second blade fixed plates, 34. second main connections, 35. joints among three members,
36. the second fracture blade, 37. second knife inserting grooves, 38. first straight line bearings, 39. first positioning and guiding bars, 40. second straight line axis
Hold, 41. second positioning and guiding bars, 42. the 3rd linear bearings, 43. the 4th linear bearings, 44. electric cabinets, 45. the 4th connectors.
Embodiment
The utility model is described in further detail below in conjunction with the accompanying drawings, but is not that model is protected to the utility model
The limitation enclosed.
As shown in Figs. 1-5, it is a kind of to change material-receiving device, including support plate 10, setting for the two-way of Nonwovens Line
Two material volume rollers above support plate 10, the transfer roller 9 being arranged on below support plate 10, be arranged on it is automatically controlled in support plate 10
Case 44, fracture component and splicing component, splicing component are located at below fracture component.It is equipped with and leads between fracture component and splicing component
To component, two material volume rollers are respectively the first material volume roller 1 and the second material volume roller 2, and fracture component includes coordinating the first material volume roller 1
First fracture component 3 and the second fracture component 4 for coordinating the second material volume roller 2, splicing component include coordinating the first fracture component 3
First splicing component 5 and the second splicing component 6 for coordinating the second fracture component 4, guidance set include coordinating the first material volume roller 1
First guidance set and the second guidance set for coordinating the second material volume roller 2;First guidance set includes being installed in support plate 10
Two the first guide rollers 7, the second guidance set include be installed on support plate 10 on two the second guide rollers 8;First splicing
Component 5 includes the first splicing frame 15, the first splicing plate 16 being arranged on the first splicing frame 15 and two the first splicing plates of driving
First receiving cylinder 17 of 16 actions.Second splicing component 6 includes the second splicing frame 18, be arranged on the second splicing frame 18 the
Two splicing plates 19 and the second receiving cylinder 20 of two driving the second splicing plate 19 actions, the size and second of the first splicing plate 16
The size of splicing plate 19 matches, and the position of the first splicing plate 16 is corresponding with the position of the second splicing plate 19, and two first are led
Match to the distance and the width of the first splicing frame 15 of roller 7, the distance of two the second guide rollers 8 and the width of the second splicing frame 18
Degree matches.First fracture component 3 includes the first fracture frame 22,26 and of the first fracture blade being arranged on the first fracture frame 22
First fracture cylinder of three driving the first fracture blade 26 actions.Second fracture component 4 includes the second fracture frame 30, is arranged on
Second fracture cylinder of the second fracture blade 36 and three driving the second fracture blade 36 actions on the second fracture frame 30.First
Splicing frame 15 is equipped with the first knife inserting groove 29 for coordinating the first fracture blade 26, and the second splicing frame 18, which is equipped with, coordinates the second fracture
Second knife inserting groove 37 of blade 36.First Transition roller 11 of the first guidance set side equipped with the first guidance set of cooperation, second
Guidance set side is equipped with the second transition roller 12 for coordinating the second guidance set.Between first fracture frame 22 and the first splicing frame 15
Connected by the first movable positioning plate 13, connected between the second fracture frame 30 and the second splicing frame 18 by the second movable positioning plate 14
Connect.Three the first fracture cylinders are respectively a first main fracture cylinder 23 and are arranged on the two of the first main 23 both sides of fracture cylinder
A first secondary fracture cylinder 24, three the second fracture cylinders are respectively a second main fracture cylinder 31 and are arranged on the second master and break
Expect two second secondary fracture cylinders 32 of 31 both sides of cylinder.First fracture blade 26 is disconnected by the first main connection 27 and the first master
Expect the piston rod bottom connection of cylinder 23, the first fracture blade 26 passes through the first secondary secondary fracture cylinder 24 of connector 28 and first
Piston rod bottom connects, the piston rod bottom that the second fracture blade 36 passes through the second main connection 34 and the second main fracture cylinder 31
Connection, the second fracture blade 36 are connected by the second secondary connector with the piston rod bottom of the second secondary fracture cylinder 32.First is disconnected
Material blade 26 is connected with the first main connection 27 and two first secondary connectors 28 respectively by the first blade fixed plate 25, and second
Fracture blade 36 is connected with the second main connection 34 and two second secondary connectors respectively by the second blade fixed plate 33.First
It is equipped with two first straight line bearings 38 and two the first positioning and guiding bars 39 between 22 and first blade fixed plate 25 of fracture frame, two
A first straight line bearing 38 is arranged on the first main 23 both sides of fracture cylinder, and the first secondary fracture cylinder 24 is located at first straight line bearing 38
And first between positioning and guiding bar 39.Two second straight line bearings are equipped between second fracture frame 30 and the second blade fixed plate 33
40 and two the second positioning and guiding bars 41, two second straight line bearings 40 are arranged on the second main 31 both sides of fracture cylinder, and second is secondary
Fracture cylinder 32 is located between 40 and second positioning and guiding bar 41 of second straight line bearing.First splicing plate 16 passes through joint among three members
35 are connected with the piston rod end of the first receiving cylinder 17, and the second splicing plate 19 passes through the 4th connector 45 and the second receiving cylinder
20 piston rod end connects, and silicagel pad 21 is equipped with the first splicing plate 16 and the second splicing plate 19.First splicing plate 16 with
The 3rd linear bearing 42 of two the first splicing cylinders 17 of cooperation, the second splicing plate 19 and second are equipped between first splicing frame 15
The 4th linear bearing 43 of two the second receiving cylinders 20 of cooperation is equipped between splicing frame 18.
When the utility model is used, can be with two-way changing-over material, when the raw material on the first material volume roller run low (at this time,
Raw material on second material volume roller are completely rolled up), the first splicing component and the second splicing component are acted the former material on the first material volume roller
Expect that end passes through hot melt or other modes splicing with the raw material front end on the second material volume roller;Then the first fracture component acts
Raw material end on first material volume roller is cut off, the success of changing-over material;(this when the raw material on the second material volume roller run low
When, the raw material on the first material volume roller change new volume), the first splicing component and the action of the second splicing component are by the second material volume roller
Raw material end and the first material volume roller on raw material front end pass through hot melt or other modes splicing;Then the second fracture group
The raw material end on the second material volume roller is cut off in part action, the success of changing-over material.
The utility model coordinates fracture blade to carry out fracture and carried out using double guide rollers former using three fracture cylinders
Material splicing is oriented to, it is ensured that the stability and success rate of fracture and splicing at high speeds, can be more than 200 ms/min
Speed, do not shut down the two-way changing-over for either automatically or manually completing lay-by material, not only reduce artificial input, and improve
Production efficiency (30%).
Claims (9)
1. a kind of change material-receiving device for the two-way of Nonwovens Line, including support plate, be arranged on above support plate two
A material volume roller, the transfer roller being arranged on below support plate, electric cabinet, fracture component and the splicing component of setting on the supporting plate,
The splicing component is located at below fracture component, it is characterised in that:Guiding group is equipped between the fracture component and splicing component
Part, two material volume rollers are respectively the first material volume roller and the second material volume roller, and the fracture component includes coordinating the of the first material volume roller
One fracture component and the second fracture component for coordinating the second material volume roller, the splicing component include coordinating the of the first fracture component
One splicing component and the second splicing component for coordinating the second fracture component, the guidance set include coordinating the of the first material volume roller
One guidance set and the second guidance set for coordinating the second material volume roller;First guidance set includes installing on the supporting plate
Two the first guide rollers, second guidance set include two the second guide rollers of installation on the supporting plate;Described first connects
Material component includes what the first splicing frame, the first splicing plate being arranged on the first splicing frame and two the first splicing plates of driving acted
First receiving cylinder, the second splicing component include the second splicing frame, the second splicing plate for being arranged on the second splicing frame and
Second receiving cylinder of two driving the second splicing plate actions, the size of the first splicing plate and the size phase of the second splicing plate
Matching, the position of the first splicing plate is corresponding with the position of the second splicing plate, the distance of two the first guide rollers and the first splicing
The width of frame matches, and the distance of two the second guide rollers and the width of the second splicing frame match;The first fracture component
Include the of the first fracture frame, the first fracture blade being arranged on the first fracture frame and three the first fracture blade actions of driving
One fracture cylinder, the second fracture component include the second fracture frame, the second fracture blade for being arranged on the second fracture frame and
Second fracture cylinder of three the second fracture blade actions of driving.
2. a kind of material-receiving device is changed according to claim 1 for the two-way of Nonwovens Line, it is characterised in that:Institute
State the first splicing frame and be equipped with the first knife inserting groove for coordinating the first fracture blade, the second splicing frame, which is equipped with, coordinates second to break
Expect the second knife inserting groove of blade.
3. a kind of material-receiving device is changed according to claim 1 for the two-way of Nonwovens Line, it is characterised in that:Institute
State the first guidance set side and be equipped with the First Transition roller for coordinating the first guidance set, the second guidance set side, which is equipped with, matches somebody with somebody
The second transition roller of the second guidance set is closed, is connected between the first fracture frame and the first splicing frame by the first movable positioning plate
Connect, connected between the second fracture frame and the second splicing frame by the second movable positioning plate.
4. a kind of material-receiving device is changed according to claim 1 for the two-way of Nonwovens Line, it is characterised in that:Three
A first fracture cylinder is respectively a first main fracture cylinder and is arranged on two first pairs of the first main fracture cylinder both sides
Fracture cylinder, three the second fracture cylinders are respectively a second main fracture cylinder and are arranged on the second main fracture cylinder both sides
Two second secondary fracture cylinders.
5. a kind of material-receiving device is changed according to claim 4 for the two-way of Nonwovens Line, it is characterised in that:Institute
State the first fracture blade to be connected with the piston rod bottom of the first main fracture cylinder by the first main connection, the first fracture blade leads to
The piston rod bottom that the first secondary connector is crossed with the first secondary fracture cylinder is connected, and the second fracture blade passes through the second main connection
Head is connected with the piston rod bottom of the second main fracture cylinder, and the second fracture blade passes through the second secondary connector and the second secondary fracture gas
The piston rod bottom connection of cylinder.
6. a kind of material-receiving device is changed according to claim 5 for the two-way of Nonwovens Line, it is characterised in that:Institute
The first fracture blade is stated to be connected with the first main connection and two first secondary connectors respectively by the first blade fixed plate, it is described
Second fracture blade is connected with the second main connection and two second secondary connectors respectively by the second blade fixed plate.
7. a kind of material-receiving device is changed according to claim 6 for the two-way of Nonwovens Line, it is characterised in that:Institute
State and two first straight line bearings and two the first positioning and guiding bars are equipped between the first fracture frame and the first blade fixed plate, two
First straight line bearing is arranged on the first main fracture cylinder both sides, and the described first secondary fracture cylinder is located at first straight line bearing and first
Two second straight line bearings and two the are equipped between positioning and guiding bar, between the second fracture frame and the second blade fixed plate
Two positioning and guiding bars, two second straight line bearings are arranged on the second main fracture cylinder both sides, and the described second secondary fracture cylinder is located at
Between second straight line bearing and the second positioning and guiding bar.
8. a kind of material-receiving device is changed according to claim 1 for the two-way of Nonwovens Line, it is characterised in that:Institute
State the first splicing plate to be connected with the piston rod end of the first receiving cylinder by joint among three members, the second splicing plate passes through
Four connectors are connected with the piston rod end of the second receiving cylinder, and silica gel is equipped with the first splicing plate and the second splicing plate
Pad.
9. a kind of material-receiving device is changed according to claim 8 for the two-way of Nonwovens Line, it is characterised in that:Institute
The 3rd linear bearing that two the first splicing cylinders of cooperation are equipped between the first splicing plate and the first splicing frame is stated, described second connects
The 4th linear bearing of two the second receiving cylinders of cooperation is equipped between flitch and the second splicing frame.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721166938.6U CN207293689U (en) | 2017-09-13 | 2017-09-13 | It is a kind of to change material-receiving device for the two-way of Nonwovens Line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721166938.6U CN207293689U (en) | 2017-09-13 | 2017-09-13 | It is a kind of to change material-receiving device for the two-way of Nonwovens Line |
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Publication Number | Publication Date |
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CN207293689U true CN207293689U (en) | 2018-05-01 |
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ID=62447068
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CN201721166938.6U Active CN207293689U (en) | 2017-09-13 | 2017-09-13 | It is a kind of to change material-receiving device for the two-way of Nonwovens Line |
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CN (1) | CN207293689U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114104801A (en) * | 2021-12-06 | 2022-03-01 | 大途科技(泉州)有限公司 | Full-automatic material breaking and receiving device and production process thereof |
-
2017
- 2017-09-13 CN CN201721166938.6U patent/CN207293689U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114104801A (en) * | 2021-12-06 | 2022-03-01 | 大途科技(泉州)有限公司 | Full-automatic material breaking and receiving device and production process thereof |
CN114104801B (en) * | 2021-12-06 | 2024-05-10 | 大途科技(泉州)有限公司 | Full-automatic material breaking and receiving device and production process thereof |
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Legal Events
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GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder | ||
CP01 | Change in the name or title of a patent holder |
Address after: 311115 No. 2 Yangcheng Road, Pingyao Town, Yuhang District, Hangzhou City, Zhejiang Province Patentee after: Zhejiang Xinfu Nonwovens Technology Co., Ltd. Address before: 311115 No. 2 Yangcheng Road, Pingyao Town, Yuhang District, Hangzhou City, Zhejiang Province Patentee before: HANGZHOU XINFU INDUSTRIAL CO., LTD. |