CN213867038U - Automatic cutting machine for fabric - Google Patents
Automatic cutting machine for fabric Download PDFInfo
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- CN213867038U CN213867038U CN202022929495.XU CN202022929495U CN213867038U CN 213867038 U CN213867038 U CN 213867038U CN 202022929495 U CN202022929495 U CN 202022929495U CN 213867038 U CN213867038 U CN 213867038U
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Abstract
The utility model discloses an automatic cutter of fabric, including feeding mechanism, cutting mechanism and receiving agencies between be equipped with storage mechanism, the material of cutting mechanism output carries receiving agencies behind storage mechanism again. The utility model discloses a be equipped with storage mechanism between receiving agencies and cutting mechanism, storage mechanism can interim storage, is convenient for adjust receiving agencies's rotational speed, makes receiving agencies be convenient for control, can not take place the rotational speed too fast and influence the precision of cutting out or receiving agencies's rotational speed too slow and take place to pile up, block the steady operation that influences receiving agencies, damage receiving agencies even when serious.
Description
Technical Field
The utility model relates to a cutting device, in particular to an automatic fabric cutting machine.
Background
Cloth is often cut by a cutting machine, and the structure of the cutting machine generally comprises three parts, namely a feeding mechanism, a secondary cutting mechanism and a receiving mechanism. The feeding mechanism conveys the cloth to the cutting mechanism, the cutting mechanism cuts the cloth, and the cut cloth is received by the receiving mechanism.
In the existing device, the feeding speed of the feeding mechanism is determined by the cutting speed of the cutting mechanism, and the speeds of the feeding mechanism and the cutting mechanism are convenient to adjust and control; however, the cutting speed varies during cutting due to different cutting requirements or different cloth materials. The movement speed of the material receiving mechanism is difficult to control due to the change, and if the material receiving speed is low, materials can be accumulated and block the material receiving mechanism; if the material receiving speed is fast, the cloth may be too tight to affect the cutting precision.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide an automatic cutter of fabric, the device is through being equipped with storage mechanism between receiving agencies and cutting mechanism, and storage mechanism can interim storage, is convenient for adjust receiving agencies's rotational speed, makes receiving agencies be convenient for control, can not take place the rotational speed too fast and influence the precision of cutting out or receiving agencies's rotational speed too slow and take place to pile up, block the steady operation that influences receiving agencies, damage receiving agencies even when serious.
In order to solve the above technical problem, the utility model discloses a following technical means:
the utility model provides an automatic cutter of fabric, includes feeding mechanism, cutting mechanism and receiving agencies between be equipped with storage mechanism, the material of cutting mechanism output carries receiving agencies behind storage mechanism again.
The utility model discloses a be equipped with storage mechanism between receiving agencies and cutting mechanism, storage mechanism can interim storage, is convenient for adjust receiving agencies's rotational speed, makes receiving agencies be convenient for control, can not take place the rotational speed too fast and influence the precision of cutting out or receiving agencies's rotational speed too slow and take place to pile up, block the steady operation that influences receiving agencies, damage receiving agencies even when serious.
As a further improvement to the technical scheme:
the material storage mechanism is a material storage hopper, the height of the material storage hopper is smaller than that of the material receiving mechanism, and the height of the material receiving mechanism is smaller than that of the cutting mechanism.
The height of the storage hopper is smaller than that of the receiving mechanism, and the height of the storage hopper is also smaller than that of the cutting mechanism, so that the storage hopper can timely bear cloth cut by the cutting mechanism, and the fabric is stacked on the storage hopper; the height of the storage hopper is smaller than that of the receiving mechanism, so that materials on the storage hopper cannot slide to the receiving mechanism when being stacked on the storage hopper.
The material storing mechanism is a roller group, and the roller group is provided with a fixed guide roller and a tightening roller with adjustable height.
Through setting up the roller set, utilize and to adjust the tightening up roller that height was ordered and make the cloth temporarily play the storage effect by the roller set, and be convenient for utilize the roller set to make the cloth keep certain tensioning, the cloth of being convenient for is collected.
The feeding mechanism is provided with a plurality of feeding units with the same structure, each feeding unit is provided with a feeding air expansion shaft, a material guide roller and a tension induction roller, the feeding air expansion shaft is driven by a driving motor, and the material guide rollers and the tension induction rollers which are arranged at intervals are arranged below the feeding air expansion shaft; the feeding mechanism controls the feeding speed by the feeding speed adjusting mechanism.
And the plurality of feeding units can simultaneously convey multiple layers of cloth to simultaneously cut at the cutting mechanism.
The feeding speed adjusting mechanism is provided with a tension sensor and a control box, signals of the tension sensor are transmitted to the control box, and the control box controls the driving motor to rotate according to the received signals.
Through setting up the tension inductor, be convenient for utilize the tension inductor to produce the monitoring pay-off condition, in time send monitoring information to the control box.
The feeding unit is provided with a feeding unit frame, and the feeding unit frame is connected with and fixed with a feeding air expansion shaft and a driving motor; the feeding unit frame is arranged on a bracket of the feeding mechanism.
Through setting up the pay-off unit frame, be convenient for utilize pay-off unit frame to connect fixed pay-off inflatable shaft, driving motor. And the bracket of the feeding mechanism supports all the feeding unit frames.
A cloth deviation rectifying mechanism is arranged between the feeding unit rack and a support of the feeding mechanism, the deviation rectifying mechanism is provided with a guide rail and a lead screw which are matched, the lead screw is driven by a handle, and the feeding unit rack is driven by the lead screw to move left and right to realize cloth deviation rectification.
The cloth deviation rectifying mechanism is convenient to utilize for deviation rectifying of the cloth, the guide rail and the lead screw are arranged, the guide rail lead screw is convenient to utilize for forming a moving pair, and the feeding unit rack is enabled to move left and right on the support of the feeding mechanism to achieve deviation rectifying of the cloth.
The material storage mechanism is fixedly connected with the bracket of the material receiving mechanism; the receiving mechanism is provided with receiving units corresponding to the feeding units in number, the receiving units are provided with receiving air expansion shafts and pressure roller barrels, and the driving motor drives the receiving air expansion shafts to rotate for receiving.
The material storage mechanism is fixedly connected with the support of the material receiving mechanism, so that the components can be conveniently connected, assembled and fixed; the production line is convenient to adjust.
Drawings
Fig. 1 is a perspective view of the present invention.
Fig. 2 is a perspective view of the feeding mechanism of the present invention.
Fig. 3 is a perspective view of the feeding unit and the feeding speed adjusting mechanism of the present invention.
Fig. 4 is a perspective view of the feeding unit of the present invention.
Fig. 5 is a partially enlarged schematic view of the deviation correcting mechanism of the present invention.
Fig. 6 is a perspective view of the material storing mechanism and the material receiving mechanism of the present invention.
Fig. 7 is a schematic structural view of a second embodiment of the storage mechanism of the present invention.
Description of reference numerals: 1-a feeding unit frame; 2-a feeding unit; 3-a cloth deviation rectifying mechanism; 4-a material receiving mechanism; 5-a material storage mechanism; 6, guiding a rotating roller; 7-tightening roller and 10-feeding mechanism; 12-a guide rail; 14-a material conveying table; 15-a material guide roller; 16-a tension sensor; 17-a tension-sensitive roller; 21-feeding air expansion shaft; 22-a drive motor; 23-a control box; 31-a handle; 32-a lead screw; 33-lead screw nut; 41-material receiving air expansion shaft; 43-a material pressing roller; 49-a storage hopper; 50-cutting mechanism.
Detailed Description
The present invention will be further described with reference to the following examples.
Referring to fig. 1, the fabric automatic cutting machine of the present invention comprises a feeding mechanism 10, a cutting mechanism 50, a material storage mechanism 5 and a material receiving mechanism 4; the material receiving mechanism 4 is carried to the material that tailors mechanism 50 and receiving mechanism 4 between be equipped with storage mechanism 5, the material of tailors mechanism 50 output after storage mechanism 5.
Referring to fig. 1 and 6, the storage mechanism 5 is a storage hopper 49, the height of the storage hopper 49 is smaller than that of the receiving mechanism 4, and the height of the receiving mechanism 4 is smaller than that of the cutting mechanism 50.
The height of the storage hopper 49 is smaller than that of the receiving mechanism 4, and the height of the storage hopper 49 is also smaller than that of the cutting mechanism 50, so that the storage hopper 49 can timely receive cloth cut by the cutting mechanism 50, and the fabric is stacked on the storage hopper 49; the height of the storage hopper 49 is less than the height of the receiving mechanism 4, so that the material on the storage hopper 49 cannot slide to the receiving mechanism 4 when being stacked on the storage hopper 49.
Referring to fig. 7, the storing mechanism 5 is a roller group, and the roller group is provided with a fixed guide roller 6 and a height-adjustable tightening roller 7.
Through setting up the roller set, utilize and to adjust the tightening up roller 7 that highly orders to make the cloth temporarily play the storage effect by the roller set, and be convenient for utilize the roller set to make the cloth keep certain tensioning, the cloth of being convenient for is collected.
As can be seen from fig. 2, 3, 4 and 5, the feeding mechanism 10 is provided with a plurality of feeding units 2 having the same structure, each feeding unit 2 is provided with a feeding air expansion shaft 21, a material guiding roller 15 and a tension sensing roller 17, the feeding air expansion shaft 21 is driven by a driving motor 22, and the material guiding roller 15 and the tension sensing roller 17 are arranged at intervals below the feeding air expansion shaft 21; the feeding mechanism 10 controls the feeding speed by the feeding speed adjusting mechanism. The feeding mechanism is provided with a material conveying platform 14, and the feeding mechanism is arranged above the material conveying platform 14.
The plurality of feeding units 2 can simultaneously feed a plurality of layers of cloth to simultaneously cut at the cutting mechanism 50.
The feeding speed adjusting mechanism is provided with a tension sensor 16 and a control box 23, signals of the tension sensor 16 are transmitted to the control box 23, and the control box 23 controls the driving motor 22 to rotate according to the received signals.
By arranging the tension sensor 16, the feeding condition can be monitored conveniently by using the tension sensor 16, and monitoring information can be sent to the control box 23 in time.
The feeding unit 2 is provided with a feeding unit frame 1, and the feeding unit frame 1 is connected with a fixed feeding air expansion shaft 21 and a driving motor 22; the feeding unit frame 1 is mounted on a bracket of the feeding mechanism 10.
By arranging the feeding unit frame 1, the feeding unit frame 1 can be conveniently used for connecting and fixing the feeding air expansion shaft 21 and the driving motor 22. The support of the feeding mechanism 10 supports all the feeding unit frames 1.
The cloth deviation rectifying mechanism 3 is arranged between the feeding unit frame 1 and the support of the feeding mechanism 10, the deviation rectifying mechanism is provided with a guide rail 12 and a lead screw 32 which are matched, the lead screw 32 is driven by a handle 31, and the feeding unit frame 1 moves left and right along the guide rail 12 to realize cloth deviation rectifying through the drive of the lead screw 32 and a lead screw nut 33.
The cloth deviation rectifying mechanism 3 is arranged, so that the cloth deviation rectifying mechanism 3 is conveniently used for rectifying the deviation of the cloth, the guide rail 12 and the lead screw 32 are arranged, the guide rail 12 and the lead screw 32 are conveniently used for forming a moving pair, and the feeding unit rack 1 is enabled to move left and right on the support of the feeding mechanism 10 to realize the deviation rectification of the cloth.
As can be seen from fig. 6, the material storing mechanism 5 is fixedly connected with the bracket of the material receiving mechanism 4; the material receiving mechanism 4 is provided with material receiving units corresponding to the number of the feeding units 2, the material receiving units are provided with material receiving air expansion shafts 41 and material pressing roller cylinders 43, and the driving motor 22 drives the material receiving air expansion shafts 41 to rotate for receiving materials.
The material storage mechanism 5 is fixedly connected with the bracket of the material receiving mechanism 4, so that the components can be conveniently connected, assembled and fixed; the production line is convenient to adjust.
Through be equipped with storage mechanism 5 between receiving agencies 4 and cutting mechanism 50, storage mechanism 5 can interim storage, is convenient for adjust receiving agencies 4's rotational speed, makes receiving agencies 4 be convenient for control, can not take place the rotational speed too fast and influence the precision of tailorring or receiving agencies 4's rotational speed too slow and take place to pile up, block the steady operation that influences receiving agencies 4, damage receiving agencies 4 even when serious.
The above description is only a preferred and practical embodiment of the present invention, and not intended to limit the scope of the present invention, and all structural equivalents made by using the contents of the specification and drawings are included in the scope of the present invention.
Claims (8)
1. The utility model provides an automatic cutter of fabric, includes feeding mechanism, cutting mechanism and receiving agencies, its characterized in that: the cutting mechanism and the material receiving mechanism are provided with a material storage mechanism, and materials output by the cutting mechanism are conveyed to the material receiving mechanism after passing through the material storage mechanism.
2. The automated fabric cutting machine of claim 1, wherein: the material storage mechanism is a material storage hopper, the height of the material storage hopper is smaller than that of the material receiving mechanism, and the height of the material receiving mechanism is smaller than that of the cutting mechanism.
3. The automated fabric cutting machine of claim 1, wherein: the material storing mechanism is a roller group, and the roller group is provided with a fixed guide roller and a tightening roller with adjustable height.
4. The automated fabric cutting machine of claim 1, wherein: the feeding mechanism is provided with a plurality of feeding units with the same structure, each feeding unit is provided with a feeding air expansion shaft, a material guide roller and a tension induction roller, the feeding air expansion shaft is driven by a driving motor, and the material guide rollers and the tension induction rollers which are arranged at intervals are arranged below the feeding air expansion shaft; the feeding mechanism controls the feeding speed by the feeding speed adjusting mechanism.
5. The automated fabric cutting machine of claim 4, wherein: the feeding speed adjusting mechanism is provided with a tension sensor and a control box, signals of the tension sensor are transmitted to the control box, and the control box controls the driving motor to rotate according to the received signals.
6. The automated fabric cutting machine of claim 4, wherein: the feeding unit is provided with a feeding unit frame, and the feeding unit frame is connected with and fixed with a feeding air expansion shaft and a driving motor; the feeding unit frame is arranged on a bracket of the feeding mechanism.
7. The automated fabric cutting machine of claim 6, wherein: a cloth deviation rectifying mechanism is arranged between the feeding unit rack and a support of the feeding mechanism, the deviation rectifying mechanism is provided with a guide rail and a lead screw which are matched, the lead screw is driven by a handle, and the feeding unit rack is driven by the lead screw to move left and right to realize cloth deviation rectification.
8. The automated fabric cutting machine of claim 1, wherein: the material storage mechanism is fixedly connected with the bracket of the material receiving mechanism; the receiving mechanism is provided with receiving units corresponding to the feeding units in number, the receiving units are provided with receiving air expansion shafts and pressure roller barrels, and the driving motor drives the receiving air expansion shafts to rotate for receiving.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022929495.XU CN213867038U (en) | 2020-12-09 | 2020-12-09 | Automatic cutting machine for fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022929495.XU CN213867038U (en) | 2020-12-09 | 2020-12-09 | Automatic cutting machine for fabric |
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CN213867038U true CN213867038U (en) | 2021-08-03 |
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CN202022929495.XU Active CN213867038U (en) | 2020-12-09 | 2020-12-09 | Automatic cutting machine for fabric |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114277565A (en) * | 2021-12-10 | 2022-04-05 | 南通嘉恒智能设备制造有限公司 | Automatic cutting equipment for PVC (polyvinyl chloride) soft cloth and operation method thereof |
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2020
- 2020-12-09 CN CN202022929495.XU patent/CN213867038U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114277565A (en) * | 2021-12-10 | 2022-04-05 | 南通嘉恒智能设备制造有限公司 | Automatic cutting equipment for PVC (polyvinyl chloride) soft cloth and operation method thereof |
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