CN210064691U

CN210064691U - Automatic fabric cutting and gluing machine

Info

Publication number: CN210064691U
Application number: CN201920628500.8U
Authority: CN
Inventors: 冯国基
Original assignee: Foshan Jianfa Textile Products Co Ltd
Current assignee: Foshan Jianfa Textile Products Co Ltd
Priority date: 2019-05-05
Filing date: 2019-05-05
Publication date: 2020-02-14
Anticipated expiration: 2029-05-05

Abstract

The utility model discloses an automatic fabric cutting and gluing machine, belonging to the field of fabric cutting and gluing machines, comprising a main frame, an unreeling device, a reeling device, a fabric cutting device, a transfer plate and a gluing device; the fabric cutting device comprises a fabric cutting rack, a first synchronous belt guide rail sliding table and a cutting knife; the device also comprises a first rubber roller wheel component, a second rubber roller wheel component and a pressing mechanism; both ends of the fabric cutting frame are close to the switch; the proximity switch is used for sensing and detecting the positions of the fixing seat and the cutting knife. The cloth cutting machine has the advantages that the cutting efficiency is high, the labor intensity of workers is reduced, the contact chance between the workers and the cutting knife is reduced, the safety of the whole cutting work is improved, in addition, each piece of cloth to be cut can be ensured to be cut at equal intervals by the cutting knife, the automatic processing of the cloth is completed through the rubberizing device, and finally the cloth is conveyed to the winding device after the rubberizing device is processed; the cloth is cut by the pressing mechanism, so that the cloth cannot slide laterally when being cut, and the quality of the cloth is greatly improved.

Description

Automatic fabric cutting and gluing machine

Technical Field

The utility model relates to a fabric cutting and gluing machine field especially relates to an automatic fabric cutting and gluing machine.

Background

The cloth cutting machine is applied to the clothing production industry and is used for cutting the whole long cloth into cloth with required length; because the cutting knife of the fabric cutting machine is very sharp, the hand of a worker is easy to touch the cutting knife of the fabric cutting machine, and the safety risk is high; the cloth cutting and gluing machine in the prior art has low automation degree, so that the production efficiency is reduced, and the universality of a cloth cutting machine is also reduced. Therefore, there is a need for an improved structure of the existing fabric cutting machine.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the technical problem to be solved by the utility model is to provide an automatic cloth cutting and gluing machine, the cutting knife is driven by the first synchronous belt guide rail sliding table to move along a transverse straight line to rapidly cut the cloth, thereby quickly finishing the cloth cutting work without manual participation in the whole cutting process, not only reducing the labor intensity of workers, but also reduces the contact chance between workers and the cutting knife, improves the safety of the whole cutting work, ensures that each piece of cloth to be cut can be cut by the cutting knife at equal intervals under the conveying action of the first rubber covered roller wheel component, conveys the cut piece of cloth to the transfer plate under the action of the second rubber covered roller wheel component, then the cloth is automatically processed in an automatic gluing device, and finally the cloth is conveyed to the winding device after passing through the procedure of the gluing device; through the rolling with unwinding device's cloth to carry it to be located on the main frame cut out on the cloth device, prepare for the work of cutting out the cloth, then through hold-down mechanism presss from both sides the whole plane of the cloth that the area was cut out respectively, makes through hold-down mechanism and cuts out the cloth and when cutting out the work, can not take place the lateral slip, improves the quality of cloth greatly.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides an automatic fabric cutting and gluing machine, which comprises a main frame, an unreeling device positioned at the front side part of the main frame, a reeling device positioned at the left end of the main frame, a fabric cutting device fixedly arranged on the main frame and close to one side of the unreeling device, a transfer plate positioned at the rear side of the fabric cutting device, and a gluing device fixedly arranged on the main frame;

the unwinding device is used for winding and unwinding the cloth to be cut; the winding device is used for winding and unwinding cloth to be cut

The fabric cutting device comprises a fabric cutting rack fixedly arranged on two side faces of the main rack, a first synchronous belt guide rail sliding table horizontally and fixedly arranged on the fabric cutting rack in a crossing manner, and a cutting knife fixedly connected with the first synchronous belt guide rail sliding table;

the cloth cutting machine also comprises a first rubber roller wheel component, a second rubber roller wheel component and a pressing mechanism for cutting cloth, wherein the first rubber roller wheel component and the second rubber roller wheel component are sequentially arranged in the direction of the cloth to be cut;

the cutting knife is fixedly connected with the movable plate of the first synchronous belt guide rail sliding table through a fixed seat, the upper end face of the fixed seat is hinged with the movable plate of the first synchronous belt guide rail sliding table through a hinge, the cutting knife is fixed on the fixed seat through a bearing seat, and the fixed seat is fixed on the movable plate of the first synchronous belt guide rail sliding table through a bolt;

both ends of the fabric cutting frame are close to the switch; the proximity switch is used for sensing and detecting the positions of the fixed seat and the cutting knife;

the first rubber roller wheel component comprises a first driving rubber roller wheel and a first driven rubber roller wheel positioned above the first driving rubber roller wheel; a first cylinder drives a first driven rubber roller wheel to move towards the direction of the first driving rubber roller wheel and realizes that the cloth to be processed moves towards the direction of the second rubber roller wheel assembly;

the second rubber roller wheel assembly comprises a second driving rubber roller wheel and a second driven rubber roller wheel positioned above the second driving rubber roller wheel; and the first cylinder drives the second driven rubber roller wheel to move towards the second driving rubber roller wheel and realizes the movement of the cloth to be processed towards the direction of the transfer plate.

Optionally, the unwinding device comprises an unwinding welding frame body, an inflatable shaft rotatably arranged on the unwinding welding frame body, and a speed reducer used for driving the inflatable shaft to unwind the cloth to be cut;

the two ends of the inflatable shaft are fixedly connected with the two ends of the unreeling welding frame body through bearing seats, and one end of the inflatable shaft protrudes out of the bearing seats and extends out of the bearing seats to be fixedly connected with an output shaft of the speed reducer.

Optionally, the pressing mechanism comprises two thin cylinders fixedly arranged below the fabric cutting frame and a horizontal pressing plate fixedly connected with telescopic shafts of the thin cylinders.

Optionally, the winding device comprises a winding welding frame body, a winding shaft rotatably arranged on the winding welding frame body, and a rotating motor for driving the winding shaft to wind the cloth to be cut;

the two ends of the winding shaft are fixedly connected with the two ends of the winding welding frame body through bearing seats, and one end of the winding shaft protrudes out of the bearing seats and extends out of the bearing seats to be fixedly connected with an output shaft of the rotating motor.

Optionally, the rubberizing device includes the rubberizing support, fixes locating rubberizing support, second hold-in range guide rail slip table, rubberizing subassembly and control the second cylinder that the rubberizing subassembly goes up and down.

Optionally, the bottom of the unreeling welding frame body is provided with an adjusting screw for adjusting the height of the unreeling welding frame body.

The utility model has the advantages that:

the utility model provides a pair of automatic fabric cutting and gluing machine, drive the cutting knife through first hold-in range guide rail slip table and cut cloth fast along horizontal rectilinear movement, thereby accomplish the work of tailorring of cloth fast, whole tailor process does not need artifical the participation, not only alleviate workman's intensity of labour, and reduced the contact chance of workman with the cutting knife, the security that has improved whole the work of tailorring is under the conveying effect of first rubber roll wheel subassembly, guarantee that each cloth that needs to be tailor can be cut by the cutting knife equidistance, the cloth after the completion of tailorring is carried to the transfer board under the effect of second rubber roll wheel subassembly, and then in entering automatic rubberizing device, accomplish the automated processing to cloth through the rubberizing device, carry after rubberizing device process at last on the coiling mechanism; through the rolling with unwinding device's cloth to carry it to be located on the main frame cut out on the cloth device, prepare for the work of cutting out the cloth, then through hold-down mechanism presss from both sides the whole plane of the cloth that the area was cut out respectively, makes through hold-down mechanism and cuts out the cloth and when cutting out the work, can not take place the lateral slip, improves the quality of cloth greatly.

Drawings

Fig. 1 is a schematic structural front view of an automatic fabric cutting and gluing machine according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of an automatic fabric cutting and gluing machine according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a main frame according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of an unwinding device according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a winding device according to an embodiment of the present invention;

fig. 6 is a schematic perspective view of a fabric cutting device according to an embodiment of the present invention;

fig. 7 is a schematic perspective view of a rubberizing device according to an embodiment of the present invention;

fig. 8 is an enlarged schematic structural diagram of a point a provided in the embodiment of the present invention;

fig. 9 is a left side view structure diagram of a fabric cutting device according to an embodiment of the present invention.

In the figure:

1. a main frame; 2. an unwinding device; 21. unreeling and welding a frame body; 22. an inflatable shaft; 23. a speed reducer; 3. a winding device; 31. winding and welding the frame body; 32. a winding shaft; 33. rotating the motor; 4. a fabric cutting device; 41. a fabric cutting frame; 42. a first synchronous belt guide rail sliding table; 43. a cutting knife; 44. a first rubber roller wheel component; 441. a first driving rubber roller; 442. a first driven glue roller; 45. a second rubber roller wheel component; 451. a second driving rubber roller; 452. a second driven rubber roller; 46. a hold-down mechanism; 461. a thin cylinder; 462. a horizontal compression plate; 5. a transfer plate; 6. a rubberizing device; 61. sticking a rubber support; 62. a second synchronous belt guide rail sliding table; 63. a rubberizing component; 64. a second cylinder; 7. a fixed seat; 8. a hinge; 9. a bolt; 10. a proximity switch; 11. a first cylinder; 12. and adjusting the screw rod.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-9, a schematic structural front view of an automatic fabric cutting and gluing machine includes a main frame 1, an unwinding device 2 located at a front side of the main frame 1, a winding device 3 located at a left end of the main frame 1, a fabric cutting device 4 fixedly disposed on the main frame 1 and close to one side of the unwinding device 2, a transfer plate 5 located at a rear side of the fabric cutting device 4, and a gluing device 6 fixedly disposed on the main frame 1; the unwinding device 2 is used for winding and unwinding the cloth to be cut; the winding device 3 is used for winding and unwinding cloth to be cut, and the cloth cutting device 4 comprises a cloth cutting rack 41 fixedly arranged on two side surfaces of the main rack 1, a first synchronous belt guide rail sliding table 42 horizontally and fixedly arranged on the cloth cutting rack 41 in a crossing manner, and a cutting knife 43 fixedly connected with the first synchronous belt guide rail sliding table 42; the cloth cutting machine further comprises a first rubber roller wheel assembly 44, a second rubber roller wheel assembly 45 and a pressing mechanism 46 for cutting cloth, wherein the first rubber roller wheel assembly 44 and the second rubber roller wheel assembly 45 are sequentially arranged in the direction of the cloth to be cut; the cutting knife 43 is fixedly connected with the movable plate of the first synchronous belt guide rail sliding table 42 through a fixed seat 7, the upper end face of the fixed seat 7 is hinged with the movable plate of the first synchronous belt guide rail sliding table 42 through a hinge 8, the cutting knife 43 is fixed on the fixed seat 7 through a bearing seat, and the fixed seat 7 is fixed on the movable plate of the first synchronous belt guide rail sliding table 42 through a bolt 9; the two end parts of the fabric cutting frame 41 are both close to the switch 10; the proximity switch 10 is used for sensing and detecting the positions of the fixed seat 7 and the cutting knife 43; the first rubber roller wheel assembly 44 comprises a first driving rubber roller wheel 441 and a first driven rubber roller wheel 442 which is positioned above the first driving rubber roller wheel 441; the first cylinder 11 drives the first driven rubber roller wheel 442 to move towards the first driving rubber roller wheel 441, so that the cloth to be processed moves towards the second rubber roller wheel assembly 45; the second rubber roller wheel assembly 45 comprises a second driving rubber roller wheel 451 and a second driven rubber roller wheel 452 positioned above the second driving rubber roller wheel 451; and the first cylinder 11 drives the second driven rubber roller 452 to move towards the second driving rubber roller 451, so that the cloth to be processed moves towards the direction of the transfer plate 5.

Particularly, through the rolling with unwinding device 2's cloth to carry it to be located on the main frame 1 on the fabric cutting device 4, for the work of cutting out the cloth makes preparation, then through hold-down mechanism 46 presss from both sides the whole plane of the cloth that the area was tailor respectively, makes through hold-down mechanism 46 and tailors the cloth and when the work of cutting out, can not take place the lateral slip, improves the quality of cloth greatly. More specifically, the cutting knife 43 is fixedly connected with the moving plate of the first synchronous belt guide rail sliding table 42 through a fixed seat 7, the upper end surface of the fixed seat 7 is hinged with the moving plate of the first synchronous belt guide rail sliding table 42 through a hinge 8, the cutting knife 43 is fixed on the fixed seat 7 through a bearing seat, and the fixed seat 7 is fixed on the moving plate of the first synchronous belt guide rail sliding table 42 through a bolt 9; the two end parts of the fabric cutting frame 41 are both close to the switch 10; the proximity switch 10 is used for sensing and detecting the positions of the fixed seat 7 and the cutting knife 43; the first rubber roller wheel assembly 44 comprises a first driving rubber roller wheel 441 and a first driven rubber roller wheel 442 which is positioned above the first driving rubber roller wheel 441; the first cylinder 11 drives the first driven rubber roller wheel 442 to move towards the first driving rubber roller wheel 441, so that the cloth to be processed moves towards the second rubber roller wheel assembly 45; the second rubber roller wheel assembly 45 comprises a second driving rubber roller wheel 451 and a second driven rubber roller wheel 452 positioned above the second driving rubber roller wheel 451; and the first cylinder 11 drives the second driven rubber roller 452 to move towards the second driving rubber roller 451, so that the cloth to be processed moves towards the direction of the transfer plate 5. The first driving rubber roller 441 and the second driving rubber roller 451 are driven to rotate by external motors, and are driven to be attached and rotated with the first driving rubber roller 441 and the first driven rubber roller 442 through power transmission of the motors, and the second driving rubber roller 451 and the second driven rubber roller 452 are synchronously attached and driven to move horizontally and linearly with cloth towards the direction of the transfer plate 5 under the action of attached friction force; it drives cutting knife 43 through first synchronous belt guide rail slip table 42 simultaneously and cuts cloth fast along horizontal rectilinear movement to accomplish cloth's the work of tailorring fast, whole process of tailorring does not need artifical the participation, has not only alleviateed workman's intensity of labour, has reduced workman and cutting knife 43's contact chance moreover, has improved the security of whole work of tailorring. After the cutting knife 43 finishes cutting once, each piece of cloth to be cut can be cut by the cutting knife 43 at equal intervals under the conveying action of the first rubber covered roller wheel assembly 44. The cut cloth is conveyed to the transfer plate 5 under the action of the second rubber covered roller wheel assembly 45, and then enters the automatic rubberizing device 6, because the rubberizing device 6 is a rubberizing technology commonly used in the prior art, the automation processing of the cloth is completed through the rubberizing device 6, and finally the cloth is conveyed to the winding device after the process of the rubberizing device 6.

Further, the unwinding device 2 comprises an unwinding welding frame body 21, an inflatable shaft 22 rotatably arranged on the unwinding welding frame body 21, and a speed reducer 23 for driving the inflatable shaft 22 to unwind the cloth to be cut; the two ends of the inflatable shaft 22 are fixedly connected with the two ends of the unreeling welding frame body 21 through bearing seats, and one end of the inflatable shaft 22 protrudes out of the bearing seats and extends out of the output shaft of the speed reducer 23 to be fixedly connected with the output shaft of the speed reducer. The inflatable shaft 22 has long service life; the inflatable spindle 22 is a single part, each part of the construction has a fixed specification, and all parts can be interchanged for convenient maintenance.

Further, the pressing mechanism 46 includes two thin cylinders 461 fixedly disposed below the fabric cutting frame 41, and a horizontal pressing plate 462 fixedly connected to the telescopic shaft of the thin cylinders 461, and after the movement of the fabric to be cut is transmitted from the unwinding device 2, the telescopic shaft of the thin cylinders 461 drives the horizontal pressing plate 462 to press the fabric to be cut downward, so as to ensure the precision and convenience of cutting.

Further, the winding device 3 comprises a winding and welding frame body 31, a winding shaft 32 rotatably arranged on the winding and welding frame body 31, and a rotating motor 33 for driving the winding shaft 32 to wind the cloth to be cut; two ends of the winding shaft 32 are fixedly connected with two ends of the winding welding frame body 31 through bearing seats, and one end of the winding shaft 32 protrudes out of the bearing seats and extends out to be fixedly connected with an output shaft of the rotating motor 33; the normal stable operation of the winding device 3 is ensured, and the concentrated winding of the cut cloth is completed.

Further, the rubberizing device 6 comprises a rubberizing support 61, a second cylinder 64 fixedly arranged on the rubberizing support 61, a second synchronous belt guide rail sliding table 62, a rubberizing assembly 63, and a controller for controlling the rubberizing assembly 63 to ascend and descend; specifically, firstly, a belt is mounted on transmission shafts on two sides of a linear sliding table, wherein the belt is used as a power input shaft, an external power source adopts a motor as a driving force, as shown in fig. 7, a block is fixed on the belt and used for moving the block by driving the belt when the driving force of the motor is input, and further the rubberizing assembly 63 is driven to finish the movement in the transverse direction, in addition, two proximity switches 10 are respectively arranged at two ends of the block and on a bracket of the second synchronous belt guide rail sliding table 62 and used for detecting the movement strokes of the rubberizing assembly 63 moving to the two ends, and if the lifting of the rubberizing assembly 63 is to be adjusted, the adaptability can be adjusted through a second cylinder 64 connected above the rubberizing assembly 63; thereby realizing automatic rubberizing work. Of course, the rigidity of the second belt guide sliding table 62 can be improved by selectively adding a rigid guide rail according to different load requirements to the second belt guide sliding table 62.

Further, the bottom of the unreeling welding frame body 21 is provided with an adjusting screw 12 for adjusting the height of the unreeling welding frame body 21, so that the horizontal height of the unreeling welding frame body 21 can be adjusted, and the stability of the work of the unreeling device 2 is ensured.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims

1. The utility model provides an automatic fabric cutting and gluing machine which characterized in that:

the cloth cutting machine comprises a main frame, an unwinding device positioned at the front side part of the main frame, a winding device positioned at the left end of the main frame, a cloth cutting device fixedly arranged on the main frame and close to one side of the unwinding device, a transfer plate positioned at the rear side of the cloth cutting device, and a rubberizing device fixedly arranged on the main frame;

2. An automatic fabric cutting and gluing machine as claimed in claim 1, characterized in that:

the unwinding device comprises an unwinding welding frame body, an inflatable shaft which is rotatably arranged on the unwinding welding frame body, and a speed reducer which is used for driving the inflatable shaft to unwind the cloth to be cut;

3. An automatic fabric cutting and gluing machine as claimed in claim 1, characterized in that:

the pressing mechanism comprises two thin cylinders fixedly arranged below the fabric cutting rack and a horizontal pressing plate fixedly connected with telescopic shafts of the thin cylinders.

4. An automatic fabric cutting and gluing machine as claimed in claim 1, characterized in that:

the winding device comprises a winding welding frame body, a winding shaft which is rotatably arranged on the winding welding frame body, and a rotating motor which is used for driving the winding shaft to wind cloth to be cut;

5. An automatic fabric cutting and gluing machine as claimed in claim 1, characterized in that:

the rubberizing device comprises a rubberizing support, a second synchronous belt guide rail sliding table, a rubberizing assembly and a second cylinder, wherein the rubberizing support is fixedly arranged on the second cylinder, and the second cylinder controls the rubberizing assembly to lift.

6. An automatic fabric cutting and gluing machine according to claim 2, characterized in that:

the bottom of unreeling the welding support body sets up and is equipped with the adjustment unreel the adjustment screw rod of welding support body height.