CN113152069A - Textile fabric continuous cutting device for fabric processing - Google Patents

Abstract

The invention relates to the field of fabric processing, in particular to a continuous cutting device for a textile fabric for fabric processing, which comprises a first frame body, wherein a second frame body is arranged on the side of the first frame body, conveying parts are arranged in the first frame body and the second frame body, conveying pressing parts are arranged at the edge of the upper end face of the first frame body and the edge of the upper end face of the second frame body, a rolling part is arranged on the upper end face of the first frame body, the rolling part is positioned on the side of the conveying pressing parts, the rolling part is connected with the conveying pressing parts, a bearing seat is fixedly arranged on the lower end face of the first frame body, a driving part is fixedly arranged on the upper end face of the bearing seat, and one end of the driving part is connected with the conveying pressing parts and the conveying parts. This device is tailor in succession to textile fabric for surface fabric processing can improve and tailor efficiency, reduces artifical intensity of labour, can be convenient for tailor out the surface fabric of different length simultaneously, and can improve convenient to use degree.

Description

Textile fabric continuous cutting device for fabric processing

Technical Field

The invention relates to the field of fabric processing, in particular to a continuous cutting device for a textile fabric for fabric processing.

Background

In the world of clothes, the fabric of the clothes is in the shape of five flowers and eight doors, which is different day by day. However, in general, high-quality and high-grade fabrics have the characteristics of comfortable wearing, sweat absorption, air permeability, stiff and smooth suspension, noble vision, soft touch and the like.

In the process of sewing the clothes, the fabric of the article necessary for sewing the clothes is usually used as one of three elements of the clothes, and the fabric not only can explain the style and the characteristics of the clothes, but also directly controls the expression effect of the color and the shape of the clothes. However, in the existing fabric processing process, the fabric is usually required to be manually cut once and cannot be cut continuously, so that the phenomena of increased labor intensity and low cutting efficiency are caused, and the fabric is not convenient to use.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides the continuous cutting device for the textile fabric for processing the fabric.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: a textile fabric continuous cutting device for fabric processing comprises a frame body, wherein a frame body II is arranged on the side of the frame body I, conveying parts are arranged inside the frame body I and the frame body II, conveying parts are arranged at the edge of the upper end face of the frame body I and the edge of the upper end face of the frame body II, a rolling part is arranged on the upper end face of the frame body I, the rolling part is positioned on the side of the conveying parts and is connected with the conveying parts, a bearing seat is fixedly arranged on the lower end face of the frame body I, a driving part is fixedly arranged on the upper end face of the bearing seat, one end of the driving part is connected with the conveying parts and the conveying parts, an adjusting part is arranged on one side of the driving part on the upper end face of the bearing seat and is connected with the other end of the driving part, a control part is arranged at the end part of the adjusting part, two groups of connecting supporting plates extend from the side face of the frame body I and the side face of the, and the control part is electrically connected with the cutting part and the driving part.

Preferably, carry the piece including running through and rotate the rod of taking of inlaying in the inside of a support body and the inside of No. two support bodies, the quantity of taking the rod is eight groups, eight groups take the rod to be linear and arrange, four wherein groups take the rod to rotate and inlay in the inside of a support body, four other groups take the rod to rotate and inlay in the inside of No. two support bodies, four wherein groups interconnect between the rod, four other groups interconnect between the rod, four wherein four groups take the outside of rod and four other groups the conveyer belt is all installed in the outside of taking the rod, under the same plumb line the up end of conveyer belt and the up end of two sets of connection faggings are located the coplanar.

Preferably, defeated casting die is including extending two sets of carrier bar seats in the up end edge of a support body and the up end edge of No. two support bodies respectively, and is two sets of rotate respectively between the carrier bar seat and run through to inlay and have two sets of drive depression bars, and is two sets of the outside of drive depression bar is annular array respectively and is extended there is the directional cylinder of multiunit, multiunit the outside slidable mounting of directional cylinder has directional grooved column, the tip of directional grooved column is inlayed and is had the rolling arc piece of leading, it compresses tightly in the up end of conveyer belt to lead the rolling arc piece, the inside top surface of directional grooved column extends and has the promotion spring, the tip of promotion spring and the tip fixed connection of directional cylinder.

Preferably, roll up the piece including extending the fixed rod seat at the up end of support body No. one, the fixed rod seat is located one side of carrier bar seat, the up end of fixed rod seat is rotated and is installed and is pressed the body, it has two sets of connection guide pulleys to rotate respectively to inlay with the inside of fixed rod seat in the inside of pressing the body, and is two sets of connect the laminating between the guide pulley and install the winding up roller, it has two sets of strong magnets, two sets of to extend respectively with the side top edge department of fixed rod seat in the side of pressing the body strong magnet adsorbs mutually.

Preferably, coaxial extension has two sets of No. two connection pulleys, and is two sets of respectively between the preceding tip of winding up roller and a set of drive depression bar wherein the preceding tip is connected with No. two hold-in ranges, and is two sets of the coaxial extension of the back tip of drive depression bar has two sets of connection pulleys, and is two sets of be connected with a hold-in range between the connection pulleys, it is two sets of the position of edge extends respectively around being close to in the outside of drive depression bar has two sets of No. three driving teeth, is located both ends around the area rod of inside one side edge of a support body and the area rod that is located inside one side edge of No. two support bodies both ends coaxial extension respectively have two sets of No. two driving teeth, No. two driving teeth mesh with No. three driving teeth.

Preferably, the driving piece includes that fixed mounting is close to the double-end motor of one side edge at the up end of bearing seat, the coaxial extension of rear end portion of double-end motor has a driving tooth, a driving tooth meshes with one of them a set of No. two driving teeth mutually, the coaxial extension of preceding tip of double-end motor has No. four driving teeth.

Preferably, the regulating part comprises a U-shaped directional block fixedly arranged above the bearing seat, the U-shaped directional block is positioned in the front of the side of the double-end motor, a connecting slide block is slidably arranged on the outer side of the U-shaped directional block, a guide groove body is inlaid on one side of the connecting slide block, a fixing bolt is screwed on the other side of the connecting slide block in a penetrating manner, the end part of the fixing bolt is tightly pressed on the side surface of the U-shaped directional block, two groups of guide blocks are slidably arranged inside the guide groove body, an adjusting stud is rotatably inlaid in the middle of the side surface of the two groups of guide blocks in a penetrating manner, a transmission column is inlaid in a penetrating manner between the two groups of guide blocks in a penetrating manner, three groups of driving gears are inlaid in the outer side of the transmission column respectively, the three groups of driving gears are positioned inside the guide groove body, and the radius of the three groups of driving gears is reduced sequentially from front to back, the fourth transmission gear is meshed with one group of driving gears.

Preferably, the control includes the bearing seat of fixed mounting in the lower terminal surface of guide way body front edge, the up end middle part symmetry that bears the seat extends and has two sets of connecting blocks, and is two sets of it inlays to rotate between the connecting block has and presses the pressure board, the coaxial extension of preceding tip of transmission post has the cam that bulldozes, the surface that bulldozes the cam compresses tightly in the up end one side edge of pressing the pressure board, the side of the up end connecting block that bears the seat extends has reset spring, reset spring's tip laminating is close to the position of one side edge in the lower terminal surface of pressing the pressure board, the up end fixed mounting who bears the seat has a contact switch, press the up end of the lower terminal surface one side edge of pressure board and compress tightly in a contact switch.

Preferably, the cutting piece comprises a lower cutting plate fixedly arranged on the lower end surfaces of two groups of connecting supporting plates, the front end surface of the lower cutting plate extends to form a second connecting groove, an upper cutting plate is rotatably arranged in the second connecting groove, a driving push cylinder is fixedly arranged at the front edge of the side surface of the bearing seat, a first connecting groove extends from the upper end part of the driving push cylinder, the front end part of the upper cutting plate is rotatably embedded in the first connecting groove, a first contact switch is electrically connected with the driving push cylinder, T-shaped blind grooves are respectively arranged on the upper end surface of the lower cutting plate and the lower end surface of the upper cutting plate, a cutting blade is arranged in each T-shaped blind groove in a fitting manner, a turnover plate is rotatably arranged on the rear end surface of the lower cutting plate and the rear end surface of the upper cutting plate, the front end surface of the turnover plate is tightly pressed on the rear end surface of the cutting blade, and a rubber bump extends from the front end surface of the turnover plate, rubber lug runs through in the rear end face of cutting out the board down and goes up the rear end face of cutting out the board, the both sides rear edge department of cutting out the board down extends respectively has two sets of guide arc boards, it slides to laminate between two sets of guide arc boards to go up the cutting out board, the rear end face that the drive pushed away the jar is close to the upper edge department and extends there is the clamp plate that resets, the drive pushes away the upper end face rear edge of jar and extends there is No. two contact switches, the clamp plate that resets is located No. two contact switches directly over, No. two contact switches and double-end motor electric connection.

Compared with the prior art, the invention has the following beneficial effects:

1. through the arranged press conveying piece, the driving piece and the like, the first transmission gear can be driven to rotate by the double-end motor, and then the second transmission gear and the third transmission gear which are meshed with the first transmission gear are driven to rotate, so that the driving pressure rod and the belt roller can be driven to rotate, the conveying belt and the guide rolling arc piece are driven to roll, the fabric can be conveyed to the connecting supporting plate through the guide rolling arc piece and the conveying belt, the double-end motor can drive the fourth transmission gear to rotate while running, the pushing cam is driven to rotate by the adjusting piece, the pushing cam can push the pressing plate, one end of the pressing plate can descend to press the first contact switch to start the driving pushing cylinder to move, the driving pushing cylinder can move upwards to push the end part of the upper cutting plate upwards, and the cutting blade on the upper cutting plate can move downwards and the cutting blade on the lower cutting plate can be staggered to cut the fabric, meanwhile, the reset pressure plate can be separated from the upper end of the second contact switch when the push cylinder is driven to push, the double-end motor can stop moving, the fabric can stop moving, the quality during cutting is guaranteed, after cutting is completed, the push cylinder is driven to reset, the reset pressure plate is pressed on the second contact switch again, the double-end motor is started to continue moving, the push cam is driven to rotate, the push plate moves upwards under the action of the reset spring to be separated from the upper end of the first contact switch, the push cylinder is driven to stop running, and the fabric is connected and cut in a reciprocating mode, so that the cutting efficiency is improved, the labor intensity of workers is reduced, and meanwhile, the fabric can be tensioned under the extrusion of the two groups of guide rolling arc sheets, and the cutting quality is guaranteed.

2. Adjusting part through setting up, can become flexible fixing bolt, make its link block can slide on the directional piece of U-shaped, and then drive the guide way body and remove, make three group's drive gear on its guide way body can remove, make its driving gear number four can align with one of them a set of drive gear of needs size, then rotate the regulation double-screw bolt, slide in the guide way body with promoting the guide block, let on its drive column with the driving gear number four that the driving gear number four is aligned can contact with driving gear number four, let its drive gear number four with the driving gear number four mesh mutually, with this rotational speed that changes the bulldoze cam, and then adjust the interval time of cutting out when tailorring, with this advantage that reaches its surface fabric of cutting out different length sizes.

3. The upper pressing body can be lifted up firstly through the arranged coil piece, then the coil roller is placed on the fixed rod seat, then the upper pressing body is turned over, so that the upper pressing body is pressed on the fixed rod seat again, the upper pressing body is fixed on the fixed rod seat under the action of two groups of strong magnetic sheets, meanwhile, two groups of connecting guide wheels on the upper pressing body and two groups of connecting guide wheels on the fixed rod seat are pressed on the surface of the coil roller so as to fix the coil roller, and the coil roller can rotate, otherwise, the disassembly and the replacement can be carried out, thereby facilitating the disassembly and the assembly of the coil roller, improving the use convenience, and the turnover plate fixed on the lower cutting plate through a rubber bump can be turned downwards, so that the cutting blade can slide in the T-shaped blind groove under the action of the turnover plate, then the blade is pulled to separate from the T-shaped blind groove, and the new cutting blade is placed in the T-shaped blind groove, the new cutting blade can be fixed by reversely repeating the steps, so that the cutting blade is convenient to replace, and the use convenience is further improved.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a rear partial view of the present invention;

FIG. 3 is an enlarged view of A of the present invention;

FIG. 4 is a fixed partial cross-sectional view of the rolling arc segment of the present invention;

FIG. 5 is an enlarged view of B of the present invention;

FIG. 6 is a front partial view of the present invention;

FIG. 7 is a schematic view from another perspective of the present invention;

FIG. 8 is a partial view of FIG. 7 of the present invention;

FIG. 9 is another perspective partial view of the present invention of FIG. 7;

fig. 10 is an enlarged view of C of the present invention.

In the figure: 1. a first frame body; 2. a second frame body; 3. a conveyor belt; 4. a load bearing seat; 5. a winding roller; 6. a rolling arc guiding sheet; 7. a guide arc plate; 8. loading a cutting plate; 9. connecting a supporting plate; 10. a double-headed motor; 11. a first transmission gear; 12. a second transmission gear; 13. a third transmission gear; 14. cutting down a cutting plate; 15. cutting a blade; 16. a turnover plate; 17. a rubber bump; 18. a drive strut; 19. a carrier bar seat; 20. orienting the grooved columns; 21. an orientation cylinder; 22. a push spring; 23. driving the push cylinder; 24. a first connecting groove; 25. a second connecting groove; 26. a first connecting belt wheel; 27. a pressing cam; 28. a fixed rod seat; 29. an upper pressing body; 30. connecting the guide wheel; 31. a strong magnetic sheet; 32. the second connecting belt wheel; 33. a second synchronous belt; 34. a first synchronous belt; 35. a U-shaped orientation block; 36. connecting the sliding block; 37. fixing the bolt; 38. adjusting the stud; 39. a guide groove body; 40. a guide block; 41. a drive post; 42. a drive gear; 43. a fourth transmission gear; 44. connecting blocks; 45. a bearing seat; 46. a first contact switch; 47. a pressing plate; 48. a return spring; 49. a belt stick; 50. resetting the pressing plate; 51. and a second contact switch.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1-10, a textile fabric continuous cutting device for fabric processing comprises a first frame body 1, a second frame body 2 is arranged on the side of the first frame body 1, conveying members are arranged inside the first frame body 1 and inside the second frame body 2, conveying and pressing members are arranged on the edge of the upper end face of the first frame body 1 and the edge of the upper end face of the second frame body 2, a rolling member is arranged on the upper end face of the first frame body 1 and is positioned on the side of the conveying and pressing members, a bearing seat 4 is fixedly arranged on the lower end face of the first frame body 1, a driving member is fixedly arranged on the upper end face of the bearing seat 4, one end of the driving member is connected with the conveying and pressing members, an adjusting member is arranged on one side of the driving member on the upper end face of the bearing seat 4, the adjusting member is connected with the other end of the driving member, a control member is arranged on the end of the adjusting member, two groups of connecting supporting plates 9 extend from the side face of the first frame body 1 and the side face of the second frame body 2 respectively, and a cutting part is arranged between the two groups of connecting supporting plates 9, and the control part is electrically connected with the cutting part and the driving part.

The conveying piece comprises belt rollers 49 which penetrate through the inside of the first frame body 1 and the inside of the second frame body 2 in a rotating mode, the number of the belt rollers 49 is eight, eight groups of the belt rollers 49 are linearly arranged, four groups of the belt rollers 49 are rotatably embedded in the first frame body 1, the other four groups of the belt rollers 49 are rotatably embedded in the second frame body 2, four groups of the belt rollers 49 are connected with each other, the other four groups of the belt rollers 49 are connected with each other, the conveying belts 3 are installed on the outer sides of the four groups of the belt rollers 49 and the outer sides of the other four groups of the belt rollers 49, the upper end faces of the conveying belts 3 and the upper end faces of the two groups of the connecting supporting plates 9 under the same vertical line are located on the same plane, the conveying belts 3 can be driven to rotate through the arranged belt rollers 49, and the fabrics.

The conveying and pressing piece comprises two groups of bearing rod seats 19 which respectively extend at the edge of the upper end face of a first frame body 1 and the edge of the upper end face of a second frame body 2, two groups of driving pressing rods 18 are respectively penetrated and embedded between the two groups of bearing rod seats 19 in a rotating way, the outer sides of the two groups of driving pressing rods 18 respectively extend in an annular array way to form a plurality of groups of directional cylinders 21, directional groove columns 20 are slidably installed at the outer sides of the groups of directional cylinders 21, guide rolling arc sheets 6 are embedded at the end parts of the directional groove columns 20, the guide rolling arc sheets 6 are tightly pressed on the upper end face of a conveying belt 3, pushing springs 22 extend from the inner top faces of the directional groove columns 20, the end parts of the pushing springs 22 are fixedly connected with the end parts of the directional cylinders 21, the driving pressure rod 18 can be limited through the arranged bearing rod seat 19, the guide rolling arc sheet 6 can be ensured to move linearly by the directional column body 21 and the directional groove column 20, and the guide rolling arc sheet 6 can be ensured to be always contacted with the conveying belt 3 by the pushing spring 22 so as to compress and convey the fabric.

The rolling piece is including extending the fixed rod seat 28 at the up end of support body 1 No. one, fixed rod seat 28 is located one side of carrier bar seat 19, the up end of fixed rod seat 28 rotates and installs last pressure body 29, the inside of last pressure body 29 rotates respectively with the inside of fixed rod seat 28 and inlays and have two sets of connection guide pulleys 30, laminating between two sets of connection guide pulleys 30 installs winding up roller 5, the side lower limb department of last pressure body 29 and the side upper limb department of fixed rod seat 28 extend respectively has two sets of strong magnetic sheets 31, two sets of strong magnetic sheets 31 adsorb mutually, fixed rod seat 28 through the setting can support winding up roller 5, it can fix winding up roller 5 on fixed rod seat 28 to go up pressure body 29, strong magnetic sheet 31 can fix last pressure body 29, it can guarantee that winding up roller 5 is fixed the back and stably rotate to connect guide pulley 30.

Two groups of second connecting belt wheels 32 are coaxially extended between the front end part of the winding roller 5 and the front end part of one group of driving pressure rods 18 respectively, two groups of second synchronous belts 33 are connected between the two groups of second connecting belt wheels 32, two groups of first connecting belt wheels 26 are coaxially extended between the rear end parts of the two groups of driving pressure rods 18 respectively, a first synchronous belt 34 is connected between the two groups of first connecting belt wheels 26, two groups of third transmission teeth 13 are respectively extended at the positions, close to the front and rear edges, of the outer sides of the two groups of driving pressure rods 18, two groups of second transmission teeth 12 are coaxially extended at the front and rear ends of a belt rod 49 positioned at one edge of the inner part of the first frame body 1 and the front and rear ends of the belt rod 49 positioned at one edge of the inner part of the second frame body 2 respectively, the second transmission teeth 12 are meshed with the third transmission teeth 13, the winding roller 5 and the driving pressure rods 18 can be connected together through the arranged second connecting belt wheels 32 and the second synchronous belts 33, a primary connecting pulley 26 and a primary timing belt 34 can connect the two sets of drive struts 18 together.

The driving piece includes that fixed mounting is close to the double-end motor 10 of one side edge at the up end of bearing seat 4, the coaxial extension of rear end portion of double-end motor 10 has driving tooth 11 No. one, driving tooth 11 meshes with a set of driving tooth 12 wherein No. two, the coaxial extension of preceding tip of double-end motor 10 has driving tooth 43 No. four, double-end motor 10 through the setting can drive driving tooth 11 and rotate, and then rotate through driving tooth 12 and No. three driving tooth 13 with a driving tooth 11 engaged with, make its drive depression bar 18 and take rod 49 to rotate, thereby drive conveyer belt 3 and lead and roll arc piece 6 and roll, make its surface fabric can be carried to connecting on fagging 9 between leading roll arc piece 6 and the conveyer belt 3.

The adjusting part comprises a U-shaped directional block 35 fixedly arranged above the bearing seat 4, the U-shaped directional block 35 is positioned in front of the side of the double-end motor 10, a connecting slide block 36 is slidably arranged on the outer side of the U-shaped directional block 35, a guide groove body 39 is embedded on one side of the connecting slide block 36, a fixing bolt 37 is screwed on the other side of the connecting slide block 36 in a penetrating manner, the end part of the fixing bolt 37 is tightly pressed on the side surface of the U-shaped directional block 35, two groups of guide blocks 40 are slidably arranged in the guide groove body 39, adjusting studs 38 are rotatably embedded in the middle parts of the side surfaces of the two groups of guide blocks 40, a transmission column 41 is screwed on the side surface of the guide groove body 39 in a penetrating manner, three groups of driving gears 42 are respectively embedded on the outer side of the transmission column 41, the three groups of driving gears 42 are positioned in the guide groove body 39, and the radiuses of the three groups of driving gears 42 are sequentially reduced from front to back, the fourth driving gear 43 is meshed with the first driving gear 42, the moving direction of the connecting sliding block 36 can be limited through the arranged U-shaped orientation block 35, the connecting sliding block 36 can be fixed through the fixing bolt 37, the driving column 41 can be oriented through the guide block 40 and the guide groove body 39, and the driving column 41 can be fixed through the adjusting stud 38.

The control piece comprises a bearing seat 45 fixedly installed at the front edge of the lower end face of the guide groove body 39, two groups of connecting blocks 44 are symmetrically extended from the middle of the upper end face of the bearing seat 45, a pressing plate 47 is rotatably embedded between the two groups of connecting blocks 44, a pushing cam 27 is coaxially extended from the front end part of the transmission column 41, the outer surface of the pushing cam 27 is pressed on one side edge of the upper end face of the pressing plate 47, a return spring 48 is extended from the side of the upper end face of the bearing seat 45, the end part of the return spring 48 is attached to the position, close to one side edge, of the lower end face of the pressing plate 47, a first contact switch 46 is fixedly installed on the upper end face of the bearing seat 45, one side edge of the lower end face of the pressing plate 47 is pressed on the upper end face of the first contact switch 46, the connecting blocks 44, the first contact switch 46 and the pressing plate 47 can be fixed through the arranged bearing seat 45, the pressing plate 47 can be pressed on the first contact switch 46 under the pushing of the pushing cam 27, the pushing cylinder 23 is driven to start, and the return spring 48 can push and return the pressing plate 47.

The cutting piece comprises a lower cutting plate 14 fixedly arranged on the lower end surfaces of two groups of connecting supporting plates 9, a second connecting groove 25 extends from the front end surface of the lower cutting plate 14, an upper cutting plate 8 is rotatably arranged in the second connecting groove 25, a driving push cylinder 23 is fixedly arranged at the front edge of the side surface of the bearing seat 4, a first connecting groove 24 extends from the upper end part of the driving push cylinder 23, the front end part of the upper cutting plate 8 is rotatably embedded in the first connecting groove 24, a first contact switch 46 is electrically connected with the driving push cylinder 23, T-shaped blind grooves are respectively arranged on the upper end surface of the lower cutting plate 14 and the lower end surface of the upper cutting plate 8, cutting blades 15 are attached and arranged in the T-shaped blind grooves, turning plates 16 are rotatably arranged on the rear end surfaces of the lower cutting plate 14 and the upper cutting plate 8, the front end surfaces of the turning plates 16 are tightly pressed on the rear end surfaces of the cutting blades 15, and rubber bumps 17 extend from the front end surfaces of the turning plates 16, the rubber bump 17 penetrates through the rear end face of the lower cutting plate 14 and the rear end face of the upper cutting plate 8, two groups of guide arc plates 7 extend from the rear edges of two sides of the lower cutting plate 14 respectively, the upper cutting plate 8 is attached between the two groups of guide arc plates 7 in a sliding mode, the rear end face of the driving push cylinder 23 extends to form a reset pressing plate 50 close to the upper edge, the rear edge of the upper end face of the driving push cylinder 23 extends to form a second contact switch 51, the reset pressing plate 50 is located right above the second contact switch 51, the second contact switch 51 is electrically connected with the double-end motor 10, the rubber bump 17 is arranged, after the turnover plate 16 is turned over, the rubber bump 17 can be inserted into the lower cutting plate 14 and the upper cutting plate 8 to fix the turnover plate 16, the T-shaped blind groove plays a role in limiting the cutting blade 15, and the blade 15 can cut fabrics.

The working principle of the invention is as follows:

referring to the attached drawings 1-10 of the specification, in use, a user lifts the upper pressing body 29, then the user places the winding roller 5 on the fixed rod seat 28, then the user turns over the upper pressing body 29 to press the upper pressing body 29 on the fixed rod seat 28 again, and fixes the upper pressing body 29 on the fixed rod seat 28 under the action of two groups of strong magnetic sheets 31, meanwhile, two groups of connecting guide wheels 30 on the upper pressing body 29 and two groups of connecting guide wheels 30 on the fixed rod seat 28 press the surface of the winding roller 5 to fix the winding roller 5 and enable the winding roller to rotate, then the user connects the second connecting belt wheel 32 on the winding roller 5 and the second connecting belt wheel 32 on the driving pressure rod 18 together through the second synchronous belt 33, then the user starts the continuous transmission device to enable the double-head motor 10 to drive the first transmission teeth 11 to rotate, and further drive the second transmission teeth 12 and the third transmission teeth 13 meshed with the first transmission teeth 11 to rotate, the driving pressure rod 18 and the belt roller 49 can rotate to drive the conveying belt 3 and the guide rolling arc sheet 6 to roll, the second synchronous belt 33 and the second connecting belt wheel 32 drive the winding roller 5 to rotate, the fabric wound on the winding roller 5 is loosened, the fabric can be conveyed to the connecting supporting plate 9 through the space between the guide rolling arc sheet 6 and the conveying belt 3, the double-end motor 10 can drive the fourth transmission teeth 43 to rotate when running, the transmission column 41 is driven to rotate through one group of the driving gears 42, the driving pushing cam 27 at the end part of the transmission column 41 is driven to rotate, the pushing cam 27 can push the pressing plate 47, one end of the pressing plate 47 can descend to press the first contact switch 46 to start the driving pushing cylinder 23 to move, and the driving pushing cylinder 23 to move upwards to push the end part of the upper cutting plate 8 to move upwards, the cutting blade 15 on the upper cutting plate 8 can move downwards, the cutting blade 15 on the lower cutting plate 14 can be staggered to cut the fabric, the reset pressing plate 50 can be separated from the upper end of the second contact switch 51 when the push cylinder 23 is driven to push, the double-end motor 10 can stop moving, the fabric can stop moving, after the cutting is finished, the push cylinder 23 is driven to reset, the reset pressing plate 50 is pressed on the second contact switch 51 again, the double-end motor 10 is started to continue moving, the push cam 27 is driven to rotate, the pressing plate 47 moves upwards under the action of the reset spring 48 to be separated from the upper end of the first contact switch 46, the push cylinder 23 is driven to stop operating, the fabric is connected and cut in such a reciprocating way, when the cutting shear blade 15 needs to be replaced under the long-term use, a user can turn the turnover plate 16 fixed on the lower cutting plate 14 through the rubber bump 17 downwards, the cutting blade 15 can slide in the T-shaped blind groove under the action of the lost turnover plate 16, then the user pulls the cutting blade 15 to separate the cutting blade 15 from the T-shaped blind groove, and places the new cutting blade 15 into the T-shaped blind groove, and then the user can fix the new cutting blade 15 by reversely repeating the steps to finish the replacement of the cutting blade 15, and then the use can be continued.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a device is tailor in succession to textile fabric for surface fabric processing, includes support body (1), its characterized in that: the side of the first frame body (1) is provided with a second frame body (2), the inside of the first frame body (1) and the inside of the second frame body (2) are respectively provided with a conveying part, the edge of the upper end face of the first frame body (1) and the edge of the upper end face of the second frame body (2) are respectively provided with a conveying part, the upper end face of the first frame body (1) is provided with a rolling part, the rolling part is positioned on the side of the conveying part and is connected with the conveying part, the lower end face of the first frame body (1) is fixedly provided with a bearing seat (4), the upper end face of the bearing seat (4) is fixedly provided with a driving part, one end of the driving part is connected with the conveying part and the conveying part, one side of the upper end face driving part of the bearing seat (4) is provided with an adjusting part, the adjusting part is connected with the other end of the driving part, and the end part of the adjusting part is provided with a control part, the side of a support body (1) and the side of No. two support bodies (2) extend respectively and have two sets of fagging (9) of connecting, and are two sets of install between connection fagging (9) and tailor the piece, control with tailor piece and driving piece electric connection.

2. A device for continuously cutting textile fabric for processing fabric according to claim 1, characterized in that: the conveying piece comprises strip rods (49) penetrating through the inside of a first frame body (1) and the inside of a second frame body (2) in a rotating mode, the number of the strip rods (49) is eight, the eight strip rods (49) are linearly arranged, the four strip rods (49) are rotatably embedded in the first frame body (1), the other four strip rods (49) are rotatably embedded in the second frame body (2), the four strip rods (49) are connected with one another, the other four strip rods (49) are connected with one another, the outer sides of the strip rods (49) are connected with the other four strip rods (49) to form conveying belts (3), and the upper end faces of the conveying belts (3) and the upper end faces of the two connecting supporting plates (9) are located on the same plane under the same vertical line.

3. A device for continuously cutting textile fabric for processing fabric according to claim 2, characterized in that: defeated casting die is including extending two sets of carrier bar seats (19) at the up end edge of a support body (1) and the up end edge of No. two support bodies (2) respectively, and is two sets of rotate respectively between carrier bar seat (19) and run through to inlay and have two sets of drive depression bars (18), and is two sets of the outside of drive depression bar (18) is annular array extension respectively has the directional cylinder of multiunit (21), the multiunit the outside slidable mounting of directional cylinder (21) has directional grooved column (20), the tip of directional grooved column (20) is inlayed and is had lead runner piece (6), lead runner piece (6) and compress tightly in the up end of conveyer belt (3), the inside top surface of directional grooved column (20) extends and has promotion spring (22), the tip of promotion spring (22) and the tip fixed connection of directional cylinder (21).

4. A device for continuously cutting textile fabric for fabric processing according to claim 3, characterized in that: roll up the piece including extending fixed rod seat (28) at the up end of a support body (1), fixed rod seat (28) are located one side of carrier bar seat (19), the up end of fixed rod seat (28) is rotated and is installed and is pressed body (29), it has two sets of connection guide pulley (30) to go up the inside of pressing body (29) and the inside of fixed rod seat (28) and rotate respectively to inlay, and is two sets of it installs winding up roller (5) to connect the laminating between guide pulley (30), it has two sets of strong magnetic sheets (31) to go up to press the side lower limb department of body (29) and the side upper limb department of fixed rod seat (28) to extend respectively, and is two sets of strong magnetic sheet (31) adsorb mutually.

5. A device for continuously cutting textile fabric for processing fabric according to claim 4, characterized in that: the preceding tip of winding up roller (5) and wherein be connected No. two and connect band pulley (32) between the preceding tip of a set of drive depression bar (18) coaxial extension respectively, it is two sets of No. two be connected No. two hold-in range (33) between No. two connection band pulley (32), it is two sets of the back tip of drive depression bar (18) coaxial extension respectively has two sets of No. one to connect band pulley (26), and is two sets of be connected with a hold-in range (34) between a connection band pulley (26), two sets of the position that the outside of drive depression bar (18) is close to front and back edge extends respectively has two sets of No. three driving teeth (13), is located the front and back both ends of the band roller (49) of inside one side edge of a support body (1) and the front and back both ends of the band roller (49) that is located inside one side edge of No. two support bodies (2) are coaxial extension respectively and have No. two sets of No. two driving teeth (12), No. two driving teeth (12) mesh with No. three driving teeth (13).

6. A device for continuously cutting textile fabric for processing fabric according to claim 5, characterized in that: the driving piece includes that fixed mounting is close to double-end motor (10) of one side edge at the up end of bearing seat (4), the coaxial extension of back tip of double-end motor (10) has driving tooth (11) No. one, driving tooth (11) mesh with a set of No. two driving teeth (12) wherein mutually, the coaxial extension of preceding tip of double-end motor (10) has driving tooth (43) No. four.

7. A device for continuously cutting textile fabric for processing fabric according to claim 6, characterized in that: the adjusting part comprises a U-shaped directional block (35) fixedly mounted above a bearing seat (4), the U-shaped directional block (35) is located in the side front of the double-end motor (10), a connecting slide block (36) is slidably mounted on the outer side of the U-shaped directional block (35), one side of the connecting slide block (36) is inlaid with a guide groove body (39), the other side of the connecting slide block (36) is penetrated and screwed with a fixing bolt (37), the end part of the fixing bolt (37) is tightly pressed on the side surface of the U-shaped directional block (35), two groups of guide blocks (40) are slidably mounted inside the guide groove body (39), the middle parts of the side surfaces of the two groups of guide blocks (40) are rotatably inlaid with adjusting studs (38), the adjusting studs (38) are penetrated and screwed with the side surface of the guide groove body (39), and two groups of transmission columns (41) are penetrated and rotatably inlaid between the guide blocks (40), inlay respectively in the outside of transmission post (41) and have three group drive gear (42), three groups drive gear (42) are located the inside of guide slot body (39), three groups the radius of drive gear (42) reduces by going to back in proper order, No. four driving teeth (43) mesh with a set of drive gear (42) wherein mutually.

8. A device for continuously cutting textile fabric for fabric processing according to claim 7, characterized in that: the control piece comprises a bearing seat (45) fixedly arranged at the front edge of the lower end face of the guide groove body (39), two groups of connecting blocks (44) symmetrically extend from the middle part of the upper end surface of the bearing seat (45), a pressing plate (47) is rotatably embedded between the two groups of connecting blocks (44), a pushing cam (27) coaxially extends from the front end of the transmission column (41), the outer surface of the pushing cam (27) is pressed on one side edge of the upper end surface of the pressing plate (47), a return spring (48) extends from the side of the upper end face connecting block (44) of the bearing seat (45), the end part of the return spring (48) is attached to the position of the lower end surface of the pressing plate (47) close to one side edge, a first contact switch (46) is fixedly arranged on the upper end surface of the bearing seat (45), the edge of one side of the lower end face of the pressing plate (47) is pressed on the upper end face of the first contact switch (46).

9. A device for continuously cutting textile fabric for fabric processing according to claim 8, characterized in that: the cutting piece comprises a lower cutting plate (14) fixedly installed on the lower end face of two groups of connecting supporting plates (9), the front end face of the lower cutting plate (14) extends to form a second connecting groove (25), an upper cutting plate (8) is installed inside the second connecting groove (25) in a rotating mode, a driving push cylinder (23) is fixedly installed at the front edge of the side face of the bearing seat (4), a first connecting groove (24) extends from the upper end portion of the driving push cylinder (23), the front end portion of the upper cutting plate (8) is rotatably embedded inside the first connecting groove (24), a first contact switch (46) is electrically connected with the driving push cylinder (23), T-shaped blind grooves are formed in the upper end face of the lower cutting plate (14) and the lower end face of the upper cutting plate (8), cutting blades (15) are installed in the T-shaped blind grooves in a laminating mode, and a rear end face of the lower cutting plate (14) and a rear end face of the upper cutting plate (8) are rotatably installed with a turnover plate (16), the preceding terminal surface of returning face plate (16) compresses tightly in the rear end face of cutting out blade (15), the preceding terminal surface extension of returning face plate (16) has rubber lug (17), rubber lug (17) run through in the rear end face of cutting out board (14) down and the rear end face of last cutting out board (8), the both sides rear edge department of cutting out board (14) down extends respectively has two sets of guide arc boards (7), it slides to laminate between two sets of guide arc boards (7) to go up cutting out board (8), the rear end face that the drive pushed away jar (23) is close to the upper edge department and extends there is reset clamp plate (50), the drive pushes away the upper end rear edge of jar (23) and extends there is No. two contact switch (51), reset clamp plate (50) are located No. two contact switch (51) directly over, No. two contact switch (51) and double-end motor (10) electric connection.

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