CN109335757B

CN109335757B - Linking device is cut to suture

Info

Publication number: CN109335757B
Application number: CN201811431210.0A
Authority: CN
Inventors: 张建江
Original assignee: Jiangsu Changjiang Paper Industry Co ltd
Current assignee: Jiangsu Changjiang Paper Industry Co ltd
Priority date: 2018-11-28
Filing date: 2018-11-28
Publication date: 2023-08-18
Anticipated expiration: 2038-11-28
Also published as: CN109335757A

Abstract

The utility model provides a interlock is cut to suture, including the delivery table, install the delivery table side and be located the material loading platform of cutting machine conveyer belt top and establish pressure device and the depression bar device in the delivery table top, delivery table gyro wheel is established in the one end middle part of delivery table, the other end has the delivery table roller, both pass through the belt and connect, the delivery table is located delivery table side and establishes the material loading platform roller axle, the material loading platform roller is connected with delivery table roller axle, the action wheel is established on the delivery table right side, the action wheel is driven by first motor, be connected through the conveyer between action wheel and the delivery platform roller axle, establish first, second and third gyro wheel on the material loading platform, the front end downward sloping of material loading platform has the loading board, establish fourth, fifth gyro wheel on the loading board, the second gyro wheel passes through the gyro wheel belt with third, fourth and fifth gyro wheel is connected, first, second and third gyro wheel are driven by the second motor. The station that fills the cutting machine cavity and lacks improves production efficiency and avoids the wasting of resources, can transport the exercise book of accomplishing the suture fast, saves labour cost.

Description

Linking device is cut to suture

Technical Field

The application belongs to the technical field of workbook processing equipment, and particularly relates to a suture cutting linkage device.

Background

Exercise books are a common school supplies, and because of their thin thickness, the exercise books are usually made of a structure with a suture in the middle and folded in half during the production process. In order to improve production efficiency, stitching can be performed firstly and then cutting is performed to form a plurality of exercise books, stitching is performed on a sewing machine after each page of paper is orderly stacked by manual operation, and then the exercise books with the stitching completed are placed into a slitting device for slitting by manual operation, so that time and labor are wasted, the efficiency of stitching of workers is different, and the situation that the slitting machine is not used for slitting the exercise books or stations of the slitting machine are full and cannot be used for placing the exercise books often occurs in the slitting process.

In view of the above, it is desirable to design a sewing and slitting linkage device that can save the time for a worker to carry an exercise book and prevent the waste caused by the non-object-cutting of the slitting machine. To this end, the inventors have advantageously devised that the technical solutions described below are created in this context.

Disclosure of Invention

The application aims to provide a suture cutting linkage device which is beneficial to filling up the vacant stations in a cutting machine, so that the production efficiency is improved, the resource waste is avoided, and the rapid transportation of a completed suture exercise book is facilitated, so that the production efficiency is further improved.

The task of the application is accomplished in this way, a kind of suture cuts the interlock device, characterized by that: comprises a conveying table, a feeding table arranged beside the conveying table and positioned above a conveying belt of the splitting machine, a pressing device arranged above the feeding table, and a pressing rod device arranged above the feeding table, wherein a conveying table roller is rotatably arranged in the middle of one end of the conveying table, a conveying table roller shaft is rotatably supported at the other end of the conveying table, the conveying table roller is in transmission connection with the middle of the conveying table roller shaft through a conveying table belt, the feeding table is positioned beside the conveying table and is rotatably provided with a feeding table roller shaft along the front-back direction, one end of the feeding table roller shaft is in transmission connection with one end of the conveying table roller shaft through a transmission belt, a driving wheel is rotatably arranged on the right side of the feeding table and is rotatably driven to rotate through a first motor beside the driving wheel, the driving wheel is in transmission connection with the conveying table roller shaft along the left-right direction through the transmission belt, the feeding table is provided with a pair of first rollers at intervals in front of the conveyor belt, a pair of second rollers are arranged at intervals in front of the first rollers, a pair of third rollers are arranged in front of the second rollers and correspond to the second rollers, a feeding plate is arranged at the front end of the feeding table in a downward inclination mode, a pair of fourth rollers are arranged at the position, corresponding to the third rollers, of the feeding plate, a pair of fifth rollers are arranged at the end portion of the feeding plate and correspond to the fourth rollers, the second rollers are respectively in transmission connection with the third rollers, the fourth rollers and the fifth rollers at the corresponding positions through roller belts, and the first rollers, the second rollers and the third rollers are driven to rotate through a second motor arranged beside the first rollers, the second rollers and the third rollers.

In a specific embodiment of the present application, the pressing device includes a first roller pressing rod disposed above the first roller, a second roller pressing rod disposed above the second roller, a third roller pressing rod disposed above the third roller, and a cylinder disposed at one end of the first roller pressing rod, a pair of first pressing rods and a second pressing rod are respectively fixed at positions corresponding to the first roller and the second roller on the first roller pressing rod and the second roller pressing rod, a first pressing wheel pressing against the first roller is disposed on the first pressing rod, a second pressing rod pressing against the second pressing rod is disposed on the second pressing rod, a pair of third pressing rods pressing against the third roller are respectively fixed at positions corresponding to the third roller on the third roller pressing rod, a diagonal pressing rod is further hinged at one end of the third pressing rod, a pair of diagonal pressing rods pressing against the upper plate are disposed at one side of the diagonal pressing rods, a pair of diagonal pressing rods pressing against the upper plate are connected with the first pressing rod by a diagonal pressing rod, and the first pressing rod is connected with the first pressing plate by a diagonal pressing rod, and the first pressing rod is driven by a belt, and the first pressing rod is driven by the first pressing rod and is connected with the first pressing rod.

In another specific embodiment of the present application, the axles of the first roller, the second roller and the third roller extend towards one end respectively and form a first driving wheel, a second driving wheel and a third driving wheel at the end, a first tensioning wheel is arranged between the first driving wheel and the second driving wheel, a second tensioning wheel is arranged between the second driving wheel and the third driving wheel, the axle end of the second motor forms a second motor axle wheel, the second motor axle wheel is in driving connection with the first driving wheel, the second driving wheel and the third driving wheel through a second motor belt, and the first tensioning wheel and the second tensioning wheel are respectively pressed above the second motor belt.

In another specific embodiment of the application, the pressure bar device is arranged above the conveyor belt and extends along the left-right direction, one end of the pressure bar device is fixed on a fixed frame arranged on the loading table, an adjusting block is arranged above the other end of the pressure bar device, an adjusting screw is arranged on the adjusting block, and the adjusting screw passes through the adjusting block to lean against the pressure bar device.

In a further specific embodiment of the present application, a roller belt tensioner is further disposed between the third roller and the fourth roller, and the roller belt tensioner is abutted against the roller belt from below.

In a further specific embodiment of the present application, two sides of the conveying table are respectively provided with a conveying table supporting plate, a conveying table pressing wheel shaft is supported between the two conveying table supporting plates, a first conveying table pressing wheel is rotatably arranged at a position corresponding to the conveying table belt on the conveying table pressing wheel shaft, a second conveying table pressing wheel is further arranged above the conveying table roller shaft, and two sides of the second conveying table pressing wheel are respectively connected with the conveying table pressing wheel shaft through connecting plates.

In a further embodiment of the present application, a sensor mounting rod extends from the middle of the rear end of the loading table, and a sensor is mounted at the end of the sensor mounting rod.

After the structure is adopted, the application has the beneficial effects that: due to the fact that the structure that the first motor is used for transversely feeding and the second motor is used for being matched with the sensor for longitudinally feeding is adopted, stations in the gaps in the splitting machine are facilitated to be filled, production efficiency is effectively improved, resource waste is avoided, quick transportation of a exercise book with finished stitches is facilitated, production efficiency is further improved, and labor cost is saved.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present application.

Fig. 2 is a schematic side view of the embodiment of fig. 1.

In the figure: 1. transfer table, 11 transfer table roller, 12 transfer table roller, 13 transfer table belt, 14 transfer table support plate 15, conveying table pinch rollers, 16, a first conveying table pinch roller, 17, a second conveying table pinch roller and 18, a connecting plate; 2. the feeding device comprises a feeding table, a feeding table roll shaft, 211, a driving belt, 212, a conveying belt, 22, a driving wheel, 23, a first roller, 231, a first driving wheel, 24, a second roller, 241, a second driving wheel, 25, a third roller, 251, a third driving wheel, 26, a fourth roller, 27, a fifth roller, 28, a feeding plate, 29, a roller belt and 291, and a roller belt tensioning wheel. 3. A first motor; 4. the second motor comprises a second motor shaft wheel and a second motor shaft wheel, wherein the second motor shaft wheel and the second motor shaft wheel are respectively provided with a first tensioning wheel and a second tensioning wheel, and the first tensioning wheel and the second tensioning wheel are respectively provided with a second motor belt, and the second motor shaft wheel are respectively provided with a second motor shaft wheel, a second motor shaft; 5. the pressing device comprises a pressing device, namely a first roller pressing rod, a first pressing block, a first pressing wheel, a pressing plate, a second pressing wheel, a second pressing rod, a second pressing block, a second pressing wheel, a third pressing rod, a third pressing block, a third pressing wheel, a 533 diagonal pressing rod, a 534 diagonal pressing wheel, a 535 diagonal pressing wheel belt and a 54 cylinder, wherein the pressing device comprises a pressing plate, a first pressing block, a 512, a first pressing wheel, a 513, a pushing plate, a 52, a second pressing wheel, a 521, a second pressing block, a 522, a second pressing wheel, a 53, a third pressing wheel, a 531, a third pressing block, a 532, a third pressing wheel, a 533, a diagonal pressing wheel, a belt and a 54. 6. The device comprises a compression bar device, a fixing frame, a regulating block and a regulating screw, wherein the compression bar device, the fixing frame, the regulating block and the regulating screw are arranged in the same sequence; 7. sensor mounting bar, 71. Sensor.

Detailed Description

The following detailed description is of embodiments, but the embodiments are not limited to the embodiments, and any equivalent changes made according to the inventive concept are to be regarded as technical scope of the application.

Referring to fig. 1 in combination with fig. 2, the present application relates to a linking device for cutting suture, comprising a conveying table 1, a feeding table 2 installed beside the conveying table 1 and above a conveyor belt of a cutting machine, a pressing device 5 arranged above the feeding table 2, and a pressing bar device 6 arranged above the feeding table 2, wherein a conveying table roller 11 is rotatably arranged in the middle of one end of the conveying table 1, a conveying table roller 12 is rotatably supported in the other end of the conveying table 1, the conveying table roller 11 is in transmission connection with the middle of the conveying table roller 12 through a conveying table belt 13, the feeding table 2 is positioned beside the conveying table 1 and rotatably provided with a feeding table roller 21 along the front-rear direction, one end of the feeding table roller 21 is in transmission connection with one end of the conveying table roller 12 through a transmission belt 211, the right side of the feeding table 2 is rotatably provided with a driving wheel 22, the driving wheel 22 is driven to rotate by a first motor 3 beside the driving wheel 22, the driving wheel 22 is in transmission connection with a roller shaft 12 of the conveying table along the left-right direction by a conveying belt 212, the feeding table 2 is provided with a pair of first rollers 23 at intervals in front of the conveying belt 212, a pair of second rollers 24 are arranged at intervals in front of the first rollers 23, a pair of third rollers 25 are arranged at the front of the second rollers 24 at the position corresponding to the second rollers 24, a feeding plate 28 is downwards inclined at the front end of the feeding table 2, a pair of fourth rollers 26 are arranged at the position corresponding to the third rollers 25 on the feeding plate 28, a pair of fifth rollers 27 are arranged at the end of the feeding plate 28 at the position corresponding to the fourth rollers 26, the second roller 24 is in transmission connection with a third roller 25, a fourth roller 26 and a fifth roller 27 at corresponding positions respectively through a roller belt 29, and the first roller 23, the second roller 24 and the third roller 25 are driven to rotate through a second motor 4 arranged beside.

Further, the material pressing device 5 includes a first roller pressing rod 51 disposed above the first roller 23, a second roller pressing rod 52 disposed above the second roller 24, a third roller pressing rod 53 disposed above the third roller 25, and a cylinder 54 disposed at one end of the first roller pressing rod 51, a pair of first pressing rods 511 and a second pressing rod 521 are respectively fixed at positions corresponding to the first roller 23 and the second roller 24 on the first roller pressing rod 51 and the second roller pressing rod 52, a first pressing rod 512 is disposed on the first pressing rod 511 and is pressed against the first roller 23, a second pressing rod 522 is disposed on the second pressing rod 521 and is pressed against the second pressing rod 521, a pair of third pressing rods 531 are respectively fixed at positions corresponding to the third roller 25 on the third roller pressing rod 53, a third pressing rod 532 is disposed on the third pressing rod 531, a pair of pressing rods 533 are further hinged at one end of the third pressing rod 531, a pair of pressing rods 533 are obliquely arranged on one side of the first pressing rods 533 and are obliquely arranged on the first pressing rod pressing plate 513, and are obliquely connected with the first pressing rod 51 through a pair of obliquely pressing rods 534, and the first pressing rods 513 are made to be separated from the first pressing rod 51 by the obliquely connecting belt pressing rods 513, and the first pressing rods are made to rotate.

Further, the axles of the first roller 23, the second roller 24 and the third roller 25 extend towards one end respectively and form a first driving wheel 231, a second driving wheel 241 and a third driving wheel 251 at the end, a first tensioning wheel 42 is arranged between the first driving wheel 231 and the second driving wheel 241, a second tensioning wheel 43 is arranged between the second driving wheel 241 and the third driving wheel 251, the axle end of the second motor 4 forms a second motor axle wheel 41, the second motor axle wheel 41 is in transmission connection with the first driving wheel 231, the second driving wheel 241 and the third driving wheel 251 through a second motor belt 44, and the first tensioning wheel 42 and the second tensioning wheel 43 are respectively pressed above the second motor belt 44.

Further, the pressure bar device 6 is disposed above the conveyor belt 212 and extends in the left-right direction, one end of the pressure bar device 6 is fixed on the fixing frame 61 mounted on the loading table 2, an adjusting block 62 is disposed above the other end of the pressure bar device 6, an adjusting screw 63 is disposed on the adjusting block 62, and the adjusting screw 63 abuts against the pressure bar device 6 through the adjusting block 62.

Further, a roller belt tension wheel 291 is provided between the third roller 25 and the fourth roller 26, and the roller belt tension wheel 291 abuts against the roller belt 29 from below.

Further, two sides of the conveying table 1 are respectively provided with a conveying table supporting plate 14, a conveying table pinch roller shaft 15 is supported between the two conveying table supporting plates 14, a first conveying table pinch roller 16 is rotatably arranged at a position of the conveying table pinch roller shaft 15 corresponding to the conveying table belt 13, a second conveying table pinch roller 17 is further arranged above the conveying table roller shaft 12, and two sides of the second conveying table pinch roller 17 are respectively connected with the conveying table pinch roller shaft 15 through connecting plates 18.

Further, a sensor mounting rod 7 extends from the middle of the rear end of the loading platform 2, and a sensor 71 is mounted at the end of the sensor mounting rod 7.

Referring to fig. 1 in combination with fig. 2, the exercise book with stitching is fed from one end of the conveying table 1, the first motor 3 rotates to drive the driving wheel 22 to rotate, the driving wheel 22 drives the feeding table roller shaft 21 to rotate through the conveying belt 212, the feeding table roller shaft 21 drives the conveying table roller shaft 12 to rotate through the driving belt 211, the conveying table roller shaft 12 drives the conveying table roller 11 to rotate through the conveying table belt 13, the exercise book slides rightward under the assistance of the driving belt 13 and the first conveying table pinch roller 16 and the second conveying table pinch roller 17 until the exercise book slides above the conveying belt 212 and is pressed against the conveying belt 212 by the pressing rod device 6, when the feeding plate 28 is required to be fed, the second motor 4 rotates, the second motor 4 drives the first driving wheel 231, the second driving wheel 251 and the third driving wheel to rotate, thereby driving the first roller 23, the second roller 24 and the third roller 25 to rotate, at this time, the cylinder 54 pushes the first roller pressing rod 51 to rotate and the first pressing wheel 512 is pressed against the exercise book, the exercise book is fully contacted with the first roller 23 under the pressing of the first pressing wheel 512 and slides forward against the pressure of the pressing rod device 6, the exercise book slides onto the upper material plate 28 under the driving of the roller belt 29, then the second motor 4 stops working, the sensor 71 detects at the rear, and when detecting that the work book without the suture is not passed on the work position of the lower splitting machine, the sensor 71 sends out a signal to make the second motor 4 work again, and the exercise book continues to slide downwards under the driving of the roller belt 29 and finally falls into the work position of the splitting machine after being separated from the upper material plate 28.

Claims

1. The utility model provides a interlock is cut to suture which characterized in that: comprises a conveying table (1), a feeding table (2) arranged beside the conveying table (1) and above a conveying belt of a splitting machine, a pressing device (5) arranged above the feeding table (2) and a pressing rod device (6) arranged above the feeding table (2), wherein a conveying table roller (11) is rotatably arranged in the middle of one end of the conveying table (1), a conveying table roller (12) is rotatably supported at the other end of the conveying table (1), the conveying table roller (11) is in transmission connection with the middle of the conveying table roller (12) through a conveying table belt (13), the feeding table (2) is arranged beside the conveying table (1) and rotatably provided with a feeding table roller (21) along the front-rear direction, one end of the feeding table roller (21) is in transmission connection with one end of the conveying table roller (12) through a transmission belt (211), a driving wheel (22) is rotatably arranged on the right side of the feeding table (2), the driving wheel (22) is rotatably supported by a first motor (3) and is in transmission connection with a right roller (212) through a transmission belt (212) along the front-rear direction, the driving wheel (212) is arranged between the conveying table roller (2) and the conveying table (212), a pair of second rollers (24) are arranged in front of the first rollers (23) at intervals, a pair of third rollers (25) are arranged at positions in front of the second rollers (24) and corresponding to the second rollers (24), a feeding plate (28) is arranged at the front end of the feeding table (2) in a downward inclination mode, a pair of fourth rollers (26) are arranged at positions, corresponding to the third rollers (25), of the feeding plate (28), a pair of fifth rollers (27) are arranged at the end portions of the feeding plate (28) and corresponding to the fourth rollers (26), the second rollers (24) are respectively in transmission connection with the third rollers (25) and the fourth rollers (26) at the corresponding positions and the fifth rollers (27) through roller belts (29), and the first rollers (23), the second rollers (24) and the third rollers (25) are driven to rotate through second motors (4) arranged beside the second rollers.

2. The stitch slitting linkage device according to claim 1, wherein the pressing device (5) comprises a first roller pressing rod (51) arranged above the first roller (23), a second roller pressing rod (52) arranged above the second roller (24), a third roller pressing rod (53) arranged above the third roller (25), and a cylinder (54) arranged at one end of the first roller pressing rod (51), a pair of first pressing blocks (511) and second pressing blocks (521) are respectively fixed at positions corresponding to the first roller (23) and the second roller pressing rod (52), a first pressing wheel (512) pressed against the first roller (23) is arranged on the first pressing block (511), a second pressing wheel (522) pressed against the second pressing block (521) is arranged on the second pressing block (521), a third pressing rod (53) is correspondingly fixed at a third pressing block (531) hinged to the third pressing block (531) at a third end corresponding to the third pressing block (531) of the third roller (25), one side of the inclined pressure rod (533) is provided with a pair of inclined pressure wheels (534) pressed against the feeding plate (28), the pair of inclined pressure wheels (534) are in transmission connection through an inclined pressure wheel belt (535), one end of the first roller pressure rod (51) is provided with a push plate (513), the push plate (513) is in transmission connection with the air cylinder (54) and pushes the push plate (513) to enable the first roller pressure rod (51) to rotate, and therefore the first pressure wheel (512) is separated from the first roller (23).

3. The stitch slitting linkage device according to claim 1, wherein the axles of the first roller (23), the second roller (24) and the third roller (25) extend towards one end respectively and are provided with a first driving wheel (231), a second driving wheel (241) and a third driving wheel (251) at the end, a first tensioning wheel (42) is arranged between the first driving wheel (231) and the second driving wheel (241), a second tensioning wheel (43) is arranged between the second driving wheel (241) and the third driving wheel (251), the axle end of the second motor (4) is provided with a second motor axle wheel (41), the second motor axle wheel (41) is in driving connection with the first driving wheel (231), the second driving wheel (241) and the third driving wheel (251) through a second motor belt (44), and the first tensioning wheel (42) and the second tensioning wheel (43) are respectively pressed against the upper part of the second motor belt (44).

4. A suture cutting linkage device according to claim 1, characterized in that the pressure bar device (6) is arranged above the conveyor belt (212) and extends in the left-right direction, one end of the pressure bar device (6) is fixed on a fixing frame (61) arranged on the feeding table (2), an adjusting block (62) is arranged above the other end of the pressure bar device (6), an adjusting screw (63) is arranged on the adjusting block (62), and the adjusting screw (63) passes through the adjusting block (62) to be propped against the pressure bar device (6).

5. A seam slitting linkage according to claim 1, characterized in that a roller belt tensioner (291) is further provided between the third roller (25) and the fourth roller (26), the roller belt tensioner (291) bearing against the roller belt (29) from below.

6. A seam slitting linkage according to claim 1, characterized in that two sides of the conveying table (1) are respectively provided with a conveying table supporting plate (14), a conveying table pressing wheel shaft (15) is supported between the two conveying table supporting plates (14), a first conveying table pressing wheel (16) is rotatably arranged at a position of the conveying table pressing wheel shaft (15) corresponding to the conveying table belt (13), a second conveying table pressing wheel (17) is further arranged above the conveying table roller shaft (12), and two sides of the second conveying table pressing wheel (17) are respectively connected with the conveying table pressing wheel shaft (15) through connecting plates (18).

7. A suture cutting linkage device according to claim 1, wherein a sensor mounting rod (7) extends from the middle of the rear end of the feeding table (2), and a sensor (71) is mounted at the end of the sensor mounting rod (7).