CN203805076U - Continuous stamping device for auxiliary materials - Google Patents

Abstract

The utility model provides a continuous stamping device for auxiliary materials. The continuous stamping device for the auxiliary materials comprises a seat, a material collecting mechanism, a material conveying mechanism, a punching mechanism, a driving device, a cropping mechanism, a power device and a controller, wherein the controller and the power device are connected with the material conveying mechanism, the punching mechanism, the driving device and the cropping mechanism; the material conveying mechanism comprises a servo module, a fixed clamping device and a movable clamping device; the fixed clamping device and the movable clamping device are sequentially arranged in the front-back direction; the fixed clamping device is fixed on the servo module and can release and clamp the materials; and the movable clamping device is movably locked on the servo module, can move in the front-back direction, and can release and clamp the materials. By effectively combining the punching mechanism, the cropping mechanism and the material conveying mechanism comprising the fixed clamping device and the movable clamping device, the original manual punching is converted into continuous and automatic punching; the precision is high; the cost can be greatly saved; and the efficiency is improved.

Description

Auxiliary material progressive die flushing device

Technical field

The utility model relates to mobile phone and computer/digital product part processing and manufacturing field, relates in particular to a kind of auxiliary material progressive die flushing device.

Background technology

Along with making constant progress of science and technology, requirement to circuit board is also more and more higher, especially digital product is pursued convenience and lightweight, having can immunity, ultra-thin property, the flexible PCB that quality is light is greatly developed and is applied at electronic applications as high-tech product, simultaneously, the requirement of its performance is also improved gradually, but in today of automatic high-speed development, stamping automation equipment is bulky expensive continuously, the auxiliary material stamp of flexible PCB still adopts traditional processing technology: be cut into sheet, wrapper sheet, boring, manual stamp, production cost is high and efficiency is low.

Summary of the invention

The technical problems to be solved in the utility model be to provide a kind of fast, the auxiliary material progressive die flushing device of high accuracy, low cost, automation.

The utility model provides a kind of auxiliary material progressive die flushing device, comprises support, material receiving mechanism, feed mechanism, stamp mechanism, drive unit, cutting mechanism, power set and controller; Described material receiving mechanism, feed mechanism, stamp mechanism, drive unit and cutting mechanism are arranged on support successively from front to back, and described controller is all connected feed mechanism, stamp mechanism, drive unit and cutting mechanism with power set; Described feed mechanism comprises the servo module that is located on support, arrange before and after successively be fixed on unclamping and clamping the fixed clamping device of material and the mobile clamping device that active lock can move forward and backward and can unclamp and clamp material on servo module on servo module.

Described material receiving mechanism comprises for installing the circular shaft that air-expanding shaft and being located at unreels under air-expanding shaft that unreels of material and forming, and the material that unreels air-expanding shaft is walked around and entered feed mechanism from circular shaft.

Described fixed clamping device comprises cylinder A, connecting rod A, upper backup pad A, linear bearing A, pressing plate A, rubber strip A and lower supporting plate A, described cylinder A is fixed on upper backup pad A, described connecting rod A is connected between upper backup pad A and lower supporting plate A, described linear bearing A is socketed on connecting rod A, described pressing plate A is socketed in linear bearing A and fixes with it, the lower surface of described pressing plate A is provided with rubber strip A, the piston rod of described cylinder A by its lower end is passed down through upper backup pad A and is fixed on pressing plate A, thereby drive pressing plate A to move up and down, when pressing plate A moves down, rubber strip A and lower supporting plate A press, described lower supporting plate A is fixed on servo module.

Described mobile clamping device is for comprising cylinder B, connecting rod B, upper backup pad B, linear bearing B, pressing plate B, rubber strip B and lower supporting plate B, described cylinder B is fixed on upper backup pad B, described connecting rod B is connected between upper backup pad B and lower supporting plate B, described linear bearing B is socketed on connecting rod B, described pressing plate B is socketed in linear bearing B and fixes with it, the lower surface of described pressing plate B is provided with rubber strip B, the piston rod of described cylinder B by its lower end is passed down through upper backup pad B and is fixed on pressing plate B, thereby drive pressing plate B to move up and down, when pressing plate B moves down, rubber strip B and lower supporting plate B press, the basal sliding of described lower supporting plate B is connected on servo module.

Also comprise and be located at pressure pin servo module rear end and its upper surface pressure pin mutually concordant with the upper surface of lower supporting plate A or lower supporting plate B.

Described stamp mechanism is a punch press and is arranged on punch press and can carries out to material the mould of punching press.

Described drive unit comprises last item and friction roller, described last item and friction roller be upper and lower pressing setting successively, described friction roller is driven by power set as driving wheel, usings and drives the last item rotation as driven pulley, and material passes between last item and friction roller.

Described cutting mechanism comprises cylinder, connecting plate, two linear bearing C, upper slitter installing plate, two connecting rod C, lower cutter installing plate, upper cutter, lower cutter and bases, described cylinder is fixed on connecting plate, described connecting rod C is connected between connecting plate and base, described linear bearing C is socketed on connecting rod C, described linear bearing C comprises square block and the sleeve being connected up and down with square block, the circular channel that middle formation can be inserted for connecting rod C; Upper slitter installing plate is fixedly connected with square block through sleeve its upper end of linear bearing C, the side of described upper slitter installing plate is provided with lower surface lower than the upper cutter of upper slitter installing plate lower surface, in the gap that described base and upper slitter installing plate form and be provided with lower cutter installing plate on base, the side of described lower cutter installing plate and the upper surface of base are provided with lower cutter, the piston rod of cylinder by its lower end is passed down through connecting plate and is fixed on upper slitter installing plate and drives it to move up and down, when upper slitter installing plate down drives upper cutter to move downward, upper cutter laminating lower cutter.

The upper surface of described lower cutter installing plate is concordant with the upper surface of lower cutter, in the gap that described base and upper slitter installing plate form and be also provided with holding pad on the upper surface of lower cutter installing plate and lower cutter, described holding pad inside contracts a segment distance with respect to the lateral surface of lower cutter.

Between drive unit and cutting mechanism, be also provided with dragging mechanism, described dragging mechanism comprises power transmission shaft, some rubber bars, two guide posts and distance adjustment roller, described power transmission shaft is provided with four, be followed successively by from front to back: the first power transmission shaft, second driving shaft, the 3rd power transmission shaft and the 4th power transmission shaft, described the 4th power transmission shaft is located on the base of cutting mechanism, is also provided with the slide block that can move forward and backward back and forth along the guide rail arranging on support on described base, the height of described the first power transmission shaft and the 4th power transmission shaft equates, the height of second driving shaft and the 3rd power transmission shaft equates, described the first power transmission shaft and the 4th power transmission shaft bottom and the top of second driving shaft and the 3rd power transmission shaft on same level height, described power transmission shaft is equipped with some ring annular grooves successively around its external peripheral surface, described the first power transmission shaft, second driving shaft, position homogeneous one correspondence of the annular groove of the 3rd power transmission shaft and the 4th power transmission shaft, described two guide posts are vertically connected to respectively the bottom, the left and right sides of support, described guide post vertically has guide groove, distance adjustment roller is located between the guide groove separately of two guide posts and its two ends have screw thread, thereby locking the screw thread of distance adjustment roller from the outside of guide post, nut make distance adjustment roller be connected to the desired location of guide groove, the upper surface that described some rubber bars extend to the 4th power transmission shaft from the upper surface of the first power transmission shaft detours to the lower surface of the 4th power transmission shaft, upper surface via the 3rd power transmission shaft extremely detours to the rear surface of distance adjustment roller downwards, then detour to the front surface of distance adjustment roller, then via the upper surface of second driving shaft, walk to the lower surface of the first power transmission shaft, finally closed mutually with its upper surface, described some rubber bars are corresponding with the position homogeneous one of some ring annular grooves.

The utility model provides a kind of auxiliary material progressive die flushing device, by by effectively the combining of the feed mechanism that contains fixed clamping device, mobile clamping device, stamp mechanism and cutting mechanism, realized by original manual stamp to the conversion of stamp automatically continuously; Not only precision is high, and can greatly save cost and raising efficiency.

Accompanying drawing explanation

Fig. 1 be the auxiliary material progressive die of the utility model flushing device wear material front view.

Fig. 2 is the perspective view of the auxiliary material progressive die of the utility model flushing device.

Fig. 3 is material receiving mechanism and the feeding machine structure schematic diagram of the auxiliary material progressive die of the utility model flushing device.

Fig. 4 is the structural representation of the fixed clamping device of the auxiliary material progressive die of the utility model flushing device.

Fig. 5 is the structural representation of the mobile clamping device of the auxiliary material progressive die of the utility model flushing device.

Fig. 6 is the front portion structure schematic diagram of the cutting mechanism of the auxiliary material progressive die of the utility model flushing device.

Fig. 7 is the rear structure schematic diagram of the cutting mechanism of the auxiliary material progressive die of the utility model flushing device.

Fig. 8 is the structural representation of not wearing rubber bar of the dragging mechanism of the auxiliary material progressive die of the utility model flushing device.

Fig. 9 is the structural representation that penetrates rubber bar of the dragging mechanism of the auxiliary material progressive die of the utility model flushing device.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail.

The utility model provides a kind of auxiliary material progressive die flushing device, as shown in Figure 1-2, comprises support 1, material receiving mechanism 2, feed mechanism 3, stamp mechanism 4, drive unit 5, cutting mechanism 6, power set and controller 8; Described material receiving mechanism 2, feed mechanism 3, stamp mechanism 4, drive unit 5 and cutting mechanism 6 are arranged on support 1 successively from front to back, and described controller is all connected feed mechanism 3, stamp mechanism 4, drive unit 5 and cutting mechanism 6 with power set; The fixed clamping device 32 and the active lock that unclamp and clamp material that are fixed on servo module 31 that described feed mechanism 3 comprises the servo module 31 that is located on support 1, arrange before and after successively can move forward and backward and can unclamp and clamp the mobile clamping device 33 of material on servo module 31.

Described material receiving mechanism 2 as shown in Figure 3, comprises for installing unreeling air-expanding shaft 21 and be located at the circular shaft 22 unreeling under air-expanding shaft 21 and forming of material, and the material that unreels air-expanding shaft 21 is walked around and entered feed mechanism 3 from circular shaft 22.

Described fixed clamping device 32 as shown in Figure 4, comprise cylinder A321, connecting rod A322, upper backup pad A323, linear bearing A324, pressing plate A325, rubber strip A326 and lower supporting plate A327, described cylinder A321 is fixed on upper backup pad A323, described connecting rod A322 is connected between upper backup pad A323 and lower supporting plate A327, described linear bearing A324 is socketed on connecting rod A322, described pressing plate A325 is socketed in linear bearing A324 and fixes with it, specifically, described linear bearing A324 comprises square block 324a and the sleeve 324b being connected up and down with square block 324a, the circular channel that middle formation can be inserted for connecting rod A322, pressing plate A325 is fixedly connected with square block 324a through sleeve 324b its lower end of linear bearing A324.The lower surface of described pressing plate A325 is provided with rubber strip A326, the piston rod of described cylinder A321 by its lower end is passed down through upper backup pad A323 and is fixed on pressing plate A325, thereby drive pressing plate A325 to move up and down, when pressing plate A325 moves down, rubber strip A326 and lower supporting plate A327 press, and described lower supporting plate A327 is fixed on servo module 31.

Described mobile clamping device is 33 as shown in Figure 5, comprise cylinder B331, connecting rod B332, upper backup pad B333, linear bearing B334, pressing plate B335, rubber strip B336 and lower supporting plate B337, described cylinder B331 is fixed on upper backup pad B333, described connecting rod B332 is connected between upper backup pad B333 and lower supporting plate B337, described linear bearing B334 is socketed on connecting rod B332, described pressing plate B335 is socketed in linear bearing B334 and fixes with it, specifically, described linear bearing B334 comprises square block 334a and the sleeve 334b being connected up and down with square block 334a, the circular channel that middle formation can be inserted for connecting rod connecting rod B332, pressing plate B335 is fixedly connected with square block 334a through sleeve 334b its lower end of linear bearing B334.The lower surface of described pressing plate B335 is provided with rubber strip B336, the piston rod of described cylinder B331 by its lower end is passed down through upper backup pad B333 and is fixed on pressing plate B335, thereby drive pressing plate B335 to move up and down, when pressing plate B335 moves down, rubber strip B336 and lower supporting plate B337 press, and the basal sliding of described lower supporting plate B337 is connected on servo module 31.

As shown in Figure 3, also comprise and be located at pressure pin servo module 31 rear ends and its upper surface pressure pin 34 mutually concordant with the upper surface of lower supporting plate A327 or lower supporting plate B337, like this pressure pin 34 material make its maintenance level at the volley in tow.

Described stamp mechanism 4 is a punch press 41 and is arranged on punch press 41 and can carries out to material the mould of punching press.

Described drive unit 5 as shown in Figure 2, comprise last item 51 and friction roller 52, described last item 51 and friction roller 52 be upper and lower pressing setting successively, described friction roller 52 is driven by power set as driving wheel, using and drive last item 51 rotations as driven pulley, material passes between last item 51 and friction roller 52.Described controller is a control cabinet, and control cabinet is produced by Shenzhen brilliance laser technology Co., Ltd, and model is GH-CQZ300.

Described cutting mechanism 6 is as shown in Fig. 6-7, comprise cylinder 61, connecting plate 62, two linear bearing C63, upper slitter installing plate 64, two connecting rod C65, lower cutter installing plate 66, upper cutter 67, lower cutter 68 and bases 69, described cylinder 61 is fixed on connecting plate 62, described connecting rod C65 is connected between connecting plate 62 and base 69, described linear bearing C63 is socketed on connecting rod C65, described linear bearing C63 comprises square block 63a and the sleeve 63b being connected up and down with square block 63a, the circular channel that middle formation can be inserted for connecting rod C65, upper slitter installing plate 64 is fixedly connected with square block 63a through sleeve 63b its upper end of linear bearing C63, the side of described upper slitter installing plate 64 is provided with lower surface lower than the upper cutter 67 of upper slitter installing plate 64 lower surfaces, in the gap that described base 69 and upper slitter installing plate 64 forms and be provided with lower cutter installing plate 66 on base 69, the upper surface of the side of described lower cutter installing plate 66 and base 69 is provided with lower cutter 68, the piston rod of cylinder 61 by its lower end is passed down through connecting plate 62 and is fixed on upper slitter installing plate 64 and drives it to move up and down, when upper slitter installing plate 64 down drives upper cutter 67 to move downward, upper cutter 67 laminating lower cutters 68.

The upper surface of described lower cutter installing plate 66 is concordant with the upper surface of lower cutter 68, in the gap that described base 69 and upper slitter installing plate 64 forms and be also provided with holding pad 611 on the upper surface of lower cutter installing plate 66 and lower cutter 68, described holding pad 611 inside contracts a segment distance with respect to the lateral surface of lower cutter 68.

As shown in Fig. 2,8,9, between drive unit 5 and cutting mechanism 6, be also provided with dragging mechanism 7, described dragging mechanism 7 comprises power transmission shaft 71, some rubber bars 72, two guide posts 73 and distance adjustment rollers 74, described power transmission shaft 71 is provided with four, be followed successively by from front to back: the first power transmission shaft 71a, second driving shaft 71b, the 3rd power transmission shaft 71c and the 4th power transmission shaft 71d, described the 4th power transmission shaft 71d is located on the base 69 of cutting mechanism 6, is also provided with the slide block 691 that can move forward and backward back and forth along the guide rail arranging on support 1 on described base 69, the height of described the first power transmission shaft 71a and the 4th power transmission shaft 71d equates, the height of second driving shaft 71b and the 3rd power transmission shaft 71c equates, described the first power transmission shaft 71a and the 4th power transmission shaft 71d bottom and the top of second driving shaft 71b and the 3rd power transmission shaft 71c on same level height, described power transmission shaft 71 is equipped with some ring annular grooves 75 successively around its external peripheral surface, described the first power transmission shaft 71a, second driving shaft 71b, position homogeneous one correspondence of the annular groove 75 of the 3rd power transmission shaft 71c and the 4th power transmission shaft 71d, described two guide posts 73 are vertically connected to respectively the bottom, the left and right sides of support 1, described guide post 73 vertically has guide groove 73a, distance adjustment roller 74 is located between the guide groove 73a separately of two guide posts 73 and its two ends have screw thread, thereby locking the screw thread of distance adjustment roller 74 from the outside of guide post 73, nut make distance adjustment roller 74 be connected to the desired location of guide groove 73a, the upper surface that described some rubber bars 72 extend to the 4th power transmission shaft 71d from the upper surface of the first power transmission shaft 71a detours to the lower surface of the 4th power transmission shaft 71a, upper surface via the 3rd power transmission shaft 71c extremely detours to the rear surface of distance adjustment roller 74 downwards, then detour to the front surface of distance adjustment roller 74, then via the upper surface of second driving shaft 71b, walk to the lower surface of the first power transmission shaft 71a, finally closed mutually with its upper surface, described some rubber bars 72 are corresponding with the position homogeneous one of some ring annular grooves 75.Upper-lower position by adjustable range dancer rools 74 at guide groove 73a, can regulate drive unit 5 to the distance between cutting mechanism 6, effect be by manual change the 4th power transmission shaft 71d on support 1 with respect to the position on guide rail, realize when upper cutter 67 and lower cutter 68 cut off material with certain frequency adjacent two cut-off part position consistency of the knife edge position of upper lower cutter and material.

The progressive die punching method of above-mentioned auxiliary material progressive die flushing device, comprises the following steps:

Step 1: the material of web-like is placed on and is unreeled on air-expanding shaft 21, material is walked around and become horizontal direction from circular shaft 22, penetrate successively between the rubber strip A326 and lower supporting plate A327 of fixed clamping device 32, between the rubber strip B336 and lower supporting plate B337 of mobile clamping device 33, between the cope match-plate pattern and lower bolster of punch press 41, between last item 51 and friction roller 52, between the upper cutter 67 and lower cutter 68 of cutting mechanism 6.

Step 2: opening controller 8, rubber strip A326 and lower supporting plate A327 that controller 8 is controlled fixed clamping device 32 unclamp material, the rubber strip B336 of mobile clamping device 33 and lower supporting plate B337 clamp material and move material is moved to stamp mechanism 4 on servo module 31, move to certain distance, be made as a station, at this moment the rubber strip A326 of fixed clamping device 32 and lower supporting plate A327 clamp material, and the rubber strip B336 of mobile clamping device 33 and lower supporting plate B337 unclamp material and get back to home position.

Step 3: during an above-mentioned station, controller 8 is controlled punch press 41 and completed stamp;

Step 4: simultaneously, controller is controlled power set and is made to roll as the friction roller 52 of driving wheel, the rolling that friction roller 52 drives as the last item 51 of driven pulley, makes the material between friction roller 52 and feed mechanism 3 keep tensioning state, and makes material all the time in same level.

Step 5: simultaneously, material rubber bar 72 on the power transmission shaft 71 of dragging mechanism 7 under the drive of drive unit 5 enters cutting mechanism 6, controller 8 is controlled cutting mechanism 6, the length cutting as required regulates in the scope of 300mm, when material moves after certain distance, controller 8 is assigned the instruction of cut-out, and 69 pairs of materials of the upper cutter 68 of cutting mechanism 6 and lower cutter cut off, and material enters next circulation automatically after cutting off.

In above-mentioned steps, also comprise the height of adjustable range dancer rools 74 on guide post 73, thus change the 4th power transmission shaft 71d on support 1 with respect to the position on guide rail, and then change the distance between cutting mechanism 6 and drive unit 5.By change the 4th power transmission shaft 71d on support 1 with respect to the position on guide rail, to realize cutting knife knife edge position and adjacent two sheet material cut-off part position consistency.

Claims (8)

1. an auxiliary material progressive die flushing device, it is characterized in that, comprise support (1), material receiving mechanism (2), feed mechanism (3), stamp mechanism (4), drive unit (5), cutting mechanism (6), power set and controller (8); It is upper that described material receiving mechanism (2), feed mechanism (3), stamp mechanism (4), drive unit (5) and cutting mechanism (6) are arranged on support (1) successively from front to back, and described controller is all connected feed mechanism (3), stamp mechanism (4), drive unit (5) and cutting mechanism (6) with power set; Described feed mechanism (3) comprises the servo module (31) that is located on support (1), arrange before and after successively be fixed on the mobile clamping device (33) that the fixed clamping device that unclamps and clamp material (32) on servo module (31) and active lock can move forward and backward and can unclamp and clamp material on servo module (31).

2. auxiliary material progressive die flushing device according to claim 1, it is characterized in that, described material receiving mechanism (2) comprises for installing unreeling air-expanding shaft (21) and be located at the circular shaft (22) that unreels under air-expanding shaft (21) and forming of material, and the material that unreels air-expanding shaft (21) is walked around and entered feed mechanism (3) from circular shaft (22).

3. auxiliary material progressive die flushing device according to claim 2, is characterized in that,

Described fixed clamping device (32) comprises cylinder A (321), connecting rod A (322), upper backup pad A (323), linear bearing A (324), pressing plate A (325), rubber strip A (326) and lower supporting plate A (327), described cylinder A (321) is fixed on upper backup pad A (323), described connecting rod A (322) is connected between upper backup pad A (323) and lower supporting plate A (327), described linear bearing A (324) is socketed on connecting rod A (322), described pressing plate A (325) is socketed in linear bearing A (324) and fixes with it, the lower surface of described pressing plate A (325) is provided with rubber strip A (326), the piston rod of described cylinder A (321) by its lower end is passed down through upper backup pad A (323) and is fixed on pressing plate A (325), thereby drive pressing plate A (325) to move up and down, when pressing plate A (325) moves down, rubber strip A (326) and lower supporting plate A (327) press, described lower supporting plate A (327) is fixed on servo module (31),

Described mobile clamping device comprises cylinder B (331) for (33), connecting rod B (332), upper backup pad B (333), linear bearing B (334), pressing plate B (335), rubber strip B (336) and lower supporting plate B (337), described cylinder B (331) is fixed on upper backup pad B (333), described connecting rod B (332) is connected between upper backup pad B (333) and lower supporting plate B (337), described linear bearing B (334) is socketed on connecting rod B (332), described pressing plate B (335) is socketed in linear bearing B (334) and fixes with it, the lower surface of described pressing plate B (335) is provided with rubber strip B (336), the piston rod of described cylinder B (331) by its lower end is passed down through upper backup pad B (333) and is fixed on pressing plate B (335), thereby drive pressing plate B (335) to move up and down, when pressing plate B (335) moves down, rubber strip B (336) and lower supporting plate B (337) press, the basal sliding of described lower supporting plate B (337) is connected on servo module (31),

Also comprise and be located at the servo module of pressure pin (31) rear end and its upper surface pressure pin (34) mutually concordant with the upper surface of lower supporting plate A (327) or lower supporting plate B (337).

4. auxiliary material progressive die flushing device according to claim 3, is characterized in that, described stamp mechanism (4) is a punch press (41) and is arranged on punch press (41) and can carries out to material the mould of punching press.

5. auxiliary material progressive die flushing device according to claim 4, it is characterized in that, described drive unit (5) comprises last item (51) and friction roller (52), described last item (51) and friction roller (52) be upper and lower pressing setting successively, described friction roller (52) is driven by power set as driving wheel, using and drive last item (51) rotation as driven pulley, material passes between last item (51) and friction roller (52).

6. auxiliary material progressive die flushing device according to claim 5, is characterized in that,

Described cutting mechanism (6) comprises cylinder (61), connecting plate (62), two linear bearing C (63), upper slitter installing plate (64), two connecting rod C (65), lower cutter installing plate (66), upper cutter (67), lower cutter (68) and base (69);

Described cylinder (61) is fixed on connecting plate (62), described connecting rod C (65) is connected between connecting plate (62) and base (69), described linear bearing C (63) is socketed on connecting rod C (65), described linear bearing C (63) comprises square block (63a) and the sleeve (63b) being connected up and down with square block (63a), the circular channel that middle formation can be inserted for connecting rod C (65), upper slitter installing plate (64) is fixedly connected with square block (63a) through sleeve (63b) its upper end of linear bearing C (63), the side of described upper slitter installing plate (64) is provided with lower surface lower than the upper cutter (67) of upper slitter installing plate (64) lower surface, in the gap that described base (69) and upper slitter installing plate (64) form and be provided with lower cutter installing plate (66) on base (69), the upper surface of the side of described lower cutter installing plate (66) and base (69) is provided with lower cutter (68), the piston rod of cylinder (61) by its lower end is passed down through connecting plate (62) and is fixed in upper slitter installing plate (64) and goes up and drive it to move up and down, when upper slitter installing plate (64) down drives upper cutter (67) to move downward, upper cutter (67) laminating lower cutter (68).

7. auxiliary material progressive die flushing device according to claim 6, it is characterized in that, the upper surface of described lower cutter installing plate (66) is concordant with the upper surface of lower cutter (68), in the gap that described base (69) and upper slitter installing plate (64) form and be also provided with holding pad (611) on the upper surface of lower cutter installing plate (66) and lower cutter (68), described holding pad (611) inside contracts a segment distance with respect to the lateral surface of lower cutter (68).

8. auxiliary material progressive die flushing device according to claim 7, it is characterized in that, between drive unit (5) and cutting mechanism (6), be also provided with dragging mechanism (7), described dragging mechanism (7) comprises power transmission shaft (71), some rubber bars (72), two guide posts (73) and distance adjustment roller (74), described power transmission shaft (71) is provided with four, be followed successively by from front to back: the first power transmission shaft (71a), second driving shaft (71b), the 3rd power transmission shaft (71c) and the 4th power transmission shaft (71d), described the 4th power transmission shaft (71d) is located on the base (69) of cutting mechanism (6), on described base (69), be also provided with the slide block (691) that can move forward and backward back and forth along the upper guide rail arranging of support (1), the height of described the first power transmission shaft (71a) and the 4th power transmission shaft (71d) equates, the height of second driving shaft (71b) and the 3rd power transmission shaft (71c) equates, described the first power transmission shaft (71a) and the 4th power transmission shaft (71d) bottom and the top of second driving shaft (71b) and the 3rd power transmission shaft (71c) on same level height, described power transmission shaft (71) is equipped with some ring annular grooves (75) successively around its external peripheral surface, described the first power transmission shaft (71a), second driving shaft (71b), position homogeneous one correspondence of the annular groove (75) of the 3rd power transmission shaft (71c) and the 4th power transmission shaft (71d), described two guide posts (73) are vertically connected to respectively the bottom, the left and right sides of support (1), described guide post (73) vertically has guide groove (73a), distance adjustment roller (74) is located between the guide groove separately (73a) of two guide posts (73) and its two ends have screw thread, nut from the outside of guide post (73), lock distance adjustment roller (74) thus screw thread make distance adjustment roller (74) be connected to the desired location of guide groove (73a), the upper surface that described some rubber bars (72) extend to the 4th power transmission shaft (71d) from the upper surface of the first power transmission shaft (71a) detours to the lower surface of the 4th power transmission shaft (71a), upper surface via the 3rd power transmission shaft (71c) extremely detours to the rear surface of distance adjustment roller (74) downwards, then detour to the front surface of distance adjustment roller (74), then via the upper surface of second driving shaft (71b), walk to the lower surface of the first power transmission shaft (71a), finally closed mutually with its upper surface, described some rubber bars (72) are corresponding with the position homogeneous one of some ring annular grooves (75).