CN109849094B - Online single-side and double-side position-adjusting type side cutting component of paper-plastic material and adjusting method - Google Patents

Abstract

The utility model provides a paper plastic material's online unilateral or bilateral formula of transposing limit cutting part, including two parallel arrangement's side cut part frame board, be equipped with first optical axis, second optical axis and third optical axis between two side cut part frame boards, the last kerve roller that is equipped with of third optical axis still is equipped with two limit cutter subassemblies and two rim charge and shifts out the subassembly between two side cut part frame boards, limit cutter subassembly, rim charge shift out the subassembly and first optical axis, second optical axis sliding fit, and the horizontal position size that unilateral limit cutter subassembly, rim charge shifted out the subassembly can be realized to this application incessant arbitrary regulation of incessant, also can realize two limit cutter subassemblies, rim charge and shift out the whole horizontal position size of subassembly arbitrary regulation to realize online quick adjustment, the rim charge shifts out the subassembly and also is convenient for the rim charge that cuts off and shifts out, prevents to influence subsequent production.

Description

Online single-side and double-side position-adjusting type side cutting component of paper-plastic material and adjusting method

Technical Field

The invention relates to an online single-side and double-side position-adjusting type side cutting component of a paper-plastic material and an adjusting method.

Background

In the prior art, in the continuous production process of paper-plastic materials, the edge cutting is a common process, and a common edge cutting device has a simple and crude structure, is complex to adjust, has low precision, and cannot realize the adjustment on a line or at any position.

Disclosure of Invention

The invention aims to provide an online single-side and double-side position-adjusting type edge cutting component for paper-plastic materials, which has reasonable structural design and high precision and can realize convenient adjustment on line and at any position.

In order to solve the technical problem, the invention comprises two side cutting component frame plates which are arranged in parallel, a first optical axis, a second optical axis and a third optical axis are arranged between the two side cutting component frame plates, the third optical axis is positioned below the first optical axis and the second optical axis, the rear end of the first optical axis is in sliding fit with the side cutting component frame plates, the front end of the first optical axis is in threaded fit with the side cutting component frame plates, the two ends of the second optical axis are fixedly connected with the side cutting component frame plates, a knife slot roller is arranged on the third optical axis, the two ends of the third optical axis are in sliding fit with the side cutting component frame plates, a first connecting plate is arranged at the rear ends of the first optical axis and the third optical axis, one end of the first connecting plate is provided with a locking opening and a threaded hole which are locked with the first optical axis, the other end of the first connecting plate is provided with an optical hole which is matched with the third optical axis, two first locking sleeves which are locked with the third optical axis are arranged at the two sides, the edge cutter assembly and the edge material moving-out assembly are in sliding fit with the first optical axis and the second optical axis; the two ends of the first optical axis and the second optical axis are respectively provided with a second connecting plate, the second connecting plate is provided with a second locking sleeve locked with the first optical axis and a first sliding sleeve connected with the second optical axis in a sliding manner, the second connecting plate is provided with a second adjusting screw rod, and the second adjusting screw rod is matched with the second connecting plate in a rotating manner; the second adjusting screw penetrates through the frame plate of the edge cutting part and is connected with the edge cutter assembly; and a third adjusting screw is arranged on the trimming part frame plate and above the second optical axis, and the third adjusting screw is in rotating fit with the trimming part frame plate.

As a further improvement of the invention, the rim charge removing assembly comprises a discharge press roller, a first sliding plate, a second sliding plate and a third sliding plate, wherein a second sliding sleeve matched with the second optical axis is arranged on the first sliding plate and the second sliding plate, a pull rod and a press roller shaft are arranged between the first sliding plate and the second sliding plate, and the discharge press roller is arranged on the press roller shaft; a third adjusting screw thread and a discharging support plate are arranged on the first sliding plate, and the third adjusting screw thread is matched with the third adjusting screw rod; the second sliding plate is fixed with one end of the third sliding plate, and the other end of the third sliding plate is provided with a third sliding sleeve matched with the first optical axis.

As a further improvement of the present invention, the side cutter assembly includes a cutter rotating plate, a worm wheel and a fourth sliding plate, a fourth sliding sleeve matched with the second optical axis is disposed on the fourth sliding plate, the fourth sliding plate is located between the first sliding plate and the second sliding plate, a fifth sliding sleeve matched with the first optical axis is disposed on the fourth sliding plate, a second adjusting screw is disposed in the middle of the fourth sliding plate, the second adjusting screw is matched with the second adjusting screw, the cutter rotating plate and the fifth sliding sleeve are rotatably matched and mounted on the fifth sliding sleeve, the worm wheel is mounted on the fifth sliding sleeve and fixed with the cutter rotating plate, and a third locking sleeve is further disposed on the fifth sliding sleeve.

As a further improvement of the present invention, the edge cutter assembly further comprises: the cutter mounting plate is arranged at the lower part of the cutter rotating plate, a cutter seat is arranged on the cutter mounting plate, and a cutter is arranged on the cutter seat; two partition plates are arranged on the fourth sliding plate and at the upper end of the first optical axis, a worm is arranged in each partition plate and matched with the worm wheel, and a fourth adjusting hand wheel is arranged at the end part of each worm.

As a further improvement of the invention, the fourth sliding sleeve is provided with an edge material guide ring, and the edge material guide ring is provided with a long hole.

As a further improvement of the invention, a plurality of annular cutter grooves are arranged on the surface of the cutter groove roller along the axial direction of the cutter groove roller, and the cutter of the edge cutter component is matched with one of the annular cutter grooves.

As a further improvement of the invention, the second connecting plate is provided with a locking assembly, the locking assembly comprises a locking transition plate arranged on the second connecting plate, the locking transition plate is provided with a locking plate, the locking plate is provided with a round hole matched with the second adjusting screw rod, the round hole of the locking plate is provided with a slot, and the locking plate is provided with a locking screw penetrating through the slot.

As a further improvement of the invention, a first fixed sliding sleeve which is connected with the first optical axis in a sliding manner is arranged at the rear end of the first optical axis, the first fixed sliding sleeve is fixedly connected with the trimming part frame plate, a first adjusting screw thread is arranged at the front end of the first optical axis, a first adjusting nut is rotatably connected on the trimming part frame plate, the first adjusting screw thread is connected with the first adjusting nut, and a first adjusting hand wheel is arranged on the first adjusting nut; shaft end baffles fixedly connected with the trimming part frame plate and the second optical axis are arranged at the two ends of the second optical axis; a second fixed sliding sleeve which is connected with the third optical axis in a sliding manner is arranged at the two ends of the third optical axis, and the second fixed sliding sleeve is fixedly connected with the frame plate of the trimming part; a second adjusting hand wheel is arranged at the end part of the second adjusting screw rod; and the end part of the third adjusting screw rod is provided with a third adjusting hand wheel.

The invention also comprises an adjusting method of the paper-plastic material on-line single-side and double-side position-adjusting type side cutting part, which comprises the following steps:

A. adjustment of the position of the single edge cutter assembly:

1) adjusting the edge cutter assembly to lift the cutter of the edge cutter assembly away from the paper-plastic material;

2) loosening the second locking sleeve, adjusting a second adjusting screw rod, enabling the second adjusting screw rod to act on the cutter assembly to slide on the first optical axis and the second optical axis, and enabling a cutter of the cutter assembly to move to a proper position;

3) adjusting the edge cutter assembly to enable a cutter of the edge cutter assembly to rotate into a cutter groove of the cutter groove roller;

B. adjustment of the position of the individual scrap removal assemblies: adjusting a third adjusting screw rod, wherein the third adjusting screw rod acts on the rim charge moving-out component to slide on the first optical axis and the second optical axis;

C. the integral adjustment of the position of the two edge cutter assemblies and the edge material shifting assembly is as follows:

1) locking the first locking sleeve and the second locking sleeve, and adjusting the first optical axis to drive the third optical axis to axially move the first optical axis and the third optical axis, so that the two edge cutter assemblies and the cutter groove roller transversely move to proper positions at the same time;

2) and (D) respectively adjusting the positions of the two rim charge removing assemblies according to the step B.

As a further improvement of the present invention, the present invention further includes a method for replacing a cutting blade of an edge cutter assembly, wherein the edge cutter assembly includes a cutter rotating plate, a worm wheel, a fourth sliding plate and a cutter mounting plate, the fourth sliding plate is provided with a fourth sliding sleeve matched with the second optical axis, the fourth sliding plate is located between the first sliding plate and the second sliding plate, the fourth sliding plate is provided with a fifth sliding sleeve matched with the first optical axis, the middle of the fourth sliding plate is provided with a second adjusting screw, the second adjusting screw is matched with the second adjusting screw, the cutter rotating plate is matched with the fifth sliding sleeve in a rotating manner and is mounted on the fifth sliding sleeve, the worm wheel is mounted on the fifth sliding sleeve and is fixed with the cutter rotating plate, the fifth sliding sleeve is further provided with a third locking sleeve, the cutter mounting plate is provided with a cutter holder, and the cutter is provided with a cutter; two partition plates are arranged on the fourth sliding plate and positioned at the upper end of the first optical axis, a worm is arranged in each partition plate and matched with the worm wheel, and a fourth adjusting hand wheel is arranged at the end part of each worm;

when the cutter blade of the cutter assembly is replaced, the fourth adjusting hand wheel is rotated, and the worm is rotated to rotate the worm wheel so as to lift the cutter away from the paper-plastic material; replacing the cutting blade; and rotating the fourth adjusting hand wheel to enable the cutter to rotate into the cutter groove of the cutter groove roller.

The invention has the beneficial effects that: the device can realize the continuous and random adjustment of the transverse position sizes of the unilateral edge cutter assembly and the edge material moving-out assembly, and also can realize the continuous and random adjustment of the overall transverse position sizes of the two edge cutter assemblies and the edge material moving-out assembly, thereby realizing the online rapid adjustment, and having convenient operation and high position precision; the rim charge that the subassembly was shifted out to the rim charge is convenient for also cut off shifts out, prevents to influence subsequent production.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view of another perspective view of the present invention.

Fig. 3 is a structural sectional view of the grooved roll of the present invention.

Fig. 4 is a connection structure view of the trimming member frame plate of the present invention and the first optical axis.

Detailed Description

Fig. 1 to 4 illustrate an embodiment of the present invention:

comprises two side cutting component frame plates 1 which are arranged in parallel, a first optical axis 2, a second optical axis 3 and a third optical axis 4 are arranged between the two side cutting component frame plates 1, the third optical axis 4 is positioned below the first optical axis 2 and the second optical axis 3, a first fixed sliding sleeve 27 which is connected with the first optical axis 2 in a sliding way is arranged at the rear end of the first optical axis 2, the first fixed sliding sleeve 27 is fixedly connected with the side cutting component frame plates 1, a first adjusting screw thread 28 is arranged at the front end of the first optical axis 2, a first adjusting nut 29 is connected on the side cutting component frame plate 1 in a rotating way, the first adjusting screw thread 28 is connected with the first adjusting nut 29, a first adjusting hand wheel 23 is arranged on the first adjusting nut 29, shaft end baffle plates 30 which are fixedly connected with the side cutting component frame plates 1 and the second optical axis 3 are arranged at the two ends of the second optical axis 3, a knife groove roller 15 is arranged on the third optical axis 4, a second fixed sliding sleeve 31 which is connected with the third optical axis 4 in a sliding way is, the second fixed sliding sleeve 31 is fixedly connected with the edge cutting part frame plates 1, a first connecting plate 5 is arranged at the rear ends of the first optical axis 2 and the third optical axis 4, a locking opening and a threaded hole which are locked with the first optical axis 2 are formed in one end of the first connecting plate 5, an unthreaded hole which is matched with the third optical axis 4 is formed in the other end of the first connecting plate 5, two first locking sleeves 32 which are locked with the third optical axis 4 are arranged on two sides of the unthreaded hole, two edge cutter assemblies and two edge material moving-out assemblies are further arranged between the two edge cutting part frame plates 1, and the edge cutter assemblies and the edge material moving-out assemblies are in sliding fit with the first optical axis 2 and the second optical axis 3; the two ends of the first optical axis 2 and the second optical axis 3 are respectively provided with a second connecting plate 6, the second connecting plate 6 is provided with a second locking sleeve 24 locked with the first optical axis 2 and a first sliding sleeve 33 connected with the second optical axis 3 in a sliding manner, the second connecting plate 6 is provided with a second adjusting screw 13, and the second adjusting screw 13 is matched with the second connecting plate 6 in a rotating manner; the second adjusting screw 13 passes through the frame plate 1 of the edge cutting part in an empty sleeve manner and is connected with the edge cutter assembly; a third adjusting screw 12 is arranged on the trimming part frame plate 1 and above the second optical axis 3, the third adjusting screw 12 is in rotary fit with the trimming part frame plate 1, and a third adjusting hand wheel 14 is arranged at the end part of the third adjusting screw 12; and a locking assembly is arranged on the second connecting plate, the locking assembly comprises a locking transition plate 46 arranged on the second connecting plate, a locking plate 26 is arranged on the locking transition plate 46, a round hole matched with the second adjusting screw rod is arranged on the locking plate 26, a slot is arranged on the round hole of the locking plate 26, and a locking screw penetrating through the slot is arranged on the locking plate 26.

The rim charge moving-out component comprises a discharging press roller 7, a first sliding plate 9, a second sliding plate 34 and a third sliding plate 10, a second sliding sleeve 38 matched with the second optical axis 3 is arranged on the first sliding plate 9 and the second sliding plate 34, a pull rod 35 and a press roller shaft 36 are arranged between the first sliding plate 9 and the second sliding plate 34, and the discharging press roller 7 is arranged on the press roller shaft 36; a third adjusting thread 37 and a discharging support plate 8 are arranged on the first sliding plate 9, a wear-resisting plate 11 is arranged on the discharging support plate 8, and the third adjusting thread 37 is matched with the third adjusting screw 12; the second sliding plate 34 is fixed with one end of the third sliding plate 10, and the other end of the third sliding plate 10 is provided with a third sliding sleeve 39 matched with the first optical axis 2;

the side cutter component comprises a cutter rotating plate 20, a worm wheel 18, a fourth sliding plate 17 and a cutter mounting plate 42, the cutter mounting plate 42 is arranged at the lower part of the cutter rotating plate 20, a fourth sliding sleeve 40 matched with the second optical axis 3 is arranged on the fourth sliding plate 17, the fourth sliding plate 17 is positioned between the first sliding plate 9 and the second sliding plate 34, a fifth sliding sleeve 41 matched with the first optical axis 2 is arranged on the fourth sliding plate 17, a second adjusting screw thread 42 is arranged in the middle of the fourth sliding plate 17, the second adjusting screw thread 42 is matched with the second adjusting screw 13, a second adjusting hand wheel 22 is arranged at the end part of the second adjusting screw 13, the cutter rotating plate 20 and the fifth sliding sleeve 41 are rotatably matched and arranged on the fifth sliding sleeve 41, the worm wheel 18 is arranged on the fifth sliding sleeve 41 and fixed with the cutter rotating plate 20, a third locking sleeve 25 is also arranged on the fifth sliding sleeve 41, the function of the locking sleeve 25 enables the cutter rotating plate 20 and the worm wheel 18 to rotate only on the fifth sliding sleeve 41, cannot move transversely. The cutter mounting plate 42 is provided with a cutter seat 16, and the cutter seat 16 is provided with a cutter 43; two partition plates 44 are arranged on the fourth sliding plate 17 and at the upper end of the first optical axis 2, a worm 19 is arranged inside the partition plates 44, the worm 19 is matched with the worm wheel 18, a fourth adjusting hand wheel 21 is arranged at the end part of the worm 19, an edge material guide ring 47 is arranged on the fourth sliding sleeve 40, a long hole is arranged on the edge material guide ring 47, the edge material guide ring 47 is arranged above the discharging press roller 7, a plurality of annular cutter grooves 45 which are axially arranged along the cutter groove roller 15 are arranged on the surface of the cutter groove roller 15, and a cutter of the edge cutter assembly is matched with one of the annular cutter grooves 45.

The action effect according to the above structure:

when the first adjusting hand wheel 23 is rotated, the first adjusting nut 29 rotates along with the first adjusting screw 28, the first optical axis 2 moves axially under the action of the first adjusting screw 28, the second connecting plate 6 is fixed on the first optical axis 2 through the second locking sleeve 24, so the second connecting plate 6 also moves axially along with the first optical axis 2, the second adjusting screw 13 is arranged on the second connecting plate 6, the second adjusting screw 13 is in rotating fit with the second connecting plate 6 but cannot move axially relative to the second connecting plate, so the second adjusting screw 13 also moves axially along with the first optical axis 2, and the second adjusting screw 13 is in fit with the second adjusting screw 42 in the middle of the fourth sliding plate 17 of the side cutter assembly, so the two second adjusting screws 13 simultaneously push the two side cutter assemblies to move axially along with the first optical axis 2, and the distance between the two side cutters is kept unchanged during the movement. Meanwhile, the third optical axis 4 is fixedly connected with the first optical axis 2 through the first connecting plate 5 and the first locking sleeve 32, so that the third optical axis 4 and the knife groove roller 15 arranged thereon are synchronously and axially moved with the first optical axis 2, and the positions of the two side cutters and the positions of the knife grooves on the knife groove roller are always unchanged in the transverse moving process. And the second adjusting screw 13 is sleeved on the trimming part frame plate 1 in an empty way and is not influenced by the trimming part frame plate in the moving process

When the second adjusting hand wheel 22 is rotated, the second adjusting screw 13 alone pushes the respective edge cutter assembly to move axially to the adjusting position, since the second connecting plate 6 is stationary. During the movement, the fourth sliding plate 17 slides on the first optical axis 2 and the second optical axis 3.

When the third adjusting hand wheel 14 is rotated, the third adjusting screw 12 rotates, the third adjusting screw 12 is matched with the trimming part frame plate 1 in a rotating mode and can only rotate but cannot move, but the third adjusting screw 12 is matched with the third adjusting thread 37 on the first sliding plate 9 of the rim charge removing assembly, so that the third adjusting screw 12 pushes the rim charge removing assembly to move axially. During the movement, the first sliding plate 9 and the second sliding plate 34 slide on the second optical axis 3, and the third sliding plate 10 slides on the first optical axis 2, since one end of the second sliding plate 34 is connected to the third sliding plate 10. The stability of the rim charge removing assembly is ensured.

When the fourth adjusting hand wheel 21 is rotated, the worm 19 and the worm wheel 18 drive the cutter rotating plate 20 and the cutter 43 to rotate, so that the cutter can be separated from or enter the cutter groove, and the cutter blade can be replaced under the condition of keeping the transverse distance unchanged.

The invention also comprises an adjusting method of the paper-plastic material on-line single-side and double-side position-adjusting type side cutting part, which comprises the following steps:

A. adjustment of the position of the single edge cutter assembly:

1) rotating the fourth adjusting hand wheel, and rotating the worm to rotate the worm wheel to lift the cutter of the side cutter assembly away from the paper-plastic material;

2) the locking screw is rotated to loosen the locking plate on the second connecting plate and the second locking sleeve,

3) adjusting a second adjusting hand wheel, wherein the second adjusting screw acts on the cutter assembly to slide on the first optical axis and the second optical axis, so that a cutter of the cutter assembly transversely moves to a proper position;

4) rotating the locking screw to tighten the locking plate on the second connecting plate;

5) adjusting the edge cutter assembly to enable a cutter of the edge cutter assembly to rotate into a cutter groove of the cutter groove roller;

B. adjustment of the position of the individual scrap removal assemblies: adjusting a third adjusting hand wheel, wherein the third adjusting screw rod acts on the edge material moving-out component to slide on the first optical axis and the second optical axis, so that the edge material guide ring is close to the edge material position below the discharging press roller;

C. the integral adjustment of the position of the two edge cutter assemblies and the edge material shifting assembly is as follows:

1) the first locking sleeve and the second locking sleeve are locked, the first optical axis is adjusted through the first adjusting hand wheel to drive the third optical axis to axially move the first optical axis and the third optical axis, and therefore the two edge cutter assemblies and the cutter groove roller are transversely moved to appropriate positions simultaneously;

2) and (D) respectively adjusting the positions of the two rim charge removing assemblies according to the step B.

D. The cutting blade of the edge cutter assembly is replaced: rotating a fourth adjusting hand wheel, rotating a worm to rotate a worm wheel to lift the cutter away from the paper-plastic material; replacing the cutting blade; and rotating the fourth adjusting hand wheel to enable the cutter to rotate into the cutter groove of the cutter groove roller.

The invention has the beneficial effects that: the size of the transverse position of the unilateral edge cutter component and the edge material shifting-out component can be uninterruptedly and randomly adjusted, and the size of the integral transverse position of the two edge cutter components and the edge material shifting-out component can be uninterruptedly and randomly adjusted, so that the online quick adjustment is realized, the operation is convenient, and the position precision is high; the rim charge removing assembly is convenient for removing the cut rim charges in sequence, so that subsequent production is prevented from being influenced.

Claims (9)

1. An adjusting method of an online single-double side position-adjusting type side cutting component of a paper-plastic material is characterized in that the online single-double side position-adjusting type side cutting component of the paper-plastic material comprises two side cutting component frame plates which are arranged in parallel, a first optical axis, a second optical axis and a third optical axis are arranged between the two side cutting component frame plates, the third optical axis is positioned below the first optical axis and the second optical axis, the rear end of the first optical axis is in sliding fit with the side cutting component frame plates, the front end of the first optical axis is in threaded fit with the side cutting component frame plates, the two ends of the second optical axis are fixedly connected with the side cutting component frame plates, a knife-slot roller is arranged on the third optical axis, the two ends of the third optical axis are in sliding fit with the side cutting component frame plates, a first connecting plate is arranged at the rear ends of the first optical axis and the third optical axis, a locking opening and a threaded hole which are locked with the first optical axis are arranged at one end of the first connecting, two first locking sleeves locked with the third optical axis are arranged on two sides of the unthreaded hole, two edge cutter assemblies and two edge material moving-out assemblies are further arranged between the two edge cutting part frame plates, and the edge cutter assemblies and the edge material moving-out assemblies are in sliding fit with the first optical axis and the second optical axis; the two ends of the first optical axis and the second optical axis are respectively provided with a second connecting plate, the second connecting plate is provided with a second locking sleeve locked with the first optical axis and a first sliding sleeve connected with the second optical axis in a sliding manner, the second connecting plate is provided with a second adjusting screw rod, and the second adjusting screw rod is matched with the second connecting plate in a rotating manner; the second adjusting screw penetrates through the frame plate of the edge cutting part and is connected with the edge cutter assembly; a third adjusting screw is arranged on the trimming part frame plate and above the second optical axis, and the third adjusting screw is in rotating fit with the trimming part frame plate;

the adjusting method comprises the following steps:

A. adjustment of the position of the single edge cutter assembly:

1) adjusting the edge cutter assembly to lift the cutter of the edge cutter assembly away from the paper-plastic material;

2) loosening the second locking sleeve, adjusting a second adjusting screw rod, enabling the second adjusting screw rod to act on the cutter assembly to slide on the first optical axis and the second optical axis, and enabling a cutter of the cutter assembly to move to a proper position;

3) adjusting the edge cutter assembly to enable a cutter of the edge cutter assembly to rotate into a cutter groove of the cutter groove roller;

B. adjustment of the position of the individual scrap removal assemblies: adjusting a third adjusting screw rod, wherein the third adjusting screw rod acts on the rim charge moving-out component to slide on the first optical axis and the second optical axis;

C. the integral adjustment of the position of the two edge cutter assemblies and the edge material shifting assembly is as follows:

1) locking the first locking sleeve and the second locking sleeve, and adjusting the first optical axis to drive the third optical axis to axially move the first optical axis and the third optical axis, so that the two edge cutter assemblies and the cutter groove roller transversely move to proper positions at the same time;

2) and (D) respectively adjusting the positions of the two rim charge removing assemblies according to the step B.

2. An adjusting method of an on-line single-double side adjusting type edge cutting part of a paper-plastic material according to claim 1, which is characterized in that: the edge cutter assembly comprises a cutter rotating plate, a worm wheel, a fourth sliding plate and a cutter mounting plate, the fourth sliding plate is provided with a fourth sliding sleeve matched with the second optical axis, the fourth sliding plate is positioned between the first sliding plate and the second sliding plate, the fourth sliding plate is provided with a fifth sliding sleeve matched with the first optical axis, the middle of the fourth sliding plate is provided with a second adjusting screw thread, the second adjusting screw thread is matched with the second adjusting screw rod, the cutter rotating plate and the fifth sliding sleeve are rotationally matched and arranged on the fifth sliding sleeve, the worm wheel is arranged on the fifth sliding sleeve and fixed with the cutter rotating plate, the fifth sliding sleeve is also provided with a third locking sleeve, the cutter mounting plate is provided with a cutter seat, and the cutter seat is provided with a cutter; two partition plates are arranged on the fourth sliding plate and positioned at the upper end of the first optical axis, a worm is arranged in each partition plate and matched with the worm wheel, and a fourth adjusting hand wheel is arranged at the end part of each worm;

when the cutter blade of the cutter assembly is replaced, the fourth adjusting hand wheel is rotated, and the worm is rotated to rotate the worm wheel so as to lift the cutter away from the paper-plastic material; replacing the cutting blade; and rotating the fourth adjusting hand wheel to enable the cutter to rotate into the cutter groove of the cutter groove roller.

3. The method for adjusting the paper-plastic material edge cutting component in an on-line single-double side position adjustment manner according to claim 1, wherein the method comprises the following steps: the edge material moving-out component comprises a discharging press roller, a first sliding plate, a second sliding plate and a third sliding plate, wherein a second sliding sleeve matched with the second optical axis is arranged on the first sliding plate and the second sliding plate, a pull rod and a press roller shaft are arranged between the first sliding plate and the second sliding plate, and the discharging press roller is arranged on the press roller shaft; a third adjusting screw thread and a discharging support plate are arranged on the first sliding plate, and the third adjusting screw thread is matched with the third adjusting screw rod; the second sliding plate is fixed with one end of the third sliding plate, and the other end of the third sliding plate is provided with a third sliding sleeve matched with the first optical axis.

4. The method for adjusting the paper-plastic material edge cutting component in an on-line single-double side position adjustment manner according to claim 1, wherein the method comprises the following steps: the side cutter component comprises a cutter rotating plate, a worm wheel and a fourth sliding plate, a fourth sliding sleeve matched with the second optical axis is arranged on the fourth sliding plate, the fourth sliding plate is located between the first sliding plate and the second sliding plate, a fifth sliding sleeve matched with the first optical axis is arranged on the fourth sliding plate, a second adjusting screw thread is arranged in the middle of the fourth sliding plate, the second adjusting screw thread is matched with a second adjusting screw rod, the cutter rotating plate and the fifth sliding sleeve are rotationally matched and assembled on the fifth sliding sleeve, the worm wheel is assembled on the fifth sliding sleeve and fixed with the cutter rotating plate, and a third locking sleeve is further arranged on the fifth sliding sleeve.

5. The method for adjusting the paper-plastic material edge cutting component in an on-line single-double side position adjustment manner according to claim 4, wherein the method comprises the following steps: the edge cutter assembly further comprises: the cutter mounting plate is arranged at the lower part of the cutter rotating plate, a cutter seat is arranged on the cutter mounting plate, and a cutter is arranged on the cutter seat; two partition plates are arranged on the fourth sliding plate and at the upper end of the first optical axis, a worm is arranged in each partition plate and matched with the worm wheel, and a fourth adjusting hand wheel is arranged at the end part of each worm.

6. The method for adjusting the paper-plastic material edge cutting component in an on-line single-double side position adjustment manner according to claim 4, wherein the method comprises the following steps: and the fourth sliding sleeve is provided with an edge material guide ring, and the edge material guide ring is provided with a long hole.

7. The method for adjusting the paper-plastic material edge cutting component in an on-line single-double side position adjustment manner according to claim 1, wherein the method comprises the following steps: the surface of the knife groove roller is provided with a plurality of annular knife grooves which are distributed along the axial direction of the knife groove roller, and the cutter of the edge cutter component is matched with one of the annular knife grooves.

8. The method for adjusting the paper-plastic material edge cutting component in an on-line single-double side position adjustment manner according to claim 1, wherein the method comprises the following steps: the locking assembly is arranged on the second connecting plate and comprises a locking transition plate arranged on the second connecting plate, the locking transition plate is provided with a locking plate, the locking plate is provided with a round hole matched with the second adjusting screw rod piece, the round hole of the locking plate is provided with a notch, and the locking plate is provided with a locking screw penetrating through the notch.

9. The method for adjusting the paper-plastic material edge cutting component in an on-line single-double side position adjustment manner according to claim 1, wherein the method comprises the following steps: a first fixed sliding sleeve which is connected with the first optical axis in a sliding manner is arranged at the rear end of the first optical axis, the first fixed sliding sleeve is fixedly connected with the trimming part frame plate, a first adjusting screw thread is arranged at the front end of the first optical axis, a first adjusting nut is rotatably connected on the trimming part frame plate, the first adjusting screw thread is connected with the first adjusting nut, and a first adjusting hand wheel is arranged on the first adjusting nut; shaft end baffles fixedly connected with the trimming part frame plate and the second optical axis are arranged at the two ends of the second optical axis; a second fixed sliding sleeve which is connected with the third optical axis in a sliding manner is arranged at the two ends of the third optical axis, and the second fixed sliding sleeve is fixedly connected with the frame plate of the trimming part; a second adjusting hand wheel is arranged at the end part of the second adjusting screw rod; and the end part of the third adjusting screw rod is provided with a third adjusting hand wheel.

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