CN219116779U - Improve multilayer tectorial membrane cutting machine of structure - Google Patents

Abstract

The utility model relates to the technical field of splitting machines, and discloses a multi-layer laminating splitting machine with an improved structure, which comprises a mounting bracket and a first unreeling mechanism for unreeling a base material, wherein the mounting bracket is further provided with: the first conveying shaft group at least comprises a conveying shaft a and a conveying shaft b, and the conveying shaft a and the conveying shaft b are both provided with a first adjusting mechanism; the two ends of the first winding mechanism are respectively provided with a first fixing mechanism and a second fixing mechanism which are convenient for installing and detaching the first winding mechanism, and the first fixing mechanism and the second fixing mechanism are symmetrically arranged on two sides of the installing support; the utility model has wide application range, the material shaft can be adjusted slightly according to the width and thickness of the material, and the utility model is suitable for slitting different film-coated materials.

Description

Improve multilayer tectorial membrane cutting machine of structure

Technical Field

The utility model relates to the technical field of splitting machines, in particular to a multi-layer laminating splitting machine with an improved structure.

Background

The slitting machine is an automatic device which is suitable for slitting various non-adhesive materials, release paper and other materials with high slitting precision requirements and special requirements on winding uniformity and tightness. Because the slitting machine has the function of accurately slitting wide-width materials, the slitting machine is commonly used in paper machines, wire and cable mica tapes and printing and packaging machines.

Chinese patent CN201821801589.5 discloses a double-cutter slitting machine, comprising a first feeding platform, a box, a first slitting mechanism, a cutter changing power system, a second feeding platform and a second slitting mechanism; the tool changing mechanism comprises a tool changing radial arm and a radial arm shaft, and the radial arm shaft is fixed on the tool changing radial arm and is in rotary connection with the box body; the first slitting mechanism comprises a first cutter, a first upper cutter shaft and a first lower cutter shaft; the second slitting mechanism comprises a second cutter, a second upper cutter shaft and a second lower cutter shaft. This prior art is provided with two sets of mechanisms of cutting, has promoted the slitting efficiency of dividing, but this prior art's conveying deflector roll is direct fixed with installing support swing joint rethread fastener installation for the installation of conveying deflector roll and dismantlement technology are loaded down with trivial details, waste time and energy, on the other hand, when cutting different materials, the conveying deflector roll can't carry out the micro-regulation, uses inconvenient, the slitter application scope is little. In view of this, the inventors have made a new utility model.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the multi-layer laminating splitting machine with an improved structure, which has the characteristics of convenient use and wide application range.

In order to achieve the above purpose, the utility model provides a multilayer laminating splitting machine with an improved structure, which comprises a mounting bracket and a first unreeling mechanism for unreeling a base material, wherein the mounting bracket is further provided with: the second unreeling mechanism is used for unreeling the first film-coated layer; the third unreeling mechanism is used for unreeling the second film-coated layer; the third unreeling mechanism is arranged below the second unreeling mechanism; the first conveying shaft group is used for assisting in conveying the substrate and the film layer which are unreeled by the unreeling mechanism; the first conveying shaft group at least comprises a conveying shaft a and a conveying shaft b, and the conveying shaft a and the conveying shaft b are provided with a first adjusting mechanism; the laminating mechanism is used for laminating the first film coating layer and the second film coating layer on the base material; the cutting mechanism is used for cutting the laminated film; the second conveying shaft group is used for assisting in conveying the plurality of groups of cut film materials; the first winding mechanism is used for winding a plurality of groups of cut film materials; the two ends of the first winding mechanism are respectively provided with a first fixing mechanism and a second fixing mechanism which are convenient for installing and detaching the first winding mechanism, and the first fixing mechanism and the second fixing mechanism are symmetrically arranged on two sides of the installing support; the driving mechanism is used for driving the attaching mechanism, the cutting mechanism and the first winding mechanism respectively.

Further, the first adjustment mechanism comprises a fixed seat, a screw rod and an adjusting block, the fixed seat is fixedly arranged on the mounting bracket, the screw rod is movably connected with the fixed seat, a knob is arranged at the outer end of the screw rod, the end part of the conveying shaft a or the end part of the conveying shaft b is fixedly connected with the adjusting block, the adjusting block is in threaded connection with the screw rod, and the screw rod drives the adjusting block to move.

Further, the laminating mechanism comprises an upper pressing roller and a lower pressing roller, and the upper pressing roller and the lower pressing roller are movably connected with the mounting bracket.

Preferably, the two ends of the upper press roller are respectively provided with a second adjusting mechanism, the second adjusting mechanisms comprise a cylinder a and a sliding rail fixedly arranged on the mounting bracket, the upper press roller is in sliding connection with the sliding rail through a sliding block, the cylinder a is arranged on the mounting bracket, and the cylinder a drives the sliding block to move along the direction of the sliding rail.

Further, the first conveying shaft group further comprises a conveying shaft c, one end of the conveying shaft c is in sliding connection with the mounting bracket through a sliding bearing, and the other end of the conveying shaft c is in movable connection with the mounting bracket through a third fixing mechanism.

Further, third fixed establishment includes third mount pad, cylinder b and first briquetting, and the third storage tank has been seted up to the third mount pad, conveying axle c one end holding is in the third storage tank, cylinder b sets up in the third mount pad, and cylinder b drives first briquetting and supports the conveying axle tip.

Preferably, the mounting bracket is further provided with a second winding mechanism, and the second winding mechanism and the first winding mechanism are mutually matched to wind a plurality of groups of cut film materials.

Further, the first winding mechanism comprises a winding shaft, and a first end part and a second end part are arranged at two ends of the winding shaft.

Still further, first fixed establishment includes first mount pad, and first holding position has been seted up to first mount pad, first tip holding is in first holding position, and first holding position one side can be dismantled and be connected with the fly leaf.

Further, the second fixing mechanism comprises a second installation seat and a cylinder c, a second accommodating position is formed in the second installation seat, the second end portion is accommodated in the second accommodating position, the cylinder c is arranged on the second installation seat and is connected with a second pressing block, and the cylinder c drives the second pressing block to be in butt joint with the second end portion.

The beneficial effects are that: compared with the prior art, the utility model relates to a multilayer laminating splitting machine with an improved structure, which comprises a mounting bracket and a first unreeling mechanism for unreeling a base material, wherein the mounting bracket is further provided with: the first conveying shaft group at least comprises a conveying shaft a and a conveying shaft b, and the conveying shaft a and the conveying shaft b are both provided with a first adjusting mechanism; the utility model has the following advantages: 1. the application range is wide, the material shaft can be adjusted slightly according to the width and thickness of the material, and the cutting machine is suitable for cutting different film-coated materials; 2. the installation and the disassembly of the material shaft are more convenient and labor-saving; 3. laminating effect of tectorial membrane material is good, and laminating mechanism sets up automatic hold-down mechanism, guarantees that last compression roller is closely laminated with the root down all the time.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic view of a mounting bracket according to the present utility model.

Fig. 3 is a schematic view of another view of the mounting bracket of the present utility model.

Fig. 4 is a schematic structural view of a transmission shaft a according to the present utility model.

Fig. 5 is a schematic structural view of a bonding mechanism according to the present utility model.

Fig. 6 is a schematic structural view of a first fixing mechanism according to the present utility model.

Fig. 7 is a schematic structural diagram of a second fixing mechanism according to the present utility model.

Fig. 8 is a schematic structural view of a locking mechanism according to the present utility model.

The reference numerals include:

the first winding mechanism-1, the second winding mechanism-11, the first unwinding mechanism-2, the second unwinding mechanism-3, the third unwinding mechanism-4, the first transmission shaft group-5, the transmission shaft a-51, the transmission shaft b-52, the first adjusting mechanism-53, the fixed seat-531, the screw rod-532, the adjusting block-533, the knob-534, the transmission shaft c-54, the third fixing mechanism-55, the third mounting seat-551, the cylinder b-552, the first pressing block-553, the third accommodating groove-554, the sliding bearing-555, the attaching mechanism-6, the upper pressing roller-61, the lower pressing roller-62, the second adjusting mechanism-63, the cylinder a-631, the sliding rail-632, the sliding block-633, the cutting mechanism-7, the second transmission shaft group-8, the first winding mechanism-9, the first fixing mechanism-91, the first mounting seat-911, the first accommodating seat-912, the movable plate-913, the locking groove-914, the second fixing mechanism-92, the second mounting seat-921, the second accommodating seat-c-922, the second accommodating seat-923, the second fixing shaft-93, the end portion-924, the locking mechanism-924, locking block-943, driving mechanism-10.

Detailed Description

The present utility model will be described in detail with reference to fig. 1 to 8.

The utility model relates to a multilayer laminating slitting machine with an improved structure, which comprises a mounting bracket 1 and a first unreeling mechanism 2 for unreeling a base material, wherein the mounting bracket 1 is further provided with: the second unreeling mechanism 3 is used for unreeling the first film-coated layer; a third unreeling mechanism 4 for unreeling the second film-coated layer; the third unreeling mechanism 4 is arranged below the second unreeling mechanism 3; the first conveying shaft group 5 is used for assisting in conveying the substrate and the film layer which are unreeled by the unreeling mechanism; the first conveying shaft set 5 at least comprises a conveying shaft a51 and a conveying shaft b52, and the conveying shaft a51 and the conveying shaft b52 are provided with a first adjusting mechanism 53; a bonding mechanism 6 for bonding the first and second film layers to the base material; a cutting mechanism 7 for cutting the laminated film; the second conveying shaft set 8 is used for assisting in conveying the cut multiple groups of film materials; the first winding mechanism 9 is used for winding a plurality of groups of cut film materials; the two ends of the first winding mechanism 9 are respectively provided with a first fixing mechanism 91 and a second fixing mechanism 92 which are convenient for installing and detaching the first winding mechanism 9, and the first fixing mechanism 91 and the second fixing mechanism 92 are symmetrically arranged at two sides of the installation bracket 1; the driving mechanism 10 is used for driving the attaching mechanism 6, the cutting mechanism 7 and the first winding mechanism 9 respectively.

According to the utility model, the first adjusting mechanisms 53 are arranged at the two ends of the conveying shaft a51 and the conveying shaft b52 of the first conveying shaft group 5, so that the slitter can finely adjust the conveying shafts in the process of unreeling and cutting different types of film materials, the positions of the conveying shafts are adjusted, die-cutting materials are tensioned at any time, and the slitter can accurately slit the materials and expand the application range; on the other hand, be provided with first fixed establishment 91 and second fixed establishment 92 at first winding mechanism 9 both ends, make things convenient for the installation and the dismantlement of first winding mechanism 9, when slitting machine cuts and accomplishes, can take out the winding shaft 93 fast or take out the one end of winding shaft 93, take out the finished coiled material, convenient to use, swift.

As an embodiment, in the present technical solution, the first adjusting mechanism 53 includes a fixing seat 531, a screw rod 532 and an adjusting block 533, the fixing seat 531 is fixedly disposed on the mounting bracket 1, the screw rod 532 is movably connected with the fixing seat 531, a knob 534 is disposed at an outer end of the screw rod 532, the end of the conveying shaft a51 or the conveying shaft b52 is fixedly connected with the adjusting block 533, and the adjusting block 533 is in threaded connection with the screw rod 532. When the position of the transfer shaft needs to be adjusted, the knob 534 is rotated, the adjusting block 533 screwed with the screw 532 is tightly connected with the screw 532 under the action of the pressure of the transfer shaft, the screw 532 is rotated to be stationary, and the adjusting block 533 screwed with the screw 532 moves along with the rotation direction, thereby adjusting the position of the transfer shaft.

As a further embodiment, the attaching mechanism 6 includes an upper pressing roller 61 and a lower pressing roller 62, and the upper pressing roller 61 and the lower pressing roller 62 are movably connected with the mounting bracket 1. When the splitting machine is started, the base material, the first laminating material and the second laminating material pass through the space between the upper pressing roller 61 and the lower pressing roller 62, and when the splitting machine is operated, the first laminating material and the second laminating material are tightly attached to the front side and the back side of the base material by the extrusion force between the upper pressing roller 61 and the lower pressing roller 62.

Most preferably, the two ends of the upper press roller 61 are both provided with a second adjusting mechanism 63, the second adjusting mechanism 63 includes a cylinder a631 and a slide rail 632 fixedly arranged on the mounting bracket 1, the upper press roller 61 is slidably connected with the slide rail 632 through a slide block 633, the cylinder a631 is arranged on the mounting bracket 1, and the cylinder a631 drives the slide block 633 to move along the direction of the slide rail 632. The second adjusting mechanism 63 is convenient for manually paving materials, the materials are required to be drawn out and paved well before the splitting machine is started, then the splitting machine can be normally carried out, at the moment, the air cylinder a631 drives the two ends of the upper pressing roller 61 to move upwards along the direction of the sliding rail 632 to lift the upper pressing roller 61, and after the discharging and paving is completed, the upper pressing roller 61 is driven to move downwards to abut against the lower pressing roller 62. On the other hand, when the upper press roller 61 and the lower press roller 62 are used for a long time, the gap between the upper press roller 62 and the lower press roller 62 becomes large, and at this time, the gap between the upper press roller 61 can be adjusted by the second adjusting mechanism 63 to reduce the gap between the upper press roller 62 and the lower press roller 62, so that the upper press roller 62 and the lower press roller 62 are always abutted against each other.

In this technical scheme, first conveying axle group 5 still includes conveying axle c54, for the installation and the dismantlement of convenient conveying axle, conveying axle c54 one end is through slide bearing 555 and installing support 1 sliding connection, and the other end passes through third fixed establishment 55 and installing support 1 swing joint.

As an embodiment, the third fixing mechanism 55 includes a third mounting seat 551, a cylinder b552 and a first pressing block 553, the third mounting seat 551 is provided with a third accommodating groove 554, when in use, one end of the conveying shaft c54 is accommodated in the third accommodating groove 554, the cylinder b552 is disposed on the third mounting seat 551, and the cylinder b552 drives the first pressing block 553 to press the end of the conveying shaft c54, so as to fix the conveying shaft c54. When the transmission shaft c needs to be disassembled, the transmission shaft c54 can be taken out only by controlling the cylinder b552 to move the first pressing block 553 upwards to loosen the transmission shaft c54. The third fixing mechanism 55 is simple in overall structure and convenient to mount and dismount the conveying shaft c54.

Preferably, in order to further improve the winding efficiency of the splitting machine, the mounting bracket 1 is further provided with a second winding mechanism 11. When the slitting machine slits wide-width materials, the slit adjacent narrow-width materials can be staggered and respectively rolled by the first material receiving mechanism and the second rolling mechanism 11, so that the materials are ensured to be rolled neatly, and the influence on rolling efficiency caused by the mutual winding of the adjacent rolled narrow-width materials is avoided.

In the present utility model, the first winding mechanism 9 includes a winding shaft 93, and a first end 931 and a second end 932 are disposed at two ends of the winding shaft 93.

As an embodiment, the first fixing mechanism 91 includes a first mounting seat 911, the first mounting seat 911 is provided with a first accommodating position 912, the first end 931 is accommodated in the first accommodating position 912, and a movable plate 913 is detachably connected to one side of the first accommodating position 912. When the splitting machine needs to install and disassemble the end parts, the movable plate 913 is only required to be disassembled, the first end part 931 can be quickly installed or taken out by placing the first end part 931 in the first accommodating position 912, and then the movable plate 913 is locked on the first installation seat 911 through the locking mechanism 94. The first fixing mechanism 91 is simple in structure and convenient to use.

As an embodiment, the locking mechanism 94 includes a fixed shaft 941 and a rotating shaft 942, two ends of the fixed shaft 941 are fixedly connected with the first mounting seat 911, the rotating shaft 942 is connected with the middle part of the fixed shaft 941, the rotating shaft 942 can rotate around the fixed shaft 941, a locking block 943 is further disposed at the outer end of the rotating shaft 942, a locking slot 914 is formed at the upper end of the movable plate 913, and the knob 534 and the locking slot 914 can be clamped with each other to fix the movable plate 913. When the movable plate 913 is required to be locked, the locking block 943 is held to rotate the rotating shaft 942 downwards, and when the rotating shaft 942 rotates to the horizontal position, the rotating shaft 942 passes through the locking groove 914, and the locking block 943 moves to the front end of the locking groove 914 and is clamped with the locking groove 914 to fix the movable plate 913, so that the end part of the winding shaft 93 is prevented from shaking during use; when the winding shaft 93 needs to be pulled out, the locking block 943 is held to move upwards, the knob 534 releases the movable plate 913, the movable plate 913 is opened, and the winding shaft 93 can be pulled out smoothly. The locking mechanism 94 of the present utility model is simple in structure and convenient in use.

As another embodiment, the second fixing mechanism 92 includes a second mounting seat 921 and a cylinder c922, the second mounting seat 921 is provided with a second accommodating position 923, the second end 932 is accommodated in the second accommodating position 923, the cylinder c922 is disposed on the second mounting seat 921, the cylinder c922 is connected with a second pressing block 924, and the cylinder c922 drives the second pressing block 924 to abut against the second end 932. The second fixing mechanism 92 is also convenient for mounting and dismounting the take-up shaft 93.

The foregoing is merely illustrative of the preferred embodiments of the present utility model, and no limitations are intended to the scope of the utility model except insofar as shown and described herein _。

Claims (10)

1. The utility model provides an improve multilayer tectorial membrane cutting machine of structure, includes installing support (1) and is used for unreeling first unreeling mechanism (2) of substrate, its characterized in that: the mounting bracket (1) is also provided with:

the second unreeling mechanism (3) is used for unreeling the first film-coated layer;

the third unreeling mechanism (4) is used for unreeling the second film-coated layer; the third unreeling mechanism (4) is arranged below the second unreeling mechanism (3);

the first conveying shaft group (5) is used for assisting in conveying the substrate and the film layer which are unreeled by the unreeling mechanism; the first conveying shaft group (5) at least comprises a conveying shaft a (51) and a conveying shaft b (52), and the conveying shaft a (51) and the conveying shaft b (52) are both provided with a first adjusting mechanism (53);

a bonding mechanism (6) for bonding the first and second film layers to the base material;

the cutting mechanism (7) is used for cutting the laminated film;

the second conveying shaft group (8) is used for assisting in conveying the cut multiple groups of film materials;

the first winding mechanism (9) is used for winding a plurality of groups of cut film materials; the two ends of the first winding mechanism (9) are respectively provided with a first fixing mechanism (91) and a second fixing mechanism (92) which are convenient for installing and detaching the first winding mechanism (9), and the first fixing mechanism (91) and the second fixing mechanism (92) are symmetrically arranged on two sides of the installation bracket (1);

the driving mechanism (10) is used for driving the attaching mechanism (6), the cutting mechanism (7) and the first winding mechanism (9) respectively.

2. The improved structure of claim 1, wherein: the first adjusting mechanism (53) comprises a fixed seat (531), a screw rod (532) and an adjusting block (533), the fixed seat (531) is fixedly arranged on the mounting bracket (1), the screw rod (532) is movably connected with the fixed seat (531), a knob (534) is arranged at the outer end of the screw rod (532), the end part of the conveying shaft a (51) or the end part of the conveying shaft b (52) is fixedly connected with the adjusting block (533), the adjusting block (533) is in threaded connection with the screw rod (532), and the screw rod (532) drives the adjusting block (533) to move.

3. The improved structure of claim 1, wherein: the laminating mechanism (6) comprises an upper pressing roller (61) and a lower pressing roller (62), and the upper pressing roller (61) and the lower pressing roller (62) are movably connected with the mounting bracket (1).

4. A multi-layer laminating slitting machine having an improved structure as claimed in claim 3, wherein: the upper press roller (61) both ends all are provided with second adjustment mechanism (63), second adjustment mechanism (63) include cylinder a (631) and fixed slide rail (632) that set up in installing support (1), upper press roller (61) pass through slider (633) and slide rail (632) sliding connection, cylinder a (631) set up in installing support (1), and cylinder a (631) drive slider (633) are along slide rail (632) direction motion.

5. The improved structure of claim 1, wherein: the first conveying shaft group (5) further comprises a conveying shaft c (54), one end of the conveying shaft c (54) is in sliding connection with the mounting bracket (1) through a sliding bearing (555), and the other end of the conveying shaft c is in movable connection with the mounting bracket (1) through a third fixing mechanism (55).

6. The improved multi-layer laminating slitting machine as set forth in claim 5, wherein: the third fixing mechanism (55) comprises a third mounting seat (551), a cylinder b (552) and a first pressing block (553), a third accommodating groove (554) is formed in the third mounting seat (551), one end of the conveying shaft c (54) is accommodated in the third accommodating groove (554), the cylinder b (552) is arranged on the third mounting seat (551), and the cylinder b (552) drives the first pressing block (553) to press the end part of the conveying shaft.

7. The improved structure of claim 1, wherein: the mounting bracket (1) is also provided with a second winding mechanism (11), and the second winding mechanism (11) and the first winding mechanism (9) are mutually matched to wind a plurality of groups of cut film materials.

8. The improved structure of claim 1, wherein: the first winding mechanism (9) comprises a winding shaft (93), and a first end (931) and a second end (932) are arranged at two ends of the winding shaft (93).

9. The improved structure of claim 8, wherein: the first fixing mechanism (91) comprises a first mounting seat (911), a first accommodating position (912) is formed in the first mounting seat (911), the first end (931) is accommodated in the first accommodating position (912), and a movable plate (913) is detachably connected to one side of the first accommodating position (912).

10. The improved structure of claim 9, wherein: the second fixing mechanism (92) comprises a second mounting seat (921) and a cylinder c (922), a second accommodating position (923) is formed in the second mounting seat (921), the second end portion (932) is accommodated in the second accommodating position (923), the cylinder c (922) is arranged on the second mounting seat (921), the cylinder c (922) is connected with a second pressing block (924), and the cylinder c (922) drives the second pressing block (924) to be in butt against the second end portion (932).

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