CN219384240U - Cutting and laminating equipment - Google Patents

Abstract

The utility model discloses cutting and attaching equipment, and relates to the technical field of cutting and processing. The cutting and laminating equipment comprises a first discharging shaft, a second discharging shaft, a first laminating mechanism, a first cutting mechanism, a third discharging shaft, a second cutting mechanism and a first receiving shaft; the first cutting mechanism can cut the semi-finished product; the third discharging shaft is used for discharging the main material; the height of the limiting shaft is higher than that of the second upper die assembly, the height of the third discharging shaft is higher than that of the second lower die assembly, the limiting shaft can bear a main material, and the second cutting driving piece is in driving connection with the second upper die assembly and can drive the second upper die assembly to move up and down; the first material receiving shaft is used for tensioning and rolling the main material. The cutting and attaching equipment can reduce the area of the main material which is required to be abutted with the semi-finished product, can enable the main material to be in a relatively flat state in the processing process, and can ensure the processing quality.

Description

Cutting and laminating equipment

Technical Field

The utility model relates to the technical field of cutting processing, in particular to cutting and attaching equipment.

Background

The existing foam rubber layer structure is usually formed by splicing multiple layers of film materials into a frame structure, the traditional processing mode for processing the foam rubber layer structure is to separately carry out sleeve cutting processing on double faced adhesive tape, foam films and backing films, splice the double faced adhesive tape, the foam films and the backing films to form, tear waste materials off, but because the lengths of the foam films and other film materials are longer, the contact area between the foam films and other film materials is larger, so that the integral structure is difficult to keep smooth after the foam films and other film materials are spliced together, the problem that the splicing opening between the foam films and other film materials which are mutually attached is easy to have unfilled corners or protruding points is solved, and the processing quality is difficult to guarantee.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides cutting and attaching equipment which can ensure the processing quality.

According to an embodiment of the utility model, a cutting and attaching device comprises: the first discharging shaft is used for discharging the bottom supporting film; the second discharging shaft is used for discharging the covering film; the first laminating mechanism is arranged on one side of the first discharging shaft and one side of the second discharging shaft, can receive the bottom supporting film and the covering film and is used for laminating the bottom supporting film and the covering film up and down to form semi-finished products; the first cutting mechanism is arranged on one side of the first attaching mechanism and is positioned on the movement path of the semi-finished product; the first cutting mechanism can cut the semi-finished product; the third discharging shaft is used for discharging the main material and enabling the movement path of the main material to be positioned above the movement path of the semi-finished product; the second cutting mechanism is arranged on one side of the first cutting mechanism and one side of the third discharging shaft; the second cutting mechanism comprises a limiting shaft, a second cutting driving piece, a second upper die assembly and a second lower die assembly; the second upper die assembly is positioned above the movement path of the main material, the second lower die assembly is used for bearing a semi-finished product, the limiting shaft is arranged on one side, far away from the third discharging shaft, of the second upper die assembly, the height of the limiting shaft is higher than that of the second upper die assembly, the limiting shaft can bear the main material, the height of the third discharging shaft is higher than that of the second lower die assembly, the second cutting driving piece is in driving connection with the second upper die assembly, and the second upper die assembly can be driven to move up and down; the first material receiving shaft is arranged on one side, far away from the third material discharging shaft, of the second cutting mechanism and is used for tensioning and winding the main material.

The cutting and laminating equipment provided by the utility model has at least the following beneficial effects: the first discharging shaft is used for discharging the support bottom film, the second discharging shaft is used for discharging the covering film, the covering film discharged by the second discharging shaft is located below the support bottom film, the first attaching mechanism can receive the support bottom film and the covering film and attach the support bottom film and the covering film up and down to enable the support bottom film and the covering film to be attached to be a semi-finished product, and the support bottom film is located below the covering film; the first cutting mechanism can receive the semi-finished product output by the first attaching mechanism and perform cutting operation so as to process the semi-finished product; the third discharging shaft is used for discharging the main material, the main material discharged by the third discharging shaft is positioned above the semi-finished product, the main material passes through between the second upper die assembly and the second lower die assembly, a limiting shaft is arranged on one side of the second upper die assembly, which is far away from the discharging shaft, the limiting shaft can bear the main material, the height of the limiting shaft is higher than that of the second upper die assembly, the height of the third discharging shaft is higher than that of the second lower die assembly, the main material is tensioned through the first material collecting shaft, the part of the main material between the second upper die assembly and the third lower die assembly can be positioned above the semi-finished product before the second cutting driving piece drives the second upper die assembly to move downwards, the distance between the main material and the semi-finished product is enabled, the second cutting driving piece can drive the second upper die assembly to move downwards, the main material and the semi-finished product are pushed to be in contact with the semi-finished product, the main material and the semi-finished product are enabled to cut by the second upper die assembly, the second cutting driving piece can be separated from the first cutting driving piece by the upper die assembly, and the waste material can be cut upwards by the first cutting driving piece, and the waste material can be separated from the first cutting piece by the upper die assembly; the main material can be suspended on the semi-finished product and tensioned through the third discharging shaft and the limiting shaft, the second cutting mechanism can press the main material downwards through the second upper die assembly and cut the main material, so that the cut blanking on the main material falls onto the semi-finished product, when the second upper die assembly moves upwards, the waste material can move upwards under the driving of the third discharging shaft and the limiting shaft to separate from the semi-finished product, so that the processing of the main material is completed, compared with the traditional processing mode of sleeving, cutting and splicing, the cutting and laminating equipment can reduce the required abutting area of the main material and the semi-finished product, and can enable the main material to separate from the semi-finished product after cutting, so that the main material can be kept in a relatively flat state in the processing process, the problems of unfilled corners, protruding points and the like between blanking and the semi-finished product are reduced, and the processing quality can be ensured.

According to some embodiments of the utility model, the automatic feeding device further comprises an asynchronous adjusting assembly, wherein the asynchronous adjusting assembly is arranged between the third discharging shaft and the second cutting mechanism and is positioned on a movement path of the main material, the asynchronous adjusting assembly comprises an adjusting driving piece, a first asynchronous shaft and a second asynchronous shaft, the first asynchronous shaft is arranged above the second asynchronous shaft and is connected with the adjusting driving piece, a gap for the main material to pass through is arranged between the first asynchronous shaft and the second asynchronous shaft, and the adjusting driving piece can drive the first asynchronous shaft to rotate.

According to some embodiments of the utility model, the second cutting mechanism further comprises a limiting rod, the limiting rod is arranged on one side of the second upper die set, which is far away from the third discharging shaft, and the limiting shaft is arranged on the limiting rod in an up-and-down movable manner.

According to some embodiments of the utility model, the first cutting mechanism comprises a first cutting driving piece, a first upper die assembly and a first lower die assembly, wherein the first upper die assembly is positioned above the motion path of the semi-finished product, the first lower die assembly is positioned below the motion path of the semi-finished product, and the first cutting driving piece is in driving connection with the first upper die assembly and can drive the first upper die assembly to move up and down.

According to some embodiments of the present utility model, the first upper die assembly includes a first upper die plate, a first cutting structure, a second cutting structure, and a first positioning shaft, where the first cutting structure, the second cutting structure, and the first positioning shaft are all disposed at a lower end of the first upper die plate, and the first positioning shaft is disposed at one side of the second cutting structure along a movement direction of the semi-finished product; the first cutting driving piece is connected with the first upper die plate and can drive the first upper die plate to move up and down, so that the first cutting structure and the second cutting structure cut the main material, a positioning hole is formed in a semi-finished product, and the first positioning shaft can penetrate through the positioning hole.

According to some embodiments of the utility model, the second upper die assembly comprises a second upper die plate, a third cutting structure and a second positioning shaft, wherein the size of the second positioning shaft is the same as that of the first positioning shaft; the second cutting driving piece is connected with the second upper die plate and can drive the second upper die plate to move up and down, so that the third cutting structure cuts a semi-finished product, and the second positioning shaft can penetrate through the positioning hole.

According to some embodiments of the utility model, the second lower die assembly comprises a second lower die plate, wherein the second lower die plate is provided with a second clearance groove penetrating in the vertical direction, and the second clearance groove is opposite to the second positioning shaft.

According to some embodiments of the utility model, the first lower die assembly comprises a first lower die plate, wherein the first lower die plate is provided with a first void-avoiding groove penetrating through the first lower die plate along the vertical direction, and the first void-avoiding groove is opposite to the first positioning shaft.

According to some embodiments of the present utility model, the second laminating mechanism is disposed at one side of the second cutting mechanism and is capable of receiving a semi-finished product, and the second laminating mechanism is used for laminating the semi-finished product; the first receiving shaft is arranged on one side, close to the second cutting mechanism, of the second attaching mechanism.

According to some embodiments of the utility model, the second laminating mechanism further comprises a second material receiving shaft, wherein the second material receiving shaft is arranged on one side, away from the second cutting mechanism, of the second laminating mechanism, and the second material receiving shaft rolls the semi-finished product.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing or additional aspects and advantages of the utility model will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic diagram of a cutting and laminating apparatus according to the present utility model;

fig. 2 is a schematic structural diagram of a third discharging shaft, a second cutting mechanism, a first receiving shaft and an asynchronous adjusting assembly of the cutting and attaching device;

FIG. 3 is a schematic view of the structure of the first upper die assembly and the first lower die assembly of the cutting and attaching apparatus of the present utility model;

FIG. 4 is a schematic structural view of a second upper die assembly and a second lower die assembly of the cutting and laminating apparatus of the present utility model;

fig. 5 is a schematic structural view of a first discharging shaft, a second discharging shaft and a first attaching mechanism of the cutting and attaching device of the present utility model;

FIG. 6 is a schematic structural view of a first cutting mechanism of the cutting and attaching apparatus of the present utility model;

fig. 7 is a schematic structural diagram of a second attaching mechanism, a first receiving shaft and a second receiving shaft of the cutting and attaching device according to the present utility model.

Reference numerals:

a backing film 10; a cover film 11; a main material 12; a first blanking shaft 100; a second discharge shaft 200; a first attaching mechanism 300; a first cutting mechanism 400; a first upper die assembly 410; a first upper template 411; a first cutting structure 412; a second cutting structure 413; a first positioning shaft 414; a first lower die assembly 420; a first void-avoidance groove 421; a third blanking shaft 500; a second cutting mechanism 600; a limit shaft 610; a second upper die assembly 620; a second upper template 621; a third cutting structure 622; a second positioning shaft 623; a second lower die assembly 630; a second lower template 631; a second clearance groove 632; a stop lever 640; an asynchronous conditioning assembly 700; a first asynchronous axis 710; a second asynchronous shaft 720; a second attaching mechanism 800; a third attaching mechanism 810; the first material receiving shaft 900; and a second take-up shaft 910.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the direction or positional relationship indicated with respect to the description of the orientation, such as up, down, left, right, front, rear, etc., is based on the direction or positional relationship shown in the drawings, is merely for convenience of describing the present utility model and simplifying the description, and does not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, the description of the first and second is only for the purpose of distinguishing technical features, and should not be construed as indicating or implying relative importance or implying the number of technical features indicated or the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

A cutting and laminating apparatus according to an embodiment of the present utility model is described below with reference to fig. 1 to 7.

The cutting and attaching device according to the embodiment of the utility model comprises a first discharging shaft 100, a second discharging shaft 200, a first attaching mechanism 300, a first cutting mechanism 400, a third discharging shaft 500, a second cutting mechanism 600 and a first receiving shaft 900; the first discharging shaft 100 is used for discharging the backing film 10; the second discharging shaft 200 is used for discharging the cover film 11; the first laminating mechanism 300 is arranged at one side of the first discharging shaft 100 and the second discharging shaft 200 and can receive the backing film 10 and the covering film 11, and the first laminating mechanism 300 is used for laminating the backing film 10 and the covering film 11 up and down to be semi-finished products; the first cutting mechanism 400 is disposed at one side of the first attaching mechanism 300 and is located on the motion path of the semi-finished product; the first cutting mechanism 400 is capable of cutting a semi-finished product; the third discharging shaft 500 is used for discharging the main material 12 and enabling the movement path of the main material 12 to be located above the movement path of the semi-finished product; the second cutting mechanism 600 is disposed at one side of the first cutting mechanism 400 and the third discharging shaft 500; the second cutting mechanism 600 includes a limiting shaft 610, a second cutting driving member, a second upper die assembly 620 and a second lower die assembly 630; the second upper die assembly 620 is located above the movement path of the main material 12, the second lower die assembly 630 is used for bearing a semi-finished product, the limiting shaft 610 is arranged on one side of the second upper die assembly 620 away from the third discharging shaft 500, the height of the limiting shaft 610 is higher than that of the second upper die assembly 620, the height of the third discharging shaft 500 is higher than that of the second lower die assembly 630, the limiting shaft 610 can bear the main material 12, the second cutting driving piece is in driving connection with the second upper die assembly 620, and the second upper die assembly 620 can be driven to move up and down; the first material receiving shaft 900 is disposed on a side of the second cutting mechanism 600 away from the third material discharging shaft 500, and the first material receiving shaft 900 is used for tensioning and winding the main material 12.

The first discharging shaft 100 is used for discharging the backing film 10, the second discharging shaft 200 is used for discharging the covering film 11, the covering film 11 discharged by the second discharging shaft 200 is positioned below the backing film 10, the first attaching mechanism 300 can receive the backing film 10 and the covering film 11 and attach the backing film 10 and the covering film 11 up and down so that the backing film 10 and the covering film 11 are attached to be a semi-finished product, and the backing film 10 is positioned below the covering film 11; the first cutting mechanism 400 can receive the semi-finished product output by the first attaching mechanism 300 and perform cutting operation to process the semi-finished product; the third discharging shaft 500 is used for discharging the main material 12, the main material 12 discharged by the third discharging shaft 500 is located above the semi-finished product, the main material 12 passes between the second upper die assembly 620 and the second lower die assembly 630, a limiting shaft 610 is arranged on one side of the second upper die assembly 620 away from the discharging shaft, the limiting shaft 610 can bear the main material 12, the limiting shaft 610 is located at a height higher than that of the second upper die assembly 620, the third discharging shaft 500 is located at a height higher than that of the second lower die assembly 630, the main material 12 is tensioned through the first collecting shaft 900, the part of the main material 12 between the second upper die assembly 620 and the third lower die assembly can be located above the semi-finished product before the second cutting driving member drives the second upper die assembly 620 to move downwards, the second cutting driving member can drive the second upper die assembly 620 to move downwards, the main material 620 is pushed by the second upper die assembly 620 to be separated from the second upper die assembly 620, the second cutting driving member is enabled to move upwards, and the waste material is separated from the second upper die assembly 620, and the waste material is cut upwards by the second cutting driving member is enabled to be separated from the second upper die assembly 620, and the waste material is cut upwards by the second cutting driving member 900; through third blowing axle 500 and spacing axle 610 can make main part 12 unsettled on the semi-manufactured goods and taut main part, second cutting mechanism 600 can be through second last module 620 push down main part 12 and cut main part 12, in order to drop the blanking that cuts on the main part 12 on the semi-manufactured goods, and when second last module 620 upwards moves, the waste material can be upwards moved in order to break away from the semi-manufactured goods under the drive of third blowing axle 500 and spacing axle 610, in order to accomplish the processing to main part 12, and compare with traditional processing method that the concatenation was cut to the cover, this cuts laminating equipment can reduce the required butt of main part 12 and semi-manufactured goods, just can make main part 12 break away from the semi-manufactured goods after cutting, in order to make main part 12 keep comparatively smooth state in the course of working, thereby reduce the unfilled corner and the bump scheduling problem that appear between blanking and the semi-manufactured goods, can guarantee the processingquality.

Specifically, the main material 12 is formed by bonding a foam film and a glue film.

Specifically, the cutting and laminating device further includes a third laminating mechanism 810, the structure of the third laminating mechanism 810 is the same as that of the first laminating mechanism 300, the third laminating mechanism 810 is disposed between the first cutting mechanism 400 and the second cutting mechanism 600, the third laminating mechanism 810 can receive the semi-finished product output from the first cutting mechanism 400, and can laminate and maintain pressure on the semi-finished product, so that after the semi-finished product is cut by the first cutting mechanism 400, the structure of the semi-finished product can be kept stable, and the second cutting mechanism 600 can receive the semi-finished product from the third laminating component; the third discharging shaft 500 is disposed on the third attaching mechanism 810.

Referring to fig. 1 and 2, it may be understood that the cutting and attaching apparatus further includes an asynchronous adjustment assembly 700, the asynchronous adjustment assembly 700 is disposed between the third discharging shaft 500 and the second cutting mechanism 600 and is located on a moving path of the main material 12, the asynchronous adjustment assembly 700 includes an adjustment driving member, a first asynchronous shaft 710 and a second asynchronous shaft 720, the first asynchronous shaft 710 is disposed above the second asynchronous shaft 720 and is connected with the adjustment driving member, a gap for the main material 12 to pass through is disposed between the first asynchronous shaft 710 and the second asynchronous shaft 720, and the adjustment driving member can drive the first asynchronous shaft 710 to rotate.

The asynchronous adjusting assembly 700 is arranged between the third discharging shaft 500 and the second cutting mechanism 600 and is positioned on the movement path of the main material 12, so that the main material 12 can be cut through the second cutting assembly after passing through the asynchronous adjusting assembly 700, the first asynchronous shaft 710 is arranged above the second asynchronous shaft 720, the main material 12 can pass through a gap between the first asynchronous shaft 710 and the second asynchronous shaft 720, the first asynchronous shaft 710 and the second asynchronous shaft 720 can be abutted against the main material 12, and the adjusting driving piece can drive the first asynchronous shaft 710 to rotate so as to control the speed passing through between the first asynchronous shaft 710 and the second asynchronous shaft 720, thereby controlling the movement of the main material 12; the first asynchronous shaft 710 is controlled to rotate step by adjusting the driving member, so that the main material 12 moves step by step, thereby avoiding the movement of the main material 12 when the blanking on the main material 12 is not separated from the waste material and when the main material 12 contacts with the semi-finished product, and improving the working stability of the second cutting mechanism 600.

Referring to fig. 2, it can be understood that the second cutting mechanism 600 further includes a limiting rod 640, the limiting rod 640 is disposed on a side of the second upper die assembly 620 away from the third discharging shaft 500, and the limiting shaft 610 is disposed on the limiting rod 640 in a vertically movable manner.

The limiting rod 640 extends along the vertical direction, the limiting shaft 610 can move up and down on the limiting rod 640, and the position of the limiting shaft 610 is adjusted to ensure that the main material 12 can be suspended above the semi-finished product, and the position of the limiting shaft 610 can be limited by arranging the limiting rod 640.

Referring to fig. 6, it can be understood that the first cutting mechanism 400 includes a first cutting driving member, a first upper die assembly 410 and a first lower die assembly 420, wherein the first upper die assembly 410 is located above the movement path of the semi-finished product, the first lower die assembly 420 is located below the movement path of the semi-finished product, and the first cutting driving member is in driving connection with the first upper die assembly 410 and can drive the first upper die assembly 410 to move up and down.

The first upper die assembly 410 is located above the movement path of the semi-finished product, the first lower die assembly 420 is located below the movement path of the semi-finished product, the first lower die assembly 420 is used for bearing the semi-finished product, the first upper die assembly 410 can be driven to move towards the second lower die assembly 630 through the first cutting driving piece, so that the first upper die assembly 410 and the second lower die assembly 630 clamp the semi-finished product therebetween, and the semi-finished product is cut through the first upper die assembly 410.

Referring to fig. 3 and 6, it can be understood that the first upper die assembly 410 includes a first upper die plate 411, a first cutting structure 412, a second cutting structure 413 and a first positioning shaft 414, wherein the first cutting structure 412, the second cutting structure 413 and the first positioning shaft 414 are all disposed at the lower end of the first upper die plate 411, and the first positioning shaft 414 is disposed at one side of the second cutting structure 413 along the movement direction of the semi-finished product; the first cutting driving piece is connected with the first upper die plate 411, and can drive the first upper die plate 411 to move up and down, so that the first cutting structure 412 and the second cutting structure 413 cut the semi-finished product, a positioning hole is formed in the semi-finished product, and the first positioning shaft 414 can penetrate through the positioning hole.

The first cutting structure 412, the second cutting structure 413 and the first positioning shaft 414 are all arranged at the lower end of the first upper template 411, the first cutting driving piece can drive the first upper template 411 to move downwards so that the first cutting structure 412 and the second cutting structure 413 are abutted with the semi-finished product and cut the semi-finished product, the first cutting structure 412 can form a plurality of preset shapes on the semi-finished product, the second cutting structure 413 can cut the semi-finished product to form a positioning hole, and the size of the first positioning shaft 414 is matched with the size of the positioning hole; the first positioning shaft 414 is arranged at one side of the second cutting structure 413 along the movement direction of the semi-finished product, a preset distance is reserved between the first positioning shaft 414 and the second cutting structure 413, after the second cutting structure 413 cuts on the semi-finished product to form a positioning hole, the semi-finished product moves forwards by a preset distance, so that the first cutting driving piece drives the first upper template 411 to move downwards again, the first positioning shaft 414 can penetrate through the positioning hole, positioning effect is achieved on the semi-finished product, and cutting accuracy is improved.

Specifically, the second cutting structure 413 is provided in plurality, and the first positioning shaft 414 is correspondingly provided in plurality; the first cutting structure 412 is a rectangular sheet structure to enable the formation of a sheet indentation on the semi-finished product, and the second cutting structure 413 is circular to enable the penetration of the semi-finished product and the cutting of a circular positioning hole on the semi-finished product.

Referring to fig. 3 and 4, it can be understood that the second upper die assembly 620 includes a second upper die plate 621, a third cutting structure 622, and a second positioning shaft 623, the second positioning shaft 623 having the same size as the first positioning shaft 414; the second cutting driving piece is connected with the second upper template 621, and can drive the second upper template 621 to move up and down, so that the third cutting structure 622 cuts the semi-finished product, and the second positioning shaft 623 can penetrate through the positioning hole.

The second cutting driving piece can drive the second upper template 621 to move downwards, so that the third cutting structure 622 on the second upper template 621 is abutted with the main material 12 and cuts the main material 12, and the second positioning shaft 623 can penetrate through the positioning hole due to the fact that the size of the second positioning shaft 623 is the same as that of the first positioning shaft 414, positioning effect is achieved on the semi-finished product, and cutting accuracy is improved.

The third cutting structure 622 is circular, so as to penetrate through the main material 12 to cut and form a blanking, and enable the blanking to fall onto the semi-finished product.

Referring to fig. 4, it can be understood that the second lower die assembly 630 includes a second lower die plate 631, and the second lower die plate 631 is provided with a second space-avoiding groove 632 penetrating in a vertical direction, and the second space-avoiding groove 632 is disposed opposite to the second positioning shaft 623.

In order to ensure the positioning accuracy, the second cutting driving piece drives the second upper template 621 to move downwards so as to drive the second positioning shaft 623 to penetrate through the positioning hole on the semi-finished product, a second clearance groove 632 is formed in the second lower die, and the tail end of the second positioning shaft 623 can extend into the second clearance groove 632 so as to avoid collision between the second positioning shaft 623 and the second lower template 631.

Referring to fig. 3, it can be understood that the first lower die assembly 420 includes a first lower die plate, and the first lower die plate is provided with a first clearance groove 421 penetrating in a vertical direction, and the first clearance groove 421 is disposed opposite to the first positioning shaft 414.

In order to ensure the positioning accuracy, the first cutting driving piece drives the first upper die plate 411 to move downwards so as to drive the first positioning shaft 414 to penetrate through the positioning hole in the semi-finished product, a first clearance groove 421 is formed in the first lower die, and the tail end of the first positioning shaft 414 can extend into the first clearance groove 421 so as to avoid collision between the first positioning shaft 414 and the first lower die plate.

Referring to fig. 7, it may be understood that the cutting and attaching apparatus further includes a second attaching mechanism 800, where the second attaching mechanism 800 is disposed on one side of the second cutting mechanism 600 and is capable of receiving the semi-finished product, and the second attaching mechanism 800 is used for pressing the semi-finished product; the first receiving shaft 900 is disposed at a side of the second attaching mechanism 800 close to the second cutting mechanism 600.

Specifically, the second attaching mechanism 800 includes a plurality of dual-press roller attaching structures, through which the second attaching structure can be abutted against the upper end face and the lower end face of the semi-finished product, and can press the blanking cut from the main material 12 onto the semi-finished product, so as to improve the stability between the semi-finished product and the blanking; the first material receiving shaft 900 is disposed on one side of the second attaching mechanism 800 near the second cutting mechanism 600, and the first material receiving shaft 900 is disposed above the dual-press roller attaching structure, where the first material receiving shaft 900 is used for tensioning and winding the waste material of the main material 12, so as to avoid the waste material from sagging to contact with the semi-finished product.

Specifically, a third material receiving shaft is arranged below the second attaching mechanism 800, and is used for rolling the backing film 10; the second laminating mechanism 800 further comprises a fourth discharging shaft, wherein the fourth discharging shaft is arranged on one of the two pressing roller laminating structures, the fourth discharging shaft can discharge the sticker, and the two pressing roller laminating structures can receive the sticker and the semi-finished product and laminate the sticker and the semi-finished product.

Referring to fig. 7, it can be understood that the cutting and attaching apparatus further includes a second receiving shaft 910, where the second receiving shaft 910 is disposed on a side of the second attaching mechanism 800 away from the second cutting mechanism 600, and the second receiving shaft 910 winds the semi-finished product.

After the second attaching mechanism 800 attaches the blank and the semi-finished product, the semi-finished product can be rolled up by the second material receiving shaft 910 to retract the semi-finished product.

In the description of the present specification, a description of the terms "one embodiment," "some embodiments," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. Cutting laminating equipment, its characterized in that includes:

the first discharging shaft is used for discharging the bottom supporting film;

the second discharging shaft is used for discharging the covering film;

the first laminating mechanism is arranged on one side of the first discharging shaft and one side of the second discharging shaft, can receive the bottom supporting film and the covering film and is used for laminating the bottom supporting film and the covering film up and down to form semi-finished products;

the first cutting mechanism is arranged on one side of the first attaching mechanism and is positioned on the movement path of the semi-finished product; the first cutting mechanism can cut the semi-finished product;

the third discharging shaft is used for discharging the main material and enabling the movement path of the main material to be positioned above the movement path of the semi-finished product;

the second cutting mechanism is arranged on one side of the first cutting mechanism and one side of the third discharging shaft; the second cutting mechanism comprises a limiting shaft, a second cutting driving piece, a second upper die assembly and a second lower die assembly; the second upper die assembly is positioned above the movement path of the main material, the second lower die assembly is used for bearing a semi-finished product, the limiting shaft is arranged on one side, far away from the third discharging shaft, of the second upper die assembly, the height of the limiting shaft is higher than that of the second upper die assembly, the limiting shaft can bear the main material, the height of the third discharging shaft is higher than that of the second lower die assembly, and the second cutting driving piece is in driving connection with the second upper die assembly and can drive the second upper die assembly to move up and down;

the first material receiving shaft is arranged on one side, far away from the third material discharging shaft, of the second cutting mechanism and is used for tensioning and winding the main material.

2. The cutting and attaching device according to claim 1, further comprising an asynchronous adjusting assembly, wherein the asynchronous adjusting assembly is disposed between the third discharging shaft and the second cutting mechanism and is located on a movement path of the main material, the asynchronous adjusting assembly comprises an adjusting driving member, a first asynchronous shaft and a second asynchronous shaft, the first asynchronous shaft is disposed above the second asynchronous shaft and is connected with the adjusting driving member, a gap for the main material to pass through is disposed between the first asynchronous shaft and the second asynchronous shaft, and the adjusting driving member can drive the first asynchronous shaft to rotate.

3. The cutting and attaching device as defined in claim 1, wherein said second cutting mechanism further comprises a limit lever, said limit lever is disposed on a side of said second upper die assembly away from said third discharge shaft, and said limit shaft is disposed on said limit lever so as to be movable up and down.

4. The cutting and attaching device as defined in claim 1, wherein said first cutting mechanism includes a first cutting driving member, a first upper die assembly and a first lower die assembly, said first upper die assembly is located above the movement path of the semi-finished product, said first lower die assembly is located below the movement path of the semi-finished product, said first cutting driving member is in driving connection with said first upper die assembly and is capable of driving said first upper die assembly to move up and down.

5. The cutting and attaching device according to claim 4, wherein the first upper die assembly comprises a first upper die plate, a first cutting structure, a second cutting structure and a first positioning shaft, wherein the first cutting structure, the second cutting structure and the first positioning shaft are all arranged at the lower end of the first upper die plate, and the first positioning shaft is arranged at one side of the second cutting structure along the movement direction of the semi-finished product; the first cutting driving piece is connected with the first upper die plate and can drive the first upper die plate to move up and down, so that the first cutting structure and the second cutting structure cut the main material, a positioning hole can be formed in a semi-finished product, and the first positioning shaft can penetrate through the positioning hole.

6. The cutting and laminating apparatus of claim 5, wherein the second upper die assembly includes a second upper die plate, a third cutting structure, and a second positioning shaft, the second positioning shaft having a size identical to the first positioning shaft; the second cutting driving piece is connected with the second upper die plate and can drive the second upper die plate to move up and down, so that the third cutting structure cuts a semi-finished product, and the second positioning shaft can penetrate through the positioning hole.

7. The cutting and attaching device as defined in claim 6, wherein said second lower die assembly includes a second lower die plate, said second lower die plate being provided with a second clearance groove penetrating in a vertical direction, said second clearance groove being disposed opposite said second positioning shaft.

8. The cutting and attaching device as defined in claim 5, wherein said first lower die assembly includes a first lower die plate, said first lower die plate being provided with a first clearance groove penetrating in a vertical direction, said first clearance groove being disposed opposite said first positioning shaft.

9. The cutting and attaching device according to claim 1, further comprising a second attaching mechanism, wherein the second attaching mechanism is disposed on one side of the second cutting mechanism and is capable of receiving a semi-finished product, and the second attaching mechanism is used for pressing the semi-finished product; the first receiving shaft is arranged on one side, close to the second cutting mechanism, of the second attaching mechanism.

10. The cutting and laminating apparatus of claim 9, further comprising a second take-up shaft disposed on a side of the second laminating mechanism remote from the second cutting mechanism, the second take-up shaft winding the semi-finished product.