CN213227945U

CN213227945U - Film coating mechanism for plates

Info

Publication number: CN213227945U
Application number: CN201922385777.5U
Authority: CN
Inventors: 张轲; 张群阁; 王雪淋
Original assignee: Zhejiang Dinmei Intelligent Decoration Co ltd
Current assignee: Zhejiang Dinmei Intelligent Decoration Co ltd
Priority date: 2019-12-26
Filing date: 2019-12-26
Publication date: 2021-05-18
Anticipated expiration: 2029-12-26

Abstract

The utility model discloses a film covering mechanism, which comprises a first film device and/or a second film device, a first compound device, a film covering support seat I and a first storage device, wherein the first film device and/or the second film device is used for placing film materials which are conveyed to the first compound device for film covering through power driving; the first film covering supporting seat is arranged on the rack and is used for supporting the first film device and/or the second film device and/or the first composite device; and the first storage device is connected with the first film covering supporting seat and used for storing the film materials. The utility model provides a tectorial membrane mechanism carries out the tectorial membrane to the upper surface and/lower surface of panel, on the one hand, further improves the compound ability that a template and panel are connected for going out when the template is stereotyped at the back, and the multidimensional plate structure that obtains promptly is more firm, and on the other hand, this mucosa plays the effect of protection to the surface of panel, and panel can cushion the damage to panel when the overstock shaping through the mould in the mechanism of drawing a mold.

Description

Film coating mechanism for plates

Technical Field

The utility model relates to a mechanical production equipment especially relates to a tectorial membrane mechanism for panel.

Background

The composite board (or board) is used as a building material, especially a metal multi-dimensional board, and has the advantages of better effects of the traditional wood material, such as good mechanical strength, good corrosion resistance, long service life and the like.

When the composite board is produced, a production line is usually adopted for production, a composite board such as a multi-dimensional board is obtained from a rolled raw material such as an aluminum plate after production, and the composite board is subjected to the procedures of raw material flattening, forming, cutting, finished product conveying and the like.

Disclosure of Invention

The utility model discloses to not enough among the prior art, provide a tectorial membrane mechanism for panel, carry out the tectorial membrane to the upper surface and/lower surface of panel, on the one hand, further improve the compound ability that goes out the template and be connected with the panel when setting for the template that goes out at the back, the multidimensional plate structure that obtains promptly is more firm, and on the other hand, this mucosa plays the effect of protection to the surface of panel, and panel can cushion the damage to panel when the overstock shaping through the mould on the mechanism of drawing a mould.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

a film covering mechanism for a sheet material, comprising:

the first film device is used for placing film materials, and the film materials are conveyed to the first composite device through power drive to be coated;

and/or the second membrane device is used for placing membrane materials, and the membrane materials are conveyed to the first composite device through power drive to be coated;

the first composite device is provided with a first composite channel, and when the plate and the membrane material are synchronously conveyed into the first composite channel, the first composite device extrudes and covers the membrane on the plate and the membrane material;

the first film covering supporting seat is arranged on the rack and used for supporting the first film device and/or the second film device and/or the first compound device;

and/or the first storage device is connected with the first film covering supporting seat and used for storing the film materials.

Preferably, the first membrane device comprises:

the first film placing roller is used for placing film materials;

the first film supporting frame is used for supporting the first film placing roller and is arranged into an adjustable structure and is adjusted through a first adjusting device;

and the first film guide roller is used for guiding the film material to the first compounding device.

Preferably, the first adjusting device comprises a first adjusting support frame, a first guide part and a first guide channel, the first adjusting support frame is connected with the first membrane support frame and used for supporting the first membrane support frame, the first guide part is connected with the first adjusting support frame, the first guide channel is arranged along the length direction of the rack, and the first adjusting support frame slides relative to the first guide channel through the first guide part to adjust the position of the first adjusting support frame.

Preferably, the first guide piece comprises a first connecting part, a second connecting part and a first guide abutting part, the end face of the first connecting part is arranged in a radius decreasing mode along the direction close to the second connecting part, the end face of the second connecting part is arranged in a radius decreasing mode along the direction close to the first connecting part, and the first guide abutting part used for being connected with the first guide channel is formed by the end faces of the first connecting part and the second connecting part;

the first guide channel comprises a first guide part, a second guide part and a first guide supporting part, the first guide part and the second guide part are arranged in an inclined plane, and the first guide supporting part is formed by a combination part of the first guide part and the second guide part.

Preferably, the first membrane support frame can be set to be an adjustable structure relative to the first adjusting device, the first membrane support frame is adjusted by the second adjusting device to move along the horizontal direction, the second adjusting device comprises a second guide part and a second guide channel, the second guide part is connected with the first membrane support frame, and the second guide channel is arranged on the first adjusting support frame and is arranged along the length direction of the first adjusting support frame.

Preferably, the second membrane device comprises:

a second film placing roller for placing the film material;

the second film supporting frame is used for supporting the second film placing roller, is arranged into an adjustable structure and is adjusted through a third adjusting device;

and the second film guide roller is used for guiding the film material to the first compounding device.

Preferably, the third adjusting device comprises a third adjusting support frame, a third guide member and a third guide channel, the third adjusting support frame is connected with the second membrane support frame and used for supporting the second membrane support frame, the third guide member is connected with the third adjusting support frame, the third guide channel is arranged on the first membrane covering support seat and arranged along the length direction of the first membrane covering support seat, and the third adjusting support frame adjusts the position of the second membrane support frame by the three-phase relative sliding of the third guide channel through the three guide members.

Preferably, the second membrane support frame can be set to be an adjustable structure relative to the third adjusting device, the fourth adjusting device adjusts the second membrane support frame to move along the horizontal direction, the fourth adjusting device comprises a fourth guide part and a fourth guide channel, the fourth guide part is connected with the second membrane support frame, and the fourth guide channel is arranged on the third adjusting support frame and is arranged along the length direction of the third adjusting support frame.

Preferably, the first composite device comprises:

the device comprises a first composite guide roller and a second composite guide roller which are arranged in pairs, wherein the first composite guide roller and/or the second composite guide roller are/is provided with a heat conduction source, and a first composite channel for conveying the multi-dimensional board is formed between the first composite guide roller and the second composite guide roller;

the composite supporting seat I is used for supporting the composite guide roller I and/or the composite guide roller II;

the fifth adjusting device is used for adjusting the first composite guide roller and/or the second composite guide roller move along the vertical direction, the fifth adjusting device comprises a fifth guide piece and a fifth guide channel, the fifth guide piece is connected with the first composite guide roller and/or the second composite guide roller, the fifth guide channel is arranged on the first composite support seat and is arranged along the length direction of the first composite support seat.

Preferably, the first composite device comprises:

Preferably, the first storage device comprises a storage rack and a support frame connected with the storage rack, a first storage cavity for storing the film materials is formed on the storage rack, and the support frame can be adjusted relative to the storage rack.

The utility model discloses gain following beneficial effect:

(1) the laminating mechanism of the utility model, on one hand, further improves the composite ability of the connection between the template and the panel when the template is shaped, namely the obtained multi-dimensional plate structure is more firm, and on the other hand, the mucosa plays a role in protecting the surface of the plate;

(2) the utility model discloses a production line accomplishes the full chain production of multi-dimensional board from the material loading to finished product, and full automated assembly line production improves the production efficiency and the quality of product greatly.

Additional aspects and advantages of the invention 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 invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

fig. 1 is a first schematic structural diagram of an embodiment of a multi-dimensional board production line of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of the raw material feeding mechanism of the present invention;

FIG. 3 is a front view of an embodiment of the film covering mechanism of the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of the raw material placing assembly of the present invention;

FIG. 5 is a schematic structural view of an embodiment of the material guiding device of the present invention;

FIG. 6 is a schematic structural view of an embodiment of the film covering mechanism of the present invention;

FIG. 7 is a schematic structural diagram of a first embodiment of the composite device of the present invention;

FIG. 8 is a front view of a first embodiment of the compound device of the present invention;

fig. 9 is a first schematic structural view of a first membrane device according to an embodiment of the present invention;

fig. 10 is a schematic structural view of an embodiment of the guide passage of the present invention;

fig. 11 is a schematic structural view of an embodiment of the guide of the present invention;

FIG. 12 is a second schematic structural view of a first membrane unit according to an embodiment of the present invention;

fig. 13 is a schematic structural view of a second membrane apparatus according to an embodiment of the present invention;

fig. 14 is a first schematic structural diagram of an embodiment of the demolding mechanism of the present invention;

fig. 15 is a first schematic structural view of an embodiment of the demolding mechanism of the utility model;

fig. 16 is a front view of an embodiment of the demolding mechanism of the present invention;

fig. 17 is a rear view of an embodiment of the demolding mechanism of the present invention;

fig. 18 is a schematic structural view of an embodiment of the demolding assembly of the present invention;

fig. 19 is a schematic structural diagram of an embodiment of the mold of the present invention.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one.

As shown in fig. 1 to 19, as an embodiment of the present invention, a multi-dimensional board production line is mainly used for producing multi-dimensional boards such as multi-dimensional boards, and can also be used for processing other multi-dimensional boards with multi-layer structures, all within the scope of the present embodiment. In this embodiment, as shown in fig. 1 and 2, this production line includes raw material feed mechanism 100, the utility model discloses tectorial membrane mechanism 200, demolding mechanism 300, first leveling mechanism 500, setting mechanism 400 and auxiliary drive mechanism 600 of embodiment accomplish the full chain production from the material loading to the finished product of multidimension board through this production line, and automatic streamlined production improves the production efficiency and the quality of product greatly. The material feeding mechanism 100 of the present embodiment is used for feeding a plate, that is, a rolled plate material is unfolded by the material feeding mechanism 100 to a suitable flat structure, and then enters the next film covering mechanism 200 to be covered with a film, and then is processed into a mold by the mold discharging mechanism 300. As shown in fig. 2, the raw material feeding mechanism 100 includes a raw material placing assembly 101 and a raw material guiding device 102, the raw material placing assembly 101 can be provided in plural, and can be set according to the processing requirement, and is mainly used for placing the raw material of the board of the present invention, the raw material placing assembly 101 can be adjusted with respect to the rack, for example, an adjusting structure is provided at the bottom of the raw material placing assembly 101 to adjust the required position according to the requirement of placing the raw material, as shown in fig. 5, wherein the raw material placing assembly 101 includes a raw material placing roller 103 and a raw material placing rack 104, the raw material placing roller 103 is sleeved on the raw material placing roller 103, the raw material placing roller 103 is supported by the raw material placing rack 104, the raw material placing rack 104 is connected with the rack 700, the raw material placing rack 104 can be adjusted with respect to the rack, on the one, the raw material placing assembly 101 is adjusted to a containing position for placing, the placing position of the raw material placing assembly 101 can be used for processing and placing other plates, the raw material placing roller 103 of the embodiment can rotate around the raw material placing rack 104 under the driving of a power unit, and the conveying of raw materials along the feeding direction is assisted; the raw material is provided with a plurality of guide units and arranged along the feeding direction of the plate (multi-dimensional plate), and is used for unfolding the raw material on the raw material placing assembly 101 and conveying the raw material to the film covering mechanism 200 for film covering under the driving of a power source.

According to an embodiment of the present invention, as shown in fig. 3-5, the material guiding device 102 comprises a first guiding component 1, a second guiding component 2 and a third guiding component 3 for leveling or spreading the material along the length direction. First direction subassembly 1 and the unequal height of second direction subassembly 2 setting of this embodiment, first direction subassembly 1 or second direction subassembly 2 can set up to the multiunit, be as multiple implementation mode promptly, first direction subassembly 1 and second direction subassembly 2 respectively set up to a set of, or first direction subassembly 1 sets up to a set of, second direction subassembly 2 respectively sets up to multiunit such as two sets of, or first direction subassembly 1 sets up to multiunit such as two sets of, second direction subassembly 2 respectively sets up to a set of, the combination of first direction subassembly 1 and second direction subassembly 2 is used for the raw materials to expand along length direction, the raw materials is through first direction subassembly 1 and second direction subassembly 2 of unequal height, the area that the increase raw materials expanded, thereby realize the extension of raw materials. In order to further stretch the raw material to the flatness required by the demolding mechanism 300, and then flatten the raw material by the third guiding assembly 3, the third guiding assembly 3 of this embodiment may be set to one or more sets, one or more sets may be set after the second guiding assembly 2, or one or more sets may be set between the second guiding assembly 2 and the next first guiding assembly 1, the third guiding assembly 3 of this embodiment is preferably set downstream of the second guiding assembly 2, and the raw material is conveyed and pulled onto the film covering mechanism 200 by the third guiding assembly 3 after being flattened by the first guiding assembly 1 and the second guiding assembly 2. The raw materials of this embodiment pass through first direction subassembly 1, second direction subassembly 2 and third direction subassembly 3, and it is long to make the stroke that the raw materials expandes, more can improve the roughness that the raw materials extends, and the raw materials of this embodiment passes through the third direction subassembly 3 that the raw materials that first direction subassembly 1 or second direction subassembly 2 extend again and flattens, accomplishes the material loading of raw materials, expandes the raw materials and carries out the tectorial membrane of the upper surface and/or the lower surface of raw materials on the tectorial membrane mechanism 200.

According to the embodiment of the present invention, as shown in fig. 5, the first guiding assembly 1 includes a first guiding rod 11 and a first guiding support member 12, the first guiding rod 11 of the present embodiment can be set to one or more, the first guiding rod 11 is supported by the first guiding support member 12, the first guiding support member 12 of the present embodiment is connected to the frame 700, the first guiding support member 12 can be set to a fixed structure or an adjustable structure with respect to the frame 700, for example, according to the model size of the plate material, the length size of the first guiding rod can be adjusted in time to adapt to the extension conveying of the plate material. The two ends of the first guide roller 11 are connected with the first guide support 12 and can rotate relative to the first guide support 12, so that the two ends of the first guide roller 11 are connected with the first guide support 12 through the rotating shafts, the first guide roller can rotate relative to the second guide roller under the driving of the power source, and the rotating direction of the first guide roller is preferably consistent with the feeding direction of the plates, so that the plates are driven to be fed and conveyed along the feeding direction.

According to the embodiment of the present invention, as shown in fig. 5, the second guiding assembly 2 comprises a second guiding roller 21 and a second guiding supporting member 22, wherein the second guiding roller 21 and the first guiding roller 11 are set in different heights, and the space formed between the second guiding roller 21 and the first guiding roller 11 is convenient for the extension of the raw material. The second guide rollers 21 of this embodiment may be one or more, the second guide rollers 21 are supported by the second guide supports 22, the second guide supports 22 of this embodiment are connected to the frame 700, and the second guide supports 22 may be set to be a fixed structure relative to the frame 700, or may be set to be an adjustable structure, for example, according to the type size of the plate, the length size of the second guide rollers 21 may be adjusted in time to adapt to the stretching and conveying of the plate. In this embodiment, both ends of the second guide roller 21 are connected to the second guide support 22 and can rotate relative to the second guide support 22, so both ends of the second guide roller 21 in this embodiment are connected to the second guide support 22 through a rotating shaft, and the second guide roller 21 rotates relative to the second guide support under the driving of the power source, and in this embodiment, it is preferable that the rotating direction of the second guide roller 21 coincides with the feeding direction of the sheet material, so as to drive the sheet material to be fed and conveyed along the feeding direction.

According to the embodiment of the present invention, as shown in fig. 6, the third guiding assembly 3 includes three guiding rods 31 and three guiding support members 32, the three guiding rods 31 of the present embodiment can be set to one or more, the three guiding rods 31 are supported by the three guiding support members 32, the three guiding support members 32 of the present embodiment are connected to the frame 700, the three guiding support members 32 can be set to a fixed structure or an adjustable structure relative to the frame 700, for example, according to the model size of the plate, the length of the three guiding rods 31 can be adjusted in time to adapt to the extension conveying of the plate. In the present embodiment, both ends of the guide roller three 31 are connected to the guide support member three 32 and can rotate relative to the guide support member three 32, so both ends of the guide roller three 31 in the present embodiment are connected to the guide support member three 32 through a rotating shaft, and the guide roller three can rotate relative to each other under the driving of the power source, and the rotating direction of the guide roller three is preferably consistent with the feeding direction of the sheet material, so as to drive the sheet material to be conveyed to the film covering mechanism 200 along the feeding direction.

According to the embodiment of the present invention, as shown in fig. 3, the film covering mechanism 200 comprises a first film device 201, a second film device 202, a first compound device 203, a film covering support base 204 and a first storage device 208, the film covering support base 204 is disposed on the frame 700 for supporting the first film device 201, the second film device 202 and the first compound device 203, wherein the first film device 201 conveys the adhesive film to the first compound device 203, the second film device 202 conveys the adhesive film to the first compound device 203, the third guide assembly 3 conveys and guides the plate material to the first compound device 203, so that the upper surface and the lower surface of the plate material are respectively attached with the adhesive film by the first compound device 203, the upper surface and the lower surface of the plate material are then conveyed to the film discharging mechanism 300 for forming, the upper surface and the lower surface of the plate material are covered with the film by the film covering mechanism 200, on one hand, the adhesive film plays a role in protecting the surface of the plate, the plate can buffer the damage to the plate when being accumulated and formed on the mold stripping mechanism 300 through a mold, and on the other hand, the composite capacity of connecting the stripping plate and the panel is further improved when the stripping plate is shaped, namely the obtained multi-dimensional plate structure is firmer.

According to the embodiment of the present invention, as shown in fig. 9 and 10, the first film device 201 includes a first film placing roller 2011, a first film supporting frame 2012, a first film guiding roller 2013 and a first adjusting device 2014, wherein a rolled film material is placed on the first film placing roller 2011, the first film supporting frame 2012 is preferably disposed below and connected to the frame 700, the first film placing roller 2011 of the present embodiment may be disposed in one or more configurations, the first film placing roller 2011 is supported by the first film supporting frame 2012, the first film supporting frame 2012 is connected to the first adjusting device 2014 and connected to the frame 700 by the first adjusting device 2014, the first adjusting device 2014 may be disposed in a fixed configuration or an adjustable configuration with respect to the frame 700, the first adjusting device 2014 is preferably disposed in an adjustable configuration with respect to the frame 700 for adjusting the position of the first film placing roller 2011, for example, according to the size of the plate, the length size or position requirement of the first film placing roller 2011 can be adjusted in time to adapt to the placing and conveying of the film materials. Wherein the first adjusting device 2014 comprises an adjusting support frame 2015, a guide member 2016 and a guide passage 2017, wherein the adjusting support frame 2015 is connected with the guide member 2016, the guide passage 2017 is arranged on the rack 700, the guide passage 2017 of the embodiment is arranged like a guide rail structure, as shown in fig. 11, the guide member 2016 comprises a connecting part 20161, a connecting part 20162 and a guide abutting part 20163, the end surface of the connecting part 20161 is arranged in a radius decreasing manner along the direction close to the connecting part 20162, the end surface of the connecting part 20162 is arranged in a radius decreasing manner along the direction close to the connecting part 20161, a guide abutting part 20163 used for being connected with the guide passage 20163 is formed by the end surfaces of the connecting part 20161 and the connecting part 20162, the guide passage 2017 comprises a guide part 20171, a guide part 20172 and a guide supporting part 20173, the guide part I and the guide part II are arranged in a slope, the first guide supporting part is formed by a combination part of the first guide part and the second guide part; the first guide channel comprises a first guide part 20171, a second guide part 20172 and a first guide supporting part 20173, the first guide part 20171 and the second guide part 20172 are arranged in an inclined plane, and the first guide supporting part 20173 is formed by the combination part of the first guide part 20171 and the second guide part 20172, so that the first abutting part of the first guide part is abutted and connected with the first guide supporting part 20173 of the first guide channel and slides along the first guide channel to realize adjustment. In combination with the first guide channel 2017 of the first embodiment, the first guide member 2016 of the corresponding first embodiment is configured as a guide wheel structure, and the first guide member 2016 is configured as a groove shape matched with the first guide channel, and is used for being clamped on the first guide part 20171 and the second guide part 20172 and being capable of sliding relative to the first guide channel 2017. Roller 2011 and film support frame 2012 are placed in the top of adjusting support frame 2015 to the membrane of this embodiment, and film support frame 2012 links to each other with adjusting support frame 2015, so the membrane of this embodiment is placed roller 2011 and is carried out the regulation of position through adjusting support frame 2015 relative frame 700, realizes that roller 2011 is placed to the membrane and carries out the regulation of position along X direction (width direction) and Y direction (panel feed direction), adapts to the required position of placing of membrane material. Similarly, the first guide channel 2017 may be disposed at the bottom of the first adjustment support 2015, and the first guide member 2016 may be connected to the frame 700, so that the position adjustment of the first film-placing roller 2011 in the X direction (width direction) and the Y direction (plate feeding direction) can be achieved.

According to the utility model discloses an embodiment, furtherly technical scheme, the first relative adjusting device 2014 of membrane support frame 2012 of this implementation sets up to adjustable structure for the position control of roller 2011 is placed to the membrane, is adjusted by second adjusting device 4 and removes along the horizontal direction, second adjusting device 4 includes guide two 41 and guide way two 42, guide two 41 links to each other with membrane support frame one, guide way two 42 sets up on adjusting support frame one to set up along the length direction who adjusts support frame one. For example, according to the model size of panel, the length dimension or the position of roller one 2011 can be in time adjusted, so one 2012 below the film support frame of this embodiment is provided with guide two 41, film support frame one 2012 links to each other with regulation support frame one 2015 through guide two 41, be provided with guide channel two 42 on the regulation support frame one 2015, so the film that this implementation was placed roller one 2011 carries out the regulation of position through relative regulation support frame one 2015 of film support frame one 2012, realize that roller one 2011 is placed to the film and carry out the regulation of position along X direction (width direction) and Y direction (panel feed direction), adapt to the required position of placing of film material. Similarly, the second guide channel 42 may be disposed at the bottom of the first film support frame 2012, and the second guide member 41 may be disposed on the first adjustment support frame 2015, so that the position adjustment of the first film placing roller 2011 along the X direction (width direction) and the Y direction (plate feeding direction) can be achieved.

In this embodiment, both ends of the first film placing roller 2011 are connected with the first film supporting frame 2012 and can rotate relative to the first film supporting frame 2012, so both ends of the first film placing roller 2011 of this embodiment are connected with the first film supporting frame 2012 through a rotating shaft, and the first film placing roller 2011 can rotate relative to each other under the driving of a power source. The two ends of the first film guide roller 2013 are connected with the first laminating support base 204 and can rotate relative to the first laminating support base 204, so that the two ends of the first film guide roller 2013 are connected with the first laminating support base 204 through a rotating shaft, the first film guide roller 2013 can rotate relative to each other under the driving of a power source, the rotating direction of the first film guide roller 2013 is preferably consistent with the feeding direction of a film material, the film material is guided by the first film placing roller 2011 and the first film guide roller 2013, guiding of the film material is facilitated, and the film material is conveyed to the first compound device 203 along the feeding direction to carry out laminating on the surface of a plate.

According to the embodiment of the present invention, as shown in fig. 6-8, the second film device 202 includes a second film placing roller 2021, a second film supporting frame 2022, a second film guiding roller 2023 and a third adjusting device 2024, wherein the rolled film material is placed on the second film placing roller 2021, the second film placing roller 2021 is preferably disposed above the first film covering supporting frame 204, the second film placing roller 2021 of the present embodiment can be disposed in one or more number, the second film placing roller 2021 is supported by the second film supporting frame 2022, the second film supporting frame 2022 is connected to the third adjusting device 2024 and is connected to the first film covering supporting frame 204 through the third adjusting device 2024, the third adjusting device 2024 can be disposed in a fixed structure or an adjustable structure relative to the first film covering supporting frame 204, the third adjusting device 2024 is preferably disposed in an adjustable structure relative to the first film covering supporting frame 204 for position adjustment of the second film placing roller 2021, for example, according to the type and size of the sheet material, the length and the position of the second film placing roller 2021 can be adjusted in time to adapt to the placing and conveying of the film material. The third adjusting device 2024 includes an adjusting support frame three 2025, a guide member three 2026, and a guide channel three 2027, in which the adjusting support frame three 2025 is connected to the guide member three 2026 (which may be configured as a slider), the guide channel three 2027 (which may be configured as a guide rail) is disposed on the first film covering support base 204, the second film placing roller 2021 and the second film support frame 2022 of this embodiment are disposed above the adjusting support frame three 2025, and the second film support frame 2022 is connected to the adjusting support frame three 2025, so that the position of the second film placing roller 2021 of this embodiment is adjusted by adjusting the position of the support frame three 2025 relative to the first film covering support base 204, so as to adjust the position of the second film placing roller 2021 along the X direction (width direction) and the Y direction (plate feeding direction) to adapt to the desired placing position of the film material. Similarly, the third guide channel 2027 may be disposed at the bottom of the third adjusting support 2025, and the third guide 2026 is connected to the first film covering support 204, so that the position adjustment of the second film placing roller 2021 in the X direction (width direction) and the Y direction (sheet feeding direction) can be achieved.

According to the embodiment of the present invention, further technical solution, the third adjusting device 2024 is set to an adjustable structure relatively to the second membrane supporting frame 2022 of this implementation, and is used for the membrane to place the position adjustment of the second roller 2021, and is adjusted by the fourth adjusting device 5 and moves along the horizontal direction, the fourth adjusting device 5 includes the fourth guide 51 and the fourth guide channel 52, the fourth guide 51 is connected with the second membrane supporting frame, the fourth guide channel 52 is set on the third adjusting supporting frame and is set along the length direction of the third adjusting supporting frame.

For example, according to the type size of the sheet material, the length size or position of the second film placing roller 2021 can be adjusted in time, so that the fourth guide 51 is disposed below the second film supporting frame 2022, the second film supporting frame 2022 is connected to the third adjusting supporting frame 2025 through the fourth guide 51, and the fourth guide channel 52 is disposed on the third adjusting supporting frame 2025, so that the second film placing roller 2021 adjusts the position of the second film placing roller 2021 relative to the third adjusting supporting frame 2025 through the second film supporting frame 2022, thereby adjusting the position of the second film placing roller 2021 along the X direction (width direction) and the Y direction (sheet material feeding direction) to adapt to the desired placing position of the film material. Similarly, the position adjustment of the second film placing roller 2021 in the X direction (width direction) and the Y direction (sheet material feeding direction) can be achieved by disposing the fourth guide channel 52 at the bottom of the second film supporting base 2022 and disposing the fourth guide 51 on the first film supporting base 204.

In this embodiment, both ends of the second film placing roller 2021 are connected to the second film supporting frame 2022 and can rotate relative to the second film supporting frame 2022, so both ends of the second film placing roller 2021 in this embodiment are connected to the second film supporting frame 2022 through a rotating shaft, and the second film placing roller 2021 can rotate relative to each other under the driving of a power source. In this embodiment, both ends of the second film guide roller 2023 are connected to the first laminating support base 204 and can rotate relative to the first laminating support base 204, so both ends of the second film guide roller 2023 of this embodiment are connected to the first laminating support base 204 through a rotating shaft, and the second film guide roller 2023 can rotate relative to each other under the driving of a power source.

According to the embodiment of the present invention, as shown in fig. 7, the first combining device 203 comprises a first combining guide roller 2031, a second combining guide roller 2032 and a fifth adjusting device 2034, which are arranged in pairs, wherein both ends of the first combining guide roller 2031 and the second combining guide roller 2032 of the embodiment are respectively connected with the first film covering supporting seat 204 through rotating shafts, under the driving of the power source, the first composite guide roller 2031 and the second composite guide roller 2032 can rotate relatively, in this embodiment, the rotation direction of the first composite guide roller 2031 and the second composite guide roller 2032 is preferably consistent with the feeding direction of the film material, that is, the directions of the traction forces generated by the first composite guide roller 2031 and the second composite guide roller 2032 under synchronous rotation are consistent, therefore, the membrane material is compounded with the plate material on the upper and lower surfaces of the plate material under the stress action of the first composite guide roller 2031 and the second composite guide roller 2032, so that the membrane material is attached to the surface of the plate material, and the film coating on the surface of the plate material is completed.

In this embodiment, a first composite channel 2033 for conveying the board is formed between the first composite guide roller 2031 and the second composite guide roller 2032, the first composite channel 2033 has a thickness equal to the thickness of the board and the film material after being stacked, so as to better adhere the film material to the surface of the board, when the board and the film material are synchronously conveyed into the first composite channel 2033, the first composite guide roller 2031 and the second composite guide roller 2032 extrude the board and the film material, and the like, so as to realize the film coating of the board. When the film material is conveyed to the inlet of the first compound channel 2033 by the first film device 201 and the second film device 202, and meanwhile, the plate material is also conveyed or pulled to the inlet of the first compound channel 2033 by the third guide assembly 3, the film material for coating the upper surface and/or the lower surface of the plate material is conveyed to the inlet of the first compound channel 2033 synchronously with the plate material under normal conditions, and then the film material passes through the traction force and the extrusion force generated by the first compound guide roller 2031 and the second compound guide roller 2032 under the power source, the plate material and the film material are adhered after being subjected to the extrusion force, and are continuously conveyed and fed along the feeding direction under the action of the traction force, so that the film coating of the whole plate material is.

According to the embodiment of the utility model, compound guide roller 2031 and/or compound two 2032 of guide roller can also carry out height or horizontal direction's position control relatively tectorial membrane supporting seat 204, compound guide roller 2031 and/or compound two 2032 of guide roller of this embodiment are adjusted through fifth adjusting device 2034, the regulation of vertical direction position is selected for the example to the regulation of compound guide roller 2031 of this embodiment and/or compound two 2032 of guide roller explains, vertical direction's regulation, can adjust the height of compound guide roller 2031 and/or compound two 2032 of guide roller, in order to adapt to the complex of the panel of models such as various length or width or thickness, can also be through the size of compound passageway 2033 of adjusting formation between compound guide roller 2031 and the compound two 2032, in order to adapt to the tectorial membrane of the panel of different thickness. In this embodiment, the fifth adjusting device 2034 includes a guide three 2035 (which may be configured as a slider), a guide channel three 2036 (which may be configured as a guide rail), and an operating element three 2037, in which the first composite guide roller 2031 and/or the second composite guide roller 2032 of this embodiment are connected to the guide three 2035, the third guide channel 2036 is disposed on the first film support base 204 and is disposed along the length direction of the first film support base 204, i.e., the third guide channel 2036 having a length equivalent to that of the first composite guide roller 2031 and/or the second composite guide roller 2032 and the third guide roller 2035 as a whole can slide to a desired position along the third guide channel 2036 under the driving force, so as to adjust the position of the first composite guide roller 2031 and/or the second composite guide roller 2032. The operation element three 2037 of the embodiment may be configured as a manual or automatic operation structure, so as to adjust the position of the first composite guide roller 2031 and/or the second composite guide roller 2032, or may be a combination of the manual and automatic operation structures, and on the premise of automatically adjusting the position of the first composite guide roller 2031 and/or the second composite guide roller 2032, the operation element three 2037 is configured with the manual operation structure, so as to adjust the position of the first composite guide roller 2031 and/or the second composite guide roller 2032 more precisely, so that the first composite guide roller 2031 and/or the second composite guide roller 2032 of the embodiment are adjusted to a desired position by the operation adjustment of the operation element three 2037.

According to the utility model discloses an embodiment still is provided with first storage device 208 for the storage of membrane material can in time and satisfy the needs to the membrane material fast, including storage frame 2081 and the support frame 2082 that links to each other with storage frame 2081 of this embodiment, be formed with on storage frame 2081 and deposit chamber 2083 that is used for the membrane material to store, support frame 2081 is adjusted to storage frame 2081 relatively. The membrane material house is in this storage cavity 2083, satisfies in time the feeding to the membrane material in the processing production process.

According to the utility model discloses an embodiment, panel passes through tectorial membrane mechanism 200 and accomplishes the upper and lower surface tectorial membrane to panel after, enters into and carries out the mould shaping on demolding mechanism 300, obtains the play template that has the model structure. In this embodiment, as shown in fig. 13 to 18, one or more mold ejection mechanisms 300 may be provided and are disposed along the multi-dimensional board feeding direction, the mold ejection mechanism 300 includes a mold assembly 301, a mold support 302, a fourth guide assembly 303, and a fifth guide assembly 304, the mold support 302 of this embodiment is used for supporting the mold assembly 301 and/or the fourth guide assembly 303, and/or the fifth guide assembly 304, the mold support 302 is connected to the frame 700, and two ends of the mold assembly 301 are respectively connected to the mold support 302 and can be adjusted in the vertical direction and the horizontal direction with respect to the mold support 302. In the embodiment, the sheet material is guided or drawn onto the mold assembly 301 from the laminating mechanism 200 through the fourth guide assembly 303 for forming, and the fourth guide assembly 303 of the embodiment includes a guide roller set 3031 and a guide support set 3032, and the space formed between the guide roller set 3031 and the first composite assembly facilitates the stretching of the sheet material. The guide roller set 3031 in this embodiment may be provided in one or more number, the guide roller set 3031 is supported by the guide support set 3032, the guide support set 3032 in this embodiment is connected to the die supporting base 302, and the guide support set 3032 may be provided in a fixed structure relative to the die supporting base 302 or may be provided in an adjustable structure, for example, the length of the guide roller set may be adjusted in time according to the type and size of the plate material to adapt to the stretching and conveying of the plate material. The two ends of the guide roller four 3031 in this embodiment are connected to the guide support four 3032 and can rotate relative to the guide support four 3032, so that the two ends of the guide roller four 3031 in this embodiment are connected to the guide support four 3032 through the rotating shaft, and the guide roller four rotates relatively under the driving of the power source, and in this embodiment, the rotating direction of the guide roller four is preferably consistent with the feeding direction of the plate material, so as to drive the plate material to be fed along the feeding direction and conveyed to the die assembly 301 for forming and demolding.

In the present embodiment, the template is guided out from the mold assembly 301 to the downstream structural unit by the fifth guiding assembly 304 for processing, the fifth guiding assembly 304 of the present embodiment includes a guiding roller five 3041 and a guiding support five 3042, and a space formed between the guiding roller five 3041 and the downstream first leveling mechanism 500 facilitates the extension of the template. The five guide rollers 3041 of this embodiment may be one or more, the five guide rollers 3041 are supported by the five guide supports 3042, the five guide supports 3042 of this embodiment are connected to the mold supporting base 302, and the five guide supports 3042 may be set to be fixed structures relative to the mold supporting base 302, or may be set to be adjustable structures, for example, the length of the five guide rollers may be adjusted in time according to the type and size of the plate material, so as to adapt to the extension and transportation of the plate discharging plate. In this embodiment, two ends of the five guide rollers 3041 are connected to the five guide supports 3042 and can rotate relative to the five guide supports 3042, so that two ends of the five guide rollers 3041 of this embodiment are connected to the five guide supports 3042 through rotating shafts, and the five guide rollers rotate relative to each other under the driving of a power source, preferably, the rotating direction of the five guide rollers is the same as the feeding direction of the plate material, so as to drive the plate material to be fed along the feeding direction and conveyed to the die assembly 301 for forming and demolding.

According to the embodiment of the present invention, as shown in fig. 16-18, the mold assembly 301 includes at least a pair of molds, which are divided into an upper mold 3011 and a lower mold 3012, the upper mold 3011 and the lower mold 3012 are provided with a plurality of mold stripping patterns 3014, the mold stripping patterns 3014 are arranged along the circumferential direction of the upper mold 3011 and/or the lower mold 3012 for mold stripping forming of the sheet material, the mold stripping pattern 3014 of this example is configured as shown in the figure, a mold stripping channel 3013 is formed between the paired upper mold 3011 and lower mold 3012, when the sheet material passes through the mold stripping channel 3013, the paired upper mold 3011 and lower mold 3012 squeeze the end face of the sheet material, the mold stripping pattern 3014 is printed on the sheet material to complete the forming of the sheet material, the size of the path of the mold stripping channel 3013 can be adjusted, for example, by adjusting the upper mold 3011 and/or the lower mold 3012, the depth size of the mold stripping channel 3013 can be changed, in this embodiment, the upper mold 3011 and/or the lower mold 3012 can be adjusted in both horizontal and vertical directions, the vertical direction of the upper mold 3011 and/or the lower mold 3012 is adjusted as an example, and the upper mold 3011 and/or the lower mold 3012 is adjusted by the sixth adjusting device 305 to achieve position adjustment of the upper mold 3011 and/or the lower mold 3012 in the vertical direction, on one hand, the depth of the mold-out channel 3013 can be adjusted to achieve mold-out forming of sheets with different thicknesses, on the other hand, the upper mold 3011 and/or the lower mold 3012 can be adjusted to a proper height to adapt to normal feeding and conveying of other sheets, when the mold-out mechanism 300 of this embodiment is not required to be used, the production line of the present invention can also be applied to processing of other sheets such as honeycomb panels without starting two or more production lines, the problems of large occupied area and high cost are solved.

In this embodiment, the sixth adjusting device 305 can adjust the required position of the upper die 3011 and/or the lower die 3012 more precisely, so the upper die 3011 and/or the lower die 3012 of this embodiment can be adjusted to the required position by the operation adjustment of the four operating parts 3053 to adapt to the processing of the sheet materials with different thicknesses, and also can adjust the upper die 3011 to a larger position upward and/or adjust the lower die 3012 to a larger position downward under the driving of the power source, so that the mold discharging passage 3013 is in a sufficiently deep position, that is, the space formed by the upper die 3011 and the lower die 3012 is larger, and can be suitable for the processing of other sheet materials such as a honeycomb panel.

According to the utility model discloses an embodiment, mould drive arrangement 306 includes driving body 3061, mould axis of rotation 3062 and gear assembly, goes up mould 3011 and lower mould 3012 and connects through the gear assembly, realizes that mould subassembly 301 is when going on the matrix shaping to panel, goes up mould 3011 and lower mould 3012 pivoted synchronism, so through same driving body 3061 drive the rotation of going up mould 3011 and lower mould 3012. The gear assembly of this embodiment includes a first gear 3063 and a second gear 3064, the first gear 3063 is connected to one end of the upper die 3011, and the lower die 3012 corresponding to the end is connected to the second gear 3064, when the die assembly 301 performs the demolding molding of the plate, the first gear 3063 is engaged with the second gear 3064, and the upper die 3011 and the lower die 3012 rotate synchronously under the driving of the driving body 3061, so as to implement the molding of the plate.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims

1. A laminating mechanism for sheet material, comprising:

2. The laminating mechanism of claim 1, wherein the first film device comprises:

the first film placing roller is used for placing film materials;

3. The film covering mechanism according to claim 2, wherein the first adjusting device comprises a first adjusting support frame, a first guide member and a first guide channel, the first adjusting support frame is connected with the first film support frame and is used for supporting the first film support frame, the first guide member is connected with the first adjusting support frame, the first guide channel is arranged along the length direction of the rack, and the first adjusting support frame adjusts the position of the first adjusting support frame through sliding of the first guide member relative to the first guide channel.

4. The laminating mechanism according to claim 3, wherein the first guide member comprises a first connecting portion, a second connecting portion and a first guide abutting portion, the end face of the first connecting portion is arranged in a radial descending manner in the direction close to the second connecting portion, the end face of the second connecting portion is arranged in a radial descending manner in the direction close to the first connecting portion, and a first guide abutting portion for connecting with the first guide channel is formed by the end faces of the first connecting portion and the second connecting portion;

5. The film covering mechanism as claimed in claim 4, wherein the first film supporting frame is adjustable relative to the first adjusting device, and is adjusted by the second adjusting device to move in the horizontal direction, the second adjusting device comprises a second guiding member and a second guiding channel, the second guiding member is connected with the first film supporting frame, and the second guiding channel is arranged on the first adjusting supporting frame and is arranged along the length direction of the first adjusting supporting frame.

6. The film covering mechanism of any one of claims 1-5, wherein the second film device comprises:

a second film placing roller for placing the film material;

7. The laminating mechanism of claim 6, wherein the third adjusting device comprises a third adjusting support frame, a third guide member and a third guide channel, the third adjusting support frame is connected with the second film support frame and is used for supporting the second film support frame, the third guide member is connected with the third adjusting support frame, the third guide channel is arranged on the laminating support seat and is arranged along the length direction of the first laminating support seat, and the third adjusting support frame adjusts the position of the second film support frame by sliding the three guide members relative to the third guide channel.

8. The film covering mechanism as claimed in claim 7, wherein the second film supporting frame is adjustable relative to the third adjusting device, and is adjusted by the fourth adjusting device to move in the horizontal direction, the fourth adjusting device includes a fourth guiding member and a fourth guiding channel, the fourth guiding member is connected with the second film supporting frame, and the fourth guiding channel is arranged on the third adjusting supporting frame and is arranged along the length direction of the third adjusting supporting frame.

9. The film covering mechanism of any one of claims 1-5, wherein the first compounding device comprises:

10. The laminating mechanism of claim 6, wherein the first compounding device comprises:

11. The film covering mechanism of claim 9, wherein the first storage device comprises a storage rack and a support rack connected to the storage rack, the storage rack having a first storage chamber formed therein for storing the film material, the support rack being adjustable relative to the storage rack.

12. The film covering mechanism according to claim 8, wherein the first storage device comprises a storage rack and a support frame connected with the storage rack, the storage rack is provided with a first storage cavity for storing the film material, and the support frame is adjustable relative to the storage rack.