CN111376567B - Demolding mechanism and production line provided with demolding mechanism - Google Patents

Abstract

The invention discloses a mold stripping mechanism, which comprises a mold assembly and a mold supporting seat, wherein the mold assembly is provided with at least one pair of molds, and a plurality of mold stripping models are arranged along the circumferential direction of the molds; the die supporting seat is connected with the frame and used for supporting the die assembly; the mold assembly is configured to be a liftable structure. The invention provides a demolding mechanism and a multidimensional plate production line provided with the demolding mechanism, which have good plate molding effect, can be suitable for production of multidimensional plates of different types or other composite plates, and have wide application range.

Description

Demolding mechanism and production line provided with demolding mechanism

Technical Field

The invention relates to mechanical production equipment, in particular to a demolding mechanism and a multidimensional plate production line provided with the demolding mechanism.

Background

The composite board (or plate) is used as a building material, especially a composite board made of metal, and has the advantages of better effect 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 generally adopted for production, a composite board such as a multi-dimensional board is obtained from rolled raw materials such as aluminum plates after production, the structure stability of the composite board obtained after processing is poor through the existing production equipment by the procedures of raw material flattening, forming, cutting, finished product conveying and the like, and the multi-dimensional board or honeycomb board is processed and produced by the processing and production, and the like, and the defects of large occupied area, low efficiency, high cost and the like exist.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the demolding mechanism and the multidimensional plate production line provided with the demolding mechanism, which have good plate forming effect, can be suitable for production of multidimensional plates of different types or other composite plates, and have wide application range.

In order to solve the technical problems, the invention is solved by the following technical scheme:

a stripping mechanism for a multi-dimensional plate, comprising:

the mold assembly is configured with a pair of molds, and a plurality of demolding models are arranged along the circumferential direction of the molds;

the mould supporting seat is connected with the frame and used for supporting the mould component;

the mold assembly is configured to be a liftable structure.

Preferably, the die assembly comprises an upper die and a lower die, and a die-stripping channel is formed between the upper die and the lower die in pairs for conveying and forming the plate.

Preferably, the rows of the ejector patterns are arranged along the circumferential direction of the upper die and/or the lower die, the ejector patterns are arranged in a square structure, and the upper surfaces of the ejector patterns are provided with arc-shaped chamfers.

Preferably, the upper die and/or the lower die are/is arranged to be in an adjustable structure along the vertical and/or horizontal direction, the die is adjusted by a fourth adjusting device to move along the vertical direction, the fourth adjusting device comprises a guide piece IV and a guide channel IV, the guide piece IV is connected with the upper die and/or the lower die, and the guide channel IV is arranged on the die supporting seat and is arranged along the length direction of the die supporting seat.

Preferably, the guide unit provided on the mold support base includes:

the fourth guide assembly is arranged at the upstream of the die assembly and is used for guiding the plate to be fed from the first film covering mechanism to the die assembly for forming and/or;

and the fifth guide assembly is arranged at the downstream of the die assembly and used for guiding the delivery template to be fed from the die assembly to the first leveling mechanism for leveling.

Preferably, the fourth guiding component comprises a fourth guiding rod and a fourth guiding supporting piece used for supporting the fourth guiding rod, the fourth guiding supporting piece is connected with the mold supporting seat, and two ends of the fourth guiding rod are connected with the fourth guiding supporting piece through a rotating shaft and can rotate relative to the fourth guiding supporting piece.

Preferably, the fifth guiding component comprises a guiding roller five and a guiding supporting piece five for supporting the guiding roller five, the guiding supporting piece five is connected with the die supporting seat, and two ends of the guiding roller five are connected with the guiding supporting piece five through a rotating shaft and can rotate relative to the guiding supporting piece five.

Preferably, the fourth adjusting device comprises a guide piece IV and a guide channel IV, the guide piece IV is connected with the upper die and/or the lower die, the guide channel IV is arranged on the die supporting seat and along the length direction of the die supporting seat, and the upper die and/or the lower die can be vertically adjusted relative to the die supporting seat through the guide piece IV under the driving of the driving force.

Preferably, the die driving device comprises a driving body, a die rotating shaft and a gear assembly, wherein the upper die and the lower die are connected with the driving body through the die rotating shaft and are synchronously connected through the gear assembly, and the upper die and the lower die synchronously rotate under the driving of the driving body so as to realize the forming of the plate.

A multi-dimensional board production line comprising:

the raw material feeding mechanism comprises a raw material placing assembly and a raw material guiding device, wherein the raw material guiding device is used for guiding raw materials to be leveled or unfolded along the length direction and comprises a first guiding assembly and a second guiding assembly, and the first guiding assembly and the second guiding assembly are arranged to be of unequal-height structures;

the first film coating mechanism is used for coating the surface of the plate;

the above-mentioned demolding mechanism, the demolding mechanism sets up in the low reaches of raw materials feed mechanism.

Preferably, the first guiding component comprises a guiding rod I and a guiding support member I for supporting the guiding rod I, and the guiding support member I is connected with the frame and/or;

the second guide assembly comprises a second guide roller and a second guide supporting piece for supporting the second guide roller, the second guide roller and the first guide roller are arranged at different heights, and a space for stretching the plate is formed between the second guide roller and the first guide roller.

Preferably, the first film covering mechanism includes:

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

and/or a second membrane device, which is used for placing membrane materials, and the membrane materials are conveyed to the first composite device to be coated by power driving;

the first composite device is provided with a first composite channel, and when the plate and the film material are synchronously conveyed into the first composite channel, the first composite device performs extrusion film coating on the plate and the film material.

The invention has the following beneficial effects:

(1) The demolding mechanism is used for demolding and forming boards, the boards can be molded at one time through the demolding mechanism to obtain a demolding board, namely a supporting splint of a composite board, the upper mold and/or the lower mold can be adjusted in the horizontal direction and the vertical direction, the position of the upper mold and/or the lower mold can be adjusted in the vertical direction, on one hand, the depth dimension of a demolding channel can be adjusted to realize demolding and forming of boards with different thicknesses, on the other hand, the upper mold and/or the lower mold can be adjusted to be at a proper height so as to adapt to normal feeding and conveying of other boards, and when the demolding mechanism does not need to be adopted, the production line can also be suitable for processing other boards such as honeycomb boards, two or more production lines do not need to be started, and the problems of large occupied area and high cost are solved.

(2) The demolding model is of a square structure, and the formed demolding board is formed by the demolding mechanism, so that the contact area between the formed supporting structure and the panel is large, and the strength of the obtained multi-dimensional board structure is better.

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 embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

FIG. 1 is a schematic diagram of a mold stripping mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a mold stripping mechanism according to an embodiment of the present invention;

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

FIG. 4 is a rear view of an embodiment of the ejector mechanism of the present invention;

FIG. 5 is a schematic view of an embodiment of a stripping assembly according to the present invention;

FIG. 6 is a schematic view of a mold embodiment of the present invention;

FIG. 7 is an enlarged view of a portion of an ejector pattern according to the present invention;

FIG. 8 is a schematic diagram of a multi-dimensional board production line with a stripping mechanism according to the present invention;

FIG. 9 is a schematic diagram of a multi-dimensional board production line with a stripping mechanism according to the present invention;

FIG. 10 is a schematic view of an embodiment of a material loading mechanism according to the present invention;

FIG. 11 is a front view of a first embodiment of the present invention;

FIG. 12 is a schematic view of an embodiment of a feedstock placement assembly according to the present invention;

FIG. 13 is a schematic view showing the structure of an embodiment of the stock guide of the present invention;

FIG. 14 is a schematic view of a first embodiment of a film laminating mechanism according to the present invention;

FIG. 15 is a schematic view of a first embodiment of a composite device according to the present invention;

FIG. 16 is a front view of a first composite device embodiment of the present invention;

FIG. 17 is a schematic view of a first membrane device embodiment of the invention;

FIG. 18 is a schematic view of an embodiment of a guide channel according to the present invention;

FIG. 19 is a second schematic structural view of the first membrane device embodiment of the present invention;

fig. 20 is a schematic structural view of a second membrane device embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

In the description of the present invention, it should 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", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

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

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The terms "first," "second," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. Likewise, the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one.

According to the embodiment of the invention, after the upper surface and the lower surface of the plate are coated by the first coating mechanism 200, the plate enters the mold stripping mechanism 300 for mold forming, and a mold stripping plate with a mold structure is obtained. In this embodiment, as shown in fig. 1-7, one or more mold stripping mechanisms 300 may be provided and disposed along the feeding direction of the multi-dimensional plate, where the mold stripping mechanism 300 includes a mold assembly 301, a mold support base 302, a fourth guide assembly 303, and a fifth guide assembly 304, the mold support base 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 base 302 is connected to the frame 1000, and two ends of the mold assembly 301 are respectively connected to the mold support base 302 and can perform adjustment in the vertical direction and the horizontal direction with respect to the mold support base 302. In this embodiment, the sheet is guided or pulled to the mold assembly 301 from the first laminating mechanism 200 by the fourth guiding assembly 303 for forming, and the fourth guiding assembly 303 of this embodiment includes a fourth guiding rod 3031 and a fourth guiding support 3032, so that the space formed between the fourth guiding rod 3031 and the first composite assembly facilitates the stretching of the sheet. The four guide rollers 3031 of the present embodiment may be one or more, the four guide rollers 3031 are supported by the four guide support members 3032, the four guide support members 3032 of the present embodiment are connected to the mold support base 302, the four guide support members 3032 may be fixed with respect to the mold support base 302, or may be adjustable, for example, according to the size of the plate, the length of the four guide rollers may be adjusted in time to adapt to the stretching and conveying of the plate. In this embodiment, the two ends of the fourth guide roller 3031 are connected to the fourth guide support member 3032 and can rotate relative to the fourth guide support member 3032, so that the two ends of the fourth guide roller 3031 in this embodiment are connected to the fourth guide support member 3032 through a rotation shaft, and the fourth guide roller relatively rotates under the driving of a power source, and the rotation direction of the fourth guide roller is preferably consistent with the feeding direction of the sheet material, so that the sheet material is driven to be fed along the feeding direction and conveyed to the mold assembly 301 for molding and demolding.

In this embodiment, the mold plate is guided out from the mold assembly 301 and processed by the fifth guiding assembly 304 to the downstream structural unit, and the fifth guiding assembly 304 of this embodiment includes the guide roller five 3041 and the guide support member five 3042, and the space formed between the guide roller five 3041 and the downstream first flattening mechanism 500 facilitates the stretching of the mold plate. The guide roller five 3041 of this embodiment may be one or more, the guide roller five 3041 is supported by the guide support member five 3042, the guide support member five 3042 of this embodiment is connected to the mold support base 302, the guide support member five 3042 may be fixed with respect to the mold support base 302, or may be an adjustable structure, for example, according to the size of the plate, the length of the guide roller five may be adjusted in time to adapt to the stretch conveying of the template. In this embodiment, the two ends of the guide roller five 3041 are connected to the guide support member five 3042 and can rotate relative to the guide support member five 3042, so that the two ends of the guide roller five 3041 are connected to the guide support member five 3042 through a rotation shaft, and the guide roller five rotates relatively under the driving of a power source, and in this embodiment, the rotation direction of the guide roller five is preferably consistent with the feeding direction of the sheet material, so that the sheet material is driven to be fed along the feeding direction and conveyed to the mold assembly 301 for molding and demolding.

According to an embodiment of the present invention, as shown in fig. 11-7, the mold assembly 301 includes at least one pair of molds, which is divided into an upper mold 3011 and a lower mold 3012, a plurality of mold-out molds 3014 are provided on the upper mold 3011 and the lower mold 3012, the mold-out molds 3014 are provided along the circumferential direction of the upper mold 3011 and/or the lower mold 3012 for mold-out molding of the plate, the mold-out molds 3014 of this example are configured as shown in fig. 13 and 7, the mold-out molds of a row are provided along the circumferential direction of the upper mold and/or the lower mold, and the mold-out molds are provided in a square structure, so that the mold grooves of the obtained mold-out plates are of a square-like structure, and the contact area of the mold-out plates is large, so that the stability of the multi-dimensional plate structure obtained when the mold-out plates and the panel are molded is good; the upper surface of the demolding model is provided with an arc chamfer, so that the molding and demolding of the demolding model are facilitated. In this embodiment, a demolding channel 3013 is formed between the paired upper mold 3011 and lower mold 3012, when the sheet passes through the demolding channel 3013, the paired upper mold 3011 and lower mold 3012 extrude the end surface of the sheet, the demolding model 3014 is printed on the sheet to complete the molding of the sheet, the path size of the demolding channel 3013 can be adjusted, for example, by adjusting the upper mold 3011 and/or the lower mold 3012, the depth size of the demolding channel 3013 can be changed, in this embodiment, the upper mold 3011 and/or the lower mold 3012 can be adjusted in both the horizontal direction and the vertical direction, in this embodiment, the upper mold 3011 and/or the lower mold 3012 can be adjusted in the vertical direction, for example, and the upper mold 3011 and/or the lower mold 3012 can be adjusted in the vertical direction, on the one hand, so as to realize the demolding of different thicknesses, on the other hand, and on the other hand, the upper mold 3011 and/or the lower mold 3012 can be adjusted in the vertical direction, and the other embodiment can be adapted to a plurality of production lines of sheet production lines, for example, and other production line can be used for producing the sheet, and the sheet can be adapted to other production line or the sheet can be manufactured without requiring a large-size and other production line.

In this embodiment, the fourth adjusting device 305 includes a fourth guide member 3051 (which may be configured as a slider) and a fourth guide channel 3052 (which may be configured as a guide rail) and a fourth operating member 3053, where the upper mold 3011 and/or the lower mold 3012 of this embodiment are connected to the fourth guide member 3051, and the fourth guide channel 3052 is disposed on the mold support base 302 and along the length direction of the mold support base 302, and the fourth guide channel 3052 may be a structure in which the mold support base 302 is integrally disposed, or may be a structure separate from the mold support base 302, i.e., the fourth guide channel 3052 is a guide rail structure detachably disposed on the mold support base 302. The upper and/or lower mold 3011, 3012 and the guide member four 3051 as a whole can slide along the guide channel four 3052 to a desired position under the drive of the driving force to achieve adjustment of the position of the upper and/or lower mold 3011, 3012. The fourth operating element 3053 of the present embodiment may be configured as a manual or automatic operating structure, so that the position of the upper mold 3011 and/or the lower mold 3012 may be adjusted, or a combination of the manual and automatic operating structures may be used, and on the premise of automatically adjusting the positions of the upper mold 3011 and/or the lower mold 3012, the fourth operating element 3053 is configured with a manual operating structure, so that the required positions of the upper mold 3011 and/or the lower mold 3012 may be adjusted more accurately, and the upper mold 3011 and/or the lower mold 3012 may be adjusted to the required positions by operating the fourth operating element 3053, so as to accommodate the processing of boards with different thicknesses, or the upper mold 3011 may be adjusted upward to a relatively large position and/or the lower mold 3012 may be adjusted downward to a relatively large position under the driving of a power source, so that the mold outlet channel 3013 may be located in a sufficiently deep position, i.e., the space formed by the upper mold 3011 and the lower mold 3012 may be relatively large, and may be suitable for the processing of other boards, such as honeycomb boards. In this embodiment, when the fourth adjusting device 305 is connected to the upper mold 3011, it is preferable that both ends of the upper mold 3011 are connected to the fourth guide 3051, and the fourth guide channels 3052 are respectively disposed on both sides of the mold supporting base 302 correspondingly and are used for matching with the fourth guide 3051. In order to ensure the synchronicity of the adjustment of the upper mold 3011 along the vertical direction, the four guide members 3051 arranged at the two ends of the upper mold 3011 are connected through the first linkage assembly 3054 so as to realize the synchronic sliding of the four guide members 3051 arranged at the two ends of the upper mold 3011, thereby stably and accurately adjusting the position of the upper mold 3011; the above technical solution is equally applicable to the adjustment of the lower mould 3012.

According to an embodiment of the present invention, the mold driving device 306 includes a driving body 3061, a mold rotation shaft 3062, and a gear assembly, and the upper mold 3011 and the lower mold 3012 are connected by the gear assembly, so that the mold assembly 301 performs the mold stripping molding of the plate material, and the upper mold 3011 and the lower mold 3012 are driven to rotate by the same driving body 3061. 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 mold 3011, the lower mold 3012 corresponding to the end is connected to the second gear 3064, when the mold assembly 301 performs demolding molding on a plate, the first gear 3063 is meshed with the second gear 3064, and the upper mold 3011 and the lower mold 3012 are synchronously rotated under the driving of the driving body 3061, so as to mold the plate.

According to the embodiment of the present invention, the first leveling mechanism 500 is preferably disposed downstream of the ejector mechanism 300, since the ejector plate is obtained after the ejector molding by the ejector mechanism 300, the mold of the ejector plate surface is basically molded, and the ejector plate surface is leveled by the first leveling mechanism 500.

As shown in fig. 15 to 20, as an embodiment of the present invention, a production line mainly used for producing a multi-dimensional plate or other composite plate, or for processing other composite plates having a multi-layer structure, is within the scope of the present embodiment. In this embodiment, as shown in fig. 15 and 9, the production line includes a raw material feeding mechanism 100, a first film coating mechanism 200, a die stripping mechanism 300 of this embodiment, a first leveling mechanism 500, a shaping mechanism 400, an auxiliary driving mechanism 900, a cooling mechanism 600, a third film coating mechanism 700 and a shearing mechanism 800, and through the production line, full-chain production from feeding to finished products of the multi-dimensional board is completed, and automatic production line production is performed, so that production efficiency and quality of the products are greatly improved. The raw material feeding mechanism 100 of the present embodiment is used for feeding a plate, that is, a rolled plate raw material is unfolded to an adaptive flat structure by the raw material feeding mechanism 100, and then enters the first film coating mechanism 200 of the next step to perform film coating first, and then is processed and molded on the mold stripping mechanism 300. As shown in fig. 10, the raw material feeding mechanism 100 includes a raw material placement component 101 and a raw material guiding device 102, the raw material placement component 101 may be provided in a plurality, and may be set according to processing requirements, and is mainly used for placing raw materials of the plate material according to the present invention, the raw material placement component 101 may be adjusted with respect to a frame, for example, an adjusting structure is provided at the bottom of the raw material placement component 101, and the required position is adjusted according to the requirements of raw material placement, as shown in fig. 12, where the raw material placement component 101 includes a raw material placement roller 103 and a raw material placement frame 104, the raw material is sleeved on the raw material placement roller 103, the raw material placement roller 103 is supported by the raw material placement frame 104, the raw material placement frame 104 is connected with the frame 1000, the raw material placement frame 104 may be adjusted with respect to the frame, on one hand, and on the other hand, the raw material placement component 101 may be adjusted to a storage position according to the requirements of the raw material placement component 101, and the placement position of the raw material placement component 101 itself may be used for processing placement of other plate materials, and the raw material placement roller 103 of the present embodiment may rotate around the raw material placement frame 104 under the driving of the power unit, and auxiliary raw material is conveyed along the feeding direction; the raw materials are configured into a plurality of guide units, are arranged along the feeding direction of the plate (multidimensional plate), are used for spreading the raw materials on the raw material placing assembly 101, and are conveyed to the first film coating mechanism 200 for film coating under the driving of a power source.

According to an embodiment of the present invention, as shown in fig. 11, the raw material guide 102 includes a first guide assembly 1 and a second guide assembly 2 and a third guide assembly 3 for flattening or spreading the raw material in the length direction. The first guide assemblies 1 and the second guide assemblies 2 of this embodiment are set to different heights, the first guide assemblies 1 or the second guide assemblies 2 may be set to multiple groups, that is, as multiple embodiments, the first guide assemblies 1 and the second guide assemblies 2 are set to one group, or the first guide assemblies 1 are set to one group, the second guide assemblies 2 are set to two groups or the first guide assemblies 1 are set to two groups or the like, the second guide assemblies 2 are set to one group, the combination of the first guide assemblies 1 and the second guide assemblies 2 is used for expanding raw materials along the length direction, and the raw materials are expanded through the first guide assemblies 1 and the second guide assemblies 2 with different heights, so that the area of the raw materials is increased, and the raw materials are expanded. In order to further extend the raw material to the flatness required by the demolding mechanism 300, and then flattening the raw material by the third guiding assembly 3, the third guiding assembly 3 of this embodiment may be set to one or more groups, one or more groups may be set after the second guiding assembly 2, or one or more groups may be set between the second guiding assembly 2 and the next first guiding assembly 1, and the third guiding assembly 3 of this embodiment is preferably set downstream of the second guiding assembly 2, and after flattening the raw material by the first guiding assembly 1 and the second guiding assembly 2, the raw material is conveyed and pulled onto the first film covering mechanism 200 by the third guiding assembly 3. The raw material of this embodiment is flattened through the first guide component 1, the second guide component 2 and the third guide component 3, so that the spreading travel of the raw material is long, the spreading flatness of the raw material can be further improved, the raw material of this embodiment is flattened through the first guide component 1 or the third guide component 3 through which the raw material spread by the second guide component 2 passes, the feeding of the raw material is completed, and the raw material is spread and conveyed to the first film coating mechanism 200 to coat the upper surface and/or the lower surface of the raw material.

According to the embodiment of the present invention, as shown in fig. 13, the first guiding component 1 includes a guiding rod 11 and a guiding support member 12, where the guiding rod 11 of the present embodiment may be configured to one or more guiding rods 11 and the guiding support member 12 supports the guiding rod 11, and the guiding support member 12 of the present embodiment is connected to the frame 1000, and the guiding support member 12 may be configured to be fixed with respect to the frame 1000, or may be configured to be adjustable, for example, according to the model size of the board, the length size of the guiding roller may be adjusted in time to adapt to the stretching and conveying of the board. The two ends of the first guide roller 11 are connected with the first guide support member 12 and can rotate relative to the first guide support member 12, so that the two ends of the first guide roller 11 of the embodiment are connected with the first guide support member 12 through a rotating shaft, the first guide roller can rotate relatively under the driving of a power source, and the rotating direction of the first guide roller is preferably consistent with the feeding direction of the plate, so that the plate is driven to be fed and conveyed along the feeding direction.

According to the embodiment of the invention, as shown in fig. 13, 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 arranged at different heights, and a space formed between the second guiding roller 21 and the first guiding roller 11 is convenient for stretching raw materials. The second guide roller 21 of the present embodiment may be one or more, the second guide roller 21 is supported by the second guide support 22, the second guide support 22 of the present embodiment is connected to the frame 1000, the second guide support 22 may be fixed to the frame 1000, or may be an adjustable structure, for example, according to the size of the board, the length of the second guide roller 21 may be adjusted in time to adapt to the stretching and conveying of the board. In this embodiment, the two 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 that the two ends of the second guide roller 21 in this embodiment are connected to the second guide support 22 through a rotation shaft, and the second guide roller 21 rotates relatively under the drive of the power source, and in this embodiment, the rotation direction of the second guide roller 21 is preferably consistent with the feeding direction of the sheet material, so that the sheet material is driven to be fed and conveyed along the feeding direction.

According to the embodiment of the present invention, as shown in fig. 14, the third guiding assembly 3 includes a third guiding rod 31 and a third guiding support member 32, where the third guiding rod 31 of the present embodiment may be configured as one or more guiding rods 31 and the third guiding support member 32 supports the third guiding rod 31, and the third guiding support member 32 of the present embodiment is connected to the frame 1000, and the third guiding support member 32 may be configured as a fixed structure relative to the frame 1000, or may be configured as an adjustable structure, for example, the length dimension of the third guiding roller 31 may be adjusted in time according to the model dimension of the board, so as to adapt to the stretching and conveying of the board. The two ends of the third guide roller 31 of the present embodiment are connected to the third guide support 32 and can rotate relative to the third guide support 32, so that the two ends of the third guide roller 31 of the present embodiment are connected to the third guide support 32 through a rotation shaft, and the third guide roller can rotate relatively under the driving of the power source, and the rotation direction of the third guide roller is preferably consistent with the feeding direction of the sheet material, so that the sheet material is driven to be fed onto the first film covering mechanism 200 along the feeding direction.

According to the embodiment of the present invention, as shown in fig. 11, the first film coating mechanism 200 includes a first film coating device 201, a second film coating device 202, a first composite device 203, and a first film coating support base 204, where the first film coating support base 204 is disposed on the frame 1000 and is used to support the first film coating device 201, the second film coating device 202, and the first composite device 203, where the first film coating device 201 conveys the film coating to the first composite device 203, the second film coating device 202 conveys the film coating to the first composite device 203, and the third guiding component 3 conveys and guides the plate material to the first composite device 203, so that the upper surface and the lower surface of the plate material are respectively attached with the film coating by the first composite device 203, and after the upper surface and the lower surface of the plate material are coated with the film coating by the first film coating mechanism 200, on one hand, the film coating is performed on the surface of the plate material, and on the other hand, the plate material can buffer damage to the plate material during the forming by lamination on the film coating mechanism 300, and on the other hand, the plate material can be further firmly connected to the plate material by a more firm die plate forming structure.

According to an embodiment of the present invention, as shown in fig. 17 and 18, the first film device 201 includes a film placement roller 2011, a film support frame 2012, a film guide roller 2013, and a first adjusting device 2014, where a rolled film material is placed on the film placement roller 2011, the film support frame 2012 is preferably disposed below and connected to the frame 1000, the film placement roller 2011 of the present embodiment may be disposed as one or more, the film placement roller 2011 is supported by the film support frame 2012, the film support frame 2012 is connected to the first adjusting device 2014, and is connected to the frame 1000 by the first adjusting device 2014, the first adjusting device 2014 may be disposed in a fixed structure or an adjustable structure with respect to the frame 1000, and the first adjusting device 2014 is preferably disposed in an adjustable structure with respect to the frame 1000 for adjusting the position of the film placement roller 2011, such as a length or position of the film placement roller 2011 may be adjusted in time according to a size of a plate material. The first adjusting device 2014 includes an adjusting support frame 2015, a guide piece 2016 and a guide channel 2017, wherein the adjusting support frame 2015 is connected to the guide piece 2016, the guide channel 2017 is disposed on the frame 1000, the guide channel 2017 of the embodiment is configured like a guide rail structure, as shown in fig. 18, the guide channel 2017 includes a guide portion 20171 and a guide portion two 20172, the guide portion 20171 and the guide portion two 20172 are disposed in an inclined plane, and the guide piece 2016 of the embodiment is configured as a guide wheel structure, and the guide piece 2016 is configured as a groove matched with the guide channel one for clamping on the guide portion one 20171 and the guide portion two 20172 and can slide relative to the guide channel one 2017. The film placement roller 2011 and the film support frame 2012 of the embodiment are disposed above the adjusting support frame 2015, and the film support frame 2012 is connected with the adjusting support frame 2015, so that the film placement roller 2011 of the embodiment adjusts the position of the film placement roller 2011 along the X direction (width direction) and the Y direction (plate feeding direction) by adjusting the position of the adjusting support frame 2015 relative to the frame 1000, so as to adapt to the placement position required by the film material. Similarly, the first guide passage 2017 may be provided at the bottom of the first adjustment support frame 2015, and the first guide member 2016 may be connected to the frame 1000, so that the position adjustment of the first film placement roller 2011 in the X direction (width direction) and the Y direction (sheet feeding direction) can be achieved.

According to a further technical solution of the present invention, the first film support frame 2012 of the present embodiment may be configured as an adjustable structure with respect to the first adjusting device 2014, for adjusting the position of the first film placement roller 2011, for example, the length or position of the first film placement roller 2011 may be adjusted in time according to the size of the plate, so that the first film support frame 2012 of the present embodiment is provided with the first slider 2018 below the first film support frame 2012, and the first film support frame 2012 is connected to the first adjusting support frame 2015 through the first slider 2018, and the first adjusting support frame 2015 is provided with the first guide rail 2019, so that the first film placement roller 2011 of the present embodiment adjusts the position of the first film placement roller 2011 with respect to the first adjusting support frame 2015 through the first film support frame 2012 in the X direction (width direction) and the Y direction (plate feeding direction), so as to adapt to the required placement position of the film material. Similarly, the first guide 2019 may be disposed at the bottom of the first film supporting frame 2012, and the first slider 2018 may be disposed on the first adjusting supporting frame 2015, so as to adjust the position of the first film placing roller 2011 along the X direction (width direction) and the Y direction (feeding direction of the sheet material).

In this embodiment, two ends of the film placement roller 2011 are connected to the film support frame one 2012 and can rotate relative to the film support frame one 2012, so that two ends of the film placement roller 2011 of this embodiment are connected to the film support frame one 2012 through a rotation shaft, the film placement roller one 2011 can rotate relatively under the driving of a power source, and in this embodiment, the rotation direction of the film placement roller one 2011 is preferably consistent with the feeding direction of the film material, so that the film material is driven to be conveyed onto the first composite device 203 along the feeding direction to coat the surface of the plate. In this embodiment, two ends of the film guiding roller one 2013 are connected to the film covering support seat one 204 and can rotate relative to the film covering support seat one 204, so that two ends of the film guiding roller one 2013 in this embodiment are connected to the film covering support seat one 204 through a rotating shaft, the film guiding roller one 2013 can rotate relatively under the driving of a power source, and the rotating direction of the film guiding roller one 2013 is preferably consistent with the feeding direction of the film material, so that the film material is guided by the film placing roller one 2011 and the film guiding roller one 2013 conveniently, and the film material is conveyed onto the first composite device 203 along the feeding direction to cover the surface of the plate.

According to an embodiment of the present invention, as shown in fig. 14-16, the second film device 202 includes a film placement roller two 2021, a film support frame two 2022, a film guiding roller two 2023, and a second adjusting device 2024, wherein the film material rolled up is placed on the film placement roller two 2021, the film placement roller two 2021 is preferably disposed above the film support frame one 204, the film placement roller two 2021 of the present embodiment may be disposed in one or more, the film placement roller two 2021 is supported by the film support frame two 2022, the film support frame two 2022 is connected to the second adjusting device 2024, and is connected to the film support frame one 204 by the second adjusting device 2024, the second adjusting device 2024 may be disposed in a fixed structure relative to the film support frame one 204, and may also be disposed in an adjustable structure, in this embodiment, the second adjusting device 2024 is preferably disposed in an adjustable structure relative to the film support frame one 204, for adjusting the position of the film placement roller two 2021 in time according to the size of the sheet material, for example, the length of the film placement roller two 2021 or the position of the film may be adjusted to accommodate the placement and the material required to be placed. The second adjusting device 2024 includes an adjusting support frame two 2025, a guide piece two 2026 and a guide channel two 2027, wherein the adjusting support frame two 2025 is connected with the guide piece two 2026 (which can be set to be a sliding block type), the guide channel two 2027 (which can be set to be a guide type) is arranged on the first film-coating support seat 204, the film-placing roller two 2021 and the film-supporting frame two 2022 of the embodiment are arranged above the adjusting support frame two 2025, and the film-supporting frame two 2022 is connected with the adjusting support frame two 2025, so that the film-placing roller two 2021 of the embodiment adjusts the position of the film-placing roller two 2021 along the X direction (width direction) and the Y direction (feeding direction of the plate) by adjusting the position of the adjusting support frame two 2025 relative to the first film-coating support seat 204, so as to adapt to the required placing position of the film material. Similarly, the second guide path 2027 may be provided at the bottom of the second adjusting support frame 2025, and the second guide member 2026 may be connected to the first film support base 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) of the present embodiment can be achieved.

According to a further technical scheme of the embodiment of the invention, the film support frame two 2022 of the embodiment can be arranged to be of an adjustable structure relative to the second adjusting device 2024, and is used for adjusting the position of the film placing roller two 2021, for example, the length size or the position of the film placing roller two 2021 can be timely adjusted according to the model size of a plate, so that the slider two 2028 is arranged below the film support frame two 2022 of the embodiment, the film support frame two 2022 is connected with the adjusting support frame two 2025 through the slider two 2028, and the adjusting support frame two 2025 is provided with the guide rail two 2029, so that the film placing roller two 2021 of the embodiment can adjust the position of the film placing roller two 2021 relative to the adjusting support frame two 2025 through the film support frame two 2022, and the position of the film placing roller two 2021 along the X direction (width direction) and the Y direction (plate feeding direction) can be adjusted to adapt to the required placing position of the film material. Similarly, the second guide rail 2029 may be disposed at the bottom of the second film supporting frame 2022, and the second slider 2028 may be disposed on the first film supporting base 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) of the present embodiment can be achieved.

In this embodiment, two ends of the second film placement roller 2021 are connected to the second film support 2022 and can rotate relative to the second film support 2022, so two ends of the second film placement roller 2021 in this embodiment are connected to the second film support 2022 through a rotation shaft, the second film placement roller 2021 can rotate relatively under the driving of the power source, and in this embodiment, the rotation direction of the second film placement roller 2021 is preferably consistent with the feeding direction of the film material, so that the film material is driven to be conveyed onto the second composite device along the feeding direction to coat the surface of the board. In this embodiment, two ends of the film guiding roller two 2023 are connected to the film supporting seat one 204 and can rotate relative to the film supporting seat one 204, so that two ends of the film guiding roller two 2023 in this embodiment are connected to the film supporting seat one 204 through a rotating shaft, the film guiding roller two 2023 can rotate relatively under the driving of a power source, and in this embodiment, the rotating direction of the film guiding roller two 2023 is preferably consistent with the feeding direction of the film material, so that the film material is guided by the film placing roller two 2021 and the film guiding roller two 2023, and is convenient to guide the film material, and the film material is conveyed onto the first composite device 203 along the feeding direction to coat the surface of the plate.

According to the embodiment of the present invention, as shown in fig. 15, the first composite device 203 includes a first composite guide roller 2031, a second composite guide roller 2032 and a third adjusting device 2034, which are arranged in pairs, two ends of the first composite guide roller 2031 and the second composite guide roller 2032 of the embodiment are respectively connected with the first film coating support 204 through rotating shafts, the first composite guide roller 2031 and the second composite guide roller 2032 can relatively rotate under the driving of a power source, and in this embodiment, the rotation directions of the first composite guide roller 2031 and the second composite guide roller 2032 are preferably consistent with the feeding direction of the film material, that is, the traction directions generated by the first composite guide roller 2031 and the second composite guide roller 2032 under the synchronous rotation are consistent, so that the film material on the upper surface and the lower surface of the plate is compounded with the plate under the stress action of the first composite guide roller 2031 and the second composite guide roller 2032, the film material is attached to the surface of the plate, and the film coating is completed on the surface of the plate.

In this embodiment, a first composite channel 2033 for conveying the sheet is formed between the first composite guide roller 2031 and the second composite guide roller 2032, and the thickness of the first composite channel 2033 is equal to the thickness of the sheet and the film material after lamination, so as to better achieve the adhesion of the film material on the surface of the sheet, and when the sheet 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 squeeze the sheet and the film material, so as to achieve the film coating of the sheet. When the film material is conveyed to the inlet of the first 2033 composite channel through the first 201 and the second 202 film devices, and at the same time, the third guide assembly 3 conveys or pulls the film material to the inlet of the first 2033 composite channel, under normal conditions, the film material for coating the upper surface and/or the lower surface of the film material is conveyed to the inlet of the first 2033 composite channel synchronously with the film material, and then passes through the traction force and extrusion force generated by the first 2031 and the second 2032 composite guide rollers under the power source, the film material and the film material adhere after being subjected to extrusion force, and are continuously conveyed and fed along the feeding direction under the action of the traction force, thereby completing the coating of the whole film material.

According to the embodiment of the present invention, the first composite guide roller 2031 and/or the second composite guide roller 2032 may be further adjusted in height or in horizontal direction with respect to the first film-coating support base 204, the first composite guide roller 2031 and/or the second composite guide roller 2032 of the present embodiment may be adjusted by the third adjusting device 2034, and the adjustment of the first composite guide roller 2031 and/or the second composite guide roller 2032 of the present embodiment selects the adjustment of the position in vertical direction as an example, and the adjustment in vertical direction may adjust the height of the first composite guide roller 2031 and/or the second composite guide roller 2032 to adapt to the composition of the boards with various lengths, widths, thicknesses, etc., and may also adapt to the coating of boards with different thicknesses by adjusting the size of the first composite channel 2033 formed between the first composite guide roller 2031 and the second composite guide roller 2032. In this embodiment, the third adjusting device 2034 includes a guide member three 2035 (which may be configured as a slider) and a guide channel three 2036 (which may be configured as a guide rail) and an operating member three 2037, where the first composite guide roller 2031 and/or the second composite guide roller 2032 of this embodiment are connected to the guide member three 2035, and the guide channel three 2036 is disposed on the first film support base 204 and along the length direction of the first film support base 204, that is, a guide channel three 2036 having a length equivalent to that of the first composite guide roller 2031 and/or the second composite guide roller 2032 and the guide member three 2035 are disposed from top to bottom, and the first composite guide roller 2031 and/or the second composite guide roller 2032 can slide to a desired position along the guide channel three 2036 as a whole under the driving force, so as to implement the adjustment of the position of the first composite guide roller 2031 and/or the second composite guide roller 2032. The third operating member 2037 of the embodiment may be configured as a manual or automatic operating structure, so that the position of the first composite guide roller 2031 and/or the second composite guide roller 2032 may be adjusted, or may be a combination of manual and automatic operating structures, and the third operating member 2037 may be configured with a manual operating structure on the premise of automatically adjusting the position of the first composite guide roller 2031 and/or the second composite guide roller 2032, so that the position of the first composite guide roller 2031 and/or the second composite guide roller 2032 of the embodiment may be adjusted to a desired position by the operation adjustment of the third operating member 2032.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

In summary, the foregoing description is only of the preferred embodiments of the present invention, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the invention.

Claims (9)

1. A multidimensional plate production line with demolding mechanism, which is characterized by comprising:

a mold stripping mechanism comprising a mold assembly and a mold support base, the mold assembly being configured with at least one pair of molds, a row of mold stripping patterns being provided along a circumferential direction of the molds; the die supporting seat is connected with the frame and used for supporting the die assembly, and the die assembly is arranged into a lifting structure;

the raw material feeding mechanism comprises a raw material placing assembly and a raw material guiding device, wherein the raw material guiding device is used for guiding raw materials to be leveled or unfolded along the length direction and comprises a first guiding assembly, a second guiding assembly and a third guiding assembly, and the first guiding assembly and the second guiding assembly are arranged to be of unequal-height structures;

The first film coating mechanism is used for coating the surface of the plate; the device comprises a first film device, a second film device, a first compound device and a first film covering supporting seat, wherein the first film covering supporting seat is arranged on a frame and is used for supporting the first film device, the second film device and the first compound device, the first film device conveys a mucous membrane to the first compound device, the second film device conveys the mucous membrane to the first compound device, a third guide component conveys and guides a plate to the first compound device, the upper surface and the lower surface of the plate are respectively attached with the mucous membrane through the first compound device, and the plate is conveyed to a mold stripping mechanism for molding after being compounded through the first compound device;

the first film device comprises a film placing roller I, a film supporting frame I, a film guiding roller I and a first adjusting device, wherein rolled film materials are placed on the film placing roller I, the film placing roller I is arranged in a plurality, the film placing roller I is supported by the film supporting frame I, the film supporting frame I is connected with the first adjusting device and is connected with the rack through the first adjusting device, the first adjusting device is arranged into an adjustable structure relative to the rack, the first adjusting device comprises an adjusting supporting frame I, a guiding piece I and a guiding channel I, the adjusting supporting frame I is connected with the guiding piece I, the guiding channel I is arranged on the rack, the guiding channel I comprises a guiding part I and a guiding part II, the guiding part I and the guiding part II are arranged in an inclined plane and are combined to form a guiding channel I, the film placing roller I and the film supporting frame I are arranged above the adjusting supporting frame I, the film supporting frame I is connected with the adjusting supporting frame I, and the film placing roller I is adjusted in the width direction and the feeding direction of the film placing roller I by adjusting the position of the adjusting supporting frame I relative to the rack;

The film placing roller I is adjusted in position relative to the adjusting support frame I through the film support frame I to realize the adjustment of the position of the film placing roller I along the width direction and the feeding direction of the plate;

the film placing roller I is driven by a power source to rotate relatively, wherein the rotation direction of the film placing roller I is consistent with the feeding direction of the film material so as to drive the film material to be conveyed to a first composite device along the feeding direction to carry out film coating on the surface of the plate; the two ends of the first guide roller are connected with the first tectorial membrane supporting seat and can rotate relative to the first tectorial membrane supporting seat, and the film guide roller can rotate relatively under the drive of the power source;

the film placing roller II is supported by the film supporting frame II, the film supporting frame II is connected with the film covering supporting seat I through the second adjusting device, the second adjusting device can be arranged into an adjustable structure relative to the film covering supporting seat I, the second adjusting device comprises an adjusting supporting frame II, a guiding piece II and a guiding channel II, the adjusting supporting frame II is connected with the guiding piece II, the guiding channel II is arranged on the film covering supporting seat I, the film placing roller II and the film supporting frame II are arranged above the adjusting supporting frame II, the film supporting frame II is connected with the adjusting supporting frame II, and the film placing roller II is adjusted relative to the film covering supporting seat I through the adjusting supporting frame II to realize the position adjustment of the film placing roller II along the width direction and the feeding direction of the plate; the two ends of the film guide roller II are connected with the film covering support seat I and can rotate relative to the film covering support seat I, and the film guide roller II can rotate relatively under the drive of the power source;

The first composite device comprises a first composite guide roller, a second composite guide roller and a third regulating device which are arranged in pairs, wherein two ends of the first composite guide roller and the second composite guide roller are respectively connected with a first film coating supporting seat through rotating shafts, the first composite guide roller and the second composite guide roller can relatively rotate under the drive of a power source, and the rotating direction is consistent with the feeding direction of film materials; the composite guide roller I and the composite guide roller II are used for extruding the plate and the film material to realize the film coating of the plate when the plate and the film material are synchronously conveyed into the composite channel I;

the demolding mechanism is arranged at the downstream of the raw material feeding mechanism.

2. The multi-dimensional board production line provided with a mold stripping mechanism according to claim 1, wherein the mold assembly comprises an upper mold and a lower mold, and a mold stripping channel is formed between the upper mold and the lower mold in pairs for conveying and molding boards.

3. The multi-dimensional board production line provided with a mold stripping mechanism according to claim 2, wherein the rows of mold stripping models are arranged along the circumferential direction of the upper mold and/or the lower mold, and the upper surfaces of the mold stripping models are provided with arc-shaped chamfers.

4. A multi-dimensional board production line provided with a mold stripping mechanism according to claim 3, wherein the upper mold and/or the lower mold are/is arranged in an adjustable structure along the vertical and/or horizontal direction, the mold is adjusted by a fourth adjusting device to move along the vertical direction, the fourth adjusting device comprises a guide member IV and a guide channel IV, the guide member IV is connected with the upper mold and/or the lower mold, and the guide channel IV is arranged on the mold support seat and is arranged along the length direction of the mold support seat.

5. The multi-dimensional board production line provided with a mold stripping mechanism according to claim 4, further comprising a guide unit provided on the mold support base, comprising:

the fourth guide assembly is arranged at the upstream of the die assembly and is used for guiding the plate to be fed from the first film covering mechanism to the die assembly for forming and/or;

and the fifth guide assembly is arranged at the downstream of the die assembly and used for guiding the delivery template to be fed from the die assembly to the first leveling mechanism for leveling.

6. The multi-dimensional board production line with the demolding mechanism according to claim 5, wherein the fourth guiding assembly comprises a guiding rod IV and a guiding supporting piece IV for supporting the guiding rod IV, the guiding supporting piece IV is connected with the mold supporting seat, and two ends of the guiding rod IV are connected with the guiding supporting piece IV through a rotating shaft and can rotate relative to the guiding supporting piece IV.

7. The multi-dimensional board production line with the demolding mechanism according to claim 5, wherein the fifth guiding assembly comprises a guiding roller five and a guiding supporting piece five for supporting the guiding roller five, the guiding supporting piece five is connected with the mold supporting seat, and two ends of the guiding roller five are connected with the guiding supporting piece five through a rotating shaft and can rotate relative to the guiding supporting piece five.

8. The multi-dimensional board production line with the demolding mechanism according to claim 4, wherein the fourth adjusting device comprises a guide piece IV and a guide channel IV, the guide piece IV is connected with the upper mold and/or the lower mold, the guide channel IV is arranged on the mold supporting seat and along the length direction of the mold supporting seat, and the upper mold and/or the lower mold can be vertically adjusted relative to the mold supporting seat through the guide piece IV under the driving of the driving force.

9. The multi-dimensional board production line with the mold stripping mechanism according to claim 8, wherein the mold driving device comprises a driving body, a mold rotating shaft and a gear assembly, the upper mold and the lower mold are connected with the driving body through the mold rotating shaft and are synchronously connected through the gear assembly, and the upper mold and the lower mold synchronously rotate under the driving of the driving body so as to mold the board.