CN209774925U - Veneer production line - Google Patents

Abstract

The utility model relates to a veneer production line, which comprises a feeding device, a first dust removal device, a material moving device, a film sticking table, a hot pressing device and a post-processing device which are sequentially butted; the first dust removal device is used for removing dust on the surface of the substrate; the material moving device is used for conveying the dedusted substrate to the film pasting table; attaching adhesive film paper to the surface of the substrate on a film attaching table; the hot-pressing device is used for hot-pressing the adhesive film paper on the substrate to form a veneer; the post-processing equipment is used for trimming, cooling, dedusting and blanking the veneer. The veneer production line integrates the processes of substrate surface dust removal, substrate surface film pasting, hot pressing, veneer trimming, veneer cooling, veneer dust removal and veneer blanking, and is beneficial to reducing the occupied area and the manual participation of equipment, thereby being beneficial to reducing the production cost and improving the production efficiency of the veneer.

Description

Veneer production line

Technical Field

The utility model relates to a decorative board production technical field especially relates to a decorative board production line.

background

with the increasing living standard of people, the demand for the furniture modeling is more and more, and the veneer is in a quite important position in the modern indoor decoration.

The veneer is generally formed by using plywood and a core board as base plates, using impregnated modified urea-formaldehyde resin or melamine resin as surface layer adhesive film paper and performing hot pressing and curing, wherein the adhesive film paper on the surface plays a role in protection and decoration. In the traditional veneer production process, relevant processes such as substrate surface dust removal, substrate surface film pasting, hot pressing, veneer trimming, cooling and the like are completed separately through manpower or different machines, so that a large amount of manpower is needed to participate in production, the floor area of a production workshop is large, and the production cost is high.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a veneer production line aiming at the problems of the conventional technology.

A veneer production line comprises a substrate and adhesive film paper attached to the surface of the substrate; the veneer production line comprises a feeding device, a first dust removal device, a material moving device, a film sticking table, a hot pressing device and post-processing equipment which are sequentially connected in a butt joint mode; the feeding device is used for conveying the substrate into the first dust removal device; the first dust removal device is used for removing dust on the surface of the substrate; the material moving device is used for conveying the dedusted substrate to the film pasting table; attaching adhesive film paper to the surface of the substrate on the film attaching table; the hot-pressing device is used for hot-pressing the adhesive film paper on the substrate to form a veneer; the post-processing equipment is used for trimming, cooling, dedusting and blanking the veneer.

The veneer production line comprises a feeding device, a first dust removal device, a material moving device, a film sticking table, a hot pressing device and a post-processing device which are sequentially butted, so that the processes of removing dust on the surface of a substrate, sticking a film on the surface of the substrate, hot pressing, trimming the veneer, cooling the veneer, removing dust on the veneer and discharging the veneer are integrated, the occupied area and the manual participation of the device are favorably reduced, and the production cost is favorably reduced and the production efficiency of the veneer is favorably improved.

in one embodiment, the post-processing equipment comprises a transfer device, a trimming device, a cooling device, a second dust removal device and a blanking device which are sequentially arranged in a butt joint mode, and one end of the transfer device is in butt joint with the discharge end of the hot-pressing device.

In one embodiment, the cooling device comprises a rack, a first turnover mechanism, a second turnover mechanism and a conveying mechanism, wherein the first turnover mechanism, the second turnover mechanism and the conveying mechanism are arranged on the rack; the two ends of the rack are respectively butted with the trimming device and the second dust removal device, the first turnover mechanism and the second turnover mechanism are oppositely arranged, and the material conveying mechanism is positioned at one end, close to the second dust removal device, of the rack.

In one embodiment, the material conveying mechanism comprises a rotating rod movably arranged on the rack, a plurality of rotating wheels sleeved on the rotating rod, and a power mechanism for driving the rotating rod to rotate.

in one embodiment, the first turnover mechanism comprises a turnover frame and a driving mechanism for driving the turnover frame to make turnover motion.

In one embodiment, the roll-over stand comprises a rotating shaft movably arranged on the rack and a plurality of supporting rods with one ends fixedly connected with the rotating shaft, and the plurality of supporting rods are arranged at intervals.

In one embodiment, a driving roller and a driven roller, a conveying belt sleeved on the driving roller and the driven roller, and a motor connected with the driving roller are respectively arranged at two ends of the film sticking table.

In one embodiment, the feeding device comprises a bottom plate, a lifting mechanism arranged on the bottom plate, a material supporting plate arranged on the lifting mechanism, and a material pushing mechanism.

in one embodiment, the pushing mechanism comprises a cylinder with a piston rod, a push rod connected with the piston rod, and a pushing assembly connected with the push rod.

Drawings

FIG. 1 is a diagram illustrating a state where a film adhesive paper is attached to a substrate;

FIG. 2 is a schematic view of a veneer production line according to a preferred embodiment of the present invention;

FIG. 3 is a perspective view of a temporary storage device, a feeding device and a first dust removal device of the veneer production line of FIG. 2;

FIG. 4 is a right side view of the veneer production line of FIG. 3 with the temporary storage removed;

FIG. 5 is a perspective view of a film stage of the veneer production line of FIG. 2;

Fig. 6 is a perspective view of a cooling apparatus of the veneer production line of fig. 2.

The meaning of each number in the drawings is:

A veneer 200, a base plate 210, a bond paper 220,

The device comprises a feeding device 10, a bottom plate 11, a lifting mechanism 12, a material supporting plate 13, a first roller set 130, a material pushing mechanism 14, a guide rod 15, an air cylinder 16, a piston rod 160, a push rod 17, a pushing assembly 18, an adapter 180, a material pushing claw 181, a connecting block 182, a mounting plate 183 and a through hole 184;

a first dust removing device 20, a feed inlet 21;

A material moving device 30;

A film sticking table 40, a driving roller 41, a driven roller 42 and a conveying belt 43;

The hot-pressing device 50, the post-processing equipment 60, the second dust removal device 65, the blanking device 66, the transfer device 70 and the trimming device 80;

The device comprises a cooling device 90, a rack 91, a containing groove 910, a first turnover mechanism 92, a turnover frame 920, a driving mechanism 921, a rotating shaft 922, a supporting rod 923, a second turnover mechanism 93, a material conveying mechanism 94, a rotating rod 940, a rotating wheel 941 and a power mechanism 942;

Temporary storage device 19, placing table 190 and second roller set 191.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Referring to fig. 2 to 6, a veneer production line according to a preferred embodiment of the present invention is used for producing the veneer 200 shown in fig. 1. The veneer 200 includes a substrate 210 and a piece of adhesive film paper 220 attached on the surface of the substrate 210, in this embodiment, only one surface of the substrate 210 is pasted with the adhesive film paper 220, and the other surface is not pasted with the adhesive film paper 220; in other embodiments, the surface of the substrate 210 may be coated with the adhesive film 220. It should be noted that the veneer production line is particularly suitable for the field of fast installation and can produce the veneer 200 with the length of 3.0m-3.1m and also can produce the veneer with the length of 2.44 m.

referring to fig. 2, the veneer production line includes a feeding device 10, a first dust removing device 20, a material moving device 30, a film pasting table 40, a hot pressing device 50, and a post-processing device 60, which are connected in a butt joint manner in sequence. One end of the feeding device 10 is butted with the feeding end of the first dust removing device 20, and the feeding device 10 is used for conveying the substrate 210 into the first dust removing device 20; the first dust removing device 20 is used for removing dust on the surface of the substrate 210; the material moving device 30 is butted with the discharge end 22 of the first dust removal device 20, and the material moving device 30 is used for conveying the dedusted substrate 210 to the film sticking table 40; attaching the adhesive film paper 220 to the surface of the substrate 210 on the film attaching table 40, wherein the film attaching table 40 is in butt joint with the feeding end of the hot pressing device 50; the hot-pressing device 50 is used for hot-pressing the adhesive film paper 220 on the substrate 210 to form the veneer 200; one end of the post-processing device 60 is butted with the discharge end of the hot-pressing device 50, and the post-processing device 60 is used for trimming, cooling, dedusting and blanking the veneer 200.

Referring to fig. 3, the feeding device 10 includes a bottom plate 11, a lifting mechanism 12 installed on the bottom plate 11, a material supporting plate 13 installed on the lifting mechanism 12, and a material pushing mechanism 14; the lifting mechanism 12 is used for driving the material supporting plate 13 to perform lifting movement, the material supporting plate 13 is used for placing the laminated substrates 210, and the material pushing mechanism 14 is used for pushing the laminated substrates 210 placed on the material supporting plate 13 one by one from the feed port 21 of the first dust removal device 20 to the first dust removal device 20; it is understood that, when the loading device 10 conveys the substrate 210, the lifting mechanism 12 is lifted so that a substrate 210 at the uppermost end of the stacked substrates 210 corresponds to the feed port 21 of the first dust removing device 20, and the pushing mechanism 14 pushes a substrate 210 corresponding to the feed port 21 of the first dust removing device 20 into the first dust removing device 20.

In the present embodiment, the lifting mechanism 12 is a cylinder or a hydraulic cylinder; in some embodiments, the lifting mechanism 12 may also be a lead screw motor. In this embodiment, the material supporting plate 13 is provided with three first roller sets 130, the number of the first roller sets 130 is three, the three first roller sets 130 are arranged at intervals, and each first roller set 130 includes a plurality of movable rollers arranged in parallel; the stacked substrate 210 is placed on the first roller set 130, which is beneficial to reduce the contact area of the bottom of the stacked substrate 210, i.e. reduce the friction between the stacked substrate 210 and the material supporting plate 13, thereby facilitating the placement of the stacked substrate 210 on the material supporting plate 13.

referring to fig. 4, the pushing mechanism 14 includes a guiding rod 15, an air cylinder 16 having a piston rod 160, a pushing rod 17 connected to the piston rod 160, and a pushing assembly 18 connected to the pushing rod 17; the first dust removing device 20 of the guide rod 15 is connected, further, one end of the guide rod 15 is connected with the feeding end of the first dust removing device 20, and the guide rod 15 is used for guiding the pushing assembly 18; the cylinder 16 is installed on one end of the guide rod 15 connected with the first dust removing device 20, and the piston rod 160 and the push rod 17 are both arranged in parallel with the guide rod 15. The pushing assembly 18 comprises an adapter 180 connected with the push rod 17 and a pushing claw 181 installed on the adapter 180, the adapter 180 comprises a connecting block 182 and an installing plate 183 connected with the connecting block 182, a through hole 184 is formed in the connecting block 182, the guide rod 15 is movably sleeved with the through hole 184, namely, when the air cylinder 16 drives the adapter 180 to move through the piston rod 160 and the push rod 17, the adapter 180 makes linear reciprocating motion along the guide rod 15 through the through hole 184, so that the deviation caused by the movement of the adapter 180 can be prevented, and the pushing claw 181 can accurately push the substrate 210 into the first dust removal device 20. The pushing claw 181 is arranged in an L shape, and the pushing claw 181 is used for pushing the substrate 210, that is, when pushing, the pushing claw 181 corresponds to one end of the substrate 210 away from the first dust collector 20; in this embodiment, the number of the pushing claws 181 is two, and the two pushing claws 181 are arranged at an interval, so that the substrate 210 can be prevented from being inclined in the moving process.

The first dust removing device 20 is provided with a conveying mechanism, and the conveying mechanism in the first dust removing device 20 is used for conveying the substrate 210 from the first dust removing device 20 to the material transferring device 30.

Referring to fig. 5, a driving roller 41 and a driven roller 42, a conveyor belt 43 sleeved on the driving roller 41 and the driven roller 42, and a motor (not shown) connected to the driving roller 41 are respectively disposed at two ends of the film laminating table 40; when the substrate 210 is conveyed onto the conveyor belt 43, the adhesive film paper 220 is attached to the surface of the substrate 210, in this embodiment, the adhesive film paper 220 is attached to the surface of the substrate 210 manually; of course, in some embodiments, the adhesive paper 220 may be attached to the surface of the substrate 210 by using a film sticking device; after the adhesive film paper 220 is attached, the motor is started, the motor drives the conveyor belt 43 to move through the driving roller 41 and the driven roller 42, and the conveyor belt 43 conveys the substrate 210 attached with the adhesive film paper 220 to the hot-pressing device 50.

Note that, a conveying mechanism is also provided in the hot-pressing apparatus 50, and the conveying mechanism in the hot-pressing apparatus 50 is used for conveying the veneer 200 from the hot-pressing apparatus 50 to the post-processing device 60.

referring to fig. 2 again, the post-processing apparatus 60 includes a transferring device 70, a trimming device 80, a cooling device 90, a second dust removing device 65 and a blanking device 66, which are connected in a butt joint manner, in sequence, one end of the transferring device 70 is connected to a discharge end of the hot-pressing device 50, and it can be understood that after the veneer 200 is hot-pressed, a conveying mechanism in the hot-pressing device 50 conveys the veneer 200 from the discharge end of the hot-pressing device 50 to the transferring device 70, and the transferring device 70 is used for transferring the veneer 200 to the trimming device 80; the feeding end of the trimming device 80 is butted with one end of the transfer device 70 far away from the hot-pressing device 50, the trimming device 80 is used for trimming the edge material of the veneer 200, namely the trimming device 80 is used for trimming the part of the adhesive film paper 220 exceeding the edge of the substrate 210; one end of the cooling device 90 is butted with the discharge end of the trimming device 80, and the cooling device 90 is used for cooling the trimmed veneer 200 to quickly solidify the adhesive between the base plate 210 and the adhesive film paper 220. The feeding end of the second dust removing device 65 is butted with the other end of the cooling device 90, and the second dust removing device 65 is used for removing dust on the surface of the cooled veneer 200; one end of the blanking device 66 is butted with the discharge end of the second dust removing device 65, and the blanking device 66 is used for transferring the veneer 200 conveyed out of the second dust removing device 65 to a warehouse.

The trimming device 80 is also provided with a conveying mechanism, and the conveying mechanism of the trimming device 80 is used for conveying the veneer 200 to the cooling device 90; a conveying mechanism is also arranged in the second dust removing device 65, and the conveying mechanism of the second dust removing device 65 is used for conveying the veneer 200 to the blanking device 66.

Referring to fig. 6 again, specifically, the cooling device 90 includes a frame 91, and a first turnover mechanism 92, a second turnover mechanism 93 and a material conveying mechanism 94 mounted on the frame 91. Two ends of the frame 91 are respectively butted with the discharge end of the trimming device 80 and the feed end of the second dust removing device 65; the first turnover mechanism 92 and the second turnover mechanism 93 are oppositely arranged, the first turnover mechanism 92 is arranged close to the trimming device 80, the second turnover mechanism 93 is arranged close to the second dust removal device 65, and the material conveying mechanism 94 is positioned at one end of the rack 91 close to the second dust removal device 65; during operation, the conveying mechanism of the trimming device 80 conveys the veneer 200 to the first turnover mechanism 92, the first turnover mechanism 92 drives the veneer 200 to turn towards the second turnover mechanism 93, meanwhile, the second turnover mechanism 93 turns towards the first turnover mechanism 92, when the veneer 200 is placed on the second turnover mechanism 93, the first turnover mechanism 92 resets, namely the first turnover mechanism 92 turns away from the second turnover mechanism 93, and the second turnover mechanism 93 resets, namely the second turnover mechanism 93 drives the veneer 200 to turn away from the first turnover mechanism 92; when the veneer 200 contacts with the material conveying mechanism 94, the material conveying mechanism 94 conveys the veneer 200 to the second dust removal device 65, the first turnover mechanism 92 and the second turnover mechanism 93 turn over the veneer 200 and transfer the veneer 200, two surfaces of the veneer 200 can be fully contacted with air, heat on the veneer 200 is rapidly dissipated to the air, and the purpose of rapidly cooling the veneer 200 is achieved.

further, the rack 91 is provided with a plurality of accommodating grooves 910 arranged at intervals; the first turnover mechanism 92 includes a turnover frame 920 and a driving mechanism 921 for driving the turnover frame 920 to make a turnover movement. The roll-over stand 920 comprises a rotating shaft 922 movably arranged on the frame 91 and a plurality of supporting rods 923 with one ends fixedly connected with the rotating shaft 922; the rotating shaft 922 is arranged in the middle of the frame 91; the plurality of support rods 923 are arranged at intervals, so that the heat dissipation of the veneer 200 is accelerated; in this embodiment, the number of the supporting rods 923 is three, one end of the supporting rods 923 is sleeved with the rotating shaft 922, the supporting rods 923 correspond to the accommodating grooves 910 one to one, and when the supporting rods 923 receive materials or discharge materials, the supporting rods 923 are located in the accommodating grooves 910. In this embodiment, each of the support rods 923 is further provided with a roller 924, and the roller 924 is in contact with the surface of the veneer 200, so that more area of the surface of the veneer 200 is in contact with air, and heat dissipation of the veneer 200 is accelerated. One end of the driving mechanism 921 is connected with a support rod 923, and the driving mechanism 921 drives the rotating shaft 922 to rotate through the support rod 923, so as to drive other support rods 923 to rotate, thereby realizing the turnover of the veneer 200; in the present embodiment, the driving mechanism 921 is an air cylinder. The second turnover mechanism 93 has the same structure as the first turnover mechanism 92.

the material conveying mechanism 94 comprises a rotating rod 940 movably arranged on the frame 91, a plurality of rotating wheels 941 sleeved on the rotating rod 940, and a power mechanism 942 for driving the rotating rod 940 to rotate; in this embodiment, the number of runners 941 is four. The power mechanism 942 is installed on the frame 91, and the power mechanism 942 drives the rotating wheel 941 to rotate towards the second dust removing device 65 by driving the rotating rod 940, so that the rotating wheel 941 conveys the veneer 200 into the second dust removing device 65.

the veneer production line further includes a temporary storage device 19 at one side of the feeding device 10, the temporary storage device 19 being used for temporarily storing the laminated substrate 210, and the laminated substrate 210 on the temporary storage device 19 can be transferred to the feeding device 10 immediately after the substrate 210 on the feeding device 10 is transported. The temporary storage device 19 comprises a placing table 190 and a second roller set 191 arranged on the placing table 190, the laminated substrate 210 is placed on the second roller set 191, and therefore the contact area between the bottom of the laminated substrate 210 and the temporary storage device 19 is reduced, namely the friction force of the laminated substrate 210 is reduced, and the laminated substrate 210 is convenient to transfer; in this embodiment, the number of the second roller sets 191 is three, and three second roller sets 191 are arranged at intervals; the second roller set 191 includes a plurality of rollers arranged in parallel. When the substrate 210 on the temporary storage device 19 needs to be transferred onto the loading device 10, the lifting mechanism 12 drives the material supporting plate 13 to descend so that the upper end of the material supporting plate 13 is aligned with the upper end of the placing table 190, and then the substrate 210 on the placing table 190 is pushed onto the material supporting plate 13.

The veneer production process is based on the veneer production line; the production process of the veneer comprises the following steps:

Providing a substrate 210 and a piece of adhesive film paper 220;

Feeding: the loading device 10 conveys a substrate 210 into the first dust removing device 20;

dust removal: the first dust removing device 20 removes dust from the surface of the substrate 210;

Film pasting: the material moving device 30 conveys the dedusted substrate 210 to the film adhering table 40, and the adhesive film paper 220 is adhered to the surface of the substrate 210;

Hot pressing: conveying the substrate 210 adhered with the adhesive film paper 220 into a hot-pressing device 50, and carrying out hot-pressing treatment on the adhesive film paper 220 and the substrate 210 by the hot-pressing device 50 to obtain the veneer 200, wherein the hot-pressing temperature is 175-190 ℃, and the hot-pressing pressure is 10-14kg/cm²The hot pressing time is 38-42 s;

trimming; shearing the edge material of the veneer 200;

And (3) cooling: cooling the veneer 200;

dust removal: performing dust removal treatment on the surface of the veneer 200; and

And (6) blanking.

The utility model discloses a decorative board production line is including the loading attachment 10 that docks the setting in proper order, first dust collector 20, move material device 30, pad pasting platform 40, hot press unit 50 and aftertreatment equipment 60, the realization removes dust to base plate 210 surface, base plate 210 surface pad pasting, hot pressing, decorative board 200 deburring, decorative board 200 cooling, decorative board 200 removes dust and the integration of decorative board 200 unloading process goes on, be favorable to reducing the area and the artifical participation volume of equipment, thereby be favorable to reducing manufacturing cost and the production efficiency who improves the decorative board.

the technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. A veneer production line comprises a substrate and adhesive film paper attached to the surface of the substrate; the veneer production line is characterized by comprising a feeding device, a first dust removal device, a material moving device, a film sticking table, a hot pressing device and post-processing equipment which are sequentially connected in a butt joint mode; the feeding device is used for conveying the substrate into the first dust removal device; the first dust removal device is used for removing dust on the surface of the substrate; the material moving device is used for conveying the dedusted substrate to the film pasting table; attaching adhesive film paper to the surface of the substrate on the film attaching table; the hot-pressing device is used for hot-pressing the adhesive film paper on the substrate to form a veneer; the post-processing equipment is used for trimming, cooling, dedusting and blanking the veneer.

2. the veneer production line according to claim 1, wherein the post-processing equipment comprises a transfer device, a trimming device, a cooling device, a second dust removal device and a blanking device which are sequentially arranged in a butt joint mode, and one end of the transfer device is in butt joint with the discharge end of the hot pressing device.

3. The veneer production line according to claim 2, wherein the cooling device comprises a frame, and a first turnover mechanism, a second turnover mechanism and a feeding mechanism which are arranged on the frame; the two ends of the rack are respectively butted with the trimming device and the second dust removal device, the first turnover mechanism and the second turnover mechanism are oppositely arranged, and the material conveying mechanism is positioned at one end, close to the second dust removal device, of the rack.

4. The veneer production line according to claim 3, wherein the feeding mechanism comprises a rotating rod movably arranged on the frame, a plurality of rotating wheels sleeved on the rotating rod, and a power mechanism for driving the rotating rod to rotate.

5. the veneer production line according to claim 3, wherein the first turnover mechanism comprises a turnover frame and a driving mechanism for driving the turnover frame to make turnover motion.

6. The veneer production line according to claim 5, wherein the turning frame comprises a rotating shaft movably arranged on the rack and a plurality of supporting rods with one ends fixedly connected with the rotating shaft, and the plurality of supporting rods are arranged at intervals.

7. The veneer production line according to claim 1, wherein a driving roller and a driven roller, a conveyor belt sleeved on the driving roller and the driven roller, and a motor connected with the driving roller are respectively arranged at two ends of the film sticking table.

8. The veneer production line according to claim 1, wherein the feeding device comprises a base plate, a lifting mechanism mounted on the base plate, a material supporting plate mounted on the lifting mechanism, and a material pushing mechanism.

9. The veneer production line according to claim 8, wherein the pusher mechanism comprises a cylinder having a piston rod, a push rod connected to the piston rod, and a pushing assembly connected to the push rod.