CN211389269U - Laminating device for triamine plate component - Google Patents

Abstract

The utility model discloses a lamination equipment for triamine plate part. A laminating apparatus for triamine plate members, comprising: the device comprises a fixed seat, a pressing driving part, a fixed die, a movable die and a heating device; the fixed mould is fixed on the fixed seat, and the movable mould is arranged on the pressing driving part; the pressing driving part drives the movable mould to move up and down so as to enable the movable mould to be far away from or close to the fixed mould; the fixed die is provided with a lower pressing groove, and the lower pressing groove is provided with a lower heating plate; the movable mould is provided with an upper pressing groove, and the upper pressing groove is provided with an upper heating plate; the heating device is connected with the lower heating plate through a lower heating wire, and the heating device is connected with the upper heating plate through an upper heating wire. The utility model discloses a lamination equipment for triamine board part for well fine board can firmly be pasted on the skeleton.

Description

Laminating device for triamine plate component

Technical Field

The utility model relates to a furniture manufacturing technical field especially relates to a lamination equipment for triamine plate part.

Background

As shown in fig. 1, it is a structural diagram of a framework 10, and the framework 10 is an important component of furniture, for example, the framework 10 can be used as a table leg of an office table for supporting.

As shown in fig. 1, the framework 10 has a lower bottom surface 11 and an upper top surface 12, the lower bottom surface 11 and the upper top surface 12 are disposed opposite to each other, and in a furniture production shop, it is necessary to perform a beautifying process on the framework 10, for example, attaching medium density fiberboard to the lower bottom surface 11 and the upper top surface 12, so as to make the surface of the framework 10 smoother and more beautiful.

In the process of attaching the medium density fiberboard to the lower bottom surface 11 and the upper top surface 12, corresponding pressing treatment is required, and only then, the medium density fiberboard can be firmly attached.

Therefore, how to design and develop a pressing device for triamine plate components so that the medium density fiberboard can be firmly adhered to the framework 10 is a technical problem to be solved by design and development personnel.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a lamination equipment for triamine plate part for well fine board can firmly be pasted on the skeleton.

The purpose of the utility model is realized through the following technical scheme:

a laminating apparatus for triamine plate members, comprising: the pressing device comprises a fixed seat, a pressing driving part, a fixed die and a movable die;

the fixed mould is fixed on the fixed seat, the movable mould is arranged on the pressing driving part, and the movable mould is positioned right above the fixed mould;

the pressing driving part drives the movable mould to move up and down so as to enable the movable mould to be far away from or close to the fixed mould;

the fixed die is provided with a lower pressing groove, and the lower pressing groove is provided with a lower heating plate; the movable mould is provided with an upper pressing groove, and the upper pressing groove is provided with an upper heating sheet;

the laminating equipment for the triamine plate component further comprises a heating device, the heating device is connected with the lower heating sheet through a lower heating wire, and the heating device is connected with the upper heating sheet through an upper heating wire.

In one embodiment, the structure of the fixed mold is the same as that of the movable mold.

In one of the embodiments, the first and second electrodes are,

the fixed die comprises a plurality of laminated plates, the plate surfaces of the laminated plates are sequentially attached, and the plate surface of each laminated plate is provided with a fastening hole;

the fixing mould also comprises a fastening threaded rod, a rod body of the fastening threaded rod sequentially penetrates through the fastening holes in the plate surface of each laminated plate, and fastening nuts are screwed at two ends of the fastening threaded rod respectively;

and tightening the fastening nuts at the two ends of the fastening threaded rod to enable the surfaces of the laminated boards to be tightly attached.

In one of the embodiments, the first and second electrodes are,

the surface of each laminated plate is provided with five fastening holes, one fastening hole is positioned in the center of the surface of the laminated plate, and the other four fastening holes are respectively positioned at four corners of the surface of the laminated plate;

the number of the fastening threaded rods is five, and the five fastening threaded rods are in one-to-one correspondence with the five fastening holes respectively.

In one embodiment, the lower heating plate and the upper heating plate are both of a metal plate structure.

In one embodiment, the lower heating plate and the upper heating plate are both aluminum plate structures.

The utility model discloses a lamination equipment for triamine board part for well fine board can firmly be pasted on the skeleton.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a block diagram of a skeleton;

fig. 2 is a block diagram of a laminating apparatus for triamine plate components according to an embodiment of the present invention;

FIG. 3 is a schematic view of the stationary mold and the movable mold shown in FIG. 2 pressing together the semi-finished product;

FIG. 4 is a front view of the stationary mold shown in FIG. 2;

FIG. 5 is a left side view of the stationary mold shown in FIG. 4;

fig. 6 is an exploded view of a triamine plate component according to the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. 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.

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. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

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 herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 2, the utility model discloses a lamination equipment 20 for triamine plate part, include: the fixing base 100, the pressing driving part 200, the fixed mold 300 and the movable mold 400.

The fixed mold 100 is fixed on the fixed seat 100, the movable mold 400 is installed on the pressing driving part 200, and the movable mold 400 is located right above the fixed mold 300.

The press-fit driving part 200 drives the movable mold 400 to perform an up-and-down motion so that the movable mold 400 moves away from or approaches the stationary mold 300.

As shown in fig. 3, the fixed mold 300 is provided with a lower pressing groove 310, and the lower pressing groove 310 is provided with a lower heating plate 311 (shown in fig. 5); similarly, the movable mold 400 is provided with an upper pressing groove 410, and the upper pressing groove 410 is provided with an upper heating plate (not shown).

As shown in fig. 2, further, the laminating apparatus 20 for triamine plate member further includes a heating device 500, the heating device 500 is connected to the lower heating plate 311 through a lower heating wire 510, and the heating device 500 is connected to the upper heating plate through an upper heating wire 520. In this embodiment, lower heating plate 311 and last heating plate are the sheetmetal structure, and further, lower heating plate 311 and last heating plate are the aluminum sheet structure, and the aluminum sheet can be more quick conduct heat.

The operation of the laminating apparatus 20 for a triamine plate member of the above-described structure will be explained as follows:

firstly, respectively attaching a middle fiberboard to a lower bottom surface 11 and an upper top surface 12 of a framework 10, thereby obtaining a semi-finished product;

next, the semi-finished product is placed on the fixed mold 300, and at this time, the lower bottom surface 11 of the framework 10 is received in the lower pressing groove 310;

then, the pressing driving part 200 is started, and the pressing driving part 200 drives the movable mold 400 to descend to be close to the fixed mold 300, so that the upper top surface 12 of the framework 10 can be accommodated in the upper pressing groove 410;

under the action of the pressing force of the pressing driving part 200, the fixed mold 300 and the movable mold 400 act together to press the semi-finished product therebetween;

then, the heating device 500 is started, the heating wire of the heating device 500 generates heat, and the heat is respectively conducted to the lower heating plate 311 and the upper heating plate through the lower heating wire 510 and the upper heating wire 520, so that the glue coated on the middle fiber board is heated and melted, and the melted glue is better adhered to the lower bottom surface 11 and the upper top surface 12;

in the process, the semi-finished product is simultaneously subjected to the action of pressure and the action of heating, after a period of action, for example, 10 minutes or 20 minutes, the specific action time is determined according to actual conditions in sequence, and the medium density fiberboard can be stably fixed on the framework 10;

after the fixing of the medium density fiberboard is completed, the pressing driving part 200 drives the movable mold 400 to ascend to be away from the fixed mold 300, and at this time, the finished triamine board component obtained after the pressing can be taken out.

In the process of pressing by using the pressing device 20 for triamine plate components, a situation is encountered that triamine plate components with different sizes are correspondingly manufactured according to different specific requirements of customers, and therefore, the fixed mold 300 and the movable mold 400 matched with the triamine plate components need to be correspondingly replaced. When the mold is replaced, the cost of manufacturing the mold needs to be considered, and if the mold is simply replaced integrally, the enterprise can incur unnecessary additional expenses. Therefore, it is necessary for a design developer to optimally design the structures of the fixed mold 300 and the movable mold 400, and the mold can be quickly and effectively adjusted in structure on the basis of reducing the manufacturing cost of the mold.

In the present invention, the structure of the fixed mold 300 is the same as that of the movable mold 400. Therefore, only the specific structure of the fixed mold 300 will be described below, and the specific structure of the movable mold 400 may refer to the specific structure of the fixed mold 300.

Referring to fig. 4 and 5, in particular, the fixing mold 300 includes a plurality of pressing plates 320, the plate surfaces of the pressing plates 320 are sequentially attached, and each pressing plate 320 has a fastening hole.

The fixing mold 300 further includes a fastening screw rod 330, a rod body of the fastening screw rod 330 is sequentially inserted into a fastening hole (not shown) on the plate surface of each of the press plates 320, and both ends of the fastening screw rod 330 are respectively screwed with fastening nuts 331.

The fastening nuts 331 at both ends of the fastening screw rod 330 are tightened to closely adhere the plate surfaces of the plurality of press plates 320.

Next, the structure of the fixed mold 300 will be described:

according to the size of the current skeleton 10, the number of the pressing plates 320 is adaptively adjusted, for example, if the size of the current skeleton 10 is larger, the number of the pressing plates 320 is larger, and conversely, if the size of the current skeleton 10 is smaller, the number of the pressing plates 320 is smaller;

after the number of the laminated plates 320 is adjusted, the plate surfaces of the plurality of laminated plates 320 are sequentially attached, so that the fastening holes on the plate surfaces of the plurality of laminated plates 320 are mutually communicated;

the rod body of the fastening threaded rod 330 is sequentially arranged in the fastening holes on the plate surface of each laminated plate 320 in a penetrating manner, and two ends of the fastening threaded rod 330 are left at two ends of the mold consisting of the plurality of laminated plates 320;

two fastening nuts 331 are screwed on both ends of the fastening threaded rod 330, respectively, and the fastening nuts 331 are tightened, so that the fastening nuts 331 force the plurality of press-fit plates 320 to be attached to each other more tightly, thereby preventing a mold formed by the plurality of press-fit plates 320 from loosening.

Referring to fig. 4 and 5, in the present embodiment, five fastening holes are formed in the panel surface of each of the pressing plates 320, one of the fastening holes is located at the center of the panel surface of the pressing plate 320, and the other four fastening holes are located at four corners of the panel surface of the pressing plate 320; correspondingly, the number of the fastening threaded rods 330 is five, and the five fastening threaded rods 330 are respectively in one-to-one correspondence with the five fastening holes. Therefore, the pressing plates 320 can be stressed more uniformly, and the stability of the mold formed by the pressing plates 320 is better.

The utility model also provides a production technology for triamine plate part, including following step:

step one, providing a framework 10, wherein the framework 10 is provided with a lower bottom surface 11 and an upper top surface 12 (shown in figure 1), and the lower bottom surface 11 and the upper top surface 12 are arranged in a reverse manner;

step two, pasting a medium density fiberboard plain plate 13, and pasting the medium density fiberboard plain plate 13 on the lower bottom surface 11 and the upper top surface 12 of the framework 10 respectively (as shown in fig. 6); in this embodiment, the thickness of the medium density fiberboard 13 is 3 mm.

Thirdly, pasting medium fiberboard stickers 14, and pasting medium fiberboard stickers 14 on the medium fiberboard plain boards 13 on the lower bottom surface 11 and the medium fiberboard plain boards 13 on the upper top surface 12 of the framework 10 respectively (as shown in fig. 6), thereby obtaining a semi-finished product; in this embodiment, the medium fiberboard paster 14 has a thickness of 5 mm.

Step four, laminating, namely laminating the semi-finished product by the laminating equipment 20 for the triamine plate component;

and step five, cutting edges, namely cutting the edges of the pressed semi-finished product.

It should be noted that, during the pressing process, the lower bottom surface 11 of the semi-finished skeleton 10 is accommodated in the lower pressing groove 310, the upper top surface 12 of the semi-finished skeleton 10 is accommodated in the upper pressing groove 410, the middle fiberboard stickers 14 at the lower bottom surface 11 are pressed on the lower heating sheet 311, and the middle fiberboard stickers 14 at the upper top surface 12 are pressed on the upper heating sheet.

It should be noted that, in the second step, in the process of attaching the medium density fiberboard, the medium density fiberboard 13 is first attached to the lower bottom surface 11 and the upper top surface 12 of the framework 10 by glue, and then the medium density fiberboard 13 is fixed to the lower bottom surface 11 and the upper top surface 12 of the framework 10 by gun nails. The medium density fiberboard 13 can be more firmly fixed on the framework 10 by using the gun nail.

And in the process of pasting the medium fiberboard paster 14, the medium fiberboard paster 14 is pasted with the medium fiberboard plain plate 13 through glue, gun nails are not used, and the appearance of the medium fiberboard paster 14 can be ensured to be attractive.

The finished product of the triamine plate component obtained by the process method can be adhered with medium fiberboard stickers 14 with different colors on the lower bottom surface 11 or the upper top surface 12; the traditional triamine plate component can only be adhered with medium density fiberboard stickers 14 of the same color on the lower bottom surface 11 or the upper top surface 12.

The utility model discloses a lamination equipment for triamine board part for well fine board can firmly be pasted on the skeleton.

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 (6)

1. A laminating apparatus for triamine plate members, comprising: the pressing device comprises a fixed seat, a pressing driving part, a fixed die and a movable die;

the fixed mould is fixed on the fixed seat, the movable mould is arranged on the pressing driving part, and the movable mould is positioned right above the fixed mould;

the pressing driving part drives the movable mould to move up and down so as to enable the movable mould to be far away from or close to the fixed mould;

the fixed die is provided with a lower pressing groove, and the lower pressing groove is provided with a lower heating plate; the movable mould is provided with an upper pressing groove, and the upper pressing groove is provided with an upper heating sheet;

the laminating equipment for the triamine plate component further comprises a heating device, the heating device is connected with the lower heating sheet through a lower heating wire, and the heating device is connected with the upper heating sheet through an upper heating wire.

2. The laminating apparatus for triamine plate member according to claim 1, wherein the structure of the fixed mold is the same as that of the movable mold.

3. The laminating device for triamine plate component according to claim 2,

the fixed die comprises a plurality of laminated plates, the plate surfaces of the laminated plates are sequentially attached, and the plate surface of each laminated plate is provided with a fastening hole;

the fixing mould also comprises a fastening threaded rod, a rod body of the fastening threaded rod sequentially penetrates through the fastening holes in the plate surface of each laminated plate, and fastening nuts are screwed at two ends of the fastening threaded rod respectively;

and tightening the fastening nuts at the two ends of the fastening threaded rod to enable the surfaces of the laminated boards to be tightly attached.

4. The laminating device for triamine plate components according to claim 3,

the surface of each laminated plate is provided with five fastening holes, one fastening hole is positioned in the center of the surface of the laminated plate, and the other four fastening holes are respectively positioned at four corners of the surface of the laminated plate;

the number of the fastening threaded rods is five, and the five fastening threaded rods are in one-to-one correspondence with the five fastening holes respectively.

5. The laminating apparatus for triamine plate member according to claim 1, wherein the lower heating sheet and the upper heating sheet are both of a metal sheet structure.

6. The laminating apparatus for triamine plate member according to claim 5, wherein the lower heating sheet and the upper heating sheet are of an aluminum sheet structure.

Images