CN114734516A

CN114734516A - Manufacturing and processing method of flame-retardant artificial board

Info

Publication number: CN114734516A
Application number: CN202210304752.1A
Authority: CN
Inventors: 林珍峰
Original assignee: Individual
Current assignee: Guangxi Deli Forestry Development Co ltd
Priority date: 2022-03-26
Filing date: 2022-03-26
Publication date: 2022-07-12
Anticipated expiration: 2042-03-26
Also published as: CN114734516B

Abstract

The invention relates to the field of flame-retardant artificial boards, in particular to a manufacturing and processing method of a flame-retardant artificial board, which comprises the following steps: s1, taking sawdust and wood shavings for crushing, then drying, mixing the dried sawdust and wood shavings with rubber powder, and carrying out hot pressing to obtain a core layer for later use; s2, selecting two surface layer plates with the same size; s3, adhering a plurality of laths on one surface plate at equal intervals by using an adhesive tape device; s4, cutting the core layer to obtain a core layer with the same area as that between two adjacent laths, and sticking the core layer on the surface layer plate between the adjacent laths; s5, aligning and sticking the other surface plate on the core layer and the lath to obtain the flame-retardant artificial board; the artificial board manufactured by the invention has higher bearing strength.

Description

Manufacturing and processing method of flame-retardant artificial board

Technical Field

The invention relates to the field of flame-retardant artificial boards, in particular to a manufacturing and processing method of a flame-retardant artificial board.

Background

The artificial board is a board made of leftover bits and pieces of wood in the processing course and chemical adhesive. The artificial boards are of various types, and the common types include shaving boards, medium density boards, core-board boards, plywood boards, fireproof boards and other decorative artificial boards.

Among them, the flame-retardant artificial board manufactured to avoid fire is more and more concerned by people, and most of the existing flame-retardant artificial boards are formed by mixing and pressing leftover materials and rubber materials with a flame-retardant function, so that the bearing strength is limited, and the use is influenced.

Disclosure of Invention

The invention aims to provide a method for manufacturing and processing a flame-retardant artificial board, and the manufactured artificial board has higher bearing strength.

The purpose of the invention is realized by the following technical scheme:

a method for manufacturing and processing a flame-retardant artificial board comprises the following steps:

s1, taking sawdust and wood shavings for crushing, then drying, mixing the dried sawdust and wood shavings with rubber powder, and carrying out hot pressing to obtain a core layer for later use;

s2, selecting two surface layer plates with the same size;

s3, adhering a plurality of laths on one surface plate at equal intervals by using an adhesive tape device;

s4, cutting the core layer to obtain a core layer with the same area as that between two adjacent laths, and sticking the core layer on the surface layer plate between the adjacent laths;

and S5, aligning and sticking the other surface plate on the core layer and the lath to obtain the flame-retardant artificial board.

The rubber powder is flame-retardant rubber powder.

And the glue used for adhering the core layer and the batten on the surface layer plate is a flame-retardant glue solution.

The strip sticking device comprises a supporting mechanism for placing the surface layer plate, a connecting plate is connected to the supporting mechanism, a sliding rod frame is fixed to the connecting plate, a bearing plate is connected to the sliding rod frame, and a sticking mechanism for sticking the strip to the surface layer plate is connected to the sliding rod frame.

Drawings

FIG. 1 is a schematic flow diagram of a method of manufacturing a flame retardant man-made panel;

FIG. 2 is a schematic structural view of the adhesive tape device;

FIG. 3 is a partial schematic view of the adhesive tape device;

FIG. 4 is a schematic structural view of the support mechanism;

FIG. 5 is a schematic structural view of the support plate;

FIG. 6 is a schematic view of a small plate;

FIG. 7 is a schematic view of an embodiment of restraining a slat;

FIG. 8 is a schematic structural view of a susceptor plate;

FIG. 9 is a schematic view of the structure of the spacing wheel;

FIGS. 10 and 11 are schematic views of the construction of the pasting mechanism;

FIG. 12 is a schematic view of the structure of a long strand compact;

FIG. 13 is a schematic view of a pusher plate configuration;

fig. 14 is a schematic structural view of the stopper plate holder.

In the figure:

a support plate 101; a leg 102; a limit square column 103; a mating slide port 104; a small plate 105; a linking rotating plate 106;

a connecting plate 201; a slide bar frame 202; a lifting seat 203;

a receiving plate 301; a roller 302; a screw I303; a square column 304;

a pallet 401; a spring I402; a spacing wheel 403; a limiting shaft 404; a spring II 405;

a strip pressing block 501; a track rod 502; a rack 503; the connection long hole 504; a guide swash plate 505; a glue applicator 506; a limit slide bar 507;

a connection frame 601; a push plate 602; a screw II 603;

a limiting plate frame 701; the screw 702 is positioned.

Detailed Description

As shown in fig. 1:

s2, selecting two surface layer plates with the same size;

The rubber powder is flame-retardant rubber powder.

As shown in fig. 2-14:

the adhesive tape device comprises a supporting mechanism, a connecting plate 201, a sliding rod frame 202, a bearing plate 301 and a sticking mechanism; the supporting mechanism is used for placing a surface plate, the connecting plate 201 is connected to the supporting mechanism, the sliding rod frame 202 is fixed to the connecting plate 201, the bearing plate 301 is connected to the sliding rod frame 202, and the adhering mechanism used for adhering the batten to the surface plate is connected to the sliding rod frame 202.

When the plate is used, one of the surface plates is flatly placed on the supporting mechanism, then the plate strip is placed on the bearing plate 301, the plate strip is pushed to the upper surface of the surface plate through the pasting mechanism, meanwhile, glue is coated, after the plate strip is aligned with the surface plate, the plate strip is tightly pressed on the surface plate to be firmly pasted, then the surface plate is transversely moved, the steps are repeated, and the plurality of plate strips are pasted and fixed on the surface plate at equal intervals, so that the pasting and fixing of the plate strip are completed.

Further:

the screw I303 rotates on the bearing plate 301, and the screw I303 is in threaded connection with the connecting plate 201.

When the surface layer plate is flatly placed on the supporting mechanism, when the thickness of the surface layer plate is changed, in order to ensure that the pasting mechanism can push the laths placed on the bearing plate 301 to the upper part of the surface layer plate, and simultaneously glue is coated; therefore, the height of the bearing plate 301 needs to be adjusted;

through rotating screw I303, screw thread transmission connecting plate 201 makes screw I303 rise or descend on connecting plate 201, then drives to hold and puts board 301 and rise or descend to reach the purpose that changes and hold the board 301 height, thereby make the device adapt to the processing of the welt of the different thickness's top layer board.

Further:

a plurality of rollers 302 rotate on the receiving plate 301.

The arrangement of the rollers 302 forms the support of the rollers 302 on the lath, and when the pasting mechanism pushes the lath to move on the bearing plate 301, the sliding friction between the lath and the bearing plate 301 is replaced by the rolling friction between the lath and the rollers 302, so that the pushing efficiency is improved.

As shown in fig. 7-9:

the two square columns 304 are respectively fixed on two sides of the bearing plate 301, the two square columns 304 are respectively connected with a limiting mechanism, and the two limiting mechanisms limit the battens.

The limiting mechanism on the two sides of the bearing plate 301 is used for limiting the battens, so that the battens are prevented from being deviated when pushed, the positions of the battens on the surface plate are further influenced, and the subsequent core plates are further influenced to be pasted.

Further:

the limiting mechanism comprises a supporting plate 401, a spring I402 and a limiting shaft 404; supporting plate 401 slides on square column 304, is connected with two spacing axles 404 on supporting plate 401, and spring I402 sets up between supporting plate 401 and square column 304.

The two limiting shafts 404 are arranged on one square column 304 through the supporting plate 401, so that the two limiting shafts 404 are arranged on two sides of the batten placed on the bearing plate 301 to limit the batten;

meanwhile, through the elastic force of the spring I402, the two limiting shafts 404 on the two sides oppositely prop against the two sides of the batten, so that the batten is adaptive to battens with different widths, and the middle position of the batten in the bearing plate 301 is ensured.

And further:

the limiting wheels 403 are fixed on the limiting shafts 404, the springs II 405 are arranged between the limiting wheels 403 and the supporting plates 401, and the corresponding limiting wheels 403 on the two supporting plates 401 are mutually tightly propped.

The diameter of the limiting wheel 403 is increased relative to the limiting shaft 404, so that the lath can be conveniently fed between the two limiting wheels 403;

an inclined plate is further arranged at the outer end of the bearing plate 301, so that the lath can be conveniently conveyed between the two limiting wheels 403;

and through the spring II 405, when the pasting mechanism is required to press the lath downwards, the limiting wheel 403 can push the limiting shaft 404 to slide downwards and simultaneously extrude the spring II 405, so that the pasting mechanism is ensured to press the lath on the roller 302 and can adapt to laths with different height sizes.

As shown in fig. 10-14:

the pasting mechanism comprises a lifting seat 203, a pressing mechanism, a gluing seat 506, a connecting frame 601, a pushing plate 602 and a screw II 603;

the lifting seat 203 slides on the sliding rod frame 202, the pressing mechanism is connected to the lifting seat 203, the gluing seat 506 is arranged at the front end of the pressing mechanism, the connecting frame 601 is fixed at the rear end of the pressing mechanism, the pushing plate 602 slides in the connecting frame 601, and the screw II 603 rotates on the pushing plate 602 and is in threaded connection with the connecting frame 601.

After the lath is fed between the limiting wheels 403, the telescopic rod arranged between the slide bar frame 202 and the lifting seat 203 extends, so that the lifting seat 203 is pushed to descend, the lifting seat 203 drives the pressing mechanism to move downwards and extrude the limiting wheels 403 to move downwards until the lath is tightly pressed on the roller 302;

at the moment, the pressing mechanism is controlled to move forwards on the lifting seat 203, namely to move towards the direction of the surface plate, so that the pushing plate 602 at the rear end is driven to tightly push the rear end of the lath, the lath moves forwards, the glue coating seat 506 positioned at the front end of the lath coats glue on the surface plate in the advancing process, the lath is not contacted with the coated glue in the moving process until the lath is separated from the bearing plate 301, the lifting seat 203 continues to drive the pressing mechanism to move downwards while the lath falls down, the lath is pressed on the coated surface plate, then the pressing mechanism is continuously controlled to push the lath to move forwards until the lath is aligned with the surface plate, and the pasting and fixing of the lath are completed after the glue is dried;

in the process, the early-stage movement of the lath is not in contact with the glue solution, so that the condition that the glue solution is pushed away by the moving lath to influence the pasting quality is avoided, and after the lath is separated from the bearing plate 301 and pressed on the surface plate in the later stage, the lath is pushed to move to be aligned in a short distance, so that the lath can be better in contact with the surface plate, the condition that the glue solution influences the size of the lath and the surface plate is avoided, and the lath is convenient to be firmly bonded;

the glue coating base 506 is composed of a fixed base and a rubber tube, the rubber tube is connected with an external glue supply pump, and when the glue coating base moves, the rubber pump supplies glue to the rubber tube and flows onto the surface plate to finish glue coating;

through rotating II 603 of screw rod, can screw thread transmission connection frame 601, make II 603 of screw rod drive push plate 602 go up and down in connection frame 601 to change the length that push plate 602 stretches out connection frame 601, guarantee that pushing mechanism can compress tightly the lath on roller 302, push plate 602 can not push the lath with what hold board 301 interfered simultaneously.

Further:

the pressing mechanism comprises two strip pressing blocks 501, two track rods 502, racks 503, connecting long holes 504, limiting slide rods 507, limiting plate frames 701 and positioning screws 702, the two limiting slide rods 507 are arranged side by side, the strip pressing blocks 501 are arranged at two ends of each limiting slide rod 507 in a sliding mode, the track rods 502 are arranged on the two strip pressing blocks 501, the two track rods 502 are arranged in a laminating mode, the racks 503 are arranged at the upper ends of the two track rods 502, the two racks 503 can be overlapped together, the connecting long holes 504 are arranged on the two track rods 502, the limiting plate frames 701 are arranged at the communication positions of the two connecting long holes 504 in a sliding mode, the positioning screws 702 are connected to two sides of each limiting plate frame 701 in a threaded mode, the two positioning screws 702 tightly abut against the two track rods 502 respectively, the two track rods 502 are connected to the lifting seat 203 in a sliding mode, gears meshed and connected with the two racks 503 are arranged on the lifting seat 203 in a rotating mode, a gluing seat 506 is fixed at the outer end of one strip pressing block 501, the outer end of the other strip pressing block 501 is fixed with a connecting frame 601.

The two long-strip pressing blocks 501 form a pressing block body through the limiting sliding rod 507, the two racks 503 are combined together through the two track rods 502, and the pressing block body is driven to lift through the track rods 502 when the lifting seat 203 lifts;

when the plate strip is conveyed, a motor transmission gear arranged on the lifting seat 203 is started to rotate, and the gear drives the rack 503, so that the pressing block body moves, and then the pushing plate 602 is driven to move;

when the length of the lath is different, when the whole length of the pressing block body needs to be adjusted, the two positioning screws 702 are rotated, the two positioning screws 702 are separated from the two track rods 502, the two strip pressing blocks 501 are pulled forwards and backwards at the moment, the two strip pressing blocks 501 slide on the limiting slide rod 507, the whole length of the pressing block body is changed, the positioning screws 702 are rotated after the length of the lath corresponds to the length of the lath, the relative position between the two track rods 502 is fixed, the two racks 503 have overlapped parts and non-overlapped parts at the moment, but the transmission of the gears to the two racks 503 is not influenced, and therefore the device can adapt to pushing of laths with different lengths.

Further:

the inner ends of the two long pressing blocks 501 are provided with guide sloping plates 505.

Through the setting of direction swash plate 505, when the position between two rectangular briquetting 501 removed to spacing wheel 403 department, through the direction of direction swash plate 505, can continue to push down spacing wheel 403, continue to keep the promotion to the lath, avoid spacing wheel 403 to influence rectangular briquetting 501 and remove.

As shown in fig. 4-6:

the supporting mechanism comprises supporting plates 101, supporting legs 102, limiting square columns 103, matching sliding openings 104, small supporting plates 105 and linkage rotating plates 106, the supporting plates 101 are two, the two supporting plates 101 are respectively provided with the two supporting legs 102, the two supporting plates 101 are respectively provided with the limiting square columns 103 and the matching sliding openings 104, the limiting square columns 103 on one supporting plate 101 are matched with the matching sliding openings 104 on the other supporting plate 101 to slide, the two supporting plates 101 are combined into a plane plate, each supporting leg 102 is provided with the linkage rotating plate 106 in a rotating mode, the small supporting plates 105 are located on the same side and rotate between the two linkage rotating plates 106 connected to the supporting legs 102 on the two supporting plates 101, when the two small supporting plates 105 are attached to the two supporting plates 101, gaps between the two supporting plates 101 can be supplemented, and the connecting plate 201 is fixed to the middle portion of the outer side of one of the two supporting plates 101.

The two supporting plates 101 slide in a matching way through the two mutually matched limiting square columns 103 and the matching sliding openings 104 to obtain a plane plate with the changeable whole width, so that the device can be suitable for supporting surface plates with different sizes;

when the distance between the two supporting plates 101 is large, the middle of the surface plate is easy to lose support and deform, so that the adhesion of the lath is affected, and therefore through the arrangement of the small supporting plates 105, when the two supporting plates 101 are separated, the two small supporting plates 105 are always kept at the middle position between the two supporting plates 101, the deformation caused by the loss of support in the middle of the surface plate is effectively avoided, and when the two supporting plates 101 are combined, the two small supporting plates 105 are a small part of a plane plate, so that the integrity of the device is improved.

Claims

1. The manufacturing and processing method of the flame-retardant artificial board is characterized by comprising the following steps: the method comprises the following steps:

s2, selecting two surface layer plates with the same size;

2. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 1, wherein the manufacturing method comprises the following steps: the rubber powder is flame-retardant rubber powder.

3. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 1, wherein the manufacturing method comprises the following steps: and the glue used for adhering the core layer and the batten on the surface layer plate is a flame-retardant glue solution.

4. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 1, wherein the manufacturing method comprises the following steps: the sticky strip device comprises a supporting mechanism for placing a surface layer plate, a connecting plate (201) is connected onto the supporting mechanism, a sliding rod frame (202) is fixed onto the connecting plate (201), a bearing plate (301) is connected onto the sliding rod frame (202), and a sticking mechanism for sticking the strip onto the surface layer plate is connected onto the sliding rod frame (202).

5. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 4, wherein the manufacturing method comprises the following steps: it has screw rod I (303) to rotate on board (301) to hold, screw rod I (303) and connecting plate (201) threaded connection.

6. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 4, wherein the manufacturing method comprises the following steps: a plurality of rollers (302) transversely rotate on the bearing plate (301).

7. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 6, wherein the manufacturing method comprises the following steps: and square columns (304) are fixed on two sides of the bearing plate (301), and limiting mechanisms for limiting the battens are connected to the square columns (304).

8. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 7, wherein the manufacturing method comprises the following steps: the limiting mechanism comprises a supporting plate (401) sliding on a square column (304), two limiting shafts (404) are connected to the supporting plate (401), and a spring I (402) is arranged between the supporting plate (401) and the square column (304).

9. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 8, wherein the manufacturing method comprises the following steps: the limiting shaft (404) is fixed with a limiting wheel (403), a spring II (405) is arranged between the limiting wheel (403) and the supporting plate (401), and the corresponding limiting wheels (403) on the two supporting plates (401) are mutually tightly propped.

10. The manufacturing and processing method of the flame-retardant artificial board as claimed in claim 4, wherein the manufacturing method comprises the following steps: paste the mechanism and include lift seat (203) of sliding on slide bar frame (202), be connected with down the mechanism on lift seat (203), the front end of pushing down the mechanism is equipped with rubber coating seat (506), the rear end of pushing down the mechanism is fixed with connection frame (601), it has push plate (602) to slide in connection frame (601), it has screw rod II (603) to rotate on push plate (602), screw rod II (603) and connection frame (601) threaded connection.