CN113134889A

CN113134889A - Environment-friendly preparation system and method for fireproof wood floor

Info

Publication number: CN113134889A
Application number: CN202110239429.6A
Authority: CN
Inventors: 马占平
Original assignee: Xianglebao Fujian New Material Technology Co ltd
Current assignee: Xianglebao Fujian New Material Technology Co ltd
Priority date: 2021-03-04
Filing date: 2021-03-04
Publication date: 2021-07-20

Abstract

The invention provides an environmental protection preparation system for fireproof wooden floor, which includes a processing mechanism; the processing mechanism includes a first clamping device, a first processing device, and a second processing device; the first processing device includes milling the first surface of the wooden board The first milling device includes a first upper milling part, a second upper milling part and a third upper milling part; in the present invention, after a wood board is damaged, due to the splicing between adjacent wood boards The relationship is that the upper part is convex and the lower part is concave, so it is only necessary to dismantle the damaged board, and then assemble a new board from the front. It is not necessary to splicing the boards from the side as in the prior art, and it requires a certain allowance. space, improve the splicing efficiency, and at the same time, it is more convenient and quick to replace the board when it is damaged, which improves the replacement efficiency and reduces the labor intensity. The invention also provides an environmental protection preparation method of the fireproof wooden floor.

Description

Environment-friendly preparation system and method for fireproof wood floor

Technical Field

The invention relates to the technical field of wood floor manufacturing, in particular to an environment-friendly preparation system and method for a fireproof wood floor.

Background

The wood floor refers to a floor made of wood, and the wood floors produced in China are mainly divided into solid wood floors, reinforced wood floors, solid wood composite floors, multilayer composite floors, bamboo floors and cork floors, and novel wood-plastic floors.

The side processing draw-in groove of timber apron and with other timber apron draw-in groove matched with arch are usually in current timber apron installation, splice two blocks of timber apron adjacent through draw-in groove and arch, but this kind of concatenation mode is difficult for changing after a timber apron damages, it can accomplish the timber apron of damage and tear open and trade to need not become flexible other timber apron, and do not have sealed manger plate and water absorption function after the current timber apron concatenation, make timber apron absorb water behind overcast and rainy weather or water logging, lead to timber apron thickness inflation, cause the damage, reduce timber apron life.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

An object of the embodiments of the present invention is to provide an environment-friendly preparation system for fireproof wood floors, so as to solve the problems that a wood floor in the background art is not easy to replace after being damaged, and the existing wood floor is not provided with the functions of sealing and water retaining and water absorbing after being spliced, so that the wood floor absorbs water in rainy days or after being soaked in water, which causes the thickness of the wood floor to expand, causes damage, and reduces the service life of the wood floor.

The second purpose of the embodiment of the invention is to provide an environment-friendly preparation method of the fireproof wood floor, which comprises the steps of processing a first clamping groove on a second surface of a wood floor, processing a first containing groove and a second containing groove on one side of the first clamping groove, processing a first clamping bulge on the other side of the first clamping groove, processing a second clamping bulge clamped with the first clamping groove on the first surface, processing a second clamping groove matched with the first clamping bulge, and processing a third clamping bulge matched with the second containing groove; install the protruding first joint groove on the second piece plank second face of second joint on the first face of first plank, the third joint is protruding to be installed in the second storage tank simultaneously, installation elastic sealing strip in the second storage tank of plank, pack aquogel in first storage tank, after adjacent plank assembles, elastic sealing strip is as first waterproof layer, the junction between the adjacent plank is sealed, prevent that the water logging from soaking the plank bottom and making the plank inflation, aquogel in the first storage tank is as second way waterproof layer, will follow the water absorption of elastic sealing strip department infiltration through aquogel, absorb water after overcast and rainy weather or water logging, prevent that plank thickness inflation from causing the damage, the life of extension plank.

In order to achieve the purpose, the invention adopts the following technical scheme:

an environment-friendly preparation system for fireproof wood floors comprises a processing mechanism for processing wood floors; the processing mechanism comprises a first clamping device for clamping the wood board, a first processing device for processing a first preset shape on a first surface of one side of the wood board, and a second processing device for processing a second preset shape on a second surface of the other side of the wood board; the first processing device comprises a first milling device for milling the first surface of the wood board, and the first milling device comprises a first upper milling part, a second upper milling part and a third upper milling part; the first upper milling portion comprises a first upper milling cutter; the second upper milling portion comprises a second upper milling cutter; the third upper milling part comprises a third upper milling cutter, and an arc-shaped groove arranged around the outer circumferential surface of the third upper milling cutter is formed at the upper part of the outer circumferential surface of the third upper milling cutter; the first upper milling part, the second upper milling part and the third upper milling part are sequentially arranged along the conveying direction of the wood board.

An environment-friendly preparation method of a fireproof wood floor comprises the following steps:

(1) processing the board to form a board;

(2) processing a first surface of one side of the wood board to form a first preset shape;

(3) processing a second surface of the other side of the wood board to form a second preset shape;

(4) painting the surface of the wood board;

(5) filling the material in the second preset shape of the second surface of the wood board;

in the step (3), the second preset shape comprises a first clamping groove formed in the second surface of the wood board, a first accommodating groove and a second accommodating groove formed in one side of the first clamping groove, and a first clamping protrusion formed in the other side of the first clamping groove; the first accommodating groove is positioned below the second accommodating groove;

in the step (2), the first preset shape comprises a second clamping protrusion clamped with the first clamping groove, a second clamping groove matched with the first clamping protrusion, and a third clamping protrusion matched with the second accommodating groove; and machining a yielding groove on the lower surface of the second clamping protrusion.

After adopting the structure, the environment-friendly preparation system for the fireproof wood floor provided by the invention has the following beneficial effects:

after the wood board is clamped by the first clamping device, a first preset shape (a second clamping protrusion clamped with the first clamping groove, a second clamping groove matched with the first clamping protrusion and a third clamping protrusion matched with the second accommodating groove) is processed on the first surface of the wood board by the first processing device through the matching among the first upper milling cutter, the second upper milling cutter and the third upper milling cutter; clamping a second clamping protrusion on the first surface of the first wood board in a first clamping groove on the second surface of the second wood board, and simultaneously installing a third clamping protrusion in a second accommodating groove to ensure that the wood boards are conveniently and quickly spliced; according to the invention, after one wood board is damaged, because the splicing relation between adjacent wood boards is in a state of being convex upwards and concave downwards, only the damaged wood board needs to be disassembled, and then a new wood board is assembled from the front, so that the situation that the wood boards are spliced from the side and a certain abdicating space is needed in the prior art is not needed, the splicing efficiency is improved, meanwhile, the wood boards are more convenient and quicker to replace when damaged, the replacing efficiency is improved, and the labor intensity is reduced at the same time.

The invention also provides an environment-friendly preparation method of the fireproof wood floor, which comprises the steps of processing a first clamping groove on the second surface of the wood floor, processing a first accommodating groove and a second accommodating groove on one side of the first clamping groove, processing a first clamping bulge on the other side of the first clamping groove, processing a second clamping bulge clamped with the first clamping groove on the first surface, processing a second clamping groove matched with the first clamping bulge, and processing a third clamping bulge matched with the second accommodating groove; install the protruding first joint groove on the second piece plank second face of second joint on the first face of first plank, the third joint is protruding to be installed in the second storage tank simultaneously, installation elastic sealing strip in the second storage tank of plank, pack aquogel in first storage tank, after adjacent plank assembles, elastic sealing strip is as first waterproof layer, the junction between the adjacent plank is sealed, prevent that the water logging from soaking the plank bottom and making the plank inflation, aquogel in the first storage tank is as second way waterproof layer, will follow the water absorption of elastic sealing strip department infiltration through aquogel, absorb water after overcast and rainy weather or water logging, prevent that plank thickness inflation from causing the damage, the life of extension plank.

Drawings

FIG. 1 is a schematic structural view of a processing mechanism according to the present invention;

FIG. 2 is a schematic structural view of a first top milling cutter, a second top milling cutter, a third top milling cutter and a first top radius milling cutter according to the present invention;

FIG. 3 is a schematic structural view of a second milling device according to the present invention;

FIG. 4 is a schematic view of the first, second, third and first lower radius cutters according to the present invention;

FIG. 5 is a schematic view of the cutting mechanism of the present invention;

FIG. 6 is a schematic structural view of an environment-friendly system for manufacturing fire-proof wood flooring according to the present invention;

FIG. 7 is a schematic view of the construction of the painting mechanism, the first filling mechanism and the second filling mechanism of the present invention;

FIG. 8 is an enlarged partial schematic view of FIG. 7 at A;

FIG. 9 is an enlarged partial schematic view of FIG. 7 at B;

FIG. 10 is an enlarged partial schematic view of FIG. 7 at C;

FIG. 11 is an enlarged partial schematic view of FIG. 7 at D;

FIG. 12 is an enlarged partial schematic view of FIG. 7 at F;

FIG. 13 is an enlarged partial schematic view of FIG. 7 at E;

FIG. 14 is a schematic view of a connection structure for wood panel splicing according to the present invention;

fig. 15 is a partially enlarged structural view at G of fig. 14.

In the figure: a first holding device 1, a first processing device 2, a second processing device 3, a first milling device 21, a first upper milling portion 211, a second upper milling portion 212, a third upper milling portion 213, a first upper milling cutter 2111, a second upper milling cutter 2121, a third upper milling cutter 2131, an arc-shaped groove 2132, a fourth upper milling portion 214, a first upper fillet milling cutter 2141, a second milling device 22, a fourth milling portion 221, a fourth milling cutter 2211, a milling tip 2212, a fifth milling portion 222, a first cutting portion 223, a first hinge base 2231, a first cutter 2232, a third milling device 31, a first lower milling portion 311, a second lower milling portion 312, a third lower milling portion 313, a first lower milling portion 1, a second lower milling portion 3121, a third lower milling portion 3131, a first arc-shaped protrusion 3132, a second arc-shaped protrusion 3133, a fourth lower milling portion 314, a first lower milling portion 313, a first lower milling cutter 3111, a second lower milling cutter 3131, a first lower milling cutter 3133133131, a first arc-shaped protrusion 3133132, a second arc-shaped protrusion 3133, a fourth lower milling portion 314, a first lower milling cutter 111, a first clamping mechanism 3111, a first milling cutter 3111, a first telescopic driving device 113, a second telescopic driving device 114, a first rotary driving device 115, a second rotary driving device 116, a first lifting driving device 117, a second lifting driving device 118, a first moving driving device 119, a plate processing device 4, a cutting mechanism 41, a plate conveying device 411, a cutting device 412, a second cutting part 413, a circular saw blade 4131, a fifth rotating motor 4132, a second moving driving device 414, a first positioning device 415, a first abutting part 4151, a second abutting part 4152, a first adsorption device 5, a first adsorption part 51, a second adsorption part 52, a wood chip removing device 53, a dust-proof cover body 6, a painting mechanism 7, a first painting mechanism 71, a second painting mechanism 72, a third painting mechanism 73, a fourth painting mechanism 74, a first transmission device 711, a first painting device 712, a third adsorption part 7111, a third moving driving device 7112, a first polishing part 7121, a first rotation driving device 7122, a first painting cover 713, a first air cleaning device 714, a first turning device 721, a second transmission device 722, a second polishing device 723, a first gripping part 7211, a second gripping part 7212, a fourth adsorption part 7221, a fourth movement driving device 7222, a second polishing part 7231, a third rotation driving device 7232, a second painting cover 724, a second air cleaning device 725, a second turning device 731, a third transmission device 732, a third polishing device 733, a third gripping part 7311, a fourth gripping part 7312, a fifth adsorption part 7321, a fifth movement driving device 7322, a third polishing part 7331, a fourth rotation driving device 7332, a third painting cover 734, a third air cleaning device 735, a third turning device 741, a fourth transmission device 742, a fourth polishing device 743, a fifth part 7311, a sixth adsorption part 7412, a sixth adsorption part 7421, a sixth mobile driving device 7422, a fourth polishing portion 7431, a fifth rotary driving device 7432, a fourth painting cover body 744, a fourth air purifying device 745, a first filling mechanism 8, a second clamping device 81, a fifth transmission device 82, a first filling device 83, a fifth drying device 84, a hydrogel spraying portion 831, a seventh mobile driving device 832, a hydrogel accommodating portion 8311, a hydrogel spraying gun 8312, a second filling mechanism 9, a feeding device 91, a first conveying device 92, a second positioning device 93, a conveying portion 921, a limiting portion 922, a first transmission portion 9211, a second transmission portion 9212, a guide portion 9221, a cutting portion 923, a seventh adsorption portion 931, an eighth adsorption portion 932, an eighth mobile driving device 933, a third abutting portion, a wood board 10, a first clamping groove 101, a first accommodating groove 102, a second accommodating groove 103, a first clamping protrusion 104, a second clamping protrusion 105, a second clamping groove 106, a third clamping protrusion 107, a relief groove 108, hydrogel 109 and an elastic sealing strip 110.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 15, the environment-friendly preparation system for the fireproof wood floor of the present invention comprises a processing mechanism for processing the wood floor 10; the processing mechanism comprises a first clamping device 1 for clamping the wood board 10, a first processing device 2 for processing a first preset shape on a first surface of one side of the wood board 10, and a second processing device 3 for processing a second preset shape on a second surface of the other side of the wood board 10; the first processing device 2 comprises a first milling device 21 for milling the first surface of the wood board 10, wherein the first milling device 21 comprises a first upper milling part 211, a second upper milling part 212 and a third upper milling part 213; the first upper milling portion 211 includes a first upper milling cutter 2111; the second upper milling portion 212 includes a second upper milling cutter 2121; the third upper milling part 213 includes a third upper milling cutter 2131, and an arc-shaped groove 2132 arranged around the outer circumferential surface of the third upper milling cutter 2131 is formed at the upper part of the outer circumferential surface of the third upper milling cutter 2131; the first upper milling portion 211, the second upper milling portion 212, and the third upper milling portion 213 are provided in this order along the conveying direction of the wood board 10.

Thus, after the wood board 10 is clamped by the first clamping device 1, the first clamping protrusion 105 clamped with the first clamping groove 101, the second clamping groove 106 matched with the first clamping protrusion 104 and the third clamping protrusion 107 matched with the second accommodating groove 103 are machined on the first surface of the wood board 10 by the first machining device 2 through the matching among the first upper milling cutter 2111, the second upper milling cutter 2121 and the third upper milling cutter 2131 (the second predetermined shape comprises the first clamping groove 101 machined on the second surface of the wood board 10, the first accommodating groove 102 and the second accommodating groove 103 machined on one side of the first clamping groove 101 and the first clamping protrusion 104 machined on the other side of the first clamping groove 101); the second clamping protrusion 105 on the first surface of the first wood board 10 is clamped in the first clamping groove 101 on the second surface of the second wood board 10, and meanwhile, the third clamping protrusion 107 is arranged in the second accommodating groove 103, so that the wood boards 10 and the wood boards 10 can be conveniently and quickly spliced; according to the invention, after one wood board 10 is damaged, as the splicing relationship between the adjacent wood boards 10 is in a state of being convex upwards and concave downwards, only the damaged wood board 10 needs to be disassembled, and then a new wood board 10 is assembled from the front, so that the situation that the wood boards 10 are spliced from the side and a certain yielding space is needed in the prior art is not needed, the splicing efficiency is improved, meanwhile, the wood boards 10 are more convenient and quicker to replace when damaged, the replacement efficiency is improved, and the labor intensity is reduced at the same time.

Preferably, the first upper milling portion 211 further includes a first upper rotating motor that drives the first upper milling cutter 2111 to rotate, and a first upper power cylinder that drives the first upper milling cutter 2111 to move in the milling direction; the second upper milling part 212 further includes a second upper rotating motor for driving the second upper milling cutter 2121 to rotate, and a second upper power cylinder for driving the second upper milling cutter 2121 to move in the milling direction; the third upper milling part 213 further includes a third upper rotating motor for driving the third upper milling cutter 2131 to rotate, and a third upper power cylinder for driving the third upper milling cutter 2131 to move in the milling direction. The first upper milling cutter 2111 is driven to rotate by the first upper rotating motor, the first upper power cylinder drives the first upper milling cutter 2111 to move along the length direction of the wood board 10, milling is performed from one side of the wood board 10 to the other side of the wood board 10, the second upper rotating motor drives the second upper milling cutter 2121 to rotate, the second upper power cylinder drives the second upper milling cutter 2121 to move along the length direction of the wood board 10, milling is performed from one side of the wood board 10 to the other side of the wood board 10, the third upper rotating motor drives the third upper milling cutter 2131 to rotate, the third upper power cylinder drives the third upper milling cutter 2131 to move along the length direction of the wood board 10, and milling is performed from one side of the wood board 10 to the other side of the wood board 10.

Preferably, in order to prevent the corners of the milled part of the wood board 10 from being scratched, the first milling device 21 further includes a fourth upper milled part 214 for rounding the milled part of the first surface of the wood board 10.

Preferably, the fourth upper milling part 214 includes a first upper radius cutter 2141, a fourth upper rotating motor that drives the first upper radius cutter 2141 to rotate, and a fourth upper power cylinder that drives the first upper radius cutter 2141 to move in the milling direction. The first upper fillet milling cutter 2141 is driven to rotate by the fourth upper rotating motor, the fourth upper power cylinder drives the first upper fillet milling cutter 2141 to move along the length direction of the wood board 10, and the fourth upper power cylinder is matched with the first clamping device 1 to round the milled positions.

Preferably, in order to facilitate the assembly between the adjacent boards 10 and to provide the boards 10 with a space for thermal expansion and contraction when exposed to moisture and heat, the first processing device 2 further includes a second milling device 22 for processing the relief groove 108 at the milled position of the first side of the board 10.

Preferably, the second milling device 22 includes a fourth milling portion 221 for milling the minor diameter of the relief groove. A small-diameter relief groove is milled upward at a predetermined position by the fourth milling part 221.

Preferably, the fourth milling part 221 includes a plurality of fourth milling cutters 2211; the adjacent fourth milling cutters 2211 are arranged perpendicular to each other. Specifically, the second milling device 22 further includes a motor for driving the fourth milling portion 221 to rotate, and an output end of the motor is connected to one end of the fourth milling portion.

Preferably, in order to improve the milling efficiency, the length dimension of the cutting surface of the plurality of fourth milling cutters 2211 is greater than that of the wood board 10.

Preferably, in order to improve milling efficiency, a plurality of milling tips 2212 are formed on a cutting surface of the fourth milling cutter 2211; a plurality of milling tips 2212 are equally spaced along the length of the cutting surface.

Preferably, in order to improve the connection strength between the fourth milling cutters 2211, the connection between the adjacent fourth milling cutters 2211 at the outer side is provided with a rounded corner.

Preferably, the second milling device 22 further includes a fifth milling portion 222 for milling the major diameter of the relief groove. After the small-diameter relief groove is milled in the fourth milling portion 221 by the fifth milling portion 222, a large-diameter relief groove is machined in an end portion of the small-diameter relief groove.

Preferably, the fifth milling portion 222 includes a plurality of first cutting portions 223; the plurality of first cutting portions 223 are provided at the round corners of the adjacent fourth milling cutters 2211, respectively. The plurality of first cutting portions 223 cut the small-diameter relief groove in the fourth cutting portion 221, and then the large-diameter relief groove is formed in the end portion of the small-diameter relief groove.

Preferably, in order to prolong the service life of the first cutting portion 223, a plurality of first cutting portions 223 are arranged around the central axis of the fourth milling portion 221 and staggered along the length direction of the cutting surface.

Preferably, the first cutting portion 223 includes a first hinge seat 2231 and a first cutter 2232; the first hinge base 2231 is connected to a junction of the adjacent fourth milling cutters 2211, and the first cutter 2232 is rotatably connected to the first hinge base 2231. As shown in fig. 3, specifically, when the fourth milling part 221 rotates counterclockwise, the cutting radius of the first cutting part 223 is smaller than the cutting radius of the milling tip 2212, so that the milling tip 2212 mills a small-diameter relief groove, when the fourth milling part 221 rotates clockwise, the cutting radius of the first cutting part 223 is larger than the cutting radius of the milling tip 2212, so that the plurality of first cutting parts 223 reversely rotate to mill a large-diameter relief groove after the milling tip 2212 mills a small-diameter relief groove with a certain length; through this groove 108 of stepping down, have the space of stepping down when making the plank 10 concatenation, the concatenation is easier, has certain expend with heat and contract with cold's space when weing or being heated simultaneously.

Preferably, the second machining means 3 comprise third milling means 31 for milling the second face of the wooden board 10. Through the third milling device 31, a first clamping groove 101 is processed on the second surface of the wood board 10, a first receiving groove 102 and a second receiving groove 103 are processed on one side of the first clamping groove 101, and a first clamping protrusion 104 is processed on the other side of the first clamping groove 101.

Preferably, the third milling means 31 comprise a first lower milling portion 311, a second lower milling portion 312 and a third lower milling portion 313; the first lower milling part 311 includes a first lower milling cutter 3111; the second lower milling portion 312 includes a second lower milling cutter 3121; the third lower milling part 313 includes a third lower milling cutter 3131, a middle portion of the third lower milling cutter 3131 forms a first arc protrusion 3132 disposed around an outer circumferential surface of the third lower milling cutter 3131, and an upper portion of the third lower milling cutter 3131 forms a second arc protrusion 3133 disposed around the outer circumferential surface of the third lower milling cutter 3131; the first lower milled portion 311, the second lower milled portion 312, and the third lower milled portion 313 are provided in this order along the conveying direction of the wood board 10. Through the cooperation among the first lower milling cutter 3111, the second lower milling cutter 3121 and the third lower milling cutter 3131 in the second processing device 3, a first clamping groove 101 is processed on the second surface of the wood board 10, a first receiving groove 102 and a second receiving groove 103 are processed on one side of the first clamping groove 101, and a first clamping protrusion 104 is processed on the other side of the first clamping groove 101.

Preferably, the first lower milling part 311 further includes a first lower rotating motor for driving the first lower milling cutter 3111 to rotate, and a first lower power cylinder for driving the first lower milling cutter 3111 to move in the milling direction; the second lower milling portion 312 further includes a second lower rotating motor that drives the second lower milling cutter 3121 to rotate, and a second lower power cylinder that drives the second lower milling cutter 3121 to move in the milling direction; the third lower milling part 313 further includes a third lower rotating motor driving the third lower milling cutter 3131 to rotate, and a third lower power cylinder driving the third lower milling cutter 3131 to move in the milling direction. The first lower milling cutter 3111 is driven to rotate by the first lower rotating motor, the first lower power cylinder drives the first lower milling cutter 3111 to move along the length direction of the wood board 10, milling is performed from one side of the wood board 10 to the other side of the wood board 10, the second lower rotating motor drives the second lower milling cutter 3121 to rotate, the second lower power cylinder drives the second lower milling cutter 3121 to move along the length direction of the wood board 10, milling is performed from one side of the wood board 10 to the other side of the wood board 10, the third lower rotating motor drives the third lower milling cutter 3131 to rotate, the third lower power cylinder drives the third lower milling cutter 3131 to move along the length direction of the wood board 10, and milling is performed from one side of the wood board 10 to the other side of the wood board 10.

Preferably, in order to prevent the corners of the milled places of the wooden boards 10 from being scratched, the third milling device 31 further includes a fourth lower milling portion 314 for rounding the milled places of the second surface of the template.

Preferably, the fourth lower milling part 314 includes a first lower radius cutter 3141, a fourth lower rotating motor driving the first lower radius cutter 3141 to rotate, and a fourth lower power cylinder driving the first lower radius cutter 3141 to move in the milling direction. The first lower fillet milling cutter 3141 is driven to rotate by a fourth lower rotating motor, the first lower fillet milling cutter 3141 is driven to move along the length direction of the wood board 10 by a fourth lower power cylinder, and the fourth lower power cylinder is matched with the first clamping device 1 to round the milled positions.

Preferably, in order to improve the processing efficiency and the processing stability, the first clamping device 1 includes a first clamping mechanism 11 that clamps the wood board 10.

Preferably, in order to improve the processing efficiency and the processing stability, the first clamping mechanism 11 includes a first clamping portion 111 that clamps one end of the wood board 10, and a second clamping portion 112 that clamps the other end of the wood board 10.

Preferably, the first clamping portion 111 includes a first clamping hand, a second clamping hand, and a first opening and closing driving device for driving the first clamping hand and the second clamping hand to open and close; the second clamping portion 112 includes a third clamping hand, a fourth clamping hand, and a second opening/closing driving device for driving the third clamping hand and the fourth clamping hand to open and close. The first opening and closing driving device drives the first clamping hand and the second clamping hand to open and close to clamp one side of the wood board 10, and the second opening and closing driving device drives the third clamping hand and the fourth clamping hand to open and close to clamp the other side of the wood board 10; specifically, the first opening and closing driving device and the second opening and closing driving device are both bidirectional opening and closing cylinders.

Preferably, the first clamping mechanism 11 further includes a first telescopic driving device 113 for driving the first clamping portion 111 to extend and retract, a second telescopic driving device 114 for driving the second clamping portion 112 to extend and retract, a first rotary driving device 115 for driving the first clamping portion 111 to rotate, a second rotary driving device 116 for driving the second clamping portion 112 to rotate, a first lifting driving device 117 for driving the first clamping portion 111 to lift, a second lifting driving device 118 for driving the second clamping portion 112 to lift, and a first moving driving device 119 for driving the first clamping portion 111 and the second clamping portion 112 to move along the processing direction. The first telescopic driving device 113 and the second telescopic driving device 114 respectively drive the first clamping portion 111 and the second clamping portion 112 to extend out along the length of the wood board 10, after the first moving driving device 119 moves the first clamping portion 111 and the second clamping portion 112 to a preset station for clamping the wood board 10, the first telescopic driving device 113 and the second telescopic driving device 114 respectively drive the first clamping portion 111 and the second clamping portion 112 to retract, the first clamping portion 111 clamps one side of the wood board 10, the second clamping portion 112 clamps the other side of the wood board 10, the first lifting driving device 117 and the second lifting driving device 118 simultaneously drive the lifting of the wood board 10, the wood board 10 is kept parallel to a cutting plane, and the first moving driving device 119, the first lifting driving device 117 and the second lifting driving device 118 cooperate to enable the wood board 10 to be gradually lifted by the first upper milling cutter 2111, the second upper milling cutter 2121 and the second lifting driving device 118 at the first processing device 2, The third upper milling cutter 2131, the second milling cutter 22 and the first upper fillet milling cutter 2141 mill and cut into a first preset shape, the first rotary driving device 115 and the second rotary driving device 116 respectively drive the first clamping part 111 and the second clamping part 112 to rotate 180 degrees, the wood board 10 is turned over, the second face of the wood board 10 faces downwards, and the first moving driving device 119, the first lifting driving device 117 and the second lifting driving device 118 cooperate to gradually mill and cut the wood board 10 into a second preset shape at the second processing device 3 by the first lower milling cutter 3111, the second lower milling cutter 3121, the third lower milling cutter 3131 and the first lower fillet milling cutter 3141; specifically, the first telescopic driving device 113, the second telescopic driving device 114, the first rotary driving device 115, the second rotary driving device 116, the first lifting driving device 117 and the second lifting driving device 118 are all driven by cylinders, and the first mobile driving device 119 comprises a connecting arm, a first sliding rail, a second sliding rail, a first lead screw, a second lead screw, a fifth motor and a sixth motor; first lift drive 117 and second lift drive 118 connect respectively in the bottom of linking arm, the one end sliding connection of linking arm is in the first spout of first slide rail, the other end sliding connection of linking arm is in the second spout of second slide rail, the one end of first lead screw passes the one side that the linking arm is in the first spout, the other end of first lead screw links together with the output of fifth motor, the one end of second lead screw passes the one side that the linking arm is in the second spout, the other end of second lead screw links together with the output of sixth motor.

Preferably, in order to improve the processing efficiency, the processing mechanism further includes a board material processing device 4 for processing the board material into the wood board 10.

Preferably, in order to improve the processing efficiency, the plate material processing device 4 includes a cutting mechanism 41 that cuts the plate material.

Preferably, in order to improve the processing efficiency, the cutting mechanism 41 includes a plate material conveying device 411 that conveys the plate material, and a cutting device 412 that cuts the plate material.

Preferably, the cutting device 412 comprises a second cutting portion 413. The board material is gradually cut into the wood boards 10 by the second cutting portion 413.

Preferably, in order to improve the processing efficiency, the second cutting part 413 includes a disc saw blade 4131, and a fifth rotating motor 4132 driving the disc saw blade 4131 to rotate.

Preferably, in order to improve the processing efficiency, the cutting device 412 further includes a second movement driving device 414 that drives the second cutting portion 413 to move in the width direction of the plate material. Specifically, the second movement driving device 414 includes a connecting seat, a third lead screw, a connecting frame, a first guide rail and a seventh motor; the second cutting part 413 is connected to one end of a connecting seat, the connecting seat is slidably connected to the first guide rail, one end of a third lead screw penetrates through the connecting seat and is rotatably connected with the connecting frame, and the other end of the third lead screw is connected with the output end of a seventh motor.

Preferably, to facilitate cutting the sheet material, the cutting mechanism 41 further includes a first positioning device 415 for positioning the sheet material.

Preferably, the first positioning device 415 includes a first abutting portion 4151 abutting against one side of the plate material, and a second abutting portion 4152 abutting against the other side of the plate material. The plate is positioned through the first abutting part 4151 and the second abutting part 4152, so that the cutting is facilitated; specifically, the first abutting portion 4151 includes a first abutting block and a first abutting cylinder for driving the first abutting block to abut against one side of the plate, and the second abutting portion 4152 includes a second abutting block and a second abutting cylinder for driving the second abutting block to abut against the other side of the plate.

Preferably, in order to improve the working efficiency, the processing mechanism further includes a first adsorption device 5 for adsorbing the cut wood board 10.

Preferably, the first adsorption means 5 includes a first adsorption part 51 and a second adsorption part 52 adsorbing the wood board 10. The wood board 10 is adsorbed by the first adsorption part 51 and the second adsorption part 52, and the first adsorption part 51 and the second adsorption part 52 form negative pressure on the contact surfaces of the first adsorption part 51 and the second adsorption part 52 and the wood board 10 by the vacuum adsorption principle, so that the wood board 10 is firmly adsorbed on the first adsorption part 51 and the second adsorption part 52; specifically, the first adsorption device 5 further comprises a first rotating motor for driving the first adsorption part 51 to rotate and a second rotating motor for driving the second adsorption part 52 to rotate, and the first rotating motor and the second rotating motor respectively drive the first adsorption part 51 and the second adsorption part 52 to rotate 90 degrees at the same time, so that the wood board 10 is changed from a vertical state to a horizontal state, and the first clamping device 1 is convenient for clamping the wood board 10.

Preferably, in order to clean the surface of the wood board 10 after processing, the processing mechanism further includes a wood chip removing device 53 for removing wood chips on the wood board 10.

Preferably, a dust-proof cover body 6 is also included; the dust-proof cover body 6 covers the processing mechanism. Locate processing mechanism through 6 covers of dust cover body, make the saw-dust in the processing mechanism in certain extent, be convenient for clear up the saw-dust, reduce staff's intensity of labour, environmental protection simultaneously.

Preferably, a painting mechanism 7 is further included for painting the surface of the wooden board 10. The painting mechanism 7 paints the surface of the wood board 10, so that the service life of the wood board 10 is prolonged, and the wood board 10 has certain aesthetic property. Specifically, a transfer device for transferring the wood board 10 from the first clamping device 1 to the painting mechanism 7 is arranged between the processing mechanism and the painting mechanism 7; the transfer device comprises a vacuum adsorption head for adsorbing the wood board 10, a rotary cylinder for driving the vacuum adsorption head to rotate, a moving mechanism for driving the vacuum adsorption head to move along a preset track, and a rotary base for driving the moving mechanism to rotate between the processing mechanism and the painting mechanism 7; moving mechanism's one end and revolving cylinder link together, and moving mechanism's the other end and rotating base link together, and moving mechanism is including driving a plurality of connecting rods, connects through the motor between each adjacent connecting rod, and through motor drive connecting rod flexible and lift, it is flexible and lift to drive the vacuum adsorption head, and revolving cylinder's output and vacuum adsorption head link together, and drive vacuum adsorption head moves the required angle of plank 10 rotations to processing.

Preferably, in order to prolong the service life of the wood board 10 and provide the wood board 10 with fireproof performance, the painting mechanism 7 comprises a first painting mechanism 71 for painting a first side of the wood board 10 with an anticorrosive paint, a second painting mechanism 72 for painting a second side of the wood board 10 with an anticorrosive paint, a third painting mechanism 73 for painting a first side of the wood board 10 with a fireproof paint, and a fourth painting mechanism 74 for painting a second side of the wood board 10 with a fireproof paint; the first painting mechanism 71, the second painting mechanism 72, the third painting mechanism 73, and the fourth painting mechanism 74 are arranged in this order along the conveying direction of the wooden board 10.

Preferably, the first painting mechanism 71 includes a first conveying device 711 for conveying the wood board 10, a first polishing device 712 for polishing the wood board 10, a first painting device for painting a first surface of the wood board 10, and a first drying device for drying the wood board 10; the first polishing device 712, the first painting device, and the first drying device are sequentially disposed along the conveying direction of the wood board 10. The wood board 10 is placed on the first conveying device 711, the first conveying device 711 drives the wood board 10 to polish the first surface of the wood board 10 through the first polishing device 712, and after the first painting device paints the first surface of the wood board 10, the first drying device dries the anti-corrosion paint, so that the second surface can be painted conveniently.

Preferably, in order to improve the efficiency of painting on the first side, the first painting device comprises a first painting portion and a second painting portion; the first painting portion and the second painting portion are sequentially arranged along the conveying direction of the wood board 10.

Preferably, in order to improve the efficiency of painting on the first surface, the first painting part comprises a first paint containing box containing anticorrosive paint and a first painting brush in contact with the first surface of the wood board 10, the first paint containing box is positioned above the first painting brush, the first painting brush is communicated with the first paint containing box, and the width dimension of the first painting brush is equal to the length dimension of the wood board 10; the second painting portion comprises a second paint containing box containing anticorrosive paint and a second painting brush in contact with the first surface of the wood board 10, the second paint containing box is located above the second painting brush, the second painting brush is communicated with the second paint containing box, and the width of the second painting brush is equal to the length of the wood board 10.

Preferably, the first transport device 711 includes a third suction portion 7111 that carries and sucks the wood board 10, and a third movement driving device 7112 that drives the third suction portion 7111 to move. Placing the wood board 10 on the third adsorption part 7111, forming a circulation part for gas circulation on the upper surface of the third adsorption part 7111, and forming negative pressure between the wood board 10 and the third adsorption part 7111 by using a vacuum adsorption principle, so that the wood board 10 is firmly adsorbed on the third adsorption part 7111; the third mobile driving device 7112 comprises a first slide way, a second slide way, a first sliding plate, pulleys at two ends of the first sliding plate, and a power motor for driving the pulleys to rotate; third absorption portion 7111 is located on first slide, and the both ends of first slide pass through pulley sliding connection respectively in first slide and second slide.

Preferably, in order to make the surface of the first face smooth without wood chips easily attached with paint, the first grinding device 712 includes a first grinding part 7121, and a first rotation driving device 7122 driving the first grinding part 7121 to rotate; the outer circumferential surface of the first abrasive part 7121 is formed with abrasive grains in contact with the first surface of the wood board 10. Specifically, the first rotary drive 7122 is motor driven.

Preferably, in order to avoid the spread of the taste of the paint during painting, the first painting mechanism 71 further includes a first painting enclosure 713; the first painting device and the first drying device are disposed in the first painting enclosure 713. Specifically, the first painting enclosure 713 also includes an opening and closing door into which the first transport device 711 enters.

Preferably, in order to improve the working environment of the workers, the first painting mechanism 71 further comprises a first air cleaning device 714; the first air cleaning device 714 is disposed in the first painting enclosure 713. Specifically, the first air purification device 714 includes an air purifier.

Preferably, the second painting mechanism 72 includes a first turning device 721 for turning over the wood board 10, a second conveying device 722 for conveying the wood board 10, a second polishing device 723 for polishing the wood board 10, a second painting device for painting a second side of the wood board 10, and a second drying device for drying the wood board 10; the first turning device 721, the second polishing device 723, the second painting device and the second drying device are sequentially arranged along the conveying direction of the wood board 10. The second side of the wood board 10 faces upwards through the first turnover device 721, the second conveying device 722 conveys the wood board 10 to the second grinding device 723 to grind the second side of the wood board 10, and after the second painting device paints the second side of the wood board 10, the second drying device dries paint on the second side, so that the first side is conveniently painted with fireproof paint.

Preferably, the first flipping unit 721 includes a first catching portion 7211 to catch one side of the wood board 10, a second catching portion 7212 to catch the other side of the wood board 10, and a second rotation driving unit to drive the first and second catching portions 7211 and 7212 to rotate. After the wood board 10 is grabbed by the first grabbing part 7211 and the second grabbing part 7212, the second rotary driving device drives the first grabbing part 7211 and the second grabbing part 7212 to rotate 180 degrees, so that the second surface of the wood board 10 faces upwards; specifically, the first grip portion 7211 includes first and second grip plates that are in contact with the surface of the wooden board 10, and a third opening and closing driving device that drives the first and second grip plates to open and close; the third opening and closing driving device comprises a first air cylinder and a second air cylinder, the output end of the first air cylinder is connected with the first grabbing plate, and the output end of the second air cylinder is connected with the second grabbing plate; the second grasping portion 7212 includes a third grasping plate and a fourth grasping plate that contact the surface of the wood board 10, and a fourth opening/closing driving device that drives the third grasping plate and the fourth grasping plate to open and close; the fourth switching driving device comprises a third air cylinder and a fourth air cylinder, the output end of the third air cylinder is connected with the third grabbing plate, and the output end of the fourth air cylinder is connected with the fourth grabbing plate; the second rotation driving device includes a third motor and a fourth motor, an output end of the third motor is connected to the first grasping portion 7211, and an output end of the fourth motor is connected to the second grasping portion 7212.

Preferably, in order to increase the efficiency of painting on the second side, the second painting device comprises a third painting portion and a fourth painting portion; the third painting portion and the fourth painting portion are sequentially arranged along the conveying direction of the wood board 10.

Preferably, in order to improve the painting efficiency on the second surface, the third painting part comprises a third paint containing box containing anticorrosive paint and a third painting brush in contact with the second surface of the wood board 10, the third paint containing box is positioned above the third painting brush, the third painting brush is communicated with the third paint containing box, and the width dimension of the third painting brush is equal to the length dimension of the wood board 10; the fourth painting portion comprises a fourth paint containing box containing anticorrosive paint and a fourth painting brush in contact with the second surface of the wood board 10, the fourth paint containing box is located above the fourth painting brush, the fourth painting brush is communicated with the fourth paint containing box, and the width of the fourth painting brush is equal to the length of the wood board 10.

Preferably, the second transfer device 722 includes a fourth suction portion 7221 that carries and sucks the wood board 10, and a fourth movement driving device 7222 that drives the fourth suction portion 7221 to move. Placing the wood board 10 on the fourth adsorption part 7221, forming a circulation part for gas circulation on the upper surface of the fourth adsorption part 7221, and forming negative pressure between the wood board 10 and the fourth adsorption part 7221 by using the vacuum adsorption principle, so that the wood board 10 is firmly adsorbed on the fourth adsorption part 7221; the fourth movement driving device 7222 comprises a third slide way, a fourth slide way, a second slide plate, pulleys at two ends of the second slide plate, and a power motor for driving the pulleys to rotate; the fourth adsorption part 7221 is disposed on the second slide plate, and both ends of the second slide plate are respectively slidably connected to the third slide rail and the fourth slide rail through pulleys.

Preferably, in order to make the surface of the second side smooth without wood chips easily attached with paint, the second sanding device 723 includes a second sanding section 7231, and a third rotational driving device 7232 driving the second sanding section 7231 to rotate; the outer circumferential surface of the second sanding portion 7231 is formed with abrasive grains in contact with the second surface of the wood board 10. In particular, the third rotary drive is motor driven.

Preferably, to avoid the spread of the taste of the paint in the painting, the second painting mechanism 72 further comprises a second painting enclosure 724; the second painting device and the second drying device are arranged in the second painting cover body 724. Specifically, the second painting mask body 724 further includes an opening and closing door for the second transfer device 722 to enter.

Preferably, in order to improve the working environment of the working personnel, the second painting mechanism 72 further comprises a second air cleaning device 725; a second air cleaning device 725 is disposed within the second paint mask body 724. Specifically, the second air purification device 725 includes an air purifier.

Preferably, the third painting mechanism 73 includes a second turning device 731 for turning over the wood board 10, a third conveying device 732 for conveying the wood board 10, a third polishing device 733 for polishing the wood board 10, a third painting device for painting the first surface of the wood board 10, and a third drying device for drying the wood board 10; the second turnover device 731, the third polishing device 733, the third painting device and the third drying device are sequentially arranged along the conveying direction of the wood board 10. The first surface of the wood board 10 faces upwards through the second overturning device 731, the wood board 10 is conveyed to the third polishing device 733 by the third conveying device 732 to be polished again on the first surface of the wood board 10, and after the fireproof paint is brushed on the first surface of the wood board 10 by the third paint brushing device, the paint on the first surface is dried by the third drying device, so that the fireproof paint is brushed on the second surface conveniently.

Preferably, the second turnover device 731 includes a third grabbing portion 7311 for grabbing one side of the wood board 10, a fourth grabbing portion 7312 for grabbing the other side of the wood board 10, and a third rotation driving device 7232 for driving the third grabbing portion 7311 and the fourth grabbing portion 7312 to rotate. After the third grabbing portion 7311 and the fourth grabbing portion 7312 grab the wood board 10, the third rotation driving device 7232 drives the third grabbing portion 7311 and the fourth grabbing portion 7312 to rotate 180 degrees, so that the first surface of the wood board 10 faces upward; specifically, the third grabbing portion 7311 includes a fifth grabbing plate and a sixth grabbing plate which are in contact with the surface of the wood board 10, and a fifth opening and closing driving device which drives the fifth grabbing plate and the sixth grabbing plate to open and close; the fifth opening and closing driving device comprises a fifth air cylinder and a sixth air cylinder, the output end of the fifth air cylinder is connected with the fifth grabbing plate, and the output end of the sixth air cylinder is connected with the sixth grabbing plate; the fourth grabbing portion 7312 includes a seventh grabbing plate and an eighth grabbing plate which are in contact with the surface of the wood board 10, and a sixth opening and closing driving device which drives the seventh grabbing plate and the eighth grabbing plate to open and close; the sixth opening and closing driving device comprises a seventh air cylinder and an eighth air cylinder, the output end of the seventh air cylinder is connected with the seventh grabbing plate, and the output end of the eighth air cylinder is connected with the eighth grabbing plate; the third rotation driving device 7232 includes a seventh motor and an eighth motor, an output end of the seventh motor is connected to the third grasping portion 7311, and an output end of the eighth motor is connected to the fourth grasping portion 7312.

Preferably, in order to improve the efficiency of painting on the first side, the third painting device comprises a fifth painting portion and a sixth painting portion; the fifth painting portion and the sixth painting portion are sequentially arranged along the conveying direction of the wood board 10.

Preferably, in order to improve the efficiency of painting on the first surface, the fifth painting part comprises a fifth paint containing box for containing fireproof paint and a fifth painting brush in contact with the first surface of the wood board 10, the fifth paint containing box is positioned above the fifth painting brush, the fifth painting brush is communicated with the fifth paint containing box, and the width dimension of the fifth painting brush is equal to the length dimension of the wood board 10; the sixth painting portion comprises a sixth paint containing box containing fireproof paint and a sixth painting brush in contact with the first surface of the wood board 10, the sixth paint containing box is located above the sixth painting brush, the sixth painting brush is communicated with the sixth paint containing box, and the width of the sixth painting brush is equal to the length of the wood board 10.

Preferably, the third transfer device 732 includes a fifth suction portion 7321 that carries and sucks the wood board 10, and a fifth movement driving device 7322 that drives the fifth suction portion 7321 to move. Placing the wood board 10 on the fifth absorption part 7321, forming a circulation part for gas circulation on the upper surface of the fifth absorption part 7321, and forming a negative pressure between the wood board 10 and the fifth absorption part 7321 by the vacuum absorption principle, so that the wood board 10 is firmly absorbed on the fifth absorption part 7321; the fifth movement driving device 7322 includes a fifth slide way, a sixth slide way, a third slide board, pulleys at two ends of the third slide board, and a power motor for driving the pulleys to rotate; the fifth absorption part 7321 is disposed on the third sliding plate, and two ends of the third sliding plate are respectively connected to the fifth slideway and the sixth slideway in a sliding manner through pulleys.

Preferably, in order to smooth the surface of the first face, the third grinding device 733 includes a third grinding part 7331, and a fourth rotation driving device 7332 driving the third grinding part 7331 to rotate; the outer circumferential surface of the third grinding portion 7331 is formed with abrasive grains contacting the first surface of the wood board 10.

Preferably, to avoid flavor spread of the paint in the painting, the third painting mechanism 73 includes a third painting enclosure 734; the third painting device and the third drying device are disposed in the third painting enclosure 734. Specifically, the third painting cover body 734 further includes an opening and closing door for the third transfer device 732 to enter.

Preferably, in order to improve the working environment of the working personnel, the third painting mechanism 73 further comprises a third air cleaning device 735; a third air cleaning device 735 is disposed within the third brash cover 734. Specifically, the third air cleaning device 735 includes an air cleaner.

Preferably, the fourth painting mechanism 74 includes a third turnover device 741 that turns over the wooden board 10, a fourth transfer device 742 that transfers the wooden board 10, a fourth polishing device 743 that polishes the wooden board 10, a fourth painting device that paints a second side of the wooden board 10, and a fourth drying device that dries the wooden board 10; the third turnover device 741, the fourth polishing device 743, the fourth painting device and the fourth drying device are sequentially arranged along the conveying direction of the wood board 10. The second side of the wooden board 10 is turned upwards by the third turnover device 741, the fourth conveying device 742 conveys the wooden board 10 to the fourth polishing device 743 for polishing the second side of the wooden board 10 again, and the fourth drying device dries the paint on the second side after the fourth side of the wooden board 10 is painted with the fireproof paint.

Preferably, the third turnover device 741 includes a fifth grip portion 7411 for gripping one side of the wood board 10, a sixth grip portion 7412 for gripping the other side of the wood board 10, and a fourth rotation driving device 7332 for driving the fifth grip portion 7411 and the sixth grip portion 7412 to rotate. After the wood board 10 is grabbed by the fifth grabbing portion 7411 and the sixth grabbing portion 7412, the fourth rotating driving device 7332 drives the fifth grabbing portion 7411 and the sixth grabbing portion 7412 to rotate 180 degrees, so that the second surface of the wood board 10 faces upward; specifically, the fifth grasping section 7411 includes a ninth grasping plate and a tenth grasping plate that are in contact with the surface of the wood board 10, and a seventh opening and closing driving device that drives the ninth grasping plate and the tenth grasping plate to open and close; the seventh opening and closing driving device comprises a ninth cylinder and a tenth cylinder, the output end of the ninth cylinder is connected with the ninth grabbing plate, and the output end of the tenth cylinder is connected with the tenth grabbing plate; the sixth grasping section 7412 includes an eleventh grasping plate and a twelfth grasping plate that contact the surface of the wood board 10, and an eighth opening/closing driving device that drives the eleventh grasping plate and the twelfth grasping plate to open and close; the eighth opening and closing driving device comprises an eleventh air cylinder and a twelfth air cylinder, the output end of the eleventh air cylinder is connected with the eleventh grabbing plate, and the output end of the twelfth air cylinder is connected with the twelfth grabbing plate; the fourth rotation driving device 7332 includes an eleventh motor and a twelfth motor, an output end of the eleventh motor is connected to the fifth grasping portion 7411, and an output end of the twelfth motor is connected to the sixth grasping portion 7412.

Preferably, in order to increase the efficiency of painting on the second side, the fourth painting device comprises a seventh painting portion and an eighth painting portion; the seventh painting portion and the eighth painting portion are sequentially arranged along the conveying direction of the wood board 10.

Preferably, in order to improve the painting efficiency on the second surface, the seventh painting part comprises a seventh paint containing box for containing fireproof paint and a seventh painting brush in contact with the second surface of the wood board 10, the seventh paint containing box is positioned above the seventh painting brush, the seventh painting brush is communicated with the seventh paint containing box, and the width dimension of the seventh painting brush is equal to the length dimension of the wood board 10; the eighth painting portion includes an eighth paint containing box containing fireproof paint and an eighth painting brush in contact with the second surface of the wood board 10, the eighth paint containing box is located above the eighth painting brush, the eighth painting brush is communicated with the eighth paint containing box, and the width of the eighth painting brush is equal to the length of the wood board 10.

Preferably, the fourth transfer device 742 includes a sixth suction portion 7421 that carries and sucks the wood board 10, and a sixth movement driving device 7422 that drives the sixth suction portion 7421 to move. Placing the wood board 10 on the sixth adsorption part 7421, forming a circulation part for gas circulation on the upper surface of the sixth adsorption part 7421, and forming negative pressure between the wood board 10 and the sixth adsorption part 7421 by using the vacuum adsorption principle, so that the wood board 10 is firmly adsorbed on the sixth adsorption part 7421; the sixth mobile driving device 7422 comprises a seventh slide way, an eighth slide way, a fourth slide board, pulleys at two ends of the fourth slide board, and a power motor for driving the pulleys to rotate; the sixth adsorption part 7421 is disposed on the fourth sliding plate, and two ends of the fourth sliding plate are respectively connected to the seventh slideway and the eighth slideway by sliding wheels.

Preferably, in order to smooth the surface of the second face, the fourth polishing device 743 includes a fourth polishing section 7431, and a fifth rotational driving device 7432 driving the fourth polishing section 7431 to rotate; the outer circumferential surface of the fourth grinding section 7431 is formed with abrasive particles in contact with the first surface of the wood board 10.

Preferably, to avoid the spread of the smell of paint in the painting, fourth painting mechanism 74 includes a fourth painting enclosure 744; a fourth painting device and a fourth drying device are disposed in the fourth painting mask body 744. Specifically, the fourth painting cover 744 further includes an opening and closing door for the fourth transferring device 742 to enter.

Preferably, in order to improve the working environment of the working personnel, the fourth painting mechanism 74 further comprises a fourth air cleaning device 745; a fourth air cleaning device 745 is disposed within the fourth brash housing 744. Specifically, the fourth air purification device 745 includes an air purifier.

Preferably, the wood board further comprises a first filling mechanism 8 for filling the hydrogel 109 in the first receiving groove 102 of the wood board 10. After the wood board 10 is spliced and damped, water is absorbed through the hydrogel 109, so that the bottom of the wood board is prevented from mildewing, and the service life of the wood board 10 is prolonged. Specifically, the hydrogel is a viscous hydrogel, and the hydrogel is attached in the first accommodating groove.

Preferably, the first filling mechanism 8 comprises a second clamping device 81 for clamping the wood board 10, a fifth conveying device 82 for conveying the wood board 10, a first filling device 83 for filling the hydrogel 109 in the first accommodating groove 102 of the wood board 10, and a fifth drying device 84 for drying and solidifying the hydrogel 109. The wood boards 10 conveyed by the fourth conveying device 742 are clamped by the second clamping device 81, and the wood boards 10 conveyed by the second clamping device 81 are conveyed by the fifth conveying device 82 to the first filling device 83 to be filled with hydrogel 109 and then conveyed to the fifth drying device 84 to be dried; specifically, the second clamping device 81 includes a third clamping portion that clamps one side of the wood board 10, and a fourth clamping portion that clamps the other side of the wood board 10; the third clamping part comprises a first clamping plate and a second clamping plate which are contacted with the surface of the wood board 10, and a ninth opening and closing driving device for driving the first clamping plate and the second clamping plate to open and close; the ninth opening and closing driving device comprises a thirteenth air cylinder and a fourteenth air cylinder, the output end of the thirteenth air cylinder is connected with the first clamping plate, and the output end of the fourteenth air cylinder is connected with the second clamping plate; the fourth clamping part comprises a third clamping plate and a fourth clamping plate which are in contact with the surface of the wood board 10, and a tenth opening and closing driving device for driving the third clamping plate and the fourth clamping plate to open and close; the tenth opening and closing driving device comprises a fifteenth air cylinder and a sixteenth air cylinder, the output end of the fifteenth air cylinder is connected with the third clamping plate, and the output end of the sixteenth air cylinder is connected with the fourth clamping plate; the fifth transport device 82 includes a ninth suction portion that carries and sucks the wood board 10, and a ninth movement driving device that drives the ninth suction portion to move; the wood board 10 is placed on the ninth adsorption part, a circulation part for gas circulation is formed on the upper surface of the ninth adsorption part, and negative pressure is formed between the wood board 10 and the ninth adsorption part through the vacuum adsorption principle, so that the wood board 10 is firmly adsorbed on the ninth adsorption part.

Preferably, the first filling device 83 includes a hydrogel spraying portion 831 that outputs the hydrogel 109, and a seventh movement driving device 832 that drives the hydrogel spraying portion 831 to move along the length direction of the wood board 10. The seventh moving driving device 832 drives the hydrogel spraying part 831 to move, so that the hydrogel spraying part 831 uniformly outputs the hydrogel 109 at a predetermined position of the wood board 10; the output end of the seventh mobile driving device is connected with the lifting cylinder; specifically, the seventh movement driving device 832 is a cylinder drive.

Preferably, in order to improve work efficiency, the hydrogel spraying part 831 includes a hydrogel accommodating part 8311 accommodating the hydrogel 109, and a hydrogel spraying gun 8312 outputting the hydrogel 109. Specifically, the hydrogel spray gun is in communication with the hydrogel containment portion.

Preferably, the wood board packaging machine further comprises a second filling mechanism 9 for filling the elastic sealing strip 110 in the second accommodating groove 103 of the wood board 10. Through the elastic sealing strip 110, water is extremely difficult to permeate into the lower part of the wood board 10 after the wood board 10 is spliced, and the permeated part is absorbed through the hydrogel 109 after the water permeates into the lower part of the wood board 10; specifically, the elastic sealing strip 110 is made of a silica gel material.

Preferably, the second filling mechanism 9 includes a feeding device 91 that feeds out the elastic sealing tape 110, a first conveying device 92 that conveys the elastic sealing tape 110, and a second positioning device 93 that positions the elastic sealing tape 110. The elastic sealing strip 110 is output by the feeding device 91, the first conveying device 92 conveys the elastic sealing strip 110 to a preset position, and the second positioning device 93 enables the assembly of the elastic sealing strip 110 to be more stable and accurate.

Preferably, in order to improve the conveying efficiency and the conveying accuracy of the elastic weather strip 110, the first conveying device 92 includes a conveying portion 921 for conveying the elastic weather strip 110, and a stopper portion 922 for stopping the elastic weather strip 110.

Preferably, in order to improve the conveying efficiency of the elastic weather strip 110, the conveying portion 921 includes a first transmission portion 9211 and a second transmission portion 9212; the first transmission portion 9211 and the second transmission portion 9212 are provided in order along the conveying direction of the elastic weather strip 110.

Preferably, in order to improve the conveying efficiency of the elastic weather strip 110, the first transmission portion 9211 includes a first transmission roller and a second transmission roller; the clearance that elastic sealing strip 110 passed has between first driving roller and the second driving roller, and the equal vertical setting of axis of first driving roller and second driving roller.

Preferably, in order to improve the conveying efficiency of the elastic sealing tape 110, the first transmission portion 9211 further includes a first transmission motor for driving the first transmission roller to rotate, and a second transmission motor for driving the second transmission roller to rotate.

Preferably, in order to improve the conveying efficiency of the elastic weather strip 110, the second transmission portion 9212 includes a third transmission roller and a fourth transmission roller; the third driving roller and the fourth driving roller are provided with a gap for the elastic sealing strip 110 to pass through, and the axes of the third driving roller and the fourth driving roller are vertically arranged.

Preferably, in order to improve the conveying efficiency of the elastic sealing strip 110, the second transmission portion 9212 further includes a third transmission motor for driving the third transmission roller to rotate, and a fourth transmission motor for driving the fourth transmission roller to rotate.

Preferably, in order to improve the conveying accuracy of the elastic weather strip 110, the stopper portion 922 includes a plurality of guide portions 9221; the guide portion 9221 has a guide hole through which the elastic weather strip 110 passes.

Preferably, the first conveying device 92 further includes a cutting portion 923 for cutting the elastic sealing tape 110. After the elastic sealing strip 110 is completely assembled at the predetermined position of the wood board 10 (the second receiving groove 103), the cutting portion 923 cuts off the elastic sealing strip 110.

Preferably, the second positioning device 93 includes a seventh suction portion 931 and an eighth suction portion 932 that suction the elastic weather strip 110, and an eighth movement driving device 933 that drives the seventh suction portion 931 and the eighth suction portion 932 to move in the conveying direction of the elastic weather strip 110. After the seventh absorbing portion 931 and the eighth absorbing portion 932 absorb the elastic weatherstrip 110, outputting the elastic weatherstrip to a predetermined length (equal to the length of the second receiving groove 103), the cutting portion 923 cuts the elastic weatherstrip 110, and the eighth mobile driving device 933 drives the seventh absorbing portion 931 and the eighth absorbing portion 932 to gradually and completely assemble the elastic weatherstrip 110 in the second receiving groove 103; specifically, the seventh suction portion 931 and the eighth suction portion 932 form a negative pressure at the contact surface with the elastic weather strip 110 by the vacuum suction principle, so that the elastic weather strip 110 is firmly sucked to the seventh suction portion 931 and the eighth suction portion 932, and the eighth moving drive device 933 is cylinder-driven.

Preferably, in order to make the seventh absorbing portion 931 and the eighth absorbing portion 932 have force bearing points to facilitate absorbing the elastic sealing strip 110, the second positioning device 93 further includes a third abutting portion 934 for abutting against the elastic sealing strip 110.

(1) processing the board to form a board 10;

(2) processing a first surface of one side of the wood board 10 to form a first predetermined shape;

(3) processing a second surface of the other side of the wood board 10 to form a second predetermined shape;

(4) painting the surface of the wood board 10;

(5) filling the material in the second predetermined shape of the second side of the wood board 10;

in the step (3), the second predetermined shape includes processing a first clamping groove 101 on the second surface of the wood board 10, processing a first receiving groove 102 and a second receiving groove 103 on one side of the first clamping groove 101, and processing a first clamping protrusion 104 on the other side of the first clamping groove 101; the first accommodating groove 102 is located below the second accommodating groove 103;

in the step (2), the first predetermined shape includes a second clamping protrusion 105 clamped with the first clamping groove 101, a second clamping groove 106 matched with the first clamping protrusion 104, and a third clamping protrusion 107 matched with the second accommodating groove 103; a relief groove 108 is formed in the lower surface of the second catching projection 105.

Thus, a first clamping groove 101 is processed on the second surface of the wood board 10, a first containing groove 102 and a second containing groove 103 are processed on one side of the first clamping groove 101, a first clamping bulge 104 is processed on the other side of the first clamping groove 101, a second clamping bulge 105 clamped with the first clamping groove 101, a second clamping groove 106 matched with the first clamping bulge 104 and a third clamping bulge 107 matched with the second containing groove 103 are processed on the first surface; install the protruding 105 of second joint on the first face of first plank 10 in the first joint groove 101 on the second face of second plank 10, the protruding 107 of third joint is installed in second storage tank 103 simultaneously, install elastic sealing strip 110 in the second storage tank 103 of plank 10, pack aquogel 109 in first storage tank 102, after adjacent plank 10 is assembled, elastic sealing strip 110 is as first waterproof layer, the junction between adjacent plank 10 is sealed, prevent that the water logging from making plank 10 inflation in plank 10 bottom, aquogel 109 in the first storage tank 102 is as second waterproof layer, will follow the water absorption of elastic sealing strip 110 infiltration through aquogel 109, absorb water after rainy weather or water logging, prevent that plank 10 thickness inflation from causing the damage, the life of extension plank 10.

Preferably, in the step (2), a predetermined shape is processed on the first face by the first processing device 2.

Preferably, the first upper milling portion 211 and the second upper milling portion 212 of the first processing device 2 are matched to mill the second clamping protrusion 105 and the second clamping groove 106 on the first surface, the arc-shaped groove 2132 on the outer circumferential surface of the third upper milling cutter 2131 of the third upper milling portion 213 enables the third upper milling cutter 2131 to process the third clamping protrusion 107 on the end surface on one side of the first surface, and the relief groove 108 is milled on the lower surface of the second clamping protrusion 105 through the second milling device 22 of the first processing device 2; the fourth milling part 221 mills a small diameter of the relief groove upwards, and the fifth milling part 222 mills a large diameter of the relief groove.

Preferably, in step (3), the first catching groove 101 and the first catching protrusion 104 are milled on the second surface by the cooperation of the first lower milling portion 311 and the second lower milling portion 312 of the second processing device 3, the second surface is processed by the third lower milling cutter 3131 through the first arc protrusion 3132 and the second arc protrusion 3133 on the outer circumferential surface of the third lower milling cutter 3131 of the third lower milling portion 313, and the first receiving groove 102 and the second receiving groove 103 are processed on one side of the first catching groove 101.

Preferably, in step (1), the board is processed into the wood board 10 by the board processing device 4.

Preferably, the boards are conveyed by the board conveying device 411, the first abutting portion 4151 and the second abutting portion 4152 of the first positioning device 415 position the boards, and the cutting device 412 cuts the boards, so that the boards are gradually processed into the boards 10 with the same thickness.

Preferably, in step (4), the surface of the wood board 10 is lacquered by the lacquering mechanism 7.

Preferably, the first painting mechanism 71 is used for painting a first surface of the wood board 10 with an anticorrosive paint, the second painting mechanism 72 is used for painting a second surface of the wood board 10 with an anticorrosive paint, the third painting mechanism 73 is used for painting a first surface of the wood board 10 with a fireproof paint, and the fourth painting mechanism 74 is used for painting a second surface of the wood board 10 with a fireproof paint.

Preferably, the wood board 10 is conveyed by the first conveying device 711 of the first painting mechanism 71, the first polishing device 712 polishes the first surface to smooth the painted surface, the first painting device paints the first surface with the anticorrosive paint, and the first drying device dries the anticorrosive paint on the first surface; the first turning device 721 of the second painting mechanism 72 turns over the wood board 10 to make the second side face upward, the second conveying device 722 conveys the wood board 10 to the second polishing device 723 to polish the second side to make the painted side smooth, the second painting device paints the anticorrosive paint on the second side, and the second drying device dries the anticorrosive paint on the second side; the second turnover device 731 of the third painting mechanism 73 turns over the wood board 10 again to enable the first surface of the wood board 10 to face upwards, the third transmission device 732 transmits the wood board 10 to the third polishing device 733 to polish the first surface again to enable the painting surface to be flat and uniform, the third painting device brushes the fireproof paint on the first surface, and the third drying device dries the fireproof paint on the first surface; the third turnover device 741 of the fourth painting mechanism 74 turns over the wood board 10 again to make the second side of the wood board 10 face upward, the fourth transmission device 742 transmits the wood board 10 to the fourth polishing device 743 to polish the second side again to make the painting surface flat and uniform, the fourth painting device brushes the fireproof paint on the second side, and the fourth drying device dries the fireproof paint on the second side; and finishing the painting operation.

Preferably, in step (5), the material comprises hydrogel 109 and elastic sealing strip 110; the first container 102 is filled with the hydrogel 109 by the first filling mechanism 8, and the second container 103 is filled with the elastic sealing strip 110 by the second filling mechanism 9.

Preferably, the wood board 10 is gripped by the second gripping device 81, and after the fifth transport device 82 has moved under the wood board 10, the second clamping device 81 releases the wood board 10, so that the fifth conveying device 82 conveys the wood board 10 to the output end of the first filling device 83, the seventh moving driving device 832 drives the hydrogel spraying gun 8312 of the hydrogel spraying part 831 to move to fill the hydrogel 109 in the first accommodating groove 102, the fifth conveying device 82 conveys the wood board 10 to the fifth drying device 84 to perform drying treatment on the hydrogel 109, so that the hydrogel 109 is fixed in the first accommodating groove 102, the fifth conveying device 82 continues to convey the wood board 10, so that the wood board 10 is conveyed to the position where the elastic sealing strip 110 is assembled, the elastic sealing strip 110 is output by the feeding device 91, the first conveying device 92 continuously conveys the elastic sealing strip 110, and the second positioning device 93 accurately fits the elastic sealing strip 110 in the second containing groove 103.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims

1. The utility model provides a fire prevention timber apron environmental protection preparation system which characterized in that: comprises a processing mechanism for processing the wood board; the processing mechanism comprises a first clamping device for clamping the wood board, a first processing device for processing a first preset shape on a first surface of one side of the wood board, and a second processing device for processing a second preset shape on a second surface of the other side of the wood board; the first processing device comprises a first milling device for milling the first surface of the wood board, and the first milling device comprises a first upper milling part, a second upper milling part and a third upper milling part; the first upper milling portion comprises a first upper milling cutter; the second upper milling portion comprises a second upper milling cutter; the third upper milling part comprises a third upper milling cutter, and an arc-shaped groove arranged around the outer circumferential surface of the third upper milling cutter is formed at the upper part of the outer circumferential surface of the third upper milling cutter; the first upper milling part, the second upper milling part and the third upper milling part are sequentially arranged along the conveying direction of the wood board. (prevent the wooden floor from going moldy) the sponge foaming resin has air holes.

2. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 1, wherein the environment-friendly preparation system comprises: the first upper milling part also comprises a first upper rotating motor for driving the first upper milling cutter to rotate and a first upper power cylinder for driving the first upper milling cutter to move along the milling direction; the second upper milling part also comprises a second upper rotating motor for driving the second upper milling cutter to rotate and a second upper power cylinder for driving the second upper milling cutter to move along the milling direction; the third upper milling part further comprises a third upper rotating motor for driving the third upper milling cutter to rotate and a third upper power cylinder for driving the third upper milling cutter to move along the milling direction.

3. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 2, wherein the environment-friendly preparation system comprises: the first milling device further comprises a fourth upper milling part for rounding the milling position of the first surface of the wood board.

4. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 3, wherein the environment-friendly preparation system comprises: the fourth upper milling part comprises a first upper round-corner milling cutter, a fourth upper rotating motor for driving the first upper round-corner milling cutter to rotate, and a fourth upper power cylinder for driving the first upper round-corner milling cutter to move along the milling direction.

5. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 1, wherein the environment-friendly preparation system comprises: the first processing device further comprises a second milling device for processing the abdicating groove at the milling position of the first surface of the wood board.

6. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 5, wherein the environment-friendly preparation system comprises: the second milling device comprises a fourth milling part for milling the minor diameter of the yielding groove.

7. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 6, wherein the environment-friendly preparation system comprises: the fourth milling portion comprises a plurality of fourth milling cutters; the adjacent fourth milling cutters are arranged perpendicular to each other.

8. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 7, wherein the environment-friendly preparation system comprises: the length dimension of the cutting surfaces of the plurality of fourth milling cutters is larger than that of the wood board.

9. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 8, wherein the environment-friendly preparation system comprises: a plurality of milling tips are formed on a cutting surface of the fourth milling cutter; the plurality of milling tips are arranged at equal intervals along the length direction of the cutting surface.

10. The environment-friendly preparation system for the fireproof wood floors as claimed in claim 9, wherein: and a fillet is arranged at the joint between every two adjacent fourth milling cutters at the outer side.