CN113510815B - Environment-friendly clean manufacturing system for wood floor - Google Patents

Abstract

The invention provides an environment-friendly clean manufacturing system of a wood floor, which comprises a plate cutting mechanism for cutting a plate into a strip-shaped wood plate and a processing mechanism for processing the strip-shaped wood plate into a preset shape; the plate cutting mechanism comprises a plate conveying device for conveying plates and a first cutting device for cutting the plates; the first cutting device comprises a first cutting part and a first movement driving device for driving the first cutting part to move along the width direction of the plate. According to the invention, after one wood board is damaged, the splicing mode between adjacent wood boards is a method of protruding upwards and sinking downwards, so that only the damaged wood board is required to be disassembled, and then a new wood board is required to be assembled from the front, and the wood boards are not required to be spliced from the side and a certain space is required to be left in the prior art.

Description

Environment-friendly clean manufacturing system for wood floor

Technical Field

The invention relates to the technical field of wood floor manufacturing, in particular to an environment-friendly clean manufacturing system for wood floors.

Background

The wood floor is a floor made of wood, and the wood floor produced in China is mainly divided into six categories of solid wood floors, reinforced wood floors, solid wood composite floors, multilayer composite floors, bamboo floors and cork floors, and emerging wood-plastic floors.

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

In view of this, the present inventors have conducted intensive studies on the above problems, and have produced the present invention.

Disclosure of Invention

The invention aims to provide an environment-friendly clean manufacturing system for a wood floor, which is used for solving the problems that a wood floor is difficult to replace after being damaged in the prior art, and the existing wood floor is not provided with sealing water retaining and water absorbing functions after being spliced, so that the wood floor absorbs water in overcast and rainy weather or water, the thickness of the wood floor is expanded, the damage is caused, and the service life of the wood floor is shortened.

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

an environment-friendly clean manufacturing system for wood floors comprises a plate cutting mechanism for cutting a plate into long-strip wood plates and a processing mechanism for processing the long-strip wood plates into preset shapes; the plate cutting mechanism comprises a plate conveying device for conveying plates and a first cutting device for cutting the plates; the first cutting device comprises a first cutting part and a first movement driving device for driving the first cutting part to move along the width direction of the plate.

Further, the first cutting part includes a circular saw blade, and a first rotation motor driving the circular saw blade to rotate.

Further, the first cutting device further comprises a first positioning device for positioning the plate.

Further, the first positioning device comprises a first propping part propping one side of the plate material and a second propping part propping the other side of the plate material.

Further, the processing mechanism includes a first milling device that mills a first face of the elongated board and a second milling device that mills a second face of the elongated board.

Further, the first milling device comprises a first milling portion for milling the first face.

Further, the first milling portion includes a first milling cutter, a second milling cutter, and a third milling cutter; the upper portion of the outer periphery of the third milling cutter forms an arc-shaped groove which is arranged around the outer periphery of the third milling cutter, and the first milling cutter, the second milling cutter and the third milling cutter are sequentially arranged along the cutting direction of the strip-shaped wood board.

Further, the first milling part further comprises a first rotating motor for driving the first milling cutter to rotate, a second rotating motor for driving the second milling cutter to rotate, and a third rotating motor for driving the third milling cutter to rotate.

Further, the second milling device comprises a second milling part for milling the second face.

Further, the second milling portion includes a fourth milling cutter, a fifth milling cutter, and a sixth milling cutter; the middle part of the sixth milling cutter is provided with a first arc-shaped bulge which is arranged around the outer circumferential surface of the sixth milling cutter, and the lower part of the sixth milling cutter is provided with a second arc-shaped bulge which is arranged around the outer circumferential surface of the sixth milling cutter; the fourth milling cutter, the fifth milling cutter and the sixth milling cutter are sequentially arranged along the cutting direction of the strip-shaped wood board.

Further, the second milling part further comprises a fourth rotating motor for driving the fourth milling cutter to rotate, a fifth rotating motor for driving the fifth milling cutter to rotate, and a sixth rotating motor for driving the sixth milling cutter to rotate.

Further, the processing mechanism further comprises a first milling conveying device for conveying the long-strip wood boards for milling.

Further, the first milling conveying device comprises a first upper conveying part for conveying the long wood boards and a first lower conveying part below the first upper conveying part; a gap is formed between the first upper conveying part and the first lower conveying part, and the long wood board passes through the gap.

Further, the first milling device and the second milling device are positioned at two sides of the first milling conveying device; the first milling device is located below the long-strip wood board, and the second milling device is located above the long-strip wood board.

Further, the processing mechanism further comprises a second cutting device for cutting the strip wood board into wood board single bodies; the first milling conveying device is provided with a first input end and a first output end, and the second cutting device is arranged on one side of the first output end.

Further, the second cutting means includes a second cutting portion, and a second movement driving means for driving the second cutting portion to move in the width direction of the elongated wooden board.

Further, the processing mechanism further comprises a second milling conveying device for conveying the single wood board and a third milling device for processing the abdication groove at the milling position of the first surface of the single wood board.

Further, the second milling conveying device comprises a second upper conveying part for conveying the single wood board and a second lower conveying part below the second upper conveying part; and a gap through which the wood board monomers pass is arranged between the second upper conveying part and the second lower conveying part.

Further, the third milling device comprises a third milling part which performs milling at a preset position, a first lifting driving device which drives the third milling part to lift, and a first rotating driving device which drives the third milling part to rotate.

Further, the third milling part comprises a milling cutter mounting seat and a plurality of third cutting parts assembled on the milling cutter mounting seat; the milling cutter mounting seat comprises a plurality of milling cutter mounting blocks; the milling cutter mounting blocks are arranged at equal intervals around the rotation center of the third milling part, and the short side of each milling cutter mounting block is connected with the long side of the adjacent milling cutter mounting block; the third cutting part comprises a first hinging seat and a seventh milling cutter, and the seventh milling cutter is rotationally connected with the first hinging seat; the first hinge seats are respectively arranged at the joint of the outer sides of the adjacent milling cutter mounting blocks.

Further, the plurality of third cutting portions surround the central axis of the third milling portion and are staggered along the length direction of the cutting surface.

Further, the length dimension of the cutting surface formed by the plurality of third cutting parts is larger than the length dimension of the single wood board.

Further, the wood chip cleaning and recycling device is further included.

Further, the cleaning and recycling device comprises a cleaning cover body which is covered on the processing mechanism, a wood chip cleaning device which is used for cleaning the wood chips on the strip wood boards and the wood board monomers, and a wood chip recycling device which is used for recycling the wood chips; the wood plate milling machine is characterized in that one end of the cleaning cover body is provided with a first input port for inputting a strip wood plate into a first milling conveying device, the other end of the cleaning cover body is provided with a first output port for outputting a wood plate monomer, the side wall of the cleaning cover body is provided with a recovery pipe, and the wood chip recovery device is communicated with the inside of the cleaning cover body through the recovery pipe.

Further, the device also comprises a lacquering mechanism for lacquering the surfaces of the single wood boards.

Further, the painting mechanism comprises a first painting mechanism for painting the second surface of the single wood board and a second painting mechanism for painting the first surface of the single wood board.

Further, the first paint spraying mechanism comprises a first transfer device for transferring the single wood board, a first transmission device for conveying the single wood board, a first grinding device for grinding the second surface of the single wood board, a first paint spraying device for spraying paint on the second surface of the single wood board, and a first drying device for drying the single wood board; the first grinding device, the first paint spraying device and the first drying device are sequentially arranged along the single-body paint spraying direction of the wood board.

Further, the first transfer device comprises a transfer conveying part for conveying the single wood board and a first adsorption device for adsorbing and placing the wood board on the first conveying device.

Further, the first adsorption device comprises a first adsorption part for adsorbing the single wood board and a third movement driving device for driving the first adsorption part to move along a preset track.

Further, the first paint spraying device comprises a first paint spraying part and a second paint spraying part which output paint; the first paint spraying part and the second paint spraying part are sequentially arranged along the paint spraying direction of the wood board.

Further, the first paint spraying part comprises a first accommodating box for accommodating paint and a plurality of first paint spraying nozzles for outputting paint; the plurality of first paint spraying nozzles are positioned above the wood board single body, and are communicated with the first accommodating box; the second paint spraying part comprises a second accommodating box for accommodating paint and a plurality of second paint spraying nozzles for outputting the paint; the second paint spraying nozzles are arranged above the wood board monomers, and are communicated with the second accommodating boxes.

Further, the first conveying device comprises a second adsorption part for bearing and adsorbing the single wood board and a fourth movement driving device for driving the second adsorption part to move.

Further, the first grinding device comprises a first grinding part and a second rotation driving device for driving the first grinding part to rotate; the outer circumferential surface of the first grinding part is formed with abrasive grains contacting with the second surface of the wood plate monomer.

Further, the first paint spraying mechanism further comprises a first paint spraying cover body; the first paint spraying device and the first drying device are arranged in the first paint spraying cover body.

Further, the second paint spraying mechanism comprises a first turning device for turning over the single wood board, a second transmission device for conveying the single wood board, a second polishing device for polishing the first surface of the single wood board, a second paint spraying device for spraying paint on the first surface of the single wood board, and a second drying device for drying the single wood board; the second polishing device, the second paint spraying device and the second drying device are sequentially arranged along the paint spraying direction of the wood board.

Further, the first turning device comprises a first clamping part for clamping one side of the single wood board, a second clamping part for clamping the other side of the single wood board, and a third rotation driving device for driving the first clamping part and the second clamping part to rotate.

Further, the second paint spraying device comprises a third paint spraying part and a fourth paint spraying part which output paint; the third paint spraying part and the fourth paint spraying part are sequentially arranged along the paint spraying direction of the wood board.

Further, the third paint spraying part comprises a third accommodating box for accommodating paint and a plurality of third paint spraying nozzles for outputting the paint; the third paint spray nozzles are positioned above the wood board single body, and are communicated with the third accommodating box; the fourth paint spraying part comprises a fourth accommodating box for accommodating paint and a plurality of fourth paint spraying nozzles for outputting the paint; the fourth paint spraying nozzles are arranged above the wood board monomers, and are communicated with the fourth accommodating box.

Further, the second conveying device comprises a third adsorption part for bearing and adsorbing the single wood board and a fifth movement driving device for driving the third adsorption part to move.

Further, the second polishing device comprises a second polishing part and a fourth rotation driving device for driving the second polishing part to rotate; the outer circumferential surface of the second grinding part is formed with abrasive grains contacting with the first surface of the wood plate monomer.

Further, the second paint spraying mechanism further comprises a second paint spraying cover body; the second paint spraying device and the second drying device are arranged in the second paint spraying cover body.

Further, the wood board single body comprises a filling mechanism for filling materials at preset positions of milling positions of the second faces of the wood board single bodies.

Further, the filling mechanism comprises a second overturning device for overturning the single wood board, a third transmission device for conveying the single wood board, a first filling device for filling hydrogel in a first accommodating groove of the single wood board, a second filling device for filling elastic sealing strips in a second accommodating groove of the single wood board, and a third drying device for drying the hydrogel in the single wood board.

Further, the first filling device comprises a spraying part for outputting hydrogel, a second lifting driving device for driving the spraying part to lift, and a sixth moving driving device for driving the spraying part to move along the length direction of the plank monomers.

Further, the spraying part comprises a containing part for containing hydrogel and a spraying gun for outputting the hydrogel; the spray gun is communicated with the accommodating part.

Further, the second filling device comprises a feeding device for outputting the elastic sealing strips, a material conveying device for conveying the elastic sealing strips, and a second positioning device for positioning the elastic sealing strips.

Further, the material conveying device comprises a material conveying part for conveying the elastic sealing strips and a limiting part for limiting the elastic sealing strips.

Further, the material conveying part comprises a first transmission part and a second transmission part; the first transmission part and the second transmission part are sequentially arranged along the conveying direction of the elastic sealing strip.

Further, the first transmission part comprises a first transmission roller and a second transmission roller; the gap through which the elastic sealing strip passes is arranged between the first driving roller and the second driving roller, and the axes of the first driving roller and the second driving roller are vertically arranged.

Further, the first transmission part further comprises 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.

Further, the second transmission part comprises a third transmission roller and a fourth transmission roller; and a gap through which the elastic sealing strip passes is formed between the third driving roller and the fourth driving roller, and the axes of the third driving roller and the fourth driving roller are vertically arranged.

Further, the second transmission part further comprises 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.

Further, the limiting part comprises a plurality of first guiding parts; the first guide part is provided with a guide hole through which the elastic sealing strip passes.

Further, the material conveying device further comprises a cutting part for cutting off the elastic sealing strip.

Further, the second positioning device comprises a fourth adsorption part and a fifth adsorption part which adsorb the elastic sealing strip, and a seventh movement driving device which drives the fourth adsorption part and the fifth adsorption part to move along the conveying direction of the elastic sealing strip.

Further, the second positioning device further comprises a third propping part for propping the elastic sealing strip.

Further, the second turning device comprises a third clamping part for clamping one side of the single wood board, a fourth clamping part for clamping the other side of the single wood board, and a fifth rotation driving device for driving the third clamping part and the fourth clamping part to rotate.

Further, the third conveying device comprises a sixth adsorption part for bearing and adsorbing the single wood board and an eighth moving driving device for driving the sixth adsorption part to move.

Further, a conveying mechanism for conveying the long-strip wood board to the first milling device is also included.

Further, the conveying mechanism includes a board conveying device that conveys the long-strip board, and a second transferring device that transfers the cut long-strip board onto the board conveying device.

Further, the second transfer device comprises a seventh adsorption part for adsorbing the long wood board, and a ninth movement driving device for driving the seventh adsorption part to move along a preset track.

Further, the plank conveying device comprises a plank conveying part for conveying the long planks and a positioning part for calibrating the positions of the long planks; the plank conveying part is provided with a second output end for outputting long planks, and the positioning part is positioned above the second output end of the plank conveying part.

Further, the positioning part comprises a second guiding part and a third guiding part for guiding the long wood board; the long wood board is arranged on the first guide part, the second guide part is arranged on the second guide part, the third guide part is arranged on the second guide part, a long wood board passing channel is formed between the second guide part and the third guide part, the channel is provided with a first inlet for entering the long wood board and a first outlet for outputting the long wood board, the width dimension from the first inlet to the first outlet is gradually reduced, and the width dimension of the first outlet is equal to that of the long wood board.

After the structure is adopted, the environment-friendly clean manufacturing system for the wood floor has the following beneficial effects:

the plate is conveyed by a plate conveying device of a plate cutting mechanism, a first moving driving device of a first cutting device drives a first cutting part to cut the plate into long-strip plates with required thickness, a processing device processes the long-strip plates into preset shapes (the preset shapes comprise a first clamping protrusion, a first clamping groove, a second clamping protrusion and a yielding groove are processed on a first surface of one side of the long-strip plates, a second clamping groove, a first accommodating groove, a second accommodating groove and a third clamping protrusion are processed on a second surface of the other side of the long-strip plates), the first clamping protrusion on the first surface of the first long-strip plate is assembled in the second clamping groove on the second surface of the second long-strip plate, and meanwhile the second clamping protrusion is assembled in the second accommodating groove, so that the splicing between the plates is convenient and quick; according to the invention, after one wood board is damaged, the splicing mode between adjacent wood boards is a method of protruding upwards and sinking downwards, so that only the damaged wood board is required to be disassembled, and then a new wood board is required to be assembled from the front, and the wood boards are not required to be spliced from the side and a certain space is required to be left in the prior art.

The wood chip that is formed with processing agency processing through clear away recovery unit and collect the processing, the clean cover body makes the saw-dust of processing be in the scope that clean cover body cover was established all the time, the saw-dust clearing device is convenient for retrieve after clear away the saw-dust from the plank, after the work has certain saw-dust to pile up in the clean cover body of certain time, saw-dust recovery unit is taken out the saw-dust from clean cover body through the recovery pipe and is retrieved the utilization, retrieve more be favorable to protecting the environment to the saw-dust to can be used for other use with the saw-dust, have great economic benefits.

Drawings

FIG. 1 is a schematic view of the overall perspective structure of a system for manufacturing an environment-friendly clean wood floor;

FIG. 2 is a schematic perspective view of a processing mechanism according to the present invention;

FIG. 3 is a schematic view of a partial enlarged structure of a first milling device according to the present invention;

FIG. 4 is a schematic view of a second milling device according to the present invention;

FIG. 5 is a schematic view of the structure of the third milling portion of the present invention working clockwise and counterclockwise;

FIG. 6 is a schematic view of a partial enlarged structure at A in FIG. 1;

FIG. 7 is a schematic view of a partial enlarged structure at B in FIG. 1;

FIG. 8 is a schematic view of a partial enlarged structure at C in FIG. 1;

FIG. 9 is a schematic view of a partially enlarged construction of a second filling device and a third transfer device according to the present invention;

FIG. 10 is a schematic view of the structure of the sheet cutting mechanism and the second transfer device of the present invention;

FIG. 11 is a schematic view of a connection structure of the plank splice of the present invention;

fig. 12 is a partially enlarged schematic structural view of fig. 11 at D.

In the figure: the sheet cutting mechanism 1, the processing mechanism 2, the sheet conveying device 11, the first cutting device 12, the first cutting part 121, the first movement driving device 123, the disc saw blade 1211, the first rotating motor 1212, the first positioning device 122, the first abutting part 1221, the second abutting part 1222, the first milling device 21, the second milling device 22, the first milling part 211, the first milling cutter 2111, the second milling cutter 2112, the third milling cutter 2113, the arc groove 2114, the second milling part 221, the fourth milling cutter 2211, the fifth milling cutter 2212, the sixth milling cutter 2213, the first arc protrusion 2214, the second arc protrusion 2215, the first milling conveying device 23, the first upper conveying part 231, the first lower conveying part 232, the second cutting device 24, the second cutting part 241, the second movement driving device 242, the second milling conveying device 25, the third milling device 26, the second upper conveying part 251, the second lower conveying part 252, the third milling part 261, the first lifting drive 262, the first rotary drive 263, the milling cutter mount 264, the third cutting section 265, the milling cutter mount block 2641, the first hinge mount 2651, the seventh milling cutter 2652, the purge recovery device 3, the cleaning housing 31, the chip purge device 32, the recovery pipe 33, the painting mechanism 4, the first painting mechanism 41, the second painting mechanism 42, the first transfer device 411, the first transfer device 412, the first grinding device 413, the transfer transport section 4111, the first suction device 4112, the first suction section 4113, the third rotary drive 4114, the second suction section 4121, the fourth rotary drive 4122, the first grinding section 4131, the second rotary drive 4132, the first painting housing 414, the first tilting device 421, the second transfer device 422, the second grinding device 423, the first clamping section 4211, the second clamping section 4212, the third suction section 4221, the fifth rotary drive 4222, the second polishing part 4231, the fourth rotation driving device 4232, the second paint spraying cover 424, the filling mechanism 5, the second turning device 51, the third transmission device 52, the first filling device 53, the second filling device 54, the third drying device 55, the spraying part 531, the second lifting driving device 532, the sixth movement driving device 533, the feeding device 541, the material conveying device 542, the second positioning device 543, the material conveying part 5421, the limiting part 5422, the first transmission part 5423, the second transmission part 5424, the first guiding part 5425, the cutting part 5426, the fourth adsorbing part 5431, the fifth adsorbing part 5432, the seventh movement driving device 5433, the third abutting part 5434, the third clamping part 511, the fourth clamping part 512, the conveying mechanism 6, the wood board conveying device 61, the second transferring device 62, the seventh adsorbing part 621, the ninth movement driving device 622, the wood board conveying part 611, the position adjusting part 612, the second guiding part 6121, the third guiding part 6122, the single body 10, the first clamping protrusion 101, the second clamping protrusion 103, the second clamping protrusion 102, the second clamping protrusion 106, the second clamping protrusion 108, the second clamping protrusion 106, the second clamping protrusion 107, the sealing strip and the sealing strip.

Description of the embodiments

In order to further explain the technical scheme of the invention, the following is explained in detail through specific examples.

As shown in fig. 1 to 12, a wood flooring environmental protection cleaning manufacturing system of the present invention includes a board cutting mechanism 1 that cuts a board into a long-strip board, and a processing mechanism 2 that processes the long-strip board into a predetermined shape; the sheet cutting mechanism 1 includes a sheet conveying device 11 that conveys a sheet, and a first cutting device 12 that cuts the sheet; the first cutting device 12 includes a first cutting portion 121, and a first movement driving device 123 that drives the first cutting portion 121 to move in the width direction of the sheet material.

In this way, the plate is conveyed by the plate conveying device 11 of the plate cutting mechanism 1, then the first cutting part 121 is driven by the first moving driving device 123 of the first cutting device 12 to cut the plate into long-strip plates with required thickness, the long-strip plates are processed into preset shapes by the processing device (the preset shapes comprise that a first clamping protrusion 101, a first clamping groove 102, a second clamping protrusion 103 and a relief groove 104 are processed on the first surface of one side of the long-strip plates, a second clamping groove 105, a first accommodating groove 106, a second accommodating groove 107 and a third clamping protrusion 108 are processed on the second surface of the other side of the long-strip plates), the first clamping protrusion 101 on the first surface of the first long-strip plate is assembled in the second clamping groove 105 on the second surface of the second long-strip plate, and meanwhile, the second clamping protrusion 103 is assembled in the second accommodating groove 107, so that the splicing between the long-strip plates is convenient and quick; according to the invention, after one wood board is damaged, the splicing mode between adjacent wood boards is a method of protruding upwards and sinking downwards, so that only the damaged wood board is required to be disassembled, and then a new wood board is required to be assembled from the front, and the wood boards are not required to be spliced from the side and a certain space is required to be left in the prior art. Specifically, the splice structure between adjacent wood board units 10 is shown in fig. 11 and 12; the first movement driving device 123 comprises a connecting seat, a first screw rod, a connecting frame, a first guide rail and a first motor; the first cutting part 121 is connected to one end of the connecting seat, the connecting seat is slidably connected to the first guide rail, one end of the first screw rod penetrates through the connecting seat and is rotatably connected with the connecting frame, and the other end of the first screw rod is connected with the output end of the first motor.

Preferably, in order to improve the processing efficiency, the first cutting part 121 includes a circular saw blade 1211, and a first rotating motor 1212 driving the circular saw blade 1211 to rotate.

Preferably, to facilitate cutting of the sheet material, the first cutting device 12 further includes a first positioning device 122 for positioning the sheet material.

Preferably, the first positioning device 122 includes a first abutment 1221 against one side of the sheet material and a second abutment 1222 against the other side of the sheet material. Positioning the sheet material by the first and second abutments 1221, 1222 to facilitate cutting; specifically, the first abutment 1221 includes a first abutment block, and a first abutment cylinder driving the first abutment block against one side of the top sheet, and the second abutment 1222 includes a second abutment block, and a second abutment cylinder driving the second abutment block against the other side of the top sheet.

Preferably, the processing means 2 comprises a first milling device 21 for milling a first face of the elongated board and a second milling device 22 for milling a second face of the elongated board. A first clamping protrusion 101, a first clamping groove 102, a second clamping protrusion 103 and a relief groove 104 are milled on the first surface of the long wood board through a first milling device 21; a second clamping groove 105, a first accommodating groove 106, a second accommodating groove 107 and a third clamping protrusion 108 are milled on the second surface of the long wood board by the second milling device 22.

Preferably, in order to improve the milling efficiency, the first milling device 21 includes a first milling portion 211 that mills the first face.

Preferably, the first milling portion 211 includes a first milling cutter 2111, a second milling cutter 2112, and a third milling cutter 2113; an upper portion of an outer circumferential surface of the third milling cutter 2113 forms an arc-shaped groove 2114 provided around the outer circumferential surface of the third milling cutter 2113, and the first milling cutter 2111, the second milling cutter 2112, and the third milling cutter 2113 are provided in this order along a cutting direction of the elongated wood board. The first milling cutter 2111 and the second milling cutter 2112 are engaged in milling the first surface to form the first engaging protrusion 101 and the first engaging groove 102, and the third milling cutter 2113 is engaged in milling the side wall of the first surface to form the second engaging protrusion 103.

Preferably, in order to improve milling efficiency, the first milling portion 211 further includes a first rotation motor 1212 that drives the first milling cutter 2111 to rotate, a second rotation motor that drives the second milling cutter 2112 to rotate, and a third rotation motor that drives the third milling cutter 2113 to rotate.

Preferably, in order to improve the milling efficiency, the second milling device 22 includes a second milling portion 221 that mills the second face.

Preferably, the second milling portion 221 includes a fourth milling cutter 2211, a fifth milling cutter 2212, and a sixth milling cutter 2213; the middle part of the sixth milling cutter 2213 forms a first arc-shaped protrusion 2214 provided around the outer circumferential surface of the sixth milling cutter 2213, and the lower part of the sixth milling cutter 2213 forms a second arc-shaped protrusion 2215 provided around the outer circumferential surface of the sixth milling cutter 2213; the fourth milling cutter 2211, the fifth milling cutter 2212, and the sixth milling cutter 2213 are sequentially disposed along the cutting direction of the elongated wood board. The second clamping groove 105 is machined by the fourth milling cutter 2211, the fifth milling cutter 2212 and the sixth milling cutter 2213, the first accommodating groove 106 and the second accommodating groove 107 are machined on one side of the second clamping groove 105, and the third clamping protrusion 108 is machined on the other side of the second clamping groove 105.

Preferably, in order to improve milling efficiency, the second milling part 221 further includes a fourth rotating motor driving the fourth milling cutter 2211 to rotate, a fifth rotating motor driving the fifth milling cutter 2212 to rotate, and a sixth rotating motor driving the sixth milling cutter 2213 to rotate.

Preferably, the processing means 2 further comprises a first milling conveyor 23 for conveying the elongated wood panels for milling. The long-strip wood board is conveyed by the first milling conveying device 23, so that the long-strip wood board is milled along the long edge of the long-strip wood board after passing through the first milling device 21 and the second milling device 22, and a preset shape is processed on the first surface of one side of the long-strip wood board and the second surface of the other side of the long-strip wood board.

Preferably, the first milling conveyor 23 includes a first upper conveyor 231 that conveys the elongated wood board, and a first lower conveyor 232 that is located below the first upper conveyor 231; a gap through which the elongated wood board passes is provided between the first upper conveying portion 231 and the first lower conveying portion 232. The long wood board is conveyed through the first upper conveying part 231 and the first lower conveying part 232, and the gap between the first upper conveying part 231 and the first lower conveying part 232 is equal to the thickness of the long wood board, so that the long wood board is limited; specifically, the first upper conveying part 231 includes a first upper conveying belt, a first upper driving wheel, a first upper driven wheel and a first power motor, the first upper conveying belt is wound around the first upper driving wheel and the first upper driven wheel, and an output end of the first power motor is connected with the first upper driving wheel; the first lower conveying part 232 comprises a first lower conveying belt, a first lower driving wheel, a first lower driven wheel and a second power motor, wherein the first lower conveying belt is wound around the first lower driving wheel and the first lower driven wheel, and the output end of the second power motor is connected with the first lower driving wheel; the width of the first upper conveying belt and the width of the first lower conveying belt are smaller than that of the long-strip wood board, so that the milling positions at two ends of the long-strip wood board are exposed in a suspending mode.

Preferably, the first milling device 21 and the second milling device 22 are divided into two sides of the first milling conveying device 23; the first milling device 21 is located below the elongated wood board and the second milling device 22 is located above the elongated wood board. After the first milling conveying device 23 conveys the long-strip wood board through the first milling device 21 and the second milling device 22, respectively processing preset shapes on two sides of the long-strip wood board; specifically, the first milling device 21 is located on the left side in the conveying direction of the first milling conveying device 23, and the second milling device 22 is located on the right side in the conveying direction of the first milling conveying device 23.

Preferably, the processing means 2 further comprises second cutting means 24 for cutting the elongated wood board into wood board monomers 10; the first milling conveyor 23 has a first input end and a first output end, and the second cutting device 24 is provided on one side of the first output end. In order to facilitate the milling of the relief groove 104 in the first clamping projection 101 of the first side, the elongated board is cut into the multi-section board units 10 by the second cutting device 24.

Preferably, the second cutting device 24 includes a second cutting part 241, and a second movement driving device 242 driving the second cutting part 241 to move in the width direction of the elongated wood board. The elongated wood board is cut by the second cutting portion 241, and specifically, the second moving driving device 242 is driven by an air cylinder.

Preferably, the processing mechanism 2 further comprises a second milling conveying device 25 for conveying the single wood board 10, and a third milling device 26 for processing the relief groove 104 at the milling position of the first surface of the single wood board 10. The relief groove 104 is processed through the third milling device 26, so that the wood board monomers 10 have the space of thermal expansion and contraction when being wetted and heated while being convenient for assembling between adjacent wood board monomers 10, and the service life of the wood board monomers 10 is prolonged.

Preferably, the second milling conveying device 25 includes a second upper conveying part 251 that conveys the wood board monomers 10, and a second lower conveying part 252 that is below the second upper conveying part 251; a gap through which the board unit 10 passes is provided between the second upper conveying part 251 and the second lower conveying part 252. The single wood board 10 is conveyed through the second upper conveying part 251 and the second lower conveying part 252, and the gap between the second upper conveying part 251 and the second lower conveying part 252 is equal to the thickness of the single wood board 10, so that the single wood board 10 is limited; specifically, the second upper conveying part 251 includes a second upper conveying belt, a second upper driving wheel, a second upper driven wheel and a third power motor, the second upper conveying belt is wound around the second upper driving wheel and the second upper driven wheel, and an output end of the third power motor is connected with the second upper driving wheel; the second lower conveying part 252 comprises a second lower conveying belt, a second lower driving wheel, a second lower driven wheel and a fourth power motor, wherein the second lower conveying belt is wound around the second lower driving wheel and the second lower driven wheel, and the output end of the fourth power motor is connected with the second lower driving wheel; the widths of the second upper conveying belt and the second lower conveying belt are smaller than the widths of the single wood board 10, so that the milling positions at two ends of the single wood board 10 are exposed in a suspending mode.

Preferably, the third milling device 26 includes a third milling portion 261 which performs milling at a predetermined position, a first elevation driving device 262 which drives the third milling portion 261 to elevate, and a first rotation driving device 263 which drives the third milling portion 261 to rotate. The third milling part 261 is driven to rotate by the first rotation driving device 263, and the first lifting driving device 262 drives the third milling part 261 to mill the relief groove 104 with a preset depth on the first clamping protrusion 101; specifically, the first elevating driving means 262 and the first rotation driving means 263 are both cylinder-driven.

Preferably, the third milling part 261 includes a milling cutter mounting seat 264, and a plurality of third cutting parts 265 fitted on the milling cutter mounting seat 264; the milling cutter mount 264 includes a plurality of milling cutter mounting blocks 2641; a plurality of milling cutter mounting blocks 2641 are disposed at equal intervals around the rotation center of the third milling part 261, and a short side of each milling cutter mounting block 2641 is connected with a long side of an adjacent milling cutter mounting block 2641; the third cutting portion 265 includes a first hinge seat 2651 and a seventh milling cutter 2652, the seventh milling cutter 2652 being rotatably connected to the first hinge seat 2651; the first hinge seats 2651 are respectively provided at the outer junction of each adjacent milling cutter mounting block 2641. As shown in fig. 5, when the third cutting portions 265 are rotated counterclockwise, the milling radius becomes smaller, and when the third cutting portions 265 are rotated clockwise, the milling radius becomes larger, thereby completing the purpose of machining the relief groove 104.

Preferably, in order to extend the service life of the third cutting portion 265, a plurality of third cutting portions 265 are disposed around the central axis of the third milling portion 261 and staggered along the length direction of the cutting surface.

Preferably, in order to improve milling efficiency, the length dimension of the cut surface formed by the plurality of third cutting portions 265 is greater than the length dimension of the wood board unit 10.

Preferably, the wood chip cleaning and recycling device 3 is further included. The wood chip formed by processing the processing mechanism 2 is collected and processed through the cleaning and recycling device 3, the cleaning cover body 31 enables the processed wood chip to be always in the range covered by the cleaning cover body 31, the wood chip is convenient to recycle after the wood chip is cleaned from the wood board by the wood chip cleaning device 32, after the wood chip is accumulated in the cleaning cover body 31 for a certain period of time during work, the wood chip recycling device withdraws the wood chip from the cleaning cover body 31 through the recycling pipe 33 to recycle the wood chip, the recycling of the wood chip is more beneficial to protecting the environment, and the wood chip can be used in other applications, so that the wood chip recycling device has larger economic benefit.

Preferably, the cleaning and recycling device 3 comprises a cleaning cover 31 covered on the processing mechanism 2, a wood chip cleaning device 32 for cleaning the wood chips on the long-strip wood boards and the wood board monomers 10, and a wood chip recycling device for recycling the wood chips; one end of the cleaning cover body 31 forms a first input port for inputting the long-strip wood board into the first milling conveying device 23, the other end of the cleaning cover body 31 forms a first output port for outputting the wood board single body 10, a recovery pipe 33 is arranged on the side wall of the cleaning cover body 31, and the wood chip recovery device is communicated with the inside of the cleaning cover body 31 through the recovery pipe 33. The wood chips at milling positions on the strip boards and the board monomers 10 are blown off through the wood chip cleaning device 32, the cleaning cover body 31 enables the wood chips to fall into the range covered by the cleaning cover body 31 all the time, so that the wood chips are prevented from drifting everywhere, a good working environment is provided for workers, and meanwhile, the wood chip recycling device recycles the wood chips in the cleaning cover body 31, so that recycling of the wood chips is facilitated; specifically, the chip removing apparatus 32 includes a blower; the wood chip recycling device comprises an exhaust fan and a recycling barrel at the output end of the exhaust fan, wherein the exhaust fan is communicated with the recycling pipe 33, and the wood chip is pumped into the recycling barrel through a suction force.

Preferably, in order to extend the service life of the wood board monomer 10 and to give the wood board monomer 10 a certain aesthetic property, a painting mechanism 4 for painting the surface of the wood board monomer 10 is further included.

Preferably, in order to extend the service life of the wood monomer 10 and to give the wood monomer 10 a certain aesthetic property, the painting mechanism 4 includes a first painting mechanism 41 for painting the second side of the wood monomer 10 and a second painting mechanism 42 for painting the first side of the wood monomer 10.

Preferably, the first paint spraying mechanism 41 includes a first transfer device 411 that transfers the wood board monomers 10, a first transfer device 412 that transfers the wood board monomers 10, a first grinding device 413 that grinds the second surface of the wood board monomers 10, a first paint spraying device that sprays paint on the second surface of the wood board monomers 10, and a first drying device that dries the wood board monomers 10; the first grinding device 413, the first paint spraying device and the first drying device are sequentially disposed along the paint spraying direction of the wood board monomer 10. The single wood board 10 is transferred onto the first transfer device 412 through the first transfer device 411, the single wood board 10 is conveyed to the first grinding device 413 by the first transfer device 412 to grind the second surface of the single wood board 10, then the single wood board 10 is conveyed to the first paint spraying device to paint the second surface of the single wood board 10, and the first paint drying device is convenient for paint the first surface after drying the paint.

Preferably, the first transfer device 411 includes a transfer conveying portion 4111 that conveys the board monomers 10, and a first adsorbing device 4112 that adsorbs the boards on the first conveying device 412. The second milling conveyor 25 outputs the board monomers 10 to the transfer conveyor 4111, and the first adsorbing device 4112 adsorbs the board monomers 10 and then places them on the first conveying device 412.

Preferably, the first adsorption device 4112 includes a first adsorption portion 4113 for adsorbing the board monomer 10, and a third movement driving device 4114 for driving the first adsorption portion 4113 to move along a predetermined track. After the first adsorption part 4113 is driven by the third moving driving device 4114 to adsorb the single board 10 on the transfer conveying part 4111, the first adsorption part 4113 is driven to rotate, and the single board 10 is placed on the first conveying device 412; specifically, the first adsorption portion 4113 adsorbs the wood board monomer 10 according to the vacuum adsorption principle, the first adsorption portion 4113 forms a gas circulation portion on a contact surface with the wood board monomer 10, so that the first adsorption portion 4113 contacts with the wood board monomer 10 to form negative pressure, the wood board monomer 10 is adsorbed on the lower surface of the first adsorption portion 4113, when moving above the first conveying device 412, the gas pressure of the contact surface between the first adsorption portion 4113 and the wood board monomer 10 returns to zero, the wood board monomer 10 falls off from the first adsorption portion 4113, and the third movement driving device 4114 comprises a rotating base, a telescopic lifting arm and a rotating cylinder; one end of the telescopic lifting arm is connected with the rotating base, the other end of the telescopic lifting arm is connected with the rotating cylinder, the output end of the rotating cylinder is connected with the first adsorption part 4113, the telescopic lifting arm comprises a plurality of driving arms, each two adjacent driving arms are connected together through a driving motor, and the driving arms are driven to move to drive the first adsorption part 4113 to lift and stretch through the driving motor.

Preferably, the first paint spraying apparatus includes a first paint spraying part and a second paint spraying part which output paint; the first paint spraying part and the second paint spraying part are sequentially arranged along the paint spraying direction of the wood board. Paint is sprayed onto the second surface through the first paint spraying part and the second paint spraying part, so that the paint attached to the second surface is more uniform.

Preferably, in order to improve paint spraying efficiency, the first paint spraying part includes a first container for containing paint, and a plurality of first paint spray nozzles for outputting paint; the plurality of first spray nozzles are positioned above the wood board single body 10 and are communicated with the first accommodating box; the second paint spraying part comprises a second accommodating box for accommodating paint and a plurality of second paint spraying nozzles for outputting the paint; a plurality of second spray nozzles are positioned above the wood board monomer 10, and the plurality of second spray nozzles are communicated with the second accommodating box.

Preferably, the first transfer device 412 includes a second adsorption part 4121 that carries and adsorbs the board monomer 10, and a fourth movement driving device 4122 that drives the second adsorption part 4121 to move. After the second adsorption part 4121 is used for firmly adsorbing the single wood board 10, the fourth moving driving device 4122 drives the second adsorption part 4121 to move to each processing position; specifically, the fourth movement driving device 4122 includes a first slideway, a second slideway, a first sliding plate, pulleys at two ends of the first sliding plate, and a motor for driving the pulleys to rotate; the second adsorption part 4121 is arranged on the first sliding plate, and two ends of the first sliding plate are respectively and slidably connected in the first sliding way and the second sliding way through pulleys.

Preferably, in order to smooth the second surface, the burrs are reduced to facilitate adhesion of paint, the first grinding means 413 includes a first grinding portion 4131, and a second rotation driving means 4132 for driving the first grinding portion 4131 to rotate; the outer circumferential surface of the first grinding portion 4131 is formed with abrasive grains contacting the second face of the wood single body 10. Specifically, the second rotation driving device 4132 is a motor drive.

Preferably, to limit the painting range of the first painting device, the first painting mechanism 41 further includes a first paint cap 414; the first paint spraying apparatus and the first drying apparatus are disposed in the first paint spraying housing 414. Specifically, the first paint spraying cover 414 further includes an opening and closing door for the first transmission device 412 to enter and exit, so that the first transmission device 412 can pass through the first paint spraying cover 414 to transmit the wood board monomer 10 in a subsequent process, and an air purifier is further arranged in the first paint spraying cover 414 and used for purifying air in the inner space of the first paint spraying cover 414, so that air pollution is reduced.

Preferably, the second paint spraying mechanism 42 includes a first turning device 421 for turning over the single wood board 10, a second conveying device 422 for conveying the single wood board 10, a second polishing device 423 for polishing the first surface of the single wood board 10, a second paint spraying device for spraying paint on the first surface of the single wood board 10, and a second drying device for drying the single wood board 10; the second grinding device 423, the second paint spraying device and the second drying device are sequentially arranged along the paint spraying direction of the wood board. Make the first face up of plank monomer 10 after overturning to plank monomer 10 through first turning device 421, second transmission device 422 carries plank monomer 10 to second grinding device 423 department and polishes the first face of plank monomer 10, and the second paint spraying apparatus sprays paint in the first face of plank monomer 10 after, and the second drying device is with the paint stoving on the first face.

Preferably, the first turning device 421 includes a first clamping portion 4211 for clamping one side of the wood board monomer 10, a second clamping portion 4212 for clamping the other side of the wood board monomer 10, and a third rotation driving device for driving the first clamping portion 4211 and the second clamping portion 4212 to rotate. The first clamping portion 4211 and the second clamping portion 4212 are driven to rotate 180 degrees through the third rotation driving device, so that the first face of the wood board monomer 10 faces upwards, specifically, the first clamping portion 4211 comprises a first clamping plate and a second clamping plate, the distance between the first clamping plate and the second clamping plate is larger than or equal to the thickness of the wood board monomer 10, the second clamping portion 4212 comprises a third clamping plate and a fourth clamping plate, the distance between the third clamping plate and the fourth clamping plate is larger than or equal to the thickness of the wood board monomer 10, the first transmission device 412 conveys the wood board monomer 10 into the first clamping portion 4211 and the second clamping portion 4212, and the third rotation driving device comprises a second motor and a third motor; the second motor drives the first clamping portion 4211 to rotate, and the third motor drives the second clamping portion 4212 to rotate, so that the wood board single body 10 is turned over.

Preferably, the second paint spraying apparatus includes a third paint spraying portion and a fourth paint spraying portion which output paint; the third paint spraying part and the fourth paint spraying part are sequentially arranged along the paint spraying direction of the wood board. Paint is sprayed on the first surface through the third paint spraying part and the fourth paint spraying part, so that the paint attached on the first surface is more uniform.

Preferably, in order to improve paint spraying efficiency, the third paint spraying section includes a third receiving tank receiving paint, and a plurality of third paint spray nozzles outputting paint; the plurality of third spray nozzles are positioned above the wood board single body 10 and are communicated with the third accommodating box; the fourth paint spraying part comprises a fourth accommodating box for accommodating paint and a plurality of fourth paint spraying nozzles for outputting the paint; a plurality of fourth spray nozzles are positioned above the wood board monomer 10, and the fourth spray nozzles are communicated with the fourth accommodating box.

Preferably, the second transporting device 422 includes a third adsorption part 4221 that carries and adsorbs the wood board monomers 10, and a fifth movement driving device 4222 that drives the movement of the third adsorption part 4221. The wood board monomer 10 is placed on the third adsorption portion 4221, a circulation portion through which gas circulates is formed on the upper surface of the third adsorption portion 4221, and negative pressure is formed between the wood board monomer 10 and the third adsorption portion 4221 by the vacuum adsorption principle, so that the wood board monomer 10 is firmly adsorbed on the third adsorption portion 4221. The fifth moving driving device 4222 comprises a third slideway, a fourth slideway, a second sliding plate, pulleys positioned at two ends of the second sliding plate and a motor for driving the pulleys to rotate; the third adsorption part 4221 is arranged on the second sliding plate, and two ends of the second sliding plate are respectively and slidably connected in the third sliding way and the fourth sliding way through pulleys.

Preferably, in order to smooth the first surface, the second polishing device 423 includes a second polishing portion 4231, and a fourth rotation driving device 4232 for driving the second polishing portion 4231 to rotate, to reduce burrs and paint adhesion; the outer circumferential surface of the second grinding portion 4231 is formed with abrasive grains contacting the first face of the wood board monomer 10. Specifically, the fourth rotation driving device 4232 is motor-driven.

Preferably, to limit the painting range of the second painting device, the second painting mechanism 42 further includes a second paint cap 424; the second paint spraying apparatus and the second drying apparatus are disposed in the second paint spraying housing 424. Specifically, the second paint spraying cover 424 further includes an opening and closing door for the second transmission device 422 to enter and exit, so that the second transmission device 422 can pass through the second paint spraying cover 424 to transmit the wood board single body 10 in the subsequent process, and an air purifier is further arranged in the second paint spraying cover 424 and used for purifying the air in the inner space of the second paint spraying cover 424, so as to reduce air pollution.

Preferably, the filling mechanism 5 for filling the material at a predetermined position at the milling position of the second face of the wood board monomer 10 is further included. Through filling hydrogel 109 in the first accommodation groove 106 of plank monomer 10 and filling elastic sealing strip 110 in the second accommodation groove 107, make concatenation department between plank monomer 10 have sealed effect and prevent infiltration, absorb the moisture that infiltrates plank monomer 10 through hydrogel 109, avoid the plank to wet moldy, extension plank life. Specifically, the hydrogel is a sticky hydrogel, so that the hydrogel is attached in the first accommodating groove.

Preferably, the filling mechanism 5 includes a second turning device 51 for turning over the wood board monomers 10, a third conveying device 52 for conveying the wood board monomers 10, a first filling device 53 for filling the hydrogel 109 in the first accommodating groove 106 of the wood board monomers 10, a second filling device 54 for filling the elastic sealing strips 110 in the second accommodating groove 107 of the wood board monomers 10, and a third drying device 55 for drying the hydrogel 109 in the wood board monomers 10. The second turnover device 51 turns the wood board monomer 10 to be turned to the second surface upwards, the third transmission device 52 conveys the wood board monomer 10 to the output end of the first filling device 53, after the first accommodating groove 106 is filled with the hydrogel 109, the third transmission device 52 conveys the wood board monomer 10 to the output end of the second filling device 54, so that the second filling device 54 assembles the elastic sealing strip 110 in the second accommodating groove 107, and then the hydrogel 109 is dried by the third drying device 55.

Preferably, the first filling device 53 includes a spraying portion 531 outputting the hydrogel 109, a second elevation driving device 532 driving the spraying portion 531 to elevate, and a sixth movement driving device 533 driving the spraying portion 531 to move in the length direction of the plank monomer 10. After the second elevating driving means 532 drives the spraying portion 531 to descend to a predetermined position (one side of the first accommodating groove 106), the sixth moving driving means 533 drives the spraying portion 531 to move in the longitudinal direction of the first accommodating groove 106, so that the spraying portion 531 uniformly outputs the hydrogel 109 into the first accommodating groove 106. Specifically, the second lift driving device 532 and the sixth movement driving device 533 are both cylinder driven.

Preferably, in order to improve filling efficiency, the spraying part 531 includes a receiving part receiving the hydrogel 109, and a spraying gun outputting the hydrogel 109; the spray gun is communicated with the accommodating part.

Preferably, the second filling device 54 includes a feeding device 541 that outputs the elastic sealing strip 110, a material conveying device 542 that conveys the elastic sealing strip 110, and a second positioning device 543 that positions the elastic sealing strip 110. The elastic sealing strip 110 is output by the feeding device 541, and the elastic sealing strip 110 is conveyed to a predetermined position by the material conveying device 542, and the second positioning device 543 makes the assembly of the elastic sealing strip 110 more stable and accurate.

Preferably, in order to improve the conveying efficiency and the conveying accuracy of the elastic sealing strip 110, the material conveying device 542 includes a material conveying portion 5421 that conveys the elastic sealing strip 110, and a limiting portion 5422 that limits the elastic sealing strip 110.

Preferably, in order to improve the conveying efficiency of the elastic sealing strip 110, the material conveying part 5421 includes a first transmission part 5423 and a second transmission part 5424; the first and second transmission parts 5423 and 5424 are sequentially disposed along the conveying direction of the elastic sealing strip 110.

Preferably, in order to improve the conveying efficiency of the elastic sealing strip 110, the first driving part 5423 includes a first driving roller and a second driving roller; the first driving roller and the second driving roller are vertically arranged, and a gap is formed between the first driving roller and the second driving roller, through which the elastic sealing strip 110 passes.

Preferably, in order to improve the conveying efficiency of the elastic sealing strip 110, the first transmission portion 5423 further includes a first transmission motor driving the first transmission roller to rotate, and a second transmission motor driving the second transmission roller to rotate.

Preferably, in order to improve the conveying efficiency of the elastic sealing strip 110, the second transmission portion 5424 includes a third transmission roller and a fourth transmission roller; a gap through which the elastic sealing strip 110 passes is arranged between the third driving roller and the fourth driving roller, 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 5424 further includes a third transmission motor driving the third transmission roller to rotate, and a fourth transmission motor driving the fourth transmission roller to rotate.

Preferably, the limit portion 5422 includes a plurality of first guide portions 5425; the first guide portion 5425 has a guide hole through which the elastic sealing strip 110 passes. The elastic sealing strip 110 passes through the guide holes of the plurality of first guide portions 5425, respectively, and the position of the elastic sealing strip 110 is limited by the guide holes, so that the elastic sealing strip 110 accurately passes through the second receiving groove 107.

Preferably, the material handling apparatus 542 further includes a cutting portion 5426 for cutting the elastic sealing strip 110. When the elastic sealing strip 110 is completely assembled at a predetermined position (the second receiving groove 107) of the wood board unit 10, the cutting portion 5426 cuts the elastic sealing strip 110.

Preferably, the second positioning device 543 includes a fourth adsorption portion 5431 and a fifth adsorption portion 5432 that adsorb the elastic sealing tape 110, and a seventh movement driving device 5433 that drives the fourth adsorption portion 5431 and the fifth adsorption portion 5432 to move in the conveying direction of the elastic sealing tape 110. After the fourth and fifth adsorption parts 5431 and 5432 adsorb the elastic sealing strip 110 and output the elastic sealing strip 110 to a predetermined length (equal to the length of the second accommodating groove 107), the cutting part 5426 cuts off the elastic sealing strip 110, and the seventh movement driving device 5433 drives the fourth and fifth adsorption parts 5431 and 5432 to gradually and completely assemble the elastic sealing strip 110 in the second accommodating groove 107; specifically, the fourth and fifth adsorption parts 5431 and 5432 form a negative pressure on the contact surface with the elastic sealing tape 110 by the vacuum adsorption principle, so that the elastic sealing tape 110 is firmly adsorbed on the fourth and fifth adsorption parts 5431 and 5432, and the seventh movement driving device 5433 is driven by a cylinder.

Preferably, the second positioning device 543 further comprises a third abutting portion 5434 for abutting the elastic sealing strip 110. The third propping portion 5434 is used for propping the elastic sealing strip 110, so that the fourth adsorption portion 5431 and the fifth adsorption portion 5432 have stress points when the elastic sealing strip 110 is adsorbed.

Preferably, the second turning device 51 includes a third clamping portion 511 clamping one side of the board monomer 10, a fourth clamping portion 512 clamping the other side of the board monomer 10, and a fifth rotation driving device driving the third clamping portion 511 and the fourth clamping portion 512 to rotate. The third clamping part 511 and the fourth clamping part 512 are driven to rotate 180 degrees through the fifth rotation driving device, so that the second face of the wood board monomer 10 faces upwards, specifically, the third clamping part 511 comprises a fifth clamping board and a sixth clamping board, the distance between the fifth clamping board and the sixth clamping board is larger than or equal to the thickness of the wood board monomer 10, the fourth clamping part 512 comprises a seventh clamping board and an eighth clamping board, the distance between the seventh clamping board and the eighth clamping board is larger than or equal to the thickness of the wood board monomer 10, the second transmission device 422 conveys the wood board monomer 10 into the third clamping part 511 and the fourth clamping part 512, and the fifth rotation driving device comprises a fourth motor and a fifth motor; the fourth motor drives the third clamping part 511 to rotate, and the fifth motor drives the fourth clamping part 512 to rotate, so that the wood board single body 10 is turned over.

Preferably, the third transfer device 52 includes a sixth adsorption part that carries and adsorbs the board monomer 10, and an eighth movement driving device that drives the sixth adsorption part to move. The wood board monomer 10 is placed on the sixth adsorption part, the upper surface of the sixth adsorption part forms a circulating part for circulating gas, and negative pressure is formed between the wood board monomer 10 and the sixth adsorption part by the vacuum adsorption principle, so that the wood board monomer 10 is firmly adsorbed on the sixth adsorption part. The eighth movable driving device comprises a fifth slideway, a sixth slideway, a third sliding plate and pulleys positioned at two ends of the third sliding plate, and a motor for driving the pulleys to rotate; the sixth adsorption part is arranged on the third slide plate, and two ends of the third slide plate are respectively and slidably connected in the fifth slide way and the sixth slide way through pulleys.

Preferably, in order to increase the working efficiency, a conveying mechanism 6 for conveying the elongated wood board onto the first milling device 21 is further included.

Preferably, the conveying mechanism 6 includes a board conveying device 61 that conveys the elongated board, and a second transferring device 62 that transfers the cut elongated board onto the board conveying device 61. The cut long wood boards are transferred onto the wood board conveying device 61 by the second transfer device 62, and the wood board conveying device 61 conveys the long wood boards onto the first milling conveying device 23.

Preferably, the second transferring device 62 includes a seventh adsorbing portion 621 that adsorbs the elongated wood board, and a ninth movement driving device 622 that drives the seventh adsorbing portion 621 to move along a predetermined trajectory. After the seventh adsorption part 621 is driven by the ninth moving driving device 622 to adsorb the long-strip wood board, the seventh adsorption part 621 is driven to rotate, and the long-strip wood board is placed on the wood board conveying device 61; specifically, the seventh adsorption part 621 adsorbs the long wood board by the vacuum adsorption principle, the seventh adsorption part 621 forms a gas circulation part on the contact surface with the long wood board, so that negative pressure is formed after the seventh adsorption part 621 contacts with the long wood board, the long wood board is adsorbed on the lower surface of the seventh adsorption part 621, when the long wood board moves above the wood board conveying device 61, the air pressure of the contact surface between the seventh adsorption part 621 and the long wood board is reset, the long wood board falls off from the seventh adsorption part 621, and the ninth movable driving device 622 comprises a rotating base, a telescopic lifting arm and a rotating cylinder; one end of the telescopic lifting arm is connected with the rotating base, the other end of the telescopic lifting arm is connected with the rotating cylinder, the output end of the rotating cylinder is connected with the seventh adsorption part 621, the telescopic lifting arm comprises a plurality of driving arms, each two adjacent driving arms are connected together through a driving motor, and the driving arms are driven to move through the driving motor to drive the seventh adsorption part 621 to lift and stretch.

Preferably, the board conveying device 61 includes a board conveying portion 611 that conveys the long board, and a positioning portion 612 that aligns the position of the long board; the board conveying part 611 has a second output end from which the long board is output, and the positioning part 612 is located above the second output end of the board conveying part 611. The long wood board is conveyed by the board conveying portion 611, and when passing through the positioning portion 612, the long wood board is automatically aligned so that the axis of the long wood board along the conveying direction overlaps with the axis of the first milling conveying device 23.

Preferably, the positioning part 612 includes a second guide part 6121 and a third guide part 6122 for guiding the elongated wood board; a channel through which the long wood board passes is formed between the second guide portion 6121 and the third guide portion 6122, the channel has a first inlet through which the long wood board enters and a first outlet through which the long wood board is output, and the width dimension from the first inlet to the first outlet becomes gradually smaller, and the width dimension of the first outlet is equal to the width dimension of the long wood board. After entering from the first entrance, the long wood board is automatically corrected to a position suitable for processing by the second guide portion 6121 and the third guide portion 6122.

The form of the present invention is not limited to the illustrations and examples, and any person who performs a similar idea of the present invention should be regarded as not departing from the scope of the patent of the invention.

Claims (38)

1. The utility model provides a clean manufacturing system of timber apron environmental protection which characterized in that: comprises a plate cutting mechanism for cutting a plate into a strip-shaped plate and a processing mechanism for processing the strip-shaped plate into a preset shape; the plate cutting mechanism comprises a plate conveying device for conveying plates and a first cutting device for cutting the plates; the first cutting device comprises a first cutting part and a first moving driving device for driving the first cutting part to move along the width direction of the plate;

the preset shape comprises a first clamping protrusion, a first clamping groove, a second clamping protrusion and a abdication groove which are processed on the first side of the strip-shaped wood board; processing a second clamping groove, a first accommodating groove, a second accommodating groove and a third clamping protrusion on the second side of the strip-shaped wood board; the first accommodating groove, the second accommodating groove and the second clamping groove are communicated, the second clamping protrusion is formed on the outer side of the first clamping protrusion and is arranged towards the second accommodating groove, and the abdicating groove is positioned on the first clamping protrusion; the first clamping protrusion on the first surface of the first long wood board is assembled in the second clamping groove on the second surface of the second long wood board, and meanwhile the second clamping protrusion is assembled in the second accommodating groove;

The processing mechanism comprises a first milling device for milling the first surface of the long-strip wood board and a second milling device for milling the second surface of the long-strip wood board; the first milling device comprises a first milling part for milling the first surface, and the first milling part comprises a first milling cutter, a second milling cutter and a third milling cutter; an arc-shaped groove which is arranged around the outer circumferential surface of the third milling cutter is formed at the upper part of the outer circumferential surface of the third milling cutter, and the first milling cutter, the second milling cutter and the third milling cutter are sequentially arranged along the cutting direction of the strip-shaped wood board; the first milling part further comprises a first rotating motor for driving the first milling cutter to rotate, a second rotating motor for driving the second milling cutter to rotate and a third rotating motor for driving the third milling cutter to rotate; the second milling device comprises a second milling part for milling a second surface, and the second milling part comprises a fourth milling cutter, a fifth milling cutter and a sixth milling cutter; the middle part of the sixth milling cutter is provided with a first arc-shaped bulge which is arranged around the outer circumferential surface of the sixth milling cutter, and the lower part of the sixth milling cutter is provided with a second arc-shaped bulge which is arranged around the outer circumferential surface of the sixth milling cutter; the fourth milling cutter, the fifth milling cutter and the sixth milling cutter are sequentially arranged along the cutting direction of the strip-shaped wood board; the second milling part further comprises a fourth rotating motor for driving the fourth milling cutter to rotate, a fifth rotating motor for driving the fifth milling cutter to rotate and a sixth rotating motor for driving the sixth milling cutter to rotate;

The processing mechanism further comprises a second milling conveying device for conveying the single wood board and a third milling device for processing the abdication groove at the milling position of the first surface of the single wood board; the third milling device comprises a third milling part for milling at a preset position, a first lifting driving device for driving the third milling part to lift and a first rotating driving device for driving the third milling part to rotate; the third milling part comprises a milling cutter mounting seat and a plurality of third cutting parts assembled on the milling cutter mounting seat; the milling cutter mounting seat comprises a plurality of milling cutter mounting blocks; the milling cutter mounting blocks are arranged at equal intervals around the rotation center of the third milling part, and the short side of each milling cutter mounting block is connected with the long side of the adjacent milling cutter mounting block; the third cutting part comprises a first hinging seat and a seventh milling cutter, and the seventh milling cutter is rotationally connected with the first hinging seat; the plurality of first hinging seats are respectively arranged at the connecting positions of the outer sides of the adjacent milling cutter mounting blocks, the plurality of third cutting parts encircle the central shaft of the third milling part and are staggered along the length direction of the cutting surface, and the length dimension of the cutting surface formed by the plurality of third cutting parts is larger than that of the wood plate single body; when the third cutting parts rotate anticlockwise, the milling radius of the third cutting parts becomes smaller, and when the third cutting parts rotate clockwise, the milling radius of the third cutting parts becomes larger, so that the machining of the abdication groove is completed;

The filling mechanism is used for filling materials at preset positions of milling positions of the second surfaces of the wood plate monomers; the filling mechanism comprises a second overturning device for overturning the single wood board, a third transmission device for conveying the single wood board, a first filling device for filling hydrogel in a first accommodating groove of the single wood board, a second filling device for filling an elastic sealing strip in a second accommodating groove of the single wood board, and a third drying device for drying the hydrogel in the single wood board; the second filling device comprises a feeding device for outputting the elastic sealing strips, a material conveying device for conveying the elastic sealing strips and a second positioning device for positioning the elastic sealing strips; the material conveying device comprises a material conveying part for conveying the elastic sealing strips and a limiting part for limiting the elastic sealing strips; the material conveying part comprises a first transmission part and a second transmission part; the first transmission part and the second transmission part are sequentially arranged along the conveying direction of the elastic sealing strip; the first transmission part comprises a first transmission roller and a second transmission roller; a gap through which the elastic sealing strip passes is formed between the first driving roller and the second driving roller, and the axes of the first driving roller and the second driving roller are vertically arranged; the first transmission part also comprises 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; the second transmission part comprises a third transmission roller and a fourth transmission roller; a gap through which the elastic sealing strip passes is formed between the third driving roller and the fourth driving roller, and the axes of the third driving roller and the fourth driving roller are vertically arranged; the second transmission part also comprises 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; the limiting part comprises a plurality of first guide parts; the first guide part is provided with a guide hole through which the elastic sealing strip passes; the material conveying device further comprises a cutting part for cutting off the elastic sealing strip; the second positioning device comprises a fourth adsorption part and a fifth adsorption part which adsorb the elastic sealing strip, and a seventh movement driving device which drives the fourth adsorption part and the fifth adsorption part to move along the conveying direction of the elastic sealing strip; the second positioning device further comprises a third propping part for propping the elastic sealing strip.

2. The wood flooring environmentally friendly cleaning manufacturing system according to claim 1, wherein: the first cutting part comprises a disc saw blade and a first rotating motor for driving the disc saw blade to rotate.

3. The wood flooring environmentally friendly cleaning manufacturing system according to claim 2, wherein: the first cutting device further comprises a first positioning device for positioning the plate.

4. A wood flooring environmentally friendly cleaning manufacturing system according to claim 3, wherein: the first positioning device comprises a first propping part propping one side of the plate and a second propping part propping the other side of the plate.

5. The system for environmentally friendly cleaning and manufacturing wood floors of claim 4, wherein: the processing mechanism further comprises a first milling conveying device for conveying the long-strip wood boards to perform milling.

6. The wood flooring environmentally friendly cleaning manufacturing system according to claim 5, wherein: the first milling conveying device comprises a first upper conveying part for conveying the long wood boards and a first lower conveying part below the first upper conveying part; a gap is formed between the first upper conveying part and the first lower conveying part, and the long wood board passes through the gap.

7. The wood flooring environmentally friendly cleaning manufacturing system according to claim 6, wherein: the first milling device and the second milling device are positioned at two sides of the first milling conveying device; the first milling device is located below the long-strip wood board, and the second milling device is located above the long-strip wood board.

8. The wood flooring environmentally friendly cleaning manufacturing system according to claim 7, wherein: the processing mechanism further comprises a second cutting device for cutting the strip wood board into wood board monomers; the first milling conveying device is provided with a first input end and a first output end, and the second cutting device is arranged on one side of the first output end.

9. The wood flooring environmentally friendly cleaning manufacturing system according to claim 8, wherein: the second cutting device comprises a second cutting part and a second moving driving device for driving the second cutting part to move along the width direction of the long-strip wood board.

10. The wood flooring environmentally friendly cleaning manufacturing system according to claim 9, wherein: the second milling conveying device comprises a second upper conveying part for conveying the single wood board and a second lower conveying part below the second upper conveying part; and a gap through which the wood board monomers pass is arranged between the second upper conveying part and the second lower conveying part.

11. The wood flooring environmentally friendly cleaning manufacturing system according to claim 10, wherein: the wood chip cleaning and recycling device is used for cleaning and recycling wood chips.

12. The wood flooring environmentally friendly cleaning manufacturing system according to claim 11, wherein: the cleaning and recycling device comprises a cleaning cover body which is covered on the processing mechanism, a wood chip cleaning device which is used for cleaning the wood chips on the strip wood boards and the wood board monomers, and a wood chip recycling device which is used for recycling the wood chips; the wood plate milling machine is characterized in that one end of the cleaning cover body is provided with a first input port for inputting a strip wood plate into a first milling conveying device, the other end of the cleaning cover body is provided with a first output port for outputting a wood plate monomer, the side wall of the cleaning cover body is provided with a recovery pipe, and the wood chip recovery device is communicated with the inside of the cleaning cover body through the recovery pipe.

13. A wood flooring environmentally friendly cleaning manufacturing system according to any one of claims 1-12, wherein: the device also comprises a lacquering mechanism for lacquering the surfaces of the single wood boards.

14. The wood flooring environmentally friendly cleaning manufacturing system according to claim 13, wherein: the painting mechanism comprises a first painting mechanism for painting on the second surface of the single wood board and a second painting mechanism for painting on the first surface of the single wood board.

15. The wood flooring environmentally friendly cleaning manufacturing system according to claim 14, wherein: the first paint spraying mechanism comprises a first transfer device for transferring the single wood board, a first transmission device for conveying the single wood board, a first grinding device for grinding the second surface of the single wood board, a first paint spraying device for spraying paint on the second surface of the single wood board, and a first drying device for drying the single wood board; the first grinding device, the first paint spraying device and the first drying device are sequentially arranged along the single-body paint spraying direction of the wood board.

16. The wood flooring environmentally friendly cleaning manufacturing system according to claim 15, wherein: the first transfer device comprises a transfer conveying part for conveying the single wood board and a first adsorption device for adsorbing and placing the wood board on the first conveying device.

17. The wood flooring environmentally friendly cleaning manufacturing system according to claim 16, wherein: the first adsorption device comprises a first adsorption part for adsorbing the single wood board and a third movement driving device for driving the first adsorption part to move along a preset track.

18. The wood flooring environmentally friendly cleaning manufacturing system according to claim 17, wherein: the first paint spraying device comprises a first paint spraying part and a second paint spraying part which output paint; the first paint spraying part and the second paint spraying part are sequentially arranged along the paint spraying direction of the wood board.

19. The wood flooring environmentally friendly cleaning manufacturing system according to claim 18, wherein: the first paint spraying part comprises a first accommodating box for accommodating paint and a plurality of first paint spraying nozzles for outputting the paint; the plurality of first paint spraying nozzles are positioned above the wood board single body, and are communicated with the first accommodating box; the second paint spraying part comprises a second accommodating box for accommodating paint and a plurality of second paint spraying nozzles for outputting the paint; the second paint spraying nozzles are arranged above the wood board monomers, and are communicated with the second accommodating boxes.

20. The wood flooring environmentally friendly cleaning manufacturing system according to claim 19, wherein: the first transmission device comprises a second adsorption part for bearing and adsorbing the wood plate monomers, and a fourth movement driving device for driving the second adsorption part to move.

21. The wood flooring environmentally friendly cleaning manufacturing system according to claim 20, wherein: the first grinding device comprises a first grinding part and a second rotation driving device for driving the first grinding part to rotate; the outer circumferential surface of the first grinding part is formed with abrasive grains contacting with the second surface of the wood plate monomer.

22. The wood flooring environmentally friendly cleaning manufacturing system according to claim 21, wherein: the first paint spraying mechanism further comprises a first paint spraying cover body; the first paint spraying device and the first drying device are arranged in the first paint spraying cover body.

23. The wood flooring environmentally friendly cleaning manufacturing system according to claim 22, wherein: the second paint spraying mechanism comprises a first overturning device for overturning the single wood board, a second conveying device for conveying the single wood board, a second polishing device for polishing the first surface of the single wood board, a second paint spraying device for spraying paint on the first surface of the single wood board, and a second drying device for drying the single wood board; the second polishing device, the second paint spraying device and the second drying device are sequentially arranged along the paint spraying direction of the wood board.

24. The wood flooring environmentally friendly cleaning manufacturing system according to claim 23, wherein: the first turning device comprises a first clamping part for clamping one side of the wood board monomer, a second clamping part for clamping the other side of the wood board monomer, and a third rotation driving device for driving the first clamping part and the second clamping part to rotate.

25. The wood flooring environmentally friendly cleaning manufacturing system according to claim 24, wherein: the second paint spraying device comprises a third paint spraying part and a fourth paint spraying part which output paint; the third paint spraying part and the fourth paint spraying part are sequentially arranged along the paint spraying direction of the wood board.

26. The wood flooring environmentally friendly cleaning manufacturing system according to claim 25, wherein: the third paint spraying part comprises a third accommodating box for accommodating paint and a plurality of third paint spraying nozzles for outputting the paint; the third paint spray nozzles are positioned above the wood board single body, and are communicated with the third accommodating box; the fourth paint spraying part comprises a fourth accommodating box for accommodating paint and a plurality of fourth paint spraying nozzles for outputting the paint; the fourth paint spraying nozzles are arranged above the wood board monomers, and are communicated with the fourth accommodating box.

27. The wood flooring environmentally friendly cleaning manufacturing system according to claim 26, wherein: the second transmission device comprises a third adsorption part for bearing and adsorbing the wood plate monomers, and a fifth movement driving device for driving the third adsorption part to move.

28. The wood flooring environmentally friendly cleaning manufacturing system according to claim 27, wherein: the second polishing device comprises a second polishing part and a fourth rotation driving device for driving the second polishing part to rotate; the outer circumferential surface of the second grinding part is formed with abrasive grains contacting with the first surface of the wood plate monomer.

29. The wood flooring environmentally friendly cleaning manufacturing system according to claim 28, wherein: the second paint spraying mechanism further comprises a second paint spraying cover body; the second paint spraying device and the second drying device are arranged in the second paint spraying cover body.

30. The wood flooring environmentally friendly cleaning manufacturing system according to claim 1, wherein: the first filling device comprises a spraying part for outputting hydrogel, a second lifting driving device for driving the spraying part to lift, and a sixth moving driving device for driving the spraying part to move along the length direction of the plank monomers.

31. The wood flooring environmentally friendly cleaning manufacturing system according to claim 30, wherein: the spraying part comprises a containing part for containing hydrogel and a spraying gun for outputting the hydrogel; the spray gun is communicated with the accommodating part.

32. The wood flooring environmentally friendly cleaning manufacturing system according to claim 1, wherein: the second turning device comprises a third clamping part for clamping one side of the single wood board, a fourth clamping part for clamping the other side of the single wood board, and a fifth rotation driving device for driving the third clamping part and the fourth clamping part to rotate.

33. The wood flooring environmentally friendly cleaning manufacturing system according to claim 32, wherein: the third conveying device comprises a sixth adsorption part for bearing and adsorbing the wood plate monomers, and an eighth moving driving device for driving the sixth adsorption part to move.

34. The wood flooring environmentally friendly cleaning manufacturing system according to claim 33, wherein: the device also comprises a conveying mechanism for conveying the long-strip wood board to the first milling device.

35. The wood flooring environmentally friendly cleaning manufacturing system according to claim 34, wherein: the conveying mechanism comprises a wood board conveying device for conveying the long-strip wood boards and a second transferring device for transferring the cut long-strip wood boards onto the wood board conveying device.

36. The wood flooring environmentally friendly cleaning manufacturing system according to claim 35, wherein: the second transferring device comprises a seventh adsorbing part for adsorbing the long wood board and a ninth moving driving device for driving the seventh adsorbing part to move along a preset track.

37. The wood flooring environmentally friendly cleaning manufacturing system according to claim 36, wherein: the plank conveying device comprises a plank conveying part for conveying the long planks and a positioning part for calibrating the positions of the long planks; the plank conveying part is provided with a second output end for outputting long planks, and the positioning part is positioned above the second output end of the plank conveying part.

38. The wood flooring environmentally friendly cleaning manufacturing system according to claim 37, wherein: the positioning part comprises a second guiding part and a third guiding part for guiding the long wood board; the long wood board is arranged on the first guide part, the second guide part is arranged on the second guide part, the third guide part is arranged on the second guide part, a long wood board passing channel is formed between the second guide part and the third guide part, the channel is provided with a first inlet for entering the long wood board and a first outlet for outputting the long wood board, the width dimension from the first inlet to the first outlet is gradually reduced, and the width dimension of the first outlet is equal to that of the long wood board.