CN117300777B - Wood manufacturing, forming and processing system - Google Patents

Abstract

The invention discloses a wood manufacturing, forming and processing system, which relates to the technical field of wood processing and polishing equipment and comprises a fixed mounting frame, wherein a mixed switching processing assembly is arranged on one side of the fixed mounting frame and comprises an elevating electric push rod and a storage fixed box, the elevating electric push rod is symmetrically arranged at two ends of the fixed mounting frame, the storage fixed box is arranged at one end of the fixed mounting frame, and the top end of the storage fixed box is clamped with an operation electric push rod.

Description

Wood manufacturing, forming and processing system

Technical Field

The invention relates to the technical field of wood processing and polishing equipment, in particular to a wood manufacturing, forming and processing system.

Background

The wood processing uses wood as raw material, and mainly uses mechanical or chemical method to make the product retain the basic characteristics of wood, and the wood processing technique includes wood cutting, wood drying, wood gluing and wood surface decoration, and the cutting includes sawing, planing, milling, drilling and sanding, and the polishing is a processing method for changing physical properties of material surface by friction by means of coarse object, and at present the wood processing is treated by sand paper or grinding wheel when polishing surface.

But now when polishing the processing to timber, can't adjust the appearance of polishing abrasive paper according to the shape on panel surface, lead to needs to adjust repeatedly and polish position and repeated polishing many times, top piece is remained simultaneously when polishing for in the process of polishing continuously, the rear end can receive the influence of front end piece, makes the piece carry out the secondary damage of polishing to panel, influences the quality of polishing and the processing rate of polishing.

Disclosure of Invention

The invention provides a wood manufacturing, forming and processing system, which can effectively solve the problems that in the prior art, when wood is polished, the appearance of polished sand paper cannot be adjusted according to the shape of the surface of a board, so that the polishing position needs to be adjusted repeatedly and repeated polishing is required, meanwhile, scraps at the top end remain during polishing, the rear end is influenced by the scraps at the front end in the continuous polishing process, the scraps are subjected to secondary polishing damage to the board, and polishing quality and polishing processing speed are influenced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the wood manufacturing, forming and processing system comprises a fixed mounting frame, wherein a mixed switching treatment assembly is arranged on one side of the fixed mounting frame;

the mixed switching processing assembly comprises a lifting electric push rod and a storage fixing box;

lifting electric push rods are symmetrically arranged at two ends of the fixed mounting frame, a storage fixed box is arranged at one end of the fixed mounting frame, an operation electric push rod is clamped at the top end of the storage fixed box, a support bearing frame is arranged at the top end of the operation electric push rod, a switching motor is arranged at the top end of the support bearing frame through a motor base, a switching operation frame is clamped at the top end of an output shaft of the switching motor, a plurality of reciprocating electric slide rails are symmetrically arranged at side ends of the switching operation frame at equal intervals, an inner hole moving plate is arranged at the side ends of the reciprocating electric slide rails through a slide rail base, and a positioning electric push rod is clamped at the top end of the inner hole moving plate;

the fixed box is placed at one side of the switching operation frame, a limiting water bag is fixedly arranged at the bottom end of the fixed box, a plurality of positioning springs are equidistantly arranged at the bottom end of the fixed box, and a limiting support pad is arranged at the bottom end of each positioning spring corresponding to the position of the corresponding limiting water bag;

The side end of the placing and fixing box is symmetrically and penetratingly connected with an operation fixing pipe, a two-way pump is arranged at the position of the side end of the placing and fixing box corresponding to one operation fixing pipe through a motor base, and an electromagnetic valve is arranged at one end of the other operation fixing pipe;

the electric push rod is characterized in that a connection limiting frame is arranged at the bottom end position of the positioning electric push rod at the other side position of the switching operation frame, a processing motor is arranged on the inner side of the connection limiting frame through a motor base, a polishing grinding wheel is clamped at the bottom end of an output shaft of the processing motor, a pumping flushing pump is arranged at the bottom end of the switching operation frame symmetrically through the motor base, and a flushing pipe frame is connected with the side ends of the storage fixing box and the inner hole moving plate in a penetrating manner.

According to the technical scheme, fixed mounting bracket one end top joint has the gear box, gear box output shaft equidistance joint has a plurality of to remove the backing roll, fixed mounting bracket one end top corresponds gear box position department and installs driving motor through the motor cabinet.

According to the technical scheme, the operation pressing frame is clamped at the top ends of the lifting electric push rods, a plurality of electric push rods are installed at one end of the fixed installation frame at equal intervals, a movable support frame is clamped at one end of each electric push rod, a plurality of supporting electric push rods are clamped at the top ends of the movable support frame at equal intervals, clamping electromagnets are installed at the top ends of the supporting electric push rods, a collecting support box is clamped at the top ends of the clamping electromagnets in a magnetic attraction mode, a polishing motor is installed at one end of the collecting support box through a motor base, polishing operation rollers are clamped at output shafts of the polishing motor, slag extraction pipes penetrate through the bottom ends of the collecting support box at equal intervals symmetrically, and slag extraction fans are fixedly installed at the inner sides of the slag extraction pipes;

The electric lifting device comprises an operation pressing frame, a limiting electric push rod, an inner groove adsorption plate, an inlet and outlet fixing pipe, a motor seat and an adsorption air pump, wherein a plurality of lifting electric slide rails are clamped at two ends of the operation pressing frame at equal intervals, the limiting electric push rod is arranged at the side end of each lifting electric slide rail through the slide rail seat, the inner groove adsorption plate is clamped at one end of each limiting electric push rod, the inlet and outlet fixing pipe is connected at one end of each inner groove adsorption plate in a penetrating manner, and the adsorption air pump is arranged at the side end of each limiting electric push rod through the motor seat;

one end of the inner groove adsorption plate, which is far away from the limiting electric push rod, and the bottom end of the limiting water bag are both fixed with polishing sand paper;

the utility model discloses a dust collector, including motor cabinet, operation pushing down frame, dust collector, collecting box, flexible brush board, a plurality of sediment pipe support, dust collector bottom, flexible brush board, a plurality of sediment pipe support and closed cover side through-connection are blocked to operation pushing down frame one end equidistance through the motor cabinet, the porous extraction pipe of upset motor output shaft joint has the porous extraction pipe, operation pushing down frame side bottom corresponds porous extraction pipe position department joint has the closed cover that blocks, a plurality of stop spring is installed to operation pushing down frame side equidistance, a plurality of stop flexible brush board is installed to stop spring one end porous extraction pipe and closed cover side through-connection has a sediment pipe support, sediment pipe support side symmetry installs the dust collector, two the dust collector bottom is run through and is installed concentrated collecting box.

According to the technical scheme, the transmission motor output shaft and the gear box input shaft joint combination, the movable support roller rotates and installs in the inboard end of fixed mounting frame, movable support frame slidable mounting is in the fixed mounting frame side, movable support frame's longitudinal section is L shape, it installs in the fixed mounting frame inboard to collect the support box cup joint, the operation roller of polishing rotates and installs in collecting the support box inboard.

According to the technical scheme, the bottom end of the deslagging extraction pipe is arranged at the top end of the movable support frame in a penetrating manner, the inner groove adsorption plate is arranged on the inner side of the fixed mounting frame and the inner side of the operation pressing frame in a sliding manner, one end of the adsorption air pump is connected with one end of the in-out fixed pipe in a clamping manner through the adapter, and the switching operation frame is in rotary sleeving connection with the side end of the support bearing frame;

the bottom end of the limiting support pad is connected with the bottom end of the inner side of the limiting water bag in an adhesive mode, one of the operation fixing pipes is installed on the inner side of the limiting water bag in a penetrating mode, and one end of the pumping flushing pump is combined with one end of the flushing pipe rack through the adapter in a clamping mode.

According to the technical scheme, the porous extraction pipe is rotatably arranged on the inner side of the closed blocking sleeve, and the blocking soft brush plate is rotatably arranged at the side end of the operation pressing frame;

the input ends of the transmission motor, the lifting electric push rod, the in-out electric push rod, the clamping electromagnet, the polishing motor, the slag discharging fan, the lifting electric slide rail, the limiting electric push rod, the adsorption air pump, the operation electric push rod, the switching motor, the reciprocating electric slide rail, the positioning electric push rod, the bidirectional pump, the electromagnetic valve, the processing motor, the pumping flushing pump, the overturning motor and the dust collector are electrically connected with the output end of the external controller;

The input end of the external controller is electrically connected with the output end of the external power supply.

According to the technical scheme, one side of the fixed mounting frame is provided with the fixed flat cutting edge component, and the fixed flat cutting edge component comprises an operation mounting frame;

the automatic slag removing device comprises a fixed mounting frame, a movable mounting frame, a fine adjustment electric push rod, a lifting limiting plate, a plurality of slag removing fans, a fixed leveling electric slide rail, a movable operation plate, a fine adjustment electric push rod, a fixed leveling planer knife and an opening and closing blocking plate, wherein the fixed mounting frame is fixed at one end of the fixed mounting frame;

the side ends of the operation installation frame are symmetrically and rotationally connected with a bidirectional screw rod, the two ends of the operation installation frame are respectively provided with a linkage motor corresponding to the opening and closing blocking plate and the bidirectional screw rod through a motor seat, the side ends of the bidirectional screw rod are symmetrically provided with a positioning clamping plate through a screw rod seat, one end of the positioning clamping plate is embedded and provided with a fine adjustment electric sliding rail, a movable clamping plate is arranged between the two fine adjustment electric sliding rails through a sliding rail seat, the device comprises a movable clamping plate, a motor seat, a laser level meter, a positioning moving roller, a fixed slag collecting box, a laser level meter, a positioning moving roller, a fixed slag collecting box, a laser level meter, a positioning moving roller, a positioning slag collecting box and a slag collecting box, wherein the positioning moving roller is arranged at the top end of the movable clamping plate;

The storage fixing box is characterized in that fixing motors are mounted at two ends of the storage fixing box through motor bases, fixing operation frames are clamped on output shafts of the fixing motors, linkage electric sliding rails are mounted at the top ends and the bottom ends of the fixing operation frames in an embedded mode, linkage electric pushing rods are mounted at the positions of the linkage electric sliding rails at the positions of the top ends of the fixing operation frames, auxiliary positioning frames are mounted at the top ends of the linkage electric sliding rails and the bottom ends of the linkage electric pushing rods at the positions of the bottom ends of the fixing operation frames, sleeve-joint electromagnets are connected to the inner sides of the auxiliary positioning frames in a sliding mode, cutting motors are mounted at one ends of the sleeve-joint electromagnets through the motor bases, cutting grinding wheels are clamped on output shafts of the cutting motors, collecting motors are mounted at one ends of the auxiliary positioning frames through motor bases, collecting operation cylinders are clamped at positions of the output shafts of the corresponding sleeve-joint electromagnets, and collecting movable ropes are wound and connected to the side ends of the collecting operation cylinders.

According to the technical scheme, the longitudinal sections of the lifting limiting plate, the steering mounting plate and the cross sections of the movable clamping plates are L-shaped, the two movable operation plates are respectively and slidably arranged at the bottom end of the lifting limiting plate and the top end of the operation mounting frame, and the output shafts of the linkage motors are respectively and fixedly connected with one end of the bidirectional screw rod and one end of the opening and closing blocking plate;

The laser level meter is rotationally arranged at the side end of the steering mounting plate, and the cutting grinding wheel is rotationally arranged at the side end of the sleeve electromagnet.

According to the technical scheme, one end of the collecting moving rope is fixedly connected with one end of the sleeving electromagnet;

the device comprises an installation electric push rod, a slag removal fan, a fixed leveling electric slide rail, a fine adjustment electric push rod, a linkage motor, a fine adjustment electric slide rail, an adjustment motor, a laser level meter, a fixed motor, a linkage electric slide rail, a linkage electric push rod, a cutting motor and a collection motor, wherein the input ends of the installation electric push rod, the slag removal fan, the fixed leveling electric slide rail, the fine adjustment electric push rod, the linkage motor, the fine adjustment electric slide rail, the adjustment motor, the laser level meter, the fixed motor, the linkage electric slide rail, the linkage electric push rod, the cutting motor and the collection motor are electrically connected with the output end of an external controller, and the input end of the socket electromagnet is electrically connected with the output end of the external power supply.

According to the technical scheme, the device comprises a power supply module, a plate leveling module, a concave-convex polishing module, a leveling polishing module, a water mill module, a slag discharging module and a control module;

the control module is respectively connected with the power supply module, the plate leveling module, the concave-convex polishing module, the leveling polishing module, the water mill module and the slag discharging module;

the power supply module is respectively connected with the plate leveling module, the concave-convex polishing module, the leveling polishing module, the water mill module and the slag discharging module;

The plate leveling module comprises a laser level meter, a leveling electric sliding rail, a fine adjustment electric push rod and a leveling planer tool;

the concave-convex polishing module comprises a reciprocating electric slide rail, a positioning electric push rod, a limiting water bag, a positioning spring, a limiting support pad and polishing sand paper;

the leveling and polishing module comprises a reciprocating electric slide rail, a positioning electric push rod, a processing motor and a polishing grinding wheel;

the water mill module comprises a storage fixed box, a taking flushing pump and a flushing pipe frame;

the slag discharging module comprises a collecting supporting box, a slag discharging extracting pipe, a porous extracting pipe, a slag discharging pipe rack and a dust collector.

Compared with the prior art, the invention has the beneficial effects that:

1. the device is provided with a mixed switching processing assembly, an inner groove adsorption plate and sandpaper to be polished are driven by lifting an electric sliding rail and a limiting electric push rod to clamp and polish two ends of a plate, a fixed box is driven by a positioning electric push rod to be placed and connected with a limiting frame to be pressed down, so that sandpaper to be polished and a grinding wheel to be attached to the plate are driven by the positioning electric push rod, the position of a switching operation frame is changed by a switching motor, so that the operation can be changed rapidly when different polishing positions are switched, water is injected into the limiting water bag through a two-way pump and an operation fixed pipe, the water bag is driven to deform by the cooperation of a positioning spring and the extrusion compression of a limiting support pad, so that the sandpaper is driven to deform, and the shape of the surface of the plate is changed, so that the polishing can be operated in a targeted manner, and the polishing effect and quality are ensured;

The supporting box, the slag extraction pipe and the slag extraction fan are used for collecting slag at the bottom, the overturning motor, the porous extraction pipe, the closed blocking sleeve, the blocking soft brush plate, the slag extraction pipe rack and the dust collector are used for extracting the slag at the top, and blocking and limiting the slag, so that stable operation can be realized when slag is extracted, slag extraction can be effectively blocked at different positions during treatment, the effect that the slag influences subsequent polishing treatment is avoided, and the cleanliness of the surface of the plate is ensured;

the bottom, the inner groove adsorption plate and the polishing sand paper are used for simultaneously polishing the side end, the polishing grinding wheel, the limiting water bag and the polishing sand paper, the top is matched with the washing pipe frame water mill to realize multi-face simultaneous polishing treatment, and the operation is switched through various polishing modes, so that polishing quality and effect can be pertinently adjusted when different plates are subjected to polishing, equipment is not required to be replaced, polishing speed is accelerated, operation difficulty and complexity are reduced, the supporting box and the porous extracting pipe are matched to collect and clean the broken slag, the influence of the broken slag on the plates, the sand paper and the grinding wheel is reduced, the condition that the broken slag damages the plates is avoided, and further processing quality and effect are achieved.

2. The device is provided with the fixed trimming and edge cutting assembly, the positions of the plates are adjusted and clamped through the bidirectional screw rod, the positioning clamping plate and the fine adjustment electric sliding rail and the movable clamping plate, so that the plates are always in the middle position, the deviation of the plates is prevented from influencing the subsequent operation, the steering mounting plate and the laser level meter are adjusted through the adjusting motor, the fixed trimming and edge cutting assembly is used for guaranteeing the plates with different thicknesses while the fixed trimming and edge cutting assembly is always accurate, the production range of equipment is guaranteed, the fixed trimming and edge cutting blade is driven by the fine adjustment electric push rod and the fixed trimming and edge cutting rail to level the plates, the occurrence of polishing omission caused by uneven plates in the subsequent polishing is avoided, the plate processing effect is guaranteed, and meanwhile, the slag cleaning is realized through the cooperation of the slag cleaning fan, the opening and closing blocking plate and the fixed slag collecting box, and the condition that the slag influencing the quality of processed products is avoided;

the auxiliary positioning frame and the sleeved electromagnet are magnetically changed in position, so that the polishing position can be adjusted according to the actual polishing conditions when the edges are polished, plates with different sizes and shapes can be conveniently processed, the processing effect is ensured, and meanwhile, the application range is ensured;

The flatness and the convenient cleanliness of the plate can be ensured during production by mutually matching the flattening treatment, the edge chamfering and the edge cutting treatment, the situation that the residual burrs of the plate affect polishing is avoided, meanwhile, the direct operation of subsequent production is facilitated by correcting the abnormal shapes of the concave-convex and the edge, and the treatment speed and the treatment quality are ensured;

in summary, through mixing the switching combination and mutually supporting with the trimming and cutting edge subassembly, when handling to panel polishing, utilize front end trimming and middle-end trimming burring cooperation multiposition, multimode operation of polishing, handle the edge again by the rear end, through the combination of multiport order processing for can guarantee the clear effect of panel surface when producing, guaranteed the quality that panel polished simultaneously, reduce panel self and the influence of the piece of polishing to panel polishing and handle, thereby guaranteed the speed and the production quality of production, mutually supporting through a plurality of subassemblies, guaranteed the efficiency of product production.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic flow diagram of a system of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic diagram of a hybrid switching process assembly of the present invention;

FIG. 4 is a schematic view of the mounting structure of the grinding operation roller of the present invention;

FIG. 5 is a schematic view of the mounting structure of the collection support box of the present invention;

FIG. 6 is a schematic view of the mounting structure of the porous extraction tube of the present invention;

FIG. 7 is an enlarged schematic view of the A structure of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of the mounting structure of the spacing support pad of the present invention;

FIG. 9 is a schematic view of the configuration of the trimming assembly of the present invention;

FIG. 10 is a schematic view of the installation structure of the slag-cleaning blower of the present invention;

FIG. 11 is a schematic view of the mounting structure of the laser level of the present invention;

FIG. 12 is a schematic view of the mounting structure of the cutting grinding wheel of the present invention;

reference numerals in the drawings: 1. a fixed mounting rack; 2. a gear box; 3. moving the support roller; 4. a drive motor;

5. a hybrid switching processing component; 501. lifting the electric push rod; 502. operating the pressing frame; 503. an electricity inlet and outlet push rod; 504. moving the support frame; 505. supporting an electric push rod; 506. engaging the electromagnet; 507. collecting a supporting box; 508. polishing a motor; 509. polishing an operation roller; 510. a slag discharge extraction pipe; 511. a slag discharging fan; 512. lifting the electric slide rail; 513. limiting the electric push rod; 514. an inner tank adsorption plate; 515. a fixed pipe is arranged in and out; 516. an adsorption air pump; 517. a storage fixing case; 518. operating the electric push rod; 519. supporting the bearing frame; 520. switching the motor; 521. switching the operation frame; 522. a reciprocating electric slide rail; 523. an inner hole moving plate; 524. positioning an electric push rod; 525. placing a fixed box; 526. limiting the water bag; 527. a positioning spring; 528. a limit support pad; 529. polishing sand paper; 530. operating the fixed tube; 531. a bi-directional pump; 532. an electromagnetic valve; 533. connecting with a limit frame; 534. processing the motor; 535. grinding the grinding wheel; 536. pumping a flushing pump; 537. flushing the pipe frame; 538. a turnover motor; 539. a porous extraction tube; 540. closing the blocking sleeve; 541. a blocking spring; 542. blocking the soft brush plate; 543. a slag discharging pipe frame; 544. a dust collector; 545. a centralized collection box;

6. A trimming and trimming assembly; 601. operating the mounting frame; 602. installing an electric push rod; 603. a lifting limiting plate; 604. a slag removing fan; 605. a fixed-leveling electric slide rail; 606. moving the operation panel; 607. fine tuning the electric push rod; 608. setting a planing tool; 609. opening and closing the blocking plate; 610. a two-way screw rod; 611. a linkage motor; 612. positioning clamping plates; 613. fine tuning the electric slide rail; 614. moving the clamping plate; 615. a steering mounting plate; 616. adjusting a motor; 617. a laser level; 618. a fixed displacement roller; 619. fixing a slag collecting box; 620. fixing a motor; 621. fixing an operation frame; 622. a linkage electric slide rail; 623. linkage electric push rod; 624. an auxiliary positioning frame; 625. sleeving an electromagnet; 626. a cutting motor; 627. cutting and grinding the wheel; 628. collecting a motor; 629. collecting an operation cylinder; 630. the moving rope is collected.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: 1-12, the invention provides a technical scheme, namely a wood manufacturing, molding and processing system, which comprises a power supply module, a board leveling module, a concave-convex polishing module, a leveling polishing module, a water mill module, a slag discharging module and a control module;

The control module is respectively connected with the power supply module, the plate leveling module, the concave-convex polishing module, the leveling polishing module, the water mill module and the slag discharging module;

the power supply module is respectively connected with the plate leveling module, the concave-convex polishing module, the leveling polishing module, the water mill module and the slag discharging module;

the plate leveling module comprises a laser level 617, a leveling electric slide rail 605, a fine adjustment electric push rod 607 and a leveling knife 608;

the concave-convex polishing module comprises a reciprocating electric slide rail 522, a positioning electric push rod 524, a limiting water bag 526, a positioning spring 527, a limiting support cushion 528 and polishing sand paper 529;

the leveling and polishing module comprises a reciprocating electric slide rail 522, a positioning electric push rod 524, a processing motor 534 and a polishing grinding wheel 535;

the watermill module includes a storage fixed tank 517, a pick-up rinse pump 536, and a rinse pipe rack 537;

the slag discharging module comprises a collecting supporting box 507, a slag discharging extracting pipe 510, a porous extracting pipe 539, a slag discharging pipe rack 543 and a dust collector 544.

The top of one end of the fixed mounting frame 1 is clamped with a gear transmission box 2, the output shaft of the gear transmission box 2 is clamped with a plurality of movable supporting rollers 3 at equal intervals, the output shaft of a transmission motor 4 is clamped with the input shaft of the gear transmission box 2, the movable supporting rollers 3 are rotatably mounted at the inner side end of the fixed mounting frame 1, so that the plate can be effectively transmitted and supported when driven to move, the top of one end of the fixed mounting frame 1 is correspondingly provided with the transmission motor 4 at the position of the gear transmission box 2 through a motor base, and one side of the fixed mounting frame 1 is provided with a mixed switching processing component 5;

The hybrid switching process assembly 5 includes a lifting electric push rod 501, an operation pressing frame 502, an in-out electric push rod 503, a moving support frame 504, a supporting electric push rod 505, a clamping electromagnet 506, a collection support box 507, a polishing motor 508, a polishing operation roller 509, a slag extraction pipe 510, a slag discharge fan 511, a lifting electric slide rail 512, a limiting electric push rod 513, an inner tank adsorption plate 514, an in-out fixed pipe 515, an adsorption air pump 516, a storage fixed box 517, an operation electric push rod 518, a supporting bearing frame 519, a switching motor 520, a switching operation frame 521, a reciprocating electric slide rail 522, an inner hole moving plate 523, a positioning electric push rod 524, a placement fixed box 525, a limiting water bag 526, a positioning spring 527, a limiting support pad 528, polishing sand paper 529, an operation fixed pipe 530, a bidirectional pump 531, an electromagnetic valve 532, a connection limiting frame 533, a process motor 534, a polishing wheel 535, a pumping flushing pipe frame 537, a turnover motor 538, a porous pumping pipe 539, a closing blocking sleeve 540, a blocking spring 541, a blocking soft brush plate 542, a slag pipe frame, a dust collector 544, and a collection box 545;

lifting electric push rods 501 are symmetrically arranged at two ends of the fixed installation frame 1, a plurality of lifting electric push rods 501 are clamped with an operation pressing frame 502, a plurality of electric push rods 503 are equidistantly arranged at one end of the fixed installation frame 1, a movable support frame 504 is clamped at one end of each electric push rod 503, the movable support frame 504 is slidably arranged at the side end of the fixed installation frame 1, the longitudinal section of the movable support frame 504 is L-shaped, so that limit clamping can be carried out on the side end when the movable support frame 504 moves directionally, the stability of support is ensured, a plurality of supporting electric push rods 505 are clamped at the top end of the movable support frame 504 at equal intervals, clamping electromagnets 506 are arranged at the top ends of the plurality of supporting electric push rods 505, a collecting supporting box 507 is clamped at the top ends of the clamping electromagnets 506 in a magnetic attraction manner, the electric machine is installed to collection support box 507 one end through the motor cabinet and is polished motor 508, the output shaft joint of motor 508 has operation roller 509 of polishing, collection support box 507 cup joints and installs in fixed mounting frame 1 inboard, operation roller 509 of polishing rotates and installs in collection support box 507 inboard, be convenient for carry out recovery processing to the piece that grinds and produce when polishing, collection support box 507 bottom equidistance symmetry is run through and is had sediment extraction tube 510, sediment extraction tube 510 bottom run through install in the removal support frame 504 top, make can effectually input the bottom with the piece when sediment is handled, avoid the piece to splash the effect that influences the processing of polishing, sediment extraction tube 510 inboard fixed mounting has sediment fan 511;

A plurality of lifting electric sliding rails 512 are clamped at the two ends of the operation pressing frame 502 at equal intervals, a limiting electric push rod 513 is arranged at the side end of each lifting electric sliding rail 512 through a sliding rail seat, an inner groove adsorption plate 514 is clamped at one end of each limiting electric push rod 513, the inner groove adsorption plates 514 are slidably arranged on the inner sides of the fixed installation frame 1 and the operation pressing frame 502, so that stable and rapid operation can be realized when the polishing position and the positioning position are adjusted, one end of each inner groove adsorption plate 514 is connected with an inlet and outlet fixed pipe 515 in a penetrating manner, one end of an adsorption air pump 516 is clamped and combined with one end of each inlet and outlet fixed pipe 515 through an adapter, stable operation of inlet and outlet air is guaranteed, and an adsorption air pump 516 is arranged at the side end of each limiting electric push rod 513 through a motor seat;

a storage fixed box 517 is arranged at one end of the fixed mounting frame 1, an operation electric push rod 518 is clamped at the top end of the storage fixed box 517, a supporting bearing frame 519 is arranged at the top end of the operation electric push rod 518, a switching motor 520 is arranged at the top end of the supporting bearing frame 519 through a motor seat, a switching operation frame 521 is clamped at the top end of an output shaft of the switching motor 520, the switching operation frame 521 is rotatably sleeved with the side end of the supporting bearing frame 519, a plurality of reciprocating electric sliding rails 522 are symmetrically arranged at the side end of the switching operation frame 521 at equal intervals, an inner hole moving plate 523 is arranged at the side end of the reciprocating electric sliding rails 522 through a sliding rail seat, a positioning electric push rod 524 is clamped at the top end of the inner hole moving plate 523, a positioning fixed box 525 is arranged at the bottom end of the positioning electric push rod 524 positioned at one side of the switching operation frame 521, a limiting water bag 526 is fixedly arranged at the bottom end of the positioning fixed box 525, a plurality of positioning springs 527 are equidistantly arranged at the position of the bottom end of the placement fixing box 525 corresponding to the position of the limiting water bag 526, a limiting support cushion 528 is arranged at the position of the bottom end of the positioning springs 527 corresponding to the position of the limiting water bag 526, polishing sand paper 529 is fixed at one end of the inner groove adsorption plate 514, which is far away from the limiting electric push rod 513, and at the bottom end of the limiting water bag 526, operation fixing pipes 530 are symmetrically and penetratingly connected with the side ends of the placement fixing box 525, the bottom end of the limiting support cushion 528 is adhesively connected with the bottom end of the inner side of the limiting water bag 526, one of the operation fixing pipes 530 is penetratingly arranged at the inner side of the limiting water bag 526, so that stable operation can be performed when the limiting water bag 526 is supported, the adjustment operation of different polishing contact positions is ensured, a two-way pump 531 is arranged at the side end of the placement fixing box 525 corresponding to the position of one of the operation fixing pipes 530 through a motor base, an electromagnetic valve 532 is arranged at one end of the other operation fixing pipe 530, the connection limiting frame 533 is arranged at the bottom end position of the positioning electric push rod 524 at the other side position of the switching operation frame 521, the processing motor 534 is arranged at the inner side of the connection limiting frame 533 through a motor base, the polishing grinding wheel 535 is clamped at the bottom end of the output shaft of the processing motor 534, the extraction flushing pump 536 is symmetrically arranged at the bottom end of the switching operation frame 521 through the motor base, one end of the extraction flushing pump 536 is clamped and combined with one end of the flushing pipe frame 537 through an adapter, so that stable operation can be realized during water washing polishing, and the flushing pipe frame 537 is connected with the storage fixed box 517 and the side end of the inner hole moving plate 523 in a penetrating manner;

A plurality of overturning motors 538 are arranged at one end of the operation pressing frame 502 at equal intervals through a motor base, porous extraction pipes 539 are clamped at the output shafts of the overturning motors 538, a closed blocking sleeve 540 is clamped at the position, corresponding to the porous extraction pipes 539, of the side end bottom of the operation pressing frame 502, the porous extraction pipes 539 are rotatably arranged at the inner side of the closed blocking sleeve 540, continuous stable operation of extracting impurities and scraping the impurities is guaranteed, a plurality of blocking springs 541 are arranged at the side end of the operation pressing frame 502 at equal intervals, a soft brushing blocking plate 542 is arranged at one end of the blocking spring 541, the soft brushing blocking plate 542 is rotatably arranged at the side end of the operation pressing frame 502, the impurities are conveniently limited, the effect of influencing subsequent polishing is avoided by movement of the impurities, a slag pipe frame 543 is connected to the side ends of the porous extraction pipes 539 and the closed blocking sleeve 540 in a penetrating manner, dust collectors 544 are symmetrically arranged at the side ends of the slag pipe frame 543, and concentrated collecting boxes 545 are arranged at the bottom ends of the two dust collectors 544 in penetrating manner;

the input ends of the transmission motor 4, the lifting electric push rod 501, the in-out electric push rod 503, the clamping electromagnet 506, the polishing motor 508, the slag discharging fan 511, the lifting electric slide rail 512, the limiting electric push rod 513, the adsorption air pump 516, the operation electric push rod 518, the switching motor 520, the reciprocating electric slide rail 522, the positioning electric push rod 524, the bidirectional pump 531, the electromagnetic valve 532, the processing motor 534, the extraction flushing pump 536, the overturning motor 538 and the dust collector 544 are electrically connected with the output end of an external controller;

The input end of the external controller is electrically connected with the output end of the external power supply.

A fixed flat trimming assembly 6 is arranged on one side of the fixed mounting frame 1, and the fixed flat trimming assembly 6 comprises an operation mounting frame 601, a mounting electric push rod 602, a lifting limiting plate 603, a slag cleaning fan 604, a fixed flat electric slide rail 605, a movable operation plate 606, a fine adjustment electric push rod 607, a fixed flat planing tool 608, an opening and closing blocking plate 609, a bidirectional screw rod 610, a linkage motor 611, a positioning clamping plate 612, a fine adjustment electric slide rail 613, a movable clamping plate 614, a steering mounting plate 615, an adjustment motor 616, a laser level meter 617, a positioning movable roller 618, a fixed slag collecting box 619, a fixed motor 620, a fixed operation frame 621, a linkage electric slide rail 622, a linkage electric push rod 623, an auxiliary positioning frame 624, a sleeving electromagnet 625, a cutting motor 626, a cutting grinding wheel 627, a collecting motor 628, a collecting operation cylinder 629 and a collecting movable rope 630;

an operation installation frame 601 is fixed at one end of the fixed installation frame 1, installation electric push rods 602 are symmetrically installed at one end of the operation installation frame 601, lifting limiting plates 603 are installed at the top ends of the two installation electric push rods 602, a plurality of slag-cleaning fans 604 are installed at one end of the lifting limiting plates 603 in an equidistant embedded mode, fixed leveling electric sliding rails 605 are installed at the bottom ends of the lifting limiting plates 603 and the top ends of the operation installation frame 601, movable operation plates 606 are installed at the top ends and the bottom ends of the two fixed leveling electric sliding rails 605, and the two movable operation plates 606 are respectively and slidably installed at the bottom ends of the lifting limiting plates 603 and the top ends of the operation installation frame 601, so that stable support and limit can be achieved during movement, stable operation support is guaranteed, fine adjustment electric push rods 607 are installed at the top ends and the bottom ends of the two movable operation plates 606, fixed leveling knives 608 are installed at one ends of the fine adjustment electric push rods 607, and the bottom ends of the operation installation frame 601 are rotationally connected with an opening and closing blocking plate 609;

The side ends of the operation installation frame 601 are symmetrically and rotationally connected with a bidirectional screw rod 610, the two ends of the operation installation frame 601 are respectively and correspondingly provided with a linkage motor 611 through a motor seat at the positions of the opening and closing blocking plate 609 and the bidirectional screw rod 610, the output shafts of the plurality of linkage motors 611 are respectively and fixedly connected with one ends of the bidirectional screw rod 610 and the opening and closing blocking plate 609, stable steering and transmission are ensured, the side ends of the bidirectional screw rod 610 are symmetrically provided with a positioning clamping plate 612 through screw rod seats, one end of the positioning clamping plate 612 is embedded and provided with a fine adjustment electric sliding rail 613, a movable clamping plate 614 is arranged between the two fine adjustment electric sliding rails 613 through a sliding rail seat, one end of the movable clamping plate 614 is rotationally connected with a steering installation plate 615, the longitudinal sections of the lifting limiting plate 603 and the steering installation plate 615 and the cross section of the movable clamping plate 614 are L-shaped, the laser level meter 617 is rotatably arranged at the side end of the steering mounting plate 615, so that the detection position can be adjusted according to the thickness of a plate during the alignment, the laser level meter 617 is ensured to be in a horizontal state continuously, the laser level meter 617 is clamped at the output shaft of the adjusting motor 616 at the position of the steering mounting plate 615, the top end of the operation mounting frame 601 is symmetrically and rotatably connected with the positioning moving roller 618, and the side end of the operation mounting frame 601 is provided with the fixed slag collecting box 619;

The two ends of the storage fixed box 517 are both provided with a fixed motor 620 through a motor seat, the output shaft of the fixed motor 620 is clamped with a fixed operation frame 621, the top end and the bottom end of the fixed operation frame 621 are both embedded and provided with a linkage electric slide rail 622, the linkage electric slide rail 622 positioned at the top end position of the fixed operation frame 621 is provided with a linkage electric push rod 623, the top end of the linkage electric slide rail 622 positioned at the bottom end position of the fixed operation frame 621 and the bottom end of the linkage electric push rod 623 are both provided with an auxiliary positioning frame 624, the inner side of the auxiliary positioning frame 624 is slidably connected with a sleeving electromagnet 625, one end of the sleeving electromagnet 625 is provided with a cutting motor 626 through the motor seat, the output shaft of the cutting motor 626 is clamped with a cutting grinding wheel 627, the cutting grinding wheel 627 is rotatably arranged at the side end of the sleeving electromagnet 625, the stable support positioning of grinding is ensured, one end of the auxiliary positioning frame 624 is provided with a collecting motor 628 through the motor seat, the output shaft of the collecting motor 628 is correspondingly clamped with a collecting operation cylinder 629 at the position of the sleeving electromagnet 625, the side end of the collecting operation cylinder 629 is connected with a collecting and a collecting moving rope 630, one end of the collecting moving rope 630 is fixedly connected with one end of the sleeving electromagnet 625, so that the moving and the sleeving electromagnet 625 is conveniently driven to move and limit 625;

the input ends of the installation electric push rod 602, the slag cleaning fan 604, the fixed leveling electric slide rail 605, the fine adjustment electric push rod 607, the linkage motor 611, the fine adjustment electric slide rail 613, the adjustment motor 616, the laser level 617, the fixed motor 620, the linkage electric slide rail 622, the linkage electric push rod 623, the auxiliary positioning frame 624, the sleeve electromagnet 625, the cutting motor 626 and the collection motor 628 are all electrically connected with the output end of the external controller, and the input end of the sleeve electromagnet is electrically connected with the output end of the external power supply.

The working principle and the using flow of the invention are as follows: when the plate is polished, the plate is placed on a positioning moving roller 618 positioned at the position of an operation mounting frame 601, the plate is moved to the position of a positioning clamping plate 612, a fine adjustment electric sliding rail 613 drives a moving clamping plate 614 to move along the positioning clamping plate 612 to limit, when the plate is moved to a required position, a linkage motor 611 drives a bidirectional screw rod 610 to slide along the operation mounting frame 601, thereby the positioning clamping plate 612 drives the moving clamping plate 614 to be attached to the side end of the plate, after the fixing is finished, an adjustment motor 616 drives a steering mounting plate 615 to rotate along the moving clamping plate 614, meanwhile, an adjustment motor 616 drives a laser level 617 to rotate oppositely by the same angle, after the steering adjustment is finished, the plate is leveled by laser level 617, after the leveling line fixing is finished, a lifting limiting plate 603 is driven to move downwards by an installation electric push rod 602, the micro-adjustment electric push rod 607 drives the fixed planing tool 608 to move towards the plate, so that the fixed planing tool 608 is attached to the side end of the plate, the fixed planing electric slide rail 605 drives the movable operation plate 606, the micro-adjustment electric push rod 607 and the fixed planing tool 608 to plane along the side end of the plate, in the planing process, slag is removed from the side end of the plate through the slag removal fan 604, the slag falls to the inner side of the fixed slag collection box 619, the linkage motor 611 drives the opening and closing blocking plate 609 to rotate, and accordingly the slag is discharged to the inner side of the fixed slag collection box 619, stable operation can be achieved in the process of leveling slag removal, the occurrence of concave-convex or single-side convex conditions of the plate is avoided through the leveling operation, the subsequent polishing effect of the plate is affected, meanwhile, the quality of the plate is guaranteed, the processed plate is pushed to the position of the positioning movable roller 618 along the movable clamping plate 614, and pushes it to the position of the fixed operation rack 621;

The fixed operation frame 621 is driven to rotate along the storage fixed box 517 through the fixed motor 620, the fixed operation frame 621 is rotationally attached to the position of the fixed installation frame 1, the linkage electric push rod 623 is driven by the linkage electric slide rail 622 to slide along the fixed operation frame 621, the auxiliary positioning frame 624 is driven by the linkage electric push rod 623 to be pressed down, the auxiliary positioning frame 624 at the bottom end is driven by the linkage electric slide rail 622 at the bottom end to slide along the fixed operation frame 621, the sleeving electromagnet 625 is manually pushed to slide along the auxiliary positioning frame 624, the position of the cutting polishing wheel 627 at the bottom end is changed, and the sleeving electromagnet 625 is magnetically connected, so that the fixed limit is realized, the collecting operation drum 629 is driven to rotate by the collecting motor 628, the collecting movable rope 630 is driven to collect and loosen, the sleeving electromagnet 625 at the top is driven to slide, the cutting polishing wheel 627 is driven by the cutting motor 626 to rotate along the sleeving electromagnet 625 through the magnetic positioning support, the polishing treatment of the edges of the plates is guaranteed through the polishing and repeated correction at the two ends, and the columnar polishing wheels are mutually matched, the stable and independent polishing quality can be guaranteed during the polishing of columnar wood, and the stable polishing treatment quality is achieved through the rotation and the stable polishing treatment operation and the rotation and the stable polishing treatment operation;

After the plate is flattened and the edge preliminary treatment is finished, the plate is pushed to enter between the fixed mounting frame 1 and the operation pressing frame 502, the operation pressing frame 502 is driven by the lifting electric push rod 501 to lift and adjust the size of the space for supporting and limiting, the transmission motor 4 and the gear transmission box 2 drive the movable supporting roller 3 to push the plate to move, the collecting supporting box 507 is inserted into the top end position of the clamping electromagnet 506, the clamping electromagnet 506 is utilized to adsorb and fix the collecting supporting box 507, the movable supporting frame 504 is driven by the feeding electric push rod 503 to move along the fixed mounting frame 1 into the fixed mounting frame 1, the supporting electric push rod 505 drives the clamping electromagnet 506 and the collecting supporting box 507 to be inserted into the position of the movable supporting roller 3 at the position of the fixed mounting frame 1, the side end of the polishing operation roller 509 is attached to the bottom end of the plate, when the top end of the plate is engraved or patterned, the inner groove adsorption plate 514 is driven by the limiting electric push rod 513 to be attached to the side end of the plate along the fixed mounting frame 1 and the operation pressing frame 502, air at the position of the inner groove adsorption plate 514 is extracted through the adsorption air pump 516 and the in-out fixed pipe 515, the side end of the polishing sand paper 529 is attached to the side end of the plate by adsorbing and fixing the polishing sand paper 529 through a negative pressure environment, the positioning electric push rod 524 drives the placing fixed box 525 to be pressed down, the polishing sand paper 529 is attached to the top end position of the plate, the two-way pump 531 and the operation fixed pipe 530 are used for injecting water into the limiting water bag 526 to jack the limiting water bag 526, at the moment, the positioning spring 527 drives the limiting support pad 528 to be pressed down, the polishing sand paper 529 adjusts the shape of the polishing sand paper 529 according to the figure shape, the reciprocating electric slide rail 522 drives the inner hole moving plate 523 to drive the switching operation frame 521 to move, the placing fixed box 525, the limiting water bag 526 and the polishing sand paper 529 are driven by the positioning electric push rod 524 to be stably attached to the side end of the plate, the fixed pipe 530 is operated by opening the electromagnetic valve 532, so that the operation can be stabilized during liquid feeding, the plate can be polished in a reciprocating manner and can move by itself, meanwhile, the polishing motor 508 drives the polishing operation roller 509 to polish the bottom end of the plate, meanwhile, the lifting electric sliding rail 512 drives the limiting electric push rod 513 to slide up and down along the operation pressing frame 502, and the plate can move back and forth and the polishing sand paper 529 can move left and right, so that the comprehensive operation on the side end of the plate is realized, and the polishing treatment effect of the plate is ensured through the simultaneous polishing treatment of the top end, the bottom end and the side end;

The air at the position of the collecting and supporting box 507 is extracted by the slag discharging fan 511 and the slag discharging extracting pipe 510 at the same time, the slag is driven by negative pressure to enter the inner side of the collecting and supporting box 507, the slag enters the inner side of the fixed mounting frame 1 along the collecting and supporting box 507 and the slag discharging extracting pipe 510, so that bottom slag discharging is realized, meanwhile, the porous extracting pipe 539 is driven by the turning motor 538 to rotate along the reverse direction of the plate, the slag is extracted and discharged by the dust collector 544 and the slag discharging pipe 543 at the positions of the closed blocking sleeve 540 and the porous extracting pipe 539, the slag is discharged into the inner side of the collecting box 545, slag collection is realized, the blocking and limiting are carried out on the slag by the blocking spring 541, the slag can be fixedly isolated when the slag is discharged, the slag is prevented from being driven to the rear end polishing position, the condition affecting the subsequent polishing is avoided, and the slag can be stably operated when the impurities are collected;

when the whole flat plate is polished, the operation electric push rod 518 drives the supporting bearing frame 519 to ascend, the switching operation frame 521 is driven by the switching motor 520 to rotate along the supporting bearing frame 519, thereby the polishing grinding wheel 535 is rotated to the position of the operation pressing frame 502, the positioning electric push rod 524 drives the connection limiting frame 533 to press down, the processing motor 534 drives the polishing grinding wheel 535 to polish the top end of the plate, the reciprocating electric slide rail 522 drives the inner hole moving plate 523 to reciprocate, thereby stable polishing is realized, water in the storage fixing box 517 is extracted through the extraction flushing pump 536 and the flushing pipe frame 537, and the surface of the plate is flushed, so that the polishing condition can be changed according to the actual condition of the plate when the plate is polished by utilizing the water mill, the application range of equipment is ensured, and the polishing quality is ensured.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The wood manufacturing, forming and processing system is characterized by comprising a fixed mounting frame (1), wherein a mixed switching processing assembly (5) is arranged on one side of the fixed mounting frame (1);

the hybrid switching processing assembly (5) comprises an elevating electric push rod (501) and a storage fixed box (517);

lifting electric push rods (501) are symmetrically arranged at two ends of the fixed mounting frame (1), a storage fixed box (517) is arranged at one end of the fixed mounting frame (1), an operation electric push rod (518) is clamped at the top end of the storage fixed box (517), a supporting bearing frame (519) is arranged at the top end of the operation electric push rod (518), a switching motor (520) is arranged at the top end of the supporting bearing frame (519) through a motor seat, a switching operation frame (521) is clamped at the top end of an output shaft of the switching motor (520), a plurality of reciprocating electric sliding rails (522) are symmetrically arranged at the side end of the switching operation frame (521), an inner hole moving plate (523) is arranged at the side end of the reciprocating electric sliding rails (522) through a sliding rail seat, and a positioning electric push rod (524) is clamped at the top end of the inner hole moving plate (523).

The bottom end of a positioning electric push rod (524) positioned at one side of the switching operation frame (521) is provided with a placement fixing box (525), the bottom end of the placement fixing box (525) is fixedly provided with a limiting water bag (526), the bottom end of the placement fixing box (525) is equidistantly provided with a plurality of positioning springs (527), and the bottom end of the positioning spring (527) is provided with a limiting support pad (528) corresponding to the position of the limiting water bag (526);

the side end of the placing and fixing box (525) is symmetrically and penetratingly connected with an operation fixing pipe (530), a bidirectional pump (531) is arranged at the position of the side end of the placing and fixing box (525) corresponding to one operation fixing pipe (530) through a motor base, and an electromagnetic valve (532) is arranged at one end of the other operation fixing pipe (530);

a connection limiting frame (533) is arranged at the bottom end position of a positioning electric push rod (524) at the other side position of the switching operation frame (521), a processing motor (534) is arranged at the inner side of the connection limiting frame (533) through a motor seat, a polishing grinding wheel (535) is clamped at the bottom end of an output shaft of the processing motor (534), a pumping flushing pump (536) is symmetrically arranged at the bottom end of the switching operation frame (521) through the motor seat, and flushing pipe frames (537) are connected with the side ends of the storage fixing box (517) and the inner hole moving plate (523) in a penetrating manner;

The lifting electric pushing rod (501) is characterized in that an operation pressing frame (502) is clamped at the top end of the lifting electric pushing rod (501), a plurality of electric pushing rods (503) are equidistantly arranged at one end of the fixed mounting frame (1), a movable supporting frame (504) is clamped at one end of each electric pushing rod (503), a plurality of supporting electric pushing rods (505) are equidistantly clamped at the top end of each movable supporting frame (504), clamping electromagnets (506) are arranged at the top ends of the supporting electric pushing rods (505), collecting supporting boxes (507) are magnetically clamped at the top ends of the clamping electromagnets (506), polishing motors (508) are arranged at one end of each collecting supporting box (507) through motor bases, polishing operation rollers (509) are clamped at the output shafts of the polishing motors (508), slag discharging extraction pipes (510) are symmetrically penetrated at the bottom ends of the collecting supporting boxes (507), and slag discharging fans (511) are fixedly arranged at the inner sides of the slag discharging extraction pipes (510).

The electric lifting device is characterized in that a plurality of lifting electric sliding rails (512) are clamped at two ends of the operation pressing frame (502) at equal intervals, a limiting electric push rod (513) is arranged at the side end of each lifting electric sliding rail (512) through a sliding rail seat, an inner groove adsorption plate (514) is clamped at one end of each limiting electric push rod (513), an inlet and outlet fixing pipe (515) is connected at one end of each inner groove adsorption plate (514) in a penetrating manner, and an adsorption air pump (516) is arranged at the side end of each limiting electric push rod (513) through a motor seat;

One end of the inner groove adsorption plate (514) far away from the limiting electric push rod (513) and the bottom end of the limiting water bag (526) are both fixed with polishing sand paper (529);

a plurality of overturning motors (538) are arranged at one end of the operation pressing frame (502) at equal intervals through a motor base, a porous extraction pipe (539) is clamped at the output shaft of each overturning motor (538), a closed blocking sleeve (540) is clamped at the position, corresponding to the porous extraction pipe (539), of the bottom of the side end of the operation pressing frame (502), a plurality of blocking springs (541) are arranged at the side end of the operation pressing frame (502) at equal intervals, a soft brushing blocking plate (542) is arranged at one end of each blocking spring (541), a plurality of slag extraction pipes (539) and a slag extraction pipe frame (543) are connected with the side ends of the closed blocking sleeve (540) in a penetrating manner, dust collectors (544) are symmetrically arranged at the side ends of the slag extraction pipe frame (543), and a centralized collection box (545) is arranged at the bottom ends of the two dust collectors (544) in a penetrating manner;

the bottom of the limiting support pad (528) is connected with the bottom of the inner side of the limiting water bag (526) in an adhesive mode, one of the operation fixing pipes (530) is installed on the inner side of the limiting water bag (526) in a penetrating mode, and one end of the extraction flushing pump (536) is combined with one end of the flushing pipe rack (537) through an adapter in a clamping mode.

2. The wood manufacturing, shaping and processing system according to claim 1, wherein a gear box (2) is clamped at the top of one end of the fixed mounting frame (1), a plurality of movable supporting rollers (3) are clamped at the output shaft of the gear box (2) at equal intervals, and a transmission motor (4) is installed at the top of one end of the fixed mounting frame (1) corresponding to the position of the gear box (2) through a motor base.

3. The wood making, forming and processing system according to claim 2, wherein the output shaft of the transmission motor (4) is in clamping combination with the input shaft of the gear transmission case (2), the movable supporting roller (3) is rotatably mounted at the inner side end of the fixed mounting frame (1), the movable supporting frame (504) is slidably mounted at the side end of the fixed mounting frame (1), the longitudinal section of the movable supporting frame (504) is L-shaped, the collecting supporting box (507) is sleeved and mounted at the inner side of the fixed mounting frame (1), and the polishing operation roller (509) is rotatably mounted at the inner side of the collecting supporting box (507).

4. The wood making, forming and processing system according to claim 2, wherein the bottom end of the slag discharging and extracting pipe (510) is installed at the top end of the movable supporting frame (504) in a penetrating manner, the inner groove adsorption plate (514) is installed inside the fixed installation frame (1) and the operation pressing frame (502) in a sliding manner, one end of the adsorption air pump (516) is combined with one end of the inlet and outlet fixed pipe (515) in a clamping manner through an adapter, and the switching operation frame (521) is rotatably sleeved with the side end of the supporting bearing frame (519).

5. The wood working forming system of claim 2, wherein the porous extraction tube (539) is rotatably mounted inside a closed barrier sleeve (540), and the barrier flexible brush plate (542) is rotatably mounted at a side end of the operating hold-down frame (502);

the driving motor (4), the lifting electric push rod (501), the power-in and power-out push rod (503), the clamping electromagnet (506), the polishing motor (508), the slag discharging fan (511), the lifting electric slide rail (512), the limiting electric push rod (513), the adsorption air pump (516), the operation electric push rod (518), the switching motor (520), the reciprocating electric slide rail (522), the positioning electric push rod (524), the bidirectional pump (531), the electromagnetic valve (532), the processing motor (534), the extraction flushing pump (536), the overturning motor (538) and the dust collector (544) are electrically connected with the output end of the external controller;

the input end of the external controller is electrically connected with the output end of the external power supply.

6. The wood making, shaping and processing system according to claim 5, wherein a fixed mounting frame (1) is provided with a fixed flat cutting edge assembly (6) at one side, and the fixed flat cutting edge assembly (6) comprises an operation mounting frame (601);

An operation installation frame (601) is fixed at one end of the fixed installation frame (1), installation electric push rods (602) are symmetrically installed at one end of the operation installation frame (601), lifting limiting plates (603) are installed at the top ends of the installation electric push rods (602), a plurality of slag-cleaning fans (604) are installed at one end of each lifting limiting plate (603) in an equidistant embedded mode, fixed-plane electric sliding rails (605) are installed at the bottom ends of the lifting limiting plates (603) and the top ends of the operation installation frame (601), movable operation plates (606) are installed at the top ends and the bottom ends of the fixed-plane electric sliding rails (605), fine-tuning electric push rods (607) are installed at the top ends and the bottom ends of the movable operation plates (606), and a plurality of fine-tuning electric push rods (607) are provided with fixed-plane cutters (608), and opening and closing blocking plates (609) are connected at the bottom ends of the operation installation frame (601) in a rotating mode.

The automatic slag collecting device is characterized in that two bidirectional screw rods (610) are symmetrically and rotationally connected to the side ends of an operation installation frame (601), linkage motors (611) are installed at the positions of the two ends of the operation installation frame (601) respectively corresponding to an opening and closing blocking plate (609) and the two bidirectional screw rods (610) through motor bases, positioning clamping plates (612) are symmetrically installed at the side ends of the two bidirectional screw rods (610) through screw rod bases, fine adjustment electric sliding rails (613) are embedded into one ends of the positioning clamping plates (612), a movable clamping plate (614) is installed between the two fine adjustment electric sliding rails (613) through sliding rail bases, a steering installation plate (615) is rotationally connected to one end of the movable clamping plate (614), an adjusting motor (616) is installed at one end of each of the movable clamping plate (614) and one end of each steering installation plate (615) through the motor bases, laser level gauges (617) are clamped at the output shafts of the positions of the steering installation plates (615), positioning moving rollers (618) are symmetrically and rotationally connected to the top ends of the operation installation frame (601), and a fixed slag collecting box (619) is installed at the side ends of the operation installation frame;

Fixed motor (620) are all installed through the motor cabinet at storage fixed box (517) both ends, fixed operation frame (621) are all installed to fixed motor (620) output shaft joint, fixed operation frame (621) top and bottom all imbeds and install linkage electric slide rail (622), are located linkage electric slide rail (622) position department of fixed operation frame (621) top position department installs linkage electric push rod (623), are located linkage electric slide rail (622) top and linkage electric push rod (623) bottom of fixed operation frame (621) bottom position department all install auxiliary positioning frame (624), auxiliary positioning frame (624) inboard sliding connection has cup joint electro-magnet (625), cutting motor (626) are installed through the motor cabinet to cup joint electro-magnet (625) one end, cutting motor (626) output shaft joint has cutting grinding wheel (627), auxiliary positioning frame (624) one end is installed through the motor cabinet and is collected motor (628), collection motor (628) output shaft corresponds electro-magnet (625) position department joint and has been collected operation section of thick bamboo (629), collection operation section of thick bamboo (629) side winding is connected with and moves rope (630).

7. The wood making, forming and processing system according to claim 6, wherein longitudinal sections of the lifting limiting plate (603) and the steering mounting plate (615) and cross sections of the movable clamping plate (614) are L-shaped, two movable operation plates (606) are respectively and slidably mounted at the bottom end of the lifting limiting plate (603) and the top end of the operation mounting frame (601), and output shafts of the plurality of linkage motors (611) are respectively and fixedly connected with one ends of the bidirectional screw rod (610) and the opening and closing blocking plate (609);

the output shaft of the adjusting motor (616) is clamped and combined with one end of the steering mounting plate (615), the laser level meter (617) is rotatably mounted at the side end of the steering mounting plate (615), and the cutting grinding wheel (627) is rotatably mounted at the side end of the sleeving electromagnet (625).

8. The wood working forming system of claim 6, wherein one end of the collection moving rope (630) is fixedly connected to one end of the socket electromagnet (625);

the device is characterized in that the device comprises an installation electric push rod (602), a slag removal fan (604), a fixed leveling electric slide rail (605), a fine adjustment electric push rod (607), a linkage motor (611), a fine adjustment electric slide rail (613), an adjustment motor (616), a laser level meter (617), a fixed motor (620), a linkage electric slide rail (622), a linkage electric push rod (623), a cutting motor (626) and a collection motor (628) and is electrically connected with the output end of an external controller, and the input end of a sleeve electromagnet (625) is electrically connected with the output end of an external power supply.