CN116619491B - Cutting machine for processing scientific and technological wood composite facing and using method - Google Patents

Abstract

The utility model discloses a cutting machine for processing a technical wood composite veneer, which comprises a base, wherein an adjusting module is arranged at the top of the base and used for adjusting the cutting direction of the technical wood composite veneer, and the adjusting module comprises a processing table fixed at the top of the base; the slider that arranges around installing at the top of processing platform, connecting plate one has been placed at the top of processing platform, connecting plate one's bottom is provided with the draw-in groove that arranges around, and draw-in groove and slider gomphosis mutually, the carousel is installed through the shaft part in top central point department of connecting plate one, the top welding of carousel has puts the thing board, and puts the thing board and be used for placing technological wood composite veneer, connecting plate one's size is less than the size of processing platform. According to the utility model, the adjusting module is arranged, so that not only can the small-size scientific and technological wood composite facing be cut, but also the cutting can be flexibly reversed after cutting, and the cutting efficiency is improved.

Description

Cutting machine for processing scientific and technological wood composite facing and using method

Technical Field

The utility model relates to the technical field of technical wood processing, in particular to a cutting machine for processing a technical wood composite facing and a using method thereof.

Background

When processing the compound veneer of technological wood, need cut the compound veneer of technological wood of equidimension not into the same size, however current cutting machine can only cut the compound veneer of technological wood of single size when carrying out cutting processing to the compound veneer of technological wood, and the flexibility is relatively poor when cutting, needs the manual work to commutate, has certain defect.

The existing cutting machine has the defects that:

patent document US20210229186A1 discloses a cutting machine comprising a monitoring unit which monitors the cutting edge of a cutting blade. The monitoring unit includes an imaging unit that images cutting of the cutting blade, a pulse light source that emits pulse light to illuminate an imaging area imaged by the imaging unit, and a camera that captures an image output from the imaging unit. The image pickup unit includes: a first imaging unit that images one side surface of the cutting edge of the cutting blade; a second imaging unit that images an opposite side surface of the cutting edge; and a third image pickup unit that picks up an image of an outer peripheral edge portion of the cutting blade, but the cutter in the above publication mainly considers how to improve accuracy in cutting, and does not consider the problem that the existing technical wood composite veneer is poor in flexibility in processing;

the patent document KR1020210066921a provides a cutting device comprising an end mill blade held by two arms, wherein the inclination of the end mill blade can be easily adjusted. The cutting device of the present utility model is a cutting device for cutting an outer peripheral surface of a workpiece on which a plurality of films are laminated. The cutting device 100 includes a device body 10, an end mill blade 31, holders 32a, 32b for holding the end mill blade 31 at both ends so as to be freely rotatable, and a holder mounted thereon. A cutting unit (30) having a unit body (33); and an inclination adjusting mechanism (50) configured to adjust the inclination of the cutting unit (30), but the cutting apparatus in the above publication mainly considers how to adjust the inclination of the cutting unit, and does not consider the problem of poor cutting stability of the existing technical wood composite veneer at the time of processing;

patent document CN216968075U discloses a slicing machine for wood working based on technology, including the slicing machine and place the board, place the board and be located the front side of slicing machine, the equal fixed connection stopper in both sides of slicing machine, T type groove has been seted up to the front side of stopper, the inner wall swing joint of T type groove has T type piece, the front side of T type piece with place the rear side fixed connection of board, the spacing groove has been seted up to one side that the slicing machine was kept away from to the stopper. According to the utility model, through the matched use of the slicing machine, the placement plate, the limiting component and the adjusting component, a user rotates the adjusting rod, the adjusting rod is matched with the adjusting component to enable the limiting rod to leave the inside of the limiting groove, then the position of the placement plate can be adjusted along the track of the T-shaped groove, and finally the positioning is carried out through the limiting component, so that the problems that the placement plate cannot be adjusted along with the requirement of the user in the conventional slicing machine, the workload of the user is improved, and the use is inconvenient are solved, but the slicing machine for the technical wood processing in the publication mainly considers how to conveniently adjust the position of the placement plate, the use convenience is improved, and the problem that the conventional technical wood composite facing does not have a limiting structure in the processing is not considered;

patent document JP2022095409a provides a cutter 1A, the cutting portion 20 of which is equipped with an upper blade 50 and a lower blade 60 connected to an upper cutter support 30, and a guard member 70 provided on the upper cutter support 30. The two blades 50 and 60 reciprocally move in the front-rear direction in opposition. In the guard member 70, a guard plate 72 protruding rightward with respect to the upper cutter supporter 30 and a fixed blade 73 protruding leftward with respect to the upper cutter supporter 30 are formed. The leading edges of the guard plate 72 and the fixed blade 73 are arranged in front of the foremost cutting blades 51, 61 of the two blades 50, 60. The fixed blade 73 faces forward relative to the forward most cutting blade 51 of the upper blade 50, but the cutter of the above publication mainly considers how to improve the protection of the cutting blade, and does not consider the problem of the existing technical wood composite veneer that has low cutting efficiency in processing.

Disclosure of Invention

The utility model aims to provide a cutting machine for processing a technical wood composite veneer and a using method thereof, so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a cutting machine is used in processing of science and technology wood composite veneer, includes the base, adjusting module is installed at the top of base, and adjusting module is used for adjusting the cutting direction of small-size science and technology wood composite veneer, adjusting module is including fixing the processing platform at the base top, and processing platform is used for placing the compound veneer of large-size science and technology wood;

the top of the processing table is provided with a sliding block which is arranged front and back, the top of the processing table is provided with a first connecting plate, the bottom of the first connecting plate is provided with a clamping groove which is arranged front and back, the clamping groove is embedded with the sliding block, the center of the top of the first connecting plate is provided with a rotary table through a shaft piece, the top of the rotary table is welded with a storage plate, and the storage plate is used for placing a small-size scientific and technological wood composite facing;

the first connecting plate is smaller than the machining table in size, and the first connecting plate can move along the horizontal direction on the surface of the sliding block.

Preferably, the first limit module is installed on the adjusting module, and the first limit module is used for carrying out spacing fixed to the compound veneer of small-size technological wood, and the first limit module is including the symmetry setting in the jack on putting thing board both sides outer wall and front and back, and the inside slidable mounting of jack has the inserted block, and the inserted block is "L" font structure, and the limiting plate is installed to the one end of inserted block, and the limiting plate is rectangular form.

Preferably, limit module two is installed at adjusting module's top, and limit module two is used for carrying out spacing fixed to the compound veneer of jumbo size science and technology wood, limit module two is including welding at the thing seat first of putting of processing bench top, the front of putting thing seat first runs through and is provided with symmetrical arrangement's spout second, symmetrical arrangement's servo motor second is installed to the diapire of processing bench, reciprocating lead screw second is all installed to two sets of servo motor second's output, and the top of two sets of reciprocating lead screw second all is connected with the roof of putting thing seat first through the shaft part, sliding sleeve second has all been cup jointed to two sets of reciprocating lead screw's surface, and sliding sleeve second's transversal is "T" font structure, sliding sleeve second's front is passed the internally mounted of spout second has the clamp plate, and the clamp plate is located the top of processing bench, the size of clamp plate is greater than putting the thing board.

Preferably, the horizontal migration module is installed at the top of base, symmetrical arrangement's longitudinal movement module is installed at the top of horizontal migration module, horizontal migration module is used for driving longitudinal movement module horizontal migration, supporting module is all installed to the bottom of two sets of longitudinal movement module, and supporting module is located horizontal migration module's the place ahead, supporting module is located adjusting module's both sides, supporting module is used for improving the stability when longitudinal movement module removes, supporting module includes the supporting seat, the support column, put thing groove, remove gyro wheel and laser range finder, the bottom of supporting seat is provided with puts the thing groove, the removal gyro wheel of symmetrical arrangement is installed to the roof of putting the thing groove, and remove the gyro wheel and be used for driving the supporting seat and horizontal migration on the base, the support column is installed at the top of supporting seat, laser range finder is installed to the surface of support column is embedded, and laser range finder is used for measuring the distance of compound veneer of science and technology wood to supporting module.

Preferably, the internally mounted of adjustment module has cutting module one, and cutting module one is used for carrying out cutting operation to the compound veneer of small-size technological wood, cutting module one runs through the spout one that sets up at the processing bench top around including, the slider is located the centre of two sets of spouts one, spout one is located the place ahead of thing seat one, the loading board one that arranges around being installed to one side outer wall of processing bench, servo motor one is installed at the top of loading board one, reciprocating screw one is installed to servo motor one's output, and one end of reciprocating screw one is connected with one side inner wall of processing bench through the shaft member, reciprocating screw one is located servo motor two's the place ahead, reciprocating screw one's surface has cup jointed sliding sleeve one, sliding sleeve one's external surface mounting has the storage tank, and the storage tank is located the inside of processing bench, hydraulic push rod is installed to the diapire of storage tank, cutting unit one is installed to hydraulic push rod's output.

Preferably, the horizontal movement module is including installing at the thing seat second of putting at the base top, the connecting plate second of symmetrical arrangement is installed to the diapire of putting thing seat second, servo motor third is all installed to the surface that two sets of connecting plates second are close to each other, reciprocating lead screw third is all installed to the output of two sets of servo motor third, and the one end of two sets of reciprocating lead screws third is all connected with the both sides inner wall of putting thing seat second respectively through the shaft part, sliding sleeve third has all been cup jointed to the surface of two sets of reciprocating lead screws third, the supporting shoe is installed to the surface mounting of sliding sleeve third, the top of putting thing seat second runs through and is provided with spout third, and spout third is located the outside of supporting shoe, laser range finder and servo motor third electric connection.

Preferably, the longitudinal movement module comprises a connecting block welded at the top of the supporting block, the front surfaces of the two groups of connecting blocks are respectively provided with a third storage seat, a fourth servo motor is arranged on the rear wall of the connecting block, a fourth reciprocating screw rod is arranged at the output end of the fourth servo motor, one end of the fourth reciprocating screw rod is connected with the front wall of the third storage seat through a shaft piece, a fourth sliding sleeve is sleeved on the outer surface of the fourth reciprocating screw rod, a fifth sliding groove is arranged at the bottom of the third storage seat in a penetrating mode, a second cutting unit is arranged on the outer surface of the fourth sliding sleeve in a penetrating mode and used for cutting a large-size technological wood composite facing.

Preferably, the first cutting unit and the second cutting unit are composed of a storage box, a variable frequency motor and a cutting knife, the variable frequency motor is mounted on the outer surface of the storage box, and the cutting knife is mounted at the output end of the variable frequency motor.

Preferably, the use method of the cutting machine is as follows:

s1, before the cutting machine for processing the technical wood composite facing is used, firstly placing the small-size technical wood composite facing on a storage plate, inserting insertion blocks into insertion holes on two sides of the storage plate, enabling a limiting plate to limit the technical wood composite facing placed on the storage plate, and then pushing a connecting plate I to move on a sliding block;

s2, for the large-size technical wood composite facing, firstly placing the technical wood composite facing on a processing table, then starting a servo motor II to drive a reciprocating screw rod II to rotate, so that a sliding sleeve II can drive a pressing plate to move downwards until the pressing plate can limit the technical wood composite facing on the processing table;

s3, starting a servo motor III on a connecting plate II in the second storage seat II so as to drive a reciprocating screw rod III to rotate, so that a sliding sleeve III can drive a supporting block to move in the sliding groove III along the horizontal direction, and a connecting block can move horizontally along the surface of the second storage seat under the action of the supporting block;

s4, after the position of the connecting block is adjusted, a servo motor IV is started to drive a reciprocating screw rod IV to rotate, so that a sliding sleeve IV can drive a cutting unit II to longitudinally move, a variable frequency motor inside the cutting unit II is started in the moving process of the cutting unit II to drive a cutting knife to rotate, and then the cutting knife in the cutting unit II is used for cutting a large-size technical wood composite facing.

Preferably, in the step S1, the method further includes the following steps:

s11, starting a hydraulic push rod in a storage box, then driving a cutting unit to move upwards, enabling a cutting knife in the cutting unit to penetrate through the inside of a first sliding groove, enabling a first servo motor on a bearing plate to drive a first reciprocating screw rod to rotate, enabling a first sliding sleeve to drive the storage box to move in a horizontal direction in a processing table, then enabling the cutting unit to perform cutting operation on a small-size technical wood composite veneer, pushing a storage plate according to requirements after cutting is completed, enabling the storage plate to rotate on a first connecting plate under the action of a rotating disc, and then enabling the cutting operation on the uncut technical wood composite veneer to be continued;

in the step S3, the method further includes the following steps:

s31, in the moving process of the connecting block, the supporting column can be driven to move along with the connecting block through the storage seat III, then the supporting seat can be driven to move on the base under the action of the moving roller, in the horizontal moving process of the supporting seat, whether the supporting module moves to the edge of the technical wood composite facing is detected through the laser range finder, and then the horizontal position of the supporting module is adjusted according to cutting requirements.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the adjusting module, the processing table, the sliding block, the clamping groove, the first connecting plate, the rotary table and the object placing plate are arranged, when the small-size technical wood composite veneer is processed, the first connecting plate is pushed to move on the sliding block, the small-size technical wood composite veneer is placed on the object placing plate, then the placed technical wood composite veneer is limited by the first limiting module, then the cutting module is used for cutting the technical wood composite veneer, and after two sides of the technical wood composite veneer are cut, the object placing plate is pushed to rotate under the action of the rotary table, so that convenience is brought to cutting of the other two sides of the technical wood composite veneer to a certain extent, and the cutting processing efficiency of the small-size technical wood composite veneer can be improved.

2. According to the utility model, the first limiting module, the jack, the insert block and the limiting plate are arranged, and after the small-size technical wood composite facing is placed on the placing plate, the insert block is inserted into the jacks on two sides of the placing plate, so that the limiting plate can limit the technical wood composite facing on the placing plate, and the stability in cutting can be improved to a certain extent.

3. According to the cutting machine, the limiting module II, the object placing seat I, the sliding chute II, the servo motor II, the reciprocating screw rod II, the sliding sleeve II and the pressing plate are arranged, when the large-size technical wood composite facing is processed, the large-size technical wood composite facing is firstly placed on the processing table, then the servo motor II is started to drive the reciprocating screw rod II to rotate, the sliding sleeve II can drive the pressing plate to move downwards, and then the large-size technical wood composite facing placed on the processing table can be limited through the pressing plate, so that the flexibility and the functionality of the cutting machine in use are improved.

4. According to the utility model, the support module, the support seat, the support column, the object placing groove, the movable roller and the laser range finder are arranged, when the cutting operation is carried out on the large-size technical wood composite decorative surface, the movable roller in the object placing groove can drive the support seat to move, so that the support column can move along with the movement of the connecting block, the stability of the longitudinal movement module in horizontal movement can be improved to a certain extent, and in the moving process of the support seat, the laser range finder is used for detecting whether the support seat moves to a position to be cut, so that the practicability of the cutting machine can be improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

fig. 2 is a schematic diagram of an assembly structure of a second limit module according to the present utility model;

FIG. 3 is a schematic plan assembly view of a first cutting module according to the present utility model;

FIG. 4 is a schematic plan view of an assembled storage box according to the present utility model;

FIG. 5 is a schematic plan assembly view of a horizontal movement module according to the present utility model;

FIG. 6 is a schematic plan assembly view of a support module according to the present utility model;

FIG. 7 is a schematic view of an assembled structure of a connecting plate and a limiting plate according to the present utility model;

FIG. 8 is a schematic plan view of a first embodiment of a seat according to the present utility model;

FIG. 9 is a schematic plan assembly view of a longitudinal movement module according to the present utility model;

fig. 10 is a flowchart of the operation of the present utility model.

In the figure: 1. a base; 2. an adjustment module; 201. a processing table; 202. a slide block; 203. a clamping groove; 204. a first connecting plate; 205. a turntable; 206. a storage plate; 3. a first limiting module; 301. a jack; 302. inserting blocks; 303. a limiting plate; 4. cutting a first module; 401. a first chute; 402. a first bearing plate; 403. a servo motor I; 404. a first reciprocating screw rod; 405. a first sliding sleeve; 406. a storage box; 407. a hydraulic push rod; 408. a first cutting unit; 5. a second limit module; 501. a first storage seat; 502. a second chute; 503. a servo motor II; 504. a second reciprocating screw rod; 505. a second sliding sleeve; 506. a pressing plate; 6. a horizontal movement module; 601. a second storage seat; 602. a second connecting plate; 603. a servo motor III; 604. a reciprocating screw rod III; 605. a third sliding sleeve; 606. a chute III; 607. a support block; 7. a longitudinal movement module; 701. a connecting block; 702. a third object placing seat; 703. a servo motor IV; 704. a reciprocating screw rod IV; 705. a sliding sleeve IV; 706. a second cutting unit; 8. a support module; 801. a support base; 802. a support column; 803. a storage groove; 804. moving the roller; 805. a laser range finder; 9. a storage box; 10. a variable frequency motor; 11. a cutting knife.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1, 3, 7 and 10, an embodiment of the present utility model is provided: the cutting machine for processing the technical wood composite veneer comprises a base 1 and a first cutting module 4, wherein an adjusting module 2 is arranged at the top of the base 1, the adjusting module 2 is used for adjusting the cutting direction of the small-size technical wood composite veneer, the adjusting module 2 comprises a processing table 201 fixed at the top of the base 1, the processing table 201 is used for placing the large-size technical wood composite veneer, a sliding block 202 which is arranged front and back is arranged at the top of the processing table 201, a first connecting plate 204 is arranged at the top of the processing table 201, a clamping groove 203 which is arranged front and back is arranged at the bottom of the first connecting plate 204, the clamping groove 203 is embedded with the sliding block 202, a rotary disc 205 is arranged at the central position of the top of the first connecting plate 204 through a shaft, a placing plate 206 is welded at the top of the rotary disc 205, the placing plate 206 is used for placing the small-size technical wood composite veneer, the size of the first connecting plate 204 is smaller than that of the processing table 201, the first connecting plate 204 can move along the horizontal direction on the surface of the sliding block 202, the first limiting module 3 is arranged on the adjusting module 2, the first limiting module 3 is used for limiting and fixing the small-size technical wood composite veneer, the first limiting module 3 comprises jacks 301 symmetrically arranged on the outer walls of two sides of the object placing plate 206 and the front and back sides, the inside of each jack 301 is slidably provided with a plug 302, the plug 302 is in an L-shaped structure, one end of each plug 302 is provided with a limiting plate 303, the limiting plate 303 is in a strip shape, the inside of the adjusting module 2 is provided with a first cutting module 4, the first cutting module 4 is used for cutting the small-size technical wood composite veneer, the first cutting module 4 comprises a first chute 401 penetrating through the top of the processing table 201, the sliding block 202 is positioned in the middle of the two groups of the first chute 401, the first chute 401 is positioned in front of the object placing seat 501, the bearing plate I402 arranged front and back is installed on the outer wall of one side of the processing platform 201, the servo motor I403 is installed at the top of the bearing plate I402, the first reciprocating screw rod 404 is installed at the output end of the servo motor I403, one end of the first reciprocating screw rod 404 is connected with the inner wall of one side of the processing platform 201 through a shaft piece, the first reciprocating screw rod 404 is located in front of the second servo motor 503, the sliding sleeve I405 is sleeved on the outer surface of the first reciprocating screw rod 404, the storage box 406 is installed on the outer surface of the sliding sleeve I405, the storage box 406 is located in the processing platform 201, the hydraulic push rod 407 is installed on the bottom wall of the storage box 406, and the cutting unit I408 is installed at the output end of the hydraulic push rod 407.

Further, when processing the small-size technical wood composite veneer, the clamping groove 203 is firstly added to align with the sliding block 202, then the first connecting plate 204 can be fixed on the processing table 201, then the small-size technical wood composite veneer to be cut is placed on the object placing plate 206, the inserting block 302 is inserted into the inserting hole 301 at the corresponding position, then the hydraulic push rod 407 in the storing box 406 is started, then the cutting knife 11 in the first cutting unit 408 is driven to extend out of the inside of the first sliding groove 401, the connected variable frequency motor 10 is started, then the cutting knife 11 can be driven to rotate, then the cutting operation can be performed on the small-size technical wood composite veneer through the first cutting unit 408, meanwhile, the first servo motor 403 on the first bearing plate 402 is started, then the first reciprocating screw 404 is driven to rotate, the storing box 406 can be driven to move in the horizontal direction in the processing table 201 by the first sliding sleeve 405 until the cutting operation is completed, and after the cutting operation is completed, the object placing plate 206 can be driven by the rotating disc 205 to rotate on the first connecting plate 204 under the action of the shaft piece, and therefore the cutting efficiency can be improved to a certain extent.

Referring to fig. 2 and 8, an embodiment of the present utility model is provided: the utility model provides a cutting machine is used in processing of compound veneer of science and technology wood, including spacing module two 5, spacing module two 5 is installed at the top of adjusting module 2, and spacing module two 5 is used for carrying out spacing fixed to the compound veneer of large-scale science and technology wood, spacing module two is including welding the thing seat one 501 of putting at processing platform 201 top, the front of putting thing seat one 501 runs through and is provided with symmetrical arrangement's spout two 502, symmetrical arrangement's servo motor two 503 is installed to the diapire of processing platform 201, reciprocating screw two 504 are all installed to the output of two sets of servo motor two 503, and the top of two sets of reciprocating screw two 504 is all connected with the roof of putting thing seat one 501 through the shaft part, sliding sleeve two 505 has all been cup jointed to the surface of two sets of reciprocating screw two 504, and the transversal personally submitting "T" font structure of sliding sleeve two 505, the internally mounted of sliding sleeve two 505 has clamp 506, and clamp 506 is located the top of processing platform 201, clamp 506 size is greater than the size of putting thing board 206.

Further, when processing the compound veneer of jumbo size technological wood, firstly place it on processing platform 201, then start servo motor two 503, drive reciprocating screw two 504 and rotate for sliding sleeve two 505 can drive clamp plate 506 and move down, just can carry out spacingly to the compound veneer of jumbo size technological wood that places on the processing platform 201 through clamp plate 506 afterwards, thereby improve the stability when follow-up cutting, reduce the probability of cutting the skew, and then can improve flexibility and the functionality when this cutting machine uses, make this cutting machine can carry out cutting process to the compound veneer of technological wood of equidimension not.

Referring to fig. 4, 5, 6 and 9, an embodiment of the present utility model is provided: the utility model provides a cutting machine is used in processing of compound veneer of science and technology wood, including horizontal migration module 6 and cutting knife 11, horizontal migration module 6 is installed at the top of base 1, horizontal migration module 7 of symmetrical arrangement is installed at the top of horizontal migration module 6, horizontal migration module 6 is used for driving vertical migration module 7 horizontal migration, support module 8 is all installed to the bottom of two sets of vertical migration module 7, and support module 8 is located the place ahead of horizontal migration module 6, support module 8 is located the both sides of adjustment module 2, support module 8 is used for improving the stability when vertical migration module 7 removes, support module 8 includes supporting seat 801, the support column 802, thing groove 803, remove gyro wheel 804 and laser range finder 805, the bottom of supporting seat 801 is provided with thing groove 803, the roof of thing groove 803 is installed symmetrical arrangement's removal gyro wheel 804, and remove gyro wheel 804 is used for driving supporting seat 801 and is horizontal migration on base 1, support column 802 is installed at the top of supporting seat 801, the surface embedded laser range finder 805 is installed to the surface of support column 802, and laser range finder 805 is used for measuring the distance that the wood is compounded to support module 8, horizontal migration module 6 includes that installs at the both sides of adjustment module 2, the second and third of thing seat 602 of installation, the second and third thing seat 601 of thing seat is installed at the bottom of thing seat 601 are close to each other, the two sets of three mutual two of mutual two and three mutual two of thing seat 601 are installed, the two and one end of thing seat 601 are set of connecting plates 601 are all set of three are set of mutually to the three, the two and three and two mutual two and three servo motor seat 601 are connected to the three are equipped with the connecting plate 601 are equipped with the three, and one end 601 are mutually and two mutually two and two end 601 are connected to the three is set of connecting plate 601 are mutually, and one 601 are mutually, and 601 are respectively, and spout three 606 is located the outside of supporting shoe 607, laser range finder 805 and servo motor three 603 electric connection, vertical movement module 7 is including welding the connecting block 701 at the supporting shoe 607 top, thing seat three 702 is all installed in the front of two sets of connecting blocks 701, servo motor four 703 is installed to the back wall of connecting block 701, reciprocating screw four 704 is installed to the output of servo motor four 703, and one end of reciprocating screw four 704 is connected with the front wall of putting thing seat three 702 through the shaft member, sliding sleeve four 705 has been cup jointed to the surface of reciprocating screw four 704, the bottom of putting thing seat three 702 runs through and is provided with spout five, cutting unit two 706 are installed through spout five to the surface mounting of sliding sleeve four 705, and cutting unit two 706 are used for cutting the compound veneer of technological wood of jumbo size, cutting unit one 408 and cutting unit two 706 are by putting thing case 9, variable frequency motor 10 and cutting knife 11 constitute, the surface mounting of putting thing case 9 has variable frequency motor 10, cutting knife 11 is installed to the output of variable frequency motor 10.

Further, when carrying out cutting processing operation to the compound veneer of jumbo size science and technology wood, at first paste the protrusion in the place that the compound veneer of jumbo size science and technology wood needs to be cut, then start the servo motor three 603 of putting on thing seat two 601 interconnection board two 602, then drive the rotation of reciprocal lead screw three 604, make sliding sleeve three 605 can drive supporting shoe 607 and remove along the horizontal direction in spout three 606, just can drive connecting block 701 and put thing seat two 601 horizontal migration afterwards, in the in-process that connecting block 701 removed, can drive support column 802 through putting thing seat three 702 and remove, the removal gyro wheel 804 in the thing groove 803 of putting this moment can drive supporting seat 801 and horizontal migration on base 1, thereby convenience and stability when connecting block 701 removes can be improved to a certain extent, and detect the distance of supporting module 8 and the protrusion that pastes in advance through laser range finder 805 detects the protrusion and align with itself when the time, the distance is shortest, servo motor three 603 is closed, servo motor four 703 starts, then drive reciprocal four 704 and rotate, just can cut through the cutting machine of four can carry out the cutting machine in the cutting of the size of five-dimensional units 706 in the cutting machine of the compound veneer of five-dimensional wood in the time of the in-plane of the aspect of the moving of supporting seat 801.

Further, the use method of the cutting machine is as follows:

s1, before using the cutting machine for processing the technical wood composite facing, firstly placing the small-size technical wood composite facing on the object placing plate 206, inserting the inserting blocks 302 into the inserting holes 301 on two sides of the object placing plate 206, enabling the limiting plates 303 to limit the technical wood composite facing placed on the object placing plate 206, and then pushing the connecting plate one 204 to move on the sliding block 202;

s2, for a large-size technical wood composite veneer, firstly placing the technical wood composite veneer on a processing table 201, then starting a servo motor II 503 to drive a reciprocating screw rod II 504 to rotate, so that a slide sleeve II 505 can drive a pressing plate 506 to move downwards until the pressing plate 506 can limit the technical wood composite veneer on the processing table 201;

s3, starting a servo motor III 603 on a connecting plate II 602 in a second object placing seat 601 so as to drive a reciprocating screw rod III 604 to rotate, so that a sliding sleeve III 605 can drive a supporting block 607 to move in a sliding groove III 606 along the horizontal direction, and a connecting block 701 can move horizontally along the surface of the second object placing seat 601 under the action of the supporting block 607;

s4, after the position of the connecting block 701 is adjusted, a servo motor IV 703 is started to drive a reciprocating screw IV 704 to rotate, so that a sliding sleeve IV 705 can drive a cutting unit II 706 to longitudinally move, and a variable frequency motor 10 in the cutting unit II 706 is started in the moving process to drive a cutting knife 11 to rotate, and then the cutting knife 11 in the cutting unit II 706 is used for cutting a large-size technical wood composite veneer.

In step S1, the method further includes the steps of:

s11, then, starting a hydraulic push rod 407 in a storage box 406, then, driving a first cutting unit 408 to move upwards, enabling a cutting knife 11 in the first cutting unit 408 to pass through the inside of a first sliding groove 401, driving a first reciprocating screw rod 404 to rotate by a first servo motor 403 on a first bearing plate 402, enabling a first sliding sleeve 405 to drive the storage box 406 to move in the horizontal direction in a processing table 201, then, cutting a small-size technical wood composite veneer by the first cutting unit 408, pushing a first placing plate 206 as required after cutting is completed, enabling the first placing plate 206 to rotate on a first connecting plate 204 under the action of a turntable 205, and then, continuously cutting the uncut technical wood composite veneer;

in step S3, the method further includes the steps of:

s31, in the moving process of the connecting block 701, the support column 802 can be driven to move along with the connecting block through the third storage seat 702, then the support seat 801 can be driven to move on the base 1 under the action of the moving roller 804, in the horizontally moving process of the support seat 801, whether the support module 8 moves to the edge of the technical wood composite facing is detected through the laser range finder 805, and then the horizontal position of the support module 8 is adjusted according to cutting requirements.

Working principle: for a small-size technical wood composite veneer, firstly, the small-size technical wood composite veneer is placed on the placement plate 206, the insertion blocks 302 are inserted into insertion holes 301 on two sides of the placement plate 206, so that the limiting plates 303 can limit the technical wood composite veneer placed on the placement plate 206, then, the hydraulic push rod 407 is started to drive the cutting unit I408 to move upwards, meanwhile, the servo motor I403 is started to drive the reciprocating screw I404 to rotate, so that the cutting unit I408 performs cutting operation on the small-size technical wood composite veneer, and after the cutting is completed, the placement plate 206 is pushed to rotate under the action of the rotary disc 205, and then, the cutting operation can be continuously performed on two sides of the uncut technical wood composite veneer;

for a large-size technical wood composite veneer, the technical wood composite veneer is also placed on the processing table 201, then a second servo motor 503 is started to drive a second reciprocating screw rod 504 to rotate, so that a second sliding sleeve 505 can drive a pressing plate 506 to move downwards, limit operation is performed on the technical wood composite veneer through the pressing plate 506, then a third servo motor 603 is started to drive a third reciprocating screw rod 604 to rotate, and a supporting block 607 can drive a connecting block 701 to horizontally move along the surface of a second object placing seat 601;

in the moving process of the connecting block 701, the support column 802 can be driven to move along with the connecting block 701 through the third storage seat 702, the support seat 801 is driven to move on the base 1 through the moving roller 804, then the horizontal position of the support module 8 is adjusted through the laser range finder 805, when the horizontal position is moved to a position to be cut, the third servo motor 603 is closed, then the fourth servo motor 703 is started to drive the fourth reciprocating screw 704 to rotate, the fourth sliding sleeve 705 can drive the second cutting unit 706 to move longitudinally, and then the cutting operation can be performed on the large-size technological wood composite facing through the second cutting unit 706.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. Cutting machine is used in processing of science and technology wood complex veneer, including base (1), its characterized in that: an adjusting module (2) is arranged at the top of the base (1), the adjusting module (2) is used for adjusting the cutting direction of the small-size technical wood composite facing, the adjusting module (2) comprises a processing table (201) fixed at the top of the base (1), and the processing table (201) is used for placing the large-size technical wood composite facing;

a sliding block (202) which is arranged front and back is arranged at the top of the processing table (201), a first connecting plate (204) is arranged at the top of the processing table (201), a clamping groove (203) which is arranged front and back is arranged at the bottom of the first connecting plate (204), the clamping groove (203) is embedded with the sliding block (202), a rotary table (205) is arranged at the center position of the top of the first connecting plate (204) through a shaft part, a placing plate (206) is welded at the top of the rotary table (205), and the placing plate (206) is used for placing a small-size technical wood composite veneer;

the size of the first connecting plate (204) is smaller than that of the processing table (201), and the first connecting plate (204) can move along the horizontal direction on the surface of the sliding block (202);

the adjusting module (2) is provided with a first limiting module (3), the first limiting module (3) is used for limiting and fixing a small-size technical wood composite veneer, the first limiting module (3) comprises jacks (301) symmetrically arranged on the outer walls of two sides of the object placing plate (206) and the front face and the back face, an inserting block (302) is slidably arranged in the jacks (301), the inserting block (302) is of an L-shaped structure, one end of the inserting block (302) is provided with a limiting plate (303), and the limiting plate (303) is of a strip shape;

the top of the adjusting module (2) is provided with a limiting module II (5), the limiting module II (5) is used for limiting and fixing a large-size technical wood composite veneer, the limiting module II (5) comprises a first storage seat (501) welded at the top of the processing table (201), the front surface of the first storage seat (501) is penetrated and provided with a second symmetrically arranged chute (502), the bottom wall of the processing table (201) is provided with a second symmetrically arranged servo motor (503), the output ends of the two groups of servo motors II (503) are provided with a second reciprocating screw rod (504), the top ends of the two groups of second reciprocating screw rods (504) are connected with the top wall of the first storage seat (501) through shaft pieces, the outer surfaces of the two groups of second reciprocating screw rods (504) are sleeved with a second sliding sleeve (505), the cross section of the second sliding sleeve (505) is in a T-shaped structure, the front surface of the second sliding sleeve (505) penetrates through the second chute (502) and is provided with a pressing plate (506), the pressing plate (506) is positioned above the processing table (201), and the size of the pressing plate (506) is larger than that of the first storage seat (206).

The system comprises a base (1), wherein a horizontal moving module (6) is arranged at the top of the base (1), symmetrically arranged longitudinal moving modules (7) are arranged at the top of the horizontal moving module (6), the horizontal moving modules (6) are used for driving the longitudinal moving modules (7) to move horizontally, supporting modules (8) are arranged at the bottoms of the two groups of longitudinal moving modules (7), the supporting modules (8) are positioned in front of the horizontal moving modules (6), the supporting modules (8) are positioned at two sides of an adjusting module (2), the supporting modules (8) are used for improving the stability of the longitudinal moving modules (7) in moving, each supporting module (8) comprises a supporting seat (801), supporting columns (802), a storage groove (803), a moving roller (804) and a laser range finder (805), the bottoms of the supporting seats (801) are provided with the storage grooves (803), the top walls of the storage grooves (803) are provided with symmetrically arranged moving rollers (804), the moving rollers (804) are used for driving the supporting seats (801) to move horizontally on the base (1), supporting columns (802) are arranged at the tops of the supporting seats (801), the supporting columns (802) are embedded in the outer surfaces of the supporting columns (802), and the laser range finder (805) are used for measuring the distance of the wood veneer (8);

the inside mounting of adjustment module (2) has cutting module one (4), and cutting module one (4) is used for carrying out cutting operation to the compound veneer of small-size technological wood, cutting module one (4) is including running through spout one (401) that sets up at processing platform (201) top around, slider (202) are located the centre of two sets of spouts one (401), spout one (401) are located the place ahead of thing seat one (501), loading board one (402) of arranging around the one side outer wall of processing platform (201) is installed, servo motor one (403) are installed at the top of loading board one (402), reciprocating screw one (404) are installed to the output of servo motor one (403), and one end of reciprocating screw one (404) is connected with one side inner wall of processing platform (201) through the shaft member, reciprocating screw one (404) is located the place ahead of servo motor two (503), the surface of reciprocating screw one (404) has cup jointed one (405), the surface of sliding sleeve one (405) is installed to the sliding sleeve one (406) is located the place ahead of processing platform (201), and hydraulic pressure output of pushing rod (407) of end (407) is installed to push rod (408).

2. The cutting machine for processing a technical wood composite veneer according to claim 1, wherein: the horizontal movement module (6) comprises a second storage seat (601) arranged at the top of the base (1), a second connecting plate (602) which is symmetrically arranged is arranged on the bottom wall of the second storage seat (601), a third servo motor (603) is arranged on the surfaces, close to each other, of the second connecting plates (602), a third reciprocating screw (604) is arranged at the output end of the third servo motor (603), one ends of the third reciprocating screw (604) are respectively connected with the inner walls of the two sides of the second storage seat (601) through shaft pieces, a third sliding sleeve (605) is sleeved on the outer surfaces of the third reciprocating screw (604), supporting blocks (607) are arranged on the outer surfaces of the third sliding sleeve (605), the third sliding grooves (606) are arranged on the tops of the second storage seat (601) in a penetrating mode, and the third sliding grooves (606) are located in the outer sides of the supporting blocks (607), and the laser distance measuring instrument (805) is electrically connected with the third servo motor (603).

3. The cutting machine for processing a technical wood composite veneer according to claim 2, wherein: the vertical movable module (7) comprises connecting blocks (701) welded at the tops of the supporting blocks (607), the front surfaces of the two groups of connecting blocks (701) are provided with a third storage seat (702), the rear wall of each connecting block (701) is provided with a fourth servo motor (703), the output end of each fourth servo motor (703) is provided with a fourth reciprocating screw (704), one end of each fourth reciprocating screw (704) is connected with the front wall of the corresponding third storage seat (702) through a shaft piece, the outer surface of each fourth reciprocating screw (704) is sleeved with a fourth sliding sleeve (705), the bottom of the corresponding third storage seat (702) is provided with a fifth sliding groove in a penetrating mode, the outer surface of each fourth sliding sleeve (705) is provided with a second cutting unit (706) penetrating through the fifth sliding groove, and the second cutting unit (706) is used for cutting a large-size scientific and technological wood composite facing.

4. A cutting machine for processing a technical wood composite veneer according to claim 3, wherein: the first cutting unit (408) and the second cutting unit (706) are composed of a storage box (9), a variable frequency motor (10) and a cutting knife (11), the variable frequency motor (10) is mounted on the outer surface of the storage box (9), and the cutting knife (11) is mounted at the output end of the variable frequency motor (10).

5. The method of claim 4, wherein the method of using the cutting machine is as follows:

s1, before the cutting machine for processing the technical wood composite facing is used, firstly placing the small-size technical wood composite facing on a storage plate (206), inserting an inserting block (302) into inserting holes (301) on two sides of the storage plate (206) so that a limiting plate (303) can limit the technical wood composite facing placed on the storage plate (206), and then pushing a connecting plate I (204) to move on a sliding block (202);

s2, for a large-size technical wood composite facing, firstly placing the technical wood composite facing on a processing table (201), then starting a servo motor II (503) to drive a reciprocating screw rod II (504) to rotate, so that a sliding sleeve II (505) can drive a pressing plate (506) to move downwards until the pressing plate (506) can limit the technical wood composite facing on the processing table (201);

s3, starting a servo motor III (603) on a connecting plate II (602) in a second storage seat II (601) so as to drive a reciprocating screw rod III (604) to rotate, so that a sliding sleeve III (605) can drive a supporting block (607) to move in a horizontal direction in a sliding groove III (606), and the connecting block (701) can move horizontally along the surface of the second storage seat II (601) under the action of the supporting block (607);

s4, after the position of the connecting block (701) is adjusted, a servo motor IV (703) is started to drive a reciprocating screw rod IV (704) to rotate, so that a sliding sleeve IV (705) can drive a cutting unit II (706) to longitudinally move, and a variable frequency motor (10) inside the cutting unit II (706) is started in the moving process of the cutting unit II (706) to drive a cutting knife (11) to rotate, and then the cutting operation is performed on a large-size technological wood composite veneer through the cutting knife (11) in the cutting unit II (706).

6. The method of using a cutting machine for processing a technical wood composite veneer according to claim 5, wherein in the step S1, the method further comprises the steps of:

s11, then starting a hydraulic push rod (407) in a storage box (406), then driving a first cutting unit (408) to move upwards, enabling a cutting knife (11) in the first cutting unit (408) to pass through the inside of a first sliding groove (401), enabling a first servo motor (403) on a first bearing plate (402) to drive a first reciprocating screw (404) to rotate, enabling a first sliding sleeve (405) to drive the storage box (406) to move in the horizontal direction in a processing table (201), then enabling the first cutting unit (408) to cut a small-size technical wood composite veneer, pushing a placing plate (206) as required after cutting is completed, enabling the placing plate (206) to rotate on a first connecting plate (204) under the action of a turntable (205), and then enabling cutting operation to be continued on the uncut technical wood composite veneer;

in the step S3, the method further includes the following steps:

s31, in the moving process of the connecting block (701), the supporting column (802) can be driven to move along with the connecting block through the third storage seat (702), then the supporting seat (801) can be driven to move on the base (1) under the action of the moving roller (804), in the horizontal moving process of the supporting seat (801), whether the supporting module (8) moves to the edge of the technical wood composite facing is detected through the laser range finder (805), and then the horizontal position of the supporting module (8) is adjusted according to cutting requirements.