CN111558970A

CN111558970A - Quick cutting process for wood board

Info

Publication number: CN111558970A
Application number: CN202010457916.5A
Authority: CN
Inventors: 肖国兵
Original assignee: Ji'an Senbo Wood Industry Co ltd
Current assignee: Ji'an Senbo Wood Industry Co ltd
Priority date: 2020-05-26
Filing date: 2020-05-26
Publication date: 2020-08-21

Abstract

The invention discloses a quick cutting process for a wood board, which belongs to the technical field of board cutting and comprises a cutting table, wherein the top of the cutting table is provided with a mounting groove, the inner wall of the mounting groove is rotatably connected with a connecting shaft, the surface of the connecting shaft is fixedly connected with a cutting disc, and the bottom of the cutting table is fixedly connected with a rotation driving device of the connecting shaft. According to the automatic plate cutting machine, the cutting table, the cutting disc, the upper pressing wheel, the lower pressing wheel, the transfer table, the first electric cylinder, the second electric cylinder, the clamping plate, the driving sliding block, the L-shaped mounting frame, the transfer clamping plate, the first supporting spring, the shifting sliding groove, the second supporting spring, the supporting roller and the extrusion sliding rail are arranged, so that a worker does not need to feed each plate one by one, in the cutting process, the worker does not need to manually support and keep stable, the effect of automatically cutting the stacked plates one by stacking and feeding at one time is achieved, and the working efficiency of cutting the plates is improved.

Description

Quick cutting process for wood board

Technical Field

The invention relates to the technical field of plate cutting, in particular to a quick cutting process for a wood plate.

Background

The invention discloses an invention case for quickly cutting partial wood boards, and discloses a wood board cutting machine, which comprises a workbench and a cutting knife, wherein the workbench is obliquely arranged, the cutting knife is arranged on the workbench, a bottom plate is slidably arranged on the workbench, a sliding groove parallel to the width direction of the workbench is formed in the workbench, a sliding block is formed at the bottom of the bottom plate and embedded in the sliding groove, a side plate is fixed on the bottom plate, a cutting groove parallel to the sliding groove is formed in the bottom plate and the side plate, the cutting knife is positioned in the cutting groove, a clamping mechanism is arranged on the side plate, a driving device is arranged on one side of the cutting groove on the workbench, and a positioning device is arranged on the other side of the cutting groove on the workbench.

But present plank cutting technology needs the staff constantly to feed in raw material at the in-process of processing to need manual support at the in-process of cutting, avoid taking place unstable condition in the cutting process, the operation is comparatively troublesome, and it is lower to automatic, can't realize once piling up reinforced and to the effect of automatic cutout one by one to the panel of folding, reduced the work efficiency to the panel cutting.

Based on the above, the invention designs a rapid cutting process for wood plates, so as to solve the problems.

Disclosure of Invention

The invention aims to provide a rapid cutting process for wood boards, and aims to solve the problems that in the prior art, in the processing process of the wood board cutting process, workers are required to continuously feed materials, and the cutting process is required to be manually supported, so that the unstable situation in the cutting process is avoided, the operation is troublesome, the automation is low, the effect of automatically cutting the overlapped boards one by stacking and feeding once cannot be realized, and the working efficiency of cutting the wood boards is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: a quick cutting process for wood boards comprises a cutting table, wherein the top of the cutting table is provided with a mounting groove, the inner wall of the mounting groove is rotatably connected with a connecting shaft, the surface of the connecting shaft is fixedly connected with a cutting disc, the bottom of the cutting table is fixedly connected with a rotary driving device of the connecting shaft, two sides of the cutting table are fixedly connected with a pressing frame together, the top of the inner wall of the pressing frame is rotatably connected with two rows of upper pressing wheels corresponding to the two sides of the mounting groove, the top of the cutting table is rotatably connected with lower pressing wheels corresponding to the upper pressing wheels, the rear side of the top of the cutting table is connected with a material storage mechanism, two sides of the top of the cutting table are slidably connected with two transfer tables, the two transfer tables are symmetrically arranged, the bottom of the transfer tables is connected with a front and rear driving mechanism, and the top of the transfer, the two clamping pieces are symmetrically arranged;

the material storage mechanism comprises two support frames, a first electric cylinder is fixedly connected to the front ends of the support frames, a movable plate is fixedly connected to the bottom end of an output rod of the first electric cylinder, two slide rods are fixedly connected to the inner sides of the support frames, the movable plate is slidably connected to the surfaces of the two slide rods, two second electric cylinders are fixedly connected to the side faces of the movable plate, the output rods of the two second electric cylinders penetrate through the movable plate and are fixedly connected with a clamping plate together, and a driving sliding block is fixedly connected to the bottom of the clamping plate;

the clamping piece comprises an L-shaped mounting frame, the L-shaped mounting frame is fixedly connected to the side face of the transfer table, the inner side face of the L-shaped mounting frame is connected with two connecting rods in a sliding mode, the inner side end portions of the two connecting rods are fixedly connected with a transfer splint together, first supporting springs are sleeved on the surfaces of the connecting rods, two ends of each first supporting spring are fixedly connected to the side face of the transfer splint and the inner side face of the L-shaped mounting frame respectively, a transfer chute larger than the transverse space of a driving slider is formed in the top of the transfer splint, the driving slider is connected to the inner wall of the transfer chute in a sliding mode, one end, away from the transfer splint, of each connecting rod penetrates through the L-shaped mounting frame and is fixedly connected with a connecting plate together, two supporting rods are connected to the side face of the connecting, one end, far away from the fixed plate, of the second supporting spring is fixedly connected to the outer side face of the connecting plate, two supporting rollers which are arranged in parallel are fixedly connected to the outer side face of the fixed plate, two sides of the cutting table are located in the pressing frame, extrusion slide rails for extruding the supporting rollers are fixedly connected to the two sides of the cutting table, and the two ends of each extrusion slide rail are provided with an introduction arc face of each supporting roller;

the cutting process comprises the following steps:

s1, synchronously starting four second electric cylinders through an external controller, wherein the second electric cylinders pull clamping plates, the second clamping plates pull transfer clamping plates through sliding connection of a driving sliding block and a shifting sliding groove, a stacking space is vacated, plates are stacked on the inner walls of two transfer tables, and the plates are located between the two clamping plates and between the two transfer clamping plates;

s2, synchronously starting a second electric cylinder through an external controller, pushing a clamping plate to clamp the stacked wood by the second electric cylinder, driving a driving sliding block to cancel driving of a transfer clamping plate by the synchronous clamping plate, and then pushing the transfer clamping plate to limit the bottom plate and to be in contact with the side face of the bottom plate under the support of a first supporting spring;

s3, synchronously starting a first electric cylinder through an external controller, pulling a moving plate by the first electric cylinder, and lifting stacked plates above the bottom plate through linkage of a second electric cylinder and a clamping plate;

s4, driving a transfer table to move through a front driving mechanism and a rear driving mechanism, transferring the bottom plate limited by the transfer clamping plate to a cutting disc position for cutting, wherein in the transferring process, a support roller can be in mutual contact with the inner side of an extrusion slide rail under the guiding of an introduced arc surface at the end part of the extrusion slide rail to generate mutual extrusion, so that a fixed plate extrudes a second support spring, a connecting plate is synchronously acted by the second support spring, the transfer clamping plate is extruded by the connecting plate under the linkage of the connecting rod, the transfer clamping plate clamps and fixes the bottom plate, and an upper pressing wheel and a lower pressing wheel can roll and support the bottom plate before transferring the bottom plate to the cutting disc, so that the cutting stability is kept until the cutting is finished, and the clamping is cancelled after the support roller is separated from the extrusion slide rail, and the cutting of the bottom;

s5, taking down the cut bottom plates, resetting the transfer tables through a front-back driving mechanism, after resetting, synchronously starting a first electric cylinder through an external controller, pushing a moving plate by the first electric cylinder, resetting the stacked plates through linkage of a second electric cylinder and a clamping plate, restoring sliding connection of a driving slide block and a shifting chute, pulling the clamping plate through the second electric cylinder, synchronously driving a transfer clamping plate to move, making space, simultaneously dropping the stacked plates onto the inner walls of the two transfer tables, sequentially repeating the steps of S1, S2, S3, S4 and S5, completing cutting of the bottom plates again, and completing automatic cutting of the stacked plates one by one;

when the wood board cutting machine works, in the processing process of the existing wood board cutting technology, workers need to continuously feed materials, and the wood board cutting process needs to be manually supported, so that the unstable situation in the cutting process is avoided, the operation is troublesome, the automation is low, the effect of automatically cutting the stacked boards one by stacking and feeding once cannot be realized, the working efficiency of cutting the wood boards is reduced, through arranging a cutting table, a cutting disc, a material storage mechanism, a transfer table, a front driving mechanism, a rear driving mechanism and clamping pieces, S1, four second electric cylinders are synchronously started through an external controller, the second electric cylinders pull the clamping plates, the clamping plates pull the transfer clamping plates through the sliding connection of a driving slide block and a shifting chute, the stacking space is vacated, the wood boards are stacked on the inner walls of the two transfer tables, and the wood boards are simultaneously positioned between the two clamping plates and between the two transfer clamping plates, s2, synchronously starting a second electric cylinder through an external controller, pushing a clamping plate to clamp the stacked wood by the second electric cylinder, driving a driving sliding block to cancel driving of a transfer clamping plate by the synchronous clamping plate, and then pushing the transfer clamping plate to limit the bottom plate and to be in contact with the side face of the bottom plate under the support of a first supporting spring; s3, synchronously starting a first electric cylinder through an external controller, pulling a moving plate by the first electric cylinder, and lifting stacked plates above the bottom plate through linkage of a second electric cylinder and a clamping plate; s4, driving a transfer table to move through a front driving mechanism and a rear driving mechanism, transferring the bottom plate limited by the transferred clamping plate to a cutting disc for cutting, wherein in the transferring process, a supporting roller can be in mutual contact with the inner side of an extrusion slide rail under the guiding of an introduced arc surface at the end part of the extrusion slide rail to generate mutual extrusion, so that a fixing plate extrudes a second supporting spring, the second supporting spring acts on a connecting plate synchronously, the connecting plate extrudes the transferred clamping plate under the linkage of the connecting rod, and an upper pressing wheel and a lower pressing wheel can roll and support the bottom plate before transferring the bottom plate to the cutting disc, so that the cutting stability is kept until the cutting is finished, and after the supporting roller is separated from the extrusion slide rail, clamping support is cancelled, and the bottom plate is cut; s5, taking down the cut bottom plates, resetting the transfer tables through a front-back driving mechanism, after resetting, synchronously starting a first electric cylinder through an external controller, pushing a moving plate by the first electric cylinder, resetting the stacked plates through linkage of a second electric cylinder and a clamping plate, restoring sliding connection of a driving slide block and a shifting chute, pulling the clamping plate through the second electric cylinder to synchronously drive a transfer clamping plate to move, dropping the stacked plates onto the inner walls of the two transfer tables while making a space, sequentially repeating the steps of S1, S2, S3, S4 and S5, completing cutting of the bottom plates again, completing automatic cutting of the stacked plates, not requiring workers to feed each plate one by one, keeping stability during cutting, and realizing the effect of automatically cutting the stacked plates one by one through one-time stacking feeding, the working efficiency of cutting to the panel has been improved.

As a further scheme of the invention, L-shaped pushing sliding blocks are fixedly connected to two sides of the front end of the top of the cutting table, inclined planes are formed in the end parts of the L-shaped pushing sliding blocks, and the end parts of the L-shaped pushing sliding blocks are arranged on the front-back movement track of the shifting sliding chute; during operation, after the platform that moves drives the cutting of bottom panel and accomplishes, supporting roller breaks away from behind the extrusion slide rail, can take off the panel that the cutting was accomplished, however, the panel both sides that the processing was accomplished still can receive both sides and transfer splint spacing, be not convenient for staff's taking, need staff to promote the splint of transferring a little, it is comparatively slow to take, work efficiency has been reduced, promote the slider through setting up L shape, stir spout inner wall and L shape and promote slider sliding connection, L shape promotes the inclined plane of slider tip and can promote the splint of transferring at the in-process of connecting, make and transfer splint to move to the outside, the cancellation is spacing to the bottom panel that the processing was accomplished, vacate operating space, make things convenient for staff to take of panel, the work degree of difficulty has been reduced, the staff of being convenient for takes off panel fast, avoid influencing machining efficiency.

As a further scheme of the invention, two fixed rods are fixedly connected to both sides of the front end of the bottom of the cutting table, the bottoms of the two fixed rods on the same side are fixedly connected with a placing plate together, the surfaces of the four fixed rods are connected with a U-shaped mounting frame together in a sliding manner, the front end of the top of the cutting table is provided with a connecting groove, the U-shaped mounting rack is connected on the inner wall of the connecting groove in a sliding manner, the inner wall of the U-shaped mounting rack is rotatably connected with two supporting rolls which are arranged in parallel through a supporting shaft, the surfaces of the two supporting rolls are jointly connected with a conveying belt in a transmission way, the supporting shaft at the end part of one of the supporting rollers passes through the U-shaped mounting frame and is connected with a first motor, the two sides of the U-shaped mounting rack are fixedly connected with pulling plates, the top of each pulling plate penetrates through the cutting table and is fixedly connected with a trapezoidal sliding block, and the trapezoidal sliding blocks are arranged on the moving track of the L-shaped mounting rack; during operation, after bottom panel is accomplished by processing, need the panel that the cutting was accomplished to staff's manual taking off, and transfer to next process flow, manual operation is not exempted from to produce lackluster, influence work efficiency, through setting up the U-shaped mounting bracket, the conveyer belt, pulling plate and trapezoidal slider, see after the cutting is accomplished, L shape mounting bracket tip can contact with trapezoidal slider below inclined plane each other under the drive of platform is transferred, and promote trapezoidal slider rebound, trapezoidal slider pulls up the U-shaped mounting bracket through the pulling plate, the U-shaped mounting bracket drives the conveyer belt in step and contacts with the panel bottom of processing completion, carry panel to next process flow, need not staff's manual transfer and produce lackluster and influence work efficiency's problem.

As a further scheme of the invention, the upper corner of the front end of the L-shaped mounting frame and the action end of the lower inclined plane of the trapezoidal sliding block are provided with round corner surfaces, and the surfaces of the round corner surfaces are smooth; the during operation, after the panel cutting is accomplished, the in-process that the drive conveyer belt shifts up, L shape mounting bracket and trapezoidal slider interact, if the effect end on inclined plane under L shape mounting bracket and the trapezoidal slider has the edges and corners, can produce the cutting force to inclined plane under the trapezoidal slider, produce the relative slip and realize the degree of difficulty that the trapezoidal slider shifted up when can improving the interact, round corner face has been seted up through the effect end on inclined plane under the last turning of L shape mounting bracket front end and the trapezoidal slider, make L shape mounting bracket more slick and sly with trapezoidal slider interact face, it is easier for L shape mounting bracket to promote trapezoidal slider to rise, the degree of difficulty of interact has been reduced.

As a further scheme of the invention, the rotary driving device comprises a mounting frame, a second motor, a driving turntable, a follow-up turntable and a belt, wherein the mounting frame is fixedly connected to the bottom of the cutting table at the edge corresponding to the mounting groove; when the plate cutting machine works and needs to cut plates, the second motor is started through the peripheral controller, the second motor drives the driving turntable to rotate, the driving turntable drives the follow-up turntable through the belt, the follow-up turntable synchronously drives the connecting shaft to rotate, and the connecting shaft synchronously drives the cutting disc to rotate, so that the effect of providing cutting power for the cutting disc is achieved.

As a further scheme of the invention, the front and back driving mechanism comprises a third motor, the third motor is fixedly connected to the back of the cutting table, the output end of the third motor is fixedly connected with a threaded rod, the end part of the threaded rod penetrates through the transfer table, and the surface of the threaded rod is in threaded connection with the transfer table; during operation, through two third motors of synchronous start of the controller of peripheral hardware, the third motor drive threaded rod is rotatory, and the external screw thread drive of threaded rod moves the platform that moves, moves the platform and drives the holder removal in step to drive bottom panel and remove to the cutting station, realize driving bottom panel and remove and realize the effect of cutting.

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

1. according to the automatic plate cutting machine, the cutting table, the cutting disc, the upper pressing wheel, the lower pressing wheel, the transfer table, the first electric cylinder, the second electric cylinder, the clamping plate, the driving sliding block, the L-shaped mounting frame, the transfer clamping plate, the first supporting spring, the shifting sliding groove, the second supporting spring, the supporting roller and the extrusion sliding rail are arranged, so that a worker does not need to feed each plate one by one, in the cutting process, the worker does not need to manually support and keep stable, the effect of automatically cutting the stacked plates one by stacking and feeding at one time is achieved, and the working efficiency of cutting the plates is improved.

2. According to the invention, through arranging the U-shaped mounting frame, the conveyer belt, the pulling plate and the trapezoidal slide block, the processed plate is automatically transferred and conveyed to the next processing flow, and the problem that the working efficiency is influenced due to lacuna caused by manual transfer of workers is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of the cutting process of the present invention;

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

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a perspective view of the overall structure of the present invention, partially in section;

FIG. 5 is a perspective view of the transfer table of the present invention after being partially sectioned;

FIG. 6 is a perspective view of the entire structure after a partial cross-section of the plate material is cut;

FIG. 7 is a partial enlarged view of portion B of FIG. 6;

FIG. 8 is a front view of the overall structure of the present invention as cutting of the sheet material is completed;

fig. 9 is a partial enlarged view of portion C of fig. 8;

fig. 10 is a structural sectional view showing a front view of the overall structure when the cutting of the plate material is completed according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

cutting table 1, connecting axle 2, cutting disk 3, press frame 4, go up pinch roller 5, lower pinch roller 6, platform 7 moves, support frame 8, first electric jar 9, movable plate 10, second electric jar 11, grip block 12, drive slider 13, L shape mounting bracket 14, connecting rod 15, transfer splint 16, first supporting spring 17, stir spout 18, connecting plate 19, bracing piece 20, fixed plate 21, second supporting spring 22, supporting roller 23, extrusion slide rail 24, L shape promotion slider 25, U-shaped mounting bracket 26, conveyer belt 27, pulling plate 28, trapezoidal slider 29, second motor 30, drive carousel 31, follow-up carousel 32, belt 33, third motor 34, threaded rod 35.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution:

a quick cutting process for wood plates comprises a cutting table 1, wherein the top of the cutting table 1 is provided with a mounting groove, the inner wall of the mounting groove is rotatably connected with a connecting shaft 2, the surface of the connecting shaft 2 is fixedly connected with a cutting disc 3, the bottom of the cutting table 1 is fixedly connected with a rotary driving device of the connecting shaft 2, two sides of the cutting table 1 are jointly and fixedly connected with a pressing frame 4, the top of the inner wall of the pressing frame 4 is rotatably connected with two rows of upper pinch rollers 5 corresponding to the two side directions of the mounting groove, the top of the cutting table 1 is rotatably connected with a lower pinch roller 6 corresponding to the position of the upper pinch roller 5, the rear side of the top of the cutting table 1 is connected with a storage mechanism, two sides of the top of the cutting table 1 are slidably connected with two transfer tables 7, the two transfer tables 7 are symmetrically arranged, the bottoms of the transfer tables, the two clamping pieces are symmetrically arranged;

the material storage mechanism comprises two support frames 8, a first electric cylinder 9 is fixedly connected to the front end of each support frame 8, a movable plate 10 is fixedly connected to the bottom end of an output rod of each first electric cylinder 9, two slide rods are fixedly connected to the inner side of each support frame 8, the movable plate 10 is slidably connected to the surfaces of the two slide rods, two second electric cylinders 11 are fixedly connected to the side faces of the movable plate 10, the output rods of the two second electric cylinders 11 penetrate through the movable plate 10 and are fixedly connected with a clamping plate 12 together, and a driving slider 13 is fixedly connected to the bottom of the clamping plate 12;

the clamping piece comprises an L-shaped mounting frame 14, the L-shaped mounting frame 14 is fixedly connected to the side surface of the transfer table 7, two connecting rods 15 are slidably connected to the inner side surface of the L-shaped mounting frame 14, the inner side end portions of the two connecting rods 15 are fixedly connected with a transfer splint 16 together, first supporting springs 17 are sleeved on the surface of the connecting rods 15, two ends of each first supporting spring 17 are fixedly connected to the side surface of the transfer splint 16 and the inner side surface of the L-shaped mounting frame 14 respectively, a toggle sliding groove 18 larger than the transverse space of each driving slider 13 is formed in the top of the transfer splint 16, each driving slider 13 is slidably connected to the inner wall of the toggle sliding groove 18, one ends, far away from the transfer splint 16, of the two connecting rods 15 penetrate through the L-shaped mounting frame 14 and are fixedly connected with a connecting plate 19 together, two supporting rods 20 are slidably connected to the, one end of the second supporting spring 22, which is far away from the fixing plate 21, is fixedly connected to the outer side surface of the connecting plate 19, the outer side surface of the fixing plate 21 is fixedly connected with two supporting rollers 23 which are arranged in parallel, two sides of the cutting table 1, which are positioned in the pressing frame 4, are fixedly connected with extrusion slide rails 24 for extruding the supporting rollers, and two ends of each extrusion slide rail 24 are provided with an introduction arc surface of the supporting roller 23;

the cutting process comprises the following steps:

s1, synchronously starting four second electric cylinders 11 through an external controller, pulling a clamping plate 12 by the second electric cylinders 11, pulling a transfer clamping plate 16 by the second clamping plate through the sliding connection of a driving slide block 13 and a shifting chute 18, freeing a stacking space, stacking plates on the inner walls of two transfer tables 7, and simultaneously enabling the plates to be positioned between the two clamping plates 12 and between the two transfer clamping plates 16;

s2, synchronously starting a second electric cylinder 11 through an external controller, enabling the second electric cylinder 11 to push a clamping plate 12 to clamp the stacked wood, enabling the synchronous clamping plate 12 to drive a driving slide block 13 to cancel driving of a transfer clamping plate 16, and then pushing the transfer clamping plate 16 to limit the bottom-layer plate and enable the bottom-layer plate to be in contact with the side face of the bottom-layer plate under the support of a first supporting spring 17;

s3, synchronously starting a first electric cylinder 9 through an external controller, pulling a moving plate 10 by the first electric cylinder 9, and lifting stacked plates above the bottom plate through linkage of a second electric cylinder 11 and a clamping plate 12;

s4, driving the transfer table 7 to move through the front and rear driving mechanism, transferring the bottom plate limited by the transfer clamping plate 16 to the position of the cutting disc 3 for cutting, in the transferring process, the supporting rollers 23 will contact with the inner side of the extrusion slide rail 24 under the guiding of the leading-in arc surface at the end of the extrusion slide rail 24, and generate mutual extrusion, so that the fixing plate 21 presses the second supporting spring 22, the connecting plate 19 is acted by the second supporting spring 22 synchronously, the connecting plate 19 presses the transferring splint 16 under the linkage of the connecting rod 15, so that the transferring splint 16 clamps and fixes the bottom layer plate, before the bottom layer plate is transferred to the cutting disc 3, the upper pressing wheel 5 and the lower pressing wheel 6 can roll and support the bottom layer plate to keep the cutting stable until the cutting is finished, after the supporting roller 23 is separated from the extrusion slide rail 24, clamping is cancelled, and the bottom plate is cut;

s5, taking down the cut bottom plate, resetting the transfer table 7 through a front-back driving mechanism, after resetting, synchronously starting the first electric cylinder 9 through an external controller, pushing the moving plate 10 by the first electric cylinder 9, resetting the stacked plate through linkage of the second electric cylinder 11 and the clamping plate 12, restoring the sliding connection of the driving slider 13 and the shifting chute 18, pulling the clamping plate 12 through the second electric cylinder 11, synchronously driving the transfer clamping plate 16 to move, freeing the space, simultaneously dropping the stacked plate onto the inner walls of the two transfer tables 7, sequentially repeating the steps S1, S2, S3, S4 and S5, completing cutting of the bottom plate again, and completing automatic cutting of the stacked plate one by one;

during working, in the current wood board cutting process, continuous feeding is required by workers, manual support is required in the cutting process, the unstable situation in the cutting process is avoided, the operation is troublesome, the automation is low, the effect of automatically cutting the stacked boards one by stacking and feeding once cannot be realized, and the working efficiency of cutting the boards is reduced, the technical scheme solves the problems by arranging the cutting table 1, the cutting disc 3, the storage mechanism, the transfer table 7, the front and rear driving mechanisms and the clamping pieces, and carries out five steps, S1, synchronously starting four second electric cylinders 11 through an external controller, pulling the clamping plate 12 by the second electric cylinders 11, pulling the transfer clamping plate 16 by the sliding connection of the driving slide block 13 and the shifting chute 18 by the clamping plate 12, freeing a stacking space, and stacking the boards on the inner walls of the two transfer tables 7, and the board is located between two grip blocks 12 and between two transfer splints 16 at the same time, S2. then, start the second electric cylinder 11 synchronously through the peripheral control device, the second electric cylinder 11 promotes grip block 12 to grasp the timber piled up, the synchronous grip block 12 drives the drive slide 13 to cancel the drive to the transfer splint 16, then, under the support of the first supporting spring 17, the reaction force of the first supporting spring 17 will promote the transfer splint 16 to carry on spacing and contact with each other with the side of bottom plank; s3, synchronously starting the first electric cylinder 9 through an external controller, pulling the moving plate 10 by the first electric cylinder 9, and lifting the stacked plates above the bottom plate through linkage of the second electric cylinder 11 and the clamping plate 12 because the poking chute 18 has no limit on the vertical direction of the driving slide block 13; s4, driving the transfer table 7 to move through the front and rear driving mechanism, transferring the bottom plate limited by the transfer clamping plate 16 to the position of the cutting disc 3 for cutting, wherein in the transferring process, the supporting rollers 23 can be in mutual contact with the inner sides of the extrusion sliding rails 24 under the guiding-in arc-shaped draught at the end parts of the extrusion sliding rails 24 to generate mutual extrusion, so that the fixing plate 21 extrudes the second supporting springs 22, the second supporting springs 22 synchronously act on the connecting plate 19, the connecting plate 19 extrudes the transfer clamping plate 16 under the linkage of the connecting rod 15, and the upper pressing roller 5 and the lower pressing roller 6 can roll and support the bottom plate before transferring the bottom plate to the cutting disc 3, so that the cutting stability is kept until the cutting is finished, and after the supporting rollers 23 are separated from the extrusion sliding rails 24, the clamping support is cancelled, and the bottom plate is cut; s5, taking down the cut bottom plates, resetting the transfer table 7 through a front-back driving mechanism, after resetting, synchronously starting the first electric cylinder 9 through an external controller, pushing the moving plate 10 by the first electric cylinder 9, resetting the stacked plates through the linkage of the second electric cylinder 11 and the clamping plate 12, restoring the sliding connection of the driving slider 13 and the shifting chute 18, pulling the clamping plate 12 through the second electric cylinder 11, synchronously driving the transfer clamping plate 16 to move, freeing the space, simultaneously dropping the stacked plates onto the inner walls of the two transfer tables 7, sequentially repeating the steps S1, S2, S3, S4 and S5, completing the cutting of the bottom plates again, completing the automatic cutting of the stacked plates, needing no worker to feed each plate one by one, needing no manual support of the worker to keep stable in the cutting process, realizing the effect of automatically cutting the stacked plates one by the worker, the working efficiency of cutting to the panel has been improved.

As a further scheme of the invention, both sides of the front end of the top of the cutting table 1 are fixedly connected with L-shaped pushing sliding blocks 25, the end parts of the L-shaped pushing sliding blocks 25 are provided with inclined planes, and the end parts of the L-shaped pushing sliding blocks 25 are arranged on the back-and-forth movement track of the poking sliding grooves 18; when in work, after the transfer table 7 drives the bottom plate to be cut, the supporting roller 23 is separated from the extrusion slide rail 24, the cut board can be taken down, however, the two sides of the processed board are still limited by the two side transfer clamping plates 16, which is inconvenient for the worker to take, the worker needs to slightly push the transfer clamping plates 16, the taking is slow, the working efficiency is reduced, by arranging the L-shaped pushing slide block 25, the inner wall of the poking chute 18 is in sliding connection with the L-shaped pushing slide block 25, the inclined plane at the end part of the L-shaped pushing slide block 25 can push the transferring splint 16 in the connection process, make and transfer splint 16 to the outside and remove, cancel the spacing to the bottom panel that processing was accomplished, vacate the operating space, make things convenient for the staff to the taking of panel, reduced the work degree of difficulty, the staff of being convenient for takes off panel fast, avoids influencing machining efficiency.

As a further proposal of the invention, two fixed rods are fixedly connected with both sides of the front end of the bottom of the cutting table 1, a placing plate is fixedly connected with the bottoms of the two fixed rods at the same side, a U-shaped mounting rack 26 is connected with the surfaces of the four fixed rods in a sliding way, the front end of the top of the cutting table 1 is provided with a connecting groove, the U-shaped mounting rack 26 is connected with the inner wall of the connecting groove in a sliding way, the inner wall of the U-shaped mounting rack 26 is rotatably connected with two supporting rollers arranged in parallel through a supporting shaft, the surfaces of the two supporting rollers, a supporting shaft at the end part of one of the supporting rollers penetrates through the U-shaped mounting frame 26 and is connected with a first motor, two sides of the U-shaped mounting frame 26 are fixedly connected with pulling plates 28, the top of each pulling plate 28 penetrates through the cutting table 1 and is fixedly connected with a trapezoidal sliding block 29, and each trapezoidal sliding block 29 is arranged on the moving track of the L-shaped mounting frame 14; during operation, after bottom panel is accomplished by processing, need the panel that the manual cutting of taking off of staff was accomplished, and shift to next converting flow, manual operation is not exempted from to produce lackluster, influence work efficiency, through setting up U-shaped mounting bracket 26, conveyer belt 27, pulling plate 28 and trapezoidal slider 29, see after the cutting is accomplished, L-shaped mounting bracket 14 tip can contact with trapezoidal slider 29 below inclined plane each other under the drive of transfer platform 7, and promote trapezoidal slider 29 rebound, U-shaped mounting bracket 26 is pulled up through pulling plate 28 to trapezoidal slider 29, U-shaped mounting bracket 26 drives conveyer belt 27 and the panel bottom of processing completion in step and contacts, carry panel to next converting flow, need not the manual problem that produces lackluster and influence work efficiency of staff.

As a further scheme of the invention, the upper corner of the front end of the L-shaped mounting frame 14 and the action end of the lower inclined plane of the trapezoidal sliding block 29 are provided with round corner surfaces, and the surfaces of the round corner surfaces are smooth; during operation, after the panel cutting is accomplished, the in-process that the drive conveyer belt 27 moved up, L shape mounting bracket 14 and trapezoidal slider 29 interact, if the effect end on inclined plane under L shape mounting bracket 14 and trapezoidal slider 29 has the edges and corners, can produce the cutting force to inclined plane under the trapezoidal slider 29, produce the relative slip and realize the degree of difficulty that trapezoidal slider 29 moved up when can improving the interact, round corner face has been seted up through the effect end on inclined plane under last turning and the trapezoidal slider 29 with L shape mounting bracket 14 front end, make L shape mounting bracket 14 more slick and sly with trapezoidal slider 29 interacting face, it is easier that make L shape mounting bracket 14 promote trapezoidal slider 29 to rise, the degree of difficulty of interaction has been reduced.

As a further scheme of the invention, the rotary driving device comprises a mounting frame, a second motor 30, a driving turntable 31, a follow-up turntable 32 and a belt 33, the mounting frame is fixedly connected at the edge of the bottom of the cutting table 1 corresponding to the mounting groove, the second motor 30 is fixedly connected to the inner wall of the mounting frame, the output end of the second motor 30 is fixedly connected with the driving turntable 31, the follow-up turntable 32 is fixedly connected to the surface of the connecting shaft 2, and the belt 33 is jointly connected to the surfaces of the follow-up turntable 32 and the driving turntable 31 in a transmission manner; during operation, when needing to cut panel, start second motor 30 through the controller of peripheral hardware, second motor 30 drives drive carousel 31 and rotates, and drive carousel 31 passes through belt 33 transmission follow-up carousel 32, and follow-up carousel 32 drives connecting axle 2 in step and rotates, and connecting axle 2 drives cutting disc 3 in step and rotates, has played the effect that provides cutting power to cutting disc 3.

As a further scheme of the invention, the front and back driving mechanism comprises a third motor 34, the third motor 34 is fixedly connected to the back of the cutting table 1, the output end of the third motor 34 is fixedly connected with a threaded rod 35, the end of the threaded rod 35 penetrates through the transferring table 7, and the surface of the threaded rod is in threaded connection with the transferring table 7; during operation, through two third motors 34 of peripheral hardware controller synchronous start, third motor 34 drive threaded rod 35 is rotatory, and the external screw thread drive of threaded rod 35 moves transfer platform 7, and transfer platform 7 drives the holder removal in step to drive bottom panel and remove to the cutting station, realize driving bottom panel and remove and realize the effect of cutting.

The working principle is as follows: synchronously starting four second electric cylinders 11 through an external controller, pulling a clamping plate 12 by the second electric cylinders 11, pulling a transfer clamping plate 16 by the clamping plate 12 through the sliding connection of a driving slide block 13 and a shifting chute 18 to vacate a stacking space, stacking plates on the inner walls of two transfer tables 7, enabling the plates to be positioned between the two clamping plates 12 and between the two transfer clamping plates 16 simultaneously, S2, then synchronously starting the second electric cylinders 11 through the external controller, pushing the clamping plates 12 by the second electric cylinders 11 to clamp the stacked wood, driving the driving slide block 13 to cancel the driving of the transfer clamping plate 16 by the synchronous clamping plates 12, and then pushing the transfer clamping plate 16 to limit the bottom plate and to be in contact with the side surface of the bottom plate under the support of a first support spring 17; s3, synchronously starting a first electric cylinder 9 through an external controller, pulling a moving plate 10 by the first electric cylinder 9, and lifting stacked plates above the bottom plate through linkage of a second electric cylinder 11 and a clamping plate 12; s4, driving the transfer table 7 to move through the front and rear driving mechanism, transferring the bottom plate limited by the transfer clamping plate 16 to the position of the cutting disc 3 for cutting, wherein in the transferring process, the supporting rollers 23 can be in mutual contact with the inner sides of the extrusion sliding rails 24 under the guiding-in arc-shaped draught at the end parts of the extrusion sliding rails 24 to generate mutual extrusion, so that the fixing plate 21 extrudes the second supporting springs 22, the second supporting springs 22 synchronously act on the connecting plate 19, the connecting plate 19 extrudes the transfer clamping plate 16 under the linkage of the connecting rod 15, and the upper pressing roller 5 and the lower pressing roller 6 can roll and support the bottom plate before transferring the bottom plate to the cutting disc 3, so that the cutting stability is kept until the cutting is finished, and after the supporting rollers 23 are separated from the extrusion sliding rails 24, the clamping support is cancelled, and the bottom plate is cut; s5, taking down the cut bottom plates, resetting the transfer table 7 through a front-back driving mechanism, after resetting, synchronously starting the first electric cylinder 9 through an external controller, pushing the moving plate 10 by the first electric cylinder 9, resetting the stacked plates through the linkage of the second electric cylinder 11 and the clamping plate 12, restoring the sliding connection of the driving slider 13 and the shifting chute 18, pulling the clamping plate 12 through the second electric cylinder 11, synchronously driving the transfer clamping plate 16 to move, freeing the space, simultaneously dropping the stacked plates onto the inner walls of the two transfer tables 7, sequentially repeating the steps S1, S2, S3, S4 and S5, completing the cutting of the bottom plates again, completing the automatic cutting of the stacked plates, needing no worker to feed each plate one by one, needing no manual support of the worker to keep stable in the cutting process, realizing the effect of automatically cutting the stacked plates one by the worker, the working efficiency of cutting to the panel has been improved.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A quick cutting process for wood boards comprises a cutting table (1), and is characterized in that: the cutting table is characterized in that a mounting groove is formed in the top of the cutting table (1), a connecting shaft (2) is rotatably connected to the inner wall of the mounting groove, a cutting disc (3) is fixedly connected to the surface of the connecting shaft (2), a rotary driving device of the connecting shaft (2) is fixedly connected to the bottom of the cutting table (1), a pressing frame (4) is fixedly connected to the two sides of the cutting table (1) together, two rows of upper pinch rollers (5) are rotatably connected to the top of the inner wall of the pressing frame (4) corresponding to the two sides of the mounting groove, lower pinch rollers (6) are rotatably connected to the top of the cutting table (1) corresponding to the positions of the upper pinch rollers (5), a storage mechanism is connected to the rear side of the top of the cutting table (1), two transfer tables (7) are slidably connected to the two sides of the top of the cutting table (1), the two transfer tables (7) are symmetrically arranged, the top of the transfer table (7) is fixedly connected with clamping pieces corresponding to the positions of the material storage mechanisms, and the two clamping pieces are symmetrically arranged;

the material storage mechanism comprises two support frames (8), a first electric cylinder (9) is fixedly connected to the front end of each support frame (8), a moving plate (10) is fixedly connected to the bottom end of an output rod of each first electric cylinder (9), two slide rods are fixedly connected to the inner side of each support frame (8), the moving plate (10) is connected to the surfaces of the two slide rods in a sliding mode, two second electric cylinders (11) are fixedly connected to the side face of the moving plate (10), output rods of the two second electric cylinders (11) penetrate through the moving plate (10) and are fixedly connected with a clamping plate (12) together, and a driving sliding block (13) is fixedly connected to the bottom of the clamping plate (12);

the clamping part comprises an L-shaped mounting rack (14), the L-shaped mounting rack (14) is fixedly connected to the side face of the transfer table (7), the inner side face of the L-shaped mounting rack (14) is connected with two connecting rods (15) in a sliding mode, the inner side end portions of the two connecting rods (15) are fixedly connected with a transfer splint (16) together, a first supporting spring (17) is sleeved on the surface of each connecting rod (15), the two ends of each first supporting spring (17) are fixedly connected to the side face of the transfer splint (16) and the inner side face of the L-shaped mounting rack (14) respectively, a shifting chute (18) larger than the transverse space of a driving slider (13) is formed in the top of the transfer splint (16), the driving slider (13) is connected to the inner wall of the shifting chute (18) in a sliding mode, and one end, far away from the transfer splint (16), of the two connecting rods (15), the side surface of the connecting plate (19) is connected with two supporting rods (20) in a sliding manner, the side surfaces of the two supporting rods (20) are fixedly connected with a fixing plate (21) together, the inner side surface of the fixing plate (21) is fixedly connected with a second supporting spring (22), one end, far away from the fixing plate (21), of the second supporting spring (22) is fixedly connected to the outer side surface of the connecting plate (19), the outer side surface of the fixing plate (21) is fixedly connected with two supporting rollers (23) which are arranged in parallel, two sides of the cutting table (1) are positioned in the pressing frame (4) and are fixedly connected with extrusion slide rails (24) of the extrusion supporting wheels, and the two ends of each extrusion slide rail (24) are provided with an introduction arc;

the cutting process comprises the following steps:

s1, synchronously starting four second electric cylinders (11) through an external controller, pulling a clamping plate (12) by the second electric cylinders (11), pulling a transfer clamping plate (16) by the second clamping plate through the sliding connection of a driving sliding block (13) and a shifting sliding groove (18), vacating a stacking space, stacking plates on the inner walls of two transfer tables (7), and simultaneously positioning the plates between the two clamping plates (12) and between the two transfer clamping plates (16);

s2, synchronously starting a second electric cylinder (11) through an external controller, enabling the second electric cylinder (11) to push a clamping plate (12) to clamp the stacked wood, enabling the synchronous clamping plate (12) to drive a driving sliding block (13) to cancel driving of a transfer clamping plate (16), and then pushing the transfer clamping plate (16) to limit the bottom-layer plate and enabling the transfer clamping plate to be in contact with the side face of the bottom-layer plate under the support of a first supporting spring (17);

s3, synchronously starting a first electric cylinder (9) through an external controller, pulling a moving plate (10) by the first electric cylinder (9), and lifting stacked plates above the bottom plate through linkage of a second electric cylinder (11) and a clamping plate (12);

s4, driving the transfer table (7) to move through the front and rear driving mechanism, transferring the bottom plate limited by the transfer splint (16) to the position of the cutting disc (3) for cutting, wherein in the transferring process, the supporting rollers (23) can be in mutual contact with the inner side of the extrusion slide rail (24) under the guiding-in arc surface of the end part of the extrusion slide rail (24) to generate mutual extrusion, so that the fixing plate (21) extrudes the second supporting spring (22), the second supporting spring (22) acts on the connecting plate (19) synchronously, the connecting plate (19) extrudes the transfer splint (16) under the linkage of the connecting rod (15), so that the transfer splint (16) clamps and fixes the bottom plate, and before transferring the bottom plate to the cutting disc (3), the upper pressing wheel (5) and the lower pressing wheel (6) can roll and support the bottom plate to keep the cutting stability until the cutting is completed, after the supporting roller (23) is separated from the extrusion sliding rail (24), clamping is cancelled, and the cutting of the bottom plate is finished;

s5, the cut bottom layer plate is taken down, the moving table (7) is reset through a front driving mechanism and a rear driving mechanism, after the reset, the first electric cylinder (9) is started synchronously through an external controller, the first electric cylinder (9) pushes the moving plate (10), the stacked plate is reset under the linkage of the second electric cylinder (11) and the clamping plate (12), the sliding connection between the driving sliding block (13) and the poking sliding groove (18) is recovered, the clamping plate (12) is pulled through the second electric cylinder (11), the moving clamping plate (16) is driven to move synchronously, the stacked plate falls onto the inner walls of the two moving tables (7) while the space is vacated, the steps of S1, S2, S3, S4 and S5 are repeated in sequence, the cutting of the bottom layer plate is completed again, and the automatic cutting of the stacked plate one by one is completed.

2. The wood board rapid cutting process according to claim 1, wherein: the cutting table is characterized in that L-shaped pushing sliding blocks (25) are fixedly connected to two sides of the front end of the top of the cutting table (1), inclined planes are formed in the end portions of the L-shaped pushing sliding blocks (25), and the end portions of the L-shaped pushing sliding blocks (25) are arranged on the back-and-forth moving track of the poking sliding groove (18).

3. The wood board rapid cutting process according to claim 2, wherein: the two sides of the front end of the bottom of the cutting table (1) are fixedly connected with two fixed rods, the bottoms of the two fixed rods at the same side are fixedly connected with a placement plate, the four fixed rods are connected with a U-shaped mounting frame (26) in a sliding mode on the surface, the front end of the top of the cutting table (1) is provided with a connecting groove, the U-shaped mounting frame (26) is connected onto the inner wall of the connecting groove in a sliding mode, the inner wall of the U-shaped mounting frame (26) is connected with two supporting rolls which are arranged in parallel in a rotating mode through supporting shafts, the surfaces of the two supporting rolls are connected with a conveying belt (27) in a transmission mode, the supporting shaft at the end of one supporting roll penetrates through the U-shaped mounting frame (26) and is connected with a first motor, the two sides of the U-shaped mounting frame (26) are fixedly connected with, the trapezoidal sliding block (29) is arranged on the moving track of the L-shaped mounting frame (14).

4. The wood board rapid cutting process according to claim 3, wherein: the upper corner of the front end of the L-shaped mounting frame (14) and the action end of the lower inclined plane of the trapezoidal sliding block (29) are provided with round corner surfaces, and the surfaces of the round corner surfaces are smooth.

5. The wood board rapid cutting process according to claim 1, wherein: the rotary driving device comprises a mounting frame, a second motor (30), a driving turntable (31), a follow-up turntable (32) and a belt (33), wherein the mounting frame is fixedly connected to the bottom of the cutting table (1) corresponding to the edge of the mounting groove, the inner wall of the mounting frame is fixedly connected with the second motor (30), the output end of the second motor (30) is fixedly connected with the driving turntable (31), the follow-up turntable (32) is fixedly connected to the surface of the connecting shaft (2), and the follow-up turntable (32) and the driving turntable (31) are connected with the belt (33) in a transmission mode jointly on the surface.

6. The wood board rapid cutting process according to claim 1, wherein: the front and back driving mechanism comprises a third motor (34), the third motor (34) is fixedly connected to the back of the cutting table (1), a threaded rod (35) is fixedly connected to the output end of the third motor (34), and the end of the threaded rod (35) penetrates through the transfer table (7) and the surface of the threaded rod is in threaded connection with the transfer table (7).