CN104057541B - A kind of diced system of sheet material - Google Patents

Abstract

A kind of diced system of sheet material, described diced system comprises the first driving arrangement, cutter sweep and centralized control unit, described centralized control unit provides longitudinal cutting position according to plate cutting size, described first driving arrangement is according to the control signal of described centralized control unit, drive described cutter sweep to laterally move to described longitudinal cutting position, and drive described cutter sweep to vertically move, complete the longitudinal direction cutting of sheet material; Described diced system also comprises the second driving arrangement and longitudinally presses beam, and described second driving arrangement is used for the control signal according to described centralized control unit, drives described longitudinally pressure beam to laterally move to the both sides of described longitudinal cutting position, and compresses sheet material.The sheet material that the diced system of the embodiment of the present invention is applicable to repeatedly longitudinally cutting and repeatedly transverse cuts is fixed, solve relevant technologies and maybe fixture or clamping device cannot be set in the vertical at all, the easy sideslip when longitudinal cutting, the defect that the deviation of size is too large.

Description

A kind of diced system of sheet material

Technical field

The application relates to a kind of system for cutting, and particularly relates to a kind of diced system of sheet material.

Background technology

In relevant technologies, in order to cuts sheet material (as plasterboard) is become multi-sheets, sheet cutting machine arranges many gang saws sheet sometimes on sawing machine, arranges certain distance between saw blade, sheet material is walked and is passed through many gang saws sheet on sawing machine, thus realizes the cutting to sheet material.But it is all by manual adjustment that the size between saw blade regulates, namely in time adjusting saw board size, the screw of the motor lower margin fixed head with saw blade must be come loose, then the size hammer required according to saw plate gently pounds motor lower margin fixed head, until suitable dimension, tighten fixed screw, often this work is minimum will spend the time of half class to complete, regulation time is very long, and when sawing machine uses after a period of time continuously, due to fixing instability or vibrations, loosening appears in the screw of motor lower margin fixed head, size between saw blade changes, when cutting process, the size of sheet material will depart from, cause occurring a lot of underproof sheet material.

In addition, when sheet material needs carry out repeatedly transverse cuts and repeatedly longitudinally cut, sawing machine maybe cannot not arrange fixing or clamping device in the vertical at all, the easy sideslip when longitudinal cutting, and the deviation of size is too large, and qualification rate is low, and input and output rate is lower.

Summary of the invention

This application provides a kind of diced system of sheet material, described diced system comprises the first driving arrangement, cutter sweep and centralized control unit, described centralized control unit provides longitudinal cutting position according to plate cutting size, described first driving arrangement is according to the control signal of described centralized control unit, drive described cutter sweep to laterally move to described longitudinal cutting position, and drive described cutter sweep to vertically move, complete the longitudinal direction cutting of sheet material;

Described diced system also comprises the second driving arrangement and longitudinally presses beam, described second driving arrangement is used for the control signal according to described centralized control unit, described longitudinally pressure beam is driven to laterally move to the both sides of described longitudinal cutting position, and when the longitudinal cuts sheet material of described cutter sweep, make described longitudinally pressure beam longitudinally compress sheet material.

Preferably, described cutter sweep is rotatable, described centralized control unit provides transverse cut positions according to plate cutting size, described first driving arrangement is also for the control signal according to described centralized control unit, described cutter sweep is driven to longitudinally move to described transverse cut positions, and drive described cutter sweep transverse shifting, complete the transverse cuts of sheet material;

Described diced system also comprises the 3rd driving arrangement and horizontal clamping plate, and described 3rd driving arrangement is used for the control signal according to described centralized control unit, drives described horizontal clamping plate when described cutter sweep transverse cuts sheet material, clamping sheet material.

Preferably, described horizontal clamping plate position-adjustable in the vertical.

Preferably, described longitudinally pressure beam is two pressure beams be parallel to each other, and described cutter sweep cuts sheet material between two described pressure beams.

Preferably, described diced system also comprises crossbeam and longitudinal rail, and described cutter sweep is arranged on described crossbeam; Described first driving arrangement, comprises lateral driver device and longitudinal driving device; Described lateral driver device is for driving the transverse shifting of described cutter sweep on described crossbeam, and described longitudinal driving device for driving described crossbeam vertically moving on described longitudinal rail, thus drives described cutter sweep to vertically move.

Preferably, described lateral driver device comprises the first servomotor, the first transmission mechanism and coaster, and described coaster to be arranged on described crossbeam and laterally can to slide along described crossbeam, and described cutter sweep is arranged on the bottom of described coaster; Described first servomotor drives described first transmission mechanism according to the control signal of described centralized control unit, to promote the length direction transverse shifting of described coaster along described crossbeam, thus realizes the transverse shifting of described cutter sweep.

Preferably, described first transmission mechanism comprises one group of intermeshing first gear and the first gear bar, described first gear bar is fixed on the inside of described crossbeam along the length direction of described crossbeam, above described crossbeam, the length direction of described crossbeam is provided with strip opening, described first servomotor is fixed on described coaster, and the output of described first servomotor is connected with described first gear drive through described strip opening.

Preferably, on described crossbeam and/or both sides be respectively arranged with laterally steering chute, described coaster is provided with the slide block matched with described laterally steering chute.

Preferably, described longitudinal driving device comprises the second servomotor and the second transmission mechanism, described second servomotor drives described second transmission mechanism according to the control signal of described centralized control unit, to promote the lengthwise movement on described longitudinal rail of described crossbeam, thus described cutter sweep is driven to vertically move.

Preferably, described second transmission mechanism comprises the first timing belt pulley and synchronous belt, the first power transmission shaft, two the second gears and two the second gear bars,

Described second servomotor, the first timing belt pulley and synchronous belt, the first power transmission shaft and the second gear are arranged on crossbeam, two described second gear bars are separately positioned on the two ends of described crossbeam and parallel with described longitudinal rail, described second gear is meshed with the second gear bar

Described second servomotor drives described crossbeam to vertically move by described first timing belt pulley and synchronous belt, the first power transmission shaft, the second gear and the second gear bar.

Preferably, described second driving arrangement comprises lengthwise rows walking apparatus and longitudinally presses lifting device of girder, described lengthwise rows walking apparatus comprises the 3rd servomotor, the 3rd transmission mechanism, and described 3rd servomotor is according to the control signal of described centralized control unit and by described 3rd transmission mechanism driving described longitudinally pressure beam transverse shifting; Described longitudinally pressure lifting device of girder comprises the first cylinder, and described first cylinder, under described centralized control unit controls, drives the rising of longitudinally pressure beam and presses down, thus the longitudinal direction realizing sheet material is fixed.

Preferably, described horizontal walking device also comprises support, and described 3rd transmission mechanism comprises the second timing belt pulley and synchronous belt, second driving shaft, two the 3rd gears and two the 3rd gears article, and described 3rd gear is meshed with described 3rd gear article;

Wherein, described two the 3rd gears article are laterally fixed on the both sides of described workbench respectively, and the length of described 3rd gear article is greater than the lateral length summation of described workbench and described horizontal walking device;

Described 3rd servomotor, second driving shaft and two the 3rd gears are arranged on the bracket, and described 3rd servomotor drives described horizontal walking device transverse shifting by described second timing belt pulley and synchronous belt, second driving shaft, two the 3rd gears and two the 3rd gears article.

Preferably, described horizontal walking device also comprises at least two live-rollers and two walking tracks, described walking track is laterally fixed on the both sides of described workbench, described live-roller is arranged on the bracket, described live-roller matches with described walking track, described live-roller can along walking track transverse shifting, and described live-roller and walking track carry the weight of described horizontal walking device.

Preferably, described 3rd driving arrangement comprises horizontal clamping plate turning device and horizontal clamping plate lowering or hoisting gear, described horizontal clamping plate turning device comprises the second cylinder, the 4th transmission mechanism, described second cylinder is under the control of described centralized control unit, the upset of described horizontal clamping plate is driven by driving described 4th transmission mechanism, described horizontal clamping plate lowering or hoisting gear comprises the 3rd cylinder, described 3rd cylinder is under the control of described centralized control unit, drive the rising of described horizontal clamping plate and press down, thus the transverse direction realizing sheet material is fixed.

Preferably, described diced system also comprises the cutting lowering or hoisting gear for being elevated described cutter sweep, and described cutting lowering or hoisting gear is arranged on described coaster, and described cutter sweep is arranged on the bottom of described cutting lowering or hoisting gear.

Preferably, described diced system also comprises adjustable location stop device, and described adjustable location stop device comprises the location stop block that can rise and fall, and described location stop block is as the guiding ruler stacking sheet material.

Preferably, described diced system also comprises sensor, and described sensor, for workbench having the signal of sheet material to send described centralized control unit to by sensing, provides cutting position to make described centralized control unit according to received induced signal.

Preferably, described diced system also comprises dust arrester, and described dust arrester comprises suction opeing, and described suction opeing is arranged on described cutter sweep;

When carrying out vertical and horizontal cutting to described sheet material, the dust produced in cutting process or chip are taken away by described dust arrester.

Compared with relevant technologies, the beneficial effect of the embodiment of the present invention is as follows:

(1) diced system of the sheet material of the embodiment of the present invention, longitudinal cutting position and transverse cut positions is provided according to plate cutting size by centralized control unit, first driving arrangement drives cutter sweep to laterally move to longitudinal cutting position, and drive cutter sweep to vertically move, but also use the second driving arrangement and longitudinally pressure beam to carry out Kinematic Positioning formula to sheet material longitudinally fixing, thus achieve the mobile cutting method of cutter sweep; After completing once cutting, according to the size of sheet material, plate cutting system adjusts the position of cutter sweep cuts sheet material next time automatically, after repeatedly longitudinally cutting, many gang saws sheet cutting effect can be reached, simultaneously according to the difference providing cutting position, the sheet material of different size can be cut, avoid size between many gang saws sheet and easily change and be not easy the problem carrying out adjusting.

In addition, in longitudinal cutting process, second driving arrangement can according to the control signal of centralized control unit, drive longitudinally pressure beam transverse shifting, and can accurately move near cutting position, and compress sheet material, not only can according to cutting position by arranging like this, Kinematic Positioning is carried out to longitudinally pressing longitudinal fixed position of beam, the longitudinal direction achieving sheet material is fixed, and when carrying out transverse cuts, second driving arrangement can drive longitudinally pressure beam to shift out the top of workbench, do not affect transverse cuts, be applicable to the fixing of the sheet material simultaneously needing longitudinally cutting and transverse cuts, especially sheet material fixing simultaneously needing repeatedly longitudinally cutting and repeatedly transverse cuts is suitable for, thus solve existing sheet material in the art and need to carry out repeatedly in the process of longitudinally cutting and repeatedly transverse cuts, basic maybe cannot setting is fixed or clamping device in the vertical, the easy sideslip when longitudinally cutting, the defect that the deviation of size is too large.

(2) diced system of the sheet material of the embodiment of the present invention, cutter sweep is rotatable; Diced system also comprises the 3rd driving arrangement and horizontal clamping plate, 3rd driving arrangement is used for the control signal according to centralized control unit, drive horizontal clamping plate to compress sheet material, the first driving arrangement is used for the control signal according to centralized control unit, drives cutter sweep transverse shifting, complete transverse cuts, by such set-up mode, cutter sweep can rotate to transverse direction, carries out transverse cuts, repeatedly after transverse cuts, the effect of many gang saws sheet can be reached.

(3) diced system of the sheet material of the embodiment of the present invention, by the position-adjustable in the vertical of horizontal clamping plate, so just can according to the dimensional requirement of the size of sheet material for sawing and final products, can freely adjust horizontal splint position, effectively push down, clamp sheet material for sawing, solve existing horizontal pressing plate or clip in the art to maintain static, and then cause effectively pushing down or clamping sheet material, when cutting easily there is the problem offset in the size of final products.

(4) diced system of the sheet material of the embodiment of the present invention, control signal is sent according to centralized control unit by the first servomotor, the second servomotor, drive cutter sweep lateral or longitudinal movement, and very accurately can control the size of cutter sweep lateral or longitudinal movement, therefore cutter sweep can move to cutting position accurately, and transverse direction or longitudinally cutting are carried out to sheet material, the accuracy of cutting can reach ± 0.1mm.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the diced system of the sheet material of the embodiment of the present invention;

Fig. 2 is the schematic diagram of the lateral driver device of the embodiment of the present invention;

Fig. 3 is the schematic diagram of the longitudinal driving device of the embodiment of the present invention;

Fig. 4 is the horizontal walking device schematic diagram of the embodiment of the present invention;

Reference numeral: 1-workbench, 2-machine anchor, 3-crossbeam, 4-coaster, 5-first servomotor, 6-first gear, 7-first gear bar, 8-laterally steering chute, 9-second servomotor, 10-first timing belt pulley and synchronous belt, 11-first power transmission shaft, 12-second gear, 13-second gear bar, 14-longitudinally guiding chute, 15-longitudinally presses beam, 16-cross bar, 17-the 3rd servomotor, 18-second timing belt pulley and synchronous belt, 19-second driving shaft, 20-the 3rd gear, 21-the 3rd gear article, 22-live-roller, 23-the 3rd power transmission shaft, the horizontal clamping plate of 24-, 25-locates stop block.

Detailed description of the invention

Hereinafter will by reference to the accompanying drawings the embodiment of the application be described in detail.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can be combined mutually.

The diced system of the sheet material of the application is described below in conjunction with accompanying drawing, and as shown in Figure 1, the diced system of sheet material comprises: workbench 1, first driving arrangement, the second driving arrangement, cutter sweep, longitudinally pressure beam 15 and centralized control unit; Centralized control unit provides cutting position according to plate cutting size, cutting position comprises longitudinal cutting position and transverse cut positions, first driving arrangement is according to the control signal of centralized control unit, cutter sweep is driven to laterally move to longitudinal cutting position, and drive cutter sweep to vertically move, complete the longitudinal direction cutting of sheet material;

Diced system can also comprise the second driving arrangement and longitudinally press beam 15, second driving arrangement is used for the control signal according to centralized control unit, longitudinally pressure beam 15 is driven to laterally move to longitudinal fixed position, and when the longitudinal cuts sheet material of cutter sweep, longitudinally pressure beam is made longitudinally to compress sheet material, wherein, longitudinal fixed position is positioned at the both sides of longitudinal cutting position.

First driving arrangement, also for the control signal according to centralized control unit, drives cutter sweep to longitudinally move to transverse cut positions, and drives cutter sweep transverse shifting, complete the transverse cuts of sheet material; Diced system also comprises the control signal that the 3rd driving arrangement and horizontal clamping plate the 24, three driving arrangement are used for according to centralized control unit, drives horizontal clamping plate 24 when cutter sweep transverse cuts sheet material, clamping sheet material.Diced system can also comprise crossbeam 3 and two machine anchors 2 longitudinally arranged of a horizontally set, namely diced system adopts planer type structure, the two ends of crossbeam 3 are scaffolding on the machine anchor 2 of both sides, crossbeam 3 can move above workbench, crossbeam 3 is rectangular case structure, can arrange some drive disk assemblies or other parts in crossbeam 3 inside like this.

First driving arrangement can also comprise lateral driver device and longitudinal driving device.As shown in Figure 2, lateral driver device can comprise the first servomotor 5, first transmission mechanism and coaster 4, cutter sweep is arranged on the bottom of coaster 4, first transmission mechanism comprises first group of intermeshing first gear 6 and first gear bar 7, first gear bar 7 is arranged at the box house of crossbeam 3 along the length direction of crossbeam, above crossbeam 3, the length direction of crossbeam 3 is provided with strip opening, first servomotor 5 is fixed on coaster 4, the output of the first servomotor 5 is in transmission connection through strip opening and the first gear 6, or the output of the first servomotor 5 is in the outside of crossbeam 3, output and first gear 6 of the first servomotor 5 are provided with driving member, driving member is through strip opening, thus realize the transverse shifting of coaster 4, on crossbeam 3 and/or both sides can also be respectively arranged with laterally steering chute 8, coaster 4 is provided with the slide block matched with laterally steering chute 8, or on crossbeam 3 and/or both sides can also be respectively arranged with laterally steering slide rail, coaster 4 is provided with the pulley matched with laterally steering slide rail, by such setting, coaster 4 can, along crossbeam 3 transverse movement, can make coaster 4 can not produce skew or wave in transverse shifting process simultaneously.When cutter sweep needs transverse shifting, the control signal passed over according to centralized control unit or instruction, first servomotor 5 drives coaster 4 transverse shifting on crossbeam 3 by the first gear 6 and the first gear bar 7, and very accurately can control the transverse shifting size of coaster 4, because cutter sweep is arranged on the bottom of coaster 4, so just indirectly can drive cutter sweep transverse shifting and transverse shifting size, the accuracy to size of transverse cuts can reach ± 0.1mm.

As shown in Figure 3, longitudinal driving device can comprise the second servomotor 9, the longitudinal rail that second transmission mechanism is parallel with two, second transmission mechanism comprises the first timing belt pulley and synchronous belt 10, first power transmission shaft 11, two the second gears 12 and two the second gear bars 13, wherein, second servomotor 9 is arranged at one end of crossbeam 3, first power transmission shaft 11 is horizontally through and is fixed on crossbeam 3 inside, two the second gears 12 are separately positioned on the two ends of the first power transmission shaft 11, longitudinal rail and the second gear bar is all parallel longitudinal is arranged on the machine anchor 2 of the lathe left and right sides, second gear bar 13 is meshed with the second gear 12, longitudinal rail can be two the longitudinally guiding chutes 14 longitudinally arranged, crossbeam 3 is correspondingly provided with the slide block matched with longitudinally guiding chute 14, longitudinal rail can also be two the longitudinally guiding slide rails longitudinally arranged, then crossbeam 3 is correspondingly provided with the pulley matched with longitudinally guiding slide rail.When cutter sweep needs to vertically move, the control signal passed over according to centralized control unit or instruction, second servomotor 9 drives the first power transmission shaft 11 to rotate by the first timing belt pulley and synchronous belt 10, then the first power transmission shaft 11 drives the second gear 12 to rotate on the second gear bar 13 again, thus drive the lengthwise movement on longitudinal rail of whole crossbeam 3, and very accurately can control the size that crossbeam 3 vertically moves, because cutter sweep is arranged on the bottom of coaster 4, coaster 4 is arranged on crossbeam 3, so just can by driving the size vertically moving and vertically move of crossbeam 3, thus realize the size vertically moving and vertically move of cutter sweep, longitudinally the accuracy to size of cutting can reach ± 0.1mm.

Second driving arrangement can also comprise horizontal walking device and longitudinally press lifting device of girder.As shown in Figure 4, horizontal walking device comprises the 3rd servomotor 17 and the 3rd transmission mechanism, and the 3rd transmission mechanism comprises the second timing belt pulley and synchronous belt 18, second driving shaft 19, two the 3rd gears 20 and two the 3rd gears articles 21; Wherein, the 3rd gear articles 21 is respectively arranged with in the both lateral sides of workbench 1, the length of the 3rd gear articles 21 is greater than the lateral length summation of workbench 1 and horizontal walking device, workbench 1 can be longer than on the right side of workbench 1, its unnecessary lateral length is greater than the lateral length of horizontal walking device, horizontal walking device can be in the right side of workbench 1, is the reset condition of horizontal walking device;

Horizontal walking device can also comprise support 16, the 3rd servomotor 17, second timing belt pulley and synchronous belt 18, and second driving shaft 19, the 3rd gear 20 can on fixed supports 16.Support 16 can also comprise two cross bars, two cross bars are arranged on above the outside of the 3rd gear articles 21, second driving shaft 19 is longitudinally erected on two cross bars 16, the height of second driving shaft 19 is higher than workbench 1, in order to promote the height of second driving shaft 19 as far as possible, can also arrange two montants respectively on two cross bars, second driving shaft 19 is erected on two montants, can raise second driving shaft like this; One end of second driving shaft is connected with the output of the 3rd servomotor 17, the two ends of second driving shaft 19 are provided with the second timing belt pulley and synchronous belt 18, second timing belt pulley and synchronous belt 18 can drive the 3rd gear 20 to rotate, 3rd gear articles 21 is meshed with the 3rd gear 20,3rd gear article is arranged on two cross bars, indirectly can promote whole horizontal walking device and move when such 3rd gear 20 rotates.3rd gear 20 in the right side of second driving shaft 19 or left side, also can be arranged at the below of second driving shaft 19.Two cross bars are also provided with multiple live-roller 22 for supporting horizontal walking device, such as four live-rollers 22, and below two the 3rd gears articles 21, be provided with the walking track matched with live-roller 22, walking track and the 3rd gear articles 21 parallels, such live-roller 22 not only can carry the weight of horizontal walking device, can also guarantee that horizontal walking device moves reposefully.When horizontal walking device needs laterally to walk, according to control signal or the instruction of centralized control unit, 3rd servomotor 17 drives second driving shaft 19 to rotate, then second driving shaft 19 drives the 3rd gear 20 to rotate by the second timing belt pulley and synchronous belt 18, when gear rotates on the 3rd gear articles 21, longitudinally pressure beam 15 transverse shifting can be driven, and very accurately can control the size of longitudinally pressure beam 15 transverse shifting.

Longitudinally pressure lifting device of girder can comprise the first cylinder, two cross bars can arrange two the second cylinders, and the output of two the first cylinder pistons presses the two ends of beam 15 to be connected respectively with longitudinally; Longitudinally pressure lifting device of girder also comprises the first magnetic valve, first magnetic valve be used for can control cylinder air inlet with give vent to anger, to reach the object of cylinder activity, when longitudinal pressure beam 15 needs rising or when pressing down, first magnetic valve is according to the control signal of centralized control unit or instruction, the motion of control cylinder piston, thus drive the rising of longitudinally pressure beam 15 and press down.

3rd driving arrangement can also comprise horizontal clamping plate turning device and horizontal clamping plate lowering or hoisting gear, horizontal clamping plate turning device comprises the second cylinder and the 4th transmission mechanism, 4th transmission mechanism comprises the 4th gear article, the 4th gear, the 3rd power transmission shaft 23, second cylinder clutch end is connected with the 4th gear article, be meshed with the 4th gear of power transmission shaft, horizontal clamping plate 24 are fixed on the 3rd transmission drive shaft.When horizontal clamping plate 24 need upset, according to control signal or the instruction of centralized control unit, second magnetic valve can control the motion of the second cylinder piston, and then rotated by the 4th gear article and the 4th gear driven the 3rd power transmission shaft 23, the 3rd power transmission shaft 23 drives horizontal clamping plate 24 to complete upset.

Horizontal clamping plate lowering or hoisting gear can comprise the 3rd cylinder, the output of the 3rd cylinder piston is connected with horizontal clamping plate 24, horizontal clamping plate lowering or hoisting gear also comprises the 3rd magnetic valve, 3rd magnetic valve is for can controlling the air inlet of the 3rd cylinder and giving vent to anger, to reach the object of cylinder piston motion, when the rising of horizontal clamping plate 24 needs or when pressing down, 3rd magnetic valve is according to the control signal of centralized control unit or instruction, control the motion of the 3rd cylinder piston, thus drive the rising of horizontal clamping plate 24 and press down, thus realize gripping sheet material (as plasterboard).Horizontal clamping plate 24 position-adjustable in the vertical, can be fixed in any lengthwise position of sheet material (as plasterboard), do not affect the longitudinal direction cutting of plate plate (as plasterboard), in order to better fixed plate, plural horizontal clamping plate 24 can also be set, such as 4 horizontal clamping plate 24, when cutting, can guarantee that the position between two horizontal clamping plate 24 is cut like this.

Cutter sweep can comprise the electric saw with circular saw blade, electric saw is by being with backed bearing suspension in coaster 4 bottom, the saw blade of such electric saw can switch in vertical or horizontal both direction, thus uses an electric saw just can carry out horizontal and vertical cutting.In order to improve automatization level, can also some repackings be carried out to electric saw or improve, make it easy to Digital Control, the saw blade that such centralized control unit just can control cutter sweep rotates or stops, as by cuts sheet material (as plasterboard) or just when cuts sheet material (as plasterboard), saw blade keeps rotary state, and other period can keep halted state; The saw blade that centralized control unit can also control electric saw can switch in vertical or horizontal both direction.

Diced system can also comprise the cutting lowering or hoisting gear for being elevated cutter sweep, lowering or hoisting gear for being elevated cutter sweep comprises hydraulic pressure or air-hoist, hydraulic pressure or air-hoist are arranged on coaster 4, hydraulic pressure or air-hoist bottom are provided with link plate, link plate bottom is by the backed bearing suspension cutter sweep of band, like this when cutter sweep carries out cutting or having cut, cutting lowering or hoisting gear can drive link plate to be elevated, and then realizes the lifting of cutter sweep.When adopting air-hoist, cutting lowering or hoisting gear can be provided with the 4th magnetic valve and four-cylinder, and such 4th magnetic valve, according to the control signal of centralized control unit or instruction, controls the motion of four-cylinder piston, thus realizes the lifting of air-hoist.When adopting hydraulic elevator, corresponding equipment also can be adopted to realize the Digital Control of centralized control unit.

Diced system can also comprise sensor, sensor is used for by sensing, workbench 1 having the induced signal of sheet material (as plasterboard) to send centralized control unit to, only have when sensor sensing to workbench 1 having sheet material (as plasterboard), centralized control unit just starts to provide cutting position, and diced system starts the work of cutting; If sensor does not sense, and workbench 1 has sheet material (as plasterboard), centralized control unit can not start cutting process, can not provide cutting position.

In order to remove the chip and dust that cuts sheet material (as plasterboard) produces, reduce air pollution, diced system can also comprise dust arrester, dust arrester comprises suction opeing, suction opeing is arranged on cutter sweep, the chip produced in such cutting process and dust can be taken away by dust arrester immediately, and are discharged in the dustbin of specifying.

Diced system can also comprise adjustable location stop device, adjustable location blocking means comprises the location stop block 25 that can rise and fall, location stop block 25 is positioned at the edge of workbench 1, location stop block 25, as the guiding ruler piling up sheet material, very evenly can pile up multi-sheets (as plasterboard) like this.When piling up sheet material (as plasterboard), rise location stop block 25, it is as the guiding ruler stacking sheet material (as plasterboard), after piling up or before carrying out longitudinal direction cutting or transverse cuts, fall location stop block 25, do not affect the cutting of sheet material (as plasterboard).Location stop block 25 can manually control, also can Automated condtrol, as centralized control unit sends rising or the decline instruction of location stop block 25, controls rising or the decline of location stop block 25.

Centralized control unit comprises can Programmable Logic Controller, encoder, and Programmable Logic Controller controls the first servomotor 5, second servomotor the 9, three servomotor 17 by encoder; Programmable controller can control corresponding cylinder respectively by first, second magnetic valve, the 3rd magnetic valve and the 4th magnetic valve.

The diced system of the application can longitudinally cut, also can transverse cuts, and also first can carry out longitudinal cutting, then carry out transverse cuts, the concrete steps of diced system work are as follows:

First pile up sheet material (as plasterboard), on Programmable Logic Controller, then input the size of final products and need the quantity of sawing, Programmable Logic Controller can generate cutting process automatically.Start start button, sensor sensing to workbench 1 having sheet material (as plasterboard), there is various control signal or instruction in Programmable Logic Controller, after each device completes corresponding task, just realizes transverse cuts and/or longitudinally cutting.Such as:

Transverse cuts method: first manually rise or automatically rise position block by centralized control unit, sheet material (as plasterboard) is piled up at workbench 1, then manually adjust or automatically adjusted by centralized control unit the direction of the saw blade of cutter sweep, it is made to be in transverse direction, Programmable Logic Controller inputs the size of the transverse cuts of final products, and Programmable Logic Controller can generate cutting process automatically.After above-mentioned Job readiness work is ready, start start button, after sensor sensing to workbench 1 having sheet material (as plasterboard), Programmable Logic Controller sends location stop block 25 and declines, location stop block 25 drops to the height of workbench 1 place plane, or Manual descending locating piece, thus do not affect transverse cuts; Programmable Logic Controller sends first cutter sweep again and vertically moves instruction, and send the second servomotor 9 to by encoder, second servomotor 9 receives after first cutter sweep vertically move instruction, and drive crossbeam 3 to vertically move, cutter sweep longitudinally moves to first longitudinal cutting position; There is first horizontal clamping plate upset instruction in Programmable Logic Controller, the second magnetic valve controls the motion of the piston of the second cylinder, thus drives the upset of horizontal clamping plate 24 after receiving first horizontal clamping plate upset instruction again; Then can compile controller to send first horizontal clamping plate again and press down instruction, the 3rd magnetic valve receives after first horizontal clamping plate press down instruction, controls the motion of the piston of the 3rd cylinder, thus drives horizontal clamping plate 24 to compress sheet material (as plasterboard); Programmable Logic Controller sends the instruction of first cutter sweep transverse shifting again, and send the first servomotor 5 to by encoder, after first servomotor 5 receives the instruction of first cutter sweep transverse shifting, drive coaster 4 transverse shifting, cutter sweep starts cuts sheet material (as plasterboard); In cuts sheet material (as plasterboard) process, produce dust and chip, can be taken away by dust arrester; After this time having cut, Programmable Logic Controller has sent first cutter sweep transverse shifting return instruction, and coaster 4 and cutter sweep revert to the original position on crossbeam 3, and namely cutter sweep is positioned at the leftmost side of crossbeam 3, thus completes first time transverse cuts.

When carrying out second time transverse cuts, the clip position of horizontal clamping plate do not need to change time, horizontal clamping plate 24 can keep motionless; If cutting position overlaps with the position of horizontal clamping plate or the clip position of horizontal clamping plate needs to change, the position of horizontal clamping plate 24 can be adjusted before carrying out second time transverse cuts.After the preparation of second time transverse cuts carried out by horizontal clamping plate 24, Programmable Logic Controller sends second cutter sweep and vertically moves instruction, and send to after the second servomotor 9, second servomotor 9 receives instruction by encoder, drive cutter sweep to longitudinally move to second longitudinal cutting position; Then Programmable Logic Controller sends the instruction of second cutter sweep transverse shifting and second cutter sweep transverse shifting return instruction more successively, thus just completes second time transverse cuts.If task requires that horizontal sawing N saws, then carry out N transverse cuts according to the method described above, after whole sheet material (as plasterboard) has cut, Programmable Logic Controller finally sends various return instruction, crossbeam 3, cutter sweep, horizontal clamping plate 24 revert to initial state, and crossbeam 3 returns has forefront in sawing machine, and cutter sweep returns the leftmost side in crossbeam 3, horizontal clamping plate 24 are not in clamping sheet material (as plasterboard), and then workbench 1 is left in upset.

As disposable embodiment, when each transverse cuts, n-th cutter sweep transverse shifting return instruction and (n+1)th cutter sweep vertically move instruction and can send simultaneously, 1≤n < N, namely cutter sweep transverse shifting and vertically move and can carry out simultaneously.

As disposable embodiment, when each transverse cuts, the order that the horizontal clamping plate upset instruction that Programmable Logic Controller sends and cutter sweep vertically move instruction does not limit requirement, first can send horizontal clamping plate upset instruction, send cutter sweep again and vertically move instruction, can also send simultaneously horizontal clamping plate upset instruction and cutter sweep vertically move instruction.

Longitudinal cutting method: first manually rise or automatically rise position block by centralized control unit, sheet material (as plasterboard) is piled up at workbench 1, then manually adjust or automatically adjusted by centralized control unit the direction of the saw blade of cutter sweep, it is made to be in longitudinal direction, Programmable Logic Controller inputs the size of the longitudinal direction cutting of final products, and Programmable Logic Controller can generate cutting process automatically.Start start button, sensor sensing to workbench 1 has sheet material (as plasterboard), Programmable Logic Controller sends location stop block decline instruction, and location stop block 25 drops to the height of workbench 1 place plane, or Manual descending locating piece, thus do not affect transverse cuts; Programmable Logic Controller sends the instruction of first cutter sweep transverse shifting again, and send the first servomotor 5 to by encoder, after first servomotor 5 receives the instruction of first cutter sweep transverse shifting, drive coaster 4 transverse shifting, cutter sweep laterally moves to first longitudinal cutting position; There is first longitudinally pressure beam travel commands again in Programmable Logic Controller, and send the 3rd servomotor 17 to by encoder, and send the 3rd servomotor 17 to by encoder, after 3rd servomotor 17 receives first longitudinal pressure beam travel commands, drive two longitudinally pressure beam 15 transverse shiftings, longitudinally press beam 15 to be moved to first longitudinal fixed position (i.e. the both sides of longitudinal cutting position or longitudinal line of cut) respectively for two; Then Programmable Logic Controller sends first longitudinal pressure beam again and presses down instruction, first magnetic valve receives after first longitudinally pressure beam presses down instruction, control the motion of the first cylinder piston, thus drive longitudinally pressure beam 15 to compress sheet material (as plasterboard); Programmable Logic Controller sends first cutter sweep again and vertically moves instruction, and send the second servomotor 9 to by encoder, second servomotor 9 receives after first cutter sweep vertically move instruction, driving cutter sweep vertically moves, the longitudinal direction cutting of andante material (as plasterboard) of going forward side by side; The dust produced in cuts sheet material (as plasterboard) process and chip, can be taken away by dust arrester; After this time having cut, Programmable Logic Controller sends first cutter sweep and vertically moves return instruction, second servomotor 9 receives after first cutter sweep vertically move return instruction, reverse drive cutter sweep is to original position, namely cutter sweep is positioned at the leftmost side of crossbeam 3, thus completes first time longitudinally cutting;

Able to programmely send out the instruction of second cutter sweep transverse shifting again, first servomotor 5 drives cutter sweep to move next longitudinal cutting position, Programmable Logic Controller send again successively second longitudinally pressure beam travel commands, second longitudinally pressure beam presses down instruction, second cutter sweep vertically moves instruction and second cutter sweep vertically moves return instruction, just completes second time longitudinally cutting.If task requires N longitudinally cutting, then carry out N time according to above method longitudinally to cut, after whole sheet material (as plasterboard) has cut, Programmable Logic Controller finally sends various return instruction, crossbeam 3, cutter sweep, longitudinally pressure beam 15 revert to original position, namely crossbeam 3 returns and has forefront in sawing machine, and cutter sweep returns the left side in crossbeam 3, longitudinally pressure beam 15 revert to workbench 1 right side and not above workbench 1.

As disposable embodiment, when longitudinally cutting at every turn, n-th cutter sweep vertically moves return instruction and the instruction of (n+1)th cutter sweep transverse shifting can send simultaneously, and 1≤n < N, the longitudinal shift and transverse shift namely cut can carry out simultaneously.

As disposable embodiment, when longitudinally cutting at every turn, Programmable Logic Controller sends the instruction of cutter sweep transverse shifting and longitudinally presses the order of beam travel commands without any restriction requirement, first can also send longitudinally pressure beam travel commands, send the instruction of cutter sweep transverse shifting again, transverse shifting instruction and longitudinal pressure beam travel commands can also be sent simultaneously, namely cutter sweep transverse shifting and longitudinally press not exist between the walking of beam and influence each other, both sequentially have no requirement.

Transverse cuts and longitudinal cutting method: diced system is also applicable to both need transverse cuts, need again the sheet material (as plasterboard) of longitudinally cutting.Workbench 1 is piled up sheet material (as plasterboard), and the control screen of PLC technology arranges the size of final products, and Programmable Logic Controller can generate cutting process automatically.First the saw blade of cutter sweep is switched to transverse direction, then start button is started, cutter sweep can carry out single or several transverse cuts by above-mentioned transverse cuts method, transverse cuts completes, the saw blade of cutter sweep is switched to transverse direction, cutter sweep more above-mentioned longitudinal cutting method carries out single or longitudinally cutting for several times, just can complete sheet material (as the plasterboard) product simultaneously needing transverse cuts and longitudinally cutting.The switching in the saw blade direction of cutter sweep can manually adjust, and also automatically can be adjusted by centralized control unit.

In other embodiment of the application, when diced system has additional cutting lowering or hoisting gear, the concrete steps of diced system work are as follows: when each transverse cuts, send cutter sweep at Programmable Logic Controller and vertically move instruction, after horizontal clamping plate upset instruction and horizontal clamping plate press down instruction, namely cutter sweep moves to cutting position, after horizontal clamping plate 24 clamp sheet material (as plasterboard), send cutter sweep decline instruction, after 4th magnetic valve receives cutter sweep decline instruction, height when cutting lowering or hoisting gear drives the saw blade of cutter sweep to drop to cutting operation, get final product the height of cuts sheet material (as plasterboard), then Programmable Logic Controller sends the instruction of cutter sweep transverse shifting, both a transverse cuts can have been completed, Programmable Logic Controller just sends cutter sweep climb command subsequently, after 4th magnetic valve receives cutter sweep climb command, cutting lowering or hoisting gear drives cutter sweep to rise to initial state, cutter sweep leaves workbench 1, namely before carrying out each longitudinally cutting, Programmable Logic Controller sends a cutter sweep decline instruction, often complete and once cut, Programmable Logic Controller just sends a cutter sweep climb command.Cutter sweep climb command and cutter sweep transverse shifting return instruction can also be sent simultaneously.

When longitudinally cutting at every turn, the instruction of cutter sweep transverse shifting is sent at Programmable Logic Controller, after longitudinally pressure beam travel commands and longitudinal pressure beam press down instruction, namely cutter sweep moves to cutting position, longitudinally after pressure beam 15 fixed plate (as plasterboard), send cutter sweep decline instruction, after 4th magnetic valve receives cutter sweep decline instruction, height when cutting lowering or hoisting gear drives the saw blade of cutter sweep to drop to cutting operation, get final product the height of cuts sheet material (as plasterboard), then the instruction of cutter sweep transverse shifting is sent, both can complete after once longitudinally cutting, send cutter sweep climb command subsequently, after 4th magnetic valve receives cutter sweep climb command, cutting lowering or hoisting gear drives cutter sweep to rise to initial state, cutter sweep leaves workbench 1.Namely, before carrying out each longitudinally cutting, Programmable Logic Controller sends a cutter sweep decline instruction; Often complete once longitudinally cutting, Programmable Logic Controller sends a cutter sweep climb command.Send cutter sweep climb command and cutting vertically moves return instruction simultaneously.

Diced system in above-described embodiment and cutting method, in the size of Programmable Logic Controller input final products, diced system just generates corresponding program automatically, automatically complete that rip cutting is cut to position or the location of transverse cut positions, fixing, the vertical or horizontal cutting processing of the vertical or horizontal of sheet material (as plasterboard), a series of actions process such as to gather dust, thus achieve the automation cutting of sheet material (as plasterboard) to heavens.

Diced system can according to the size of final products, the cutting position of each cuts sheet material of automatic adjustment cutter sweep (as plasterboard), repeatedly after vertical or horizontal cutting, the vertical or horizontal saw blade cutting effect of many rows can be reached, simultaneously according to the difference providing cutting position, can cut in the upper any vertical or horizontal position of sheet material (as plasterboard), therefore cut the sheet material (as plasterboard) of different size, avoid the problem that size between many gang saws sheet is not easy to carry out adjusting.

In longitudinal cutting process, horizontal walking device adopts Kinematic Positioning, namely by the instruction of centralized control unit, and pass through the distance of the walking of the 3rd servomotor and the 3rd transmission mechanism control horizontal walking device, horizontal walking device drives longitudinally pressure beam to move, so just can the fixed position of the longitudinal pressure beam of Kinematic Positioning, longitudinally pressure beam is made to laterally move to the both sides of longitudinal cutting position, then sheet material (as plasterboard) is fixed, thus the longitudinal direction realizing sheet material (as plasterboard) is fixed, two longitudinally pressure beams 15 and horizontal walking device not only can longitudinal fixed plates (as plasterboard), and when after carrying out transverse cuts and completing, longitudinally pressure beam 15 and horizontal walking device shift out the top of workbench 1, thus do not affect transverse cuts, the horizontal walking device of the embodiment of the present application is suitable for the fixing of the sheet material (as plasterboard) needing longitudinally cutting, also the fixing of the sheet material (as plasterboard) simultaneously needing longitudinally cutting and transverse cuts is applicable to, especially sheet material (as plasterboard) fixing simultaneously needing repeatedly longitudinally cutting and repeatedly transverse cuts is suitable for, thus solve existing sheet material (as plasterboard) in the art and need to carry out repeatedly in the process of longitudinally cutting and repeatedly transverse cuts, longitudinally fixing or clamping device cannot be set in the vertical, the easy sideslip when longitudinally cutting, the defect problem that the deviation of size is too large.

The position-adjustable in the vertical of horizontal clamping plate 24, so just can according to the dimensional requirement of the size of sheet material for sawing (as plasterboard) and final products, freely can adjust horizontal clamping plate 24 position, effectively push down, clamp sheet material (as plasterboard) for sawing, solution is existing, and horizontal pressing plate or clip maintain static in the art, and then cause effectively pushing down or to clamp sheet material (as plasterboard), when cutting easily there is the problem offset in the size of final products.

The diced system of the embodiment of the present application and cutting method, due to the transverse direction of Serve Motor Control cutter sweep or the movement of longitudinal direction, and be provided with longitudinally guiding chute 14 and laterally steering chute 8, cutter sweep can move cutting accurately, and the accuracy to size of final products can reach ± 0.1mm.

The embodiment of the present application is not only applicable to the cutting of plasterboard, and be applicable to the cutting of other sheet material, the cutting of the sheet material of the transverse cuts of laterally fixing as needed longitudinally fixing longitudinal direction cutting and/or needs, be particularly useful for needing the cutting of repeatedly longitudinally cutting and the repeatedly sheet material of transverse cuts, as magnesite board, plank, marble slab etc. simultaneously.When cutting the sheet material of non-plasterboard, only need the cutter sweep of more transducing cutting respective plates, as changed the saw blade, electric saw unit etc. of cutter sweep, to adapt to corresponding sheet material etc., and miscellaneous equipment or device are without the need to changing.

Although the embodiment disclosed by the present invention is as above, the embodiment that described content just adopts for the ease of understanding the present invention, and be not used to limit the present invention.Technical staff in any the technical field of the invention; under the prerequisite not departing from the spirit and scope disclosed by the present invention; any amendment and change can be done what implement in form and in details; but scope of patent protection of the present invention, the scope that still must define with appending claims is as the criterion.

Claims (18)

1. the diced system of a sheet material, described diced system comprises the first driving arrangement, cutter sweep and centralized control unit, described centralized control unit provides longitudinal cutting position according to plate cutting size, described first driving arrangement is according to the control signal of described centralized control unit, drive described cutter sweep to laterally move to described longitudinal cutting position, and drive described cutter sweep to vertically move, complete the longitudinal direction cutting of sheet material;

Described diced system also comprises the second driving arrangement and longitudinally presses beam, described second driving arrangement is used for the control signal according to described centralized control unit, described longitudinally pressure beam is driven to laterally move to the both sides of described longitudinal cutting position, and when the longitudinal cuts sheet material of described cutter sweep, make described longitudinally pressure beam longitudinally compress sheet material.

2. diced system according to claim 1, wherein, described cutter sweep is rotatable, described centralized control unit provides transverse cut positions according to plate cutting size, described first driving arrangement is also for the control signal according to described centralized control unit, drive described cutter sweep to longitudinally move to described transverse cut positions, and drive described cutter sweep transverse shifting, complete the transverse cuts of sheet material;

Described diced system also comprises the 3rd driving arrangement and horizontal clamping plate, and described 3rd driving arrangement is used for the control signal according to described centralized control unit, drives described horizontal clamping plate when described cutter sweep transverse cuts sheet material, clamping sheet material.

3. diced system according to claim 2, wherein, described horizontal clamping plate position-adjustable in the vertical.

4. diced system according to claim 1, wherein, described longitudinally pressure beam is two pressure beams be parallel to each other, and described cutter sweep cuts sheet material between two described pressure beams.

5. according to the diced system in claim 1-4 described in any one, wherein, described diced system also comprises crossbeam and longitudinal rail, and described cutter sweep is arranged on described crossbeam; Described first driving arrangement, comprises lateral driver device and longitudinal driving device; Described lateral driver device is for driving the transverse shifting of described cutter sweep on described crossbeam, and described longitudinal driving device for driving described crossbeam vertically moving on described longitudinal rail, thus drives described cutter sweep to vertically move.

6. diced system according to claim 5, wherein, described lateral driver device comprises the first servomotor, the first transmission mechanism and coaster, and described coaster to be arranged on described crossbeam and laterally can to slide along described crossbeam, and described cutter sweep is arranged on the bottom of described coaster; Described first servomotor drives described first transmission mechanism according to the control signal of described centralized control unit, to promote the length direction transverse shifting of described coaster along described crossbeam, thus realizes the transverse shifting of described cutter sweep.

7. diced system according to claim 6, wherein, described first transmission mechanism comprises one group of intermeshing first gear and the first gear bar, described first gear bar is fixed on the inside of described crossbeam along the length direction of described crossbeam, above described crossbeam, the length direction of described crossbeam is provided with strip opening, described first servomotor is fixed on described coaster, and the output of described first servomotor is connected with described first gear drive through described strip opening.

8. diced system according to claim 6, wherein, on described crossbeam and/or both sides be respectively arranged with laterally steering chute, described coaster is provided with the slide block matched with described laterally steering chute.

9. diced system according to claim 5, wherein, described longitudinal driving device comprises the second servomotor and the second transmission mechanism, described second servomotor drives described second transmission mechanism according to the control signal of described centralized control unit, to promote the lengthwise movement on described longitudinal rail of described crossbeam, thus described cutter sweep is driven to vertically move.

10. diced system according to claim 9, wherein, described second transmission mechanism comprises the first timing belt pulley and synchronous belt, the first power transmission shaft, two the second gears and two the second gear bars,

Described second servomotor, the first timing belt pulley and synchronous belt, the first power transmission shaft and the second gear are arranged on described crossbeam, two described second gear bars are separately positioned on the two ends of described crossbeam and parallel with described longitudinal rail, described second gear is meshed with the second gear bar

Described second servomotor drives described crossbeam to vertically move by described first timing belt pulley and synchronous belt, the first power transmission shaft, the second gear and the second gear bar.

11. according to the diced system in claim 1-4 described in any one, comprise workbench, wherein, described second driving arrangement comprises lengthwise rows walking apparatus and longitudinally presses lifting device of girder, described lengthwise rows walking apparatus comprises the 3rd servomotor, the 3rd transmission mechanism, and described 3rd servomotor is according to the control signal of described centralized control unit and by described 3rd transmission mechanism driving described longitudinally pressure beam transverse shifting; Described longitudinally pressure lifting device of girder comprises the first cylinder, and described first cylinder, under described centralized control unit controls, drives the rising of longitudinally pressure beam and presses down, thus the longitudinal direction realizing sheet material is fixed.

12. diced systems according to claim 11, wherein, described horizontal walking device also comprises support, described 3rd transmission mechanism comprises the second timing belt pulley and synchronous belt, second driving shaft, two the 3rd gears and two the 3rd gears article, and described 3rd gear is meshed with described 3rd gear article;

Wherein, described two the 3rd gears article are laterally fixed on the both sides of described workbench respectively, and the length of described 3rd gear article is greater than the lateral length summation of described workbench and described horizontal walking device;

Described 3rd servomotor, second driving shaft and two the 3rd gears are arranged on the bracket, and described 3rd servomotor drives described horizontal walking device transverse shifting by described second timing belt pulley and synchronous belt, second driving shaft, two the 3rd gears and two the 3rd gears article.

13. diced systems according to claim 12, wherein, described horizontal walking device also comprises at least two live-rollers and two walking tracks, described walking track is laterally fixed on the both sides of described workbench, described live-roller is arranged on the bracket, described live-roller matches with described walking track, and described live-roller can along walking track transverse shifting, and described live-roller and walking track carry the weight of described horizontal walking device.

14. diced systems according to Claims 2 or 3, wherein, described 3rd driving arrangement comprises horizontal clamping plate turning device and horizontal clamping plate lowering or hoisting gear, described horizontal clamping plate turning device comprises the second cylinder, 4th transmission mechanism, described second cylinder is under the control of described centralized control unit, the upset of described horizontal clamping plate is driven by driving described 4th transmission mechanism, described horizontal clamping plate lowering or hoisting gear comprises the 3rd cylinder, described 3rd cylinder is under the control of described centralized control unit, drive the rising of described horizontal clamping plate and press down, thus the transverse direction realizing sheet material is fixed.

15. diced systems according to claim 6, wherein, described diced system also comprises the cutting lowering or hoisting gear for being elevated described cutter sweep, and described cutting lowering or hoisting gear is arranged on described coaster, and described cutter sweep is arranged on the bottom of described cutting lowering or hoisting gear.

16. according to the diced system in claim 1-4 described in any one, wherein, described diced system also comprises adjustable location stop device, and described adjustable location stop device comprises the location stop block that can rise and fall, and described location stop block is as the guiding ruler stacking sheet material.

17. according to the diced system in claim 1-4 described in any one, wherein, described diced system also comprises sensor, described sensor, for workbench having the signal of sheet material to send described centralized control unit to by sensing, provides cutting position to make described centralized control unit according to received induced signal.

18. according to the diced system in claim 1-4 described in any one, and wherein, described diced system also comprises dust arrester, and described dust arrester comprises suction opeing, and described suction opeing is arranged on described cutter sweep;

When carrying out vertical and horizontal cutting to described sheet material, the dust produced in cutting process or chip are taken away by described dust arrester.