CN102390063B - Back loading high-speed computer panel saw - Google Patents
Back loading high-speed computer panel saw Download PDFInfo
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- CN102390063B CN102390063B CN 201110336925 CN201110336925A CN102390063B CN 102390063 B CN102390063 B CN 102390063B CN 201110336925 CN201110336925 CN 201110336925 CN 201110336925 A CN201110336925 A CN 201110336925A CN 102390063 B CN102390063 B CN 102390063B
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Abstract
The invention discloses a back loading high-speed computer panel saw comprising a machine station main body, a material feeding unit and a computer control system, wherein the machine station main body comprises a worktable, a material pressing device and a cutting device; the material pressing device and the cutting device are both arranged on the worktable; the material feeding unit is arranged at the back side of the machine station main body; the material feeding unit comprises a material feeding device and a material loading device; the material feeding device is arranged between the machine station main body and the material loading device; the material feeding device comprises a material feeding bracket and a first propulsion mechanism; the material loading device comprises a material loading bracket, a lifting table and a second propulsion mechanism; the computer control system controls the work of the material pressing device, the cutting device, the material feeding device and the material loading device, thereby realizing automation operation in the overall process of panel cutting, being favorable for ensuring the cutting precision of panel material, improving the work efficiency effectively, reducing the number of operation personnel and reducing the work strength for workers, thus reducing the production cost for an enterprise and being beneficial to the survival of the enterprise.
Description
Technical field
The present invention relates to the woodworking machinery art, refer in particular to a kind of rear loading high-speed computer panel saw that can significantly increase work efficiency.
Background technology
Cut-to-size saw is mainly used in plate fitment manufacture and Wood Products Industry the various sheet materials such as beaver board is used as to cut out the plate operation, domestic most cut-to-size saws are semi-automatic form at present, it includes frame and is arranged at saw blade on frame, saw blade is rotated by driven by motor, during use, by artificial feeding, plate is moved to saw blade, utilize the driven by motor saw blade to rotate and complete the effect that cuts to plate.
Although above-mentioned existing cut-to-size saw can be realized plate is cut, yet, this kind of cut-to-size saw inefficiency, cutting precision can not prepare control, operating personnel's labour intensity is large, and need operating personnel's quantity many, increased the production cost of enterprise, especially in the situation that human resources is in short supply at present, adopt existing cut-to-size saw to carry out the existence that production operation is unfavorable for enterprise more, enterprise is anxious hopes the cut-to-size saw structure can access larger improvement, effectively to improve, cuts out the plate operating efficiency, reduces the work production cost simultaneously.
Summary of the invention
In view of this, the present invention is directed to the disappearance of prior art existence, its main purpose is to provide a kind of rear loading high-speed computer panel saw, can effectively solve and utilize existing cut-to-size saw to be cut out the low problem of its operating efficiency of plate operation.
For achieving the above object, the present invention adopts following technical scheme:
A kind of rear loading high-speed computer panel saw, include
One board main body, this board main body includes workbench, for plate being compressed to the material pressing device be positioned on workbench and, for cut the cutting means of operation to being positioned at plate on workbench, this material pressing device and cutting means all are installed on workbench;
One feeding unit, this feeding unit is positioned at the rear side of board main body, and this feeding unit includes feed arrangement and feeding device, and this feed arrangement is arranged between board main body and feeding device; Feed arrangement includes feeding rack and for plate is pushed into to the first propulsive mechanism workbench from feeding rack; This feeding device includes stock shelf, for lifting platform that plate is upwards mentioned and for plate is pushed into to the second propulsive mechanism of feeding rack from stock shelf;
One computer control system, this computer control system is controlled the work of aforementioned material pressing device, cutting means, feed arrangement and feeding device.
As a kind of preferred version, the first guide rail extended before and after the left and right sides of described feeding rack is provided with, aforementioned the first propulsive mechanism is arranged on this first guide rail and moves forward and backward along the first guide rail.
As a kind of preferred version, described the first propulsive mechanism includes first crossbeam, the first motor and a plurality of for clamping the clamping mechanism of plate rear end; The two ends of this first crossbeam are butted on respectively on the first corresponding guide rail, and this first motor is fixed on first crossbeam, and the first motor drives first crossbeam by the first power transmission shaft and moves forward and backward along the first guide rail; The plurality of clamping mechanism is arranged at intervals on first crossbeam with the first crossbeam synchronizing moving.
As a kind of preferred version, described clamping mechanism includes mounting assembly and grip module; This mounting assembly includes the jaw seat that stator, locating piece and two left and right arrange; This stator is fixedly connected with and is connected between the rear end of two jaw seats with first crossbeam; This locating piece is fixedly connected between the front end of two jaw seats; This grip module is between two jaw seats, and grip module includes driving cylinder body, lower driving cylinder body, upper gripper jaw, lower jaw, fork and connecting rod; Should above drive rear end and the pivot joint of jaw seat of cylinder body, the front end of upper driving cylinder body is extended with forward upper piston rod, the upper end pivot joint of this upper piston rod and fork; The lower end of this fork and the pivot joint of jaw seat, be provided with spacing groove on fork; This time drives rear end and the pivot joint of jaw seat of cylinder body, the front end of lower driving cylinder body is extended with forward lower piston rod, the front end of this lower piston rod stretches out forward and is fixedly connected with lower jaw through aforementioned spacing groove, and this lower piston rod drives lower jaw and stretches out forward movably aforementioned locating piece; The rear end of this upper gripper jaw and the pivot joint of jaw seat, the front end of upper gripper jaw stretches out forward aforementioned locating piece; The two ends of this connecting rod respectively with upper gripper jaw and fork pivot joint.
As a kind of preferred version, the second guide rail extended before and after the left and right sides of described stock shelf is provided with, aforementioned the second propulsive mechanism is arranged on this second guide rail and moves forward and backward along the second guide rail.
As a kind of preferred version, described the second propulsive mechanism includes second cross beam, the second motor and a plurality of pushing block assembly; The two ends of this second cross beam are butted on respectively on the second corresponding guide rail, and this second motor is fixed on second cross beam, and the second motor drives second cross beam by second driving shaft and moves forward and backward along the second guide rail; The plurality of pushing block assembly is arranged at intervals on second cross beam with the second cross beam synchronizing moving.
As a kind of preferred version, described material pressing device includes the binder crossbeam, sliding seat, first drives cylinder body, second to drive cylinder body and the 3rd motor; This binder crossbeam be horizontally set at workbench directly over, this sliding seat can laterally be arranged at actively on the binder crossbeam by line slideway and be up and down with the binder crossbeam; First to drive cylinder body to drive binder crossbeam up and down for this, and this second drives cylinder body to be arranged on sliding seat with the sliding seat transverse shifting, and the 3rd motor drives sliding seat by driving-chain and moves along the line slideway transverse reciprocating.
As a kind of preferred version, described cutting means includes movable base and head saw assembly and secondary saw componet, and this movable base can laterally be arranged at the below of workbench in left and right actively; This head saw assembly and secondary saw componet all can be arranged on movable base up and downly and be laterally movable with the movable base left and right.
As a kind of preferred version, described head saw assembly includes main motor, main saw plate, main motor cabinet and main driving cylinder body; This main motor and main saw plate separate type are arranged on main motor cabinet, and main saw plate is positioned at the top of main motor, and main motor drives main saw plate by the first driving-belt and rotates, and it is up and down that this main driving cylinder body drives the relative movable base of main motor cabinet.
As a kind of preferred version, described secondary saw componet includes auxiliary-motor, scoring blade, auxiliary-motor seat and the secondary cylinder body that drives; This auxiliary-motor and scoring blade separate type are arranged on the auxiliary-motor seat, and scoring blade is positioned at the top of auxiliary-motor, and auxiliary-motor drives scoring blade by the second driving-belt and rotates, and it is up and down that this pair drives cylinder body to drive the relative movable base of auxiliary-motor seat.
The present invention compared with prior art has obvious advantage and beneficial effect, particularly, and as shown from the above technical solution:
One, by board main body rear side, being provided with feeding unit, coordinating utilizes the feeding device of feeding unit and feed arrangement to complete the feeding to plate, and cooperation utilizes computerized control system to control the work of material pressing device, cutting means, feed arrangement and feeding device, realize plate is cut the automated job of overall process with this, be conducive to guarantee the precision that cuts of plate, and effectively improved operating efficiency, reduce operating personnel's quantity and alleviate labor strength, thereby reduce the production cost of enterprise, be beneficial to the existence of enterprise.
Two, by cooperation, utilizing the first motor and the first power transmission shaft to drive first crossbeam moves around along the first guide rail, and coordinate the rear end that utilizes clamping mechanism to clamp plate to carry out the charging operation, make the charging of plate steady, guarantee the feeding accuracy of action, be conducive to improve the precision that cuts of plate.
Three, stretch out forward and be butted on the bottom surface, rear end of plate by utilizing lower driving cylinder body to drive lower jaw, and coordinate the upper body of rod that drives of utilization to be pressed against the upper surface of plate to lower swing by fork and connecting rod drive upper gripper jaw, thereby clamp securely plate, structure and operation are all very simple, are conducive to realize the quick and stable charging of plate.
For more clearly setting forth architectural feature of the present invention and effect, below in conjunction with accompanying drawing and specific embodiment, the present invention is described in detail.
The accompanying drawing explanation
Fig. 1 is the assembling schematic perspective view of the present invention's preferred embodiment;
Fig. 2 is the exploded view of the present invention's preferred embodiment;
Fig. 3 is the enlarged diagram of workbench in the present invention's preferred embodiment;
Fig. 4 is the enlarged diagram of material pressing device in the present invention's preferred embodiment;
Fig. 5 is the enlarged diagram of cutting means in the present invention's preferred embodiment;
Fig. 6 is the enlarged diagram of head saw assembly in the present invention's preferred embodiment;
Fig. 7 is the enlarged diagram of secondary saw componet in the present invention's preferred embodiment;
Fig. 8 is the enlarged diagram of feeding rack in the present invention's preferred embodiment;
Fig. 9 is the enlarged diagram of the first propulsive mechanism in the present invention's preferred embodiment;
Figure 10 is the partial exploded view of Fig. 9;
Figure 11 is the enlarged diagram of clamping mechanism in Figure 10;
Figure 12 is the exploded view of Figure 11;
Figure 13 is the enlarged diagram of grip module in Figure 12;
Figure 14 is the exploded view of Figure 13;
Figure 15 is the enlarged diagram of lifting platform in the present invention's preferred embodiment;
Figure 16 is the enlarged diagram of the second propulsive mechanism in the present invention's preferred embodiment.
The accompanying drawing identifier declaration:
10, board main body 11, workbench
111, saw carriage 112, cover cap
101, passage 12, material pressing device
121, binder crossbeam 122, sliding seat
123, first drive cylinder body 124, second to drive cylinder body
125, the 3rd motor 126, line slideway
127, driving-chain 13, cutting means
131, movable base 132, head saw assembly
1321, main motor 1322, main saw plate
1323, main motor cabinet 1324, main driving cylinder body
1325, the first driving-belt 133, secondary saw componet
1331, auxiliary-motor 1332, scoring blade
1333, auxiliary-motor seat 1334, the secondary cylinder body that drives
1335, the second driving-belt 20, feeding unit
21, feed arrangement 211, feeding rack
2111, the first guide rail 2112, roll wheel assembly
2113, guardrail 212, the first propulsive mechanism
2121, first crossbeam 2122, the first motor
2123, clamping mechanism 2124, the first power transmission shaft
2000, spacing groove 201, mounting assembly
2011, stator 2012, locating piece
2013, jaw seat 202, grip module
Drive cylinder body 2022, lower driving cylinder body on 2021
2023, upper gripper jaw 2024, lower jaw
2025, fork 2026, connecting rod
2027, upper piston rod 2028, lower piston rod
22, feeding device 221, stock shelf
2211, the second guide rail 2212, guardrail
222, lifting platform 2221, framework
2222, deflector roll 2223, screw mandrel
223, the second propulsive mechanism 2231, second cross beam
2232, the second motor 2233, pushing block assembly
2234, second driving shaft 2235, guard bar
30, computer control system 31, touch-screen
32, shift knob 40, discharge pedestal.
The specific embodiment
Please refer to shown in Fig. 1 to Figure 16, the concrete structure that it has demonstrated the present invention's preferred embodiment, include a board main body 10, a feeding unit 20 and a computer control system 30.
Wherein, this board main body 10 includes workbench 11, for plate being compressed to the material pressing device 12 be positioned on workbench 11 and, for cut the cutting means 13 of operation to being positioned at plate on workbench 11, this material pressing device 12 and cutting means 13 all are installed on workbench 11.
As shown in Figure 3, this workbench 11 includes saw carriage 111 and is arranged at the cover cap 112 on saw carriage 111, is formed with the path 10 1 passed for plate between this cover cap 112 and saw carriage 111, and the plate cut is exported forward from this path 10 1; As shown in Figure 2, the front side of this workbench 11 further is provided with discharge pedestal 40, and this discharge pedestal 40 is for accepting the plate of path 10 1 output, and the upper surface of this discharge pedestal 40 is concordant with the upper plane of workbench 11, and this discharge pedestal 40 is air-floating ball formula platform, to facilitate the discharging of plate.
As shown in Figure 4, this material pressing device 12 includes binder crossbeam 121, sliding seat 122, first drives cylinder body 123, second to drive cylinder body 124 and the 3rd motor 125; This binder crossbeam 121 be horizontally set at workbench 11 directly over, this sliding seat 122 can laterally be arranged at actively on binder crossbeam 121 by line slideway 126 and be up and down with binder crossbeam 121; It is up and down that this first driving cylinder body 123 drives binder crossbeams 121, the two ends of this binder crossbeam 121 are provided with one aforementioned first and drive cylinder body 123, by cooperation, utilize this two first drivings cylinder body 123 to make binder crossbeam 121 up and down more steady, this the first driving cylinder body 123 drives cylinder body for vapour-pressure type, not to be limited; This second driving cylinder body 124 is arranged on sliding seat 122 with sliding seat 122 transverse shiftings, this the second driving cylinder body 124 is for strengthening the compression locating effect at binder crossbeam 121 middle parts, this the second driving cylinder body 124 is two, and this two second drivings cylinder body 124 lays respectively at front side and the rear side of binder crossbeam 121; The 3rd motor 125 drives sliding seat 122 by driving-chain 127 and moves along line slideway 126 transverse reciprocatings, this two second drives cylinder body 124 to make binder crossbeam 121 compress location to plate targetedly with sliding seat 122 synchronizing movings with consolidating, thereby make, to cut operation more accurate.
This cutting means 13 is built in workbench 11, the sawing length of cutting means 13 is 3300mm, sawing thickness is 120mm, as shown in Figure 5, this cutting means 13 includes movable base 131 and head saw assembly 132 and secondary saw componet 133, this movable base 131 can laterally be arranged at the below of workbench 11 in left and right actively, and the pace of movable base 131 (stepless) is 9~100m/min; This head saw assembly 132 and secondary saw componet 133 all can be arranged on movable base 131 up and downly and be laterally movable with movable base 131 left and right.
As shown in Figure 6, this head saw assembly 132 includes main motor 1321, main saw plate 1322, main motor cabinet 1323 and main driving cylinder body 1324; This main motor 1321 and main saw plate 1322 separate types are arranged on main motor cabinet 1323, main saw plate 1322 is positioned at the top of main motor 1321, main saw plate 1322 rotating speeds are 3910r/min, this main motor 1321 drives main saw plate by the first driving-belt 1325 and rotates, the power of this main motor 1321 is 15KW, it is up and down that this main driving cylinder body 1324 drives the relative movable base 131 of main motor cabinet 1323, and this main driving cylinder body 1324 drives cylinder body for vapour-pressure type, not to be limited.
As shown in Figure 7, this pair saw componet 133 includes auxiliary-motor 1331, scoring blade 1332, auxiliary-motor seat 1333 and the secondary cylinder body 1334 that drives; This auxiliary-motor 1331 and scoring blade 1332 separate types are arranged on auxiliary-motor seat 1333, scoring blade 1332 is positioned at the top of auxiliary-motor 1331, scoring blade 1332 rotating speeds are 5100r/min, auxiliary-motor 1331 drives scoring blade 1332 by the second driving-belt 1335 and rotates, it is up and down that this pair drives cylinder body 1334 to drive auxiliary-motor seat 1333 relative movable bases 131, this pair drives cylinder body 1334 to drive cylinder body for vapour-pressure type, not to be limited.
This feeding unit 20 is positioned at the rear side of board main body 10, and this feeding unit 20 includes feed arrangement 21 and feeding device 22, and this feed arrangement 21 is arranged between board main body 10 and feeding device 22; Feed arrangement 21 includes feeding rack 211 and for plate is pushed into to the first propulsive mechanism 212 workbench 11 from feeding rack 211; This feeding device 22 includes stock shelf 221, for lifting platform 222 that plate is upwards mentioned and for plate is pushed into to the second propulsive mechanism 223 of feeding rack 211 from stock shelf 221.
As shown in Figure 8, the first guide rail 2111 extended before and after the left and right sides of this feeding rack 211 is provided with, aforementioned the first propulsive mechanism 212 is arranged on this first guide rail 2111 and moves forward and backward along the first guide rail 2111, and the bottom of this feeding rack 211 is provided with many row's roll wheel assemblies 2112, the plurality of roll wheel assembly 2112 can effectively reduce frictional force suffered in the plate fill process, makes plate be more prone to realize quick feeding by the first propulsive mechanism 212; And the left and right sides of this feeding rack 211 is provided with guardrail 2113; As shown in Figure 9 and Figure 10, the fltting speed of this first propulsive mechanism 212 is 60m/min, and this first propulsive mechanism 212 includes first crossbeam 2121, the first motor 2122 and a plurality of clamping mechanism 2123 for clamping the plate rear end; The two ends of this first crossbeam 2121 are butted on respectively on the first corresponding guide rail 2111, this first motor 2122 is fixed on first crossbeam 2121, the first motor 2122 is servomotor, and the first motor 2122 drives first crossbeam 2121 by the first power transmission shaft 2124 and moves forward and backward along the first guide rail 2111; The plurality of clamping mechanism 2123 is arranged at intervals on first crossbeam 2121 with first crossbeam 2121 synchronizing movings.
As shown in Figure 11 and Figure 12, this clamping mechanism 2123 includes mounting assembly 201 and grip module 202; This mounting assembly 201 includes the jaw seat 2013 that stator 2011, locating piece 2012 and two left and right arrange; This stator 2011 is fixedly connected with first crossbeam 2121, and this stator 2011 is connected between the rear end of two jaw seats 2013; This locating piece 2012 is fixedly connected between the front end of two jaw seats 2013; This grip module 202 is between two jaw seats 2013, and as shown in Figure 13 and Figure 14, grip module 202 includes driving cylinder body 2021, lower driving cylinder body 2022, upper gripper jaw 2023, lower jaw 2024, fork 2025 and connecting rod 2026; Should above drive cylinder body 2021 and lower driving cylinder body 2022 to be vapour-pressure type and drive cylinder body, not to be limited, should above drive rear end and 2013 pivot joints of jaw seat of cylinder body 2021, the front end of upper driving cylinder body 2021 is extended with forward upper piston rod 2027, the upper end pivot joint of this upper piston rod 2027 and fork 2025; The lower end of this fork 2025 and 2013 pivot joints of jaw seat, be provided with spacing groove 2000 on fork 2025; This time drives rear end and 2013 pivot joints of jaw seat of cylinder body 2022, the front end of lower driving cylinder body 2022 is extended with forward lower piston rod 2028, the front end of this lower piston rod 2028 stretches out forward and is fixedly connected with lower jaw 2024 through aforementioned spacing groove 2000, and this lower piston rod 2028 drives lower jaw 2024 and stretches out forward movably aforementioned locating piece 2012; The rear end of this upper gripper jaw 2023 and 2013 pivot joints of jaw seat, the front end of upper gripper jaw 2023 stretches out forward aforementioned locating piece 2012; The two ends of this connecting rod 2026 respectively with upper gripper jaw 2023 and fork 2025 pivot joints.
During work, at first, by lower driving cylinder body 2022 effects and by the lower jaw 2024 of lower piston rod 2028 drive, stretch out forward locating piece 2012, with this, make lower jaw 2024 be butted on the bottom of plate rear end; Then, act on and rotate forward by the upper end of upper piston rod 2027 drive forks 2025 by upper driving cylinder body 2021, rotate forward and rotate by connecting rod 2026 drive upper gripper jaws 2023 by this fork 2025, thereby the front end that makes upper gripper jaw 2023 is butted on the top of plate rear end, with this, the rear end that utilizes upper gripper jaw 2023 and lower jaw 2024 firmly to clamp plate; When needs unclamp plate, only need make successively driving cylinder body 2021 and lower driving cylinder body 2022 reset and get final product.
As shown in Figure 8, this stock shelf 221 is for piling up plate, the height that its plate is piled up is 1000mm, the second guide rail 2211 extended before and after the left and right sides of this stock shelf 221 is provided with, and aforementioned the second propulsive mechanism 223 is arranged on this second guide rail 2211 and moves forward and backward along the second guide rail 2211; And the trailing flank of this stock shelf 221 and right flank are provided with guardrail 2212.
As shown in figure 15, this lifting platform 222 includes a framework 2221, a plurality of deflector roll 2222 and at least four screw mandrels 2223, this four screw mandrel 2223 is arranged at respectively four edges of framework 2221, the plurality of deflector roll 2222 left and right are arranged in framework 2221 side by side rotationally, by the rotation of the plurality of deflector roll 2222, can easily superimposed plate together be served on lifting platform 222.
As shown in figure 16, the fltting speed of this second propulsive mechanism 223 is 60m/min, and this second propulsive mechanism 223 includes second cross beam 2231, the second motor 2232 and a plurality of pushing block assembly 2233; The two ends of this second cross beam 2231 are butted on respectively on the second guide rail 2211 of aforementioned correspondence, this second motor 2232 is fixed on second cross beam 2231, the second motor 2232 is servomotor, and the second motor 2232 drives second cross beam 2231 by second driving shaft 2234 and moves forward and backward along the second guide rail 2211; The plurality of pushing block assembly 2233 is arranged at intervals on second cross beam 2231 with second cross beam 2231 synchronizing movings, and the front side of this second cross beam 2231 is provided with guard bar 2235, during work, this guard bar 2235 is butted on the upper surface of plate, this pushing block assembly 2233 is butted on the plate rear end face, and moved forward by the second motor 2232 drive second cross beams 2231, thereby realize plate is pushed forward on feeding rack 211.
This computer control system 30 includes touch-screen 31 and shift knob 32, utilize this touch-screen 31 and shift knob 32 are programmed and machine is controlled, the work of controlling aforementioned material pressing device 12, cutting means 13, feed arrangement 21 and feeding device 22 with this, cooperatively interacted to the operation that cuts of plate material pressing device 12, cutting means 13, feed arrangement 21 and feeding device 22.
The present invention is mainly used in the plate fitment manufacture and Wood Products Industry is used as to cut out the plate operation to beaver board, and main job step is as follows:
At first, utilize feeding device 22 to carry out automatic charging: a plurality of plates are together superimposed and be piled up on the lifting platform 222 of stock shelf 221, and the piling height of plate is no more than 1000mm; Then, by computerized control system 30, control lifting platform 222 work, make lifting platform 222 will pile up plate together and promote a thickness of slab distance, now, the plate that is positioned at lifting platform 222 tops is raised in the top on the plane of feeding rack 211; Then, control the second propulsive mechanism 223 work by computerized control system 30, making the second motor 2232 drive second cross beam 2231 by second driving shaft 2234 moves forward along the second track 2211, this pushing block assembly 2233 is butted on the rear end face of plate and synchronously moves forward with second cross beam 2231, thereby make plate move forward in feeding rack 211, after plate is completely fed in feeding rack 211, controls the second propulsive mechanism 223 by computerized control system 30 and reset backward.
Then, utilize feed arrangement 21 to carry out automatic feed: by computerized control system 30, to control the first propulsive mechanism 212 work; During this first propulsive mechanism 212 work, at first, a plurality of clamping mechanisms 2123 are worked simultaneously, by lower driving cylinder body 2022 effects and by the lower jaw 2024 of lower piston rod 2028 drive, stretch out forward locating piece 2012, with this, make lower jaw 2024 be butted on the bottom of plate rear end; Then, act on and rotate forward by the upper end of upper piston rod 2027 drive forks 2025 by upper driving cylinder body 2021, rotate forward and rotate by connecting rod 2026 drive upper gripper jaws 2023 by this fork 2025, thereby the front end that makes upper gripper jaw 2023 is butted on the top of plate rear end, with this, the rear end that utilizes upper gripper jaw 2023 and lower jaw 2024 firmly to clamp plate; Then, driving first crossbeam 2121 by this first motor 2122 by the first power transmission shaft 2124 moves forward along the first track 2111, the plurality of clamping mechanism 2123 synchronously moves forward with first crossbeam 2121, thereby makes the plate size required by workpiece move forward in the path 10 1 that enters workbench 11.
Then, coordinate and to utilize material pressing device 12 and 13 pairs of plates that are arranged on workbench 11 of cutting means to be cut operation: when the above-mentioned plate size required by workpiece sent into the path 10 1 of workbench 11, the first propulsive mechanism 212 is quit work, then, control material pressing device 12 work by computerized control system 30, make binder crossbeam 121 move down on the upper surface that is pressed on plate under the effect of the first driving cylinder body 123, with this, plate is compressed to location, if need to carry out better compressing location to plate, can make third electrode 125 drive sliding seat 122 moves on suitable position along line slideway, and the second driving cylinder body 124 is depressed on plate, plate is compressed to location, then, by computerized control system 30, control cutting means 13 work, drive main saw plate 1322 by main motor 1321 and rotate, and coordinate by auxiliary-motor 1331 drive scoring blades 1332 rotations, with this, plate is cut, obtained a workpiece, workpiece is to discharge pedestal 40 outputs, then, with this, cutting means 13 and material pressing device 12 are resetted, then make this first propulsive mechanism 212 task again, make plate move forward the length of a workpiece, then, repeat above-mentioned action, utilize 13 pairs of plates of material pressing device 12 and cutting means to be cut, until this plate is all cut into to a plurality of workpiece.
After this plate all cuts into a plurality of workpiece, the first propulsive mechanism 212 is resetted backward, and more than repeating, action constantly cut into required workpiece by each piece plate on lifting platform 222 successively.
Design focal point of the present invention is: at first, by in board main body rear side, being provided with feeding unit, coordinating utilizes the feeding device of feeding unit and feed arrangement to complete the feeding to plate, and cooperation utilizes computerized control system to control material pressing device, cutting means, the work of feed arrangement and feeding device, realize plate is cut the automated job of overall process with this, be conducive to guarantee the precision that cuts of plate, and effectively improved operating efficiency, reduce operating personnel's quantity and alleviate labor strength, thereby reduce the production cost of enterprise, be beneficial to the existence of enterprise.Secondly, by cooperation, utilizing the first motor and the first power transmission shaft to drive first crossbeam moves around along the first guide rail, and coordinate the rear end that utilizes clamping mechanism to clamp plate to carry out the charging operation, make the charging of plate steady, guarantee the feeding accuracy of action, be conducive to improve the precision that cuts of plate.Moreover, stretch out forward and be butted on the bottom surface, rear end of plate by utilizing lower driving cylinder body to drive lower jaw, and coordinate the upper body of rod that drives of utilization to be pressed against the upper surface of plate to lower swing by fork and connecting rod drive upper gripper jaw, thereby clamp securely plate, structure and operation are all very simple, are conducive to realize the quick and stable charging of plate.
The above, it is only preferred embodiment of the present invention, not technical scope of the present invention is imposed any restrictions, therefore any trickle modification, equivalent variations and modification that every foundation technical spirit of the present invention is done above embodiment all still belong in the scope of technical solution of the present invention.
Claims (10)
1. loading high-speed computer panel saw after a kind, is characterized in that: include
One board main body, this board main body includes workbench, for plate being compressed to the material pressing device be positioned on workbench and, for cut the cutting means of operation to being positioned at plate on workbench, this material pressing device and cutting means all are installed on workbench;
One feeding unit, this feeding unit is positioned at the rear side of board main body, and this feeding unit includes feed arrangement and feeding device, and this feed arrangement is arranged between board main body and feeding device; Feed arrangement includes feeding rack and for plate is pushed into to the first propulsive mechanism workbench from feeding rack; This feeding device includes stock shelf, for lifting platform that plate is upwards mentioned and for plate is pushed into to the second propulsive mechanism of feeding rack from stock shelf;
One computer control system, this computer control system is controlled the work of aforementioned material pressing device, cutting means, feed arrangement and feeding device.
2. rear loading high-speed computer panel saw according to claim 1 is characterized in that: the first guide rail extended before and after the left and right sides of described feeding rack is provided with, aforementioned the first propulsive mechanism is arranged on this first guide rail and moves forward and backward along the first guide rail.
3. rear loading high-speed computer panel saw according to claim 2, it is characterized in that: described the first propulsive mechanism includes first crossbeam, the first motor and a plurality of for clamping the clamping mechanism of plate rear end; The two ends of this first crossbeam are butted on respectively on the first corresponding guide rail, and this first motor is fixed on first crossbeam, and the first motor drives first crossbeam by the first power transmission shaft and moves forward and backward along the first guide rail; The plurality of clamping mechanism is arranged at intervals on first crossbeam with the first crossbeam synchronizing moving.
4. rear loading high-speed computer panel saw according to claim 3, it is characterized in that: described clamping mechanism includes mounting assembly and grip module; This mounting assembly includes the jaw seat that stator, locating piece and two left and right arrange; This stator is fixedly connected with and is connected between the rear end of two jaw seats with first crossbeam; This locating piece is fixedly connected between the front end of two jaw seats; This grip module is between two jaw seats, and grip module includes driving cylinder body, lower driving cylinder body, upper gripper jaw, lower jaw, fork and connecting rod; Should above drive rear end and the pivot joint of jaw seat of cylinder body, the front end of upper driving cylinder body is extended with forward upper piston rod, the upper end pivot joint of this upper piston rod and fork; The lower end of this fork and the pivot joint of jaw seat, be provided with spacing groove on fork; This time drives rear end and the pivot joint of jaw seat of cylinder body, the front end of lower driving cylinder body is extended with forward lower piston rod, the front end of this lower piston rod stretches out forward and is fixedly connected with lower jaw through aforementioned spacing groove, and this lower piston rod drives lower jaw and stretches out forward movably aforementioned locating piece; The rear end of this upper gripper jaw and the pivot joint of jaw seat, the front end of upper gripper jaw stretches out forward aforementioned locating piece; The two ends of this connecting rod respectively with upper gripper jaw and fork pivot joint.
5. rear loading high-speed computer panel saw according to claim 1 is characterized in that: the second guide rail extended before and after the left and right sides of described stock shelf is provided with, aforementioned the second propulsive mechanism is arranged on this second guide rail and moves forward and backward along the second guide rail.
6. rear loading high-speed computer panel saw according to claim 5, it is characterized in that: described the second propulsive mechanism includes second cross beam, the second motor and a plurality of pushing block assembly; The two ends of this second cross beam are butted on respectively on the second corresponding guide rail, and this second motor is fixed on second cross beam, and the second motor drives second cross beam by second driving shaft and moves forward and backward along the second guide rail; The plurality of pushing block assembly is arranged at intervals on second cross beam with the second cross beam synchronizing moving.
7. rear loading high-speed computer panel saw according to claim 1 is characterized in that: described material pressing device includes the binder crossbeam, sliding seat, first drives cylinder body, second to drive cylinder body and the 3rd motor; This binder crossbeam be horizontally set at workbench directly over, this sliding seat can laterally be arranged at actively on the binder crossbeam by line slideway and be up and down with the binder crossbeam; First to drive cylinder body to drive binder crossbeam up and down for this, and this second drives cylinder body to be arranged on sliding seat with the sliding seat transverse shifting, and the 3rd motor drives sliding seat by driving-chain and moves along the line slideway transverse reciprocating.
8. rear loading high-speed computer panel saw according to claim 1, it is characterized in that: described cutting means includes movable base and head saw assembly and secondary saw componet, and this movable base can laterally be arranged at the below of workbench in left and right actively; This head saw assembly and secondary saw componet all can be arranged on movable base up and downly and be laterally movable with the movable base left and right.
9. rear loading high-speed computer panel saw according to claim 8, it is characterized in that: described head saw assembly includes main motor, main saw plate, main motor cabinet and main driving cylinder body; This main motor and main saw plate separate type are arranged on main motor cabinet, and main saw plate is positioned at the top of main motor, and main motor drives main saw plate by the first driving-belt and rotates, and it is up and down that this main driving cylinder body drives the relative movable base of main motor cabinet.
10. rear loading high-speed computer panel saw according to claim 8 is characterized in that: described secondary saw componet includes auxiliary-motor, scoring blade, auxiliary-motor seat and the secondary cylinder body that drives; This auxiliary-motor and scoring blade separate type are arranged on the auxiliary-motor seat, and scoring blade is positioned at the top of auxiliary-motor, and auxiliary-motor drives scoring blade by the second driving-belt and rotates, and it is up and down that this pair drives cylinder body to drive the relative movable base of auxiliary-motor seat.
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| Application Number | Priority Date | Filing Date | Title |
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| CN 201110336925 CN102390063B (en) | 2011-10-31 | 2011-10-31 | Back loading high-speed computer panel saw |
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| Application Number | Priority Date | Filing Date | Title |
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| CN 201110336925 CN102390063B (en) | 2011-10-31 | 2011-10-31 | Back loading high-speed computer panel saw |
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| CN102390063A CN102390063A (en) | 2012-03-28 |
| CN102390063B true CN102390063B (en) | 2013-12-18 |
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Address after: 523000, Guangdong City, Dongguan Province Sha Tai town, large mud village, Dongguan City, South Hing furniture equipment manufacturing Limited by Share Ltd Applicant after: Nanxing Furniture Machinery & Equipment Co., Ltd. Address before: 523000, Guangdong City, Dongguan Province Sha Tau Town, big mud big village, Dongguan City, South Hing furniture equipment manufacturing Limited by Share Ltd Applicant before: Nanxing Furniture Machinery & Equipment Co., Ltd. |
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Address after: 523000, Dongguan, Guangdong province Houjie Town Science and Technology Industrial Park South Road Patentee after: Nam Hing equipment Limited by Share Ltd Address before: 523000, Guangdong City, Dongguan Province Sha Tai town, large mud village, Dongguan City, South Hing furniture equipment manufacturing Limited by Share Ltd Patentee before: Nanxing Furniture Machinery & Equipment Co., Ltd. |