A kind of Pressesservo
Technical field
The utility model relates to a kind of Pressesservo, belongs to numerical control press technical field.
Background technology
Numerical control press is the abbreviation of numerically controlled punching machine, is a kind of automated machine tool that program control system is housed.This control system can logically process has control coding or other symbolic instruction regulated procedures, and by its decoding, thus make punch press action and processing parts, be widely used in the punch process of the industries such as machinery, electrical equipment, instrument, screen cloth, five metals, all kinds of metal dish, case, cabinet, utilize single stamping-out mode and step mode of cutting out in a state of excitement to go out various shape, the hole of size and part, be specially adapted in multi items, the plate stamping of small lot or single-piece; But the automaticity of the numerical control press of the aluminium section bar of processing advertisement is now not high enough, can not meet the need of market.
Utility model content
The technical problems to be solved in the utility model is: for overcoming the problems referred to above, provides a kind of simple and reasonable, Pressesservo that flexible operation, automaticity are high, applied widely.
The utility model solves the technical scheme that its technical problem adopts:
A kind of Pressesservo, comprise C type portal frame, support platform is provided with in the middle of described C type portal frame, the front end, top of described C type portal frame is provided with numerical control plunger mechanism, described support platform is provided with moving feeding mechanism, described numerical control plunger mechanism is all connected with control system with moving feeding mechanism;
Described numerical control plunger mechanism comprises the first servomotor being arranged on described C type portal frame top one avris, the output of described first servomotor is connected with the first decelerator and the first rotating shaft that are arranged on described C type portal frame inside in turn, described first rotating shaft is connected with the second rotating shaft by the first crank, the centre of described first crank and one end of first connecting rod hinged, the other end of described first connecting rod and one end of transiting rod hinged, the other end of described transiting rod is connected with one end of second connecting rod, the other end of described second connecting rod and one end of double leval jib together hinged with one end of third connecting rod, the other end and second crank of described third connecting rod are hinged, described second crank is fixedly connected between two fixed bearing blocks, the other end of described double leval jib and one end of piston hinged, described piston is arranged in cylinder sleeve, the other end of described piston is provided with drift, in described support platform, corresponding described drift is provided with counterdie.
Preferably, described moving feeding mechanism comprises X-axis feed mechanism and Y-axis feed mechanism, described X-axis feed mechanism comprises X-axis tooth bar arranged in parallel and X-axis guide rail, described X-axis guide rail is movably provided with delivery sheet, described delivery sheet is provided with connection riser in described X-axis tooth bar side, described connection riser is provided with X-axis motor, the output of described X-axis motor is provided with X-axis gear, described X-axis gear and described X-axis tooth bar meshing, described Y-axis feed mechanism comprises Y-axis tooth bar arranged in parallel and Y-axis guide rail, described delivery sheet is provided with movable base plate in Y-axis rail-sides, described movable base plate can be arranged on Y-axis guide rail along Y-axis movement, described movable base plate is also provided with y-axis motor, the output of described y-axis motor is provided with Y-axis gear, described Y-axis gear and described Y-axis tooth bar meshing, described delivery sheet has also been arranged side by side multiple clamping device.
Preferably, described clamping device comprises train wheel bridge and lower plate, is also provided with binder cylinder on the upside of described train wheel bridge.
Preferably, described control system is numerical control system.
Preferably, described transiting rod is provided with lining, described lining is formed with mesh.
Preferably, described first rotating shaft and the second rotating shaft are fixed on the inwall of described C type portal frame respectively by bearing spider.
Preferably, described counterdie is fixed in described support platform by lower model fixing seat.
Preferably, the downside of described cylinder sleeve is provided with material returned part.
Preferably, support side seat is also provided with on the downside of described C type portal frame.
The beneficial effects of the utility model are: the utility model structure is simple, drive piston to move up and down in cylinder sleeve by multistage connecting rod, thus realize carrying out punching with the drift that described piston tip is arranged, this novel employing single servo motor is arranged, die-cut speed is faster, and die cutting accuracy is higher.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is further illustrated.
Fig. 1 is the stereogram of the utility model embodiment;
Fig. 2 is the front view of numerical control plunger mechanism described in the utility model;
Fig. 3 is the top view of moving feeding mechanism described in the utility model.
Mark in figure: 1-C type portal frame, 2-support platform, 3-numerical control plunger mechanism, 4-control system, 5-moving feeding mechanism, 6-supports side seat, 7-counterdie, model fixing seat under 8-, 9-protecting sheathing, 311-first servomotor, 312-first decelerator, 313-first rotating shaft, 314-first connecting rod, 315-transiting rod, 316-lining, 317-second connecting rod, 318-third connecting rod, 319-double leval jib, 323-second rotating shaft, 324-second crank, 325-cylinder sleeve, 326-drift, 327-bearing spider, 328-fixed bearing block, 511-delivery sheet, 512-X axis rail, 513-X axle tooth bar, 514-connects riser, 515-X spindle motor, 521-Y axis rail, 522-Y axle tooth bar, 523-clamping device, 524-binder cylinder.
Detailed description of the invention
By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.
Described in the utility model a kind of Pressesservo as shown in Figure 1, comprise C type portal frame 1, support platform 2 is provided with in the middle of described C type portal frame 1, for placing rapidoprint in described support platform 2, the front end, top of described C type portal frame 1 is provided with numerical control plunger mechanism 3, described numerical control plunger mechanism 3 is for punching on material, described support platform 2 is provided with moving feeding mechanism 5, described numerical control plunger mechanism 3 is all connected with control system 4 with moving feeding mechanism 5, described moving feeding mechanism 5 is for the left and right of level and front and back feeding, parameter can be pre-set in described control system 4, described control system 4 controls moving feeding mechanism 5 and material is delivered to precalculated position, then numerical control plunger mechanism 3 carries out punching press according to parameter,
Described numerical control plunger mechanism 3 comprises the first servomotor 311 being arranged on described C type portal frame 1 top one avris, as shown in Figure 2, the output of described first servomotor 311 is connected with the first decelerator 312 and the first rotating shaft 313 being arranged on described C type portal frame 1 inside in turn, described first rotating shaft 313 is connected with the second rotating shaft 323 by the first crank, this novel employing single servo motor is arranged, steadily die-cut, flush shear force is larger, described first servomotor 311 is provided with protecting sheathing 9, the centre of described first crank and one end of first connecting rod 314 hinged, the other end of described first connecting rod 314 and one end of transiting rod 315 hinged, the other end of described transiting rod 315 is connected with one end of second connecting rod 317, the other end of described second connecting rod 317 and one end of double leval jib 319 together hinged with one end of third connecting rod 318, the other end and second crank 324 of described third connecting rod 318 are hinged, described second crank 324 is fixedly connected between two fixed bearing blocks 328, the other end of described double leval jib 319 and one end of piston (not shown) hinged, described piston is arranged in cylinder sleeve 325, the other end of described piston is provided with drift 326, when needs punching press, control signal is sent to the first servomotor 311 and the second servomotor by described control system 4, it drives the first rotating shaft 313 and the second rotating shaft 323 to rotate respectively, first crank and the first connecting rod 314 of described first rotating shaft 313 and the second rotating shaft 323 centre form a crank rod movement pair, first connecting rod 314 drives transiting rod 315 and second connecting rod 317 to move, while rocking before and after the lower end that second connecting rod 317 promotes third connecting rod 318, hinged double leval jib 319 can be driven to move up and down, double leval jib 319 drives described piston up-down, thus drift 326 is moved up and down carry out punching press, in described support platform 2, corresponding described drift 326 is provided with counterdie 7, the utility model adopts accurate numerical control servo motor, machining accuracy is high, transmission efficiency is high, easy accessibility, noise is little, loss is little and energy-conservation.
In preferred embodiments, described moving feeding mechanism 5 comprises X-axis feed mechanism and Y-axis feed mechanism, as shown in Figure 3, described X-axis feed mechanism comprises X-axis tooth bar 513 arranged in parallel and X-axis guide rail 512, described X-axis guide rail 512 is movably provided with delivery sheet 511, described delivery sheet 511 is arranged on described X-axis guide rail 512 by conventional slide block, described delivery sheet 511 is provided with in described X-axis tooth bar 513 side and connects riser 514, described connection riser 514 is vertical with described delivery sheet 511 in the present embodiment to be arranged, described connection riser 514 is provided with X-axis motor 515, the output of described X-axis motor 515 is provided with X-axis gear, described X-axis gear and described X-axis tooth bar 513 meshing, therefore when X-axis motor 515 drives X-axis gear to rotate, described delivery sheet 511 can be driven to move in the X-axis direction, described Y-axis feed mechanism comprises Y-axis tooth bar 522 arranged in parallel and Y-axis guide rail 521, described delivery sheet 511 is provided with movable base plate in Y-axis guide rail 521 side, described movable base plate can be arranged on Y-axis guide rail 521 along Y-axis movement, in the present embodiment, described movable base plate is arranged on described Y-axis guide rail 521 by slide block, described movable base plate is also provided with y-axis motor, the output of described y-axis motor is provided with Y-axis gear, described Y-axis gear and described Y-axis tooth bar 522 meshing, described delivery sheet 511 is also preferably provided with 4 clamping devices 523 side by side, described clamping device 523 is for fastening material, prevent its moving influence machining accuracy when processing.
In preferred embodiments, described clamping device 523 comprises train wheel bridge and lower plate, is also provided with binder cylinder 524 on the upside of described train wheel bridge, and described binder cylinder 524 can control train wheel bridge folding, thus material is clamped by described train wheel bridge and lower plate.
In preferred embodiments, described control system 4 is numerical control system 4, and described numerical control system 4 can adopt conventional selection, does not specifically limit.
In preferred embodiments, described transiting rod 315 is provided with lining 316, described lining 316 is formed with mesh.
In preferred embodiments, described first rotating shaft 313 and the second rotating shaft 323 are fixed on the inwall of described C type portal frame 1 respectively by bearing spider 327.
In preferred embodiments, described counterdie 7 is fixed in described support platform 2 by lower model fixing seat 8, makes counterdie 7 more stable, ensures die cutting accuracy.
In preferred embodiments, the downside of described cylinder sleeve 325 is provided with material returned part, and it is for the material returned.
In preferred embodiments, be also provided with on the downside of described C type portal frame 1 and support side seat 6, for firm for this device is fixed.
With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on description, must determine its technical scope according to right.