CN203003230U - Full-automatic machining center system - Google Patents

Abstract

The utility model discloses a full-automatic machining center system comprising a rotary working table, two outer tooth milling machines and two air leakage groove milling machines, wherein the two outer tooth milling machines and the two air leakage groove milling machines are symmetrically arranged around the rotary working table; a horizontal sliding board is connected with the outer tooth milling machines; a hydraulic clamping device is arranged on the horizontal sliding board; the rotary working table comprises a first hydraulic cylinder, a second hydraulic cylinder and a ratchet wheel; the first hydraulic cylinder is connected with a swinging board; the swinging board is connected with a pawl; the second hydraulic cylinder is connected with a positioning board, and a pawl is matched with the positioning board; a downward-press sliding claw beam, a downward-press hydraulic cylinder, an upward-ejector sliding claw beam and an upward-ejector hydraulic cylinder are arranged on the hydraulic clamping device; the downward-press hydraulic cylinder drives the downward-press sliding claw beam; a downward-press block is connected with the downward-press sliding claw beam; the upward-ejector hydraulic cylinder drives the upward-ejector sliding claw beam; and the upward-ejector sliding claw beam is connected with an upward-ejector block. With the adoption of the manner, the full-automatic machining center system provided by the utility model can be used for improving the machining efficiency, and has the advantages of high machining accuracy, high automation degree and simple structure.

Description

Full-automatic machining center system

Technical field

The utility model relates to field of machining, particularly relates to a kind of full-automatic machining center system.

Background technology

Existing machining center, in the Gear Milling process, existing processing unit (plant) is in workpiece calibration process, because manually thereby operation causes the workpiece rotational angle to have deviation by the complicated means such as aid, line, time-consuming and be prone to substandard products in process; Existing clamping device is because clamping force is large, because causing the workpiece datum level, stressed larger being very easy to drift about in clamping process, if clamping force is too small, workpiece vibration and vibrations might occur and cause substandard products to occur in process, affect working (machining) efficiency, can economic loss to enterprise.

Summary of the invention

The technical problem that the utility model mainly solves is to provide a kind of full-automatic machining center system, can improve working (machining) efficiency, and machining accuracy is high, and automaticity is high, and is simple in structure.

for solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of full-automatic machining center system is provided, comprise: rotary table, two external tooth milling machines and two disappointing slot milling machines, described two external tooth milling machines and two disappointing slot milling machines all are symmetricly set in around rotary table, be connected with horizontal slide plate on described two external tooth milling machines, be provided with hydraulic clamp on described horizontal slide plate, described rotary table comprises rotary disk basement and rotating disk, be provided with the first hydraulic cylinder between described rotary disk basement and rotating disk, the second hydraulic cylinder and ratchet, be connected with oscillating deck on described the first hydraulic cylinder, be connected with ratchet on described oscillating deck, be connected with location-plate on described the second hydraulic cylinder, described ratchet matches with ratchet and location-plate respectively, described hydraulic clamp comprises frame, be provided with on described frame and press down the slip claw beam, press down hydraulic cylinder, upper top slip claw beam and upper top hydraulic cylinder, the described Driven by Hydraulic Cylinder that presses down presses down the slip claw beam, described pressing down on the slip claw beam is connected with lower lock block, slip claw beam in top on the Driven by Hydraulic Cylinder of described upper top, be connected with jacking block on described upper top slip claw beam.

In preferred embodiment of the utility model, be provided with milling unit head on described two external tooth milling machines and disappointing slot milling machine.

In preferred embodiment of the utility model, be provided with centre frame on described rotating disk, be connected with leading screw on described centre frame, be connected with strand thick stick and pressure ring on described leading screw, described pressure ring is positioned at below the strand thick stick.

In preferred embodiment of the utility model, described oscillating deck is connected with ratchet by the hydraulic cylinder pin by two fanning strips and forms, and described ratchet is articulated between two fanning strips.

In preferred embodiment of the utility model, described ratchet edge evenly is provided with 40 teeth.

In preferred embodiment of the utility model, described location-plate one end is fixedly hinged on rotary disk basement, and the other end and the second hydraulic cylinder are hinged.

In preferred embodiment of the utility model, described upper top hydraulic cylinder one end is provided with skewback, and described skewback is arranged on horizontal slide rail, and described upper top slip claw beam is arranged on skewback.

In preferred embodiment of the utility model, described pressing down on the slip claw beam is connected with adjusting screw, described lower lock block by adjusting screw with press down the slip claw beam and be connected.

In preferred embodiment of the utility model, described pressing down is connected with the first bearing pin on hydraulic cylinder, on described the first bearing pin, coordination hinge has first connecting rod and second connecting rod, be equipped with the second bearing pin on described second connecting rod, described the second bearing pin is fixed on frame, be connected with the 3rd bearing pin on described first connecting rod, be connected with the claw beam ear on described the 3rd bearing pin, the other end of described upper claw beam ear is fixedly connected on and presses down on the slip claw beam.

In preferred embodiment of the utility model, also comprise Hydraulic Station.

The beneficial effects of the utility model are: the full-automatic machining center of the utility model system can improve working (machining) efficiency, and machining accuracy is high, and automaticity is high, and is simple in structure.

Description of drawings

Fig. 1 is the structural representation of the full-automatic machining center of the utility model system one preferred embodiment;

Fig. 2 is the top view of full-automatic machining center shown in Figure 1 system;

Fig. 3 is the front view of the rotary table of full-automatic machining center shown in Figure 1 system;

Fig. 4 is the top view of rotary table shown in Figure 3;

Fig. 5 is the front view of the hydraulic clamp of full-automatic machining center shown in Figure 1 system;

Fig. 6 is that the G-G of hydraulic clamp shown in Figure 5 is to the sectional structure enlarged diagram;

in accompanying drawing, the mark of each parts is as follows: 1, rotary table, 101, rotary disk basement, 102, rotating disk, 103, the first hydraulic cylinder, 104, the second hydraulic cylinder, 105, ratchet, 106, oscillating deck, 107, ratchet, 108 location-plates, 109, centre frame, 110, leading screw, 111, the strand thick stick, 112, pressure ring, 113, fanning strip, 114, the hydraulic cylinder pin, 115, tooth, 2, the external tooth milling machine, 21, horizontal sliding table, 3, slot milling machine loses heart, 22, milling unit head, 4, hydraulic clamp, 401, frame, 402, press down the slip claw beam, 403, press down hydraulic cylinder, 404, upper top slip claw beam, 405, upper top hydraulic cylinder, 406, lower lock block, 407, upper jacking block, 408, skewback, 409, adjusting screw, 410, the first bearing pin, 411, first connecting rod, 412, second connecting rod, 413, the second bearing pin, 414, the 3rd bearing pin, 415, upper claw beam ear, 416, horizontal slide rail, 5, Hydraulic Station.

The specific embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, thereby so that advantage of the present utility model and feature can be easier to be it will be appreciated by those skilled in the art that, protection domain of the present utility model is made more explicit defining.

see also Fig. 1 to Fig. 6, a kind of full-automatic machining center system, comprise: rotary table 1, two external tooth milling machines 2, two disappointing slot milling machines 3 and Hydraulic Station 5, around all being symmetricly set in rotary table 1 to described two external tooth milling machines 2 and two disappointing slot milling machines 3, be connected with horizontal slide plate 21 on described two external tooth milling machines 2, be provided with hydraulic clamp 4 on described horizontal slide plate 21, be provided with milling unit head 22 on described two external tooth milling machines 2 and disappointing slot milling machine 3, Hydraulic Station 5 is to rotary table 1, two external tooth milling machines 2, two disappointing slot milling machines 3 and hydraulic clamp 4 provide hydraulic oil.

In addition, described rotary table 1 comprises rotary disk basement 101 and rotating disk 102, be provided with the first hydraulic cylinder 103, the second hydraulic cylinder 104 and ratchet 105 between described rotary disk basement 101 and rotating disk 102, be connected with oscillating deck 106 on described the first hydraulic cylinder 103, be connected with ratchet 107 on described oscillating deck 106, be connected with location-plate 108 on described the second hydraulic cylinder 104, described ratchet 105 matches with ratchet 107 and location-plate 108 respectively.

In addition, be provided with centre frame 109 on described rotating disk 102, be connected with leading screw 110 on described centre frame 109, be connected with strand thick stick 111 and pressure ring 112 on described leading screw 110, described pressure ring 112 is positioned at strand thick stick 111 belows.

In addition, described oscillating deck 106 is connected with ratchet 107 by hydraulic cylinder pin 114 by two fanning strips 113 and forms, between hinged and two fanning strips 113 of described ratchet 107.

In addition, described ratchet 104 edges evenly are provided with 40 teeth 115.

In addition, described location-plate 108 1 ends are fixedly hinged on rotary disk basement 101, and the other end and the second hydraulic cylinder 104 are hinged.

In addition, described hydraulic clamp 4 comprises frame 401, be provided with on described frame 401 and press down slip claw beam 402, press down hydraulic cylinder 403, upper top slip claw beam 404 and upper top hydraulic cylinder 405, the described hydraulic cylinder 403 of pressing down drives and presses down slip claw beam 402, described pressing down is connected with lower lock block 406 on slip claw beam 402, top slip claw beam 404 on described upper top Driven by Hydraulic Cylinder 405 is connected with jacking block 407 on described upper top slip claw beam 404.

In addition, described upper top hydraulic cylinder 403 1 ends are provided with skewback 408, and described skewback 403 is arranged on horizontal slide rail 416, and described upper top slip claw beam 405 is arranged on skewback 403.

In addition, described pressing down is connected with adjusting screw 409 on slip claw beam 402, described lower lock block 406 by adjusting screw 409 with press down slip claw beam 402 and be connected.

In addition, described pressing down is connected with the first bearing pin 410 on hydraulic cylinder 403, on described the first bearing pin 410, coordination hinge has first connecting rod 411 and second connecting rod 412, be equipped with the second bearing pin 413 on described second connecting rod 411, described the second bearing pin 413 is fixed on frame 401, be connected with the 3rd bearing pin 414 on described first connecting rod 411, be connected with claw beam ear 415 on described the 3rd bearing pin 414, the other end of described upper claw beam ear 415 is fixedly connected on and presses down on slip claw beam 402.

the full-automatic machining center of the utility model system specific works principle is as follows: workpiece 7 is placed on the rotating disk 102 of rotary table, by centre frame 109, leading screw 110, strand thick stick 111 and pressure ring 112 are fixed on workpiece 7 on rotating disk 102, then the horizontal sliding table 21 of external tooth milling machine 2 with hydraulic clamp 4 to workpiece movable, after moving into place, upper top hydraulic cylinder 405 promotes skewback 408 and moves, the upper top slip claw beam 404 that is arranged on skewback 408 moves up, stop mobile after upper jacking block 407 holds out against with workpiece 7, press down simultaneously hydraulic cylinder 103 and drive the first bearing pin 411 promotion first connecting rods 411, thereby drive the 3rd bearing pin 414 that is connected with first connecting rod 411, the 3rd bearing pin 414 promotes to press down slip claw beam 402 down slidings, adjusting screw mandrel 409 is followed to press down slip claw beam 402 and drive lower lock block 406 and is moved down, lower lock block 406 compresses workpiece 7, complete the clamping operation to workpiece 7, the pressure of upper jacking block 407 has HYDRAULIC CONTROL SYSTEM, make it to guarantee that the workpiece datum level does not drift about, the inclination angle of upper top slip claw beam 404 inclination T shape tilt slides and skewback 408 inclination T-slots all less than Self-locking angle above jacking block 107 can provide powerful reaction force to resist the crunch of lower lock block 406, two external tooth milling machines 2 and two disappointing slot milling machines 3 drive 22 pairs of workpiece of milling unit head 7 and carry out groove milling and mill teeth, after groove milling and mill teeth are completed, hydraulic clamp 4 unclamps, driven by horizontal sliding table 21 and get back to initial position, the first hydraulic cylinder 103 of rotary table 1 drives oscillating deck 106 and swings, the ratchet 107 that is connected with oscillating deck 106 drives ratchet 105 and is rotated, the stroke of ratchet 107 is greater than a tooth top pitch of ratchet 105, two tooth top pitches less than ratchet 105, so there is deviation in the angle that ratchet 105 rotates, this moment second, hydraulic cylinder 104 drive location-plates 108 swung, location-plate 108 snaps in ratchet, then 105 position ratchet 105, guarantee that the each angle of rotating of ratchet 105 is 9 °, be that ratchet rotates a tooth, so far complete calibration one time, then repeat above-mentioned clamping operation, groove milling and milling teeth procedure, until workpiece machines.

Be different from prior art, the full-automatic machining center of the utility model system can improve working (machining) efficiency, and machining accuracy is high, and automaticity is high, and is simple in structure.

The above is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in scope of patent protection of the present utility model.

Claims (10)

1. full-automatic machining center system, it is characterized in that, comprise: rotary table, two external tooth milling machines and two disappointing slot milling machines, described two external tooth milling machines and two disappointing slot milling machines all are symmetricly set in around rotary table, be connected with horizontal slide plate on described two external tooth milling machines, be provided with hydraulic clamp on described horizontal slide plate, described rotary table comprises rotary disk basement and rotating disk, be provided with the first hydraulic cylinder between described rotary disk basement and rotating disk, the second hydraulic cylinder and ratchet, be connected with oscillating deck on described the first hydraulic cylinder, be connected with ratchet on described oscillating deck, be connected with location-plate on described the second hydraulic cylinder, described ratchet matches with ratchet and location-plate respectively, described hydraulic clamp comprises frame, be provided with on described frame and press down the slip claw beam, press down hydraulic cylinder, upper top slip claw beam and upper top hydraulic cylinder, the described Driven by Hydraulic Cylinder that presses down presses down the slip claw beam, described pressing down on the slip claw beam is connected with lower lock block, slip claw beam in top on the Driven by Hydraulic Cylinder of described upper top, be connected with jacking block on described upper top slip claw beam.

2. full-automatic machining center according to claim 1 system, is characterized in that, is provided with milling unit head on described two external tooth milling machines and disappointing slot milling machine.

3. full-automatic machining center according to claim 1 system, is characterized in that, is provided with centre frame on described rotating disk, is connected with leading screw on described centre frame, is connected with strand thick stick and pressure ring on described leading screw, and described pressure ring is positioned at strand thick stick below.

4. full-automatic machining center according to claim 1 system, is characterized in that, described oscillating deck is connected with ratchet by the hydraulic cylinder pin by two fanning strips and forms, and described ratchet is articulated between two fanning strips.

5. full-automatic machining center according to claim 1 system, is characterized in that, described ratchet edge evenly is provided with 40 teeth.

6. full-automatic machining center according to claim 1 system, is characterized in that, described location-plate one end is fixedly hinged on rotary disk basement, and the other end and the second hydraulic cylinder are hinged.

7. full-automatic machining center according to claim 1 system, is characterized in that, described upper top hydraulic cylinder one end is provided with skewback, and described skewback is arranged on horizontal slide rail, and described upper top slip claw beam is arranged on skewback.

8. full-automatic machining center according to claim 1 system, is characterized in that, described pressing down on the slip claw beam is connected with adjusting screw, described lower lock block by adjusting screw with press down the slip claw beam and be connected.

9. full-automatic machining center according to claim 1 system, it is characterized in that, described pressing down is connected with the first bearing pin on hydraulic cylinder, on described the first bearing pin, coordination hinge has first connecting rod and second connecting rod, be equipped with the second bearing pin on described second connecting rod, described the second bearing pin is fixed on frame, is connected with the 3rd bearing pin on described first connecting rod, be connected with the claw beam ear on described the 3rd bearing pin, the other end of described upper claw beam ear is fixedly connected on and presses down on the slip claw beam.

10. full-automatic machining center according to claim 1 system, is characterized in that, also comprises Hydraulic Station.

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