CN201109027Y - Three-cutting-head seven-axial linkage indeterminate beam gantry type numerically controlled boring-milling machine - Google Patents

Abstract

The utility model relates to a fixed beam planer type numerical control boring and milling machine, in particular to the fixed beam planer type numerical control boring and milling machine with three cutting heads and seven shafts and three-linkage. The boring and milling machine comprises a machine body, a working table on the machine body, a left and a right upright posts at the two sides of the machine body, a beam supported by the left and the right upright posts, a sliding plate that can move left and right on the beam, and a main cutting head moving up and down on the sliding plate through a ram. Two side cutting heads are additionally arranged on the left and the right upright posts and can move up and down as well as left and right oppositely to the upright posts through a locating mechanism. After the workpiece is clamped once, any one of the three cutting heads can be cut and the three cutting heads can also be cut at the same time, thereby reducing the trouble for installing and aligning additional side cutter heads and the auxiliary time, and ensuring the product quality. If a numerical control rotary table is added on the working table, a machine tool can immediately realize the boring, the milling, and the drilling processes of the top face, any side face, curved face, and slant bore, and greatly improve the function and the value of the machine tool.

Description

Three cutting head, seven axle linkages decide diplodocus gate-type digital-control boring-milling machine

Technical field

The utility model relates to a kind of diplodocus gate-type digital-control boring-milling machine of deciding, particularly a kind of three cutting head, seven axle linkages decide diplodocus gate-type digital-control boring-milling machine.

Background technology

Decide diplodocus gate-type digital-control boring-milling machine and be the processing of big-and-middle-sized parts such as a kind of various casing classes that are widely used in automobile, Aero-Space, metallurgical machinery, printing packaging machinery, textile machine, die industry, refrigeration petrochemical industry and rolling stock industry, frame class, dish class, plate class, precision die.After clamping of workpiece, can finish boring automatically, mill, the processing of multiple working procedure such as brill, hinge, tapping.As required can the installation accessories cutting head, realize five processing to workpiece.For improving machining accuracy, three the grating chi can be installed all and carry out the precision feedback, make positioning accuracy, repetitive positioning accuracy reach very high level.

Existingly decide diplodocus gate-type digital-control boring-milling machine as shown in Figure 1, generally form by lathe bed, workbench, left column, right column, crossbeam, slide plate, ram, main speed reduction box, console, electric control box, hydraulic control box etc.Workbench moving forward and backward on lathe bed is decided to be X-axis, the move left and right of slide plate on crossbeam is decided to be Y-axis, and the ram that the main cutting head is housed moves up and down in slide plate and is decided to be the Z axle, and three by the servomotor rotational lead screw, order about moving component and on guide rail, move, reach location and cutting function.Problem is, commonly decides diplodocus gate-type digital-control boring-milling machine, and it is more time-consuming to change the side milling head, and the centering precision is cumbersome, and carelessness is arranged slightly, occurs quality accident easily.

The utility model content

In order to overcome above-mentioned deficiency, what a kind of three cutting head, seven axle linkages were provided decides diplodocus gate-type digital-control boring-milling machine, increases by two side cutting head on original basis of deciding diplodocus gate-type boring and milling machine, reduces the trouble of centering additional side milling head is installed on the main cutting head.The technical scheme that the utility model adopted is: a kind of three cutting head, seven axle linkages decide diplodocus gate-type digital-control boring-milling machine, the crossbeam that comprises the left and right pillar of workbench on lathe bed, the lathe bed, lathe bed both sides, supports by left and right pillar, at the slide plate of move left and right on the crossbeam and the main cutting head that on slide plate, moves up and down by ram, on left and right pillar, increase by two side cutting head, described side cutting head by about the relative column of detent mechanism, move left and right.

Concrete, detent mechanism comprises slide plate and ram, and slide plate moves up and down on column, and the side cutting head is by ram move left and right in slide plate, and ram and slide plate adopt the mode of driven by servomotor screw mandrel that ram and slide plate are moved on guide rail separately.

The beneficial effects of the utility model are: three cutting head can be cut by any one head behind clamping of workpiece, and also three participations are simultaneously cut, and have reduced the trouble of installation and centering additional side milling head, have reduced non-cutting time, have guaranteed product quality.If increase the work of numerical control rotating platform on workbench, lathe can be realized end face and any side immediately, the boring of curved surface and inclined hole, mills, bores processing, has greatly improved the function and the value of lathe.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 be existing have a main cutting head decide diplodocus gate-type digital-control boring-milling machine.

Fig. 2 is a structural representation of the present utility model.

Among the figure: 1. lathe bed, 2. workbench, 3. column, 4. crossbeam, 5. slide plate, 6. ram, 7. main cutting head, 8. side cutting head.

The specific embodiment

This three cutting head, seven axle linkages as shown in Figure 2 decide diplodocus gate-type digital-control boring-milling machine, the crossbeam 4 that comprises the left and right pillar 3 of workbench 2 on lathe bed 1, the lathe bed 1, lathe bed 1 both sides, supports by left and right pillar 3, in the slide plate 5 of move left and right on the crossbeam 4 and the main cutting that on slide plate 5, moves up and down 7 by ram 6, increase by two side cutting head 8 on left and right pillar 3, side cutting head 8 is by the relative column of detent mechanism about in the of 3, move left and right.The move left and right of two side cutting head that increase is decided to be W1 and W2 axle respectively with moving up and down, and makes this boring and milling machine have seven, and three cutting head can be cut by any one head, also can participate in cutting simultaneously.

The detent mechanism of the detent mechanism of additional side cutting head 8 and existing main cutting 7 is similar substantially, it comprises slide plate 5 and ram 6, slide plate 5 moves up and down on column 3, side cutting head 8 is by ram 6 move left and right in slide plate 5, and ram 6 and slide plate 5 adopt the mode of driven by servomotor screw mandrel that ram 6 and slide plate 5 are moved on guide rail separately.If increase the work of numerical control rotating platform on workbench, lathe can be realized end face and any side immediately, the boring of curved surface and inclined hole, mills, bores processing.

Creation point of the present utility model is to set up two side cutting head in the left and right sides of workbench, has greatly enriched the function of deciding diplodocus gate-type digital-control boring-milling machine.

Claims (2)

1, a kind of three cutting head, seven axle linkages decides diplodocus gate-type digital-control boring-milling machine, the crossbeam (4) that comprises the left and right pillar (3) of workbench (2) on lathe bed (1), the lathe bed (1), lathe bed (1) both sides, supports by left and right pillar (3), go up the slide plate (5) of move left and right and go up the main cutting head (7) that moves up and down by ram (6) at slide plate (5) at crossbeam (4), it is characterized in that: go up to increase by two side cutting head (8) at described left and right pillar (3), side cutting head (8) by the relative column of detent mechanism (3) up and down, move left and right.

2, three cutting head, seven axle linkages according to claim 1 decides diplodocus gate-type digital-control boring-milling machine, it is characterized in that: described detent mechanism comprises slide plate (5) and ram (6), slide plate (5) moves up and down on column (3), side cutting head (8) is by ram (6) move left and right in slide plate (5), and ram (6) and slide plate (5) adopt the mode of driven by servomotor screw mandrel that ram (6) and slide plate (5) are moved on guide rail separately.

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