CN201592345U

CN201592345U - Multi-spindle gantry-type machining center

Info

Publication number: CN201592345U
Application number: CN2009203510744U
Authority: CN
Inventors: 杨国涛; 陈立新; 王彦峰; 杨建国; 周国新
Original assignee: CHANGZHOU SANLI PRECISION MACHINE Co Ltd
Current assignee: CHANGZHOU SANLI PRECISION MACHINE Co Ltd
Priority date: 2009-12-23
Filing date: 2009-12-23
Publication date: 2010-09-29
Anticipated expiration: 2019-12-23

Abstract

The utility model relates to a multi-spindle gantry-type machining center which comprises a bed body, a workbench, a left upright post, a right upright post and a cross beam, wherein an upright first spindle moving mechanism, an inclined second spindle moving mechanism and an inclined third spindle moving mechanism are arranged on the cross beam. The multi-spindle gantry-type machining center comprises a plurality of spindles, the upright first spindle moving mechanism is utilized for machining the upper plane of a machine body, the inclined second spindle moving mechanism is utilized for machining the left-side inclined plane of the machine body and the inclined third spindle moving mechanism is utilized for machining the right-side inclined plane of the machine body; and one-time clamping of the machine body can carry out machining of a plurality of process steps of milling, boring, drilling, broaching, fraising, tapping and the like, therefore, the multi-spindle gantry-type machining center has simple operation and improves the machining efficiency of the machine body.

Description

The multi-spindle planer-type machining center

Technical field

The utility model relates to a kind of multi-spindle planer-type machining center.

Background technology

Gantry Machining Center is the common equipment of processing diesel engine body, conventional gantry Machining Center has only a ram and a main shaft, and for the large-scale diesel-engine body of complexity, as large-scale diesel-engine body with the complexity on two prisms and a last plane, need by special fixture, carry out multiple clamping after, just can finish whole operations processing of body, complicated operation, operating efficiency is lower.

The utility model content

The technical problems to be solved in the utility model is: overcome the deficiencies in the prior art, a kind of multi-spindle planer-type machining center is provided, has a plurality of main shafts, once can carry out the processing of a plurality of multiple working procedures for the processing work clamping of complexity, simple to operate, operating efficiency is higher.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of multi-spindle planer-type machining center, have lathe bed, workbench, left column, right column and crossbeam, described crossbeam front is equipped with the upright first motion of main shaft mechanism, the crossbeam back side second motion of main shaft mechanism of inclination and the 3rd motion of main shaft mechanism of inclination is installed.

Workbench moves in the X-axis direction, and left column and right column are installed in the lathe bed both sides respectively, and crossbeam is installed in left column and above the right column.

Further, the described second motion of main shaft mechanism angle that is tilted to the left.

Further, described the 3rd motion of main shaft mechanism angle that is tilted to the right.

Particularly, the described first motion of main shaft mechanism comprises the Y1 axis carriage, has the Z1 axle ram and the fromer rail of main shaft, the Y1 axis carriage uprightly is installed in the crossbeam front, Z1 axle ram uprightly is installed in the Y1 axis carriage, and fromer rail is installed between Y1 axis carriage and the crossbeam and with the Y1 axis carriage is vertical and cooperates.

Particularly, the described second motion of main shaft mechanism comprises the Y2 axis carriage, has the Z2 axle ram and the left rail of main shaft, the Y2 axis carriage is installed in left side, the crossbeam back side and is tilted to the left, Z2 axle ram is installed in the Y2 axis carriage and the respective angles that is tilted to the left, and left rail tilts to be installed between Y2 axis carriage and the crossbeam and with the Y2 axis carriage is vertical and cooperates.

Further, the center line of described Y2 axis carriage and the angle of vertical line are for being tilted to the left and the corresponding angle of workpiece, and correspondingly, the center line of described Z2 axle ram and the angle of vertical line are for being tilted to the left and the corresponding angle of workpiece.

Particularly, described the 3rd motion of main shaft mechanism comprises the Y3 axis carriage, has the Z3 axle ram and the right guide rail of main shaft, the Y3 axis carriage is installed in right side, the crossbeam back side and is tilted to the right, Z3 axle ram is installed in the Y3 axis carriage and the respective angles that is tilted to the right, and right guide rail tilts to be installed between Y3 axis carriage and the crossbeam and with the Y3 axis carriage is vertical and cooperates.

Further, the center line of described Y3 axis carriage and the angle of vertical line are for being tilted to the right and the corresponding angle of workpiece, and correspondingly, the center line of described Z3 axle ram and the angle of vertical line are for being tilted to the right and the corresponding angle of workpiece.

On the Z1 axle ram first main shaft is installed, second main shaft of corresponding inclination is installed on the Z2 axle ram, the 3rd main shaft of corresponding inclination is installed on the Z3 axle ram, and first main shaft, second main shaft, the 3rd main shaft all can be installed the cutter of various operations such as being used for milling, bore hole, boring, reaming, fraising and tapping.

In order to offset second main shaft, the 3rd main shaft owing to being obliquely installed the downslide that produces, described second motion of main shaft mechanism and the 3rd motion of main shaft mechanism are provided with hydraulic balance device.

Described machining center also has operation panel, tool magazine, hydraulic control system, electrical apparatus control system, cooling system and chip removal system.

The beneficial effects of the utility model are: the utlity model has first main shaft, second main shaft, a plurality of main shafts such as the 3rd main shaft, utilize the first upright motion of main shaft mechanism that first main shaft is moved up and down and process the last plane of body, the second motion of main shaft mechanism that utilization is tilted to the left moves second main shaft up and down and processes the inclined-plane, left side of body, the 3rd motion of main shaft mechanism that utilization is tilted to the right moves the 3rd main shaft up and down and processes the inclined-plane, right side of body, like this, clamping of body can carry out a plurality of facing cuts and cut, bore hole, boring, reaming, the processing of multiple working procedure such as fraising and tapping, simple to operate, improved the working (machining) efficiency of body.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples.

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the scheme of installation of the first motion of main shaft mechanism in the utility model;

Fig. 3 is the scheme of installation of the second motion of main shaft mechanism, the 3rd motion of main shaft mechanism in the utility model;

Wherein: 1. the first motion of main shaft mechanism, 11.Y1 axis carriage, 12.Z1 axle ram, 13. fromer rails, 2. the second motion of main shaft mechanism, 21.Y2 axis carriage, 22.Z2 axle ram, 23. left rails, 3. the 3rd motion of main shaft mechanism, 31.Y3 axis carriage, 32.Z3 axle ram, 33. right guide rails

The specific embodiment

As Fig. 1, Fig. 2, multi-spindle planer-type machining center shown in Figure 3, have lathe bed, workbench, left column, right column and crossbeam, the crossbeam front is equipped with the first upright motion of main shaft mechanism 1, and the crossbeam back side is equipped with second motion of main shaft mechanism 2 that is tilted to the left and the 3rd motion of main shaft mechanism 3 that is tilted to the right.

Workbench moves in the X-axis direction, and left column and right column are installed in the both sides of bed piece respectively, crossbeam be installed in left column and right column above.

As shown in Figure 2, the first motion of main shaft mechanism 1, comprise Y1 axis carriage 11, Z1 axle ram 12 and fromer rail 13, Y1 axis carriage 11 uprightly is installed in the crossbeam front, Z1 axle ram 12 uprightly is installed in the Y1 axis carriage 11, on the Z1 axle ram 12 first main shaft is installed, fromer rail 13 be installed between Y1 axis carriage 11 and the crossbeam and with 11 vertical cooperations of Y1 axis carriage.

Y1 axis carriage 11 is along fromer rail 13 move left and right, and Z1 axle ram 12 moves up and down in Y1 axis carriage 11, and drives the last plane of first main axle moving and then processing body.On Z1 axle ram, can install the various milling attachment heads that manufactory produces additional, further enlarge the range of work of lathe.

As shown in Figure 3, the second motion of main shaft mechanism 2, comprise Y2 axis carriage 21, Z2 axle ram 22 and left rail 23, Y2 axis carriage 21 is installed in left side, the crossbeam back side and is tilted to the left and the corresponding angle of workpiece, Z2 axle ram 22 is installed in the Y2 axis carriage 21 and is tilted to the left and the corresponding angle of workpiece, on the Z2 axle ram 22 second main shaft is installed, left rail 23 tilt to be installed between Y2 axis carriage 21 and the crossbeam and with 21 vertical cooperations of Y2 axis carriage.

Y2 axis carriage 21 is along left rail 23 move left and right, and Z2 axle ram 22 moves up and down in Y2 axis carriage 21, and drives the left prism of second main shaft processing body.

The 3rd motion of main shaft mechanism 3 comprises Y3 axis carriage 31, Z3 axle ram 32 and right guide rail 33, Y3 axis carriage 31 is installed in right side, the crossbeam back side and is tilted to the right and the corresponding angle of workpiece, Z3 axle ram 32 is installed in the Y3 axis carriage 31 and is tilted to the right and the corresponding angle of workpiece, on the Z3 axle ram 32 the 3rd main shaft is installed, right guide rail 33 tilt to be installed between Y3 axis carriage 31 and the crossbeam and with 31 vertical cooperations of Y3 axis carriage.

Y3 axis carriage 31 is along right guide rail 33 move left and right, and Z3 axle ram 32 moves up and down in Y3 axis carriage 31, and drives the right prism of the 3rd main shaft processing body.

Z1 axle ram, Z2 axle ram, Z3 axle ram that main shaft and spindle gearing are installed all adopt the load of ball-screw in the hydraulic balance device balance exercise mechanism, reduce the wearing and tearing of ball-screw, keep the precision stability of ball-screw.

Machining center also has operation panel, tool magazine, hydraulic control system, electrical apparatus control system, cooling system and chip removal system.

The first motion of main shaft mechanism 1 that the utility model utilization is upright, make the last plane of first main shaft processing body, the second motion of main shaft mechanism 2 that utilization is tilted to the left, make the inclined-plane, left side of second main shaft processing body, the 3rd motion of main shaft mechanism 3 that utilization is tilted to the right, make the inclined-plane, right side of the 3rd main shaft processing body, like this, clamping of body can carry out the processing of a plurality of multiple working procedures such as milling, bore hole, boring, reaming, fraising and tapping, simple to operate, improved the working (machining) efficiency of body.

The utility model can also adopt other embodiments, be installed in the crossbeam back side as the first upright motion of main shaft mechanism, the second motion of main shaft mechanism and the 3rd motion of main shaft mechanism are installed in the crossbeam front, and the angle of inclination of the second motion of main shaft mechanism and the 3rd motion of main shaft mechanism can be regulated according to the angle of inclination of need processing machine body side surface.Under the situation that does not deviate from the utility model essence, those of ordinary skill in the art make corresponding change and distortion to this utility model, and these are changed accordingly and are out of shape within the protection domain that all should belong to the utility model right.

Claims

1. multi-spindle planer-type machining center, have lathe bed, workbench, left column, right column and crossbeam, it is characterized in that: the 3rd motion of main shaft mechanism (3) that the first upright motion of main shaft mechanism (1), the second motion of main shaft mechanism (2) of tilting is installed on the described crossbeam and tilts.

2. multi-spindle planer-type machining center according to claim 1 is characterized in that: the described second motion of main shaft mechanism (2) angle that is tilted to the left.

3. multi-spindle planer-type machining center according to claim 1 is characterized in that: described the 3rd motion of main shaft mechanism (3) angle that is tilted to the right.

4. multi-spindle planer-type machining center according to claim 1, it is characterized in that: the described first motion of main shaft mechanism (1) comprises Y1 axis carriage (11), Z1 axle ram (12) and fromer rail (13), Y1 axis carriage (11) uprightly is installed in the crossbeam front, Z1 axle ram (12) uprightly is installed in the Y1 axis carriage (11), fromer rail (13) be installed between Y1 axis carriage (11) and the crossbeam and with vertical cooperation of Y1 axis carriage (11).

5. multi-spindle planer-type machining center according to claim 2, it is characterized in that: the described second motion of main shaft mechanism (2) comprises Y2 axis carriage (21), Z2 axle ram (22) and left rail (23), Y2 axis carriage (21) is installed in left side, the crossbeam back side and is tilted to the left, Z2 axle ram (22) is installed in the Y2 axis carriage (21) and the respective angles that is tilted to the left, left rail (23) tilt to be installed between Y2 axis carriage (21) and the crossbeam and with vertical cooperation of Y2 axis carriage (21).

6. multi-spindle planer-type machining center according to claim 3, it is characterized in that: described the 3rd motion of main shaft mechanism (3) comprises Y3 axis carriage (31), Z3 axle ram (32) and right guide rail (33), Y3 axis carriage (31) is installed in right side, the crossbeam back side and is tilted to the right, Z3 axle ram (32) is installed in the Y3 axis carriage (31) and the respective angles that is tilted to the right, right guide rail (33) tilt to be installed between Y3 axis carriage (31) and the crossbeam and with vertical cooperation of Y3 axis carriage (31).

7. multi-spindle planer-type machining center according to claim 1 is characterized in that: described second motion of main shaft mechanism and the 3rd motion of main shaft mechanism are provided with hydraulic balance device.

8. multi-spindle planer-type machining center according to claim 1 is characterized in that: described machining center also has operation panel, tool magazine, hydraulic control system, electrical apparatus control system, cooling system and chip removal system.