CN201711752U

CN201711752U - Numerical control gantry type dynamic beam combination machine tool for turning, milling and drilling

Info

Publication number: CN201711752U
Application number: CN2010202018045U
Authority: CN
Inventors: 郑金玲; 郭永来; 薛兆云
Original assignee: SHANDONG LUZHONG CNC MACHINE CO Ltd
Current assignee: SHANDONG LUZHONG CNC MACHINE CO Ltd
Priority date: 2010-05-25
Filing date: 2010-05-25
Publication date: 2011-01-19
Anticipated expiration: 2020-05-25

Abstract

The utility model relates to a numerical control gantry type dynamic beam combination machine tool for turning, milling and drilling, which comprises a body. Vertical posts are respectively disposed on two sides of the body, a beam is arranged on the vertical posts, servo motors are arranged on the upper portions of the vertical posts and in transmission connection with the beam, three saddles are disposed on the beam and respectively used to turn, mill and drill a workpiece, the three saddles realize sequential machining or simultaneous machining of turning, milling and drilling so to greatly increase machining efficiency, the turning, the milling and the drilling can be completed in one clamping, accordingly, positioning and clamping times are reduced, positioning errors generated by multiple positioning and errors generated by deformation of workpieces in multiple clamping can be eliminated, and machining precision can be increased.

Description

The numerical control gantry formula is moved beam turnning and milling drilling composite machine bed

Technical field

The utility model relates to a kind of machining equipment, relates to the moving beam turnning and milling drilling composite machine bed of a kind of numerical control gantry formula specifically.

Background technology

At present, on the Digit Control Machine Tool market, the numerical control machine tool technique development is rapid at home, and working (machining) efficiency and machining accuracy improve constantly.Present employed lathe, milling machine and drilling machine are generally the lathe of the function singleness of independent control, if processing had both needed turning, need the large parts than multiple operation such as milling and boring again, need on lathe, milling machine and drilling machine, position respectively and clamping, owing in clamping process, there are problems such as position error, workpiece easy deformation, make the machining accuracy of workpiece be difficult to guarantee, the transhipment workpiece is consuming time longer in process, transhipment workpiece difficulty is bigger, reduce the working (machining) efficiency of lathe, increased production cost.

The utility model content

Problem to be solved in the utility model is at above problem, provides the high numerical control gantry formula of a kind of production efficiency and machining accuracy to move beam turnning and milling drilling composite machine bed.

For addressing the above problem, the technical scheme that the utility model adopted is: the numerical control gantry formula is moved beam turnning and milling drilling composite machine bed, comprise lathe bed, the both sides of described lathe bed are respectively arranged with column, described column is provided with crossbeam, the top of described column is provided with servomotor, and described servomotor and crossbeam are in transmission connection, and described crossbeam is provided with three saddles.

A kind of concrete prioritization scheme, one of them saddle are positioned at a side of crossbeam, and two other saddle is positioned at the opposite side of crossbeam.

A kind of concrete prioritization scheme, the end of described crossbeam is provided with servomotor.

A kind of concrete prioritization scheme, the quantity of described servomotor are three, and one of them servomotor is positioned at an end of crossbeam, and two other servomotor is positioned at the other end of crossbeam.

A kind of concrete prioritization scheme, one of them of two servomotors that is arranged in the same end of crossbeam is in transmission connection with one of them of two saddles that is arranged in crossbeam the same side, the another one that is arranged in two servomotors of the same end of crossbeam is in transmission connection with the another one that is arranged in two saddles of crossbeam the same side, and the servomotor that is positioned at the crossbeam other end is in transmission connection with the saddle that is positioned at the crossbeam opposite side.

A kind of concrete prioritization scheme, described column is provided with the leading screw of vertical setting, and described leading screw is threaded with crossbeam, and the upper end of described leading screw is connected with servomotor.

A kind of concrete prioritization scheme is provided with slide between the bottom of described column and the lathe bed.

The utility model is taked above technical scheme, have the following advantages: because the both sides of crossbeam are respectively arranged with saddle, the quantity of saddle is three, so, can carry out turning processing to workpiece respectively by three saddles, Milling Process and boring processing, can realize turning processing by three saddles, the order processing of Milling Process and boring processing or processing simultaneously, working (machining) efficiency improves greatly, No. one time clamping can be finished turning processing, Milling Process and boring processing, location and clamping times have been reduced, the position error of location generation and the error that the multiple clamping workpiece deformation produces have been eliminated repeatedly, improved machining accuracy, owing to can control moving up and down of crossbeam by the servomotor on column top, so can cooperate turning processing by moving of crossbeam, Milling Process and boring are processed, and can further satisfy the needs of machining large complex parts.

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

Description of drawings

Accompanying drawing 1 is the structural representation of the moving beam turnning and milling drilling composite machine bed of numerical control gantry formula among the utility model embodiment;

Accompanying drawing 2 is the left view of accompanying drawing 1.

Among the figure:

The 1-lathe bed; The 2-slide; The 3-column; The 4-servomotor; The 5-crossbeam; The 6-leading screw; The 7-servomotor; The 8-leading screw; The 9-saddle; The 10-saddle; The 11-bearing; The 12-saddle; The 13-workbench;

The specific embodiment

Embodiment: as shown in Figures 1 and 2, the numerical control gantry formula is moved beam turnning and milling drilling composite machine bed, comprise lathe bed 1, the both sides of lathe bed 1 are respectively arranged with column 3, column 3 is provided with the crossbeam 5 that can move up and down, the top of column 3 is provided with servomotor 7, servomotor 7 is in transmission connection with crossbeam 5, be provided with workbench 13 between two columns 3, be provided with slide 2 between the bottom of column 3 and the lathe bed 1, crossbeam 5 is provided with three saddles, and three saddles are lathe saddle 9, milling machine saddle 10 and drilling machine saddle 12, lathe saddle 9 is positioned at a side of crossbeam 5, and milling machine saddle 10 and drilling machine saddle 12 are positioned at the opposite side of crossbeam 5.

The end of crossbeam 5 is provided with servomotor 4, and the quantity of servomotor 4 is three, and one of them servomotor 4 is positioned at an end of crossbeam 5, and two other servomotor 4 is positioned at the other end of crossbeam 5.

One of them and the milling machine saddle 10 that are arranged in two servomotors 4 of crossbeam 5 same ends are in transmission connection, the another one and the drilling machine saddle 12 that are arranged in two servomotors 4 of crossbeam 5 same ends are in transmission connection, and the servomotor 4 that is positioned at crossbeam 5 other ends is in transmission connection with the lathe saddle 9 that is positioned at crossbeam 5 opposite sides.

The both sides of crossbeam 5 are respectively arranged with horizontally disposed leading screw 8, one end of leading screw 8 is connected with servomotor 4, the other end of leading screw 8 is connected with bearing 11, bearing 11 is fixedlyed connected with crossbeam 5, being positioned at the leading screw 8 that crossbeam 5 is provided with lathe saddle 9 one sides is threaded with lathe saddle 9, an other side of crossbeam 5 is provided with two rhizoid thick sticks 8, superposed leading screw 8 is threaded with milling machine saddle 10, the leading screw 8 that is positioned at the bottom is threaded with drilling machine saddle 12, realizes the move left and right of lathe saddle 9, milling machine saddle 10 and drilling machine saddle 12 by servomotor 4 and leading screw 8

Column 3 is provided with the leading screw 6 of vertical setting, leading screw 6 is threaded with crossbeam 5, and the upper end of leading screw 6 is connected with servomotor 7, and the lower end of leading screw 6 is connected with bearing 11, bearing 11 is fixedlyed connected with column 3, realizes moving up and down of crossbeam 5 by servomotor 7 and leading screw 6.

During use, with clamping workpiece on workbench 13, can carry out turning processing by 9 pairs of workpiece of lathe saddle, can carry out Milling Process by 10 pairs of workpiece of milling machine saddle, also can be by the processing of holing of 12 pairs of workpiece of drilling machine saddle, also can pass through lathe saddle 9, milling machine saddle 10 and drilling machine saddle 12 are realized turning processing, the order processing of Milling Process and boring processing or processing simultaneously, working (machining) efficiency improves greatly, No. one time clamping can be finished turning processing, Milling Process and boring processing, location and clamping times have been reduced, eliminate repeatedly the position error of location generation and the error that the multiple clamping workpiece deformation produces, improved machining accuracy.

Claims

1. the numerical control gantry formula is moved beam turnning and milling drilling composite machine bed, comprise lathe bed (1), the both sides of described lathe bed (1) are respectively arranged with column (3), described column (3) is provided with crossbeam (5), the top of described column (3) is provided with servomotor (7), described servomotor (7) is in transmission connection with crossbeam (5), and it is characterized in that: described crossbeam (5) is provided with three saddles (9,10,12).

2. numerical control gantry formula as claimed in claim 1 is moved beam turnning and milling drilling composite machine bed, and it is characterized in that: one of them saddle (9) is positioned at a side of crossbeam (5), and two other saddle (10,12) is positioned at the opposite side of crossbeam (5).

3. numerical control gantry formula as claimed in claim 2 is moved beam turnning and milling drilling composite machine bed, and it is characterized in that: the end of described crossbeam (5) is provided with servomotor (4).

4. numerical control gantry formula as claimed in claim 3 is moved beam turnning and milling drilling composite machine bed, it is characterized in that: the quantity of described servomotor (4) is three, one of them servomotor (4) is positioned at an end of crossbeam (5), and two other servomotor (4) is positioned at the other end of crossbeam (5).

5. numerical control gantry formula as claimed in claim 4 is moved beam turnning and milling drilling composite machine bed, it is characterized in that: one of them and two saddles (10 that are positioned at crossbeam (5) the same side that are arranged in two servomotors (4) of the same end of crossbeam (5), 12) one of them in is in transmission connection, be arranged in the another one and two saddles (10 that are positioned at crossbeam (5) the same side of two servomotors (4) of the same end of crossbeam (5), 12) another one in is in transmission connection, and the servomotor (4) that is positioned at crossbeam (5) other end is in transmission connection with the saddle (9) that is positioned at crossbeam (5) opposite side.

6. numerical control gantry formula as claimed in claim 1 is moved beam turnning and milling drilling composite machine bed, it is characterized in that: described column (3) is provided with the leading screw (6) of vertical setting, described leading screw (6) is threaded with crossbeam (5), and the upper end of described leading screw (6) is connected with servomotor (7).

7. numerical control gantry formula as claimed in claim 1 is moved beam turnning and milling drilling composite machine bed, it is characterized in that: be provided with slide (2) between the bottom of described column (3) and the lathe bed (1).