CN204770852U - Six setpoint three in one processing agency of large -scale box part - Google Patents

Abstract

The utility model discloses a six setpoint three in one processing agency of large -scale box part sets up four the 1st transverse guide (2) on bottom plate (1), set up a driving motor (3) installation face milling cutter (4) on the output shaft of a driving motor (3) on every the 1st transverse guide (2), be equipped with longitudinal rail (2') on positioning seat (5), set up the 2nd driving motor (3') on longitudinal rail (2'), an installation face milling cutter (4) on the output shaft of the 2nd driving motor (3'), set up the 2nd transverse guide (2 ") around between two the 1st transverse guide (2) at the right -hand member, set up the 3rd driving motor (3 ") on the 2nd transverse guide (2 "), be equipped with on the output shaft of the 3rd driving motor (3 ") a milling cutter (4). The utility model discloses can carry out the three in one synchronous processing to six setpoints on the large -scale box part, not only simple operation, the machining precision is high, can improve production efficiency at double moreover.

Description

A kind of large-size box part six anchor point Trinity organisation of working

Technical field

The utility model relates to a kind of large-size box part six anchor point Trinity organisation of working.

Background technology

At present, the gear box of the main equipments such as bull-dozer, before machined, needs on casing, first process six anchor points, and these six anchor points are following process location, so that unified benchmark, and is convenient to the inspection after machining.As shown in Figure 1, six anchor points A, B, C, D, E, F on casing are spatially towards three different directions, the carrying out in a direction, a direction is needed to process, rotation twice workbench is needed like this in process, and need manually to change a cutter, equipment workbench and main shaft all need mobile very large stroke simultaneously, so not only complex operation, and long processing time, production efficiency is low.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of large-size box part six anchor point Trinity organisation of working that can effectively enhance productivity.

The technical solution of the utility model is as follows: a kind of large-size box part six anchor point Trinity organisation of working, base plate (1) arranges four first cross slide waies (2), these four first cross slide waies (2) are distributed in four angles place of rectangle, and the first cross slide way (2) extends in left-right direction;

First cross slide way (2) described in every root arranges the first drive motors (3), this first drive motors (3) is slidably matched with corresponding the first cross slide way (2), the output shaft level of two the first drive motors (3) is stretched out backward above, installed surface milling cutter (4) on the output shaft of these two the first drive motors (3); The output shaft of two the first drive motors (3) next stretches out straight up, also installed surface milling cutter (4) on the output shaft of these two the first drive motors (3);

In left end back, the left side of first cross slide way (2) arranges positioning seat (5), this positioning seat (5) is provided with longitudinal rail (2 '), described longitudinal rail (2 ') extends along the longitudinal direction, and longitudinal rail (2 ') is arranged the second drive motors (3 '), second drive motors (3 ') and longitudinal rail (2 ') are slidably matched, the output shaft level of described second drive motors (3 ') is stretched out to the right, installed surface milling cutter (4) on the output shaft of this second drive motors (3 ');

Second cross slide way (2 ") is set between the first cross slide way (2) of two, the front and back of right-hand member; and this second cross slide way (2 ") parallel with first cross slide way (2) of side, front and back, described second cross slide way (2 ") arranges the 3rd drive motors (3 "), 3rd drive motors (3 ") and the second cross slide way (2 ") be slidably matched, the output shaft of the 3rd drive motors (3 ") stretches out straight up, and the output shaft of the 3rd drive motors (3 ") is equipped with face milling cutters (4).

The utility model carrys out installation surface milling cutter by the locus of simulating six anchor points on box parts to be processed, makes six anchor point one_to_one corresponding on six face milling cutters and box parts to be processed.Each face milling cutters are installed on the output shaft of drive motors, and drive motors coordinates with corresponding slide, and the position of such face milling cutters is adjustable, so that aim at the position of anchor point before processing, make the accuracy of processing secure.After six face milling cutters complete contraposition, by the adjustable supports fixture that base plate is equipped with, box parts is fixed, then control six drive motors and operate simultaneously, directly six anchor point synchronous processings can be shaped by six face milling cutters.The utility model adopts the mode of " drive motors+face milling cutters ", can realize the small amplitude rectilinear movement that 100mm is long, and the long small-sized guide rail of 200mm carries out, and one side is simple to operate, convenient, automaticity is high; On the other hand, can realize six anchor point Trinity processing, working (machining) efficiency at least promotes 2 times.

The first small machine (6) is equipped with on the right side of the left side of left end two first cross slide waies (2) and right-hand member two first cross slide waies (2), the output shaft of this first small machine (6) is connected with the first ball screw (7), described first ball screw (7) parallels with corresponding the first cross slide way (2), each first ball screw (7) is through corresponding the first drive motors (3), and the first ball screw (7) coordinates with the nut thread on the first drive motors (3);

At the rear side of described longitudinal rail (2 '), the second small machine (6 ') is set, the output shaft of this second small machine (6 ') is connected with the second ball screw (7 '), second ball screw (7 ') is parallel to longitudinal rail (2 '), described second ball screw (7 ') is through the second drive motors (3 '), and the second ball screw (7 ') coordinates with the nut thread on the second drive motors (3 ');

3rd small machine (6 ") is set on the right side of described second cross slide way (2 "), the output shaft of the 3rd small machine (6 ") and the 3rd ball screw (7 ") be connected, 3rd ball screw (7 ") and the second cross slide way (2 ") parallel, 3rd ball screw (7 ") is through the 3rd drive motors (3 "), and the nut thread on the 3rd ball screw (7 ") and the 3rd drive motors (3 ") coordinates.

Above structural configuration is compact, can not interfere with box parts to be processed; Adopt the mode of " ball screw+small machine " to promote " drive motors+face milling cutters " and carry out rectilinear motion, control accuracy is high, and synchronism is good.

As preferably, the power of described first drive motors (3), the second drive motors (3 ') and the 3rd drive motors (3 ") is identical, is 3KW; The power of each small machine is 0.8KW.

In order to simplify structure, make backplanes support firm, described base plate (1) is rectangular flat structure, and this base plate (1) is by four shore supports by the rectangular distribution.

Beneficial effect: the utility model can carry out Trinity synchronous processing to six anchor points on large-size box part, not only simple operation, and machining accuracy is high, and can significantly improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of box parts.

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

Fig. 3 is using state figure of the present utility model.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As shown in Figure 2, base plate 1 is rectangular flat structure, and this base plate 1 is by four shore supports by the rectangular distribution.Arrange four first cross slide waies 2 at the upper face of base plate 1, these four first cross slide waies 2 are distributed in four angles place of rectangle, and the first cross slide way 2 extends in left-right direction.Two first cross slide waies 2 are point-blank above, after two first cross slide waies 2 on another straight line, and the first cross slide way 2 above parallels with the first cross slide way 2 below.

As shown in Figure 2, every root first cross slide way 2 arranges the first drive motors 3, four the first drive motors 3 and four first cross slide way 2 one_to_one corresponding, and each first drive motors 3 is slidably matched with the first corresponding cross slide way 2.The output shaft level of two the first drive motors 3 is stretched out backward above, installed surface milling cutter 4 on the output shaft of these two the first drive motors 3.The output shaft of two the first drive motors 3 next stretches out straight up, also installed surface milling cutter 4 on the output shaft of these two the first drive motors 3.When the first drive motors 3 operates time, the face milling cutters on opposite can be driven to rotate.

As shown in Figure 2, be equipped with the first small machine 6 on the right side of the left side of left end two first cross slide waies 2 and right-hand member two first cross slide waies 2, this first small machine 6 is installed on base plate 1, four the first small machines 6 and four the first drive motors 3 one_to_one corresponding.The output shaft of the first small machine 6 is connected with the first ball screw 7, first ball screw 7 parallels with the first corresponding cross slide way 2, each first ball screw 7 is through the first corresponding drive motors 3, and the first ball screw 7 coordinates with the nut thread on the first drive motors 3.Time first drive motors 3 operates, under the effect of feed screw nut pair, the first drive motors 3 can be driven to do the rectilinear motion of left and right directions along the first cross slide way 2.

As shown in Figure 2, in left end back, the left side of first cross slide way 2 arranges positioning seat 5, and this positioning seat 5 is provided with longitudinal rail 2 ', and longitudinal rail 2 ' extends along the longitudinal direction, longitudinal rail 2 ' and the first cross slide way 2 perpendicular.Longitudinal rail 2 ' arranges the second drive motors 3 ', the second drive motors 3 ' be slidably matched with longitudinal rail 2 '.The output shaft level of the second drive motors 3 ' is stretched out to the right, installed surface milling cutter 4 on the output shaft of this second drive motors 3 '.Arrange the second small machine 6 ' at the rear side of longitudinal rail 2 ', the output shaft of this second small machine 6 ' is connected with the second ball screw 7 ', and the second ball screw 7 ' is parallel to longitudinal rail 2 '.Second ball screw 7 ' is through the second drive motors 3 ', and the second ball screw 7 ' coordinates with the nut thread on the second drive motors 3 '.Time second small machine 6 ' operates, under the effect of feed screw nut pair, can drive the second drive motors 3 ' longitudinally guide rail 2 ' do the rectilinear motion of fore-and-aft direction.

As shown in Figure 2, the second cross slide way 2 is set between the first cross slide way 2 of two, the front and back of right-hand member ", this second cross slide way 2 " parallel with the first cross slide way 2 of side, front and back.At the second cross slide way 2 " on the 3rd drive motors 3 is set ", the 3rd drive motors 3 " with the second cross slide way 2 " be slidably matched.3rd drive motors 3 " output shaft stretch out straight up, and the 3rd drive motors 3 " output shaft on face milling cutters 4 are housed.At the second cross slide way 2 " right side the 3rd small machine 6 is set ", 3rd small machine 6 " output shaft and the 3rd ball screw 7 " be connected, 3rd ball screw 7 " with the second cross slide way 2 " parallel, 3rd ball screw 7 " through the 3rd drive motors 3 ", and the 3rd ball screw 7 " with the 3rd drive motors 3 " on nut thread coordinate.3rd small machine 6 " when operating, under the effect at feed screw nut pair, the 3rd drive motors 3 can be driven " along the second cross slide way 2 " do the rectilinear motion of left and right directions.

As preferably, above first drive motors 3, second drive motors 3 ' and the 3rd drive motors 3 " all select power to be the motor of 3KW; Each first small machine 6, second small machine 6 ' and the 3rd small machine 6 " all select power to be the motor of 0.8KW.

As Fig. 2, Fig. 3 and shown in composition graphs 1, the utility model carrys out installation surface milling cutter by the locus of simulating six anchor points on box parts to be processed, makes six face milling cutters 4 and six anchor point A, B, C, D, E, F one_to_one corresponding on box parts to be processed.After six face milling cutters 4 complete contraposition, by multiple adjustable supports fixtures 8 that base plate 1 is equipped with, box parts is fixed, then six small machine runnings are controlled, six corresponding drive motors are made to do rectilinear motion along guide rail, while drive motors rectilinear motion, drive face milling cutters 4 to rotate, directly six anchor point synchronous processings can be shaped by six face milling cutters.

Above-mentioned adjustable supports fixture is prior art, and its structure can be determined according to the moulding of box parts to be processed and actual needs, as long as can adjust position, and can realize the clamping of box parts.

Claims (4)

1. a large-size box part six anchor point Trinity organisation of working, it is characterized in that: four first cross slide waies (2) are set on base plate (1), these four first cross slide waies (2) are distributed in four angles place of rectangle, and the first cross slide way (2) extends in left-right direction;

First cross slide way (2) described in every root arranges the first drive motors (3), this first drive motors (3) is slidably matched with corresponding the first cross slide way (2), the output shaft level of two the first drive motors (3) is stretched out backward above, installed surface milling cutter (4) on the output shaft of these two the first drive motors (3); The output shaft of two the first drive motors (3) next stretches out straight up, also installed surface milling cutter (4) on the output shaft of these two the first drive motors (3);

In left end back, the left side of first cross slide way (2) arranges positioning seat (5), this positioning seat (5) is provided with longitudinal rail (2 '), described longitudinal rail (2 ') extends along the longitudinal direction, and longitudinal rail (2 ') is arranged the second drive motors (3 '), second drive motors (3 ') and longitudinal rail (2 ') are slidably matched, the output shaft level of described second drive motors (3 ') is stretched out to the right, installed surface milling cutter (4) on the output shaft of this second drive motors (3 ');

Second cross slide way (2 ") is set between the first cross slide way (2) of two, the front and back of right-hand member; and this second cross slide way (2 ") parallel with first cross slide way (2) of side, front and back, described second cross slide way (2 ") arranges the 3rd drive motors (3 "), 3rd drive motors (3 ") and the second cross slide way (2 ") be slidably matched, the output shaft of the 3rd drive motors (3 ") stretches out straight up, and the output shaft of the 3rd drive motors (3 ") is equipped with face milling cutters (4).

2. large-size box part six anchor point Trinity organisation of working according to claim 1, it is characterized in that: be equipped with the first small machine (6) on the right side of the left side of left end two first cross slide waies (2) and right-hand member two first cross slide waies (2), the output shaft of this first small machine (6) is connected with the first ball screw (7), described first ball screw (7) parallels with corresponding the first cross slide way (2), each first ball screw (7) is through corresponding the first drive motors (3), and the first ball screw (7) coordinates with the nut thread on the first drive motors (3),

At the rear side of described longitudinal rail (2 '), the second small machine (6 ') is set, the output shaft of this second small machine (6 ') is connected with the second ball screw (7 '), second ball screw (7 ') is parallel to longitudinal rail (2 '), described second ball screw (7 ') is through the second drive motors (3 '), and the second ball screw (7 ') coordinates with the nut thread on the second drive motors (3 ');

3rd small machine (6 ") is set on the right side of described second cross slide way (2 "), the output shaft of the 3rd small machine (6 ") and the 3rd ball screw (7 ") be connected, 3rd ball screw (7 ") and the second cross slide way (2 ") parallel, 3rd ball screw (7 ") is through the 3rd drive motors (3 "), and the nut thread on the 3rd ball screw (7 ") and the 3rd drive motors (3 ") coordinates.

3. large-size box part six anchor point Trinity organisation of working according to claim 2, it is characterized in that: the power of described first drive motors (3), the second drive motors (3 ') and the 3rd drive motors (3 ") is identical, is 3KW; The power of each small machine is 0.8KW.

4. the large-size box part six anchor point Trinity organisation of working according to claim 1 or 2 or 3, is characterized in that: described base plate (1) is rectangular flat structure, and this base plate (1) is by four shore supports by the rectangular distribution.