CN206898782U - Double-spindle integral lathe body of numerically controlled lathe - Google Patents

Abstract

The utility model discloses a whole lathe bed of two main shafts of numerical control lathe, including chassis, first main shaft processingequipment, second main shaft processingequipment, first X axle sliding regulation structure, second X axle sliding regulation structure, first Y axle sliding regulation structure, second Y axle sliding regulation structure, first Z axle sliding regulation structure, second Z axle sliding regulation structure, first unit head and second unit head of setting on the chassis. The double main shafts are arranged and can run in two directions, so that the workpieces can be completely automatically butted, and the direction range of the processed workpieces is further enlarged. The X-axis linear sliding rail, the Y-axis linear sliding rail and the Z-axis linear sliding rail are all HG series linear sliding rails and are driven by an absolute value servo motor, the tool changing device has the characteristic of rapid tool changing, and a numerical control system is complete in function and easy to control. According to the part machining requirement, a Y-axis three-face power head can be optionally matched, and drilling and milling combined machining is achieved.

Description

A kind of double main shaft integral lathe beds of numerically controlled lathe

Technical field

Numerically controlled lathe field is the utility model is related to, the double main shaft integral lathe beds of more particularly to a kind of numerically controlled lathe.

Background technology

Numerically controlled lathe, turning center, it is a kind of high accuracy, efficient automated machine tool.In traditional production technology, Same parts are carried out with drilling and milling, processing is attacked and needs on more lathes that processing is not, it is necessary to multiple clamping, machining accuracy is high, effect Rate is relatively low.

Utility model content

Main purpose of the present utility model is to provide a kind of double main shaft integral lathe beds of numerically controlled lathe, it is intended to improves machining accuracy And operating efficiency.

The utility model proposes a kind of double main shaft integral lathe beds of numerically controlled lathe, including chassis, it is arranged on the chassis First spindle processing device, the second spindle processing device, the first X-axis slidable adjustment structure, the second X-axis slidable adjustment structure, One Y-axis slidable adjustment structure, the second Y-axis slidable adjustment structure, the first Z axis slidable adjustment structure, the second Z axis slidable adjustment knot Structure, the first unit head and the second unit head；

The chassis is provided be used to install the first spindle processing device and the second spindle processing laterally set and filled The spindle processing erecting bed put and being used in the middle part of the spindle processing erecting bed rear install the first unit head and second The unit head erecting bed of unit head, the cross section of the spindle processing erecting bed is triangle, and its front end face is inclined plane, is in 30 ° favour horizontal plane；

The first Z axis slidable adjustment structure and the second Z axis slidable adjustment structure are mounted opposite and added in the main shaft On the front end face of work erecting bed, the first spindle processing device is slidably mounted in the first Z axis slidable adjustment structure, institute The second spindle processing device is stated to be slidably mounted in the second Z axis slidable adjustment structure；

The first X-axis slidable adjustment structure and the second X-axis slidable adjustment structure level are set in parallel in described dynamic On the upper surface of power head erecting bed, the first Y-axis mounting bracket is slidably fitted with the first X-axis slidable adjustment structure, in institute State and be slidably fitted with the second Y-axis mounting bracket in the second X-axis slidable adjustment structure；

The first Y-axis slidable adjustment structure is mounted vertically on the first Y-axis mounting bracket, and second Y-axis is slided Adjustment structure is mounted vertically on the second Y-axis mounting bracket, is slidably installed first in the first Y-axis slidable adjustment structure Unit head mounting bracket, be slidably installed the second unit head mounting bracket in the second Y-axis slidable adjustment structure, first power Head is fastened on the first unit head mounting bracket, and second unit head is fastened on the second unit head installation On frame.

Preferably, the first spindle processing device and the second spindle processing device include main shaft geared head, peace High-accuracy main shaft on the main shaft geared head, the first servomotor for driving high-accuracy main shaft and installed in described Spindle drive belt on first servomotor and the high-accuracy main shaft.

Preferably, first unit head and second unit head are three face unit heads.

Preferably, the first X-axis slidable adjustment structure includes setting as the second X-axis slidable adjustment structure Put the X-axis linear slide rail of the setting of two horizontal parallels on the upper surface of the unit head erecting bed, be arranged on two X-axis X-axis drive lead screw between linear slide rail and the X-axis servo electricity for being used to drive installed in the X-axis drive lead screw end Machine.

Preferably, the first Y-axis slidable adjustment structure is as the second Y-axis slidable adjustment structure, including two Y-axis linear slide rail that bar vertically be arranged in parallel, the Y-axis drive lead screw being arranged between the two Y-axis linear slide rails and installation The Y-axis servomotor for being used to drive in the Y-axis drive lead screw end.

Preferably, the first Z axis slidable adjustment structure is as the second Z axis slidable adjustment structure, including two Z axis linear slide rail that bar be arranged in parallel, the Z-axis transmission screw mandrel being arranged between the two Z axis linear slide rails and installed in institute State the Z axis servomotor for being used to drive of Z-axis transmission screw mandrel end.

The beneficial effects of the utility model are：

The double main shafts of design of the present utility model, can way traffic, workpiece is fully achieved automation docking, without removing Can is processed, and further increases the direction scope of workpieces processing.

First spindle processing device, the second spindle processing device pass through the first Z axis slidable adjustment structure, the second Z axis respectively The left and right slip in the Z-axis direction of slidable adjustment structure, the first unit head, the second unit head pass through the first X-axis slidable adjustment respectively Structure, the second X-axis slidable adjustment structure forward and backward slip in the X-axis direction, the first unit head, the second unit head pass through respectively One Y-axis slidable adjustment structure, the second Y-axis slidable adjustment structure upper and lower slip in the Y-axis direction, to adjust Working position, significantly Improve machining accuracy and efficiency.

Brief description of the drawings

Fig. 1 is the stereogram on the chassis of the double main shaft integral lathe beds of numerically controlled lathe of the present utility model；

Fig. 2 is the stereogram of the double main shaft integral lathe beds of numerically controlled lathe of the present utility model.

Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

It should be appreciated that specific embodiment described herein is not used to limit this only to explain the utility model Utility model.

Referring to figs. 1 to Fig. 2, an embodiment of the double main shaft integral lathe beds of numerically controlled lathe of the present utility model is proposed：

A kind of double main shaft integral lathe beds of numerically controlled lathe, including chassis 10, the first spindle processing dress for being arranged on chassis 10 The 21, second spindle processing device 22, the first X-axis slidable adjustment structure 51, the second X-axis slidable adjustment structure, the first Y-axis is put to slide Adjustment structure 61, the second Y-axis slidable adjustment structure 62, the first Z axis slidable adjustment structure 41, the second Z axis slidable adjustment structure 42, First unit head 31 and the second unit head 32.First unit head 31 and second unit head 32 are three face unit heads.

Chassis 10 is used for the first spindle processing device 21 of installation and the second spindle processing device 22 provided with what is laterally set Spindle processing erecting bed 11 and in the middle part of the rear of spindle processing erecting bed 11 be used for install the first unit head 31 and second The unit head erecting bed 12 of unit head 32.The cross section of spindle processing erecting bed 11 is triangle, and its front end face is inclined plane, is in 30 ° favour horizontal plane.

First Z axis slidable adjustment structure 41 and the second Z axis slidable adjustment structure 42 are mounted opposite in spindle processing erecting bed On 11 front end face, the first spindle processing device 21 is slidably mounted in the first Z axis slidable adjustment structure 41, the second spindle processing Device 22 is slidably mounted in the second Z axis slidable adjustment structure 42.

First X-axis slidable adjustment structure 51 and the second X-axis slidable adjustment structure level are set in parallel in unit head erecting bed On 12 upper surface, the first Y-axis mounting bracket 71 is slidably fitted with the first X-axis slidable adjustment structure 51, is slided in the second X-axis The second Y-axis mounting bracket is slidably fitted with adjustment structure.

First Y-axis slidable adjustment structure 61 is mounted vertically on the first Y-axis mounting bracket 71, the second Y-axis slidable adjustment structure 62 are mounted vertically on the second Y-axis mounting bracket, and first unit head 31 that is slidably installed in the first Y-axis slidable adjustment structure 61 is installed Frame, be slidably installed the mounting bracket of the second unit head 32 in the second Y-axis slidable adjustment structure 62, and the first unit head 31 is fastened on On the mounting bracket of first unit head 31, the second unit head 32 is fastened on the mounting bracket of the second unit head 32.

First spindle processing device 21 is as the structure of the second spindle processing device 22, including main shaft geared head, peace High-accuracy main shaft on main shaft geared head, the first servomotor for driving high-accuracy main shaft and installed in the first servo Spindle drive belt on motor and high-accuracy main shaft.Double main shafts are set, can way traffic, the He of the first spindle processing device 21 Second spindle processing device 22 can dock workpiece completely, without removing can processing, workpiece be fully achieved automation docking, Further increase the direction scope of workpieces processing.

First Z axis slidable adjustment structure 41 be arranged in parallel as the second Z axis slidable adjustment structure 42 including two Z axis linear slide rail, the Z-axis transmission screw mandrel being arranged between two Z axis linear slide rails and the use installed in Z-axis transmission screw mandrel end In the Z axis servomotor of driving.Be slidably installed the first main shaft pallet in the first Z axis slidable adjustment structure 41, and the first main shaft adds Frock is put 21 and is fixed on the first main shaft pallet, realizes being slidably installed for the first spindle processing device 21.

Be slidably installed the second main shaft pallet in the second Z axis slidable adjustment structure 42, and the second spindle processing device 22 is fixed On the second main shaft pallet, being slidably installed for the second spindle processing device 22 is realized.Two Z axis servomotors drive the first master respectively Axis machining apparatus 21, the second spindle processing device 22 slide on corresponding two Z axis linear slide rail.

First X-axis slidable adjustment structure 51 includes being arranged on unit head installation as the second X-axis slidable adjustment structure The X-axis linear slide rail of two horizontal parallels setting on the upper surface of platform 12, the X-axis being arranged between two X-axis linear slide rails pass Dynamic screw mandrel and the X-axis servomotor for being used to drive installed in X-axis drive lead screw end.Two X-axis servomotors drive respectively First Y-axis mounting bracket 71, the second Y-axis mounting bracket slide on corresponding two X-axis linear slide rail.

First Y-axis slidable adjustment structure 61 vertical parallel is set as the second Y-axis slidable adjustment structure 62 including two The Y-axis linear slide rail put, the Y-axis drive lead screw being arranged between two Y-axis linear slide rails and installed in Y-axis drive lead screw end Be used for drive Y-axis servomotor.Two Y-axis servomotors drive the first unit head 31, the second unit head 32 corresponding respectively Two Y-axis linear slide rails on slide.

First spindle processing device 21, the second spindle processing device 22 pass through the first Z axis slidable adjustment structure 41, respectively The two left and right slips in the Z-axis direction of Z axis slidable adjustment structure 42, the first unit head 31, the second unit head 32 pass through first respectively X-axis slidable adjustment structure 51, the second X-axis slidable adjustment structure forward and backward slip in the X-axis direction, the first unit head 31, second are dynamic Power first 32 passes through the first Y-axis slidable adjustment structure 61, the second Y-axis slidable adjustment structure 62 upper and lower cunning in the Y-axis direction respectively It is dynamic, to adjust Working position, substantially increase machining accuracy and efficiency.

X-axis linear slide rail, Y-axis linear slide rail and Z axis linear slide rail use HG array of linear slide rails, by absolute value servo Motor drives, and has the characteristics of rapid changing knife, digital control system perfect in shape and function, manipulation is simply.Needs are processed according to part, can be matched The face unit head of Y-axis three, realize drilling, milling Compound Machining.

Preferred embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, Every equivalent structure transformation made using the utility model specification and accompanying drawing content, or directly or indirectly it is used in other phases The technical field of pass, similarly it is included in scope of patent protection of the present utility model.

Claims (6)

1. the double main shaft integral lathe beds of a kind of numerically controlled lathe, it is characterised in that including chassis, the first master being arranged on the chassis Axis machining apparatus, the second spindle processing device, the first X-axis slidable adjustment structure, the second X-axis slidable adjustment structure, the first Y-axis are slided Dynamic adjustment structure, the second Y-axis slidable adjustment structure, the first Z axis slidable adjustment structure, the second Z axis slidable adjustment structure, first move Power head and the second unit head；

The chassis is provided with being used for of laterally setting and installs the first spindle processing device and the second spindle processing device Spindle processing erecting bed and being used in the middle part of the spindle processing erecting bed rear install the first unit head and the second power The unit head erecting bed of head, the cross section of the spindle processing erecting bed is triangle, and its front end face is inclined plane, is inclined in 30 ° Tiltedly in horizontal plane；

The first Z axis slidable adjustment structure and the second Z axis slidable adjustment structure are mounted opposite pacifies in the spindle processing On the front end face for filling platform, the first spindle processing device is slidably mounted in the first Z axis slidable adjustment structure, and described the Two spindle processing devices are slidably mounted in the second Z axis slidable adjustment structure；

The first X-axis slidable adjustment structure and the second X-axis slidable adjustment structure level are set in parallel in the unit head On the upper surface of erecting bed, the first Y-axis mounting bracket is slidably fitted with the first X-axis slidable adjustment structure, described The second Y-axis mounting bracket is slidably fitted with two X-axis slidable adjustment structures；

The first Y-axis slidable adjustment structure is mounted vertically on the first Y-axis mounting bracket, the second Y-axis slidable adjustment Structure is mounted vertically on the second Y-axis mounting bracket, and be slidably installed the first power in the first Y-axis slidable adjustment structure Head mounting bracket, be slidably installed the second unit head mounting bracket in the second Y-axis slidable adjustment structure, and first unit head connects Connect and be fixed on the first unit head mounting bracket, second unit head is fastened on the second unit head mounting bracket On.

2. the double main shaft integral lathe beds of numerically controlled lathe according to claim 1, it is characterised in that the first spindle processing dress Put with the second spindle processing device include main shaft geared head, the high-accuracy main shaft on the main shaft geared head, For driving the first servomotor of high-accuracy main shaft and on first servomotor and the high-accuracy main shaft Spindle drive belt.

3. the double main shaft integral lathe beds of numerically controlled lathe according to claim 1, it is characterised in that first unit head and institute It is three face unit heads to state the second unit head.

4. the double main shaft integral lathe beds of numerically controlled lathe according to claim 1, it is characterised in that first X-axis, which is slided, to be adjusted Nodule structure includes being arranged on the upper surface of the unit head erecting bed as the second X-axis slidable adjustment structure The X-axis linear slide rail of two horizontal parallels settings, the X-axis drive lead screw being arranged between the two X-axis linear slide rails and peace The X-axis servomotor for being used to drive mounted in the X-axis drive lead screw end.

5. the double main shaft integral lathe beds of numerically controlled lathe according to claim 1, it is characterised in that first Y-axis, which is slided, to be adjusted Nodule structure including two Y-axis vertically be arrangeding in parallel linear slide rails, is set as the second Y-axis slidable adjustment structure Y-axis drive lead screw between the two Y-axis linear slide rails and it is used for what is driven installed in the Y-axis drive lead screw end Y-axis servomotor.

6. the double main shaft integral lathe beds of numerically controlled lathe according to claim 1, it is characterised in that first Z axis, which slides, to be adjusted Nodule structure including two Z axis be arrangeding in parallel linear slide rails, is arranged on two as the second Z axis slidable adjustment structure Z-axis transmission screw mandrel between the Z axis linear slide rail and the Z axis for being used to drive installed in the Z-axis transmission screw mandrel end Servomotor.