CN204603501U - Aviation grid class part Linear cut special purpose machine tool - Google Patents

Abstract

The utility model relates to a kind of aviation grid class part Linear cut special purpose machine tool, and it comprises electric-control system, lathe bed, X, Y, Z axis travel mechanism, workbench, coil holder mechanism and clamping workpiece frock; Z axis travel mechanism comprises column, Z axis drive motors, a pair Z axis contiguous block and Z axis and moves leading screw; Coil holder mechanism comprises arm of reaching the standard grade, roll off the production line arm and coil holder seat; Described upper and lower line arm in the Z-axis direction all in being horizontally disposed with and being spaced from each other a distance, in the X-axis direction each other in shifting to install; Clamping workpiece frock coupling is installed in the inside top of workbench, and it is made up of at least one pair of symmetrically arranged frock jig arm.The utility model structural design is simple, rationally, easy to use, applicability is strong, and work pieces process efficiency is high and precision is high, effectively can reduce production cost, improve the quality of products, be suitable for propagation and employment.

Description

Aviation grid class part Linear cut special purpose machine tool

Technical field

The utility model relates to a kind of new exclusive wire cutting machine tool, particularly relates to a kind of aviation grid class part Linear cut special purpose machine tool.

Background technology

Current, the flase floor generally used in aeronautical manufacture is that a difficult problem, particularly some angles for a processing is large all the time, and hole count is many and close, the part that plate appearance and size is large, if use spark machined, no matter from time and cost, is all very undesirable.And then we have turned to processing quick thinking, dimensional accuracy is better, and the Linear cut that cost is relatively controlled comes.

The linear cutter flase floor actual cut surface degree of depth is very shallow, and existing Linear cut also exists a following general difficult problem on machine tool structure to cutting flase floor:

(1) the arm vertical direction that rolls off the production line on is coaxial, is easy to interfere for needing the flase floor tilting to put;

(2) Linear cut is all that X-Y two-axis numerical control drives at present, can not realize Z axis numerical control driving and dodge space;

(3) even if the arm that rolls off the production line on using on stroke is apart from longer lathe, break through molybdenum filament tension force and economy in cutting are all difficult.

Summary of the invention

For above problem, it is simple, reasonable, easy to use that the utility model provides a kind of structural design, and applicability is strong, and work pieces process efficiency is high and precision is high, effectively can reduce production cost, the aviation grid class part Linear cut special purpose machine tool improved the quality of products.

The technical solution of the utility model is as follows:

Above-mentioned aviation grid class part Linear cut special purpose machine tool, comprises electric-control system, lathe bed, the X-axis travel mechanism be installed on described lathe bed, the workbench that is installed in the Y-axis moving mechanism in described X-axis travel mechanism and is installed in described Y-axis moving mechanism; Described special purpose machine tool also comprises Z axis travel mechanism, coil holder mechanism and clamping workpiece frock; Described Z axis travel mechanism be located at described lathe bed end face one end and with mate described X-axis travel mechanism and Y-axis moving mechanism and mate and arrange; Described Z axis travel mechanism comprises the column being fixedly arranged on described lathe bed end face one end, the Z axis drive motors being installed in described column top, symmetry are fixedly arranged on described column stage casing relative at least one pair of Z axis contiguous block of both sides and be vertically installed in described column one side and Z axis between described a pair Z axis contiguous block moves leading screw; Described Z axis drive motors is electrically connected with electric-control system; Described Z axis moves leading screw one end assembly connection in the clutch end of described Z axis drive motors and by described Z axis drive motors driving rotation; Described coil holder authority match is installed in described Z axis travel mechanism, and it comprises arm of reaching the standard grade, roll off the production line arm and coil holder seat; Described upper and lower line arm in the Z-axis direction all in being horizontally disposed with and being spaced from each other a distance, in the X-axis direction each other in shifting to install; Described arm one end of reaching the standard grade is assemblied in described Z axis contiguous block and moves leading screw with described Z axis and is threaded connection, described in the arm other end of reaching the standard grade be provided with arm guide wheel of reaching the standard grade; Reach the standard grade on the downside of arm described in the described arm that rolls off the production line is positioned at, its one end is assemblied in described Z axis contiguous block and is connected with described arm of reaching the standard grade by described Z axis contiguous block, the described arm other end that rolls off the production line is provided with the arm guide wheel that rolls off the production line, and described upper and lower line arm guide wheel in the vertical direction is positioned at same axis; Described Z axis contiguous block and described column sliding connection; To reach the standard grade described in described coil holder seat is fixedly arranged on the upside of the arm other end and top is provided with coil holder seat guide wheel; Reach the standard grade arm guide wheel, roll off the production line arm guide wheel and coil holder seat guide wheel of described this is connected each other by molybdenum filament coupling and is connected with workpiece by described molybdenum filament; Described clamping workpiece frock coupling is installed in the inside top of described workbench, and it is made up of at least one pair of symmetrically arranged frock jig arm.

Described aviation grid class part Linear cut special purpose machine tool, wherein: described in roll off the production line one end that arm and Z axis contiguous block assemble go up in the horizontal direction and be also provided with three groups of equally spaced pin-and-holes and screw hole; The described arm that rolls off the production line is equipped with expansion pin by described pin-and-hole and described Z axis contiguous block is located, then is equipped with screw by described screw hole and described Z axis contiguous block is locked.

Described aviation grid class part Linear cut special purpose machine tool, wherein: described special purpose machine tool also comprises wire transporting parts; Described wire transporting parts are installed in described lathe bed end face one end and are positioned at described column side.

Described aviation grid class part Linear cut special purpose machine tool, wherein: described X-axis travel mechanism comprises X-axis drive motors, X-axis moving guide rail, X-axis Mobile Slide and X-axis turn-screw; Described X-axis drive motors is installed in described X-axis moving guide rail side, and it is electrically connected with described electric-control system; Described X-axis moving guide rail coupling is arranged at the end face of described lathe bed; The overall rectangular slide unit structure of described X-axis Mobile Slide, its coupling is slidably connected on described X-axis moving guide rail; Described X-axis turn-screw is installed in the inside middle portion of described X-axis moving guide rail, and its one end assembly connection is in the clutch end of described X-axis drive motors, and the other end is by the bottom assembly connection of nut structure and described X-axis Mobile Slide.

Described aviation grid class part Linear cut special purpose machine tool, wherein: described Y-axis moving mechanism is installed on described X-axis Mobile Slide, and it comprises Y-axis drive motors, Y-axis moving guide rail, Y-axis Mobile Slide and Y-axis turn-screw; Described Y-axis drive motors is installed in described X-axis Mobile Slide side, and it is electrically connected with described electric-control system; Described Y-axis moving guide rail is fixedly arranged on the end face of described X-axis Mobile Slide; The overall rectangular slide unit structure of described Y-axis Mobile Slide, its coupling is slidably connected on described Y-axis moving guide rail; Described Y-axis turn-screw is installed in the inside middle portion of described Y-axis moving guide rail, and its one end assembly connection is in the clutch end of described Y-axis drive motors, and the other end is by the bottom assembly connection of nut structure and described Y-axis Mobile Slide.

Described aviation grid class part Linear cut special purpose machine tool, wherein: described workbench is fixedly arranged on the end face of described Y-axis Mobile Slide, and it comprises base plate and backplate; The overall rectangular version body structure of described base plate and being mounted with the end face of described Y-axis Mobile Slide; Described backplate is the three pieces of plate bodys vertically arranged along three sides of described base plate.

Described aviation grid class part Linear cut special purpose machine tool, wherein: described lathe bed entirety is in rectangular structure, and there is accommodation space its inside; Described electric-control system is placed in the inside of described lathe bed, and it comprises servo-drive system and the digital control system of described X, Y, Z axis travel mechanism.

Beneficial effect:

The utility model aviation grid class part Linear cut special machine tool structure simplicity of design, rationally, flase floor working (machining) efficiency is high, process-cycle is short, processing economy is given prominence to,, by experiment contrast draw adopt Linear cut can save than spark machined about 1/3 cycle, electrode consumptive material also saves about 1/4 cost; Can realize the large part of little machine tooling, the part of difficult processing processing technology complexity, is not only suitable for the flase floor in aviation, large to some sizes, processes with the angled Kong Junke that draws of profile; Simultaneously, machining accuracy under equal conditions improves dimensional accuracy about 50%, surface roughness about one times, make the Classic couture of scientific and technical personnel easy-to-understand, it is convenient to manufacture, and has promoted the conversion of technique scientific achievement, on the one hand wire cutting machine tool innovation is supplemented, facilitate the innovation of technological method for processing on the other hand, also promote the progress of aircraft industry manufacture processing.

The utility model feature and advantage be embodied in following some:

(1) Z axis travel mechanism is added on the original basis, achieve Z, X, Y-axis moving mechanism is all electrically connected with electric-control system, Z axis can not upper and lower displacement when being in cut state, but X-Y-Z programme-control can find most suitable locus between workpiece and line arm during non-cutting state, carry out cut workpiece by wearing a line again, the motion track of upper and lower line arm all the time with flase floor space of a whole page parallel equidistant.

(2) Z axis travel mechanism is provided by the Z axis drive motors at column top, clutch end and the Z axis of Z axis drive motors move leading screw and connect, Z axis moves leading screw and coordinates with arm of reaching the standard grade and be rotationally connected, and upper and lower line arm is by Z axis contiguous block and column sliding connection; The arm that rolls off the production line is connected with arm of reaching the standard grade by Z axis contiguous block, and the arm that rolls off the production line has three groups of equally spaced pin-and-holes and screw hole, and adjustable machining needs two spacing arms, and is located by expansion pin between Z axis contiguous block, then by screw screw lock, reaches the object of interlock.

(3) upper and lower line arm provides space in shifting to install for flase floor tilts to put in the X-axis direction, the guide wheel vertical same axis all the time of upper and lower line arm, and it is parallel in the same way with side, work pieces process hole, molybdenum filament and side, work pieces process hole working depth reality very shallow, the upper and lower line arm shifted to install can make the upper and lower distance of two-arm be transferred to the shortest, molybdenum filament tension force is best, operates steadily, reaches desirable processing effect; The dislocation distance that upper and lower line arm is formed in X-direction, makes to roll off the production line arm at 1/10 of stressed its gravity of deficiency of column X-direction, use high-strength abrasion-proof good Z axis contiguous block and connecting components stressed all in the reasonable scope.

(4) upper and lower line arm keeps at a certain distance away in Z-direction, by expansion pin location displacement and screw locking, two grades of adjustments that spacing is different can be realized, for different angles grid processing line arm space dodge provide convenient.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model aviation grid class part Linear cut special purpose machine tool;

Fig. 2 is the enlarged drawing of a-quadrant in Fig. 1 of the utility model aviation grid class part Linear cut special purpose machine tool;

Fig. 3 is the X of aviation grid class part Linear cut special purpose machine tool of the present invention, the decomposing schematic representation of Y-axis moving mechanism

Fig. 4 is the Z axis travel mechanism of the utility model aviation grid class part Linear cut special purpose machine tool and the assembly structure schematic diagram of coil holder mechanism;

Fig. 5 is the coil holder mechanism of the utility model aviation grid class part Linear cut special purpose machine tool and the assembly structure schematic diagram of workpiece;

The clamping workpiece frock of Fig. 6 for the utility model aviation grid class part Linear cut special purpose machine tool and the assembly structure schematic diagram of workpiece;

Fig. 7 is the structural representation of the clamping workpiece frock of the utility model aviation grid class part Linear cut special purpose machine tool.

Detailed description of the invention

As shown in Fig. 1 to 7, the utility model aviation grid class part Linear cut special purpose machine tool, comprises lathe bed 1, X-axis travel mechanism 2, Y-axis moving mechanism 3, workbench 4, Z axis travel mechanism 5, coil holder mechanism 6, wire transporting parts 7, clamping workpiece frock 8 and electric-control system (not shown).

This lathe bed 1 entirety is in rectangular structure, and there is accommodation space its inside.

This X-axis travel mechanism 2 is located at the end face of this lathe bed 1, and it comprises X-axis drive motors 21, X-axis moving guide rail 22, X-axis Mobile Slide 23 and X-axis turn-screw 24; Wherein, this X-axis drive motors 21 is installed in this X-axis moving guide rail 22 side, and it is electrically connected with electric-control system, and in the present embodiment, this X-axis drive motors 21 adopts stepper motor; This X-axis moving guide rail 22 coupling is arranged at the end face of this lathe bed 1; The overall rectangular slide unit structure of this X-axis Mobile Slide 23, its coupling is slidably connected on this X-axis moving guide rail 22; This X-axis turn-screw 24 is installed in this X-axis moving guide rail 22 inside middle portion, and its one end assembly connection is in the clutch end of this X-axis drive motors 21, and the other end is by the bottom assembly connection of nut structure and this X-axis Mobile Slide 23.X-axis turn-screw 24 can be driven to rotate after X-axis drive motors 21 starts, X-axis turn-screw 24 drives this X-axis Mobile Slide 23 along X-axis moving guide rail 22 straight-line displacement by nut structure, and then realizes this X-axis Mobile Slide 23 and move in the X-direction of lathe bed 1.

This Y-axis moving mechanism 3 is installed on the X-axis Mobile Slide 23 of this X-axis travel mechanism 2, and it comprises Y-axis drive motors 31, Y-axis moving guide rail 32, Y-axis Mobile Slide 33 and Y-axis turn-screw 34; Wherein, this Y-axis drive motors 31 is installed in X-axis Mobile Slide 23 side of this X-axis travel mechanism 2, and it is electrically connected with electric-control system; This Y-axis moving guide rail 32 is fixedly arranged on the end face of the X-axis Mobile Slide 23 of this X-axis travel mechanism 2; The overall rectangular slide unit structure of this Y-axis Mobile Slide 33, its coupling is slidably connected on this Y-axis moving guide rail 32; This Y-axis turn-screw 34 is installed in the inside middle portion of this Y-axis moving guide rail 32, and its one end assembly connection is in the clutch end of this Y-axis drive motors 31, and the other end is by the bottom assembly connection of nut structure and this Y-axis Mobile Slide 33.Y-axis turn-screw 34 can be driven to rotate after Y-axis drive motors 31 starts, Y-axis turn-screw 34 drives this Y-axis Mobile Slide 33 along Y-axis moving guide rail 32 straight-line displacement by nut structure, and then realizes this Y-axis Mobile Slide 33 and move in the Y-direction of lathe bed 1.

This workbench 4 is fixedly arranged on the end face of the Y-axis Mobile Slide 33 of this Y-axis moving mechanism 3, its base plate 41 and backplate 42; The overall rectangular version body structure of this base plate 41 and being mounted with the end face of the Y-axis Mobile Slide 33 of Y-axis moving mechanism 3, this backplate 42 is the three pieces of plate bodys vertically arranged along this base plate 41 3 sides.

This Z axis travel mechanism 5 is located at this lathe bed 1 end face one end, and it comprises column 51, Z axis drive motors 52, Z axis contiguous block 53 and Z axis and moves leading screw 54; Wherein, this column 51 entirety is in cuboid pillar construction, and it is fixedly arranged on this lathe bed 1 end face one end and coupling is positioned at this X-axis travel mechanism 2 and Y-axis moving mechanism 3 side; This Z axis drive motors 52 is installed in the top of this column 51, and it is electrically connected with electric-control system; This Z axis contiguous block 53 is symmetrical a pair of being fixedly arranged on these relative both sides, column 51 stage casing; This Z axis moves leading screw 54 and is vertically installed in this column 51 1 side and between this pair Z axis contiguous block 53, its one end assembly connection in this Z axis drive motors 52 clutch end and drive rotation by this Z axis drive motors 52.

This coil holder mechanism 6 coupling is installed in this Z axis travel mechanism 5, it comprises arm 61 of reaching the standard grade, roll off the production line arm 62 and coil holder seat 63, to reach the standard grade arm 61 and roll off the production line arm 62 in the Z-axis direction all in being horizontally disposed with and being spaced from each other a distance, in the X-axis direction each other in shifting to install.Wherein, the Z axis contiguous block 53 that this arm 61 one end coupling of reaching the standard grade is assemblied in this Z axis travel mechanism 5 moves leading screw 54 with Z axis and is threaded connection, and this side, end of reaching the standard grade arm 61 other end is equiped with arm guide wheel 611 of reaching the standard grade.The Z axis contiguous block 53 that this arm 62 one end coupling that rolls off the production line is assemblied in this Z axis travel mechanism 5 is connected with arm 61 of reaching the standard grade by Z axis contiguous block 53, this arm 62 other end end of rolling off the production line is equiped with the arm guide wheel 621 that rolls off the production line, and this arm guide wheel 621 that rolls off the production line is positioned at same axis with arm guide wheel 611 in the vertical direction of reaching the standard grade; Meanwhile, this arm 62 that rolls off the production line is gone up in the horizontal direction and is also provided with three groups of equally spaced pin-and-holes 622 and screw hole 623; This arm 62 that rolls off the production line is equipped with expansion pin by pin-and-hole 622 and Z axis contiguous block 53 is located, then is equipped with screw by screw hole 623 and Z axis contiguous block 53 is locked.

This coil holder seat 63 entirety is in convex shape structure, and it is fixedly arranged on the upside of this arm 61 other end of reaching the standard grade and side, top is also provided with coil holder seat guide wheel 631.This arm guide wheel 611 of reaching the standard grade, roll off the production line arm guide wheel 621 and coil holder seat guide wheel 631 are connected by molybdenum filament 64 coupling and are connected with workpiece 9 by molybdenum filament 64, this workpiece 9 side be then provided with multiple supply molybdenum filament 64 to pass draw a hole 91.

These wire transporting parts 7 are installed in this lathe bed 1 end face one end and are positioned at column 51 side of this Z axis travel mechanism 5.

This clamping workpiece frock 8 coupling is installed in the inside top of this workbench 4, and it is made up of the inversion T-shaped frock jig arm 81 of a pair symmetry; Wherein, this pair frock jig arm 81 include fixed head 811 and along this fixed head 811 center of top in tilting upward the clamping plate 812 extended to form; This fixed head 811 is fixedly connected with this workbench 4 top by securing member 82, these clamping plate 812 offer clamping groove 813 along its length from top end face, simultaneously, these clamping plate 812 are evenly laid with multiple locking member 83 at clamping groove 813 side cell wall along the length direction of clamping plate 812, after in the clamping groove 813 that workpiece 9 coupling is installed in these clamping plate 812, by locking member 83, workpiece 9 and clamping plate 812 are locked.

This electric-control system is placed in the inside of this lathe bed 1, and it mainly comprises X-axis travel mechanism 2, the servo-drive system of Y-axis moving mechanism 3 and Z axis travel mechanism 5 and digital control system.

Operation principle of the present utility model:

Based on needs slant setting cutting flase floor, inventing closely dislocation line arm is condition, numerical control two dislocation line arm finds line arm at flase floor best spatial location and molybdenum filament at hole assigned address, the machining accuracy also efficiency raising 2 to 3 times on the original basis of such guarantee grid, program control X, Y-axis moving mechanism are run parts and are carried out cutting hole shape.

The utility model structural design is simple, reasonable, it is simple, convenient to use, effectively can improve the working (machining) efficiency of flase floor, shorten the process-cycle, processing economy is given prominence to, achieve little machine tooling part greatly by the change of wire cutting machine bed structure, the part of difficult processing processing technology complexity, machining accuracy is high.

The above; it is only preferred embodiment of the present utility model; not restriction the utility model being made to any other form, and any amendment done according to technical spirit of the present utility model or equivalent variations, still belong to the utility model scope required for protection.

Claims (7)

1. an aviation grid class part Linear cut special purpose machine tool, comprises electric-control system, lathe bed, the X-axis travel mechanism be installed on described lathe bed, the workbench that is installed in the Y-axis moving mechanism in described X-axis travel mechanism and is installed in described Y-axis moving mechanism; It is characterized in that: described special purpose machine tool also comprises Z axis travel mechanism, coil holder mechanism and clamping workpiece frock;

Described Z axis travel mechanism be located at described lathe bed end face one end and with mate described X-axis travel mechanism and Y-axis moving mechanism and mate and arrange; Described Z axis travel mechanism comprises the column being fixedly arranged on described lathe bed end face one end, the Z axis drive motors being installed in described column top, symmetry are fixedly arranged on described column stage casing relative at least one pair of Z axis contiguous block of both sides and be vertically installed in described column one side and Z axis between described a pair Z axis contiguous block moves leading screw; Described Z axis drive motors is electrically connected with electric-control system; Described Z axis moves leading screw one end assembly connection in the clutch end of described Z axis drive motors and by described Z axis drive motors driving rotation;

Described coil holder authority match is installed in described Z axis travel mechanism, and it comprises arm of reaching the standard grade, roll off the production line arm and coil holder seat; Described upper and lower line arm in the Z-axis direction all in being horizontally disposed with and being spaced from each other a distance, in the X-axis direction each other in shifting to install; Described arm one end of reaching the standard grade is assemblied in described Z axis contiguous block and moves leading screw with described Z axis and is threaded connection, described in the arm other end of reaching the standard grade be provided with arm guide wheel of reaching the standard grade; Reach the standard grade on the downside of arm described in the described arm that rolls off the production line is positioned at, its one end is assemblied in described Z axis contiguous block and is connected with described arm of reaching the standard grade by described Z axis contiguous block, the described arm other end that rolls off the production line is provided with the arm guide wheel that rolls off the production line, and described upper and lower line arm guide wheel in the vertical direction is positioned at same axis; Described Z axis contiguous block and described column sliding connection; To reach the standard grade described in described coil holder seat is fixedly arranged on the upside of the arm other end and top is provided with coil holder seat guide wheel; Reach the standard grade arm guide wheel, roll off the production line arm guide wheel and coil holder seat guide wheel of described this is connected each other by molybdenum filament coupling and is connected with workpiece by described molybdenum filament;

Described clamping workpiece frock coupling is installed in the inside top of described workbench, and it is made up of at least one pair of symmetrically arranged frock jig arm.

2. aviation grid class part Linear cut special purpose machine tool as claimed in claim 1, is characterized in that: described in roll off the production line one end that arm and Z axis contiguous block assemble go up in the horizontal direction and be also provided with three groups of equally spaced pin-and-holes and screw hole; The described arm that rolls off the production line is equipped with expansion pin by described pin-and-hole and described Z axis contiguous block is located, then is equipped with screw by described screw hole and described Z axis contiguous block is locked.

3. aviation grid class part Linear cut special purpose machine tool as claimed in claim 1 or 2, is characterized in that: described special purpose machine tool also comprises wire transporting parts; Described wire transporting parts are installed in described lathe bed end face one end and are positioned at described column side.

4. aviation grid class part Linear cut special purpose machine tool as claimed in claim 1, is characterized in that: described X-axis travel mechanism comprises X-axis drive motors, X-axis moving guide rail, X-axis Mobile Slide and X-axis turn-screw;

Described X-axis drive motors is installed in described X-axis moving guide rail side, and it is electrically connected with described electric-control system; Described X-axis moving guide rail coupling is arranged at the end face of described lathe bed; The overall rectangular slide unit structure of described X-axis Mobile Slide, its coupling is slidably connected on described X-axis moving guide rail; Described X-axis turn-screw is installed in the inside middle portion of described X-axis moving guide rail, and its one end assembly connection is in the clutch end of described X-axis drive motors, and the other end is by the bottom assembly connection of nut structure and described X-axis Mobile Slide.

5. aviation grid class part Linear cut special purpose machine tool as claimed in claim 4, is characterized in that: described Y-axis moving mechanism is installed on described X-axis Mobile Slide, and it comprises Y-axis drive motors, Y-axis moving guide rail, Y-axis Mobile Slide and Y-axis turn-screw;

Described Y-axis drive motors is installed in described X-axis Mobile Slide side, and it is electrically connected with described electric-control system; Described Y-axis moving guide rail is fixedly arranged on the end face of described X-axis Mobile Slide; The overall rectangular slide unit structure of described Y-axis Mobile Slide, its coupling is slidably connected on described Y-axis moving guide rail; Described Y-axis turn-screw is installed in the inside middle portion of described Y-axis moving guide rail, and its one end assembly connection is in the clutch end of described Y-axis drive motors, and the other end is by the bottom assembly connection of nut structure and described Y-axis Mobile Slide.

6. aviation grid class part Linear cut special purpose machine tool as claimed in claim 5, is characterized in that: described workbench is fixedly arranged on the end face of described Y-axis Mobile Slide, and it comprises base plate and backplate;

The overall rectangular version body structure of described base plate and being mounted with the end face of described Y-axis Mobile Slide; Described backplate is the three pieces of plate bodys vertically arranged along three sides of described base plate.

7. aviation grid class part Linear cut special purpose machine tool as claimed in claim 1, is characterized in that: described lathe bed entirety is in rectangular structure, and there is accommodation space its inside;

Described electric-control system is placed in the inside of described lathe bed, and it comprises servo-drive system and the digital control system of described X, Y, Z axis travel mechanism.