CN203900891U

CN203900891U - Five-axis CNC machine tool

Info

Publication number: CN203900891U
Application number: CN201420311966.2U
Authority: CN
Inventors: 李军强; 王勇; 夏炜康; 唐凯军; 李晓天
Original assignee: Zhejiang Sci Tech University ZSTU
Current assignee: Zhejiang Sci Tech University ZSTU; Zhejiang University of Science and Technology ZUST
Priority date: 2014-06-11
Filing date: 2014-06-11
Publication date: 2014-10-29
Anticipated expiration: 2024-06-11

Abstract

The utility model relates to a five-axis CNC machine tool which comprises a machine frame, an X-axis movement device, a Y-axis movement device, a Z-axis movement device, a tool movement device, an A-axis movement device and a C-axis movement device. The Y-axis movement device comprises a Y-axis machine frame, two Y-axis lead screws, a Y-axis stepping motor and a Y-axis motor base. The X-axis movement device comprises an X-axis fixing base, an X-axis lead screw, an X-axis stepping motor and an X-axis motor base. The Z-axis movement device comprises a Z-axis fixing base, a Z-axis lead screw, a Z-axis stepping motor and a Z-axis motor base. The tool movement device comprises a tool motor, a clamp and a tool. The A-axis movement device comprises two A-axis machine frames, unthreaded shafts, an overturning fixing plate and an A-axis stepping motor. The C-axis movement device comprises a C-axis stepping motor, a C-axis motor base and a rotating disk. By means of the five-axis CNC machine tool, the machining range can be expanded on the premise that the machining accuracy is improved, and meanwhile the stability and the reliability of the machine tool are improved.

Description

5-shaft linkage numerical control lathe

Technical field

The utility model relates to a kind of machine tool, relates in particular to a kind of 5-shaft linkage numerical control lathe.

Background technology

5-shaft linkage numerical control lathe is a kind of high in technological content, high lathe that is specifically designed to processed complex curved surface of precision, and this machine tool system has very important influence power to a national Aeronautics and Astronautics, military affairs, scientific research, accurate apparatus, high-precision Medical Devices etc. industry.At present, 5-shaft linkage numerical control machine tool system is the only resource that solves impeller, blade, marine propeller, heavy generator amature, turbine rotor, large-sized diesel machine crankshaft etc. processing.

Chinese invention patent application (application number: 201310164508.0 applyings date: 2013-05-07) disclose a kind of five-axle number control machine tool, comprised lathe bed, cradle-type workbench, the first side chain, the second side chain, the 3rd side chain, column, crossbeam, main shaft frame and electric main shaft; Described the first side chain and described the second side chain are arranged in same level, form two-degree-of-freedom parallel mechanism, and the stretching motion of described the first side chain and the second side chain is controlled the feed motion of electric main shaft in horizontal plane; The 3rd side chain vertical arranges, and its stretching motion is controlled the feed motion of electric main shaft in the vertical direction; Two-freedom cradle-type workbench can be controlled the attitude of workpiece.Lathe is combined to drive by five drive units and is realized workpiece and process, and realizes five-axle linkage processing.

Chinese utility model patent (application number: 201020521377.9 applyings date: 2010-09-08) disclose five-axle linkage milling head parts and be connected with vertical longitudinally slide unit by collar bush, five-axle linkage milling head rebound, collar bush connects main shaft, worm gear installation sleeve is fixed on main shaft and with the worm gear in upper worm gear case and is connected, be connected with the servomotor being fixed on worm gear case with the worm screw of worm gear engagement, worm screw setting-up eccentricity cover, the right of casing connects dextral shaft to be fixed by the worm gear in worm gear installation sleeve and lower worm gear case, and lower worm gear case is arranged on right plate.

Summary of the invention

The purpose of this utility model is to provide a kind of 5-shaft linkage numerical control lathe, and this lathe is easy to assemble, and the while can be changed three axles into lathe again, four axles are laid a good foundation.

In order to realize above-mentioned object, the utility model has adopted following technical scheme:

5-shaft linkage numerical control lathe, this lathe comprises frame, X-axis telecontrol equipment, Y-axis telecontrol equipment, Z axis telecontrol equipment, tool motion device, A axle telecontrol equipment and C axle telecontrol equipment, described both sides, frame top are respectively arranged with Y-axis guide rail, described Y-axis telecontrol equipment comprises Y-axis frame, two Y-axis screw mandrels, y-axis stepper motor and y-axis motor seat, the both sides, below of Y-axis frame are respectively arranged with Y-axis guide-track groove, Y-axis guide-track groove is mounted on respectively on Y-axis guide rail, two Y-axis screw mandrels are erected at respectively the outside of two Y-axis guide rails, and in the both sides of Y-axis frame, be respectively arranged with the Y-axis screw mandrel slide block suitable with Y-axis screw mandrel, described y-axis motor seat is arranged on the right side of frame, y-axis stepper motor is fixedly installed on y-axis motor seat, the two ends of y-axis stepper motor arrange respectively motor shaft, the motor shaft of one end is connected with right side Y-axis screw mandrel by shaft coupling, the motor shaft of the other end is connected with synchronizing jugged belt wheel, and be provided with synchronizing jugged belt wheel on the Y-axis screw mandrel in left side, by synchronous cog belt is set, two synchronizing jugged belt wheels are connected, in described Y-axis frame, be provided with two X-axis guide rails, described X-axis telecontrol equipment comprises X-axis holder, X-axis screw mandrel, X-axis stepper motor and X-axis motor cabinet, the rear side of X-axis holder is provided with two X-axis guide-track grooves, X-axis guide-track groove is mounted on respectively on X-axis guide rail, X-axis screw mandrel is erected in Y-axis frame, and on X-axis holder, be provided with the X-axis screw mandrel slide block suitable with X-axis screw mandrel, described X-axis motor cabinet is arranged on the right side of Y-axis frame, X-axis stepper motor is fixedly installed on X-axis motor cabinet, X-axis stepper motor is connected with X-axis screw mandrel by shaft coupling, on described X-axis holder, be provided with two Z axis guide rails, described Z axis telecontrol equipment comprises Z axis holder, Z axis screw mandrel, Z axis stepper motor and Z axis motor cabinet, the rear side of Z axis holder is provided with two Z axis guide-track grooves, Z axis guide-track groove is mounted on respectively on Z axis guide rail, Z axis screw mandrel is erected on X-axis holder, and on Z axis holder, be provided with the Z axis screw mandrel slide block suitable with Z axis screw mandrel, described Z axis motor cabinet is arranged on the top of X-axis holder, Z axis stepper motor is fixedly installed on Z axis motor cabinet, Z axis stepper motor is connected with Z axis screw mandrel by shaft coupling, described tool motion device comprises cutter motor, fixture and cutter, and cutter motor is fixedly installed on Z axis holder, and cutter motor connects described fixture, and described cutter is fixedly installed on fixture, described A axle telecontrol equipment is arranged on the bottom of frame, in frame two bottom sides, be respectively arranged with optical axis bearing, described A axle telecontrol equipment comprises two A axle frames, optical axis, upset fixed head, A shaft step motor, two A axle frames are erected at the bottom arranged on left and right sides of frame, in two A axle frames, be respectively arranged with optical axis, upset fixed head is arranged in the middle of two A axle frames, and two described optical axises are separately positioned in the axis hole of optical axis bearing, on an optical axis in left side, be provided with synchronous pulley, described A shaft step motor is fixedly installed in frame, on A shaft step motor, is provided with synchronous pulley, and two synchronous pulleys are connected by Timing Belt, described C axle telecontrol equipment comprises C shaft step motor, C spindle motor seat and rotating disc, the centre of described upset fixed head is provided with rotation mouthful, rotating disc is movably arranged in rotation mouth, C spindle motor seat is fixedly installed on the below of upset fixed head, C shaft step motor is fixed on C spindle motor seat, and C shaft step motor is connected with rotating disc.

As preferably, described frame comprises that four root posts and seven connecting rods form, four connecting rods are arranged on the bottom of four root posts, another three connecting rods are arranged on the top of left side, right side and the rear side of four root posts, between the upper and lower connecting rod between two root posts of arranged on left and right sides, be also respectively arranged with reinforcing prop, between two reinforcing props, be provided with horizontal connecting rod, between column and connecting rod, connecting rod is with reinforcing prop, reinforcing prop and be laterally connected with corner brace connector is set respectively between connecting rod; Described Y-axis guide rail is separately positioned on the connecting rod of left side and top, right side.

As preferably, the top of described horizontal connecting rod is provided with dust cover, and laterally the rear portion of connecting rod arranges baffle plate, and dust cover and baffle plate are at the rear side formation control components and parts installing space of frame.

As preferably, four described root posts, five connecting rods, reinforcing prop and laterally connecting rods all adopt 3030 industrial aluminum profiles.Adopt aluminium section bar to build to there is aluminium section bar weight lighter, can alleviate the quality of body, and easily build, assemble, after building, there is certain stability and rigidity, can meet the requirement of cylinder block strength.

As preferably, described Y-axis frame consists of two blocks of gusseted plates, two gantry base plates, gantry backboard and stiffeners, two blocks of gusseted plates are fixedly installed on respectively the both sides of gantry backboard, two gantry base plates are separately positioned on the bottom of two blocks of gusseted plates, and connect two blocks of gusseted plates and two gantry base plates by described stiffener; Described X-axis guide rail is arranged on the backboard of gantry.Above-mentioned structure is driven portal structure, can under the prerequisite that improves machining accuracy, increase the scope of processing, improves stability and the reliability of lathe simultaneously.

As preferably, on two described gantry base plates, side connecting plate is set respectively, described Y-axis screw mandrel slide block is fixedly installed on side connecting plate.

As preferably, described X-axis holder comprises backboard, upper head plate and lower shoe, and two described Z axis guide rails are fixedly installed on backboard, and Z axis motor cabinet is fixedly installed on upper head plate.

As preferably, described Z axis holder comprises seat board and motor fixture, and motor fixture is fixedly installed on seat board, and described cutter motor is fixedly installed on motor fixture.

As preferably, described X-axis guide rail, Y-axis guide rail, Z axis guide rail all adopt circular guideway.

As preferably, the bottom of described frame is provided with leg.

The utility model, owing to having adopted above-mentioned technical scheme, has following feature:

One, aluminium section bar is built: aluminium section bar weight is lighter, can alleviate the quality of body, and easily builds, assembles, and has certain stability and rigidity after building, and can meet the requirement of cylinder block strength;

Two, driven portal structure: driven portal structure can increase the scope of processing under the prerequisite that improves machining accuracy, improves stability and the reliability of lathe simultaneously;

Three, cradle-type processing platform: A is set on workbench, C axle makes main shaft move without multi-angle, therefore, main shaft rigidity is very good, and manufacturing cost is lower.But general work platform can not design too large, and load-bearing is also less, particularly, when A axle revolution is more than or equal to 90 while spending, during workpiece cutting, can bring very large carrying moment to workbench.

Lathe of the present utility model, except possessing the basic machining functions that 5-shaft linkage numerical control lathe possesses on the market, also has self-assembling function.The upper machine of can doing it yourself is spelled lathe to be barricaded as three axles, four axles, five axles.In a sense, self assembly 5-shaft linkage numerical control lathe, just as a large body, can repack three axles and four-shaft numerically controlled lathe in a simple manner.

Accompanying drawing explanation

Fig. 1 is front view of the present utility model.

Fig. 2 is Fig. 1 left view.

Fig. 3 is the top view of Fig. 1.

Fig. 4 is the structural representation of frame.

Fig. 5 is the structural representation of Z axis telecontrol equipment, tool motion device.

Fig. 6 is the structural representation of A axle telecontrol equipment and C axle telecontrol equipment.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is made a detailed explanation.

5-shaft linkage numerical control lathe as shown in Fig. 1 ~ Fig. 3, this lathe comprises frame 1, X-axis telecontrol equipment 2, Y-axis telecontrol equipment 3, Z axis telecontrol equipment 4, tool motion device 5, A axle telecontrol equipment 6 and C axle telecontrol equipment 7.

As shown in Figure 4, described frame 1 comprises that four root posts 11 and seven connecting rods 12 form, four connecting rods 12 are arranged on the bottom of four root posts 11, another three connecting rods 12 are arranged on the top of left side, right side and the rear side of four root posts 11, between the upper and lower connecting rod 12 between two root posts 11 of arranged on left and right sides, be also respectively arranged with reinforcing prop 13, between two reinforcing props 13, be provided with horizontal connecting rod 14, between column 11 and connecting rod 12, connecting rod 12 is with reinforcing prop, reinforcing prop and be laterally connected with corner brace connector 15 is set respectively between connecting rod 14.Laterally the top of connecting rod 12 is provided with dust cover 18, and laterally the rear portion of connecting rod 12 arranges baffle plate 19, and dust cover 18 and baffle plate 19 are at the rear side formation control components and parts installing space 17 of frame 1.Described four root posts 11, five connecting rods 12, reinforcing prop and laterally connecting rod 12 all adopt 3030 industrial aluminum profiles.The bottom of frame 1 is provided with leg 16.Adopt aluminium section bar to build to there is aluminium section bar weight lighter, can alleviate the quality of body, and easily build, assemble, after building, there is certain stability and rigidity, can meet the requirement of cylinder block strength.

As shown in Fig. 1 ~ Fig. 3, on the connecting rod 12 of described frame 1 left side and top, right side, be respectively arranged with Y-axis guide rail 30, Y-axis guide rail 30 adopts circular guideway.Described Y-axis telecontrol equipment 3 comprises Y-axis frame 31, two Y-axis screw mandrels 32, y-axis stepper motor 33 and y-axis motor seat 34, the both sides, below of Y-axis frame 31 are respectively arranged with Y-axis guide-track groove, Y-axis guide-track groove is mounted on respectively on Y-axis guide rail 30, two Y-axis screw mandrels 32 are erected at respectively the outside of two Y-axis guide rails 30, and in the both sides of Y-axis frame 31, be respectively arranged with the Y-axis screw mandrel slide block suitable with Y-axis screw mandrel 32, described y-axis motor seat 34 is arranged on the right side of frame, y-axis stepper motor 33 is fixedly installed on y-axis motor seat 34, the two ends of y-axis stepper motor 33 arrange respectively motor shaft, the motor shaft of one end is connected with right side Y-axis screw mandrel 32 by shaft coupling, the motor shaft of the other end is connected with synchronizing jugged belt wheel, and be provided with synchronizing jugged belt wheel on the Y-axis screw mandrel 32 in left side, by synchronous cog belt 35 is set, two synchronizing jugged belt wheels are connected.

As shown in Fig. 1 ~ Fig. 3, described Y-axis frame 31 consists of two blocks of gusseted plates 311, two gantry base plates 312, gantry backboard 313 and stiffeners 314, two blocks of gusseted plates 311 are fixedly installed on respectively the both sides of gantry backboard 313, two gantry base plates 312 are separately positioned on the bottom of two blocks of gusseted plates 311, and connect two blocks of gusseted plates 311 and two gantry base plates 312 by described stiffener 314; Above-mentioned structure is that driven portal structure can increase the scope of processing under the prerequisite that improves machining accuracy, improves stability and the reliability of lathe simultaneously.And on two gantry base plates 312, side connecting plate 315 being set respectively, described Y-axis screw mandrel slide block is fixedly installed on side connecting plate 315.

As shown in Fig. 1 ~ Fig. 3, on described Y-axis frame 31 gantry backboards 313, be provided with two X-axis guide rails 20, X-axis guide rail 20 adopts circular guideway.Described X-axis guide rail 20 is arranged on gantry backboard 313.Described X-axis telecontrol equipment 2 comprises X-axis holder 21, X-axis screw mandrel 22, X-axis stepper motor 23 and X-axis motor cabinet 24, the rear side of X-axis holder 21 is provided with two X-axis guide rail 20 grooves, X-axis guide rail 20 grooves are mounted on respectively on X-axis guide rail 20, X-axis screw mandrel 22 is erected in Y-axis frame 31, and on X-axis holder 21, be provided with X-axis screw mandrel 22 slide blocks suitable with X-axis screw mandrel 22, described X-axis motor cabinet 24 is arranged on the right side of Y-axis frame 31, X-axis stepper motor 23 is fixedly installed on X-axis motor cabinet 24, X-axis stepper motor 23 is connected with X-axis screw mandrel 22 by shaft coupling.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 5, described X-axis holder 21 comprises backboard 211, upper head plate 212 and lower shoe 213, is provided with two Z axis guide rails 40 on the backboard 211 of X-axis holder 21, Z axis guide rail 40 adopts circular guideways.Described Z axis telecontrol equipment 4 comprises Z axis holder 41, Z axis screw mandrel 42, Z axis stepper motor 43 and Z axis motor cabinet 44, the rear side of Z axis holder 41 is provided with two Z axis guide-track grooves, Z axis guide-track groove is mounted on respectively on Z axis guide rail 40, Z axis screw mandrel 42 is erected on X-axis holder 21, and on Z axis holder 41, be provided with the Z axis screw mandrel slide block suitable with Z axis screw mandrel 42, described Z axis motor cabinet 44 is arranged on the upper head plate 212 of X-axis holder 21, Z axis stepper motor 43 is fixedly installed on Z axis motor cabinet 44, Z axis stepper motor 43 is connected with Z axis screw mandrel 42 by shaft coupling.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 5, described Z axis holder 41 comprises seat board 411 and motor fixture 412, described tool motion device 5 comprises cutter motor 51, fixture 52 and cutter 53, motor fixture 412 is fixedly installed on seat board 411, and described cutter motor 51 is fixedly installed on motor fixture 412.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 6, described A axle telecontrol equipment 6 is arranged on the bottom of frame 1, in frame 1 two bottom sides, be respectively arranged with optical axis bearing 62, described A axle telecontrol equipment 6 comprises two A axle frames 61, optical axis 63, upset fixed head 64, A shaft step motor 65, two A axle frames 61 are erected at the bottom arranged on left and right sides of frame 1, described optical axis 63 is set respectively in two A axle frames 61, upset fixed head 64 is arranged in the middle of two A axle frames 61, and two described optical axises 63 are separately positioned in the axis hole of optical axis bearing 62; On an optical axis 63 in left side, be provided with synchronous pulley, described A shaft step motor is fixedly installed in frame 1, on A shaft step motor 65, is provided with synchronous pulley, and two synchronous pulleys are connected by Timing Belt 66.

As shown in Figure 6, described C axle telecontrol equipment 7 comprises C shaft step motor 72, C spindle motor seat and rotating disc 71, the centre of described upset fixed head 64 is provided with rotation mouth 73, rotating disc 71 is movably arranged in rotation mouth 73, C spindle motor seat is fixedly installed on the below of upset fixed head 64, C shaft step motor 72 is fixed on C spindle motor seat, and C shaft step motor 72 is connected with rotating disc 71.

Claims

1. 5-shaft linkage numerical control lathe, is characterized in that: this lathe comprises frame, X-axis telecontrol equipment, Y-axis telecontrol equipment, Z axis telecontrol equipment, tool motion device, A axle telecontrol equipment and C axle telecontrol equipment, described both sides, frame top are respectively arranged with Y-axis guide rail, described Y-axis telecontrol equipment comprises Y-axis frame, two Y-axis screw mandrels, y-axis stepper motor and y-axis motor seat, the both sides, below of Y-axis frame are respectively arranged with Y-axis guide-track groove, Y-axis guide-track groove is mounted on respectively on Y-axis guide rail, two Y-axis screw mandrels are erected at respectively the outside of two Y-axis guide rails, and in the both sides of Y-axis frame, be respectively arranged with the Y-axis screw mandrel slide block suitable with Y-axis screw mandrel, described y-axis motor seat is arranged on the right side of frame, y-axis stepper motor is fixedly installed on y-axis motor seat, the two ends of y-axis stepper motor arrange respectively motor shaft, the motor shaft of one end is connected with right side Y-axis screw mandrel by shaft coupling, the motor shaft of the other end is connected with synchronizing jugged belt wheel, and be provided with synchronizing jugged belt wheel on the Y-axis screw mandrel in left side, by synchronous cog belt is set, two synchronizing jugged belt wheels are connected, in described Y-axis frame, be provided with two X-axis guide rails, described X-axis telecontrol equipment comprises X-axis holder, X-axis screw mandrel, X-axis stepper motor and X-axis motor cabinet, the rear side of X-axis holder is provided with two X-axis guide-track grooves, X-axis guide-track groove is mounted on respectively on X-axis guide rail, X-axis screw mandrel is erected in Y-axis frame, and on X-axis holder, be provided with the X-axis screw mandrel slide block suitable with X-axis screw mandrel, described X-axis motor cabinet is arranged on the right side of Y-axis frame, X-axis stepper motor is fixedly installed on X-axis motor cabinet, X-axis stepper motor is connected with X-axis screw mandrel by shaft coupling, on described X-axis holder, be provided with two Z axis guide rails, described Z axis telecontrol equipment comprises Z axis holder, Z axis screw mandrel, Z axis stepper motor and Z axis motor cabinet, the rear side of Z axis holder is provided with two Z axis guide-track grooves, Z axis guide-track groove is mounted on respectively on Z axis guide rail, Z axis screw mandrel is erected on X-axis holder, and on Z axis holder, be provided with the Z axis screw mandrel slide block suitable with Z axis screw mandrel, described Z axis motor cabinet is arranged on the top of X-axis holder, Z axis stepper motor is fixedly installed on Z axis motor cabinet, Z axis stepper motor is connected with Z axis screw mandrel by shaft coupling, described tool motion device comprises cutter motor, fixture and cutter, and cutter motor is fixedly installed on Z axis holder, and cutter motor connects described fixture, and described cutter is fixedly installed on fixture, described A axle telecontrol equipment is arranged on the bottom of frame, in frame two bottom sides, be respectively arranged with optical axis bearing, described A axle telecontrol equipment comprises two A axle frames, optical axis, upset fixed head, A shaft step motor, two A axle frames are erected at the bottom arranged on left and right sides of frame, in two A axle frames, be respectively arranged with optical axis, upset fixed head is arranged in the middle of two A axle frames, and two described optical axises are separately positioned in the axis hole of optical axis bearing, on an optical axis in left side, be provided with synchronous pulley, described A shaft step motor is fixedly installed in frame, on A shaft step motor, is provided with synchronous pulley, and two synchronous pulleys are connected by Timing Belt, described C axle telecontrol equipment comprises C shaft step motor, C spindle motor seat and rotating disc, the centre of described upset fixed head is provided with rotation mouthful, rotating disc is movably arranged in rotation mouth, C spindle motor seat is fixedly installed on the below of upset fixed head, C shaft step motor is fixed on C spindle motor seat, and C shaft step motor is connected with rotating disc.

2. 5-shaft linkage numerical control lathe according to claim 1, it is characterized in that: frame comprises that four root posts and seven connecting rods form, four connecting rods are arranged on the bottom of four root posts, another three connecting rods are arranged on the top of left side, right side and the rear side of four root posts, between the upper and lower connecting rod between two root posts of arranged on left and right sides, be also respectively arranged with reinforcing prop, between two reinforcing props, be provided with horizontal connecting rod, between column and connecting rod, connecting rod is with reinforcing prop, reinforcing prop and be laterally connected with corner brace connector is set respectively between connecting rod; Described Y-axis guide rail is separately positioned on the connecting rod of left side and top, right side.

3. 5-shaft linkage numerical control lathe according to claim 2, is characterized in that: laterally the top of connecting rod is provided with dust cover, and laterally the rear portion of connecting rod arranges baffle plate, and dust cover and baffle plate are at the rear side formation control components and parts installing space of frame.

4. 5-shaft linkage numerical control lathe according to claim 2, is characterized in that: four root posts, five connecting rods, reinforcing prop and horizontal connecting rods all adopt 3030 industrial aluminum profiles.

5. 5-shaft linkage numerical control lathe according to claim 1, it is characterized in that: Y-axis frame consists of two blocks of gusseted plates, two gantry base plates, gantry backboard and stiffeners, two blocks of gusseted plates are fixedly installed on respectively the both sides of gantry backboard, two gantry base plates are separately positioned on the bottom of two blocks of gusseted plates, and connect two blocks of gusseted plates and two gantry base plates by described stiffener; Described X-axis guide rail is arranged on the backboard of gantry.

6. 5-shaft linkage numerical control lathe according to claim 5, is characterized in that: on two gantry base plates, side connecting plate is set respectively, described Y-axis screw mandrel slide block is fixedly installed on side connecting plate.

7. 5-shaft linkage numerical control lathe according to claim 1, is characterized in that: X-axis holder comprises backboard, upper head plate and lower shoe, and two described Z axis guide rails are fixedly installed on backboard, and Z axis motor cabinet is fixedly installed on upper head plate.

8. 5-shaft linkage numerical control lathe according to claim 1, is characterized in that: Z axis holder comprises seat board and motor fixture, and motor fixture is fixedly installed on seat board, and described cutter motor is fixedly installed on motor fixture.

9. 5-shaft linkage numerical control lathe according to claim 1, is characterized in that: X-axis guide rail, Y-axis guide rail, Z axis guide rail all adopt circular guideway.

10. 5-shaft linkage numerical control lathe according to claim 1, is characterized in that: the bottom of frame is provided with leg.