CN107309659A - A kind of combined numerically controlled lathe of multi-functional multi-angle and its processing method - Google Patents

Abstract

The invention discloses a kind of multi-functional combined numerically controlled lathe of multi-angle and its processing method, it is characterised in that：An oblique feeding orientation is devised between lathe traverse feed direction and length feed direction；Its oblique feeding orientation is located on upper slide rest provided with rotatable rotating disk and the oblique guide rail that can be fed, its oblique guide rail, and servomotor and power cutter tower of the oblique processing feeding on upper slide rest are completed.The present invention can realize the special processing of drilling and the tapping of workpiece angled surfaces while numerically controlled lathe conventional machining requirement is met, a kind of multi-functional multi-angle specific complex numerically controlled lathe is provided for machining, the processing to some axial directions, radial direction and the higher special workpiece of oblique position Geometrical Tolerance Principle brings very big help.

Description

A kind of combined numerically controlled lathe of multi-functional multi-angle and its processing method

Technical field

The present invention relates to a kind of combined numerically controlled lathe, particularly a kind of combined numerically controlled lathe of multi-functional multi-angle.

Background technology

Combined numerically controlled lathe biggest advantage is that the processing of complex parts can be done on same board easily, general multiple Turning or drilling can axially be carried out to workpiece by closing numerically controlled lathe, and the radial direction of workpiece can also be drilled, but can not one Drilling of the secondary completion to axial face, sagittal plane and inclined plane, when running into this inclination machined surface drilling, traditional handicraft must be by work Again clamping after one face of part has drilled, reprocesses inclined plane, is easy for producing error when so refilling folder, it is impossible to ensure to bore Orifice angle accuracy, and it is also cumbersome in step, or selection transfer workpiece is to machining center completion Drilling operation, but in processing The heart involves great expense, and cost is big.

The content of the invention

To solve the above problems, the present invention provides a kind of multi-functional combined numerically controlled lathe of multi-angle.

The technical solution adopted for the present invention to solve the technical problems is：A kind of combined numerically controlled lathe of multi-functional multi-angle, Include the control system of lathe bed 1, main spindle box 2 and the execution unit operation of control P axles, lathe bed 1 is provided with Z axis guide rail 11, planker 3 It is movable in Z axis guide rail 11, it is being characterized in that：Planker 3 be provided with rotating disk 4, rotating disk 4 be provided with upper slide rest 5, upper slide rest 5 with Rotating disk 4 can be rotated on planker 3；Upper slide rest 5 is provided with P axis rails 51, and servomotor 52 is arranged on the one of P axis rails 51 End, power cutter tower 6 is arranged on the other end of P axis rails 51；The control system includes the instruction of control rotating disk 4 rotational angle, moved The rotary cutter tool changing instruction of power knife tower 6 and servomotor 52 drive the instruction that screw mandrel rotates forward or backwards；Power cutter tower 6 is installed There are drill bit 61 and screw tap 62.

Further, rotating disk 4 is artificial manipulation, or, rotating disk 4 is driving stepper motor.

Further, rotating disk 4 indicates angle index.

Further, planker 3 is driven by Serve Motor Control screw mandrel.

Its processing method is：An oblique feeding is devised between lathe traverse feed direction and length feed direction Orientation；Its oblique feeding orientation is located on upper slide rest provided with rotatable rotating disk and the oblique guide rail that can be fed, its oblique guide rail, Servomotor and power cutter tower of the oblique processing feeding on upper slide rest are completed；It can be achieved such as on the oblique position of workpiece surface Lower processing method：

Drilled in workpiece angled surfaces, angle disk is gone to required angle position first, driven and bored by power cutter tower Head rotation, completes to drill in angled surfaces with reference to the servomotor of oblique feeding；

The tapping in workpiece angled surfaces；Angle disk is gone to required angle position first, silk is driven by power cutter tower Coning turns, and realizes that the dextrorotation of screw tap enters and derotation is exited with reference to the servomotor of oblique feeding；

The groove milling in workpiece angled surfaces；Angle disk is gone to required angle position first, now by power cutter tower band Dynamic milling tool, Xiyanping injection in angled surfaces is completed with reference to the servomotor of oblique feeding；

It is ground in workpiece angled surfaces；When the inclined-plane of some workpiece needs grinding, angle disk is gone into institute first The angle position needed, now driven by power cutter tower it is grinding head dedicated, with reference to oblique feeding servomotor complete angled surfaces Upper grinding.

The beneficial effects of the invention are as follows：The present invention can realize that workpiece is oblique while numerically controlled lathe conventional machining requirement is met To the drilling and the special processing of tapping on surface, a kind of multi-functional multi-angle specific complex numerical control lathe is provided for machining Bed, the processing to some axial directions, radial direction and the higher special workpiece of oblique position Geometrical Tolerance Principle brings very big help.

Brief description of the drawings

Fig. 1 is non-operating state structural representation of the invention；

Fig. 2 is inclination machining state structural representation of the invention.

In figure：Lathe bed 1；Z axis guide rail 11；Main spindle box 2；Planker 3；Rotating disk 4；Upper slide rest 5；P axis rails 51；Servomotor 52；Power cutter tower 6；Drill bit 61；Screw tap 62；Workpiece 7；Process inclined-plane 71；Process hole 72.

Embodiment

For technical scheme is more clearly understood, specific embodiment is made to the present invention into one below in conjunction with the accompanying drawings Walk explanation.

As shown in Figure 1-2, a kind of combined numerically controlled lathe of multi-functional multi-angle, including lathe bed 1, main spindle box 2 and control P axles The control system of execution unit operation, lathe bed 1 is provided with Z axis guide rail 11, and planker 3 is movable in Z axis guide rail 11, exists in its feature In：Planker 3 is provided with rotating disk 4, and rotating disk 4 is provided with upper slide rest 5, and upper slide rest 5 can be rotated with rotating disk 4 on planker 3；Upper slide rest 5 are provided with P axis rails 51, and servomotor 52 is arranged on one end of P axis rails 51, and power cutter tower 6 is arranged on the another of P axis rails 51 One end；The control system includes the instruction of control rotating disk 4 rotational angle, the rotary cutter tool changing instruction of power cutter tower 6 and servo electricity Machine 52 drives the instruction that screw mandrel rotates forward or backwards；Power cutter tower 6 is provided with drill bit 61 and screw tap 62.

Further, rotating disk 4 is artificial manipulation, or, rotating disk 4 is driving stepper motor.

Further, rotating disk 4 indicates angle index.

Further, planker 3 is driven by Serve Motor Control screw mandrel.

Its processing method is：An oblique feeding is devised between lathe traverse feed direction and length feed direction Orientation；Its oblique feeding orientation is located on upper slide rest provided with rotatable rotating disk and the oblique guide rail that can be fed, its oblique guide rail, Servomotor and power cutter tower of the oblique processing feeding on upper slide rest are completed；It can be achieved such as on the oblique position of workpiece surface Lower processing method：

Drilled in workpiece angled surfaces, angle disk is gone to required angle position first, driven and bored by power cutter tower Head rotation, completes to drill in angled surfaces with reference to the servomotor of oblique feeding；

The tapping in workpiece angled surfaces；Angle disk is gone to required angle position first, silk is driven by power cutter tower Coning turns, and realizes that the dextrorotation of screw tap enters and derotation is exited with reference to the servomotor of oblique feeding；

The groove milling in workpiece angled surfaces；Angle disk is gone to required angle position first, now by power cutter tower band Dynamic milling tool, Xiyanping injection in angled surfaces is completed with reference to the servomotor of oblique feeding；

It is ground in workpiece angled surfaces；When the inclined-plane of some workpiece needs grinding, angle disk is gone into institute first The angle position needed, now driven by power cutter tower it is grinding head dedicated, with reference to oblique feeding servomotor complete angled surfaces Upper grinding.

As shown in Fig. 2 when processing the screw in inclined plane, planker 3 carries out the movement of Z-direction first, it is oblique close to processing Face；Control system control rotating disk 4 turns an angle, and power cutter tower 6 rotates vertical alignment processing inclined-plane, control system with rotating disk 4 The current cutter of system control power cutter tower 6 elects drill bit 61 as, and drill bit 61 starts the processing inclined-plane 71 of simultaneously alignment pieces 7, servo electricity Machine 52 controls power cutter tower 6 in the feed of P axis rails 51, and processing hole 72 is implemented to drill.After the completion of drilling, servomotor 52 is controlled Screw mandrel drives the withdrawing of power cutter tower 6, and the current cutter of control system control power cutter tower 6 elects screw tap 62 as, and servomotor 52 is controlled Brake force knife tower 6 repeatedly feed or withdrawing on P axis rails 51, tapping is implemented to processing hole 72.After machining, lathe is dragged Plate 3, rotating disk 4 and P axis rails 51 return initial position.

Above example can be mutually combined in the case where not being antagonistic mutually, further be implemented.

The present invention can realize the drilling and tapping of workpiece angled surfaces while numerically controlled lathe conventional machining requirement is met Special processing, for machining provide a kind of multi-functional multi-angle specific complex numerically controlled lathe, to some axially, radial directions and The processing of the higher special workpiece of oblique position Geometrical Tolerance Principle brings very big help.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (6)

1. a kind of combined numerically controlled lathe of multi-functional multi-angle, including lathe bed（1）, main spindle box（2）And control P axles execution unit fortune Capable control system, lathe bed（1）It is provided with Z axis guide rail（11）, planker（3）In Z axis guide rail（11）Upper activity, exists in its feature In：Planker（3）It is provided with rotating disk（4）, rotating disk（4）It is provided with upper slide rest（5）, upper slide rest（5）With rotating disk（4）Can be in planker （3）It is upper to rotate；Upper slide rest（5）It is provided with P axis rails（51）, servomotor（52）Installed in P axis rails（51）One end, power Knife tower（6）Installed in P axis rails（51）The other end；The control system includes control rotating disk（4）Rotational angle instruction, power Knife tower（6）Rotary cutter tool changing instruction and servomotor（52）The instruction for driving screw mandrel to rotate forward or backwards；Power cutter tower（6） Drill bit is installed（61）And screw tap（62）.

2. a kind of multi-functional combined numerically controlled lathe of multi-angle according to claim 1, it is characterised in that：Rotating disk（4）For people Work is manipulated.

3. a kind of multi-functional combined numerically controlled lathe of multi-angle according to claim 1, it is characterised in that：Rotating disk（4）For step Stepper motor drives.

4. a kind of multi-functional combined numerically controlled lathe of multi-angle according to claim 1 or 2, it is characterised in that：Rotating disk（4）Mark Angled scale.

5. a kind of multi-functional combined numerically controlled lathe of multi-angle according to claim 1, it is characterised in that：Planker（3）By watching Take the drive of motor control screw mandrel.

6. a kind of multi-functional combined numerically controlled lathe of multi-angle according to claim 1, its processing method is：It is horizontal in lathe To devising an oblique feeding orientation between direction of feed and length feed direction；Its oblique feeding orientation is provided with rotatable Rotating disk and the oblique guide rail that can be fed, its oblique guide rail are located on upper slide rest, servo electricity of the oblique processing feeding on upper slide rest Machine and power cutter tower are completed；Following processing method can be achieved on the oblique position of workpiece surface：

Drilled in workpiece angled surfaces, angle disk is gone to required angle position first, driven and bored by power cutter tower Head rotation, completes to drill in angled surfaces with reference to the servomotor of oblique feeding；

The tapping in workpiece angled surfaces；Angle disk is gone to required angle position first, silk is driven by power cutter tower Coning turns, and realizes that the dextrorotation of screw tap enters and derotation is exited with reference to the servomotor of oblique feeding；

The groove milling in workpiece angled surfaces；Angle disk is gone to required angle position first, now by power cutter tower band Dynamic milling tool, Xiyanping injection in angled surfaces is completed with reference to the servomotor of oblique feeding；

It is ground in workpiece angled surfaces；When the inclined-plane of some workpiece needs grinding, angle disk is gone into institute first The angle position needed, now driven by power cutter tower it is grinding head dedicated, with reference to oblique feeding servomotor complete angled surfaces Upper grinding.