CN206305476U - A kind of nanosizing processes cutter head - Google Patents

Abstract

The utility model is related to a kind of nanosizing processing cutter head, including tool seat, tool heads and locating piece, the tool heads are arranged on the front end of tool seat, the front end of the tool seat is additionally provided with the through hole with tool seat axis perpendicular, and two locating pieces are symmetricly set in through hole and tool heads are fixed.The wedge shaped structure in front end of the tool seat, the working face of the tool heads protrudes wedge structure.The utility model nanosizing processing cutter head structure is simple, compact, tool heads axis and ultrasonic transformer axis perpendicular, makes ultrasonic transformer drive the output effect of tool heads good, easy to operate.The R arc grooves of excircle of workpiece and end face junction can be easy to process using nanosizing processing cutter head, solving common cutter head cannot process the problem of R arc grooves, its effect is obvious, effect is significant.

Description

A kind of nanosizing processes cutter head

Technical field

The utility model is related to a kind of nanosizing processing cutter head, belongs to metal-surface nano processing technique field.

Background technology

In recent years, nanosizing processing is carried out to metal surface using ultrasonic technology or eliminates the remnants of surface of workpiece Stress is evolving, and carrying out ultrasonic wave processing to metal surface is obtained in that low roughness value and high manufacturing accuracy, and has Efficient height, low cost, free of contamination feature；Residual stress elimination is carried out to surface of workpiece, metal can be effectively lifted The overall performance of workpiece.The equipment for carrying out nanosizing processing now with ultrasonic technology or eliminating residual stress mainly has ultrasound The chief component of ripple process tool and stress elimination equipment, ultrasonic wave processing cutting tool and stress elimination equipment includes transducing Device, ultrasonic transformer and cutterhead (cutter head), ultrasonic cutter can be directly installed on the main shaft of corresponding lathe or knife rest, or On supersonic machining apparatus, the ultrasonic wave to surface of workpiece is completed under the drive of lathe supersonic machining apparatus Processing or stress elimination.

Ultrasonic wave processing cutting tool can process workpiece surface of different shapes by different cutter heads, wherein, design difference The cutter head of structural style is most important, and the cutter head of different structure pattern can process different Workpiece structure surfaces.For one A little unmanageable surfaces, the R arc grooves of such as junction, general nanosizing processing cutter head is difficult to be worked into this, therefore, seek Design a kind of simple and practical processing cutter head and R arc grooves can be processed, it is just very necessary.

Utility model content

In view of the shortcomings of the prior art, the utility model provides a kind of nanosizing processing cutter head.

The technical solution of the utility model is as follows：

A kind of nanosizing processes cutter head, including tool seat, tool heads and locating piece, and the tool heads are arranged on tool seat Front end, the front end of the tool seat is additionally provided with the through hole with tool seat axis perpendicular, and two locating pieces are symmetricly set in logical It is fixed in hole and to tool heads.

Preferably, the cavity for accommodating ultrasonic transformer is provided with the tool seat.The advantage of this design is, when tool seat is needed When being connected with supersonic machining apparatus, ultrasonic transformer can be contacted through cavity with tool heads, the ultrasonic wave energy of transmission.

Preferably, the wedge shaped structure in the front end of the tool seat, the working face of the tool heads protrudes wedge structure.This sets Count and be advantageous in that, by the Front-end Design wedgewise structure of tool seat, can greatly reduce the physical dimension of tool seat front end, Make it while processing effect is ensured with more simple and practical structure design, tool heads can be made to touch R arc grooves.

Preferably, the wedge structure includes two symmetrically arranged inclined-planes, and the angle of inclination on the inclined-plane is 30-45 °.

It is further preferred that the angle of inclination on the inclined-plane is 42 °.

Preferably, the locating piece is fixed in through hole by screw.

Preferably, cutter head is connected by screw bolts with ultrasonic wave processing cutting tool, flange is connected or screw thread for the nanosizing processing Connection.

The specific operation process of nanosizing processing cutter head is as follows：

Nanosizing processing cutter head is arranged on ultrasonic wave processing cutting tool, by the tool heads of ultrasonic transformer front end and R arc grooves Surface contacts, the pressure of adjustment tool heads and work surface, then starts transducer, and ultrasonic transformer drives tool heads to R arc grooves Surface carries out ultrasonic wave processing.

The beneficial effects of the utility model are：

The utility model nanosizing processing cutter head structure is simple, compact, and tool heads axis mutually hangs down with luffing rod axis Directly, ultrasonic transformer is made to drive the output effect of tool heads good, it is easy to operate.Processing can be easy to using nanosizing processing cutter head Excircle of workpiece and the R arc grooves of end face junction, solving common cutter head cannot process the problem of R arc grooves, and its effect is obvious, effect Significantly.

Brief description of the drawings

Fig. 1 is the front view that the utility model nanosizing processes cutter head；

Fig. 2 is the left view that the utility model nanosizing processes cutter head；

Fig. 3 is the top view that the utility model nanosizing processes cutter head；

Fig. 4 is the sectional view in A-A directions in Fig. 1；

Fig. 5 is the working state figure that the utility model nanosizing processes cutter head；

Fig. 6 is the enlarged drawing of part B in Fig. 5；

Wherein：1st, screw；2nd, tool heads；3rd, tool seat；4th, locating piece；5th, workpiece.

Specific embodiment

The utility model is described further below by embodiment and with reference to accompanying drawing, but not limited to this.

Embodiment 1：

As shown in Figures 1 to 6, the present embodiment provides a kind of nanosizing processing cutter head, including tool seat 3, tool heads 2 and fixed Position block 4, tool heads 2 are arranged on the front end of tool seat 3, and the front end of tool seat 3 is additionally provided with logical with tool seat axis perpendicular Hole, two locating pieces 4 are symmetricly set in through hole and tool heads 2 are fixed.

The wedge shaped structure in front end of tool seat 3, the working face of tool heads 2 is protruded in wedge structure, tool seat 3 and is provided with appearance Receive the cavity of ultrasonic transformer, cavity is connected with tool heads, and the front end of follow-up ultrasonic transformer can contact with tool heads.By the front end of tool seat Wedge structure is designed to, can greatly reduce the physical dimension of tool seat front end, it is had while processing effect is ensured There is more simple and practical structure design, tool heads can be made to touch R arc grooves.

Wedge structure includes two symmetrically arranged inclined-planes, and the angle of inclination on inclined-plane is 30 °.

Locating piece 4 is fixed in through hole by the screw 1 of wedge structure both sides.

When using, nanosizing processing cutter head is arranged on ultrasonic wave processing cutting tool, nanosizing processes cutter head with ultrasound Ripple process tool is connected by screw bolts, flange is connected or is threadedly coupled, and the tool heads of ultrasonic transformer front end are connect with R arc rooved faces Touch, the pressure of adjustment tool heads and work surface, then start transducer, ultrasonic transformer drives tool heads to enter R arc rooved faces Row ultrasonic wave processing.

Embodiment 2：

A kind of nanosizing processes cutter head, and as described in Example 1, its difference is structure：The angle of inclination on inclined-plane is 45°。

Embodiment 3：

A kind of nanosizing processes cutter head, and as described in Example 1, its difference is structure：The angle of inclination on inclined-plane is 42°。

Claims (7)

1. a kind of nanosizing processes cutter head, including tool seat, tool heads and locating piece, it is characterised in that the tool heads are set In the front end of tool seat, the front end of the tool seat is additionally provided with the through hole with tool seat axis perpendicular, two locating pieces pair Title is arranged in through hole and tool heads is fixed.

2. nanosizing as claimed in claim 1 processes cutter head, it is characterised in that receiving ultrasonic transformer is provided with the tool seat Cavity.

3. nanosizing as claimed in claim 1 processes cutter head, it is characterised in that the wedge shaped structure in front end of the tool seat, The working face of the tool heads protrudes wedge structure.

4. nanosizing as claimed in claim 3 processes cutter head, it is characterised in that the wedge structure is symmetrical arranged including two Inclined-plane, the angle of inclination on the inclined-plane is 30-45 °.

5. nanosizing as claimed in claim 4 processes cutter head, it is characterised in that the angle of inclination on the inclined-plane is 42 °.

6. nanosizing as claimed in claim 1 processes cutter head, it is characterised in that the locating piece is fixed on through hole by screw It is interior.

7. nanosizing as claimed in claim 1 processes cutter head, it is characterised in that the nanosizing processing cutter head adds with ultrasonic wave Work cutter is connected by screw bolts, flange is connected or is threadedly coupled.