CN109570537A

CN109570537A - A kind of ultrasonic wave lathe tool of bi-nodal architecture

Info

Publication number: CN109570537A
Application number: CN201811615459.7A
Authority: CN
Inventors: 周宏建; 袁承彬; 石新华; 段忠福
Original assignee: SBT Engineering Systems Co Ltd
Current assignee: SBT Engineering Systems Co Ltd
Priority date: 2018-12-27
Filing date: 2018-12-27
Publication date: 2019-04-05

Abstract

The invention discloses a kind of ultrasonic wave lathe tools of bi-nodal architecture, increase flange at wavelength respectively, and clamping face of two planes for knife rest is cut away in the symmetrical side of flange, since this is placed exactly in the whole section of the smallest position of ultrasonic wavelength amplitude in position at two, therefore it is believed that when with clamping point contact and is similar to stationary state, so ultrasonic energy losses are nearly close to zero, ultrasonic wave blade is loaded onto knife bar front end, locking is fixed with lock washer and clamping screw, by ultrasonic activation and ultrasonic wave blade cutting force simultaneously superposition on workpiece to be machined, reach the addition effect of ultrasonic wave lathe tool, the modulator of an increase amplitude is connected in the other end of turning tool rod simultaneously, it can be with the workpieces processing for being suitable for various different materials in varing proportions.

Description

A kind of ultrasonic wave lathe tool of bi-nodal architecture

Technical field

The present invention relates to welding technology field, in particular to the ultrasonic wave lathe tool of a kind of bi-nodal architecture.

Background technique

Currently, ultrasonic technology has become increasingly popular to apply in intermetallic composite coating.Add on conventional machining techniques Upper ultrasonic wave, can make in process that cutting force is smaller, and workpiece surface is brighter and cleaner, moreover it is possible to which the abrasion for reducing process tool is prolonged The service life of long cutter.But since it is desired that ultrasonic energy is added on cutter, so generally requiring on cutter and corresponding knife rest In addition the ultrasonic transmissions device such as energy converter.This just increases additional structure and volume to the relatively simple cutter of original structure. Many ultrasonic cutters all have the defects that certain that this will result in clamping position energy loss to the design of clamping position at present Excessive, ultrasonication is insufficient, without playing the advantage plus cutter after ultrasonic energy completely.

Summary of the invention

The object of the invention is that solve the above-mentioned problems, and a kind of ultrasonic wave lathe tool of bi-nodal architecture is provided.

To solve the above-mentioned problems, the present invention provides a kind of technical solutions: a kind of ultrasonic wave lathe tool of bi-nodal architecture, Including flange, knife bar rear end, the first arc-shaped transitional surface, clamping face, the second arc-shaped transitional surface, knife bar middle-end, knife bar front end, blade Groove, ultrasonic wave blade, lock washer and clamping screw；The knife bar rear end is integrally formed in the right side of knife bar middle-end, described Knife bar front end is integrally formed in the left side of knife bar middle-end；The junction expansion of the knife bar middle-end and knife bar rear end and knife bar front end It is body formed to have a flange；The right side of the flange is integrally formed first arc-shaped transitional surface, the left side of the flange It is integrally formed to have second arc-shaped transitional surface；Clamping face is equipped on the flange；On the left side of the knife bar front end Equipped with a blade groove；A ultrasonic wave blade is equipped in the blade groove, the ultrasonic wave blade passes through clamping screw It is fixedly connected in blade groove；The lock washer is between ultrasonic wave blade and clamping screw.

Preferably, further including modulator, forerunner's transmitting terminal, energy converter, coolant interface and radio frequency line interface；The amplitude modulation Device is connected on the right side of knife bar rear end；Forerunner's transmitting terminal is connected on the left side of energy converter；Forerunner's transmitting It is connected on the left of end on the right side of modulator；A radio frequency line is connected on the right side center of the energy converter to connect Mouthful, two coolant interfaces are additionally provided on the right side of the energy converter.

Preferably, two coolant interfaces are evenly arranged on the right side of energy converter in a manner of circular array.

Preferably, the knife bar rear end is consistent with the diameter of knife bar middle-end and knife bar front end.

Preferably, first arc-shaped transitional surface and the second arc-shaped transitional surface structure are consistent.

Beneficial effects of the present invention: the present invention have it is structurally reasonable it is simple, production cost is low, easy for installation, multiple functional, Effect of the ultrasonic vibration in turnery processing can be maximumlly played, solves cutter and workpiece calorific value to the maximum extent Greatly, workpiece surface roughness is bad, the too fast problem of tool wear, increases flange at wavelength respectively, and symmetrical in flange Side cut away clamping face of two planes for knife rest, since to be placed exactly in whole section of ultrasonic wavelength amplitude minimum at position at two for this Position, therefore be believed that when with clamping point contact and be similar to stationary state, so ultrasonic energy losses are nearly close to zero, Ultrasonic wave blade is loaded onto knife bar front end, fixes locking with lock washer and clamping screw, by ultrasonic activation and ultrasonic wave blade Superposition reaches the addition effect of ultrasonic wave lathe tool on workpiece to be machined to cutting force simultaneously, while in the another of turning tool rod End is connected with the modulator of an increase amplitude, can be with the workpieces processing for being suitable for various different materials in varing proportions.

Detailed description of the invention

Detailed description will be given by the following detailed implementation and drawings by the present invention for ease of explanation,.

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is partial structure diagram of the invention.

1- flange；2- knife bar rear end；The first arc-shaped transitional surface of 3-；4- clamping face；The second arc-shaped transitional surface of 5-；In 6- knife bar End；7- knife bar front end；8- blade groove；9- ultrasonic wave blade；10- lock washer；11- clamping screw；12- modulator；Before 13- Drive transmitting terminal；14- energy converter；15- coolant interface；16- radio frequency line interface.

Specific embodiment

As depicted in figs. 1 and 2, present embodiment uses a kind of following technical scheme: ultrasonic wave of bi-nodal architecture Lathe tool, including flange 1, knife bar rear end 2, the first arc-shaped transitional surface 3, clamping face 4, the second arc-shaped transitional surface 5, knife bar middle-end 6, knife Bar front end 7, blade groove 8, ultrasonic wave blade 9, lock washer 10 and clamping screw 11；The knife bar rear end 2 is integrally formed in The right side of knife bar middle-end 6, the knife bar front end 7 are integrally formed in the left side of knife bar middle-end 6；After the knife bar middle-end 6 and knife bar The junction of end 2 and knife bar front end 7 is integrally formed a flange 1；The right side of the flange 1 is integrally formed one One arc-shaped transitional surface 3, the left side of the flange 1 is integrally formed second arc-shaped transitional surface 5；It is all provided on the flange 1 There is clamping face 4；The left side of the knife bar front end 7 is equipped with a blade groove 8；One is equipped in the blade groove 8 to surpass Sound wave blade 9, the ultrasonic wave blade 9 are fixedly connected in blade groove 8 by clamping screw 11；The lock washer 10 Between ultrasonic wave blade 9 and clamping screw 11.

It as depicted in figs. 1 and 2, further include modulator 12, forerunner's transmitting terminal 13, energy converter 14, coolant interface 15 and radio frequency Line interface 16；The modulator 12 is connected on the right side of knife bar rear end 2；Forerunner's transmitting terminal 13 is connected to energy converter 14 Left side on；The left side of forerunner's transmitting terminal 13 is connected on the right side of modulator 12；The right side of the energy converter 14 It is connected with a radio frequency line interface 16 on the center of face, two coolant interfaces are additionally provided on the right side of the energy converter 14 15。

Wherein, two coolant interfaces 15 are evenly arranged on the right side of energy converter 14 in a manner of circular array；It is described Knife bar rear end 2 is consistent with the diameter of knife bar middle-end 6 and knife bar front end 7；First arc-shaped transitional surface 3 and the second arc-shaped transitional surface 5 structures are consistent.

Use state of the invention are as follows: the present invention have it is structurally reasonable it is simple, production cost is low, easy for installation, function is neat Entirely, effect of the ultrasonic vibration in turnery processing can be maximumlly played, solves cutter and workpiece fever to the maximum extent Amount is big, and workpiece surface roughness is bad, the too fast problem of tool wear, increases flange 1 at wavelength respectively, and in flange 1 Clamping face 4 of two planes for knife rest is cut away in symmetrical side, since this is placed exactly in whole section of ultrasonic wavelength vibration in position at two The smallest position, therefore be believed that when with clamping point contact and be similar to stationary state, so ultrasonic energy losses almost approach In zero, ultrasonic wave blade 9 is loaded onto knife bar front end 7, is locked with lock washer 10 and clamping screw 11 are fixed, by ultrasonic activation Superposition reaches the addition effect of ultrasonic wave lathe tool on workpiece to be machined simultaneously with 9 cutting force of ultrasonic wave blade, while The other end of turning tool rod is connected with the modulator 12 of an increase amplitude, can be in varing proportions to be suitable for various different materials Workpieces processing.

In the description of the present invention, it is to be understood that, term " coaxial ", " bottom ", " one end ", " top ", " middle part ", The orientation or positional relationship of the instructions such as " other end ", "upper", " side ", " top ", "inner", " front ", " center ", " both ends " is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair Limitation of the invention.

In the present invention unless specifically defined or limited otherwise, term " installation ", " setting ", " connection ", " fixation ", Terms such as " being screwed on " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be with It is mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside a element, unless otherwise restricted clearly, for the common of this field For technical staff, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, the technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention, the claimed scope of the invention by appended claims and its Equivalent thereof.

Claims

1. a kind of ultrasonic wave lathe tool of bi-nodal architecture, it is characterised in that: including flange (1), knife bar rear end (2), the first circular arc Transition face (3), the second arc-shaped transitional surface (5), knife bar middle-end (6), knife bar front end (7), blade groove (8), surpasses clamping face (4) Sound wave blade (9), lock washer (10) and clamping screw (11)；

The knife bar rear end (2) is integrally formed in the right side of knife bar middle-end (6), and the knife bar front end (7) is integrally formed in knife bar The left side of middle-end (6)；

The junction of the knife bar middle-end (6) and knife bar rear end (2) and knife bar front end (7) is integrally formed a flange (1)；

The right side of the flange (1) is integrally formed first arc-shaped transitional surface (3), the left side expansion of the flange (1) It is body formed to have second arc-shaped transitional surface (5)；

Clamping face (4) are equipped on the flange (1)；

The left side of the knife bar front end (7) is equipped with a blade groove (8)；

A ultrasonic wave blade (9) is equipped in the blade groove (8), the ultrasonic wave blade (9) passes through clamping screw (11) It is fixedly connected in blade groove (8)；

The lock washer (10) is located between ultrasonic wave blade (9) and clamping screw (11).

2. a kind of ultrasonic wave lathe tool of bi-nodal architecture according to claim 1, it is characterised in that: further include modulator (12), forerunner's transmitting terminal (13), energy converter (14), coolant interface (15) and radio frequency line interface (16)；

The modulator (12) is connected on the right side of knife bar rear end (2)；

Forerunner's transmitting terminal (13) is connected on the left side of energy converter (14)；

It is connected on the right side of modulator (12) on the left of forerunner's transmitting terminal (13)；

A radio frequency line interface (16) is connected on the right side center of the energy converter (14), the energy converter (14) Two coolant interfaces (15) are additionally provided on right side.

3. a kind of ultrasonic wave lathe tool of bi-nodal architecture according to claim 2, it is characterised in that: two coolings connect Mouth (15) is evenly arranged on the right side of energy converter (14) in a manner of circular array.

4. a kind of ultrasonic wave lathe tool of bi-nodal architecture according to claim 1, it is characterised in that: the knife bar rear end (2) consistent with the diameter of knife bar middle-end (6) and knife bar front end (7).

5. a kind of ultrasonic wave lathe tool of bi-nodal architecture according to claim 1, it is characterised in that: the first circular arc mistake It is consistent with the second arc-shaped transitional surface (5) structure to cross face (3).