CN100368139C

CN100368139C - Supersonic stirring welding method and its device

Info

Publication number: CN100368139C
Application number: CNB2006100040593A
Authority: CN
Inventors: 贺地求; 梁建章
Original assignee: Central South University
Current assignee: Central South University
Priority date: 2006-01-26
Filing date: 2006-01-26
Publication date: 2008-02-13
Anticipated expiration: 2026-01-26
Also published as: CN1836820A

Abstract

The present invention relates to a metal welding method and a device. The present invention is characterized in that ultrasonic vibration of axial vibration or torsional vibration is introduced into stirring frictional welding processes; high-frequency mechanical vibration energy is used to drive a stirring frictional welding head which rotates at high speed to make high-frequency vibration; the stirring frictional welding head transfers vibration energy to plasticity metal of a welding zone; in this way, a method compounding the ultrasonic vibration and frictional stirring is used to form welding seam tissues to achieve the welding of metal. An ultrasonic transducer is arranged inside a designed rotary clamp; the ultrasonic transducer is supported in the body of the rotary clamp by taking the nodal surface flange of the ultrasonic transducer as a supporting point so as to drive a stirring rod or the entire stirring frictional welding head to make ultrasonic vibration; ultrasonic electric energy is transmitted to the rotary transducer by a collecting ring composed of an insulating sleeve, a copper ring and a carbon brush assembly. The introduction of the ultrasonic vibration reduces metal flow resistance and the pipeline loss of fluid pressure, increases flow rate, raises welding seam quality and can effectively solve the difficulty of the welding of thick plates.

Description

Supersonic stirring welding method and device thereof

Technical field

The present invention relates to a kind of welding method and device of metal.

Background technology

Friction stir welding is present a kind of novel metal low temperature solid phase interconnection technique, be applicable to the low-melting alloys such as aluminium alloy that are difficult to molten solder, have the little and weld strength advantages of higher of welding deformation, obtained extensive use in fields such as space flight and aviation, boats and ships, bullet train, armored combat vehicles.This welding method is that the heat of generation is heated to mecystasis with localized metallic by the violent mechanical friction effect between stirring-head and weldment, and under the stirring squeezing action of stirring-head, metal rearward flows from stirring-head the place ahead, forms seam organization.But because of the required heat of heating of metal is mainly derived from friction between weldment upper surface and the stirring-head shoulder, splash bar stirs the heat that is produced and only accounts for wherein sub-fraction in weld seam, during welding on the weld zone forms the temperature field of relative superiority or inferiority low " funnel-form ", the skin temperature height, deep layer is low, increase along with the degree of depth, temperature sharply descends, and high-temperature area sharply dwindles, and the weld seam bottom forms the required mecystasis of good weld seam because of fully not being heated to, and is difficult to seam or forms open texture, or be superheated to cost with umbrella organisations, improve lower floor's temperature, and some alloys of strengthening with heat treatment method there is strict restriction to welding temperature and weld heating time.In a word, be difficult to obtain up and down seam organization uniformly, particularly outstanding to thick plates.And in fields such as space flight and aviation, boats and ships, bullet train, military projects, thick plates is very general, and particularly therefore the engineering components such as body and turret of lightweight armor battlebus, find the new welding method that overcomes friction stir welding the problems referred to above significant.

Summary of the invention

The present invention utilize ultrasonic wave plastic deformation flow with deformation process in, has the high-strength performance that penetrates and fix a point to focus on, can significantly reduce the flow of metal drag, improve the effect of metal flow, high-frequency mechanical vibration can be imported in the friction stir welding process, the agitating friction soldering tip (abbreviation stirring-head) that drives in the high speed rotating is made dither, stirring-head is passed to the weld zone plastic metal with vibrational energy, the metal that obtains the dither energy flows in the mode that is different from conventional friction stir welding, its type of flow is for advancing along returning side " small step hurry up formula ", generate seam organization at the splash bar rear with " high frequency surge formula ", splash bar backside metal seam pressure shows as pulsatile change, its peak value is much larger than conventional friction stir welding, and having the vibro-rammer actual effect should.

For realizing above-mentioned welding method, the present invention has designed a clamp body, ultrasonic transducer, luffing bar, the splash bar of vibration shape coupling with it, ultrasonic-frequency power supply is by constituting collector ring with insulation sleeve, copper ring and carbon brush component, to ultrasonic transducer power supply, the luffing bar is used for driving the splash bar of rotation and does ultrasonic vibration simultaneously.Shoulder is felt relieved by the taper sheath endoporus, and is fixed in the taper sheath lower end by limit screw, and the hole at shoulder center and splash bar cylindrical constitute movingly, lateral support splash bar, the bending load that removal luffing bar is suffered.The course of work of welder is as follows: pierce with normal welding process in, clamp body, insulation sleeve, copper ring, transducer, the luffing bar, taper sheath, shoulder and splash bar be rotation at a high speed together, carbon brush is fixed on the casing, remain with the copper ring cylindrical of rotation at a high speed and to contact and electric conducting state, insulation sleeve, copper ring and carbon brush component form a complete collector ring, ultrasonic electric energy conducts to the transducer in the rotation through carbon brush and copper ring, transducer is converted to ultrasonic mechanical energy with ultrasonic electric energy, the splash bar that drives rotation through the luffing bar is done ultrasonic vibration simultaneously, thereby realizes the ultrasonic agitation welding.The introducing of ultrasonic vibration can reduce the linear loss of metal flow resistance and fluid pressure, improves flowing velocity, has improved weldquality, also can solve the thick plates difficulty.

Below in conjunction with accompanying drawing the present invention is further detailed.

Description of drawings

The fundamental diagram of Fig. 1 splash bar oscillatory type;

The fundamental diagram of Fig. 2 splash bar shoulder one oscillatory type;

Fig. 3 splash bar oscillatory type ultrasonic agitation welder;

Fig. 4 splash bar shoulder one oscillatory type ultrasonic agitation welder.

The specific embodiment

As shown in Figure 1, ultrasonic transducer 1 converts ultrasonic electric energy to ultrasonic mechanical vibration wave, through luffing bar 2, drive splash bar 3 and make ultrasonic vibration, transducer 1, luffing bar 2, splash bar 3 rotate with shoulder 4 synchronous high-speeds simultaneously, together pierce the seam of weldment 5 and weldment 6, and keeping certain pressure with weldment, metal is subjected to thermal softening under the high speed rotary grinding effect between splash bar and shoulder and weldment on every side, and under the effect of ultrasonic vibration, flow to rear and seam from splash bar the place ahead.Ultrasonic vibration can be axially reciprocating type, or twisting vibration, can be splash bar oscillatory type, or splash bar shoulder one oscillatory type, Figure 2 shows that the fundamental diagram of splash bar shoulder integral type, wherein part 7 is a shoulder splash bar integral type stirring-head, luffing bar and part 7 directly connect, and all the other are identical with Fig. 1.

Fig. 3 is a splash bar oscillatory type ultrasonic agitation welder of the present invention, and it is made up of clamp body 8, flat key 9, screw 10, insulation sleeve 11, carbon brush component 12, copper ring 13, transducer 1, luffing bar 2, screw 14, taper sheath 15, limit screw 16, splash bar 3, shoulder 4, latch 17, screw 18 and gland 19.

The each several part assembly relation is as follows: shank on the clamp body 8 cooperates with stirring main shaft locating hole, and is connect with the stirring main shaft by flat key 9 and screw 10; Clamp body cylindrical dress insulation sleeve 11 is fixed with clamp body by gland 19 and screw 18, and insulation sleeve 11 cylindricals are fixed two copper rings 13, during work, copper ring is with clamp body 8 rotations, and carbon brush component 12 is fixed on the main spindle box motionless, and two carbon cube electrodes on the carbon brush component keep in touch with two copper rings respectively; In clamp body, be provided with transducer 1 (both do not contact), two electrode through inner lead respectively with two copper ring conductings (not marking lead among the figure), transducer 1 is tightly linked on luffing bar 2, the luffing bar is by the flange that is positioned at its node place (amplitude is zero place), be positioned the clamp body center, circumferentially connect by latch 17 and taper sheath 15, and by the taper sheath axial compression, taper sheath is connected firmly by screw 14 and clamp body by its top seam and clamp body centering; Luffing bar lower end and splash bar screw thread are tightly linked, and the ultrasonic mechanical energy that transducer produces is fulcrum with luffing bar node flange, drive splash bar and do ultrasonic vibration, make weld metal produce ultrasonic effect; Shoulder 4 is felt relieved by the taper sheath endoporus, and be fixed in taper sheath 15 lower ends by limit screw 16, the hole at shoulder center and splash bar 3 cylindricals constitute movingly, the lateral support splash bar, the bending load that removal luffing bar is suffered, and allow that splash bar does ultrasonic vibration, shoulder and splash bar do not have macroscopical relative motion, both lump together and constitute the ultrasonic agitation soldering tip, and except that splash bar was done ultrasonic vibration a little, all the other and conventional friction stir welding were as good as.

Ultrasonic agitation welder involved in the present invention also can adopt splash bar shoulder one mode of vibration, as shown in Figure 4, with last different be splash bar shoulder integral type stirring-head 7 directly with 2 connections of luffing bar, the whole work rotated at a high speed and ultrasonic vibration, cancelled limit screw 16, taper sheath 15 endoporus and stirring-head cylindrical constitute movingly, play the lateral support stirring-head, the bending load effect that removal luffing bar is suffered, all the other are constant.

Claims

1. the welding method of a metal, it is characterized in that: stir friction welding process is introduced in the ultrasonic vibration of axial vibration or torsional oscillation, make dither with splash bar in the high-frequency mechanical vibration energy drives high speed rotating or whole stirring-head, splash bar or stirring-head are passed to the weld zone plastic metal with vibrational energy, method with ultrasonic vibration and friction stir compound action forms seam organization, realizes the welding of metal.

2. metal solder device that is used to realize the described method of claim 1, comprise shoulder and splash bar, it is characterized in that: a ultrasonic transducer is arranged in the rolling clamp of design, ultrasonic transducer is a fulcrum with its nodal section flange, be supported in the clamp body, drive splash bar or whole stirring-head and do ultrasonic vibration, the collector ring that ultrasonic electric energy is made up of insulation sleeve, copper ring and carbon brush component transmits to the transducer of rotation.

3. metal solder device according to claim 2, it is characterized in that: shoulder is felt relieved by the taper sheath endoporus, and is fixed in the taper sheath lower end by limit screw, and the hole at shoulder center and splash bar cylindrical constitute movingly, the lateral support splash bar, the bending load that removal luffing bar is suffered.

4. metal solder device according to claim 2 is characterized in that: the direct and luffing bar connection of splash bar, or stirring-head is whole and the luffing bar connects, and under the transmission of luffing bar, do ultrasonic vibration.