KR101681488B1 - Device of vibro-spot welding - Google Patents

Abstract

A vibration spot welding apparatus is disclosed. A vibration spot welding apparatus according to an embodiment of the present invention is a vibration spot welding apparatus in which two vibration spot welders having the same configuration are disposed corresponding to each other, the vibration spot welder comprising: a mounting frame; A pin guider fixed to the front of the mounting frame; An electrode rod mounted on a tip of the pin guider; A cap tip mounted on a front end of the electrode rod to generate resistance heat by applying a current to a welded portion of the workpiece; A vibrating pin having a tip inserted through the cap tip so as to act on a welded portion of the work, with the pin guider and the electrode rod inserted therein; A vibration cylinder having a vibration axis which is formed at the rear side of the mounting frame and which operates forward and backward and repeatedly; The stopper shaft having a stopper formed on the front side of the mounting frame is connected to the vibration axis in a state in which the stopper shaft is mounted on the stroke limiting nut and the stroke limiting nut is fastened to the support block fixed on the mounting frame, And an operation restricting portion for restricting the work position freely at a desired work position.

Description

[0001] DEVICE OF VIBRO-SPOT WELDING [0002]

An embodiment of the present invention relates to a vibration spot welding apparatus, and more particularly, to a vibration spot welding apparatus that applies heat to a welded portion of a superimposed metal plate and applies a continuous linear repetitive load to weld the overlapped metal plate.

Generally, there are fusion welding and solid phase welding methods for welding two sheets of overlapping metal sheets.

The spot welding method is a melting welding method. The spot welding method is a method of welding a superimposed metal plate by melting a welded portion by heat and pressure due to electrical resistance to a welded portion of overlapped metal plates.

The solid-state welding method is exemplified by Friction Stir Welding (FSW). In the friction stir welding method, when a non-consumable tool having a thread-like projection is rotated at high speed and inserted into the material to be bonded, The friction material is softened by the frictional heat and the material to be welded is welded on the principle that the materials on both sides of the joint surface are forcibly mixed by the plastic flow of the material due to the pivot of the tool.

The spot welding and the friction stir welding have advantages and disadvantages. For example, spot welding is performed by melting the welded portion of the metal plates by heat generated by electrical resistance, Arc is generated, and the welding surface is not good.

The friction stir welding is a solid-state welding method in which the welded metal plates have excellent mechanical strength and arc is not generated. However, after welding, there is a disadvantage that a welding mark or hole is left on the welding surface due to the rotation of the projection.

In order to solve the disadvantages of such spot welding and friction stir welding, research and development has been conducted in recent years on a vibration spot welding apparatus for joining a metal plate with a cyclic load of simple linear reciprocating motion.

An embodiment of the present invention is to provide a vibration spot welding apparatus that applies heat to a welded portion of a superimposed metal plate and applies a continuous linear repetitive load through the vibration fin to achieve solid-state bonding at the welded portion.

Further, in the embodiment of the present invention, the stopper shaft having the stopper is connected to the vibration axis in a state where the stopper shaft having the stopper is mounted on the stroke limiting nut, and the stroke limiting nut is fastened to the support block to make the stroke limiting portion, So that the vibration spot welding apparatus can be freely limited.

In one or more embodiments of the present invention, two vibration spot welders of the same construction are arranged corresponding to each other, the vibration spot welder comprising: a mounting frame; A pin guider fixed to the front of the mounting frame; An electrode rod mounted on a tip of the pin guider; A cap tip mounted on a front end of the electrode rod to generate resistance heat by applying a current to a welded portion of the workpiece; A vibrating pin having a tip inserted through the cap tip so as to act on a welded portion of the work, with the pin guider and the electrode rod inserted therein; A vibration cylinder having a vibration axis which is formed at the rear side of the mounting frame and which operates forward and backward and repeatedly; The stopper shaft having a stopper formed on the front side of the mounting frame is connected to the vibration axis in a state in which the stopper shaft is mounted on the stroke limiting nut and the stroke limiting nut is fastened to the support block fixed on the mounting frame, There is provided a vibration spot welding apparatus including an operation restricting portion that freely restricts a work position in a desired working position.

In addition, the pin guider may be installed outside the front frame formed in front of the mounting frame.

The vibrating pin may be formed as a pin having a circular section, and a screw thread may be formed on the outer circumferential surface of the rear end to be screwed into a screw hole formed in the distal end of the stopper shaft.

Further, the stroke restricting portion is fixed to one side of the mounting frame, and the fastening holes are formed on the axis of the vibration axis, respectively. An administrative restricting nut screwed into the fastening hole of the support block and having an internal space formed therein; A stopper shaft slidably installed on the stroke limiting nut and having a rear end connected to the vibration axis, a tip end connected to the vibration pin, and a stopper positioned in the stroke chamber of the stroke limiting nut integrally formed at the center .

In addition, the stroke limiting nut may be formed by axially bolting a front stroke limiting nut to the front end of the rear stroke limiting nut having the stroke chamber therein.

In the embodiment of the present invention, heat is applied to the welded portion of the overlapped metal plate, and a continuous linear repetitive load is applied to the welded portion through the vibrating fin, so that solid-phase bonding by plastic flow is performed, No arc is generated, the welding time can be shortened, and the welding force of the welded portion can be further improved.

Further, the stopper shaft having the stopper may be connected to the vibration axis in a state where the stopper shaft is mounted on the stroke limiting nut, and the stroke limiting nut may be tightened to the support block to restrict the stroke of the vibration pin at a desired working position.

1 is a perspective view of a vibration spot welding apparatus according to an embodiment of the present invention.
2 is a cross-sectional view of a stroke limiter applied to a vibration spot welding apparatus according to an embodiment of the present invention.
3 is an operational state diagram of the stroke limiter applied to the vibration spot welding apparatus according to the embodiment of the present invention.
4 is a use state view of a vibration spot welding apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood, however, that the present invention is not limited to the illustrated embodiments, and that various changes and modifications may be made without departing from the spirit and scope of the invention. .

In order to clearly explain the embodiments of the present invention, parts that are not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Fig. 1 is a perspective view of a vibration spot welding apparatus according to an embodiment of the present invention, and Fig. 2 is a cross-sectional view of a stroke restricting portion applied to a vibration spot welding apparatus according to an embodiment of the present invention.

1, a vibration spot welding apparatus 1 according to an embodiment of the present invention includes two vibration spot welders 3 and 5 as a set, and each of the vibration pins 11 on both right and left sides corresponds to each other So as to be placed on each of the tables 7 and 9.

Each of the vibration spot welders 3 and 5 has the same structure and only the forward and backward movement of the vibration pins 11 is reversed so that the same reference numerals are applied to one vibration spot welder 5 Explain.

That is, the vibration spot welder 5 includes a mounting frame 13, a pin guider 15, an electrode rod 17, a cap tip 19, a vibration pin 11, a vibration cylinder 21, 23).

The mounting frame 13 is fixed on the table 9.

The pin guider 15 is fixed to the front of the mounting frame 13. The mounting frame 13 is integrally formed with a front frame 13a in front of the mounting frame 13, 13a.

The electrode rod 17 is screwed to the tip end of the pin guider 15.

The cap tip 19 is mounted on the tip of the electrode 17 by interference fit, and generates a resistance heat by applying a current to a welded portion of the workpiece.

The vibrating pin 11 is disposed so as to penetrate the cap tip 19 and act on the welded portion of the workpiece in a state where the vibrating pin 11 is inserted into the pin guider 15 and the electrode rod 17.

At this time, the vibrating pin 11 is formed of a pin having a circular section, and each of the vibrating fins 11 applied to the two vibrating spot welders 3 and 5 has a circular cross section of the same diameter.

The vibrating cylinder (21) has a vibration axis (21a) formed on the rear side of the mounting frame (13) and operating back and forth in a repetitive manner.

The vibrating cylinder 21 may be made of a pneumatic vibration cylinder with pneumatic operation pressure, but is not limited thereto.

2, the stroke restricting portion 23 is formed at a front side of the mounting frame 13, and a stopper shaft having a stopper is connected to the vibration axis in a state where the stopper shaft is mounted on the stroke limiting nut, And the stroke limiting nut is fastened to the support block fixed on the support block.

That is, the stroke restricting portion 23 is fixed to the support block 35 on the front side of the mounting frame 13.

A coupling hole H is formed in the support block 35 on the axis of the vibration axis 21a and the stroke limiting nut N is screwed into the coupling hole H. [

The stroke limiting nut N has a space SS formed therein. The stroke limiting nut N is provided at the front end of the rear stroke limiting nut N1 having the administration chamber SS therein And a front side stroke limiting nut (N2) is bolted in the axial direction.

The stopper shaft 31 is slidably mounted on the stroke limiting nut N in a state where a stopper 33 is integrally formed on one side.

The stopper shaft 31 has a rear end connected to the oscillating shaft 21a and a distal end connected to the oscillating pin 11. The stopper 33 at the center is connected to an operating chamber SS of the stroke limiting nut N, ) So that the stroke is limited.

The vibrating pin 11 is screwed to a threaded hole NH1 formed at the distal end of the stopper shaft 31 by forming a thread on the outer circumferential surface of the rear end of the stopper shaft 31. The stopper shaft 31 The vibration pin fixing nut 41 for fixing the fastening state of the vibration pin 11 with respect to the vibration pin 11 is fastened.

The vibrating shaft 21a is screwed to a threaded hole NH2 formed at the rear end of the stopper shaft 31 by forming a thread on the outer peripheral surface of the distal end of the oscillating shaft 21a, 31 are fastened to the vibration shaft fixing nut 43 for fixing the fastening state of the vibration shaft 21a.

FIG. 3 is an operating state view of a stroke limiter applied to a vibration spot welding apparatus according to an embodiment of the present invention, and FIG. 4 is a use state diagram of a vibration spot welding apparatus according to an embodiment of the present invention.

The operation of the stroke restricting portion 23 applied to the vibration spot welding apparatus 1 according to the embodiment of the present invention constructed as described above and the vibration spot welding operation by the overall vibration spot welding apparatus 1 will be described below .

Referring to Fig. 3, the stroke restriction of the vibration pin 11 applied to the vibration spot welding apparatus 1 according to the embodiment of the present invention is performed in the stroke restricting portion 23. Fig.

2, the stroke S of the vibration pin 11 is always limited to the full stroke S. In order to reduce the stroke S, The rear side stroke limiting nut N1 having a small longitudinal dimension can be used in combination with the front side stroke limiting nut N2.

3, when the operation position itself of the vibration pin 11 is to be moved backward, the stroke adjustment nut N itself is tightened so as to further move backward with respect to the support block 35, It is possible to move the working position of the pin 11 by "? P ".

4, the vibration spot welding operation using the vibration spot welding apparatus 1 according to the embodiment of the present invention is performed by first overlapping the two metal plates P to be joined via the clamper 40, And between the cap tips 19 of the vibration spot welder 3 (5). In this state, a current is applied to the overlapped metal plate P through the electrode rod 17 to rapidly heat the welded portion W.

Then, the welded portions W are softened by heating, and in this state, the respective vibration cylinders 21 of the two-side vibration spot welders 3 and 5 are alternately operated.

Then, each of the vibration pins 11 of the two vibration spot welders 3 and 5 is alternately reciprocated forward and backward with respect to the heated weld W to repeat the entry and departure so that the weld W is subjected to the plastic flow , Each metal plate material P is welded while being mixed with each other by plastic flow in the weld zone W.

As described above, according to the vibration spot welding apparatus 1 according to the embodiment of the present invention, heat is applied to the welded portion W of the overlapped metal plate material P, It is possible to shorten the time required for welding and to improve the bonding force of the welded portion W. As a result,

In addition, the vibration spot welding apparatus 1 according to the embodiment of the present invention generates a plastic flow in a welded portion with a relatively small repetition load, so that it is possible to weld light metals that are less energy consuming and difficult to be welded by an arc.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes to the scope that are deemed to be valid.

1: Vibration spot welding device
3,5: Vibration spot welder
7,9: Table
11: Vibrating pin
13: Mounting frame
15: pin guider
17: Electrode
19: Cap Tips
21: Vibration cylinder
21a: vibration axis
23: Administrative Restrictions Department
31: Stopper shaft
33: Stopper
35: Support block
40: clamper
N: Restriction nut
P: metal plate
W: Weld

Claims (5)

In a vibration spot welding apparatus in which two vibration spot welders having the same configuration are arranged corresponding to each other,
The vibration spot welder
Mounting frame;
A pin guider fixed to the front of the mounting frame;
An electrode rod mounted on a tip of the pin guider;
A cap tip mounted on a front end of the electrode rod to generate resistance heat by applying a current to a welded portion of the workpiece;
A vibrating pin having a tip inserted through the cap tip so as to act on a welded portion of the work, with the pin guider and the electrode rod inserted therein;
A vibration cylinder having a vibration axis which is formed at the rear side of the mounting frame and which operates forward and backward and repeatedly;
The stopper shaft having a stopper formed on the front side of the mounting frame is connected to the vibration axis in a state in which the stopper shaft is mounted on the stroke limiting nut and the stroke limiting nut is fastened to the support block fixed on the mounting frame, An operation restricting portion for restricting the work position freely at a desired work position;
And a vibrating spot welding device. The method according to claim 1,
The pin guide
And the vibration spot welding apparatus is installed outside the front frame formed in front of the mounting frame. The method according to claim 1,
The vibrating pin
And a thread is formed on the outer peripheral surface of the rear end so as to be screwed into a screw hole formed in the distal end portion of the stopper shaft. The method according to claim 1,
The administrative restriction unit
A support block fixed to one side of the mounting frame and having fastening holes formed on the axis of the vibration axis, respectively;
An administrative restricting nut screwed into the fastening hole of the support block and having an internal space formed therein;
A stopper shaft slidably installed on the stroke limiting nut and having a rear end connected to the vibration axis, a front end connected to the vibration pin, and a stopper positioned integrally with the stroke limiting nut, Vibration spot welding apparatus. 5. The method of claim 4,
The stroke limiting nut
And a front stroke limiting nut is bolted in the axial direction to the front end of a rear stroke limiting nut having the inside of the stroke chamber.

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