DE10038311A1 - Welding tongs, e.g. for manufacturing vehicle bodies, has drive device and two arms, each fitted with electrode and both mechanically connected to drive device via elbow lever arrangement - Google Patents

Abstract

The device has a drive device (10) and two arms (2,3), each fitted with an electrode (4,5). Both arms are mechanically connected to the drive device via an elbow lever arrangement. Each arm has two sections connected together at 120 degrees with electrodes attached to the free ends of the sections. The electrodes and the angles are opposite each other.

Description

The invention relates to pliers for welding according to the preamble of claim 1.

Welding guns of this type are used wherever Bauele elements made of metal are to be bonded to one another. A very big deal The area of application is the production of vehicle bodies.

The welding guns known up to now often work according to the scissors principle. They are also known as X welding guns. In most cases, they point a pneumatic cylinder as a drive. Some of these welding guns are made the drive also by means of a servo motor, the rotational movement of which in a linear motion movement is implemented. This motor generates one together with a lever arm Moment at the joint of the pliers. The joint exercises over the respective gun arm and the associated electrode exerts a force on the point at which two components elements are to be connected. To apply the necessary force to the electrodes To be able to exercise, must be due to the limited length of such Welding gun and the resulting poor leverage of the drive usually apply an axial force that is greater than the force exerted by the respective Electrode is exercised. The more favorable the leverage for power transmission are, however, the slower the movement of the electrode tips relative to Drive speed. A better leverage with such Welding guns can only be achieved by larger spatial dimensions, what their Manufacturing more expensive and difficult to handle. With the conventional  X arrangement of the tong arms, the leverage remains over the entire area of the Opening angle the same, although on the electrodes only when the sweat is closed pliers a large force is required. When opening or closing the welding gun however, a higher electrode speed is desirable.

The invention has for its object to show a pair of pliers for welding, which have an improved efficiency compared to known device of this type has, and the weight is also reduced.

This object is achieved by the features of patent claim 1.

The welding gun according to the invention is provided with two arms, only one of them is movably supported. Both arms of the pliers are in the free area Each end is provided with an electrode. The two electrodes are so each other arranged opposite that their free ends ge when the pliers are closed are pressed against each other. The arms of the pliers are over a toggle arrangement voltage connected to a drive device. This ensures that the He lever effect of the pliers changes, depending on the size of the opening angle between the two arms. With the help of the toggle lever arrangement, the force which from the drive device with the pliers closed onto the electrodes is practiced, amplified many times, while opening and firing the zan the translation is lower. When opening or closing the pliers, the The speed at which the electrodes move towards and away from each other move enlarged. However, the wear of the electrodes is reduced because the Ge reduced speed when placing one electrode on the other electrode and to avoid bouncing.

Furthermore, a drive device with a smaller one can be used to operate the pliers Performance and thus also be chosen with a lower weight than before, because the force exerted on the electrodes during welding by the knees lever arrangement is significantly strengthened. Due to the lower weight of the drive device also reduces the weight of the pliers.  

Further inventive features are characterized in the dependent claims.

The invention is based on schematic drawings he he purifies.

Show it:

Fig. 1 shows the pliers according to the invention for welding,

FIG. 2 shows a force diagram of the pliers according to FIG. 1.

Fig. 1 shows a pair of pliers for welding 1 with two arms 2 and 3 , two electrodes 4 and 5 , a toggle lever arrangement 8 with two toggle levers 9 and a Antriebsvorrich device 10th Each of the two arms 2 and 3 has, for example, two sections 20 and 21 or 30 and 31 in the embodiment shown here. The two sections 20 and 30 are designed as cuboid components, while the two sections 21 and 31 are each formed by two tabs 22 and 32 , respectively. One of the electrodes 4 , 5 is fastened to the first free end of each section 20 , 30 in such a way that they are arranged opposite one another. The two tabs 22 are identical and attached to the outer surface of the portion 20 at the second end. The two tabs 22 are aligned parallel to one another and are connected to the section 20 in such a way that they enclose an angle of approximately 120 ° with it. The two tabs 32 are also of equal length and respectively an outer surface of the section 30 with that at the second end of the ex-section 30 at. The two tabs 32 form an angle of approximately 120 ° with the section 30 , with their first ends 32 A projecting beyond the section 30 by approximately one to three centimeters. The two arms 2 and 3 must be mounted so that the electrical 4 , 5 and the angle of 120 ° are opposite each other. The second ends 32 B of the tabs 32 are rotatably attached to the outside of the tabs 22 at the pivot point D. The position of a fulcrum D is selected such that its distance from the second ends 22 B of the pools 22 is as great as that from the second ends 32 B of the brackets 32 .

The second end 22 B of the tab 22 is movably connected to a free end of the toggle lever 9 in the pivot point E, while the first end 32 A of each plate 32 in the pivot point F is movably connected to the second free end of a toggle lever 9 . The second toggle lever 9 is arranged mirror-symmetrically to the first toggle lever 9 . Each of the two toggle levers 9 is composed of two tabs 90 of equal length. The first ends of the tabs 90 are rotatably connected to one another at the pivot point G to form each toggle lever 9 . The second ends of the tabs 90 are movably connected to the sections 20 and 30 at the pivot points E and F.

The two toggle levers 9 are connected to the drive device 10 . In the embodiment shown here, this is designed as a servo motor. As a drive device 10 , a pneumatic cylinder (not shown here) or the other motor can be used, which is suitable for this. The drive device 10 moves a spindle 12 which can be moved back and forth parallel to the pivot points D and G. The spindle 12 has a guide element 13 , which is designed here as a sleeve and is firmly connected to it. Through the pivot points G (here only one pivot point G is shown), an axis 14 is inserted in each case, which is firmly connected to the guide element 13 . So that the two toggle levers 9 are connected to the Spin del 12 , such that they are spread or pushed together when the spindle 12 is moved. In this way, the pliers 1 are opened or closed. When the pliers 1 are closed, the sections 20 and 30 of the arms 2 and 3 are arranged approximately parallel to one another. The two electrodes 4 and 5 , each of which is attached to the free end of the sections 20 and 30 , are of equal length. They are pressed tightly against one another with the pliers closed. The two electrodes 4 and 5 are made of a very good electrical current and very pressure resistant material. They have provided the same diam ser and are positioned so that they sit coverage equal to each other when the pliers are closed. 1 The electrodes are supplied with voltage through the arms (not shown here).

The drive device 10 exerts a force K on each toggle lever 9 . This is a tensile or compressive force, depending on the direction in which the Spin del 12 is moved. As shown in FIG. 2, the component Kx of the force K is reinforced by the respective toggle lever 9 when the pliers are closed. The forces K1 and K2 act on the ends of sections 21 and 31 , which are connected to the toggle levers 9 . The components of the forces K1.sinα and K2.sinβ together with the lever arms ED and FD result in a moment M "which, via the sections 20 and 30 and the electrodes 4 and 5, finally the welding force Ks on the component 15 according to FIG. 1 exercises.

Claims (7)

1. Pliers for welding with a drive device ( 10 ) and two arms ( 2 and 3 ), each with an electrode ( 4 , 5 ), characterized in that the two arms ( 2 and 3 ) via a toggle lever arrangement ( 8 ) are in mechanical connection with the drive device ( 10 ). 2. Pliers according to claim 1, characterized in that each arm ( 2 , 3 ) has two sections ( 20 and 21 or 30 and 31 ) which are connected to each other including a win angle of 120 ° that at the free ends the sections ( 20 and 30 ) each have an electrode ( 4 , 5 ) attached, and that the two arms ( 2 and 3 ) are mounted so that the electrodes ( 4 , 5 ) and the angle of 120 ° opposite one another GE. 3. Pliers according to one of claims 1 or 2, that the sections ( 20 and 30 ) of the arms ( 2 and 3 ) are designed as cuboid components, while the sections ( 21 and 31 ) each have two tabs ( 22 and 32 ) consist. 4. Pliers according to one of claims 1 to 3, characterized in that the tabs ( 22 ) with the first ends ( 22 A) with the section ( 20 ) are fixedly connected, and that the tabs ( 32 ) with the section ( 30 ) are connected so that the first ends ( 32 A) protrude one to three centimeters above the section ( 30 ) and that the second ends ( 32 B) of the tabs ( 32 ) are movable with the tabs ( 22 ) at a pivot point D are connected so that the distance between the respective pivot point D and the second ends ( 22 B) of the tabs ( 22 ) and the first ends ( 32 A) of the tabs ( 32 ) is the same. 5. Pliers according to one of claims 1 to 4, characterized in that the toggle lever arrangement ( 8 ) has two toggle levers ( 9 ) which are of the same size, and are each composed of two tabs ( 90 ) which are at a pivot point (G) are movably connected to each other, and that the free ends of each toggle lever ( 9 ) with the second end ( 22 B) of a tab ( 22 ) or the first end ( 32 A) of a tab ( 32 ) at a pivot point E or F is movably connected. 6. Pliers according to one of claims 1 to 5, characterized in that both toggle levers ( 9 ) are connected to a guide element ( 13 ) of a spindle ( 12 ) which can be moved back and forth by the drive device ( 10 ). 7. Pliers according to claim 6, characterized in that an axis ( 14 ) is inserted through each pivot point (G), which is firmly connected to the guide element ( 13 ) of the spindle ( 14 ) which is designed as a sleeve.