SU284741A1 - DEVICE FOR CONTACT DOT WELDING OF PRODUCTS OF COMPLEX CONFIGURATION - Google Patents

Description

The invention relates to the field of resistance welding and can be used mainly in welding cellular structures.

Devices are known that contain electrodes located on both sides of a rolled product that do not provide uniform flow of welding current due to the presence of irregularities on the surfaces to be welded, and the application of pressure to level these irregularities poses a risk of unacceptable deformation of the product.

The proposed device is characterized in that one of the electrodes is made of a flexible deforming material, either in the form of metal rods installed in the cage, or in the form of an elastic sheath filled with gas or liquid under pressure, or in the form of a braided tape of electrically conductive material. This improves the quality of the welded joint due to uniform flow of welding current.

FIG. One of the variants of the design of the electrode of the proposed device, attached to the cellular seal; in fig. 2 — part of the device without pressure applied; in fig. 3 — part of the device with pressure applied; in fig. 4 - the design of the electrode applied to the base; in fig. 5- The proposed device; in fig. 6 - the second

version of the electrode attached to the honeycomb seal; in fig. 7 is a cross section of a third embodiment of an electrode attached to a seal. A metal honeycomb seal / attached to the base 2. made in the form of a metal ring, with the surface 3 of the absorption surface attached to the surface 4 of the base. The electrode to be formed 5 consists of a metaclass cage 6 with a multitude of copper 7. protruding axially from one inner surface of the cage cavity and is applied to the seal surface 8 remote from the base. At the same time

the rods abut against the surface 8. The electropod is applied to the surface 8 with a force that ensures not only good contact with the seal, but also deformation of the seal to reduce or reduce protrusions 9 and

/ (9 lp.tteiii without damaging it and ensuring sufficient uniform contact between the substrate and their sealing surfaces 5 and 4 to the base. The electropod does not rest on the EXIT 9 of the sealing surface 8, as

solid electrode, but each rod is in contact with the protrusions 9 and troughs // so that when the electrode 5 is pressed against the seal, the appearance of the rods will lead to the shape of the protrusions 0. pinch yuptih to the surface 4 of the base,

cells by protrusions 9 to surface 4 in order to ensure a fairly uniform contact between adjacent surfaces 5 and 4 of cell 1 and base 2. When pressed against the surface of base 2, remote from seal 1, the second electrode 13 between electrodes 5 and 13 a current flows, and flows through surfaces 5 and 4 fairly uniformly, which ensures satisfactory welding of the adjacent surfaces of the seal cells and the base.

The honeycomb seal is pressed against one surface of the base, the surface 14 of the base removed from the seal has irregularities, and the deformable electrode 5 is pressed against the remote surface 14 by protruding rods. Under the action of applied force, the electrode 5 is deformed, which ensures close contact with the surface 14 and a fairly uniform pressure on the sealing zone against which the lower electrode is pressed. As a result, the sealing surface is leveled without damage and a sufficiently uniform contact between the adjacent sealing surfaces and the substrate is ensured. When the second electrode 13 is pressed against the surface of the honeycomb seal remote from the base, a sufficiently uniform current will flow through the adjoining surfaces, which will ensure satisfactory welding of the adjacent surfaces of the seal cells and the base. If necessary, the deformable electrode can also be pressed against the surface of the seal remote from the base.

In both designs, the high-wire rods of the deformable electrode 5 are a large number of small electrodes. Since the uniform pressure carried out by the deformable electrode serves to align or reduce the protrusions on the seal cells, it is not necessary to treat the surface of the honeycomb welded to the base.

The characteristics of the electrode can be changed by varying the number of rods in the electrode 5 or the size of the rods to obtain the desired degree of softness and flexibility of the electrode.

Instead of a rod electrode, a flexible electrode 15 made in the form of a braided copper tape or other flexible electrically conductive material (strip or sheet) can be used. The flexible electrode 15 is applied to one surface of the honeycomb pressed against the base. The electrode 16 is pressed against the electrode 15, and the electrode 13 is pressed against the surface 14 of the base. When the electrode 16 presses against the electrode 15, the latter deforms and fits tightly against the seal, transferring the pressure applied by the electrodes 15 and 16 to the seal. As a result, the protrusions of the surface of the contact of the seal with the base are aligned or reduced without damaging the seal, and even contact between the adjacent surfaces of the seal and the base is ensured. The current passing between the electrodes 15, 16 and 13 flows fairly evenly across the adjacent surfaces, which ensures satisfactory welding. The flexible electrode is made in the form of woven and metal sheet 17, for example copper, surrounding the shell 18, made of leather or a thermoplastic material, which can be fed under pressure

air, water, or oil for the iaduavia shell. As a result, the sheet 17 is deformed, providing 1LOTE contact with one surface of the honeycomb applied to the base. The ends of the sheet are attached to a metal frame 19 through which electric current is applied to the sheet. The sheet surrounds the envelope so that when it is inflated, it can be deformed equally in all directions. This is most important when the electrode is pressed against an outer surface that has unusual shapes, such as double curvature.

The flexible electrode is applied in this case to the surface 3 of the seal remote from the base. The electrode 13 is applied to the base surface 14, remote from the surface 3. When fluid is supplied under pressure into the shell, the sheet is deformed, tightly pressed against the seal 1, transferring pressure applied by the rim and electrode 13 to the seal. As a result, the protrusions of the surface of the contact of the seal with the base are aligned or reduced, and a sufficiently uniform contact between the adjacent surfaces of the seal and the base is ensured. Therefore, the current passing between the electrodes flows fairly evenly across the adjacent surfaces, which ensures satisfactory welding of these adjacent

surfaces.

Instead of a woven sheet, a copper metal sheet with a thickness of 0.025 mm could be used, however such a sheet would have limited use compared to woven sheet metal.

sheet, as it is difficult to deform the metal sheet in more than one direction, and this sheet may have residual deformation when used.

Subject invention

Claims (4)

1. A device for resistance spot welding of products of complex configuration, mainly cellular structures, containing located on both sides of the welded The product has electrodes, characterized in that, in order to increase the quality of the welded joint by ensuring a uniform flow of welding current, one of the electrodes is made of a flexible deformable material. 2. A device according to claim I, characterized in that the electrode is made in the form of metal rods installed in the cage. a conductive material of an elastic shell filled with a pressure or a gas or liquid by a node. 4. A device according to claim 1, characterized in that the electrode is made in the form of a braided ribbon of electrically conducting material. Figz Fia. fig