RU2622191C1 - Pinch welder gun electrode adapter for resistance spot welding - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention refers to pinch welder gun electrode adapter for resistance spot welding. The electrode adapter comprises two inclined stems with shank end for the pinches elements. The pinch welder guns are accomplished at the first stem end, and with the crosscut socket for the electrode shank. The socket is accomplished at the second stem end. There are longitudinal channels from shank ends sides. These channels are open one inside the other. There is a gapped tube for coolant flow in the thimble longitudinal channel of the second stem. At the thimble longitudinal channel bottom there is a secondary longitudinal channel that is open towards the mentioned crosscut socket and hollow space that is accomplished from the second stem exposed face side and lidded; at this hollow space bottom there are longitudinal side slots that are open towards the sideways clearance between the thimble longitudinal channel and tube that is positioned with its front portion at the secondary channel without the sideways clearance and without front portion protrusion into the crosscut socket for the electrode shank. The crosscut socket is accomplished with the crosscut slot that is open towards the stem secondary longitudinal channel.

EFFECT: socket and electrode cooling raise by virtue of ended socket walls multisided cooling, the electrode durability increases at the very least 1,5 times.

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Description

The invention relates to welding production and is suitable for welding pincers used in welding workpieces, parts, rods, etc. among themselves.

Known electrode holder for CCC in the form of a pipe having from the front end in the cavity a shank of the electrode and a tube placed with gaps in it and the cavity of the shank, as well as transverse channels in its rear for supplying refrigerant to the cavity of the shank and removing it from there heated outside the holder (see RF patent 2420378 C2, 03/01/2009).

Its disadvantage is its applicability only in single and multipoint welding machines and unsuitability in the manufacture of fittings for panels of residential and other buildings.

Known electrode holder for welding pliers for KTS in the form of two angled rods located on the floor, having at the ends of the first shank for other mite elements and the second a transverse socket for the electrode shank; also, from the ends of the rods, one longitudinal channel is formed, open one in the other, and a pipe for circulating refrigerant is placed with gaps in the blind channel (see US Patent 4,545,422 A, 01.10. 1988). Its disadvantage is the inefficiency of one-sided cooling of the shank and the electrode through the wall separating the bottom of the longitudinal channel and its nests with the shank of the electrode, which leads to its uneven wear, which reduces its resistance.

The technical result of the proposed - reducing heating and increasing the resistance of the electrode.

It is achieved by the fact that in the electrode holder of welding tongs for KTS in the form of two rods located at an angle, having ends at the ends of the first shank for other tongs and the second transverse socket for the shank of the electrode; also from their ends formed along the longitudinal channel, open one in the other, and in the blind channel of the second rod is placed with gaps the pipe for circulation of refrigerant, new is that in the bottom of the longitudinal channel there is an additional longitudinal channel open in the socket and the cavity of the rod formed from its front end and closed by a lid; in the bottom of this cavity, longitudinal side windows are made, open in a lateral gap between the surface of the longitudinal channel and a tube placed without a lateral gap by the front part in the additional channel and without protruding it into a socket with an electrode shank having a transverse window open into the additional channel of the rod.

By performing an additional longitudinal channel at the bottom of the blind longitudinal channel open into the transverse window of the shank and into the cavity of the front end of the rod, refrigerant is supplied to this end and cooled through the wall of the front of the shank.

Using a cover covering the cavity formed from the front end, a gap is formed between it and the cavity, a channel with a diameter equal to at least the diameter of its longitudinal channel to circulate refrigerant, which provides cooling of the front part of the shank through the wall.

The formation of the longitudinal side windows of the rod in the bottom of this cavity, open in the lateral gap between the longitudinal channel of the rod and the tube placed in it, provides cooling of the electrode shank and the side walls of the rod with refrigerant circulating through their windows.

Placing the front of the tube in an additional longitudinal channel without a lateral gap between them and without protruding its end into the socket of the rod ensures the flow of refrigerant into the cavity located at the front end of the rod.

The implementation of this window in this shank with the circulation of refrigerant through it provides heat removal from the electrode shank over the entire surface of such a window.

Multilateral cooling through the walls of the rod of its socket with a shank and a transverse window intensifies the heat sink from the shank through its walls of the electrode itself, thereby significantly reducing its heating during welding and increasing its resistance.

A comparative analysis of the proposed solution with currently known solutions indicates that it is new, has significant differences, is industrially suitable and therefore meets the criterion of the INVENTION.

The proposed electrode holder in FIG. 1 is represented by the front part of the second rod and comprises a rod 1, from the rear end of which a longitudinal channel 2 is formed, in which a tube 3 is placed. A further longitudinal channel 4 is made under its front part, which is open in the transverse socket 5 of the rod 1 with the electrode shank 6 7 and into the cavity 8, formed from the front end of the shaft 1 and closed by a cover 9. In the shank 6 there is a transverse window 10 open in the channels 2 and 4. From the side of the shaft end 1 in the bottom of the cavity 8, additional lateral longitudinal windows 11 are formed, leaving e in the gap between the side surfaces of duct 2 and the tube 3. In the annular groove of the shank 6 is placed a sealing member 12, and in front of the tube 3 there is a sealing element 13 located in the channel 4 of the rod 1.

The electrode 7 is cooled as follows: refrigerant - water is supplied through a tube 3, then through an additional channel 4, a transverse window 10, channel 4 and enters the cavity 8 of the front of the rod 1, cooling its bottom with a diameter larger than the diameter of the channel 2, as well as the walls of the shank 6 adjacent to its window 10; the refrigerant from the cavity through the additional side windows 11 by the side walls of the rod 1 cools the shank 6 of the electrode 7; heated refrigerant from these windows enters the lateral gap between the surfaces of the channel 2 and tube 3 and is removed from it outside of the rod 1.

Due to the multilateral cooling of the shank 6 through the front, rear and side walls of the shaft 1, forming its transverse socket 5, the cooled surface of the shank 6 increases at least 3 times in comparison with this surface of the prototype.

Such cooling increases the heat sink not only from the shank 6, but also from the electrode 7 to it, which leads to equalization of heating of the working end of the latter and its uniform wear with an increase in the resistance of the electrode by at least 1.5 times.

Thus, by multi-sided cooling through the walls of the shaft of the shank and through the surface of its transverse window, the heat sink from the electrode also significantly increases with a decrease in its steady-state heating and an increase in its resistance by at least 1.5 times.

Claims (1)

An electrode holder for welding tongs for resistance spot welding, containing two angled rods, with a shank for the tongs on the end of the first rod and an end of the second rod with a transverse socket for the electrode shank, formed in the rods from their ends along a longitudinal channel open one in the other, moreover, in the blind longitudinal channel of the second rod there is a gap for the circulation of refrigerant with gaps, characterized in that at the bottom of the blind longitudinal channel an additional a longitudinal channel open to the said transverse nest, and a cavity closed by a lid is formed at the front end of the second rod, while longitudinal side windows are formed at the bottom of the said cavity, open in the lateral gap between the blind longitudinal channel and the tube placed without the side gap in front additional channel and without protruding it into a transverse socket under the shank of the electrode, made with a transverse window open in an additional longitudinal channel of the rod.

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