RU2022739C1 - Electrode holder for manual arc welding - Google Patents

Abstract

FIELD: manual arc welding. SUBSTANCE: electrode holder has hollow handle, inside of which there is cable with tip, made in the form of two steps cylinder with bulge on butt surface. Tip is mounted inside pipe-shaped body and is engaged with step bush, fixed inside the body. Tip and cable are capable to turn and axial motion and are engaged with spring, mounted in body. Body of electrode holder has pipe shape with pressing grip on its butt. Inside the body there is rod with pressing grip. Rod is mounted inside the body and its pressing grip is connected with control lever. Pressing grips have spherical inserts, that hold electrode. Control lever brings rod away from hole for electrode. In the case spring, located between insulating gaskets is pressed. One of gaskets has pit, that is engaged with bulge on butt surface of cable tip. Electrode is put in hole and it is tightened by inserts. Hole is made in the form of prism. Inserts are changeable. There is gasket between body and deflecting screen. EFFECT: electrode holder is used in manual welding. 4 cl, 1 dwg

Description

 The invention relates to welding, and in particular to devices for manual arc welding.

 Known electrode holder for manual arc welding, containing a hollow handle, a baffle plate, a tubular housing with a clamping jaw at the end, a rod with a second clamping jaw installed inside the housing, as well as a spring, a support element and a cable with a tip.

 A disadvantage of the known electrode holder is the complex design of the junction of the cable with the handle of the holder.

 The aim of the invention is to simplify the design and ensure reliable contact of the current-carrying elements with the electrode.

 This is achieved by the fact that the supporting element is fixed inside the housing and made in the form of a stepped sleeve, the cable end is made in the form of a two-stage cylinder with a boss on the end surface and is mounted inside the sleeve with the possibility of rotation and axial movement, while the spring is equipped with mounted on both sides of it insulating gaskets, one of which is made with a hole and installed with the possibility of interaction with the boss of the cylinder, and the clamping jaws are equipped with liners. The liners can be made with a spherical outer surface and inner surfaces for the electrode. Inserts can be made interchangeable. The electrode holder may be provided with an additional insulating gasket located between the housing and the baffle plate.

 The drawing shows an electrode holder, section.

 The electrode holder comprises a tubular housing 1 with a clamping jaw, a hollow handle 2, a gasket 3 and a reflective shield 4. A support element made in the form of a stepped sleeve 5, through which a conductive cable 6 passes through the hole, is rigidly fixed inside the housing. The cable also freely passes through the hole of the oval handle and the hole in the handle is offset relative to its axis.

 The conductive cable 6 ends with a tip 7, which enters the annular groove of the support element 5, and the tip is made in the form of a stepped cylinder and is equipped with a spherical boss 8 on the end surface included in the hole of the strip 9. Between the insulating strips 9, one of which is made with a hole, a spring 10 is installed, acting both on the cable end and on the rod 12 connected to the lever 11 with a clamping jaw 13, which compresses the inserts 14 holding the electrode 15. The inserts have a spherical outer surface, h provides for the installation of the electrode at any angle, and the inner socket under the electrode is formed as a prism.

 The lever 11 is coated with an insulating coating and mounted in the housing of the electrode holder with the possibility of rotation, when the lever is rotated, the used and the installation of a new electrode are ensured.

 The operation of the electrode holder is as follows.

 The welder, holding the electric holder by the handle 2, withdraws the rod 12 with the clamping jaw with the lever 11 and inserts the electrode 14 between the inserts 13. The worker releases the lever 11 and, under the action of the spring 10, the electrode is clamped by the inserts, but at the same time the tip 7 is pressed against the supporting sleeve 5.

 In the process, the current from the cable through the sleeve, housing and inserts is fed to the electrode. Due to the presence of a spherical boss and the free passage of the cable inside the handle and the body, the cable can rotate freely, which eliminates its twisting and eliminates the torque on the welder’s brush. The presence of an insulating gasket between the body and the handle of the reflective shield, as well as the free passage of the cable in the handle, eliminates the heating of the handle, which protects the welder's hand. Due to the implementation of the outer surface of the spherical liners, nests for the electrodes in the form of a prism, as well as due to the implementation of replaceable liners, it is possible to mount the electrode at different angles.

Claims (4)

 1. ELECTRIC HOLDER FOR MANUAL ARC WELDING, comprising a hollow handle, a reflective shield, a tubular housing with a clamping jaw at the end, a rod with a second clamping jaw installed inside the housing, as well as a spring, a supporting element and a cable with a tip, characterized in that the supporting element is fixed inside the housing and is made in the form of a stepped sleeve, the cable end is made in the form of a two-stage cylinder with a boss on the end surface and is installed inside the sleeve with the possibility of rotation and axial movement, while ins provided mounted on either side of the insulating spacers, one of which is mounted to the well and to engage with the boss of the cylinder, and the clamping jaws are provided with liners.  2. The electrode holder according to claim 1, characterized in that the liners are made with a spherical outer surface and inner prismatic surfaces for the electrode.  3. The electrode holder according to claim 2, characterized in that the liners are removable.  4. The electrode holder according to claim 1, characterized in that it is equipped with an additional insulating gasket located between the housing and the reflective shield.

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