RU2201857C2 - Device for checking concentricity of coating of arc welding electrodes - Google Patents

Abstract

FIELD: mechanical engineering; welding. SUBSTANCE: invention is used for checking electrodes with rods of metals of all grades. Proposed device consists of housing, electronic unit, gauging mechanism with lever and movable carriage, primary converter and rocker. Lever is installed for engagement with movable carriage to provide its travel. Dial indicator is used to check displacement of primary converter. Proposed device makes it possible to considerably increase accuracy of measuring of concentricity of electrode coating, including unbaked electrodes. EFFECT: checking of coating by nondestructive method. 1 dwg

Description

 The invention relates to welding, in particular to devices for controlling the concentricity of the coating of electrodes for arc welding.

 A device for monitoring the concentricity of the coatings of electrodes for arc welding, containing a sensor, measuring coils, the cores of which are perpendicular to the Central axis of the calibrating sleeve [1].

 The disadvantage of this device is that it can be used to control the electrodes only with rods of magnetic steels.

 A device for controlling the concentricity of the coating of electrodes for arc welding with rods of any metal grade [2]. It is the closest but technical essence and the achieved results to the claimed invention. The device consists of an electronic unit, a dial indicator, a primary transducer, a calibrating mechanism that includes a housing, a movable carriage with a primary transducer glued into it, a cap, a replaceable mandrel, a return spring, a lever, a pressure spring, a support and a key.

 The disadvantage of this device is the inaccuracy of calibration due to the play of the micrometric thread of the cap and the lack of control of the change in the magnitude of the movement of the primary transducer.

 The objective of the invention is the creation of a device for controlling the concentricity of the coating of electrodes with rods of any metal grade and improving the accuracy of measurement.

 To solve this problem, the calibration mechanism is made in the form of a movable carriage with a primary transducer mounted in it, a rocker arm, one end of which rests on the primary transducer, and the second end relies on a dial gauge, which controls the magnitude of the primary transducer, which guarantees increased accuracy of calibration, the lever, which is installed with the possibility of direct interaction with the movable carriage to move it.

 The device diagram is shown in the drawing.

 The device is calibrated by changing the distance between the primary transducer and the rod of the electrode to be monitored by moving the movable carriage by a predetermined amount.

 In the initial position, the movable carriage 1 under the action of the return spring 2 is pressed to the bottom of the sleeve 3. When you press the button 4, the force through the spring 5 is transmitted to the lever 6, which moves the movable carriage down. The movable carriage, in turn, presses on the beam 7. The beam through the support 8, built into the indicator sleeve 9, transfers the amount of movement to the dial indicator 10.

 The calibration limits of the measuring device are set using the adjusting screw 11 on the dial gauge dial. The digital indicator of the electronic unit using the "Sensitivity" knob is set to the same value as the dial type indicator.

 Control concentricity of the coating of the electrodes is as follows.

 The controlled electrode 12 is placed on the mandrel 13 and is given a rotational movement.

 With an eccentrically applied coating, the electrode rod describes a circle, as a result of which the distance to the primary transducer changes. The magnitude of this change corresponds to the difference in thickness of the applied coating.

 The connection between the electronic unit and the primary converter is as follows: when the electrode rotates in the mandrel 13 in the primary converter, a change in the electric potential occurs in proportion to the eccentricity of the electrode. This electrical signal is processed by the electronic unit and turns into visual information (arrow or digital).

 The electronic unit can have any design, but the main feature is that it is calibrated in accordance with the indications of a dial type indicator.

 This ensures the measurement of the thickness of the coating of the electrodes for arc welding (including raw electrodes) non-destructive coating method.

 The use of this device can significantly improve the accuracy of measuring the concentricity of the coating of the electrodes for arc welding, and due to the use of the dial indicator, which is undergoing state metrological verification, the device in which this invention will be used will be metrologically provided.

Sources of information
1. USSR copyright certificate 254689, cl. B 23K 35/40, 1968

 2. Copyright certificate of the USSR 707733, cl. In 23 K 35/40, 1976 (prototype).

Claims (1)

 A device for monitoring the concentricity of the coating of electrodes for arc welding, comprising a housing with an electronic unit, a calibration mechanism with a lever and a movable carriage, a primary transducer connected to an electronic unit, characterized in that it is equipped with an indicator for controlling the movement of the primary transducer, a rocker connecting the primary transducer and an indicator of the watch type, the lever being installed with the possibility of direct interaction with the movable carriage to move it.