RU2005126576A - METHOD OF SEALING AND CAP OF PIPES FOR TESTING PIPELINE FITTINGS - Google Patents

Claims (7)

1. A method of sealing branch pipes for testing pipe fittings, comprising the steps of installing plugs on the nozzles of the test product, creating a force holding the plug in order to ensure tightness for the duration of the test, characterized in that the holding force is created by applying an electric current to the winding of the electromagnet introduced into the plug . 2. A plug for testing pipe fittings, comprising a housing, a sealing ring, holding force generating elements, characterized in that the holding force generating elements are made in the form of an electromagnet with a maximum of magnetic resistance along the surface of contact with the surface of the pipe of the tested product, and the pipe performs the function of magnetic shunt section with a maximum magnetic resistance of the electromagnet. 3. The plug according to claim 2, characterized in that the central portion of the housing is made in the form of a part of a sphere introduced into the pipe, and is provided with stiffeners on the concave side. 4. The plug according to claim 2, characterized in that the winding of the electromagnet introduced into the device is made in the form of a multi-turn toroid and is placed in the recess of the casing, drowned out by a ferromagnetic cage inserted into the device and provided with slots along the contact surface with the surfaces of the pipe of the test product. 5. The plug according to claim 2, characterized in that the current value Im in the winding of the plug solenoid is selected by condition Im = ((lcp Fm) / (μμ ₀ w ² · Dm)), where lcp is the average length of the magnetic circuit of the electromagnet; Fm is the required holding force of the plug on the pipe of the test product; μ is the relative magnetic permeability of the material of the magnetic circuit; μ ₀ is the absolute magnetic permeability of the vacuum; w is the number of turns of the winding of the electromagnet; Dm is the average diameter of the electromagnet winding. 6. The plug according to claim 2, characterized in that the winding of the housing is made of a material with the effect of high temperature superconductivity, the housing of the plug is equipped with fittings for supplying refrigerant to the recess of the housing with the winding placed therein, and the slots of the holder are sealed with non-ferromagnetic material. 7. The method according to claim 1, characterized in that the plugs of an electromagnet made of a material with high-temperature superconductivity are cooled to a temperature below a critical level.