RU2013113567A - MULTI-WAY VALVE FOR RELIABLE OPERATION INSTALLATION WORKING CIRCUIT - Google Patents

Abstract

1. A multi-way valve (V) for reliable operation of the installation medium circuit, with one input (E1), one first output (A1) and one second output (A2) and one switching device (U), and at the input (E1) there is the volume of gas (G) under pressure, and the first outlet (A1) is configured to connect to the hot pipeline of the working medium circuit, and the second outlet (A2) is connected to the cold pipeline of the working medium circuit, the switching device (U) made in such a way that in good working condition in od (E1) is closed, and in the malfunctioning state, the input (E2) is open, and the volume of gas (G) available at the input (E1) can go either to the first (A1) or to the second (A2) outputs, depending on , at which outlet the pressure is lower compared to the other outlet, characterized in that the switching device is adapted, depending on the pressure difference between the exits, to move from the rest position in good working condition to the turned position in faulty working condition, and preliminary tension to move the switching device from the rest position to the rotated position, and the means for pre-tensioning the preselected value set for the permissible amount of pressure difference in proper working sostoyanii.2. The multi-way valve (V) according to claim 1, characterized in that a second inlet (E2) is provided on which there is a pressurized spare volume of the working medium (W), and in good working condition this second inlet (E2) is closed by means of a switching device

Claims (18)

1. A multi-way valve (V) for reliable operation of the installation medium circuit, with one input (E1), one first output (A1) and one second output (A2) and one switching device (U), and at the input (E1) there is the volume of gas (G) under pressure, and the first outlet (A1) is configured to connect to the hot pipeline of the working medium circuit, and the second outlet (A2) is connected to the cold pipeline of the working medium circuit, the switching device (U) made in such a way that in good working condition in od (E1) is closed, and in the malfunctioning state, the input (E2) is open, and the volume of gas (G) available at the input (E1) can go either to the first (A1) or to the second (A2) outputs, depending on , at which outlet the pressure is lower compared to the other outlet, characterized in that the switching device is adapted, depending on the pressure difference between the exits, to move from the rest position in good working condition to the turned position in faulty working condition, and preliminary tension to move the switching device from the rest position to the rotated position, and the means for pre-tensioning the preselected value set for the permissible amount of pressure difference in working order. 2. The multi-way valve (V) according to claim 1, characterized in that a second inlet (E2) is provided on which there is a spare volume of the working medium (W) under pressure, and in good working condition this second inlet (E2) is closed by switching device (U) and in a faulty operating state, the spare volume of the working medium available at the second input (E2) is supplied either to the second (A2) or to the first (A1) outputs, depending on which of the outputs (A1, A2 ) the pressure is greater than the other output. 3. The multi-way valve according to claim 1 or 2, characterized in that the pressure difference at both outputs must reach a predetermined value. 4. The multi-way valve according to claim 1 or 2, characterized in that the pressure difference at the outlets occurs when there is a significant pressure drop in one of the connected pipelines of the working medium circuit - in a hot pipeline or in a cold pipeline. 5. The multi-way valve according to claim 3, characterized in that the pressure difference at the outlets occurs when there is a significant pressure drop in one of the connected pipelines of the working medium circuit - in a hot pipeline or in a cold pipeline. 6. The multi-way valve according to claim 1, characterized in that the switching device is rotatably mounted and arranged so that the space in the multi-way valve necessary for rotation is divided into two separate zones, which, respectively, correspond to one of the outputs. 7. The multi-way valve according to claim 1, characterized in that the pre-tensioning devices consist of elastic elements that are shifted from the pivot point of the switching device and, based on both opposed spaces, act on it in such a way that in a working order In the state, the switching device is held at rest and closes the first or first and second inputs. 8. A multi-way valve according to any one of claims 1, 2, 5-7, characterized in that blocking devices are provided which, in a malfunctioning operating state, hold the switching device in a turned position. 9. The multi-way valve according to claim 3, characterized in that blocking devices are provided which, in a malfunctioning operating state, hold the switching device in a turned position. 10. The multi-way valve according to claim 4, characterized in that blocking devices are provided which, in a malfunctioning operating state, hold the switching device in a turned position. 11. The multi-way valve of claim 8, wherein the locking devices can be unlocked by means of an electromagnet. 12. The multi-way valve according to claim 9 or 10, characterized in that the locking devices can be unlocked by means of an electromagnet. 13. The use of a multi-way valve according to any one of claims 1-12 to maintain in working condition the circuit of the working environment of the installation for generating electricity in the event of a malfunctioning operating condition, if there is a loss of the working medium in the water-steam circuit of the installation’s power supply system. 14. The use of a multi-way valve according to any one of claims 1 to 12 for maintaining in working condition the circuit of the working environment of the installation for generating electricity in the event of a malfunctioning working condition, if there is a loss of the working environment, in particular the cooling medium, in the primary circuit of the installation’s power supply system. 15. The power supply system of the installation with an energy source, an energy consumer, a medium circuit with a hot pipeline from an energy source to an energy consumer and with a cold pipeline from an energy consumer to an energy source, as well as with a multi-way valve according to any one of claims 1-12, which located so that its first outlet is connected to the hot pipeline, and its second outlet is connected to the cold pipeline. 16. The system of clause 15, wherein the source of electricity is a nuclear reactor, in particular a reactor cooled by pressurized water, and the working medium circuit is a closed circuit with water between the reactor and the steam generator for transportation and for continuous removal of energy produced in the reactor cooled water under pressure, and moreover, a multi-way valve is provided in order to operate the power supply system in good working condition for generating electricity and in a faulty working condition, in which th in the primary circuit coolant loss may occur. 17. The system according to clause 16, wherein a pressure tank with gas is connected to the first inlet of the multi-way valve, and a spare volume of water under pressure is connected to the second inlet. 18. The system of claim 15, wherein the energy source is a boiler, the energy consumer is a combination of a steam turbine and a condenser and the medium circuit is a closed water-steam circuit between the boiler and the steam turbine and the condenser for transportation and for continuous removal of the generated a steam boiler, and moreover, a multi-way valve is provided in order to operate the power supply system in good working condition for generating electricity and in a faulty working condition, in which in the primary circuit loss of cooling medium may occur.