RU2003132065A - METHOD FOR POWERING A CLOSED LIQUID SYSTEM - Google Patents

Abstract

A method for automatically feeding a closed liquid system from a liquid source according to need by creating between the liquid source and the closed liquid system a feed buffer formed from liquid, in which between the liquid source and the feed buffer only liquid flow in the direction of the feed buffers is allowed and from the feed buffer to the closed liquid system only dropwise liquid transport is admitted. The feed buffer can be realized with a cylindrical drip feeder with inlet, outlet and freely movable plunger, which can close the outlet in an abutting position while leaving clear a minuscule leakage channel and is provided with a passage with a non-return valve in the direction of the inlet. Such a drip feeder can, with or without insertion of a storage container for liquid, be connected with, for instance, a liquid system, such as a central heating system with pipe system, boiler and expansion tank.

Claims (14)

1. A method for automatically feeding a closed liquid system from a liquid source in accordance with needs, moreover, a supply auxiliary drive formed from a liquid is formed in the system, and liquid is allowed to flow between the fluid source and the supply auxiliary drive only in the direction of the supply auxiliary drive, characterized in that form an auxiliary fluid storage between the fluid source and the closed power system, and from the supply auxiliary storage only a drop-wise transfer of liquid into a closed fluid system is permitted. 2. The method according to claim 1, characterized in that the supply auxiliary drive has a minimum volume, which increases when the pressure in the supply auxiliary drive exceeds the pressure in the liquid source. 3. The method according to claim 2, characterized in that the increase in the volume of the supply auxiliary drive is limited by an overpressure safety device. 4. The method according to any one of the preceding paragraphs, characterized in that between the supply auxiliary drive and the closed liquid system, a supply of liquid is created, which is supplied through an open connection via a drip transfer from the supply auxiliary drive and which is connected to the liquid system through a closing channel, wherein opening and channel closure is controlled depending on the values produced by the closed fluid system. 5. A drip feed device provided with a cylindrical body with an inlet, an outlet and a substantially cylindrical plunger mounted in the housing so that it can move freely, this plunger provided with at least a first portion mounted in the cylindrical housing with sliding fit, and a second section having a smaller diameter than the first section, can close the outlet in the abutting position, at the same time leaving an obvious tiny passage for leakage, and ensure the channel, which can connect the inlet with the space in the housing around the second section, and is provided with a non-return valve to prevent leakage from the specified space into the inlet. 6. The drip feed device according to claim 5, characterized in that the second portion of the plunger is elongated by a centrally located rod-shaped protrusion, which, using a sliding fit, hooks a drilled hole forming part of the outlet and is provided around the connection with the second section by an annular groove which connects to at least a longitudinal groove extending in the longitudinal direction of the rod-shaped protrusion. 7. The drip feed device according to claim 6, characterized in that the rod-shaped protrusion is connected to the second portion of the plunger using a base portion and ends with a free end with an O-ring mounted around the base portion and a free end in the abutting position of the second portion in contact with the working the cam surface of the adjusting element, which can move relative to the rod-shaped protrusion and, when moving, can move the plunger through the rod-shaped protrusion in the longitudinal direction occurrence. 8. The drip feed device according to any one of claims 5 to 7, characterized in that the plunger is pressed into the abutting position by a spring that rests on the plunger, on the one hand, and on the restrictive section, motionlessly connected to the housing, on the other hand. 9. Drip supply device according to claim 8, characterized in that the restrictive section is made with the possibility of regulation relative to the housing. 10. The drip feed device according to any one of paragraphs. 5-9, characterized in that the non-return valve is formed by an annular groove in the outer surface of the second section of the plunger, and this groove is provided with lateral edges and a base, and at least opens a channel communicating with the inlet opening and is sealed at a distance from the base with a sealing ring adjacent to the side edges. 11. The drip feed device according to claim 10, characterized in that the lateral edges of the groove are made with the possibility of regulation relative to each other. 12. Drip supply device according to any one of claims 5 to 11, characterized in that the housing is provided with an outlet that closes in a sealing manner with the first portion of the plunger, if the second portion of the plunger is in an adjacent position, and which is released after a predetermined movement of the plunger in the direction inlet. 13. A heating installation provided with a closed fluid circulation circuit, in which at least a boiler and an expansion tank are located, and this closed fluid circulation circuit is connected via a drip feed device according to any one of the preceding paragraphs to a pressure fluid source. 14. The heating installation according to claim 10, characterized in that the outlet of the drip feed device is in open communication with both the replenishment line for the closed fluid circulation circuit and the inlet of the container for storing makeup water, with a replenishment line connected to the inlet a replenishing element that is in open communication with the fluid circulation circuit, and this inlet is provided with a valve, which is usually in the closed position, but opens in the absence of action of water in the fluid circuit.