CS215186B1 - Connection for the safety closure of the heat transfer medium in the hot water and hot water systems - Google Patents

Abstract

The invention relates to a connection for a safety shut-off of the heat transfer medium inlet of hot and cold water systems, in particular heat exchanger stations. It solves the problem of automatic closing of the heat transfer medium inlet in the event of an accident or power failure, by arranging elements in the impulse pipe. The essence of the connection is that an impulse pipe is led from the main pipe through an electromagnetic valve, controlled by the mains voltage, to a linear hydraulic motor, the piston of which is connected via a rod to the cone of the shut-off valve, connected in the main pipe behind the branch of the impulse pipe in the direction of the medium supply, while a drain fitting is connected to the impulse pipe between the linear hydraulic motor and the electromagnetic valve. The invention can also be used for rapid remote closing of water supply systems and other pressure distribution systems.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a circuit for securing the inlet of a heat transfer medium of a hot-water and hot-water system, in particular a heat exchanger station comprising an impulse piping connected to a linear hydraulic motor.

At present, the heat transfer medium inlet of the heat exchanger stations is secured either by pneumatic actuator valves or solenoid valves. The disadvantage of pneumatic-actuated valves is the need to equip the stations with a source and distribution of compressed air, which represents a considerable weight and consequently difficult handling. The disadvantage of the solenoid valves is the considerable power input, depending on the nominal pipe size Q, 4 to 0.8 kW. Another disadvantage is that the current design of the solenoid valves in the event of a failure of the solenoid valves does not allow the manual opening of the valve, so the pipeline must be partially dismantled.

Disadvantages of the prior art are eliminated by a wiring for securing the inlet of the heat transfer medium of hot water and hot water systems, in particular heat exchanger stations comprising an impulse piping connected to a linear hydraulic motor connected via a stem to the main valve shut-off valve. and a drain valve is connected between the linear hydraulic motor and the solenoid valve.

The advantage of the invention is the low power consumption, since the linear movement of the rod with the stop valve plug ensures the transfer of the pressure of the heat transfer medium from the main pipe. The solution according to the invention results in the possibility of manual opening in case of possible failure of the overall connection. Yet another advantage of this last securing member is that even in the event of a power failure, the system can be opened by opening the shut-off valve after releasing the heat transfer medium pressure above the piston.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a circuit, and FIG. 2 is a partial cross-sectional view of a section of the main line with a shut-off valve, a pulse line, and a linear hydraulic motor.

In a particular embodiment (see FIG. 1), a pulse piping 7 has been led out of the main piping, which is connected via a solenoid valve 2 to a linear hydraulic motor whose piston 2 has been connected to a plug 2 of a shut-off valve T by a rod 9. A drain fitting 2 was connected to the impulse piping 2 between solenoid valve 2 and a linear hydraulic motor. · A solenoid valve 2 of the negative type was used and the coil is opened if not supplied.

F unctions:

In the idle state, the solenoid valve 2 is under voltage and closes the pulse line 7. The plug 5 of the shut-off valve T is in the up position, as well as the piston 6 of the linear hydraulic motor. The solenoid valve 2 is interrupted if the power supply fails or another emergency condition (see Fig. 2). 1 into a linear hydraulic motor 2, where the pressure acts on the piston 2. Stem 8 is seated in the seat of the closing valve 7. The main pipe 2 ^e j and closed without removing the emergency condition does not open. After removal of the emergency state opens a maintenance discharge valve 2> áímž pressure drop occurs above the piston 2_ linear hydraulic motor 2 · The pressure of heat transfer fluid in the main pipe £ pushes the plug 2 ^from the seat ^of the closing valve 7 so as to close the opening of shutoff valve 7 and the heat transfer medium flows into system. After opening the shut-off valve 7 the operator closes the drain fitting 5.

The circuit according to the invention can also be used for rapid remote shutdown of water supply systems and other pressure lines.

Claims (1)

Wiring for securing the inlet of heat transfer medium of hot-water and hot-water systems, in particular heat exchanger stations comprising impulse piping connected to a linear hydraulic motor connected via a rod to the shut-off valve of the main piping, characterized in that the electromagnetic valve is of negative type and a drain valve (5) is connected to the valve (3).