SU1104475A1 - Device for adjusting water discharge in building heating system - Google Patents

Abstract

DEVICE FOR REGULATION OF WATER CONSUMPTION IN THE SYSTEM OF HEATING OF WELL- ;. Research institutes containing a temperature sensor and a valve, characterized by the fact that, in order to increase the reliability of the device, it contains a housing with a partition installed in it, dividing it into two chambers, in the first of which a temperature sensor is installed, made in the form of a temperature-sensitive bellows connected to a valve installed in the second chamber above the saddle, made in the partition, each of the chambers is provided with an inlet pipe, each of which is connected through a corresponding pipeline with a valve installed on it and with a direct pipe from the heating system, the first chamber is equipped with an outlet pipe connected to the direct pipeline of the system (L heating for connecting to noTpe6HTeJMi. I yes 16 g fi to the heating system 4J SP From the boiler

Description

1 The invention relates to a heat supply technique and is intended to control the flow of water in heating systems of buildings connected to external heat networks according to an independent circuit. A device is known for controlling the flow of water in a building heating system connected to external heat networks in an independent circuit including a temperature sensor connected to one of the controller inputs, the output of which is connected to the regulator actuator G 3H closest to the invention according to its technical nature It is a device for controlling the flow of water in a building heating system connected to an external heating network according to an independent direct and reverse piping system consisting of. A valve installed on the return pipe, the regulator of which is connected to the actuator, is connected to the static controller with the help of direct and feedback circuits, and a temperature sensor t2J is connected to the static controller. The disadvantages of the known devices are low reliability due to their complexity. The aim of the invention is to increase the reliability of the device. This goal is achieved by the fact that a device for controlling the flow of water in a building heating system, comprising a temperature sensor and a valve, comprises a housing with a partition mounted therein dividing it into two chambers, the first of which is equipped with a temperature sensor. a sensitized bellows associated with a valve installed in the second chamber above the saddle, made in the partition; each of the chambers is provided with an inlet nipple, each of which is connected through a respective pipeline to ennym thereon valve settings etc. mym.truboprovodom room heating system of the thermal network, wherein the first chamber is provided with outlet pipe connected to the straight pipe room heating system mm for connection to the consumer. 752. FIG. 1 is a schematic diagram of the device; Fig. 2 shows the construction of the mixing chamber; in fig. 3 is an adjustment schedule. The device for controlling the flow of water in the building heating system contains pipelines 2 and 3 connected to the direct pipeline 1 of the heating system with the D and 5 valves installed on them, housing 6 with a partition 7 installed in it, dividing it into the first chamber 8 a temperature sensor installed in the form of a temperature-sensitive bellows 9 connected to a valve 10 installed in the second chamber 11 above the saddle 12, made in the partition 7. The first chamber 8 is provided with an inlet 13, which is connected. with the pipeline 3, and the exit Pat-. 14, connected to the heating pipe 15, for connection to the consumer. The second chamber 11 is equipped with an inlet pipe 16 connected to the pipeline 2. The heat-sensitive bellows 9 is equipped with an adjusting device 17. The device operates as follows. During the heating season, the temperature in the heating system varies according to the heating schedule. The uniform distribution of heat at the same time between the individual heaters of the system is maintained if the system is operated according to the control schedule (Fig. 3), where G and t are the relative flow and temperature of the water in the heating system; t. - the initial water temperature in 1 heating system at an ambient air temperature equal to, for example, -8 ° C; t is the design water temperature in the heating system. The initial setting of the device consists in distributing the flow of water through pipelines 2 and 3 with the fully open adjustable seat 12 in a predetermined ratio using valves 4 and 5, as well as subsequent complete closing using the adjusting device 17 with valve 10 of the seat 12 when t t. Thus, at t t., The temperature-sensitive bellows 9 is compressed and the valve 10 closes the saddle 12. The water flow in the heating system is equal to the capacity of the pipeline 3. When the water temperature in the heating system rises, the temperature-sensitive bellows 9 expands and begins to open the valve 10 and increases water consumption due to flow from pipeline 2 in accordance with the established schedule. When the water temperature in the heating system reaches the maximum design value, the thermosensitive bellows 9 expands so that the valve 10 opens completely.

when the water temperature in the heating system decreases, the device reduces water consumption, maintaining its design value.

The proposed device for controlling the flow of water in a building heating system has a significantly simplified design compared to the known one, which increases its reliability and saves thermal energy for heating residential buildings.

Claims (1)

DEVICE FOR REGULATING WATER CONSUMPTION IN THE HEATING SYSTEM OF THE BUILDING), containing a temperature sensor and a valve, characterized in that, in order to increase the reliability of the device, it contains a housing with a partition installed in it, dividing it into two chambers, in the first of which a temperature sensor is installed, made in the form of a thermosensitive bellows associated with a valve mounted in a second chamber above the saddle, made in the baffle, each of the chambers is equipped with an inlet pipe, each of which is connected through a corresponding the existing pipeline with the settings installed on it by the valve with direct piping of the heating system from the heating network, and the first chamber is equipped with output pipes connected to the direct piping of the heating system for connection to the consumer ABOUT In the heating system From doiler 1Y4475 Figure 1