SU1002733A1 - Gaseous water heater - Google Patents

Description

The invention relates to power engineering and can be used for hot water supply and heating of residential buildings and industrial premises. Known gas water heaters containing water heating duct with an injection gas burner and adjustable dampers installed in the exit section of the duct and made in the form of a set of bimetallic plates, fixed their peripheral parts in the common / shell. The disadvantage of such water heaters is low reliability due to frequent contamination of the valve, which leads to abnormal operation of the bimetallic plates. Also known is a gas water heater, which contains a hot-water gas flow with an injection burner gas nozzle installed at the inlet, and a rotary valve at the outlet, connected by a rod with its displacement drive 2. A disadvantage of the known water heater is low reliability due to the complexity of the drive and due to the slow speed of the valve when the burner is turned off abruptly. The aim of the invention is to improve reliability and reduce heat loss when switching on and off the gas supply. This goal is achieved by the fact that the actuator for moving the valve is made in the form of a membrane regulator, communicated by its submembrane cavity by means of a pulse tube with a gas nozzle of the burner and fastened with a membrane to the valve stem. The drawing shows a diagram of a gas water heater. The gas water heater contains a water-heating duct 1 with an injection burner 3 installed at the inlet of a gas nozzle 2, and a rotary valve 4 connected to the displacement rod 5 with an actuator 6 at its outlet. The actuator 6 for moving the damper 4 is made in the form of a membrane regulator, communicated by the submembrane cavity 7 using a pulse tube 8 with a gas nozzle 2 of the burner 3 and fastened with a membrane 9 to the stem 5 of the damper 4. The gas water heater works as follows. In the off position, the gas supply to the apparatus is turned off, the hot water duct is 1 aa. It is closed with the rotary valve 4. After the gas is supplied from the gas supply and ignited, the feed time to the injection burner 3 is opened. When the gas pressure in the nozzle 2 becomes above atmospheric. Part of the gas through the pulse tube 8 enters the submembrane cavity 7 of the actuator b and squeezes the membrane 9, which moves the rod 5. The rod 5, moving, rotates the valve 4. As the gas water heaters change their operating modes, the gas pressure in the nozzle changes 2. When the gas flow rate decreases, its pressure in the submembrane cavity 7 decreases accordingly, which leads to a partial overlap of the cross section of the flue 1. The increase in the amount of gas burned and the pressure in the nozzle 2 increase, respectively. drive b in the submembrane cavity 7, which leads to a partial opening of the flue section 1. During operation with maximum gas flow, the valve 4 is fully open, and when the gas supply is turned off, the pressure in the nozzle 2 and in the b sub cavity 7 of the drive b membrane 9 with LRO9U / (you

/ burned

Jliz

/

Jj

/

Claims (2)

-4 com 5 and flap 4 returns a and similar position. Thus, the proposed drive of the valve movement in the form of a membrane regulator improves the reliability of operation and reduces heat loss when the gas supply is turned on and off. Claims of invention A gas water heater containing a hot-water duct with a gas nozzle of an injection burner installed at the inlet, and a rotary valve at the exit connected with a rod with a drive for moving it, in order to increase reliability and reduce heat loss, The drive for moving the valve is made in the form of a membrane regulator, communicated by its submembrane cavity using a pulse tube with a gas nozzle of the burner and fastened with a membrane to the stem of the valve. Sources of information taken into account in the examination of 1 .Abg oskCappen Energ-ieelnsparuyio-. Aus 5vakt-E1ttbc u-Prll uY o, Qasve x; enbuzhx 1977, No. 9-10, p.347-348. 2. Ibid., 1977, No. 9-10, p.34b347.