SU1767298A1 - Temperature controller for steam and hot-water boiler - Google Patents

Abstract

The aim of the invention is to improve the control accuracy and simplify the design. This is achieved by the fact that the thermostat of the steam and hot water boiler is provided with a steel jacket, which at opposite ends is connected to the direct and reverse supply lines of hot water, while a coil is introduced into the direct line to the environment. In warm weather during the heating season, the water in the coil is cooled later, thereby saving money, and in cold weather, the optimum heating mode of the boiler is established, which also eliminates excessive fuel consumption. 2 Il.

Description

. The invention relates to the control and regulation of combustion processes and can be used to automatically control the supply of fuel, for example in boiler rooms, depending on the ambient temperature,

A thermostat is known for boilers of the Strel and Strebel system, the operation of which is based on the mechanical shortening (lengthening) of the brass tube and Invar rod placed in it, influenced by the temperature of the water in the boiler. Heterogeneity of thermal expansion (contraction) of the tube and the rod opens and closes the corresponding valves using a system of levers and springs

one.

The disadvantage of this thermostat is structural complexity, due to the presence of spring-loaded levers that have significant inertial moments. In addition, the well-known regulator responds only to the water temperature in the steam boiler, without taking into account the ambient temperature, i.e. allows excessive consumption of fuel during the warm season of the heating season.

A direct thermostat of direct action, of the type RPD, whose purpose is to automatically maintain a constant water temperature at the outlet of the boiler 2, is known. a) the cross-section of the passage hole for steam, i.e. the adjustment process is achieved by quantitatively changing the volume of steam supplied to the boiler system.

The disadvantage of such a regulator is the presence of a mechanical reaction chain consisting of a bellows, a calibrated spring, a rod, valves and a pre-commissioning unit of this system for a certain range of water heating for a given boiler room. The system is cumbersome and inert. At the same time, controller 2 also does not respond to changes in the temperature of the external

with

with

environment, tolerance of excessive fuel and electricity to power the injection unit.

Known and may be related to the claimed object is a steam pressure regulator in hot water boilers, the execution of which is in many respects similar to the RPD type temperature regulator with the only difference that instead of an organ / reactant to the change in pressure value, an elastic membrane is used ( see 2 p. 437). Taking into account some constructive similarity between the proposed and well-known regulators, the RPD-type regulator is adopted as a prototype.

The purpose of the invention is to simplify the controller and increase the efficiency of fuel consumption by taking into account the ambient temperature in the process of supplying fuel to the main burner.

The goal is achieved by the fact that the regulator housing is equipped with a jacket connected in the upper and lower parts with the pipes for direct and reverse injection of hot water, respectively, while the direct supply pipeline is brought out and provided with a coil.

Figure 1 shows the proposed thermostat, a vertical section; Fig. 2 is a schematic diagram of an automatic control of the supply of fuel to boilers.

The design of the thermostat is as follows: a stem 2 is placed in a sealed housing 1, at its protruding end there are ballast 3 and a slide gate 4, the latter being installed in tube 5 for supplying a pulse gas. The body of the thermostat 6 is filled with liquid 7 (for example, technical emulsion) and is equipped with an outlet 8 with a piston 9 at the base to maintain the required pressure in the case 1 permanently. A steel jacket 10 is fixed above the case, one of the nozzles is connected to the pipeline 11 for supplying hot water, and the other with a return pipe 12, and a coil 13 is formed on the direct pipe 11 and is led out into the environment to enhance heat exchange (figure 1).

The described regulator can be used in boiler houses using liquid and gaseous fuels to automate and simplify the regulation of its flow depending on the ambient temperature during the heating period. Consider the operation of the thermostat in a known scheme with automatic control of fuel consumption.

Gas, gas pipeline 14, taps 15 and 16, valve slam-shut 17, taps 18 and 19 are fed to low pressure burner 20 (Fig. 2). From the outlet A of the valve 17, the gas is supplied to the fuse

21 through the choke 22 and the solenoid valve 23, and from the output of the latter to the burner 24 for heating the thermocouple 25.

The output B of the valve 17 is connected to the impulse pipe 26. The burner 20 is powered through the valve 27, the shut-off valve 17 is supplied to the mine, while the gas enters the thermostat 6 through the impulse pipe 5. The thermostat 6 is not installed in the boiler 28, but on it .

Fuel management is performed in the following order. If the temperature of the water in the boiler 28 has dropped below the permissible level (the weather is cold), then the rod 2 under the weight of the ballast 3 goes down and

the shutter 4 overlaps the tube 5; gas begins to flow into the burner 20 through the shut-off valve 17 through open valves 18 and 19. The burner 20 will heat the water in the boiler 28 and, therefore, in the thermostat 6 and the stem

2 of the latter will be pushed up (overcoming the weight of the ballast 3) and thereby open the access of the pulsed gas to the thermostat through the tube 26. The supply of the pulsed gas through the tube 26 causes the shut-off valve 17 to close and the burner 20 to attenuate, i.e. in this case, the supply of consumers with hot water is carried out without its simultaneous heating. The higher the ambient temperature, the later

automatic operation for fuel re-activation and vice versa. As soon as the temperature in the boiler drops to a critically low temperature, the rod 2, under the weight of the ballast, will again plunge into the working environment 7 and the valve 4 on

it will overlap the end of the tube 5. The fuel will flow into the burner 20 through the taps 18 and 19, i.e. the cycle is repeated.

The presence of the jacket 10 on the regulator housing allows for consideration of the ambient temperature primarily due to the removal of the coil 13 on the straight pipe to the outside. The actually removed coil absorbs the heat of the external environment and thereby participates in the differentiated consumption of fuel depending on the temperature of the medium.

In cold weather, fuel consumption increases accordingly, but does not exceed the optimum value. The described factor distinguishes the invention from the known solutions of a similar purpose in that it allows automatic adjustment of fuel consumption while simplifying the design of the controller.

Claims (1)

Invention Formula The shut-off valve, which is different in order to improve the accuracy of regulation and simplify the design, it additionally contains a coil, and a thermostat regulator of a steam and hot water boiler having a forward and a reverse ... .... hot water injection piping. 5 start-up is equipped with a water jacket, connected to a hollow body filled with one end of the working fluid and supplied with a piston through a coil, and the other with a return pipe connected with a loaded rod - direct pipeline. a shut-off valve, which, in order to improve the accuracy of regulation and simplify the design, it additionally contains a coil, and the box ... ....  p7: UG: Txwccd CHU: U FIG. j "V I