CS247365B1 - Heating medium circulation controller in a forced circulation heating system - Google Patents

Abstract

The purpose of the solution is to increase the efficiency of heating systems with forced circulation. The stated purpose is achieved by placing thermistors Τ, β T2 thermally conductively connected to the point of entry of the return and outgoing heating medium on the boiler, which together with the potentiometer R form an electrical bridge. The output voltage of the bridge U, after processing in the shaper B and the power stage S, is used to control the operation of the motor of the central or multi-storey heating circulation pump.

Description

The invention relates to a heating medium circulation regulator in a central or multi-storey heating system with a forced circulation of heating medium according to the temperature difference of the medium in the heating system outlet and return pipes.

The hitherto known control of heating systems does not use the problem of controlling the operation of a pump based on this principle. It is used either continuous circulation pump, manual start or regulation according to one of the basic parameters in the system, eg temperature of outlet medium. The level of automation and optimization of the system functions varies according to the size of the system and the technical solution and is closely related to the cost of the equipment and the level of operating costs. Especially for central and multi-storey heating systems and forced circulation of the heating medium, the question of simple, inexpensive, reliable automatic control and automation of system operation is topical. One solution meeting the above requirements is an object of the invention.

SUMMARY OF THE INVENTION The invention is based on a circuit for automatic regulation of the circulation pump motor, which leads to a higher utilization of the heat source energy in the heating system.

Using two thermistors connected in series, the first of which is located on the output and the second on the return pipe of the boiler with a parallel potentiometer between its runner and the common point of the thermistors generates control voltage, which is adjusted after adjustment, eg. a power circuit controlling the circulation pump motor.

Maximum efficiency resp. The utilization of the heat source used will otherwise increase the system under the same conditions, the greater the temperature difference between the furnace space and the heated heating medium in the boiler elements located in the furnace space, and the greater the temperature difference between the radiator surface and the temperature of the heated spaces. By automatic regulation of the circulation pump operation according to the temperature difference of the heating medium at the inlet of the return medium into the boiler and the outlet of the heated boiler from the boiler, the state of the system is somewhat close to the optimum state described above for maximum efficiency. The particular electrical wiring oscillates around this state.

By regulating the circulation of the heating medium regulated according to the temperature difference of the output and return medium, a better use of energy of the heat source such as coal, diesel, gas and at the same time faster heating of the heated space is achieved. Optimization of the pump operation also achieves savings in el. energy.

The drawing is a schematic of a wired controller according to the present invention.

An electrical bridge composed of thermistors T, Tg, potentiometer R, connected by a direct voltage U is a source of control voltage which is led from points A and B to the input of the shaping and power stage. This stage comprises a contact or contactless switch through which the circulator pump motor 11 is supplied via a fuse with a supply voltage U _M.

The control voltage, proportional to the temperature difference of the return and output heating medium, is generated between the points A - B of the electrical bridge, composed of the thermistors T, and Tg and the potentiometer R1, supplied with a direct voltage. One of the thermistors is thermally conductive connected to the boiler outlet pipe, the other is thermally conductive connected to the boiler return pipe. The output voltage U1 is applied to the shaping and power stage 6 which, by means of a relay or a contactless switch, controls the operation of the motor M of the circulation pump. The potentiometer slider sets the temperature difference at which the pump is started.

Practical implementation of the proposed control method has been verified in connection with the H4 solid fuel boiler in long-term operation in two versions of electrical connection. The first version contained a Schmitt flip-flop, a power switching circuit with a switching relay, and two separate power supplies; Both versions have proven themselves in several years of operation and have produced fuel and electricity savings.

Claims (1)

SUBJECT OF THE INVENTION Heating medium circulation regulator in a forced circulation heating system, characterized in that it consists of two series-connected thermistors (Tj, Tg), the first of which is located on the outlet pipe and the second on the return pipe of the boiler to which a potentiometer is connected in parallel (R,), whose movable contact (B) is connected with the common point (A) to the input terminals of the shaping and power stage (S), the output of which is connected via the circulation pump motor (M) and fuse to the motor supply voltage terminals U _n ).