SU1326844A1 - System for adjusting heat dispensing - Google Patents

Abstract

The invention relates to a technique for centralized heat supply, and b. used in heating and hot water. The purpose of the invention is to improve the quality of regulation of the system. For this purpose, the setter is made in the form of a device 6 for determining the flow rate of the direct heat carrier (T) for hot water supply - a flow meter. The target value of the flow rate of direct T for hot water is determined depending on the maximum flow of direct T for hot water. During periods when the flow rate T measured by the device 6 is less than the set value determined by the simulator 14 of the signal of the given flow rate, the comparison unit 15 does not give the output signal to the new work schedule. During periods when the flow rate T is greater than a predetermined value, the comparison unit 15 generates an output signal for another operating mode. The sensor 5 t-ry T is turned on and the regulator 3 heat supply for heating goes to a new lowered heating schedule, and the consumption of heat and T decreases. 3 il. & GO to O5 00 4 (puf.f

Description

The invention relates to a technique for centralized heat supply and can be used in systems for regulating heat supply to heating and hot water supply.

The purpose of the invention is to improve the quality of regulation.

FIG. is a schematic diagram of the regulation system; in fig. 2 shows an example of connecting temperature sensors to a measuring unit of a heat supply device for heating; in fig. 3 - heating schedules.

The heat supply and heat supply control system contains (Fig. 1) a hot water temperature regulating device 1 with a sensor 2 of the latter temperature and a heating heat regulating device 3 with sensors 4 and 5, respectively, of the outside air temperature and the heat carrier temperature for heating , as well as the setting changes of the regulation mode depending on the heat supply to the hot water supply, made in the form of the device 6 for determining the flow rate of the direct heat carrier to the hot water supply of.

The heat supply system comprises an attachment unit 7 connected to the heating system 8 on the one hand and on the other side respectively to the reverse 9 and direct 10 lines of the heating network, and the node 11 to connect the hot water supply system 12 connected to the latter and also to reverse 9 and forward 10 lines of the heat network, respectively.

The system for regulating heat supply for heating and hot water also contains a measuring unit 13 connected by an output to the control device 3 heat supply for heating, one of the inputs to the sensor 4 of the outdoor air, and the other to the sensor 5 of the heat carrier for heating, a latier 14 for setting a single flow rate and a comparison unit, made in the form of an installer 15, the inverse input of which is connected to the output of the simulator 14 of a signal of a given flow rate, the non-inverted input - with the output of the device 6 the direct coolant supply is supplied for hot water supply and the output is connected to measuring unit 13. In this case, additional resistance 16 and parallel to the coolant temperature sensor 5 are connected in series with the conductor 17, for example, in the form of a relay in the normally closed state, the control input of which is connected to the output of the comparator 15.

The node / 1 7 of the accession of the heating system 8 may be implemented as an adjustable hydraulic elevator, pump or heat exchanger. System connection 11

hot water supply in closed heat supply systems is a heat exchanger (with a parallel connection scheme for hot water heaters) or a second stage heater (with a mixed heating scheme for heaters).

The control device 3 for supplying heat for heating can be implemented as an electronic controller that includes a measuring unit 3 (for example, a measuring bridge) with an actuator (for example, an electromechanical actuator) and a regulator (for example, a regulating valve or a needle elevator plunger ).

The regulating device 1 of the hot water temperature can be any temperature controller.

The device 6 for determining the flow rate of the direct heat transfer medium to the hot water supply is a flow meter (for example, an electromagnetic magnetic flow meter with a current; m output); and the setpoint signal transmitter 14, if an electromagnetic flow meter is used, is a direct current source, the value KOTOpoi o corresponds, for example, to the average hourly flow rate of the direct heat carrier for hot water supply.

FIG. Figure 3 shows an example of connecting temperature sensors to the measuring unit 13 of the regulating device 3 of the heat supply, where in the conducting state

0 key 17 Eats an electromagnetic relay with coil 18 and normally closed contact 19.

The operation of the heat supply system for heating and hot water supply is carried out as follows.

During periods when the coolant flow rate measured by the device for determining the flow rate of the direct coolant to the hot water supply is less than a predetermined value determined by the simulator 1-1 of the given flow rate signal, the comparator unit in the form of a comparator 15 does not provide an output signal the state of the key 17 (for example, the relay is in a normally closed state.) additional connection 15 is shunted, and the regulator 3 of the heat supply for heating operates according to the balance heating schedule ({. IG. 3, schedule a). The graph is calculated on the basis of the daily or weekly balance of heat for heating. In periods when

0 the flow rate of the direct heat carrier for hot water supply to the setpoint, the comparison unit in the 15 of the comparator 15 gives a control signal to the wire in a state of key 17 (for example, a relay in a normally closed state) and an additional resistance 16 turns on in the circuit of the sensor 5 temperature of the carrier. As a result, the device 3 for heat removal on the heating B1) 1 is adjustable to a new

.)

an underestimated heating schedule (Fig. 3, schedule b), and the consumption of heat and heat carrier for heating is reduced.

The target value of the flow rate of the direct heat carrier for hot water supply is determined depending on the maximum flow rate of the direct heat carrier for the hot water supply (for residential buildings it may be, for example, the average hourly flow rate).

In real conditions, the reduction of heating costs and heating costs occurs during a significant consumption of direct network water for hot water supply (for example, in residential buildings from 7.00 to 9.00 h and from 18.00 to 22.00 h in subscriber heat supply As a result, the capital costs of laying new distribution heat networks are reduced or the capacity of existing networks is increased, while the costs of pumping heat transfer fluids and heat losses in heat networks are reduced.

Claims (1)

Invention Formula The heat and hot water supply control system contains a hot water temperature regulating device with the last temperature sensor and a working day regulator. At the same time, a significant consumption of heat for heating from the sensor of direct mains water to hot water, according to the outdoor temperature supply occurs in transitional time heating season. Thanks to the heat storage capacity of buildings internal temperature in heated Q rooms does not exceed 1 ° C. The use of the proposed heat supply system for heating and hot water allows reducing the maximum total costs of network water for air and the temperature of the coolant for heating, as well as a control for changing the control mode depending on the heat supply to the hot water supply, characterized in that, in order to improve the quality of control, the mentioned control gear is made in the form of a device for determining the flow rate of the direct heat carrier for hot water supply. heat supply of subscribers. As a result, the capital costs of laying new distribution heat networks are reduced, or the capacity of existing networks is increased, while the costs of transferring heat transfer fluid and heat losses in heat networks are reduced. Invention Formula air and the temperature of the coolant for heating, as well as a control for changing the control mode depending on the heat supply to the hot water supply, characterized in that, in order to improve the quality of control, the mentioned control gear is made in the form of a device for determining the flow rate of the direct heat carrier for hot water supply. Figg g FIG. 3