CS214519B1 - Connection for regulation of the charging time of accumulationheat storage stoves - Google Patents

Description

The invention solves the circuitry for controlling the charging time of the storage heaters according to the temperature conditions so as to achieve an optimal adaptation of the stored energy and the actual heating demand. x

In the current practice of electric storage heaters, charging of storage heaters is controlled by a clock switch that turns on the stove at 22 hours for charging at low cost overnight and turns it off at 06 hours. Some types of stove are equipped with an internal thermostat, which interrupts charging prematurely when the heating block temperature has reached the set maximum value. The temperature conditions, ie the residual charge of the stove at the start of charging, the internal temperature in the heated space and the external temperature, are not respected. The dimensioning of the stove is made according to the heat loss of the heated space so as to ensure that the losses are covered by the full energy charge of the stove at the lowest regional temperature, eg -15 ° C. However, for the most part of the heating period, the outside temperatures are higher and this charging method does not rule out a waste of energy.

This disadvantage is overcome by the charging time control circuit according to the invention, which is based on the fact that the output of the electric thermometer system is connected to the first comparator input, to the second input the time generator output is connected and the comparator output is connected to the control input of the electronic switch into the coil circuit of the heavy-current contactor that turns on the storage heater. The clock switch is then connected to the mains by its input and connected to the electronic switch by its output and

214 519 by a generator via an external circuit.

Charging of the storage heaters takes place again within the night charging interval, ie 22 to 06 hours, but its start is delayed according to the temperature conditions which are detected by the thermo system and may include residual heat in the stove, external temperature or other influences. The more favorable the temperature conditions, the later the charging starts. In extreme cases, the switch is not switched on, eg when the outside temperature is higher than +12 ° C. The result of this charging method is the saving of electricity and the shift of the charging cycle into the late night hours, ie in periods of low network load and closer to the time of expected heat consumption.

In the drawing, a block diagram illustrates an example of a circuit for charging control. The storage heaters 6 are connected to the mains via a high-current contactor 6, which is usually operated from the clock switch X, as indicated by dashed lines. In the connection according to the invention, additional blocks are added: thermometer system 6, time generator 2, comparator 8, switch 8 and trigger circuit 8. The output of the thermometer system 6 is connected to the first input of comparator 8, to the second input of which the output of time generator 2 is connected. The comparator output activates an electronic switch 8, which is connected between the clock switch 8 and the excitation of the high-current contactor 6. The output of the clock switch 8 is further connected via the trigger circuit 8 and the time generator 2. <

The thermometer system comprises one or more electrical thermometers, such as thermistor or platinum, whose output signals are linearly combined into a single one, which is applied to the first input of the comparator. The time generator supplies a signal that varies monotonically throughout the charging interval comparator input. The polarity and voltage range of the two signals are measured so that the flip of the comparator 8, the activation of the switch 6 and the switching on of the contactor 6 and hence the storage heaters 6 occur at a time which together with the end of the charging interval defines the time required for charging . The start circuit 8, activated by a signal from the timer, is always used to set the initial state of the time generator at the beginning of the charging interval. The charging cycle ends when the clock switch is turned off at six o'clock.

The circuit according to the invention can be realized with conventional semiconductor circuits and its power consumption is low. It can be additionally applied to a previously used electric storage heating installation and can control an arbitrarily large group of stoves.

Claims (1)

Circuit charging time control circuit with heavy-current contactor, clock switch and electronic control, characterized in that the output of the thermometer system (1) is connected to the first input of the comparator (3), the second input of which is connected to the output of the time generator (2) while the output of the comparator (3) is connected to the control input of the switch (4) connected in the coil circuit of the heavy-current contactor (5), which is connected between the mains supply and the storage heater (6). on the mains and its output is connected both to the switch (4) and to the generator (2) via the trigger circuit (8).