CS217503B1 - Wiring for regulation of electric storage heating - Google Patents

Abstract

The invention relates to the field of electric storage hot water heating of buildings using the principle of heat storage. The invention solves a circuit for regulating electric storage heating depending on the outdoor temperature with program control of the room temperature. The essence of the invention is that a sensor for indicating the outdoor temperature containing a contact thermometer with at least two contacts is connected via a series connection of a charging temperature sensor with at least two temperature sensors, a charging delay switch and a switching device for the electric heat accumulator. A switch for programming the room temperature is connected to the switching device, which is connected to a room thermostat. The drive of the charging delay switch and the drive of the switch for programming the room temperature are connected to a common timer. The charging temperature sensor is connected to the electric heat accumulator by feedback. The circuit according to the invention can be used for regulation in other areas of heating as well.

Description

The invention solves a circuit for regulation of electric storage heating in dependence on outdoor temperature with programmed heating control.

The hitherto known connection of small systems for electric storage heating of single-family houses uses only a charging temperature sensor to control the charging of electric heat accumulators, without an outdoor temperature sensor. In the control circuit there is also connected the night tariff timer switch, which switches the charging at a constant set time. An additional timer connected to the room thermostat is used to program the room temperature.

The disadvantage of this connection is that the electric heat accumulator is charged constantly to its maximum temperature regardless of the heat demand for heating, which increases the heat loss and reduces the efficiency of the whole device. Another disadvantage is that there are two timers in the wiring, the timer connected to the room thermostat is dependent on the continuous power supply and the frequency of the mains. This means that it is inaccurate and must be adjusted very often. A further disadvantage of these connections is that the night tariff switch switches continuously at the beginning of the night tariff without the possibility of a time shift, which is disadvantageous from an energy point of view. Wiring large electrical storage heaters use complex electronic time κ switches to regulate the charging temperature and charge time shift, while another timer is connected to the room thermostat to program the room temperature. The disadvantages of these connections are their demanding and complicated production, demanding service and high price. The disadvantages of the timer connected to the room thermostat are identical to the first circuit described.

The above-mentioned drawbacks are eliminated by the circuit according to the invention, which consists in that the outdoor temperature sensor, which contains a contact thermometer, is connected via a series connection of the charging temperature sensor, the charging delay switch and the switching device to the electric heat accumulator. A room temperature programming switch and a room thermostat are also connected to the switching device, wherein the charge delay switch and the room temperature programming switch are connected to a common clock.

An advantage of the circuitry according to the invention is that it allows a simple way to charge the electric heat accumulator in dependence on the outside temperature. This means that as the outdoor temperature increases, the charging temperature is lowered, thereby reducing the heat loss of the device and improving the hygienic conditions of the heating. A further advantage of the wiring according to the invention is that it uses a common timer to connect both the charge delay switch and the room temperature programming switch, thereby substantially simplifying and cheaper the entire device and refining the room temperature programming since the common timer is not frequency dependent the mains and when I turn off the power my considerable time lag. Furthermore, the connection makes it possible to realize several stages of lowering the charging temperature and the charging delays of the electric accumulator very cheaply and also allows simple connection of the collective remote control.

The attached drawing shows an example of a block circuit according to the invention. J

The connection for the regulation of the electric storage heater consists of an electric accumulator J. fitted with a charging temperature sensor J, a charging delay switch 2, a switching device 6 to which an unmounted mass remote control receiver can be connected and a room thermostat J 2 »room temperature programming switch 1 and common timer 8.

The circuit according to the invention controls the charging of both the electric accumulator and the heat depending on the outdoor temperature sensed by the outdoor temperature sensor 2 in as many degrees as the contacts of the contact thermometer 2 of the outdoor temperature sensor 2. Each stage corresponds to the respective charging delay time and the operating temperature of both the electric accumulator and the heat. After switching on the night tariff timer or the ripple control signal, the contact thermometer 2 of the outdoor temperature sensor 2 is connected to the switching device 6 and registers the outdoor temperature.

Depending on the outdoor temperature, the respective sensor of the charging temperature sensor 1 is connected, sensing the temperature of the electric heat accumulator 1, and at the same time the charging delay time is set by the charging delay switch 6. The time delay of the charging start corresponds to the outdoor temperature, that is to say the heat demand and the heating temperature. The charging time of the electric heat accumulator 1 depends on the outdoor temperature sensed by the outdoor temperature sensor 2 and the temperature of the electric heat accumulator 1 sensed by the charging temperature sensor 2, the number of charging temperature sensor 6 being equal to the contact thermometer contacts 2 of the outdoor temperature sensor 2.

In case of increasing the outdoor temperature during charging, the outdoor temperature sensor 2 reduces the charging of the electric heat accumulator. Charging time delay performs the charging delay switch 2 after the night tariff timer is switched on. In the case where a ripple control receiver (not shown) is connected, the charge delay timer 2 is automatically deactivated and the time delay is eliminated. The room temperature control can be programmed with the room temperature programming switch 2, which is controlled by the common timer 8 with the charging delay switch 2.

Claims (3)

Wiring for controlling an electric storage heating with an electric heat accumulator, a charging temperature sensor, a room temperature programmer and a switching device, characterized in that the outdoor temperature sensor (2) comprising a contact thermometer (9) is connected via a serial connection of the charging sensor (3) temperature switch, charging delay switch (6) and switching device (6) to the electric heat accumulator (1) and wherein a switch (7) for programming the room temperature connected to the room thermostat (4) is connected to the switching device (6); the charging delay switches (5) and the drive of the room temperature programming switch (7) are connected to a common comb (8) and the charging temperature sensor (3) is coupled to an electrical heat accumulator (1). Connection according to Claim 1, characterized in that the charging temperature sensor (3) is composed of at least two temperature sensors and the contact thermometer (9) of the outside temperature sensor (2) has at least two contacts. Connection according to Claims 1 and 2, characterized in that the number of contacts of the contact thermometer (9) of the outside temperature sensor (2) is equal to the number of sensors of the charging temperature sensor (3). 1 sheet of drawings