NO138011B - ZONE CONTROL DEVICE FOR ELECTRIC ROOM HEATING - Google Patents

Abstract

Zone control device for electric space heating.

Description

The present invention relates to a device for zone control in electric space heating, where a centrally placed switch device controls the release of heat from temperature change resistors placed near the sensor element in each temperature regulator in a zone, so that these periodically register a temperature that is higher than the room temperature.

With such zone control, a change in the room temperature is desired depending on the users' needs at any time. A particularly current form of zone control in homes is to keep the temperature low during periods when a room is not in use and then raise the temperature to the desired level during the period of use. In this way, energy is saved for heating during periods when a room is not in use.

To achieve this, it was previously known to place a small heat source, a temperature change resistor, near the bimetal in the thermostat which regulates the room's temperature. When this heat source is connected, the bimetal will feel a temperature that is higher than the room temperature, and the room temperature will thus decrease depending on the influence of the small heat source. Current to this heat source, which is generally an ohmic resistance, is fed forward by means of one or more conductors via a switch. This switch can be operated manually or e.g. be timed.

It is desirable that one switch should be able to operate several rooms and different heating rates, and that the same zone control system should be able to be used for different types of systems (220V, 38V, single-

phase and three-phase with and without neutral).

In order to provide control voltage in previously known systems, an expensive and complicated arrangement of switches, relays and wires is necessary to prevent unwanted currents. For example, a three-pole will be required for a three-phase system

switch or .relay as well as three chairmen for each heating course i

the facility. This ■ is necessary in order to prevent unwanted currents caused by star connections, and to satisfy the installation regulations which generally prohibit the introduction of voltage from several courses into the same device.

The purpose of the invention is to reduce the number of directors. Thereby, the switch's contacts can be reduced, and installa-

- the operation becomes easier and cheaper.

The purpose is achieved according to the invention by connecting a diode in series with the small heat source which is to affect the thermostat's bimetal. It does not matter in which direction the diodes block, as long as it is mounted in the same way in all the regulators in the system. Thereby, a single board connected via a single-pole switch to any phase can operate a course without unwanted currents flowing when the switch is open. A particular advantage of the invention is that the chairman can also be connected to the grid's neutral conductor when the plant has one, and thereby the same chairman can be led to all heating courses. Furthermore, the invention is particularly useful in connection with electric heaters with a built-in thermostat, but can also be used in connection with separate room thermostats and other heating systems.

The invention is not limited to applying only to bimetallic thermostats, as it can be used for all types of regulation equipment with a temperature sensor.

According to the invention, only one chairman of the board is necessary for all regulators on each course, also for three-phase systems. In systems with neutral conductors, one chairman can be led to all regulators, even if they are connected to different fuse courses. The figures show embodiments of the invention in connection with electric ovens with a built-in bimetal thermostat. Fig. 1 shows the device used in a three-phase system with a neutral conductor, R, S and T are the system's three phases, and 0 is the neutral conductor. Two three-phase heating courses are shown with separate fuses 1 on each phase. The heating elements 2 are connected in series with the thermostats 3 between two and two phases with the connection lines A and B. The temperature change resistors 4 in series with the diode 5 are connected between the connection line B and the board leader C, with possible current flow from B to C. Furthermore, the board leader is via the switch 6, connected to the neutral conductor of the network. The way it works is as follows: As long as con-

the timing in the switch 6 is broken, the diodes prevent unwanted current through the temperature change resistors - which would otherwise occur due to the star connection formed between the phases. When the contact is closed, -opens up the possibility of current flow in the opposite direction-

the stands from the phases to zero. Thereby the temperature rises

the thermostat's bimetal which is in thermal contact with the resistor,

so that the thermostat disconnects the heating element until the temperature

the trip in the room is lowered corresponding to the temperature change resistance-

one's influence or the switch contact breaks again, whereby the influence ceases.

Fig. 2 shows the device used in a three-phase system

where the heating elements are also connected between the individual phases and neutral conductors in separate single-phase courses.

Fig. 3 shows the device used in a wood plant

without neutral conductor. Here, the chairman, via the switch in the individual 4curs, is connected to one of the phases. What must be observed with this connection is that it is only the heating elements' connection cable A

which can be connected to the same phase as.the chairman. Otherwise, the effect would not be as intended.

As the figures show, the installation is considerably

simplified by the use of the invention.

Claims (2)

1. Device for zone control with electric space heating ning, where a centrally placed switch device controls the release of heat from temperature change resistors placed near the sensor element in each temperature regulator in a zone so that these periodically register a temperature that is higher than the room temperature, characterized in that a diode is connected in series with each of the aforementioned temperature change resistors, which series circuits, via the common switch device, are connected to at least two different voltage sources, in particular to different phases in a three-phase network. 2. Device as specified in claim 1, characterized in that.a conductor to the temperature change resistance and the diode, via a switch device, is connected to the network's neutral conductor, so that this conductor can also be brought forward to . ■ temperature regulators kop_let~ on different fuse cures see i. the zone.