DE3150838A1 - Room apparatus having a room temperature sensor for a regulator for regulating the temperature in a building - Google Patents

Abstract

An inlet temperature sensor is connected to a known central apparatus (11) of a regulator and, in addition, a room temperature sensor (5) of a room apparatus (8) or a weather sensor (10) is optionally additionally connected to the connecting terminals (12, 13) of said central apparatus. Splitting of the room apparatus (8) into three resistor circuits (14, 15, 18) and an additional connecting terminal (9) also enable the simultaneous connection of the room temperature sensor (5, 8) and of the weather sensor (10), whose influence can be set by moves by two potentiometers (21, 22), to the same connecting terminals (12, 13) of the central apparatus (11), by means of suitable parallel and series connection. <IMAGE>

Description

Room unit with a room temperature sensor for one

Controller for regulating the temperature in a building Room device with a room temperature sensor for a controller to regulate the temperature in one Building The invention relates to a room device with a room temperature sensor for a controller for regulating the flow of energy to a building or for regulation the temperature in this building, according to the preamble of claim 1.

The term energy flow includes both cooling and cooling To understand heating of buildings. The following explanations are limited For the sake of simplicity, they refer to the heating process; they apply mutatis mutandis also to a cooling mode.

In heating systems with water circulation, the temperature is set via the controller influenced by a lead. The controller can work directly on a burner or act on a heat pump as well as steadily on a mixing element, which the from More or less warm water is added to the return to the flow of the flowing water.

There have long been known controllers in which the flow temperature is controlled depending on the outside temperature, their mutual Assignment, i.e. the steepness of the heating curve, is adjustable. This can the behavior of the controller can be adapted to the building. Such regulators usually work without room sensor. However, since there are also cases in which a very different If external heat generation is to be taken into account, there are also regulators with an additional room sensor. It can be a room temperature controller with rigid connection of the flow temperature as an auxiliary variable or around a room temperature controller with rigid connection of the weather-compensated flow temperature as an auxiliary variable Act. In the first case, different boiler temperatures have no effect on the room temperature, but are already regulated in the flow temperature, while in the second, more comfortable case, that caused by changes in outside temperature highlighted faults can be absorbed by the flow temperature.

In the case of the known devices, the types of controller shown are used Different connection terminals on one for the room temperature and outside sensor Central unit and various room units are required. With the Sigmagyr-Junior control system RVP from LANDIS & GYR then succeeded in using the same central device to produce both one weather-compensated flow temperature controller as well as a room temperature controller to be implemented with rigid connection of the flow temperature as an auxiliary variable. to For this purpose, either an outside sensor is connected to the same terminals of the central device or a room temperature sensor can be connected, which is possible due to its optional Connection also under the same thermal conditions the same internal circuit resistance must have. When used as a room temperature controller, only one flow and a room temperature sensor is used; the outside sensor is no longer necessary.

Due to the increased insulation triggered by the rise in fuel prices of buildings as well as the increasing trend towards the installation of chimney fireplaces in single-family homes and the associated greater influence of the external heat share become pure weather-compensated flow temperature controller less suitable, and there is therefore an increased need for room temperature controllers in residential buildings.

The invention is based on the object of creating a room device this without changing the central device and thus optionally without changing the controller itself can be used alone or together with an outside sensor.

The invention is characterized in claim 1.

An exemplary embodiment of the invention is described below with reference to FIG telchhUPlg explained in more detail.

They show: FIG. 1 the electrical circuit of a known room device, 2 shows a room device according to the invention in direct connection to a central device, Fig. 3 shows the connection of a room unit together with a weather sensor and Fig. 4 and 5 each a simplified representation of the interconnection of a room and an outside sensor.

In all figures, the same reference symbols are used for the same parts used.

In FIG. 1, 1 denotes a housing of a known room device 2 with a first and a second connection terminal 3 and 4, between which a simplified resistor network is switched, which has a room temperature sensor 5 and with this in series a resistor 6 contains. The room temperature sensor 5 consists, for example, of a semiconductor NTC, which is used to linearize its characteristic curve and adaptation to a desired resistance value, a further resistor 7 in parallel is switched. The room unit 2 usually also contains one that is not shown here Time switch for preselecting the timing of a day and night program as well as an operating mode switch and, if necessary, a temperature setpoint setting option. The latter can be a potentiometer included in the resistor network.

In FIGS. 2 and 3, 8 denotes a room device according to the invention the housing 1 and the connection terminals 3 and 4.

The room unit 8 also has a third connection terminal 9.

A central device 11, which is the electronic part of the controller contains, is shown only with a dashed line and its connection terminals 12 and 13. In the case of the room unit 8, as with the known room unit 2, the one for connection to the Central device 11 requires network resistance from two resistance circuits 14 and 15 formed, which are connected in series between the two connection terminals 3 and 4, and of which the first resistance circuit 14 contains the room temperature sensor 5 and the second resistor circuit 15 is a fixed resistor 6 or 16. A third circuit of resistance 18, which consists of at least one fixed resistor 20, is between the third Terminal 9 and a connection point 19 between the first and second Resistance circuit 14 or 15 switched. This allows a circuit combination in the case of the connection terminals 12, 13 of the central device 11 the same circuit resistance appears regardless of whether the room unit 8 or an outside sensor 10 (Fig. 3) alone or both are included in the circuit. By connecting of the connection terminals 4 and 9 are the second and third resistance circuits 15 and 18 can be switched in parallel. This is for the use of the room unit 8 alone, its connection terminals 3 and 4 then directly to connection terminals 12 and 13, respectively of the central device 11 are connected (Fig. 2).

With the additional use of the outside sensor 10, the falls Connection between terminals 4 and 9 and thus the parallel connection of the Resistance circles 15 and 18 there.

The outside sensor 10 is also connected to the connection terminals 3 and 9 connected, as shown in FIG.

In the connection examples of FIGS. 2 and 3 contain the first and the third resistance circuit 14 and 18 each have a potentiometer 21 and 22, their purpose is explained below.

For connection to the connection terminals 12, 13 of the central device 11 there are the following three possibilities: a) Outside sensor 10 alone, b) room unit 8 alone and c) outside sensor 10 and room unit 8 together.

For all three possibilities one should be at a certain thermal State in case a) between the connection terminals 12 and 13 occurring circuit resistance R are retained. For 0 the case c), in which both the room temperature sensor 5 as well as the outside sensor 10 intervene in the control loop, the question arises, how strong the influence of the two sensors against each other should be and how large the individual resistance circuits 14, 15 and 18 are to be selected.

Below are two limit values for the mutual influence considered: The one where the influence of the outside sensor 10 is equally great is like that of the room temperature sensor 5, and the other on which the influence of the outside sensor 10 is infinitely small. Relate to these two states 4 and 5, with the first one containing the room temperature sensor 5 Resistance circuit 14 as a room sensor 9 and the R third resistance circuit 18 with the Outside sensor 10 connected in series is shown as outside sensor 0.

A If both sensors have the same influence, the room sensor will be AR and the outside sensor 9A parallel to each other and in series R with the fixed resistor 16 connected to terminals 12 and 13, as shown in Fig. -4. Is the Resistance value R of the fixed resistor 16 ° and both sensors 9 2 A and 9 the resistor R, then results at the connection terminals 12 and 13 again the desired circular resistance R. It is therefore useful to measure the resistance value of the fixed resistance 16 equal to half the circular resistance R.

o In the case of an infinitely small influence of the outside sensor 9, A whose circular resistance is infinite, which is shown in FIG. 5 by a interrupted Drawn lead to connection point 19 is indicated. At the connection terminals 12, 13 then acts the series connection of the room sensor 9 with the fixed resistor 16.

R R If its resistance is ° as mentioned above, then 2 In the borderline case considered, the resistance of the room sensor R AR must also be 2 ° be. Referring back to FIG. 3, R 2 can be derived therefrom that the resistance value of the first circular resistance 14 at least half of the circular resistance R o should be.

In the practical application of the room unit 8 together with the outside sensor 10 it is usually necessary that the influence of the outside sensor 10 is less is than the influence of the room temperature sensor 5. For this purpose, the Series connection of the third resistance circuit 18 with the outside sensor 10 of this Sensor circuit made higher resistance than in the state of the same influence of room temperature and outside sensors. The fixed resistor 20 and the potentiometer 22 are used for this purpose. But so that the circuit resistance R at the connection terminals 0, 12 and 13 is retained, At the same time, the first resistance circuit 14 must be selected with a lower resistance. this takes place by a different adaptation of the one shown in FIGS. 2 and 3 as a potentiometer Resistance 21.

For many applications it is sufficient if a medium, constant Value for the sensitivity of the outside sensor 10 is selected. The potentiometer 21 is then replaced by a fixed resistor, while the potentiometer 22 in the resistor 20 is included.

But this also means the sensitivity of the outside sensor 10 to the room temperature sensor 5 and thus also to the flow temperature sensor on the controller can be influenced, and thus the steepness of the heating curve of the actual steepness of the building heating curve can also be set on the room unit 8 it is expedient to couple the two potentiometers 21, 22 to one another so that their resistance values can only be adjusted with one another and in their effect opposite to one another.

Their common adjustment element then advantageously has a slope value graduated scale.

The room unit described expands without significant additional effort the scope of the controller by changing to its central device 11 depending on the desired Control mode and without expanding the number of connection terminals on the central device Devices can be switched on.

Claims (1)

PATENT CLAIMS?) Room unit (8) with a room temperature sensor (5) for a controller to regulate the flow of energy to a building or to regulate the temperature in this building, with a centrate device (11) and a flow temperature sensor connected to it and influenced by the energy flow and two connection terminals (12, 13) on the central device (11) to which two electrical Connections either an outside sensor (10) or the room unit (8) can be connected, as well as with a first and a second connection terminal (3, 4) on the room unit (8), between which two resistor circuits connected in series (14, 15) are available, of which the first is the room temperature sensor (5) and the second contains at least one fixed resistor (6), characterized in that the room unit (8) has a third connection terminal (9) for a third resistance circuit (18) between the third connection terminal (9) and a connection point (19) is connected between the first and the second resistance circuit (14, 15), which allows a circuit combination in which the connection terminals (12, 13) of the central device (11) regardless of whether the room device (8) or the outside sensor (10) alone or both together are included in the circuit, the same circuit resistance (R) appears 2. Room device according to claim 1, characterized in that the third Resistance circuit (18) consists of at least one fixed resistor (20) and that for the use of the room unit (8) only the second and third resistance circuit (15, 18) together by connecting the second and third connection terminal (4, 9) can be switched in parallel, while for the additional use of the outside sensor (10) the direct parallel connection no longer applies and the outside sensor (10) to the first and third connection terminal (3 or 9) can be connected. 3. Room device according to claim 2, characterized in that the resistance value of the fixed resistor (16) in the second resistor circuit (15) is equal to half the circular resistance (R) is. 4. Room device according to claim 2, characterized in that the resistance value of the first resistance circuit (14) at least half of the circuit resistance (R ) amounts to. 5. Room device according to claim 3 or 4, characterized in that one potentiometer (21 or 22) in each of the first and third resistance circuits (14, 18) is present whose resistance values only with each other and in their effect each other are adjustable in opposite directions.