CH665705A5 - DEVICE FOR INFLUENCING A CONTROL UNIT OF A HEATING SYSTEM FROM A ROOM UNIT. - Google Patents

Description

DESCRIPTION

The invention relates to a device for influencing a control device of a heating system from a room device according to the preamble of claim 1.

In heating construction, especially for single-family houses, there is a tendency to deliver the boiler as a ready-to-connect unit, i.e. with a burner, actuator, circulation pump and control and control unit already installed in the factory, hereinafter referred to simply as control unit for the sake of simplicity. As a result, the selector switch on the control unit for the current type of heating and the clock that switches to day and night programs is also installed at the installation site of the boiler, usually in the basement. To extend comfort, it is known (control unit RVP 21.5 from Landis and Gyr) to use an additional room unit arranged in a living room together with the control unit, which can be switched to day or night program at any time regardless of the heating program set on the timer. The room unit also contains a sensor that is involved in the control process to record the room temperature and the option of preselecting the target room temperature by a certain amount higher or lower. In order to do this, five connecting wires are required to connect the known room device.

The invention is based on the object of creating a device of the type mentioned which manages with a smaller number of lines.

The invention is characterized in claim 1.

An exemplary embodiment of the invention is explained in more detail below with reference to the drawing. Show it:

1 an inventive device in a simplified representation,

Fig. 2 shows the internal circuitry of a room unit and

Fig. 3 is a diagram showing the possible internal resistance of the room unit with three different switch positions.

In FIG. 1, 1 means a room unit which is preferably arranged in a living room and is connected to a control unit 4 via two electrical lines 2 and 3. The latter can be built directly into the casing of a boiler and has an electronic temperature controller 5 with a computer R, a selector switch (not shown) for heating operation (day, night, clock, off) and a time switch (also not shown), on which the selector switch position The desired switchover times can be set. An output 6 of the temperature controller 5 acts on an actuator 7 of the heating system, not shown. It could also directly affect a burner. A flow temperature sensor 8 and an outside temperature sensor 9 are also each connected to the temperature controller 5, so that a flow temperature control controlled by the outside temperature is made possible. For this purpose, an evaluation device that includes the computer R continuously takes into account the setpoint for the flow temperature corresponding to the current state of the system, taking into account the data coming from the room unit 1.

An analog / digital converter 10 to which the two lines 2 and 3 are connected and which, together with the computer R, forms the aforementioned evaluation device which records the commands and measured values of the room device 1 on the basis of the between the two lines 2 and 3 appearing electrical resistance value detected. The means for this purpose arranged in the room device 1 and giving measured values and commands to the control device 4 are all electrically connected in series with one another and connected to the two lines 2 and 3, as will be explained below with reference to FIG. The room unit 1 contains a room temperature sensor 11, a potentiometer 12, which allows the setpoint of the room temperature to be changed by simulating a different actual temperature by a limited value, and two fixed resistors 13 and 14. Furthermore, there is a switch 15 with three possible switch positions A, B and C available, with the help of which the fixed resistors 13 and 14 can be short-circuited individually, together or not at all. The room temperature sensor 11, the potentiometer 12 and the fixed resistors 13 and 14 are all connected in series to one another and connected to the two lines 2 and 3. The switch 15 is wired in such a way that it bridges the fixed resistor 14 in its first position C, short-circuits both fixed resistors 13 and 14 in its second position B and the series switch 5 described in its third position A.

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device between lines 2 and 3 is not affected.

The resistance values of the fixed resistors 13 and 14 are selected such that each of these resistance values is greater than the sum of the greatest possible resistance of the potentiometer 12 and the greatest possible change in resistance, which the room temperature sensor 11 experiences in its intended temperature range.

Due to the arrangement described, three typical resistance values W can be distinguished between the two lines 2 and 3. In the ordinate of the diagram according to FIG. 3, the resistance value W occurring between the two lines 2 and 3 is plotted in ohms, while the abscissa is the on the room temperature sensor 11 indicates the existing temperature 3r in ° C. The possible maximum values of the typical resistance values W are shown in FIG. 3 with three arrows a, b and c. They can occur in the positions of the switch 15 designated by the corresponding characters A, B and C in FIG. 2 when the maximum permissible temperature of 40 ° C. in the exemplary embodiment prevails at the room temperature sensor 11 and at the same time the potentiometer 12 is on its highest possible resistance value is set. At the most common room temperatures around 20 ° C, the resistance values W are correspondingly smaller, as is the case e.g. for the value b 'is shown in FIG. 3. It is formed there from the resistance value assumed by the nickel sensor used (IOOOq, / 0 ° C) at 20 ° C. (The low resistance of the potentiometer 12 is neglected in this consideration.) In positions C and A the resistance value of the resistors 13 or 13 and 14 to add.

Thanks to the selected gradation of the resistors 13, 14, the computer R is able to determine in a query program whether the instantaneous resistance value W is less than the value b, between the values b and c or between the values c and a. In this way, the computer R can recognize the current position A, B or C of the switch 15 on the basis of the current resistance value W between the two lines 2 and 3, at the same time s by reducing the resistance value (W) by the value of the upstream resistors 13 or 13 + 14 record the current room temperature Or and, together with the outside temperature 9a, calculate the corresponding target flow temperature & v for the control device 4.

If the preselection switch of the control unit 4 is in one of its positions "continuously day" or "continuously night", then the heating program cannot be influenced with the positions A, B or C of switch 15. Only the room temperature is then recorded for the control process 15.

In contrast, the position C or A of the switch 15 enables an intervention in the clock program when the preselection switch of the control device 4 is in the position "clock". If the switch 15 is then brought into its C position, then there is constant heating, but if it is in the A position, then the heating is permanently switched off or in reduced operation, both regardless of the clock program set, which is only in the B position of the switch 15 comes into effect. With the potentiometer 12, which according to FIG. 1 is a slide potentiometer, it is also possible at any time to correct the room temperature Sr preselected on the control device 4 by, for example, ± 2 ° C.

30 The room unit 1, which can be connected with only two mutually interchangeable lines 2 and 3, offers, despite the arrangement of the control unit 4 in the boiler, the possibility of intervening from the living room in the main control functions of the device, and this is done with little effort.

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Claims (4)

665 705 (1) arranged, measuring values and commands to the control device (4) emitting means (11, 12, 13, 14) connected in series to one another are connected to the two lines (2, 3) and the control device (4) is an evaluation device (10, R), which detects the commands and measured values of the room unit (1) on the basis of the electrical resistance value (W) appearing between the two lines (2, 3). 1. device for influencing a control unit of a heating system from a room unit, in which the control unit and the room unit are connected to one another by electrical lines and the room unit contains both means for room temperature detection and their forwarding as well as for issuing commands to the control unit, characterized in that the room unit (1) and the control unit (4) are connected to one another by only two interchangeable lines (2, 3), that all in the room unit 2. Device according to claim 1, characterized in that the means connected in series in the room unit (1) comprises a room temperature sensor (11), a potentiometer (12) which can be changed by a limited value to the setpoint of the room temperature and at least one fixed resistor ( 13, 14) and that there is also a switch (15) with several switch positions, by means of which the spring or the fixed resistors (13, 14) can be short-circuited in stages. 2nd PATENT CLAIMS 3. Device according to claim 2, characterized in that the resistance value of each of the fixed resistors (13, 14) is greater than the sum of the greatest possible resistance of the variable potentiometer (12) and the greatest possible change in resistance, which the room temperature sensor (11 ) in its intended temperature range. 4. Device according to claim 1, characterized in that the evaluation device (10, R) in the control device (4) consists of an analog / digital converter (10) and a computer (R) which, due to the current resistance value (W) between the Both lines (2, 3) recognize the current position (A, B, C) of the switch (15), and simultaneously detect the current room temperature by reducing the resistance value (W) by the value of the upstream resistors (13 or 13 + 14) and the corresponding target flow temperature for the control device (4) is calculated.