DE3330941C2 - Circuit arrangement for detecting and displaying the proportional amounts of heat given off by the radiators of a given number of apartments in a house or block of flats - Google Patents

Abstract

To detect the heat output of space heaters and to display the proportional heat quantities given off in a number of apartments, in a circuit arrangement with temperature-dependent resistors as temperature sensors and an evaluation circuit in a control center with a display unit for the heat quantities given off by radiators in an apartment, the temperature-dependent resistances from a constant current source and a sequential connection of the constant current source is controlled by a microprocessor in the control center, the microprocessor sequentially up to 16 apartments with up to 16 radiators each with four measurement signals by a combined synchronization and control signal, with each radiator having a reference resistor and a coding unit with frequency divider, decoder and comparator is assigned, which sequentially connects the constant current source to the resistors via switches of a measuring switch, the decoder to the frequency divider a n is connected, which switches on the radiators sequentially via a radiator switch via the comparator according to its coding.

Description

The invention relates to a circuit arrangement for detecting and displaying from the radiators Proportional amounts of heat emitted from a given number of apartments in a house or apartment block with temperature-dependent resistors as temperature sensors connected to room sensor boxes, z. B. for the flow temperature, the return temperature and possibly arranged in the room sensor box temperature-dependent resistance for room or ambient temperature, an evaluation circuit in a central unit with a display unit for the amount of heat given off by radiators in an apartment, wherein the temperature-dependent resistors are fed from a constant current source and a sequential connection of the constant current source controlled by a microprocessor in the control center will.

From DE-OS 31 30 538 a; · Measuring arrangement of the type explained above is known, which for each one predetermined number of radiators in an apartment at least one radiator temperature sensor in Has the form of at least one temperature-dependent resistor, all temperature-dependent Resistance to education in one apartment each

as an output signal dependent on the radiator temperature are connected in series. At least two measuring circuits with the series connection of the temperature-dependent resistors are provided for each apartment. The measuring device also has switching means that sequentially connect a constant current source serving for the power supply to the respective associated measuring circuits of an apartment, these switching means being actuated by a central measuring and control device, with the aid of which the proportion of heat actually consumed in each apartment is calculated, and is displayed digitally on a subsequent central display device for each individual apartment as well as for the entire apartment block as a whole. A microprocessor, which also processes the reference signals of a reference circuit, is used to obtain the display signals.

It is also the measuring arrangement for the electronic detection of radiators during an apartment A freely selectable amount of heat given off from DE-OS 29 25 116 known. at this measuring arrangement are attached to the radiators, temperature sensors and connected in series at least one room temperature sensor is provided.

The series connection forms the radiator temperature sensors one branch of a Wheatstone bridge, while the in Room temperature sensors connected in series form the other branch of the bridge. With this well-known Circuit arrangements serve as radiator temperature sensors, temperature-dependent resistors, in particular NTC resistors with a practically linear temperature dependence.

In addition, in the known measuring arrangement mentioned, the supply voltage of the Wheatstone's Bridge only delivering discrete equidistant points in time and a pulse generator from Pulse generator triggered sampling and cold circuit provided that the bridge diagonal voltage during saves the time between two pulses while the output voltage continues of the sample and hold circuit in a pulse train with a frequency proportional to the output voltage converting voltage-frequency converter is provided. Eventually the resulting Integrated impulses via a meter showing the amount of heat consumed. By the way, can also a central display unit can be provided by means of which the individual apartments in a block of flats total amount of heat consumed is displayed.

For the fairest possible allocation of heating costs within a larger apartment unit, residential building, Block of flats or the like, on the individual apartments it is essential that the radiators The amount of heat given off in each apartment is precisely determined and reliably recorded will.

It is known to use radiator sensors that the Determine the amount of heat given off by a radiator on the basis of the mean radiator temperature. From this measured variable, taking into account the nominal output of the radiator, a measure for the proportional Heat consumption can be derived. It must be ensured that no homeowners Manipulations can be carried out unnoticed.

From EP-A-20 065 201 is a system for measuring the heat energy output of dew heating systems known, with input devices for the selective input of special heating constants, the Input devices are coupled to a computing device, the measured values eiues flow temperature sensor, a return temperature sensor and a room or ambient temperature sensor as Process variables are supplied. The computing device develops from the preset heating constants as well as the measured temperature values sampled during operation an output signal integrated over time, which represents a quantitative measure for the heat output of the heater.

With this system, the measurement, processing of the measured values and display is carried out separately on each radiator. In order to offset the heat energy consumed in each apartment, therefore, each must have a reader Enter the apartment and read the amount of heat given off individually on each radiator.

The invention is based on the following: in a circuit arrangement according to the preamble of claim 1 d · -;. * display can be read optionally and to notify accidental or deliberate faults in the system immediately.

This object is achieved according to the invention in a circuit arrangement according to the preamble of Claim 1 solved with the features of the characterizing part of claim 1.

It is particularly useful if the radiator coding by mechanical interruption at least a conductor on a circuit board in the room sensor socket is effected.

The connection of the individual resistors, reference resistance and temperature-dependent resistors for flow temperature, return temperature and room air temperature to the constant current source can be carried out one after the other. According to one embodiment of the invention, the flow temperature resistance and the room air temperature resistance on the one hand and the return temperature resistance and room air temperature resistance on the other hand can be connected in series, the measuring switch being connected in series via a contact . us flow temperature resistance and Raurriluftternperstur resistance and via another contact the series connection of return temperature resistance and room air temperature resistance to the constant current source looks.

It is particularly useful if the room air temperature resistance is assigned to a common operational amplifier.

In this embodiment it is possible to provide a further measuring resistor, for example for a humidity sensor or the like. This measuring resistor is in each case by the measuring switch connected to the constant current source. It is not necessary that every room sensor box has one of these Contains measuring resistor, rather it is useful if the additional measuring resistor only in the Room sensor sockets of living rooms or bedrooms is arranged.

According to a further modification, it is advantageous when provided on the radiators, a radiator temperature sensor for the mean ^{Heizkörperternperatur:} 3t, which is disposed at an elevated position in about _^2/3 of the height of the radiator.

An advantageous further development of the invention is that each room sensor box switch means has that when opening or removing the room sensor box apply to one of the resistors a voltage of such a magnitude that the microprocessor detects a change in the state of the room sensor box.

Another advantageous embodiment results from the fact that a voltage-to-current converter is provided for each measured value transmission from the up to 16 room sensor sockets in an apartment, and that a current-to-frequency converter is provided in a control center to digitize the ^r Measured values according to the mathematical evaluation of the measured values, e.g. according to DIN 4704:

Tv

Iv- ^ Uv

? _Λ - » Ur

h ^ u _L

■ IREF- ^ frc /

^y Iv * Iv * h ~ * / r -Il -> / l

The invention is explained in more detail with reference to the drawing. It shows

1 shows a diagram of a circuit arrangement according to the invention,

Fig. 2 schematically shows a circuit in a room sensor box a radiator with coding unit, and

3 shows a modified exemplary embodiment of a circuit in a room sensor box.

The basic structure of a circuit arrangement according to the invention can be seen from FIG. A microcomputer or microprocessor 5 is arranged in a control center 4, which controls the individual apartments Wi via synchronization and control signals in the manner explained later, with up to 16 apartments W \ ... ff 16 being connected via four-wire lines 11-14 each . A network connection 6, for example a known plug or the like, is provided to supply the control center 4. The control center 4 also has a standard interface 7 for inputting constants and for outputting the measured values via a transportable or mobile data carrier or a "ι λ U ilap Γ \" »| an - »rfr» ■ within r "t"? Q

In the control center 4, the consumption values of up to 16 apartments Wl-WIo are displayed, whereby each apartment Wl -W 16 can be equipped with up to 16 radiators HK 1- HK 16. The consumption values recorded and calculated by the microcomputer 5 are serially, digitally z. B. shown with 7-segment LED display. The displayed values can be picked up by means of the mobile data acquisition device 29 and sent to a central computer for evaluation. The respective meter reading is displayed by continuously and automatically switching the display from one apartment to the next, for example in a cycle of 3 to 6 seconds, depending on the number of apartments Wl ... W16. The built-in microcomputer 5 monitors the entire system for faults, which are displayed when they occur. The fault display can only be deleted by authorized personnel (e.g. service staff, caretaker) after the fault has been rectified.

In each apartment W 1 ... W 16, each radiator HK 1- HK 16 is assigned a room sensor box RFD 1 ... RFD 16, with each room sensor box containing the corresponding electronics (Fig. 2). A measuring switch 9 is assigned to each radiator HK \ -HK 16, which sequentially switches a reference resistor 20 or temperature-dependent resistors 21 door, the flow temperature 22 door, the return temperature, and 23 for the room air temperature to a constant current source 15 via contacts 16-19. The individual apartments W1 ... W16 are controlled or queried via a switch 8 (multiplexer) in the control center 4.

The individual room sensor boxes RFD 1 ... RFD 16 of an apartment Wi are connected in series in such a way that the radiator switch 10, after a radiator HKi has been measured, is switched to the next radiator / Mf / +! he follows.

In Fig. 2, the electronics of a room sensor box RFDi (ι = 1 ... 16) of a radiator HKi (/ = 1... 16) of an apartment W / (= 1 ... 16) is shown schematically. The room sensor socket is connected to the control center 4 via a power supply line 11, a control line 12a, a measuring current line 12b, a ground line 13 and a shield 14, as already explained.

An (electronic) measuring switch 9 is arranged in the room sensor socket RFDi, with contacts or switches 16.17,18,19, the switch 16 connecting a reference resistor 20 to a constant current source 15. Sequentially, a flow temperature resistor 21 is connected via a contact 17, a return temperature resistor 22 via a contact 18 and a room air temperature resistor 23 via a contact 19 to the constant current source 15. The resistors 21-23 are arranged in temperature sensors which are connected in a suitable manner to the flow line of the respective heater or its return line. The room air temperature resistor 23 is expediently arranged in the room sensor socket. PTC semiconductor sensors are expediently provided as flow, return and room temperature resistors 21. The flow and return temperature resistors 21 and 22 are expediently inseparably connected to the room sensor box RFDi. The electronics of every room sensor box RFDi are adjusted to maintain the required accuracy.

Those occurring at the temperature-dependent resistors 21, 22, 23 and at the reference resistor 20 Voltage drops are in a voltage current converter 28 converted into measuring currents and fed to the control center 4. By using a Reference resistor 20 and the conversion of the measured values into voltages or voltage differences there remain changes in the data (long drift) of the constant current source 15 and / or changes in the resistance values of the resistors 20 to 23 without any influence on the measurement results.

Each room sensor box RFDi is protected against unauthorized intervention by the fact that the cover has an additional contact so that the malfunction occurring in the microcomputer 5 is recognized in the event of manipulation.

A coding unit 24 is arranged in each room sensor socket RFDi. This coding unit 24 has a frequency divider 25, a decoder 26 and a comparator 27. A reset pulse generator 32 is also expediently provided. The frequency divider 25 consists of six FLIP-FLOPs 31. The decoder 26 controls the measuring switch 9 with the contacts 16, 17, 18, 19 and the radiator switch 10 to forward the control signals to the subsequent room sensor socket. When installing the room sensor sockets RFDi, the individual room sensor sockets are addressed, preferably by mechanically severing conductor tracks on a circuit board, for example on the comparator, or by breaking off parts of the circuit board in accordance with a specified code.

The evaluation of the temperature sensors and the nominal output of a radiator HKi takes place during commissioning in the control center 4 via the mobile data carrier or data acquisition device 29.

The synchronization signals or control signals supplied by the control center 4 or the microcomputer 5, via the switch 10 of the coding unit 24, switch the query signals from one room sensor socket RFDi to the next room sensor socket RFDi + 1. The coding of the individual room sensor sockets Ä / D / ensures that that the query of the individual room sensor boxes RFDi takes place sequentially. The query of the individual apartments Wi is carried out by a switch 8 in the control center 4, preferably a multiplexer.

Each room sensor box RFDi is mounted below the associated radiator HKi , or if it is not possible, directly below next to the radiator HKi. In this position, the room temperature is measured by the rising room air. The room sensor boxes RFDi are expediently mounted in such a way that their upper edge is aligned with the lower edge of the associated radiator

HKi flees .

In Fig. 3 is a modified embodiment of a circuit in a room sensor box RFDi (without / 2 ⁼

Coding unit 24) shown. In this modification of the invention, the room air temperature resistor 23 is assigned to an operational amplifier 35 and the flow temperature resistor 21 is switched to the constant current source 15 via the switch 17, while the return temperature resistor 22 is switched via the switch 18 to the constant current source 15, with a series connection in each case arises, consisting of the flow temperature resistance 21 and the room air temperature resistance 23 or the return temperature resistance 22 and the room air temperature resistance 23. which became free through the series connection to connect to the constant current source 15. This additional measuring resistor 34 can, for example, be a moisture sensor or be assigned to a moisture sensor. This makes it possible to determine the humidity wedge in the room belonging to the respective room jitter box RFDi and to use it to regulate the room climate.

According to a modified embodiment of the circuit arrangement, a radiator temperature sensor for the average radiator temperature is provided on the radiators HKi) Q, which is arranged in each case at an exposed point approximately V ₃ the height of the associated radiator HKi . The processing of the measurement signals when using a radiator temperature sensor is carried out by appropriate programming

When the control center 4 is put into operation, the microcomputer 5 for each of the up to 16 radiators HKi of the up to 16 apartments Wi, their standard output Q, _v , their radiator exponent η and their evaluation factors K _A , Kq, K _c , K _t via the standard interface 7 fed in from the mobile data carrier 29.

In the central office 4, a current-frequency Konverter30 is arranged for converting the detection currents into respective frequencies for processing in the microcomputer 5. across the resistors 20-23 and 34, respectively, where appropriate, its partially series circuit (FIG. 3) occurring voltage drops U are converted into corresponding currents / in the respective voltage-current converter 28, which are then passed from the room sensor socket RFDi to the control center 4 via the measuring current line 12 b . In the control center 4, the conversion into corresponding frequencies for digitizing the measured values then takes place in the current-frequency converter 30.

The real heat output is calculated according to

, 1-c

In 1

AT = T _m -T _L

t _r -t _l r ,. - r,

Λ Λ (_ 'Kj

- τ

¹ L-

The heat outputs of the individual radiators HKi are then summed up and displayed for each apartment Wi.

The invention is not limited to the illustrated and described exemplary embodiments, but rather Also includes all professional modifications and additional combinations of parts and combinations the features and measures described and / or shown.

Q = / 1/2 Λ " Qn
whereby

(D

60

\AT;

1.1 <n <1.6.

(2) 3 sheets of drawings

65

Claims (8)

Patent claims: 1. Circuit arrangement for detecting and displaying the proportional amounts of heat given off by the radiators of a given number of apartments in a house or block of flats with temperature-dependent resistors connected to room sensor boxes as temperature sensors, e.g. B. for the flow temperature, the return temperature and possibly arranged in the room sensor box temperature-dependent resistance for room or ambient temperature, an evaluation circuit in a control center with a display unit for the amount of heat emitted by radiators in an apartment, the temperature-dependent resistors being fed from a constant current source and a sequential connection of the KonstanUiromquelle is controlled by a microprocessor in the control center, characterized in that the microprocessor sequentially selects the apartments with the radiators with four measurement signals of a combined synchronization and control signal, each radiator (HKi) having a reference resistor (20) and a coding unit (24) consisting of a frequency divider (25), a decoder (26) and a comparator (27) is assigned which sequentially applies the constant current source ( 15) via switches (16-19) of a measuring device (9) temperature-dependent resistances (21- 23) and the reference resistor (20) aufschaltei that G ^ r decoder (26) is connected to the multi-stage frequency divider (25) fed by the microprocessor (5), which also uses the comparator (27) according to its manual coding, the sequential Connection of the radiators (HKi-NK 16) via a radiator switch (10) carried out. 2. Circuit arrangement according to claim 1, characterized in that the radiator coding is effected by mechanical interruption of at least one conductor track (33.1-33.4) on a circuit board in the room sensor socket (RFDi) . 3. Circuit arrangement according to claim 1 and 2, characterized in that the measuring switch (9) Via a contact (17) a series circuit comprising the flow temperature resistor (21) and the room air temperature resistor (23) and a series circuit of return temperature resistance via a further contact (18) (22) and room air temperature resistor (23) switches to the constant current source (15). 4. Circuit arrangement according to claim 3, characterized in that the room air temperature resistance (23) is assigned to a common operational amplifier (35). 5. Circuit arrangement according to one of claims 1 to 4, characterized in that an additional measuring resistor (34) is arranged in one (or more) room sensor box (s) (RFDi) , and that the measuring switch (9) has a contact (36) the measuring resistor (34) switches to the constant current source (15). 6. Circuit arrangement according to claim 1 or the following, characterized in that a radiator temperature sensor for the mean radiator temperature is provided on the radiators (HKi) is disposed at an elevated position in about _^2/3 of the height of the radiator (HKI). 7. Circuit arrangement according to claim 1 or the following, characterized in that each room sensor box (RFDi) has sound means which apply a voltage to one of the resistors (20-23) when the room sensor box (RFDi) is opened or removed, of such a size that the microprocessor (5) recognizes a change in the state of the room sensor socket (AJ = D;). 8. Sound arrangement according to claim 1 to 7, characterized in that a voltage-current converter (28) is provided for the transmission of measured values from the up to 16 room sensor sockets (RFDi) of an apartment (Wi), and that in the center (4) a current-frequency converter (30) is provided for digitizing the measured values.