DE4331062A1 - Method and apparatus for monitoring and/or controlling ventilation or air-conditioning of interior spaces, in particular for their dehumidification - Google Patents

Abstract

The invention relates to a method and an apparatus for monitoring and/or controlling ventilation or air-conditioning of interior spaces, in particular for their dehumidification, in which the actual value of an air-conditioning parameter of the air in the interior space is determined and compared with a reference value. In dependence on the comparison result, a monitoring signal is formed which can be used to control the ventilation. In this case, for the formation of the reference value, the actual value of the corresponding air-conditioning parameter of the ventilation air to be supplied to the interior space for ventilation or air-conditioning is determined.

Description

The invention relates to a method for monitoring and / or controlling ventilation or air conditioning of Interiors, especially for their dehumidification, after Preamble of claim 1 and a device for Performing this procedure.

For ventilation, especially air conditioning from In certain climatic parameters, e.g. B. the Air temperature in the room to be air-conditioned and given if the relative humidity prevailing there measured and compared with a predetermined target value, the air conditioning depending on this ver is regulated immediately.

For most applications, this is the type of regulation well suited for air conditioning. For critical buildings e.g. B. old, listed buildings and for rooms, in  which are listed works of art however, such ventilation or air conditioning is not suitable without further ado. Especially when it comes to Dehumidifying such buildings or rooms is one damage-free dehumidification with known climate control often not possible to drive. Also dehumidification through Heating can often damage the parts to be protected Goods, e.g. B. paintings, furniture, murals and the like to lead.

The object of the present invention is therefore a Methods for monitoring and / or controlling ventilation or to provide indoor air conditioning that especially one for or inside the building Works of art enables damage-free dehumidification.

This object is achieved in a method of type mentioned above by the characteristic features of claim 1 solved. In an advantageous manner this method with an apparatus according to claim 8 carry out.

The basic idea of the present invention is therefore in that to monitor and / or control ventilation or air conditioning of the climate parameters to be influenced in the relevant room with the corresponding climate parameters the ventilation air to be supplied is compared so that this can be supplied as long as the Climate parameters in the room influenced in the desired direction can be.

In a particularly preferred embodiment of the invention it is provided that the actual values of the absolute Humidity of the indoor air and ventilation air determined and compared with each other. This Vorge hens notably allows a particularly simple and  gentle influence of the located in the corresponding room moisture.

The absolute humidity is advantageous determined according to claim 3.

The process can be done economically perform according to claim 4.

An expedient development of the invention is claimed 5 specified. The alarm signal that is independent of the Control of air conditioning or ventilation through the Monitoring signal derived from this has the Advantage that appropriate auxiliary or precautionary measures Measures can be taken if for another Ventilation or air conditioning required conditions are no longer given.

It is useful if the ventilation or air conditioning tion according to the developments of the invention Claim 6 and 7 is affected, both manually and can also be done automatically.

Appropriate embodiments of the device according to the invention device according to claim 8 are in claims 9 to 18 described.

It is particularly advantageous here that the processing of the individual measurement signals for the two together comparative climate parameters takes place gradually, because the determined values, if desired or at special ventilation or air conditioning tasks individually, is displayed for logging records and, if necessary, processed further externally can. The interval monitoring and control lets itself in a particularly simple manner by means of a  implement preset timer. To anytime during an automatic interval monitoring The Inter vall monitoring controlling test release circuit one Actuation switch on, with which a corresponding Test and evaluation cycle can start.

The invention is described below, for example, with the aid of Drawing explained in more detail; in this shows:

Fig. 1 is a schematic diagram of a Vorrich device for performing the method and

FIG. 2 shows a simplified block diagram of an evaluation circuit of the device according to FIG. 1.

In the different figures of the drawing are each other corresponding components with the same reference numerals.

The device shown in Fig. 1 for monitoring and / or controlling ventilation or air conditioning of interior rooms has an evaluation circuit 10 , preferably implemented in a microprocessor, which comprises an analog / digital converter unit 11 and a central processing unit CPU 12 . At the evaluation circuit 10 is a transducer arrangement 13 with two sensors 14 , 15 , the Meßsignalver 16 , 17 are connected downstream, and a corresponding reference transmitter arrangement 18 with two sensors 19 , 20 and two downstream amplifiers 21 , 22 is connected.

The first sensors of the measured value and the reference value arrangement 13 and 18 are temperature sensors 14 , 19 which are used to detect the air temperature in an interior or the ventilation source, e.g. B. serve the outside environment. The output signals of the temperature sensors 14 , 19 are applied to the A / D converter unit 11 via the amplifiers 16 , 21 as inside and outside temperature signals t _i and t _a . The second sensors are humidity sensors 15 , 20 for detecting the relative humidity in the interior or in the ventilation source, the output signals of which are also applied to the A / D converter unit 11 via the amplifiers 17 , 22 as relative humidity signals f _i or f _a .

To operate the device, an operating switch unit 23 is connected to the evaluation circuit 10 , which a plurality of switches 23 ', z. B. switches, includes to turn the device on and off and to request the execution of various functions of the device.

A working memory (RAM) 24 is connected to the evaluation circuit 10 and can exchange data with a program memory (EPROM) 25 and a correction value memory (EEPROM) 26 . To display various output data, a display unit 27 is provided, which can be designed, for example, as a liquid crystal display.

A corresponding interface 28 is provided in order to transmit a monitoring signal generated by the evaluation circuit 10 and the measured value signals t _i , f _i , t _a , f _a and, if appropriate, intermediate values determined to external computers for further processing.

To output the monitoring signal as a control signal to other control devices that regulate the ventilation and / or climatisation of the corresponding interior, a Meldekon clock 29 is connected to the evaluation circuit 10 , which can be designed, for example, as a relay. In addition, an acoustic signal generator 30 is provided in order to generate an alarm signal corresponding to the monitoring signal. Instead of or in addition to the acoustic signal generator 30 , an optical signal generator can also be provided.

As shown schematically in FIG. 2, the A / D converter unit 11 comprises four A / D converters for the measured value signals t _i , f _i , t _a , f _a supplied by the measured value and reference value transmitter arrangement 13 and 18, respectively 11 ′. The digitized measured values t _i , f _i are applied to a first computing circuit 35 , which calculates the absolute air humidity F _i in the interior from these values. In a corresponding manner, the output signals t _a , f _{a of} the third and fourth A / D converter 11 'are applied to a computing circuit 36 which measures the absolute air humidity F _{a of} the ventilation air, that is to say, for. B. the air in the outdoor environment. The output signals of the first two computing circuits 35 , 36 are applied to a comparison circuit 37 in which the value F _{a of} the absolute air humidity of the ventilation air is compared with the value F _{i of} the absolute air humidity in the interior.

For this purpose, the comparison circuit 37 has, for example, a comparator device which then outputs a monitoring signal which is used to trigger an alarm signal when the absolute air humidity F _{a of} the ventilation air is greater than the absolute air humidity F _{i of} the air in the interior. It is also possible for the comparison circuit 37 to comprise a dividing device which calculates the ratio of the absolute atmospheric humidity of the ventilation air to the absolute atmospheric humidity in the interior F _a / F _i , in order then to determine in a comparator device whether this ratio exceeds a permissible value. The permissible value can easily be specified according to the requirements of the respective test task.

To the measured values for temperature and relative humidity t _i , f _i . t _a , f _a and the values for the absolute humidity F _i , F _a to be able to display, the corresponding outputs of the A / D converter 11 'and the first computing circuits 36 , 35 are connected to a selection circuit 38 , which of the Operating switch unit 23 can be acted upon in order to selectively display the values of the relative and / or absolute humidity on the display unit 27 in accordance with a respectively activated actuation switch 23 '. This can also be supplied to the monitoring signal via the selection circuit 38 in order to represent the presence of this signal as an optical alarm signal.

The individual climate parameter signals t _i , f _i , F _i , t _a , f _a , F _a can also be applied directly or via the selection circuit 28 to the interface 28 in order to be supplied to external computers.

The method according to the invention is carried out with the device described in the following manner:
After switching on the device, a test release signal is generated via a corresponding actuation switch 23 ', which starts a test or measurement and evaluation cycle. With the sensors 14 , 15 and 19 , 18 of the measuring and reference value arrangement 13 and 18 , the air temperature and the relative humidity inside a room to be ventilated or air-conditioned as well as the air temperature and the relative humidity of the outside air are measured, which as Ventilation air must be supplied to the interior to be ventilated. After amplification and digitization, the corresponding measured values are offset against one another in the first computing circuits 35 , 36 in order to determine the absolute atmospheric humidity F _i , F _a inside and outside. By pressing the corresponding switch 23 'these values can be displayed if necessary.

If the absolute humidity of the outside air is greater than that in the interior, a monitoring signal is generated to generate an alarm signal, so that the ventilation of the interior can be interrupted. For this purpose, a control unit for ventilation and / or air conditioning can be influenced via the signaling contact 29 .

In order to be able to economically monitor the ventilation of an interior even over a longer period of time, a test release circuit 31 having a timing element is provided, the timing element of which is activated after completion of a measurement and evaluation cycle in order to implement a sleep mode. After the waiting time set on the timer has expired, the test release circuit 31 sends a corresponding test release signal to the evaluation circuit 10, whereupon a further measurement and evaluation cycle takes place. The test release circuit 31 can also be integrated in the microprocessor comprising the evaluation circuit 10 .

Claims (18)

1. Method for monitoring and / or controlling ventilation or air conditioning of interior spaces, in particular for dehumidifying them, in which the actual value of a climate parameter of the air in the interior is determined and compared with a reference value and in which a monitoring signal is formed as a function of the comparison result is, which can be used to control the ventilation, characterized in that the actual value of the corresponding climate parameter of the ventilation air to be supplied to the interior for ventilation or air conditioning is determined to form the reference value. 2. The method according to claim 1, characterized in that the actual values of the absolute humidity of the Indoor air and ventilation air determined and be compared with each other. 3. The method according to claim 2, characterized in that to determine the absolute humidity Air temperature and relative humidity measured and from these values the absolute humidity activity is calculated.   4. The method according to claim 1, 2 or 3, characterized records that the actual values to be compared Climate parameters determined at predefinable time intervals and evaluated to form the monitoring signal become. 5. The method according to any one of the preceding claims, characterized in that depending on the Monitoring signal an acoustic and / or optical Alarm signal is generated. 6. The method according to any one of the preceding claims, characterized in that the air supply to ventilating interior depending on the over guard signal is interrupted. 7. The method according to claim 6, characterized in that the interruption of the air supply to the ventilated Interior is carried out when the ratio of absolute humidity of the ventilation air absolute indoor air humidity greater than is a predetermined value, preferably greater than 1. 8. Device for monitoring and / or controlling ventilation or air conditioning of interiors, in particular for carrying out the method according to one of the preceding claims, with a measurement transmitter arrangement connected to an evaluation circuit, which has at least one sensor for a climate parameter of the air, and with a reference value sensor arrangement connected to the evaluation circuit, the evaluation circuit providing a monitoring signal, characterized in that the reference value sensor arrangement ( 18 ) comprises at least one sensor ( 19 , 20 ) which detects the corresponding climatic parameter of the air like the sensor ( 14 , 15 ) the transmitter arrangement ( 13 ). 9. The device according to claim 8, characterized in that the transmitter arrangement ( 13 ) and the reference transmitter arrangement ( 18 ) each have a first and a second sensor ( 13 , 14 , 19 , 20 ), the measured value signals applied to the evaluation circuit ( 10 ) are. 10. The device according to claim 8 or 9, characterized in that the evaluation circuit ( 10 ) has two first computing circuits ( 35 , 36 ) for the measured value signals of the transmitter or the reference transmitter arrangement ( 13 or 18 ), the output signals of which determined climate parameters. 11. The device according to one of claims 8 to 10, characterized characterized that the climate parameters corresponding Signals are applied to a comparison circuit, whose output signal forms the monitoring signal. 12. Device according to one of claims 8 to 11, characterized in that the comparison circuit ( 37 ) comprises a comparator device to which the output signals of the first two computing circuits ( 35 , 36 ) are applied. 13. The apparatus according to claim 8 to 11, characterized in that the comparison circuit ( 37 ) comprises a dividing device, the output signal of which is fed to a first input of a comparator device, at the second input of which a prescribable comparison value is present. 14. The apparatus of claim 8 to 13, characterized in that the evaluation circuit ( 10 ) is associated with an actuating switch ( 23 ') having a test release signal generating circuit device ( 23 , 31 ) which starts an evaluation cycle. 15. The apparatus according to claim 14, characterized in that the circuit device ( 23 , 31 ) comprises a test release circuit ( 31 ) with a preset time element that starts an evaluation cycle. 16. The apparatus of claim 8 to 15, characterized in that an acoustic and / or optical signal generator ( 30 ) which can be acted upon by the monitoring signal is connected to the evaluation circuit ( 10 ). 17. The apparatus of claim 8 to 16, characterized in that a display device ( 27 ) is connected to the evaluation circuit ( 10 ), which the measured value signals and / or the output signals of the first computing circuits ( 35 , 36 ) can be supplied. 18. The apparatus according to claim 17, characterized in that the display device ( 27 ) is associated with a selection circuit ( 38 ) which enables the display of selected climate parameters.