DE102019001718A1 - Method for testing temperature sensors in a home automation device - Google Patents

Abstract

Method for testing temperature sensors in a house technology device, with the following steps: - selection of a temperature sensor to be tested, - heating of the temperature sensor, - detection of the temperature increase of the heated temperature sensor, and output of an acoustic signal depending on the temperature increase of the heated temperature sensor.

Description

The present invention relates to a method for testing temperature sensors in a domestic technology device and to a domestic technology device.

A domestic technology appliance typically has a heating unit for heating a heating medium, a controller and a plurality of temperature sensors. The temperature sensors must be checked when setting up the building technology device or when installing the building technology device. In particular, it must be checked whether there were any mix-ups when connecting the temperature sensors.

It is therefore an object of the present invention to provide a method for testing the temperature sensors in a domestic technology device which enables a simplified and reliable check.

This object is achieved by a method for testing temperature sensors in a domestic technology device according to claim 1 and by a domestic technology device according to claim 3.

A method for testing temperature sensors in a domestic technology device is thus provided. The home automation device is put into test mode, for example by means of a controller. The temperature sensor to be tested can be selected, for example, by means of the controller. The temperature sensor is heated (for example by touching the sensor). A rise in temperature is recorded and an acoustic signal is emitted depending on the rise in temperature. Due to the acoustic output as a function of the temperature rise of the temperature sensor, it is no longer necessary for the fitter to see a display of the domestic technology device. This is particularly advantageous if the temperature sensors are provided on the rear of the domestic technology device. If a temperature sensor is heated (for example by touching the sensor) and there is no acoustic feedback, then the fitter knows that he has heated the wrong temperature sensor. This enables the temperature sensors to be connected without confusion.

According to one aspect of the present invention, an acoustic interval signal can be output as an acoustic output. Here, the frequency of the interval signal can be output proportionally to the recorded temperature value.

According to the invention, a change in the temperature value of the temperature sensor to be tested can thus advantageously be made possible without eye contact with the display of the domestic technology device.

The acoustic signal and the selection of the sensor to be tested can be carried out by the building services device or by an external device such as a smart device, smart phone, tablet, etc.

The invention also relates to a domestic technology device with at least one temperature sensor and a control unit. The control unit receives the temperature signals from the temperature sensors and analyzes them. The control unit generates a signal proportional to the measured temperature value and outputs this for acoustic output.

According to one aspect of the present invention, the domestic technology device has an acoustic output unit which generates and outputs an acoustic signal as a function of the output signal of the control unit.

According to one aspect of the present invention, the acoustic signal is an acoustic interval signal with a frequency which is proportional to the detected temperature value or temperature rise.

According to a further aspect of the present invention, the domestic technology appliance has a display for displaying information and an input unit.

According to a further aspect of the present invention, the domestic technology device has a transmitting / receiving unit by means of which the domestic technology device can communicate with an external smart device. In particular, the output signal of the control unit can be output by means of the transmitting / receiving unit, so that the acoustic signal to be reproduced can be reproduced using the smart device.

Further refinements of the invention are the subject of the subclaims.

• 1 zeigt ein schematisches Blockschaltbild eines Haustechnikgerätes gemäß der Erfindung, und
• 2 zeigt eine schematische Ansicht eines Teils des Haustechnikgerätes von 1.

Advantageous and exemplary embodiments of the invention are explained in more detail below with reference to the drawing.

• 1 shows a schematic block diagram of a house technology device according to the invention, and
• 2 FIG. 11 shows a schematic view of part of the domestic technology device from FIG 1 .

1 shows a schematic block diagram of a house technology device according to the invention. The home automation device 100 has a regulator or a control unit 110 , a plurality of temperature sensors 120 , 121 - 125 , an input unit 140 and a display 150 on. Optionally, the home automation device 100 an acoustic output unit 130 for example in the form of an electroacoustic sound transducer.

The home automation device 100 can also optionally have a transmitter / receiver unit 160 have with which the home automation device 100 with an external smart device 200 for example in the form of a smart phone, tablet, computer, etc. can communicate.

2 FIG. 11 shows a schematic view of part of the domestic technology device from FIG 1 . In 2 is in particular the input unit 140 , the display 150 as well as the acoustic output unit 130 shown. Furthermore, the transmitter / receiver unit 160 shown. On the display unit 150 a target temperature of a heating circuit can be displayed.

Using the input unit 140 or the external smart device 200 the home automation device is placed in a test mode. The sensor to be tested can then 120 - 125 by means of the input unit 140 or the external smart device 200 to be selected. The selected sensor 120 - 125 is heated, for example by the fitter embracing the temperature sensor, so that the body heat of the fitter reaches the temperature sensor 120 warmed up. The control unit 110 records the temperature rise of the sensor 120 and the acoustic unit 130 of the home automation device 100 , or the smart device 200 emits an acoustic signal depending on the temperature value recorded by the temperature sensor.

Optionally, the output signal can have a frequency which is proportional to the measured temperature value or proportional to the temperature rise. In this way, the fitter can check the temperature sensors in the building technology device without having to have eye contact with the display of the building technology device. This is particularly advantageous if the temperature sensors are not arranged in the viewing area of the display.

The acoustic signal output can represent an acoustic interval signal, the frequency of which is proportional to the measured temperature value of the temperature sensor 120 increases. At a temperature of 20 ° C, for example, 80 beeps per minute can be emitted. At a temperature of 60 ° C, for example, 200 beeps per minute can be emitted.

According to the invention, an installer can provide acoustic feedback in the settings using the input unit 140 and the display 150 activate. The installer can in turn using the input unit 140 those parameters on the display 150 whose sensor he wants to verify. The controller of the building services device can be controlled via the acoustic unit 130 output an acoustic signal, for example in the form of a timed tone sequence proportional to the temperature of the sensor that is to be verified. The installer can cause a temperature change on the sensor, for example by heating the sensor. If that is through the acoustic unit 130 The acoustic signal output (for example the acoustic timing) changes, then it can be ensured that the installer has selected the correct sensor for verification. If there is no change in the acoustic signal, then the installer knows that he has not selected the correct sensor.

The invention relates to a domestic technology device 100 with at least one temperature sensor 120 - 125 and a controller 110 that the temperature signals of the at least one temperature sensor 120 receives and analyzed, the controller 110 is designed to put the domestic technology device into a test mode and to output a signal proportional to the measured temperature value.

Claims (7)

Method for testing temperature sensors (120 - 125) in a building services device, with the steps: Selection of a temperature sensor to be tested (120 - 125), Heating the temperature sensor (120 - 125), Detecting the temperature rise of the heated temperature sensor (120 - 125), and Output of an acoustic signal depending on the temperature rise of the heated temperature sensor (120 - 125). Procedure according to Claim 1 , wherein the acoustic signal represents an acoustic interval signal with a frequency which is proportional to the detected temperature rise. House technology device (100), with at least one temperature sensor (120 - 125) and a control unit (110) which receives and analyzes the temperature signals of the at least one temperature sensor (120-125), wherein the control unit (110) is designed to generate a signal proportional to the measured temperature value and to output it for acoustic output. Home automation device Claim 3 , furthermore with an acoustic output unit (130) which is configured to output an acoustic signal as a function of of the output signal of the control unit (110). Home automation device Claim 5 , wherein the acoustic signal represents an acoustic interval signal with a frequency which is proportional to the detected temperature rise. Home automation device Claim 3 , 4th or 5 , further comprising a display (150) for displaying information and an input unit (140) for selecting a sensor to be tested. Home automation device according to one of the Claims 3 to 6th , furthermore with a transmitting / receiving unit (160), by means of which the domestic technology device can communicate with an external smart device (200) and can output the output signal of the control unit to the external smart device (200).

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