DE3145333C2 - Procedure for testing temperature sensors - Google Patents

Abstract

The temperature sensors of an air conditioning system in a passenger coach are to be checked for their functionality with minimal effort. According to the invention, this is done by comparing the temperature values of the temperature sensors, which adjust to an almost uniform temperature level after the air conditioning system has been stopped, with a target value which is formed from the arithmetic mean of the temperature values, and that a fault message is issued if there is a deviation from a tolerance range.

Description

The invention relates to a method for testing temperature sensors of an air conditioning system in passenger coaches.

The air conditioning system is designed to keep air conditions such as temperature, humidity and speed constant within given limits.

Air conditioning systems in passenger coaches operate under less favourable conditions than stationary systems. Temperature, humidity and air speed are often subject to rapid changes. Furthermore, constant maintenance at the same location and by the same staff is usually not possible. In particular, testing the temperature sensors (resistance thermometers) for their function is associated with difficulties.

It is known that an error can be detected by measuring the resistance of the individual temperature sensor in conjunction with a temperature comparison measurement at the installation location. This proves to be very cumbersome and inaccurate.

DE-OS 26 03 797 describes a system for monitoring temperature sensors in which the resistance of each heat sensor is stored in a memory. During the test, the measured value is compared with the stored value and if the resistance value changes significantly, the corresponding heat sensor is considered defective. This system requires a data processing system that must always be connected to a power supply in order to record when the stored values are deleted. This requires a considerable amount of effort.

The invention is based on the object of testing the temperature sensors for their functionality with minimal effort, while avoiding the disadvantages mentioned above.

This object is achieved according to the invention in that the temperature values of the temperature sensors, which adjust to an almost uniform temperature level after a break in operation of the air conditioning system, are compared with a setpoint value formed from the arithmetic mean of the temperature values, and in that a fault message is issued in the event of a deviation from a tolerance range.

The advantages achieved with the invention are in particular that all temperature sensors can be checked centrally from one location. Furthermore, a ranking can be made in the error evaluation, for example by recording smaller deviations from the target value as a warning message and larger deviations as a fault message based on a corresponding evaluation of the tolerance range.

In principle, the method is also suitable for testing thermocouples by measuring the voltage instead of the resistance.

An embodiment of the invention is illustrated by means of a functional diagram and described in more detail below.

The functional plan shows a test device 1 with a switching device 2 , to whose inputs resistance thermometers 3 are connected. The output of the switching device 2 is connected to the input of an arithmetic mean value generator 4 and, decoupled from this, is led in parallel to the inputs 6, 8 of the greater-less comparators 5a , 5b . The output of the mean value generator 4 is connected in parallel to the inputs 7, 9 of the greater-less comparators 5a , 5b , while the outputs 11, 12 of the greater-less comparators are connected to the inputs 13, 14 of a control logic 10. In addition , indicator lamps 18, 19 are connected to the outputs 16, 17 of the control logic. The control logic 10 also has a start input 15 .

The test device works as follows:
The resistance thermometers 3 are switched from an air conditioning system (not shown in detail) to a test device 1 via a switching device 2. The arithmetic mean value is determined from the individual resistance values in an averager 4 , which is fed as a setpoint value via the inputs 7, 9 to the greater-less comparators 5 a , 5 b , in which the resistance values of the individual resistance thermometers 3 fed via the inputs 6, 8 are compared with the setpoint value and, if an error limit is exceeded, indicator lamps 18, 19 are activated via the outputs 16, 17 of the control logic to display a fault message.

Claims (2)

1. Method for testing temperature sensors of an air conditioning system in passenger coaches, characterized in that the temperature values of the temperature sensors, which adjust to a virtually uniform temperature level after a break in operation of the air conditioning system, are compared with a target value formed from the arithmetic mean of the temperature values, and that in the event of a deviation from a tolerance range, a fault message is issued. 2. Method according to claim 1 or 2, characterized in that the testing process is switched on via a timer.