DE3708592C2 - - Google Patents

Description

The invention relates to a device of the Preamble of the claim specified type.

From H. Lindorf: Technical Temperature Measurement, Publisher Girardet, 2nd edition 1956, pages 118 to 120, especially page 119, it is known thermometer in Install pipelines. Here, the thermometer perpendicular and inclined to the flow direction and opposite the flow direction are provided at elbows. The thermometers are here in one side enclosed, aerodynamically designed housing used well heat conductive material.

The disadvantage of this generic arrangement consists However, in that by the arrangement of the installation, straight at relatively small pipes, the flow of the too measuring medium can be hindered, resulting in one Pressure losses and on the other to distortions in the Temperature measurement can lead.

In addition, it is known from US-PS 44 03 872, for Measurement of flow parameters in a streamlined shaped Housing to provide a central bore of the radially branching channels go out. In one of these Channels, the sensor is arranged.  

This arrangement serves to flow the sensor so form that it is essentially the same Fluid flow in an undisturbed and unloaded State.

The object of the present invention is a temperature measuring device to propose that to be used in Motor vehicle cooling circuits is suitable, ie in pipelines with a relatively small cross-section.

This object is achieved by the entirety the features of the claim. by virtue of the embedding of the probe in the thermally conductive Housing in a Wärmeleitphase be disturbing Air pockets, which represent insulation, avoided. As a result, the measurement error deviation in the range of 3% being held. The ellipsoidal housing represents a Magnification of the surface of the probe is so that in the temperature measurement a temporal integration can take place. This also allows the Temperatures at a temperature stratification with only one insignificant deviation from the real temperature detected become. Also contributing to this is the provision of flow-optimized Struts for holding the housing of the probe at. Since the sensor is in a pipe segment, which is still isolated and an extended inside diameter arranged, the measuring device can easily between two cooling hoses in the Cooling circuit of a motor vehicle can be used. Due to the thermal insulation is the different Heat radiation of the cooling water hoses and the measuring device considered.

Thus, it is possible to carry out a heat balance measurement in liquids, in particular in cooling circuits for motor vehicles, because this is the mean temperature  or the temporal temperature change are detected accurately can, without the entire system from the serial state of Cooling circuits in motor vehicles changed too much must become.

In the following the invention with reference to a selected embodiment is shown in detail. In the single figure, a cross section through the constructed temperature measuring device 1 is shown. It consists of a pipe segment 2 , which has at its front and rear end connecting flanges for attaching a cooling water hose. The pipe segment 2 expands continuously in the flow direction 3 up to a maximum value and then falls back to the original inner diameter. In this extension, a housing 4 is arranged, which is designed aerodynamically. For this purpose, it preferably has an ellipsoidal profile in the cross section in the flow direction 3 . The cross section of the test body and the extension of the pipe segment 2 are in this case designed so that the flow cross section is virtually unchanged. The housing 4 is held by two or more aerodynamically designed struts 5, 6 . The strut 6 also connects the interior of the housing 4 with the outside.

In the interior of the housing 4 , a sensor 7 is arranged. Preferably, a quartz sensor is used. His connection line is guided by the hollow strut 6 to the outside of the measuring device.

In the region of the arrangement of the housing 4 , the pipe segment 2 is surrounded by an insulating material 8 . This is to ensure that over the pipe segment 2 no higher heat losses occur than in the commonly used conduits or hoses.

The shape of the housing 4 is chosen so that the cooling liquid as much as possible outside area is flowed around. In order to conduct the heat as undiminished as possible to the sensor, the housing consists of a very good thermal conductivity material. Farther on, the sensor in a thermally conductive paste in the Ge housing 4 is fixed so that no disturbing, ie insulating air pockets can form. As a result, virtually the entire surface of the housing 4 acts as a sensor surface.

With this arrangement, it is possible, for example in wasserge cooled internal combustion engine the temperature of the cooling water  to determine exactly. As a result, for example, a heat balance be made to measure the heat output of a heat exchanger, which is switched on in the cooling water circuit to determine. Due to the compactness of the invention Temperaturmeßvor direction is neither water side nor air side a significant Influencing the cooling water circuit reached, so that practically can be measured under series conditions.

In the following a measurement table is reproduced, which shows how high the achieved measuring accuracy in dependence of different Flow rates and different input and outlet temperatures of the coolant. In addition, it is also be taken from this table, that by the temperature measuring device self-adjusting pressure loss practically negligible is. It is only about 1/4 of a usual Hose elbow (90 °) of the same diameter.

In the table mean

_W Flow rate of the coolant in m³ / h t _E Inlet temperature of the fluid (here water) t _A Outlet temperature of the fluid t _s measured temperature of the probe 7 (t _E + t _A ): 2 - t _S Measuring error of the sensor .DELTA.P Pressure loss in the measuring device

Even if the temperature jumps by 50 ° C, it will be absorbed by the Temperature measuring device according to the invention after at most 60 sec already displayed with sufficient accuracy.

Claims (1)

Temperature measuring device for measuring liquid temperatures, which is inserted into the liquid-carrying pipe, consisting of a sensor which is used contrary to the flow direction in a well-enclosed, aerodynamically designed housing made of good thermally conductive material, characterized in that the sensor ( 7 ) in the housing ( 4 ) is embedded in thermal grease, that the housing ( 4 ) constructed ellipsoidal and flow-optimized struts ( 5, 6 ) is held in the pipeline, that the housing ( 4 ) containing pipe as a pipe segment ( 2 ) with a in the region of the housing ( 4 ) provided on the outer circumference of the tube segment ( 2 ) provided heat insulation (insulating material 8 ), and that the inner diameter of the pipeline in the region of the housing ( 4 ) is widened.