FI84207B - Arrangement for measurement of ground temperature - Google Patents

Description

84207

APPARATUS FOR MEASURING GROUND TEMPERATURE

In particular, the invention relates to a device for measuring the temperature and / or temperature profile of frosted ground, comprising at least one measuring sensor arranged in connection with a body part 5 and a mounting pipe inside which the body part with its measuring sensors can be fitted, and said at least one measuring sensor is adaptable to the measuring connection with the mounting pipe for performing the measurement. The temperature measurement is performed using a separate measuring device connected to 10 measuring sensors.

Several different measuring sensors can be used to measure the soil temperature, such as a thermistor, a thermocouple or a platinum wire sensor.

A thermistor is a semiconductor sensor whose electrical resistance changes with 15 temperatures. With thermistors it is possible to achieve a measurement accuracy of 0.1 ° C. The thermocouple, on the other hand, is based on the fact that over the junction of two different metal conductors the so-called thermoelectric voltage, the magnitude of which depends on temperature. The most common sensor used in geotechnical applications is a T-type thermocouple in which the connection is made of copper and a constant. Thermocouples are cheap, but can only achieve a measurement accuracy of about 0.5 ° C. A further difficulty in using the thermocouple is that the other ends of the thermocouple conductors 25 should be able to connect to the conductor of the meter, preferably at 0 ° C at reference temperature, i.e. ice water. Another possibility is to use electronic temperature compensation in the meter.

30 The best measurement accuracy in temperature measurement is achieved by using platinum wire or so-called Pt-100 sensor. The sensor consists of a thin platinum wire with an electrical resistance at 0 ° C of exactly 100 ohms and whose resistance as a function of temperature is known with high accuracy.

2 84207

To measure the soil temperature, a hole must be drilled in the soil, in which a pipe made of, for example, PVC plastic or a similar heat-insulating material is placed, on the surface of which measuring electrodes made of copper or other metal are attached to the desired measuring heights. The electrodes can be, for example, strips or rings tightened around the tube.

A measuring sensor is attached to these electrodes by gluing or welding from the inside of the tube, for example through a hole made in the tube, which is connected by a wire to the measuring connectors at the top of the tube.

It is also possible to assemble the apparatus in such a way that a necessary number of thermocouples are installed in a 28 or 36 mm plastic electrical installation pipe, the welded and shielded ends of which are passed through the pipe wall and fixed to the outer surface of the pipe, usually by tape. The wires of the thermocouples are transported inside the pipe to the upper end of the pipe and the pipe is then filled with sand or polyurethane plugs are formed in the pipe. The bushings at the top 20 of the pipe are sealed, and the thermocouple wires are routed in a separate pipe to a multipoint connector board located in the mounting box. The pre-furnished pipe is installed in a pre-drilled hole in the ground. The temperature measurement itself is performed using a separate measuring device connected to the terminal board.

The sensors are exposed to such a heavy load in the soil that the use of non-thermocouples is hardly possible. Thus, the measurements have to be satisfied with relatively inaccurate thermocouple measurements. It was previously mentioned that thermocouple measurement requires temperature compensation, which is particularly difficult to arrange for outdoor measurements. In this case, the measurement must be performed from a car or a separate heated shelter, in which case the conductor distances of the test leads increase and 3 84207 connections have to be made to the conductors, which factors further increase the inaccuracy of the thermocouple measurement. Also, external conditions such as melting ice, water and ground movements may in some cases cause distortions in the measurement result 5.

In frost surveys, soil temperature measurements have to be performed at many different points. In this case, it is necessary to build a separate equipment for each measuring point and equip it with the necessary number of 10 thermocouples. When installing the pipe on the ground, despite the protection, care must be taken to prevent the sensor ends from breaking or twisting. The same measuring device cannot be used more than once, because the sensor freezes on the ground and it is thus not possible to move it from one place to another 15. Although the measuring sensor itself is inexpensive, assembling the measuring device for each measuring point and each use separately requires work. In principle, sensors with better measurement accuracy, such as platinum wire sensors or thermistors, could be used to measure the temperature, but the use of these as disposable sensors is not economically justified.

The object of the invention is to provide a measuring device with sensors suitable for measuring the earth's temperature, which can be moved from one place to another. In this case, several separate measuring devices with 25 sensors are replaced by one portable measuring device, which justifies the use of more expensive sensors with better measuring accuracy. In order to reduce the possibility of errors, the measuring operation itself can also be performed directly from the multi-selection switch at the end of the device 30. These objects are achieved by using a measuring device according to the invention, which is mainly characterized in that the device further comprises at least one movable member connected to the body part, to which said at least one measuring sensor 35 is attached, and that said measuring connection is provided. using said at least one movable member.

In addition, an installation space can be provided at the end of the body part away from the ground to be measured, for example for a data-collection unit 5, which can be programmed separately and disassembled at a suitable time at the measuring point or moved elsewhere for disassembly.

In the following, the invention will be described in detail with reference to the accompanying drawing, which shows a vertical section of a measuring device. In the drawing, the device is only partially shown in its height direction.

The measuring device mainly comprises a body part I, a member 5 providing one or more measuring contacts, one or more measuring sensors 2 arranged in connection with the body part 1 and attached to the member 5, and a mounting tube 3 into which one or more contact members 4 can be formed.

In the embodiment according to the figure, the body part 1 is a tubular member in which openings 10 are formed and in the upper end of the dimensions 20 away from the ground is attached a wider upper edge part 11. The body part is made of a durable material such as metal or hardanyl.

The measuring sensors 2 are attached to the measuring contacting member 5. The wires of the measuring sensors are placed inside the body part and transported to the upper edge part II of the device. A connector part 12 is arranged in the upper edge part, to which the wires of the measuring sensors are connected. It is justified to use high-quality and accurate measuring sensors as measuring sensors, because the sensors are not damaged during measurements as in conventional solutions. It is possible to provide a further installation space in the upper edge part 11 for a measuring or s 84207 data collection unit.

In the embodiment according to the figure, the measuring contact providing member 5 is placed inside the body part 1 and fixed to the body part 1. The member 5 is a latch-like member in the shape of a tongue 5. The first edge of the tongue is fixed to the pin 13 and the second edge of the tongue rests on the opening 10 formed in the body part 1. The measuring sensor 2 is fixed on the edge resting on the opening 10. In order to bring the measuring sensor 2 into measuring connection with the mounting pipe 3, the procedure is as follows. By moving the rod-like member 14 to which the pin 13 is attached, the tongue is partially pushed out of the body part 1 through the opening 10 formed in the body part, whereby the measuring sensor 2 comes into contact with the mounting tube 3 or contact member 4.

The measuring contact member 5 can also be arranged so that the body part is formed by a tubular telescopic body, on the surface of which a ring-shaped collar formed of a flexible material is arranged. The collar 20 is attached to the body portion at both edges. By reducing the length of the body part, the resilient member bends outwards from the body part and provides a measuring contact. There are many other solution options, e.g. the use of an expandable member and a pressure medium is possible.

25 For the installation and transfer of the measuring device, the device is equipped with a separate installation pipe 3. The installation pipe 3 is made of some cheap but sufficiently durable material with a suitable thermal conductivity, for example a thin-walled plastic pipe. If necessary, a contact element 4, such as a copper contact element 4, can be embedded in the mounting tube 3 30 at the measuring points, for example, although it is not necessary. The first end 3a of the mounting pipe 3 is shaped so that the measuring device can be well immersed in the ground at the measuring object. In this case, the end 3a of the mounting tube is conical. The installation pipe can be embedded in soft ground by pressing on the ground and in hard ground the installation pipe is immersed in a pre-drilled hole. The other end 3b of the mounting pipe 3 5, which is away from the ground to be measured, is closed, for example, by a cover 7 or a plug comprising an opening 8 for said body part 1. The installation pipe 3 can be used usually or once, because the pipe freezes on the ground, e.g. in frost measurements.

The device is assembled so that the mounting tube 3 is immersed in the ground and the body part 1 with its measuring sensors 2 is fitted inside the mounting tube 3 so that the measuring sensor 2 and the contact path 4, when used, are aligned. When performing the temperature measurement, the member 5 providing the measuring contact 15 passes through the opening 10 formed in the body part 1 and further extends into the space formed between the body part 1 and the mounting tube 3. In this case, the measuring sensor 2 contacts the mounting tube 3 or the contact member 4 formed in the mounting tube 3 to make a measuring contact. The temperature is thus measured from the inside surface of the installation pipe and not from the frozen ground itself.

For the transfer of the measuring device, the body part 1 with its measuring sensors 2 is detachably fixed inside the mounting tube 3. That is, the body portion 1 is placed inside the mounting tube 3 so that it can be easily removed from the mounting tube and transferred to another mounting tube for a new measurement. If necessary, the fastening to the mounting pipe can be carried out by means of fastening elements, which can be, for example, threads.

It is good to partition the space formed between the body part 1 and the mounting pipe 3, in particular on both sides of the measuring sensor 2, using a sealing structure 9 which prevents convection flow. In the embodiment according to the figure, 7 84207 insulating plugs are formed in the space between the tubular body part 1 and the mounting pipe 3, which prevent the formation of convection flows in the pipe.

The connector part 12 located at the upper edge of the device comprises a multi-selection switch to which the conductor slots 5 of the measuring sensors 2 are connected and a connector to which an external measuring device can be connected. From the multi-selector switch, the measurement signal transmitted by each measuring sensor can be measured alternately using an external measuring device, which can be, for example, a digital voltmeter or other similar accuracy meter. If the measurement is performed at a distance, a multi-channel measuring cable is installed in the selector switch, for example, which can be connected to the measuring device. If Pt-100 sensors are used as sensors, connectors, wiring, and peripherals must be selected to be compatible with Pt-100 meters. 15 It is also possible to install a separate transmitter in the connector part, which can be operated either by current from an external measuring device or by batteries. The transmitter converts the measurement signal into a standard message, which is transmitted to the measurement center. Connecting a memory and data acquisition unit to the top edge portion 20 may be an option, whereby the measurement data collected in the memory can be transferred to a portable microcomputer, for example, for further processing and reporting at the end of the measurement period.

The invention is not limited to the embodiment described above, but can be modified within the scope of the appended claims.

Claims (6)

8 B 4207 Apparatus for measuring, in particular, the temperature and / or temperature profile of frosted ground, comprising at least one measuring sensor (2) arranged in connection with the body part (1) and a mounting pipe (3) inside which the body part (1) with its measuring sensors (2) being adaptable, and wherein said at least one measuring sensor (2) is adaptable in measuring connection with the mounting tube (3) for carrying out the measurement, characterized in that the device further comprises at least one body in connection with the body part (1), a movable member (5) to which said at least one measuring sensor (2) is attached, and that said measuring connection is arranged to be provided using said at least one movable member (5). Device according to claim 1, characterized in that the body part (1) is tubular and comprises at least one opening (10) formed for said at least one movable member (5) and in that said at least one movable member (5) is arranged at least partially 20 to pass through said opening (10) and further extend into direct contact with the mounting tube (3) to provide said measuring connection. Device according to claim 1, characterized in that the space between the body part (1) and the mounting tube (3) is compartmentated in particular on both sides of said at least one measuring sensor (2) using a sealing structure (9) preventing the convection flow. Device according to claim 2, characterized in that the mounting tube (3) comprises at least one contact member (4) and that said at least one movable member (5) is adaptable to said direct contact with the contact member (4) to provide said measuring connection. 9 84207 Device according to Claim 4, characterized in that the contact element (4) is a region in the mounting tube (3) which is made of a thermally conductive material, such as copper. Device according to Claim 1, characterized in that an upper edge part (11) is arranged in the body part (1), at its end remote from the ground, in connection with which the connection cables of said at least one measuring sensor (2) are connected. ίο 84207