DE29709604U1 - Measuring device for measuring the temperature and electrical conductivity depending on the depth of penetration in plants and wood - Google Patents

Description

Description

The following describes a device that is used to measure the electrical conductivity in a test specimen, taking into account the temperature and the measuring position. In comparison to the known devices that have been used for similar purposes for a long time, the device described here is particularly distinguished by the following points:

The device simultaneously measures the electrical conductivity and temperature of the test specimen as well as the position of the measuring point in the test specimen.

The measurement is carried out within a few millimeters in a very confined space, resulting in great accuracy and high spatial resolution.

A measuring process comprises several measurements at different penetration depths in the test specimen, resulting in a measurement profile along an axis.

The material destruction in the test specimen is minimal.

The device does not require any permanent mounting on the test specimen using straps or other aids.

The measuring part of the device can be inserted into the test specimen without the use of additional tools such as drilling equipment.

The device can be operated by one person.

The device described consists of a specially shaped measuring tip 1), in which there is a temperature sensor 2) and two electrodes 3) and 4). The special shape 13) of the measuring tip 1) and the measuring head carrier 6) enables an extremely low-destructive insertion of the device into the test specimen. Due to the small distance between the electrodes 3) and 4), which are embedded together with the temperature sensor in an insulating holder 5), a very precise and selectively high-resolution measurement of the varying electrical conductivity and temperature in the test specimen is possible. The measuring head carrier is connected to an impact device consisting of an impact head 10), impact head guide 11) and stop 12) which enables the measuring tip 1) to be inserted/removed in or out of the test specimen in increments. The exact position of the measuring tip 1) is registered by a depth sensor 7).

The measured values are recorded in an electronic device 8) that is attached directly to the measuring head carrier 6) or connected to it by means of a cable. The recorded values are shown directly on a display or stored in a memory, from where they can be output to another electronic memory or a printer. The advantage of this invention is that the electrical conductivity is measured taking into account the temperature and the measuring position in the test body. The former is essential for meaningful measurement data due to the laws of physics; the latter allows the exact spatial allocation of the measurement data in the test body. This allows the electrical conductivities to be determined in their spatial distribution in the test body, regardless of the influence of temperature. The application of the described device is primarily in the examination of standing trees. Depending on the health of the tree or individual parts of the tree, different electrical conductivities occur in the bast, cambium, sapwood and heartwood. By measuring the electrical conductivity along a radial measurement profile in the plant wood body, conclusions can be drawn, in particular, about the vitality of the cambium, the water content of the water-conducting sapwood and any wood rot in the heartwood in the area of the measuring point. The focus of such investigations are the roots of trees in urban areas, which, if damaged by construction work, pose considerable risks in terms of stability and breakage. Another area of application is the inspection of objects made of solid wood and wood materials with regard to their condition. Here, too, the focus is on objects outdoors, where large fluctuations occur not only in the humidity but also in the temperature of the test object.

List of reference symbols

1) Measuring tip 2) Temperature sensor 3) electrode 4) electrode 5) Socket for sensor 6) Measuring head carrier 7) Depth sensor 8th) electronics 9) connection cable 10) Impact head 11) Head guide 12) attack 13) Cross-sectional shape of the measuring tip

Claims (7)

1. Means for the simultaneous measurement of electrical conductivity, temperature and penetration depth when inserting and withdrawing a measuring tip 1) into the body of plants, trees, and wooden plants, in solid wood and in wood-based materials. 2. Means according to claim 1, characterized in that the measuring tip 1) contains a socket 5) for the measuring sensors, which comprise a temperature sensor 2) and two electrodes 3) and 4). 3. Means according to claim 1, characterized in that the penetration depth of the measuring tip 1) is recorded with a depth sensor 7) 4. Means according to claim 1, characterized in that the individual measurement values are directly displayed or stored in the electronics 8) or are output from there to a special electronic device 5. Means according to claim 1, characterized in that the measuring tip 1) with the measuring head carrier 6) is inserted into and removed from the test body via a device consisting of impact head 10), impact head guide 11) and stop 12) 6. Means according to claim 1, characterized in that with each change in position of the measuring tip 1) by actuating the impact device 10) -12) from the temperature sensor 2), the electrodes 3) - 4) and the depth sensor 7) measurement data is recorded and passed on to the electronics 8) 7. Means according to claim 1, characterized in that the measuring tip 1) and the measuring head carrier 6) have a cross-sectional shape with particularly low-destructive properties on the test body -