DE102011108764A1 - Timber humidity measuring device, has housing forming measuring chamber and formed with housing wall for attachment at timber, where humidity sensor and temperature sensor are arranged in measuring chamber - Google Patents

Abstract

The device has a housing (1) forming a measuring chamber (2) and formed with a housing wall for attachment at timber (3). The housing is provided with an aperture only in the housing wall. A humidity sensor (4) and a temperature sensor (5) are arranged in the measuring chamber. An acoustic sensor is arranged in the chamber, and the aperture is separated from environment by a seal. Projections are formed for pressurized engagement in the timber. A portion of the housing is formed in tube-shape. The projections are arranged in thread-shape on an outer surface of the housing. Independent claims are also included for the following: (1) a measuring arrangement (2) a method for measuring humidity of timber.

Description

The invention relates to a device and a method for determining the moisture content of wood.

The term wood refers in the following dead wood, which was fed after the impact in the forest of any use. In such wood, accurate measurement of wood moisture is of great importance in wood drying, in the assessment of moisture in wood structures, in the protection of cultural assets, and in many other processing steps and uses.

State of the art is the measurement of the water content in the wood on the conductivity (resistive wood moisture measurement) or on the permittivity (capacitive wood moisture measurement) with mobile or stationary measuring devices.

In resistive wood moisture measurement, the resistance is measured between two electrodes, which are brought into electrically conductive contact with the wood, mostly via piercing or impact electrodes. This method is well suited for a fast measurement of the wood moisture near the surface. Wood moisture measurements inside woods require special electrodes (eg brush electrodes) that are inserted in drill holes and in deeper areas in contact with the wood. With several electrodes one above the other, measurements of humidity gradients are possible. The measuring error of the resistive wood moisture measurement is between 8 and 20%, the measuring instruments have to be calibrated at regular intervals, and with stationary long-term measurements, wood components migrating with the electric current can further increase the measuring error.

With the capacitive wood moisture measurement, the capacitance between two electrodes is measured, whereby - in addition to the wood itself - especially the water contained in the wood with its high dielectric constant is included in the measurement of the between the two (sensor) electrodes adjusting capacity. This method is well suited for a fast measurement of the wood moisture near the surface. The measuring error of the capacitive wood moisture measurement is significantly higher than that of the resistive measurement, since the strongly varying wood density decisively influences the measured value. Stationary long-term measurements are only possible to a limited extent with these devices.

From the technical drying of lumber is well known and thoroughly investigated that the wood moisture is in a temperature-dependent equilibrium with the humidity. In wood drying, outside air is heated in large drying halls, passed through the stored wood stacks and the exhaust air is discharged to the outside. Stationary measuring devices are used to measure the temperature and humidity of the exhaust air and calculate the wood moisture content of the stored dry material. The amount of air introduced and its temperature can be used to control the drying rate in this way and to detect the end of the drying process when the desired final moisture content is reached.

Wood is therefore a hygroscopic medium, the moisture content of which depends directly on the ambient temperature and the surrounding humidity, as no direct moistening with liquid water takes place.

Based on this prior art, the object of the invention was to specify an improved method and a device suitable for carrying out this method for determining the moisture content of wood. In particular, a precise determination of the moisture content of wood should be ensured over longer periods of time, without direct contact between sensor and wood is required, without varying wood densities can lead to measurement errors and without the measurement accuracy changes significantly over time.

This object is achieved by a device, a measuring arrangement and a method according to the independent claims. Advantageous embodiments thereof are the subject of the respective dependent claims and will become apparent from the following description of the invention.

The invention is based on the idea of determining the moisture content of wood by erecting a measuring point on and / or in the wood, which is designed as a compartment separated from the environment (sluft), which is connected in open connection to at least one part stands with the wood and in which at least one sensor for measuring the humidity and at least one sensor for measuring the air temperature is arranged.

The invention will be explained in more detail with reference to embodiments shown in the drawings. In the drawings shows

1 : a "keylwerth diagram";

2 : one from the "Keylwerth diagram" according to 1 derived mathematical model;

3 a first embodiment of a device according to the invention;

4a to 4c a second embodiment of a device according to the invention in three views;

5 a third embodiment of a device according to the invention in three views;

6 a fourth embodiment of a device according to the invention in three views;

7 a fifth embodiment of a device according to the invention in three views;

8th a sixth embodiment of a device according to the invention in three views;

9 a first embodiment of a measuring arrangement according to the invention;

10 a second embodiment of a measuring arrangement according to the invention;

11 a third embodiment of a measuring arrangement according to the invention;

12 a fourth embodiment of a measuring arrangement according to the invention;

13 a fifth embodiment of a measuring arrangement according to the invention; and

14 a sixth embodiment of a measuring arrangement according to the invention;

As mentioned above, the wood moisture is in a well-studied and known temperature-dependent equilibrium with the humidity. This relationship between humidity, air temperature and wood moisture was developed by WK Loughbourough in 1931 and by Keylwerth in the well-known "Keylwerth diagram" 1 summarized.

The device according to the invention makes use of the fact that, in reversal of the Keylwerth summarized relationships, in a closed cavity in the wood adjusts a humidity that corresponds exactly to the surrounding wood moisture at a given temperature. By measuring the temperature and the humidity in this cavity, the state of equilibrium can be determined by the following third order polynomial, which is derived from (from the diagram in accordance with the 1 derived) three - dimensional mathematical model of 2 obtained and has a correlation of 0.999281381, the wood moisture of the wood surrounding the cavity is calculated with high accuracy: z = (a + bx + cy + dy ² + ey ³ ) / (1 + fx + gx ² + hx ³ + iy) with the following parameter values: parameter value Std error T value a 1.22925E + 00 6.75764E - 02 1.81905E + 01 b -3.70251E - 02 9.01903E - 04 -4.10522E + 01 c 1.78839E - 01 6.54959E - 03 2.73054E + 01 d -2.16109E - 03 1.41268E - 04 -1.52978E + 01 e 8.71293E - 06 1.29704E - 06 6.71756E + 00 f -2.44613E - 03 5.17650E - 04 -4.72546E + 00 G 3.27162E - 05 1.29240E - 05 2.53143E + 00 H -1.91472E - 07 9.48294E - 08 -2.01912E + 00 i -7.79150E - 03 2.22654E - 04 -3.49937E + 01

The inventive device for measuring the moisture content of wood basically comprises a housing 1 for the formation of a measuring chamber 2 that with at least one housing wall to rest against the wood to be measured 3 is formed and provided in this housing wall with one or more openings. In the measuring chamber 2 are at least one (preferably electronic) humidity sensor 4 and a (preferably electronic) temperature sensor 5 arranged to measure the temperature and humidity in the measuring chamber (see. 3 ). Furthermore, the device according to the invention can have a device for the automated calculation of the wood moisture based on the measured values of the humidity and temperature sensor and a device for storing and / or outputting the calculated values.

As a material for the formation of the housing, any mechanically suitable material can be used, which causes no relevant temperature measurement error by introducing the ambient outside temperature and causes no relevant humidity measurement error due to material-based moisture deposits or by moisture diffusion. A non-exhaustive and non-exhaustive list of particularly suitable materials for forming viable measurement chambers includes: PTFE (polytetrafluoroethylene), FEP (fluorinated ethylene-propylene), HMW-PE (high molecular weight polyethylene), UHMW-PE (ultra-high molecular weight polyethylene), or POM (polyoxymethylene).

In a second embodiment of the device according to the invention according to the 4a to 4c this includes the measuring chamber 2 forming housing 1 a short, one-sided closed tube 6 (Any, but preferably circular cross-section) and one to the open side of the tube 6 subsequent annular support plate 7 , In the measuring chamber, a humidity 4 and a temperature sensor 5 arranged. The pipe 6 opposite (support) side of the support plate 7 also has a sealing ring 8th on. This version is preferably suitable for measurements of wood moisture on the outside of the wood 3 , where the case 1 with the support side of the platen 7 is placed on the wood and the sealing ring 8th the one from the case 1 trained measuring chamber 2 as a compartment separated from the outside air.

In a third embodiment according to the 5a to 5c this includes the measuring chamber 2 forming housing 1 a thin, one-sided closed tube 6 (arbitrary, but preferably circular cross-section), within which an air humidity 4 and a temperature sensor 5 are arranged. The device also comprises a circumferential sealing ring 8th on the outside of the pipe 6 , The pipe 6 gets into a hole 9 in the wood 3 used and the sealing ring 8th between pipe 6 and wood 3 forms the measuring chamber 2 as a compartment separated from the outside air. Depending on the depth of the hole, with this embodiment the wood moisture can be measured at a defined depth below the wood surface ( 5c , left side) or the mean wood moisture can be determined over a defined wood cross-section, which is located in a deeper hole 9 adjusts ( 5c , right side).

In a fourth embodiment according to the 6a to 6c this includes the measuring chamber 2 forming housing 1 a thin tube closed on both sides 6 (Any, but preferably circular cross-section) with (preferably) mounted in a plane side openings (in the tube jacket). Inside the tube 6 become a humidity 4 and a temperature sensor 5 in the longitudinal axial direction (with respect to the tube 6 ) spaced from these openings, and the measuring chamber 2 is formed in a defined size by the pipe 6 closed on both sides (with respect to the longitudinal axial direction) of the sensors. Over a first circumferential compression seal 10 on the outside of the pipe 6 on the one side (with respect to the longitudinal axial direction of the tube) of the lateral openings and over a second circumferential compression seal 10 on the outside of the pipe 6 on the corresponding other side of the lateral openings becomes the measuring chamber 2 to a compartment separated from the outside air. This version is particularly suitable for measurements of wood moisture in a spatially narrow range at a defined depth in a hole 9 below the wooden surface. By successive measurements at different depths, moisture profiles, possibly with resolutions in the range of a few millimeters, can be created.

In a fifth embodiment according to the 7a to 7c this includes several measuring chambers 2 forming housing 1 a thin threaded tube closed on both sides 11 with external thread and with several, in different levels superposed lateral openings. Inside the threaded tube 11 be spaced in the longitudinal direction of the openings of each level in each case a humid 4 and a temperature sensor 5 positioned. By the threaded pipe 11 is closed between the planes, creating several adjacent measuring chambers 2 , This version is particularly suitable for the simultaneous measurement of wood moisture at defined intervals below the wood surface and allows a continuous monitoring of the wood moisture distribution in the wood. The outer diameter of the threaded tube used to form the measuring chambers 11 is dependent on the target of the measurement and can be between 1 mm and 300 mm, preferably between 3 mm and 100 mm and particularly preferably between 4 and 20 mm. The external thread of the threaded tube can be both the mechanical fixation of the device in the wood and the sealing of the measuring chambers 2 serve the environment.

In a sixth embodiment according to the 8a to 8c this includes the measuring chamber 2 forming housing 1 a thin, one-sided closed tube 6 inside which a humid 4 and a temperature sensor 5 are arranged. The device also comprises a circumferential sealing ring 8th on the outside of the pipe 6 , In addition to the temperature 5 and humidity sensors 4 is at least one more sensor 12 arranged to detect substrate sound and / or substrate vibrations, can be detected acoustically via the ambient non-typical sounds that are caused by mechanical damage to the wood (for example, in the formation of cracks). The pipe 6 gets into a hole 9 in the wood 3 used and the sealing ring 8th between pipe 6 and wood 3 forms the measuring chamber 2 as a compartment separated from the outside air. Depending on the depth of the hole, the wood moisture can be measured at a defined depth below the wood surface with this design ( 8c , left side) or the mean wood moisture can be determined over a defined wood cross section ( 8c , right side), located in a deeper hole 9 established. At the same time, in addition to the measurement according to the invention of the wood moisture with the help of the additional sensor 12 also acoustic events in the vicinity of the measuring point are measured. This embodiment is particularly suitable for maintenance-free monitoring systems for the early detection of moisture-related and mechanical damage to construction timbers as well as to wood in the museum and heritage preservation sector.

Of course, it is possible, all of the previously described embodiments of the device according to the invention with one or more additional sensors 12 for measuring acoustic events in the vicinity of the measuring point.

When in the measuring chamber 2 If the moisture content of the wood moisture has been adjusted, the air humidity and the air temperature in the measuring chamber are measured simultaneously. In the simplest case, this value pair can be used to manually read the wood moisture from the Keylwerth diagram or extrapolate it from other tables. Particularly advantageous, however, is a digital recording of the air humidity 4 and (air) temperature sensors 5 supplied measured value pairs and an automatic calculation of the wood moisture using special algorithms that map the Keylwerth diagram or perform a corresponding extrapolation from table values.

For the further data storage of the measured value pairs and / or the wood moisture values calculated from them, a multiplicity of paper-bound and / or electronic possibilities are available which can be optimally adapted alone or in combination with the respective measuring task and combined to form a problem-specific measuring arrangement. A non-exhaustive and non-exclusive list of such problem-specific adapted measuring arrangements is in the 9 to 14 shown.

An inventive measuring arrangement of a hand-held measuring device for measuring the moisture content of wood is in the 9 shown. This includes a combined air humidity 4 and (air) temperature sensor 5 having device according to the 4a to 4c , a problem-specific programmed microcontroller 13 and a display 14 for measured value output. By placing the (measuring) device on the wooden surface arises in the measuring chamber 2 the moisture content corresponding to the moisture content of the wood and the microcontroller 13 calculated from the humidity and the air temperature using the above or another suitable algorithm, the wood moisture and displays the calculated value on the display 14 at. An exemplary application is the mobile measurement of wood moisture near the surface.

A measuring arrangement of a stationary measuring device for measuring a wood moisture profile in a mast is in the 10 shown. This comprises a measuring device according to the 7a to 7c with a housing 1 , the several measuring chambers lying one above the other 2 in each of which a combined air humidity 4 and (air) temperature sensor 5 is arranged, a problem specific programmed microcontroller 13 and a non-volatile memory 15 for storing the measured values with the aim of the later measured value output. By screwing the (measuring) device in the wood turns into the individual measuring chambers 2 the moisture content corresponding to the moisture content of the wood and the microcontroller 13 calculates from the air humidity and air temperature via the above-mentioned or another suitable algorithm the wood moisture present at the respective sensor position and places the measured values and / or calculated data in the non-volatile memory at defined intervals 15 for subsequent evaluations. An exemplary area of application is the measurement of the effect of wood protection measures on the moisture exchange in the wood 3 ,

A measuring arrangement of a stationary measuring device for the continuous monitoring of the wood moisture and the ambient humidity in a living room is in the 11 shown. This includes a (measuring) device with a measuring chamber 2 with a combined air humidity 4 and (air) temperature sensor 5 according to the 5a to 5c and a second combined humidity and air temperature sensor 16 for simultaneous measurement of environmental conditions. Furthermore, the measuring arrangement comprises a problem-specific programmed microcontroller 13 and a data output to a nonvolatile memory 15 , In the measuring chamber 2 adjusts the moisture content corresponding to the moisture content of the wood and the microcontroller 13 calculated from the humidity and the air temperature using the above-mentioned or another suitable algorithm, the existing wood moisture. About the second combined humidity and air temperature sensor 16 At the same time, the temperature and humidity present in the vicinity of the timber construction are measured and all measured values and / or data calculated therefrom are stored in defined intervals in the non-volatile memory 15 filed for subsequent evaluations. An exemplary field of application is the monitoring of the ventilation behavior in the living area and a measurement of the effect of the ventilation behavior on the moisture in wooden constructions.

A measuring arrangement of a stationary, intelligent measuring sensor for the continuous monitoring of wood moisture at building physics problem areas in wooden structures is in the 12 shown. This includes a (measuring) device with a measuring chamber 2 with a combined air humidity 4 and (air) temperature sensor 5 according to the 5a to 5c , a problem-specific programmed microcontroller 13 and a data output to a central monitoring and control unit 17 that can monitor multiple sensors. In the measuring chamber 2 adjusts the moisture content corresponding to the moisture content of the wood and the microcontroller 13 calculated from the humidity and air temperature using the above-mentioned or any other suitable algorithm, the existing wood moisture. The measured values and / or data calculated therefrom are stored in the microcontroller 13 cached and at defined intervals to the central monitoring and control unit 17 transmitted and processed via a communication link (wired or wireless). An exemplary area of application is the monitoring of wood moisture at the same time at several building physics problem areas in swimming pools with wooden ceiling constructions and a control of the swimming pool air conditioning to prevent damage caused by fungi.

A measuring arrangement of a stationary, intelligent measuring sensor for the continuous monitoring of the wood moisture at building physics problem places in wood constructions and for the recognition of mechanical wood damages is in the 13 shown. This comprises a device according to the invention with a measuring chamber 2 with a combined air humidity 4 and (air) temperature sensor 5 as well as an additional acoustic sensor 12 according to the 8a to 8c , a problem-specific programmed microcontroller 13 and a data output to a central monitoring and control unit 17 , In the measuring chamber 2 adjusts the moisture content corresponding to the moisture content of the wood and the microcontroller 13 calculated from the humidity and the air temperature using the above-mentioned or another suitable algorithm, the existing wood moisture. About the acoustic sensor 12 Sounds are detected and then analyzed and possibly recognized as an environment typical and then associated with a corresponding mechanical damage (for example, by cracking). The measured values and / or data calculated therefrom are combined with the detected acoustic events in the microcontroller 13 cached and at defined intervals to the central monitoring and control unit 17 transmitted and processed via a communication link (wired or wireless). An exemplary field of application is the monitoring of wood moisture and cracking at the same time at several building physics problem areas to avoid wood damage in wooden structures without preventive chemical wood protection through early detection.

A measuring arrangement for the continuous monitoring of the wood moisture profile in a rafter and the dew point in the adjacent rafter insulation at a building physics problem point is in the 14 shown. This comprises two devices according to the invention, each with a plurality of superimposed measuring chambers 2 each with a combined air humidity 4 and (air) temperature sensor 5 according to the 7a to 7c , One of the devices is in the wood 3 and the second device parallel thereto in the adjacent thermal insulation 18 arranged. A problem-specific programmed microcontroller 13 takes the readings from the sensors and prepares them. The measured values and / or data calculated from them are stored in a non-volatile memory 15 filed and provided for further evaluations. An application area mentioned by way of example is the monitoring of the moisture content of the wood and the dew point of building physics problem areas after a roof modernization.

Claims (13)

Device for measuring the moisture content of wood ( 3 ) with a housing ( 1 ), the at least one measuring chamber ( 2 ), wherein the housing ( 1 ) on at least one housing wall for engagement with the wood ( 3 ) is formed, wherein the housing ( 1 ) is provided only in the housing wall provided for engagement with the wood with at least one opening and wherein in the measuring chamber ( 2 ) at least one air humidity sensor ( 4 ) and at least one temperature sensor ( 5 ) are arranged. Apparatus according to claim 1, characterized by at least one in the measuring chamber ( 2 ) arranged acoustic sensor ( 12 ). Apparatus according to claim 1 or 2, characterized in that the opening is separated by at least one seal from the environment. Device according to one of claims 1 to 3, characterized by one or more, for a pressure-loaded engagement in the wood ( 3 ) formed at the projections to the wood ( 3 ) provided housing wall. Device according to one of the preceding claims, characterized in that at least a portion of the housing is tubular. Apparatus according to claim 4 and 5, characterized in that the projections thread-shaped on the outer shell surface of the tubular housing ( 1 ) are arranged. Measuring arrangement with a device according to one of the preceding claims, a microprocessor for evaluating the measurement results of at least the temperature sensor 5 and the humidity sensor 4 and a device for storing and / or outputting the values for the moisture of the wood determined by the microprocessor ( 3 ). Method for measuring the moisture content of wood ( 3 ), wherein in and / or on a section of the wood ( 3 ) at least one to the wood ( 3 ) open, separated from the environment measuring chamber ( 2 ), in this measuring chamber ( 2 ) measured the temperature and the humidity and from the measured values the moisture of the wood ( 3 ) is determined. A method according to claim 8, characterized in that via a in the measuring chamber ( 2 ) arranged acoustic sensor ( 12 ) acoustic events are measured and the measured values are distinguished by an analysis in environment-typical or environment-untypical and the atypical events are assigned to mechanical damage wood. A method according to claim 8 or 9, characterized in that the evaluation of the measured values is carried out in electronic form. Method according to one of claims 8 to 10, characterized in that the evaluation of the measured values takes place in analog and / or digital form. A method according to claim 11, characterized in that the measured values and / or data calculated therefrom are stored in analog and / or digital form. Method according to one of claims 8 to 12, characterized in that the air temperature and the humidity in several on one or more pieces of wood ( 3 ) arranged measuring chambers ( 2 ) and the measured values and / or data calculated therefrom are stored and / or evaluated centrally.

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