RU2665149C1 - Method for express diagnostics of the resonant properties of aged wood in old structures - Google Patents

Abstract

FIELD: measuring equipment.SUBSTANCE: invention relates to the field of diagnostics of the physical and mechanical properties of wood aged in old structures. Method comprises the use of tools for sampling wood and the subsequent determination of its physical and mechanical properties, and express diagnostics of the resonant properties of wood is carried out through their examination, revealing the location of walls and other structural elements relative to the sides of the world and the prevailing wind rose of a particular region; to determine the locations of sampling and express diagnostics of the resonant properties of wood in a strictly radial direction, fixed rigidly on the opposite ends of each structural element to be examined, so that their straight working surfaces pass through the core of the wood being examined; the free ends of the strips should extend no less than 100 mm from the outer surface of the structural element, while on their working surfaces there are fixed two fastening elements, one of which is located at the outer surface of the wood being examined, and the other is at a certain distance from it closer to the free end of the bar, on which the connecting elements are connected, connecting the slats of the opposite ends of the structural element, forming a secant plane in the radial direction, which is the direction of submission of the working body of the bur for research in measuring the resistance of wood to the boring and determination of the characteristics of aged wood.EFFECT: increase in the accuracy and speed of diagnostics is achieved.1 cl, 4 dwg

Description

The invention relates to the field of diagnostics of the physicomechanical properties of wood aged in old structures, and can be used in non-destructive selection of high-quality target material with predictable technical characteristics for the manufacture of musical instruments, acoustic panels in auditoriums, theaters, and other special wood assortments in mechanical engineering, aviation and shipbuilding industries.

It is known that the method of N.N. Andreeva, based on the determination of the acoustic sound emission constant K (m ⁴ / kg × s), which, in turn, depends on the density and dynamic elastic modulus [1, 8]:

It was also established that the macroscopic structure and color of wood are related to its resonance properties [9].

There are methods for determining density, elastic modulus, macroscopic structure and appearance.

A known method for the diagnosis of resonant properties of wood and a device for its implementation. This method is based on sampling in the form of radially transverse wood cores, the subsequent determination of the dynamics of changes in the width of annual layers and the content of late wood in them by their microhardness [3].

The disadvantage of this method is that the sample selected for the study requires the use of a specialized installation - an electronic microdendrometer or the like, and, as a result, cannot be assigned to express diagnostics of the resonance properties of wood in buildings. Also significant disadvantages of the presented method include the fact that from the time of core sampling at the location of the test object to the moment of delivery of the prototype to the laboratory, its physical and mechanical properties change, which reduces the accuracy of the research results.

A known method of ultrasonic testing of resonant wood in the form of logs, including measuring ultrasonic parameters in the working area of the resonant wood of logs using a sensor and a receiver of ultrasonic waves with cone-shaped tips [4].

The main disadvantage of this method is that it is based on the acoustic test method, that is, it requires the manufacture of samples of a certain shape and size, as well as when using a wooden structure at the location, having a 220 V electric power source and increasing the conductors of ultrasonic sensors for bypassing the large-sized structural elements of the object under study.

A known method of studying the properties of wood by measuring the resistance to drilling, represented by the device [6] and which consists in drilling the test material with a thin drill and comparing the obtained drilling power with its physico-mechanical characteristics.

The disadvantage of this method is that when researching with this method and device, a sample is not taken, so it becomes difficult to identify its macroscopic structure and it is impossible to determine the appearance (color), therefore, the results of the diagnosis of resonance properties may not be accurate enough.

Also known is a method for early diagnosis of the resonant properties of standing wood by determining the dendroacoustic properties of the test sample, which consists in taking samples in the form of cuttings from the south side of the middle side branches of spruce undergrowth, and then determining the natural vibration frequency of the selected cuttings by the resonance method [5 ].

The disadvantage of this method is that it is designed to study the resonance properties of the samples in the form of side cuttings, that is, part of the undergrowth, which does not require special approaches and tools to obtain a sample. Determination of the frequency-amplitude characteristics by this method is possible using a specialized installation - a device for dendroacoustic tests for early detection of the resonant properties of standing wood, which makes the method stationary and performed only in laboratory conditions. The considered installation and method can only work on samples with a longitudinal arrangement of annual layers in the sample.

The prototype is a method described in relation to a device for express diagnostics of the resonant properties of standing wood, which consists in examining resonant wood with a device containing a hollow drill as a working body, similar in design and size to standard incremental drill for core sampling from wood, and including electronic system for measuring resistance to drilling [7].

The disadvantage of this method is that to orient the device and establish a strictly radial direction of drilling, a special measuring fork is used, which is designed to be used on a separate tree or timber, which makes it impossible to use it, for example, when examining a log wall of a house, since snug logs there is no possibility of grasping the investigated structural element at three points, as indicated in the invention. Obtaining radial samples is an important condition for the diagnosis of resonance properties of wood.

A common disadvantage of the considered methods is that they do not present a method for express diagnostics of the resonance properties of wood aged in old structures, including specification of structural elements for researching aged wood, diagnosed characteristics of wood.

EFFECT: increased accuracy and efficiency of express diagnostics of the resonance properties of wood in old structures to be demolished, as well as expanding the range of complex dendrometric studies directly in the vicinity of the object.

The technical result is achieved by the fact that express diagnostics of the resonant properties of wood is carried out by examining them, revealing the location of walls and other structural elements relative to the cardinal points and the prevailing wind rose of a particular region; to determine the places of sampling and express diagnostics of the resonant properties of wood in a strictly radial direction, strips are used that are rigidly mounted on opposite ends of each structural element under study so that their straight working surfaces pass through the core of the wood under investigation; the free ends of the slats should extend no less than 100 mm from the outer surface of the structural element, and two connecting elements are fixed to their working surfaces by means of fasteners, one of which is located at the outer surface of the wood being examined, and the other is closer to it at some distance to the free end of the bar; both connecting elements are in a tense state and are straightforward, connect the strips of opposite ends of the structural element, form a plane cutting it in the radial direction, which is the direction of supply of the working element of the drill for research; as connecting elements, tensioned cords, ropes, laser levels or the like can serve.

In FIG. Figure 1 shows an example of a general layout of areas for express diagnostics on the southern outer log wall of a structure; in FIG. 2 diagram of the layout of sections for express diagnostics on a single structural element of the structure; in FIG. 3 determination of the radial direction of express diagnostics; in FIG. 4 wood texture on a radial and tangential edged surface (layer) of structural elements of structures

The method is as follows.

Initially, a survey of the structure is carried out and with the help of a compass, the location of the structural elements of the structures for research relative to the cardinal points and the prevailing wind rose of this region is determined. Next, the selected symbols are set on the selected elements.

The priority structural elements of the structures include external walls located on the south-west side and as perpendicular as possible to the prevailing wind rose (Fig. 1), where wood, compared to other sides, is more exposed to light and temperature-humidity factors that contribute to a more intense chemical reactions in wood, which reduces the content of sugar fraction (pentosans and hexosanes), at the same time increases the content of lignin and, accordingly, increases the modulus elasticity. Information about the wind rose of a given region can be taken, for example, from a meteorological reference book.

In the case of studying the structural elements of a seasoned wooden structure in a round form, such as logs, rafters, etc., it is important to determine the location of the core 1, annual layers in them and set a reference point for the strictly radial 2 direction of drilling 3. For this, at the two ends of the logs or bars 4, the strips 5 are rigidly fixed, so that their working surface passes through the core 1 of the wood under investigation. The length of the strips and the place of their fastening is selected based on the condition that their free ends should extend at least 100 mm from the outer surface of the structural elements. Next, two connecting elements 6 and 7 are installed on the working surfaces of the slats 5, one is located at the outer surface of the wood under investigation, and the other is at a certain distance from it closer to the free end of the slat 5, respectively. The connecting elements form a secant structural element in the radial direction of the plane and which is the direction of study 3. The level can be stretched cords, ropes, laser levels or the like.

When diagnosing structural elements having an edged surface (s), for example, floor and ceiling boards, logs, etc., the location of the annual layers can be determined by the texture on the face (Fig. 4), for example, position 8 in Fig. 2, and on their ends. The remaining steps to set the direction for determining the location of sampling and express diagnostics are performed in the same way as in the study of structural elements in a round form.

Focusing on the fixed connecting elements on the logs or bars of the walls, for example, 3 points are noted (9, 10, 11): on both sides - located at the same offset from the log cup (line A and C) at a distance of at least 500 mm or from the end (for structural elements without cups) at the same distance (4-9, 4-11); middle - located in the center of the wall (line B).

Express diagnostics is carried out using devices based on measuring the resistance of wood to drilling.

As a result of the diagnosis, depending on the selected device and method, several or one of the following characteristics of seasoned wood are determined: density, elastic modulus, macroscopic structure, appearance. According to the data obtained, the acoustic sound emission constant K is determined or they are compared with standard (tabular) data and the corresponding conclusions are made.

High-quality wood, aged in old buildings and with satisfying resonant properties, is subsequently used for its intended purpose.

LIST OF SOURCES

1. Andreev, N.N. About a tree for musical instruments / N.N. Andreev // Sat. tr / NIIMP. M.L., 1937. Issue. 1, pp. 11-18.

2. Volynsky, V.N. On the relationship of wood strength with several of its parameters // Lesn. journal 1991. No4. S. 60-64. (Izv. Higher education. Institutions).

3. Pat. 2130611 Russian Federation IPC G01N 33/46 (1995.01). A method for diagnosing the resonance properties of wood and a device for its implementation / Fedyukov V.I., Veselov L.N., Veselov V.L. - No. 97109185/13; declared 05/28/1997; publ. 05/20/1999.

4. Pat. 2334984 Russian Federation IPC G01N 33/46 (2006.01). The method of ultrasonic testing of logs of resonant wood / Mazurkin P.M., Temnova EB - No. 2006126506/12; declared 07/20/2006; publ. 01/27/2008, Bull. Number 27. - S. 7.

5. Pat. 2439561 Russian Federation IPC G01N 33/46 (2006.01). A method for early diagnosis of the resonant properties of standing wood / Fedyukov V.I., Saldaeva E.Yu., Vasenev A.L. - No. 2009111148/13; stated March 26, 2009; publ. 01/10/2012, Bull. No. 1. - S. 7.

6. Pat. 2448811 Russian Federation IPC В23В 25/06 (2006.01). A device for measuring drilling resistance / Sharapov E.S., Chernov V.Yu., Chernov Yu.V. No. 2010145313/28; declared 11/08/2010; publ. 04/27/2012, Bull. No. 12. - S. 3.

7. Pat. 2577886 Russian Federation IPC В23В 25/06 (2006.01). Device for express diagnostics of the resonance properties of standing wood / Fedyukov V.I., Saldaeva E.Yu., Tsvetkova E.M., Vasenev A.L. - No. 2014118170/02; declared 05/05/2014; publ. 03/20/2016, bull. Number 8. - S. 3.

8. Ugolev, B.N. Wood science with the basics of forest commodity science: A textbook for forestry universities. Ed. 3rd, rev. and additional: M .: MGUL, 2001 .-- 340 p.

9. Fedyukov, V.I. Resonant spruce: selection in the vine, growing, target use: monograph / V.I. Fedyukov. - Yoshkar-Ola: PSTU, 2016 .-- 256 p.

Claims (1)

A method for express diagnostics of the resonance properties of wood aged in old structures, including the use of tools for sampling wood and then determining its physical and mechanical properties, characterized in that express diagnostics of the resonance properties of wood is carried out by examining them, revealing the location of walls and other structural elements relative to the cardinal points and the prevailing wind rose of a particular region; to determine the places of sampling and express diagnostics of the resonant properties of wood in a strictly radial direction, strips are used that are rigidly mounted on opposite ends of each structural element under study so that their straight working surfaces pass through the core of the wood under investigation; the free ends of the slats should extend at least 100 mm from the outer surface of the structural element, with two fasteners fixed to their working surfaces, one of which is located at the outer surface of the wood being examined, and the other at a certain distance from it closer to the free end strips; on which the connecting elements are fixed, connecting the strips of opposite ends of the structural element, forming a plane cutting it in the radial direction, which is the direction of supply of the working element of the drill for research when measuring the resistance of wood to drilling and determining the characteristics of aged wood.

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