RU2178049C2 - Crack monitoring in building structures - Google Patents

Abstract

FIELD: construction engineering; inspection, control, and tests of building structures, buildings, underground structures, and foundations. SUBSTANCE: method involves measuring crack increment in orthogonal directions. Gauge lengths assembled of thrust cones arranged in remote cantilevers are installed on building structure surface by means of assembly template. Thrust cones ensure high precision installation with self-centering in work position of indicating gage provided with bushes with cone sockets fixed on ends of stop and pullout rods and ensuring measurement of crack development. EFFECT: enhanced measurement accuracy; increased number of parameters recorded in the course of monitoring. 6 cl, 6 dwg

Description

 The invention relates to construction and can be used in the survey, observation and long-term testing of building structures, buildings, underground structures and foundations.

 A known method of controlling the formation and development of defects (cracks) using strips of strain gauges or varnish conductive strips, etc. with measuring the resistance of the strain gauges / 1 /.

 The disadvantages of this method are the need to install complex circuits and equipment, high requirements for the technique of gluing strips across the crack, a limited range of linear dimensions of the width of the crack.

 There is also a method of conducting long-term observations of the formation and development of cracks using plaster disposable beacons installed across the crack in the structure, or steel inventory beacons with measurements using a magnifier or comparator / 2 /.

 The disadvantages of this method include registration of increments of only one component, usually of the same polarity (crack opening), relatively low accuracy of measuring increments of the change in the distance between the crack faces, the inability to use the method with a large crack opening width (more than 1 cm).

 Closest to the proposed invention is a method for monitoring cracks in building structures, including rigid installation using the mounting template of the supports of the inventory measuring base in the plane of the building structure on different sides of the crack, measuring with a dial gauge the distance between the supports with determining increments of the crack parameters / 3 /.

 The disadvantage of this method is the registration of increments of only one component and the relatively low accuracy of measuring increments of the change in the distance between the sides of the crack.

 In practice, for various reasons, it is often necessary to quickly evaluate dangerous trends in the dynamics of the development of defects (cracks) of arbitrary orientation and size in a short time without an expensive comprehensive survey of the technical condition of the structure and based on a numerical analysis of the increment of crack parameters to provide an expert assessment of the state of the structure. In relation to the problems of technical inspection of structures, monitoring is the process of tracking the change in the state of a defect from the moment it is registered by the selected attribute (parameter) during the observation interval. Various options for a detailed definition of the concept of monitoring are given in / 4 /.

 The objectives of the invention are to increase the accuracy of measurements, increase the number of parameters recorded during monitoring, the ability to quickly determine dangerous trends in the dynamics of crack changes and the ability to make repeated observations at any time regardless of the time of year.

 The solution to this problem is achieved by the fact that in the method for monitoring cracks in building structures, which includes rigid installation using the mounting template of the supports of the inventory measuring base on the surface of the building structure on different sides of the crack, measuring with a dial gauge the distance between the supports with determining increments of the crack parameters, measuring the distance between the supports are carried out in orthogonal directions, for which at least one additional measuring base is installed, and each measuring base is made with two supports in the form of persistent cones made of durable material, the measurement is made by a dial gauge, at the ends of the stop and extendable rods of which bushings with conical nests are fixed, at the vertices of which axial channels are made, and the taper of the stop cone of the measurement base is made smaller, than the taper of the socket of the indicator rod sleeve, the measuring bases include two supports made in the form of persistent cones made of durable material, while the measuring bases are installed orthogonal directions, and the measurement of dial gauge manufacture, the ends of the thrust and the sliding rods which are rigidly fixed additional sleeve with conical slots, which operate at the vertices of the axial channels, wherein the taper of the stop cone operate less than the taper socket.

 To determine the total displacement vector of one side of the crack relative to the other and, therefore, to further increase the accuracy, the measuring bases are installed in three orthogonal directions, one of them being oriented along the crack, the other perpendicular to the surface of the building structure, and the third in the perpendicular direction to the crack moreover, some persistent cones of the measuring bases are mounted directly on the surface of the building structure, while others are mounted in remote brackets.

 For the coaxial installation of the supports of the measuring base, a mounting template of a detachable design is used, having cylindrical elements ending with threaded holes, while the cylindrical elements are placed one inside the other with the possibility of their rigid fixation relative to each other using a stop screw, and thrust cones are screwed into the holes , on the cylindrical parts of which a thread is also cut, after which the template, together with the supports, is attracted to the surface of the structure through the adhesive composition with a clamp the wedge is fixed with wedges into this crack, and after the adhesive composition has hardened, the template, clamp and wedges are removed.

 For clearance-free fixing and elimination of stress concentration during measurements at the tops of the inner conical surfaces of the stem bushings, cylindrical channels are made along the axis of the bushings of the smallest technological diameter of the bushings, while the contacting conical metal surfaces are strengthened by heat treatment and perform at least grade 7 in accuracy.

 Simultaneously with the installation of measuring bases on cracks, an additional calibration measuring base is installed on the undamaged section of the structure.

 To protect the thrust cones from accidental mechanical damage, corrosion, dirt after taking readings, the support cones are closed with protective caps made of light metal with a thread inside, which are screwed onto the thread of the cylindrical part of the thrust cones.

 In FIG. 1 shows the installed measuring device 1 with bushings 2 in conical stops 3, mounted on different sides of the crack 4 during the measurement.

 In FIG. Figure 2 shows the mounting scheme of the conical stops of the measuring base in the brackets using the mounting template to the surface of the building structure on different sides of the crack.

 In FIG. 3 and 4 are diagrams of the mounting template and the installation of the protective cap.

 In FIG. Figure 5 shows the measurement of shear deformations in a crack in the plane of a building structure using an external bracket.

 In FIG. Figure 6 shows the measurement of shear deformations in a crack in the direction perpendicular to the plane of the structure using a remote bracket.

 The method is as follows.

 Depending on the task, the dial indicator 1 of the measuring device of the required accuracy is selected (basically an indicator with a division price of 0.01, less commonly, 0.002 is used). The nature of the defect in the building structure is evaluated and a decision is made on the number of measured components of the displacement vector of one crack bank relative to the other. Accordingly, in the orthogonal directions with respect to each other, the required number of measuring bases is set. Each of the measuring bases contains two supports in the form of persistent cones. At the ends of the sliding and supporting indicator rods, additional bushings 2 are rigidly fixed with conical sockets 15 having a taper greater than the taper of the thrust cones 3 of the measuring base (by 3-5 degrees). At the same time, at the tops of the conical nests that come into contact with the cones of the supports, cylindrical channels 5 of minimum diameter, for example 1 mm, are drilled along the axis of the bushings for contacting the thrust cone 3, not at a point, but along a circle line. This will exclude the point bearing of the tip of the cone in a flat surface, which will make it possible to avoid a high concentration of contact stresses and crushing of the top of the thrust cone, and, as a result, possible additional errors. The nests of the bushings of the measuring device 15 and the stop cones are made of durable material, mainly heat-treatable steel, for example, steel 45, and they are ground no less than grade 7 in accuracy.

 Several composite mounting templates 8 are made of aluminum, each of which consists of two elements, one of which enters the other along a cylindrical channel. The fixing of one element relative to the other in the required position is carried out by the stop screw 9. The ends of the elements of the mounting template have holes with a thread 10 for screwing the stop cones provided on the cylindrical part of the base of the cone with the corresponding thread 11. The elements of the mounting template are fixed to each other in a basic position at which the distance between the vertices of the thrust cones corresponds to the average readings of the selected dial indicator in the working position in order to be able to register Vat both positive and negative incremental changes in the distance between the edges of the crack. Thus, the range of the base of the template corresponds to the range of the base of the dial indicator.

 Thrust cones can be fixed to the surface of a building structure directly or using remote brackets.

 The fastening elements 6 of the persistent cones to the sides of the crack 4 in the form of external brackets are made of a complex profile of increased bending stiffness (see Fig. 6) and a metal corner, into which one of the shelves is pressed in a cone after preliminary drilling in it with a hole with a diameter smaller than the rear cylindrical part 7 thrust cone. Remote brackets transfer the movement of the other bank above the crack in the direction of the corresponding axes of the measuring bases.

 A portion of the adhesive mixture 12 of high viscosity, high adhesive ability and quick setting time is prepared. The adhesive mixture is applied to the free surface of the fastening elements of the supports (directly bearing cones or brackets) and to the corresponding surface sections of the building structure. The corresponding contact surfaces must be cleaned of dirt and degreased. A wire clamp is installed in the defect along the axis of the installation of the measuring base. Pressing the supports with the mounting template is carried out with a wire clamp, the ends of which are led into a crack and fixed in the defect by driving one or more wooden wedges 14. This method provides reliable rigid fastening on arbitrarily oriented surfaces. After hardening the adhesive mass, the mounting template is released from the clamp with the removal of the wooden wedge and clamp from the crack. The stop screw 9 of the mounting template 8 is released, the elements of the mounting template are unscrewed from the stop cones 3 and the mounting template is removed. The measuring base is ready for measurements.

 To eliminate a possible error in the determination of the ith reading caused by random unforeseen violations of tight hard contact between the stops of the cones of the measuring base and the conical slots of the indicator, an additional calibration measuring base is installed on the undamaged section of the structure along with their installation on cracks (defects).

 When taking measurements, the measuring device is installed along the axis of the measuring base in the following sequence. First of all, a sleeve of a fixed indicator rod is put on one of the protrusions (persistent cones), then the experimenter flushes the indicator rod completely movable, sets the indicator along the measurement axis and, releasing the retractable rod, puts the sleeve of this rod on the free conical protrusion of the second support of the measuring base. Under the action of the indicator spring, due to the guide cone of the extension rod sleeve with the centering channel, the indicator cone sleeve and the measuring cone thrust base self-center. In this case, the bushing tightly contacts the cone with its channel.

 Then the indicator reads, which is recorded in the observation log. After completing the count, the retractable rod of the indicator is recessed, and the indicator is removed from the measuring base. On the released cylindrical parts of the supports of the measuring base, aluminum protective caps 16 are screwed onto the thread, filled with a viscous lubricant, which cover the pointed peaks of the thrust cones 3, protecting them from accidental mechanical damage, dust, dirt, and in order to exclude possible accidental injuries until the next measurement cycle is completed.

 The effectiveness of the proposed method is determined by the following indicators. Firstly, the measuring device, supports, mounting template, and even clamps and wedges are inventory, the resource of use of which can amount to several hundred installations and subsequent measurements. Secondly, the method can be used to take measurements both indoors and outdoors, both at positive and negative temperatures of the outdoor air and structure, i.e. at any time of the year.

 The high accuracy of determining increments makes it possible to quickly carry out an examination of the trends in the dynamics of defects (cracks) in a short time, determined by one or several days of observation, which is important in the case of especially critical structures and structures.

 The developed monitoring method has another time extreme observation limit, namely, that the intervals between measurements can be months and years, which makes it possible to monitor the state of the structure for a very long time, which is a significant circumstance when evaluating such an important parameter as the resource the work of the surveyed facilities.

 An important advantage of the method is the rapid determination of the main component of the displacement vector of one bank of the defect relative to the other, having determined which, it is possible not to take into account other components of the displacement vector, the contribution of which is insignificant.

 Economic efficiency and practical benefits, the specific gravity of which is the main part of efficiency, gives reason to believe that this method, at least an order of magnitude superior to existing analogues.

Literature
1. A. N. Tetior, V. N. Pomeranets "Inspection and testing of structures." - Kiev, High School. Head Publishing House, 1988, p. 38-40, 118-119.

 2. Ibid., C. 118-119.

 3. BRIGHT P. I. Geodetic methods for measuring deformations of foundations and structures, M.: Nedra, 1965, p. 280-282.

 4. B. I. Kulachkin and others. "Fundamental and applied problems of geotechnics", M., p. 70-72.

Claims (6)

 1. A method for monitoring cracks in building structures, including a rigid installation using the mounting template of the supports of the inventory measuring base on the surface of the building structure on different sides of the crack, measuring the distance between the supports with a dial gauge and determining increments of the crack parameters, characterized in that the distance between the supports is measured carried out in orthogonal directions, for which at least one additional measuring base is installed, and each measuring base in they are filled with two supports in the form of persistent cones made of durable material, the measurement is made with a dial gauge, at the ends of the persistent and retractable rods of which bushings with conical nests are fixed, at the tops of which axial channels are made, and the taper of the thrust cone of the measuring base is smaller than the taper of the socket indicator stem bushings.  2. The method according to p. 1, characterized in that the measuring base is installed in three orthogonal directions, while one of them is oriented along the crack, the other is perpendicular to the surface of the building structure, and the third is in the perpendicular direction to the crack, with one stop cones measuring bases are mounted directly on the surface of a building structure, while others are mounted in remote brackets.  3. The method according to p. 1, characterized in that they use a mounting template of a detachable design having cylindrical elements ending in threaded holes, while the cylindrical elements are placed one inside the other with the possibility of their rigid fixation relative to each other using a stop screw, and threaded holes screw thrust cones, on the cylindrical parts of which the thread is also cut, after which the template, together with the supports, is attracted to the surface of the structure through an adhesive composition with a clamp, which is fixed yayut in this crack wedges, and after curing adhesive composition pattern, collar and wedge removed.  4. The method according to p. 1, characterized in that at the vertices of the inner conical surfaces of the bushings of the rods, cylindrical channels are made along the axis of the bushings of the diameter of the smallest technological possibilities, while the contacting conical metal surfaces are strengthened by the heat treatment method and are made at least grade 7 in accuracy.  5. The method according to p. 1, characterized in that at the same time as installing the measuring bases on the cracks, an additional calibration measuring base is installed on the undamaged section of the structure.  6. The method according to p. 1, characterized in that after taking readings, the support cones are closed with protective caps made of light metal with thread inside, which are screwed onto the thread of the cylindrical part of the thrust cones.

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