English
Русский 13-21 p.
The design of high-rise complexes includes the solution of a multifactorial problem, consisting of: survey work (geodesic development; tracing work; marking and survey work; engineering-geological, hydrogeo-logical, hydrological), functional operational, as well as the reliability of the structure, the prospects for its further reconstruction, economic feasibility of construction, selection of structural components of the object, etc. The purpose of this work is theoretical and experimental research in the design and construction of facilities, including alternative methods for measuring the angle of deviation from the vertical frame of a structure (during the frame erection of structures).
To determine the deviation of columns from verticality, an alternative method is proposed for "indirect measurements of the angle" of the deviation of the column, as well as the distance from the theodolite (total station) to the plane of the standard. Geometric schemes for determining the linear angle of deviation of a column from verticality and the installation of a theodolite (tacheometer) for recording deviations of columns perpendicular to the sides of the structure are presented.
The technique of carrying out experimental researches is described and the received graphic dependences are resulted. The performed surveys and calculations make it possible to determine the deviations of the columns from the vertical by means of angular measurements from the ground.
To determine the deviation of columns from verticality, an alternative method is proposed for "indirect measurements of the angle" of the deviation of the column, as well as the distance from the theodolite (total station) to the plane of the standard. Geometric schemes for determining the linear angle of deviation of a column from verticality and the installation of a theodolite (tacheometer) for recording deviations of columns perpendicular to the sides of the structure are presented.
The technique of carrying out experimental researches is described and the received graphic dependences are resulted. The performed surveys and calculations make it possible to determine the deviations of the columns from the vertical by means of angular measurements from the ground.
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2. Kuznetsov O.F., Ivanova A.P., Vasilyeva M.A. Experience in determining the accuracy of mounting panels of transverse walls by photogrammetric method. In the collection: University complex as a regional center of education, science and culture: Materials of the All-Russian Scientific and Methodological Conference (with international participation). Orenburg, 2021. P. 255 – 258. (rus.)
3. Kuznetsov O.F., Ivanova A.P., Vasilyeva M.A., Deligirova (Gunko) V.V. The texture of photographic and geometric-geodetic works applied to agricultural lands. Proceedings of the Orenburg State Agrarian University. 2021. 4 (90). P. 186 – 190. (rus.)
4. Vekker A.I., Ivanova A.P. Analytical evaluation of the application of geometry in construction. In the collection: Youth science in the XXI century: traditions, innovations, vectors of development: Materials of the International Research Conference of Young scientists, postgraduates and students. Editorial board: A.N. Popov et al. Orenburg-Samara, 2021. P. 99 – 103. (rus.)
5. Ivanova A.P., Mezhueva L.V., Bykov A.V., Vasilyeva M.A. Prerequisites of impact and methods of protection against vibration of building structures. In the collection: Educational environment today and tomorrow: Materials of the XI International Scientific and Practical Conference Moscow Institute of Technology. 2016. P. 209 – 212. (rus.)
6. Mezhuyeva L.V., Ivanova A.P. Means of protection of fittings from corrosion. In the collection: The legacy of I.M. Gubkin: integration of education, science and practice in the oil and gas sector: Materials of the international scientific and practical conference. Under the general editorship of S.G. Gorshenin. 2018. P. 194 – 197. (rus.)
7. Vasilyeva M.A., Voronkov A.I., Ivanova A.P. Development and design of drawings of project documentation: a textbook for students studying in programs of higher professional education in the specialty “Heat supply and ventilation”. Orenburg, 2010. (rus.)
8. Inzhutov I.S., Zhadanov V.I., Falk A., Nazirov R.A., Amelchugov S.P., Chaikin E.A. Approaches to nordifikation of high-latitude construction engineering. Journal of Siberian Federal University. Engineering and Technologies. 2019. 12 (2). P. 222 – 230.
9. Piskareva T.I., Ivanova A.P., Getmanova N.V., Deligirova V.V. Program for assessing the reliability of a technical system. Certificate of registration of a computer program RU 2011614124. Application 2011612427 dated 08.04.2011. (rus.)
10. Piskareva T.I., Ivanova A.P., Mezhueva L.V. Transparency of concentration of adaptive conditions of adhesion strength of microparticles. Certificate of registration of the computer program 2021666670, 18.10.2021. Application No. 2021665860 dated 14.10.2021. (rus.)
11. Shakhov V.A., Piskaryova T.I., Ivanova A.P., Mezhueva L.V Updating the matrix approach to creat-ing a parametric balance of technological process. In collection: IOP Conference Series: Materials Science and Engineering. International Science and Technology Conference (FarEastCon 2020) 6th-9th October 2020, Russky Island, Russia. 2021. P. 052047.
12. Pinaykin I.P., Zhadanov V.I., Ukrainchenko D.A.Wooden low-rise construction. New constructive and technological solutions. In collection: IOP Conference Series: Earth and Environmental Science. Ser. "International Baikal Investment and Construction Forum "Spatial Restructuring of Territories"" 2021. P. 012092.
13. Zhadanov V.I., Charikova I.N., Shardakov V.M.Visualization of construction infrastructure objects. In collection: Journal of Physics: Conference Series. Krasnoyarsk Science and Technology City Hall of the Russian Union of Scientific and Engineering Associations. Krasnoyarsk, Russia, 2021. P. 32031.
Kuznetsov O.F., Ivanova A.P., Vasilyeva M.A., Deligirova V.V., Piskareva T.I., Mezhueva L.V. Alternative method of experimental measurement of the angle of deviation from the verticality of the frame in design and construction. Construction Materials and Products. 2022. 5 (2). P. 13 – 21. https://doi.org/10.58224/2618-7183-2022-5-2-13-21