225-0204/01 – Buildings Roofing (ZB)
| Gurantor department | Department of Building Constructions | Credits | 5 |
| Subject guarantor | doc. Ing. Miloslav Bagoňa, PhD. | Subject version guarantor | doc. Ing. Miloslav Bagoňa, PhD. |
| Study level | undergraduate or graduate | Requirement | Compulsory |
| Year | 3 | Semester | summer |
| | Study language | Czech |
| Year of introduction | 2019/2020 | Year of cancellation | |
| Intended for the faculties | FAST | Intended for study types | Bachelor |
Subject aims expressed by acquired skills and competences
The aim of the subject Buildings Roofing is to gain knowledge about the issue of flat, sloping and steep roofs, in terms of their design, construction and materials, as well as in terms of building physics.
Teaching methods
Lectures
Tutorials
Summary
The subject Buildings Roofing follows the subjects Building Constructions I., Building Constructions II. and Building Envelopes. The subject covers the issue of flat, sloping and steep roofs, in terms of their design, construction and materials, as well as in terms of building physics.
Compulsory literature:
Recommended literature:
[1] Vyhláška č. 268/2009 Sb. o technických požadavcích na stavby ve znění Vyhlášky
č. 20/2012 Sb.
[2] ČSN 73 1901 Navrhování střech - Základní ustanovení. (2011).
[3] Solař, J.: Pozemní stavitelství IV. http://fast10.vsb.cz/studijni-materialy/ps4/.
[4] Hanzalová, L., Šilarová, Š. a kol.: Ploché střechy navrhování a sanace. Informační centrum ČKAIT, s. r. o., Praha 2005.
ISBN 80-86769-71-2.
[5] Chaloupka, K., Svoboda, Z.: Ploché střechy. Praktický průvodce. Grada Publishing, a. s. Praha, 2009.
ISBN 978-80-247-2916-9.
[6] Novotný, M., Misar, I.: Ploché střechy. Grada Publishing, a. s. Praha, 2003.
ISBN 80-7169-530-0.
[7] Fajkoš, A., Novotný, M.: Střechy. Základní konstrukce. Grada Publishing, a. s. Praha, 2003.
ISBN 80-247-0681-4.
[8] Vaverka, J. a kol. Stavební tepelná technika a energetika budov. Vysoké učení technické v Brně, nakladatelství VUTIUM. Brno, 2006.
ISBN 80-214-2910-0.
[9] Vinař, J. a kol. Historické krovy I. Konstrukce a statika.. Grada Publishing, a. s. 2004.
ISBN 80-7169-575-0.
[10] Vinař, J. a kol. Historické krovy II.Průzkumy a opravy. Grada Publishing, a. s. 2005.
ISBN 80-247-1111-7.
[11] Kohout, J., Tobek, A.: Tesařství. Tradice z pohledu dneška. Grada Publishing, s. r. o.1996.
ISBN 80-7169-413-4.
[12] Oláh, J., Mikuláš, M., Mikulášová, D.: Šikmé střechy. Konstrukce, skladby, detaily, rekonstrukce. . Jaga group, v. o. s., Bratislava, 2002.
ISBN 80-88905-77-X.
[13] Oláh, J.: Strešné plášte podkroví a nadstavieb. Jaga group, v. o. s., Bratislava, 2000.
ISBN 80-88905-61-3.
[14] Oláh, J., Mikuláš, M.: Krytina a doplňkové konštrukcie striech. Jaga group, v. o. s., Bratislava, 2001.
ISBN 80-88905-54-0.
[15] ČSN 73 05 40 - 3 Tepelná ochrana budov – Část 3: Návrhové hodnoty veličin (listopad 2005).
[16] ČSN 73 05 40 - 2 Tepelná ochrana budov – Část 2: Požadavky (2011).
[17] Svoboda, Z.: TEPLO 2015. Výpočtový program pro PC.
[18] Svoboda, Z.: AREA 2015. Výpočtový program pro PC.
[19] Svoboda, Z.: MEZERA 2015. Výpočtový program pro PC.
Way of continuous check of knowledge in the course of semester
Written final test, control of read professional literature, conversational topics
E-learning
Other requirements
At least 70% attendance at the exercises. Absence, up to a maximum of 30%, must be excused
and the apology must be accepted by the teacher (the teacher decides to recognize the reason
for the excuse). Tasks assigned on the exercises must be hand in within the dates set by the
teacher.
Requirements for the student in the case of an individual study plan: At least 50% participation in exercises, submission of all required programs, writing of the test.
Prerequisities
Subject has no prerequisities.
Co-requisities
Subject has no co-requisities.
Subject syllabus:
Syllabus of lecture:
1. Introduction. Basic requirements for roofs. Division of roofs. Roof drainage introduction, outside roof drainage.
2. Inside roof drainage. Sewerage systems used for roof drainage gravitational and vacuum. Determination of the size of roof drains and vertical rainwater pipes. Principles for roof drainage.
3. Layers of roof cover. Basic layers bearing stratum and damp course (covering). Coating and folded damp courses (coverings).
4. Supplementary layers of roof cover protective damp course, auxiliary damp course, vapour-tight layer, expansion layer, thermal insulation layer, slope layer, footing, etc.
5. Flat roofs general characteristics, division. Single-skinned flat roofs unventilated and ventilated. Thermal technology of flat roofs.
6. Functional roofs walking and trafficable roofs, roof gardens.
7. Light flat roofs. Inverse roofs.
8. Terraces, loggie and balconies.
9. Double-skinned flat roofs general characteristics, design principles. Multi-skinned flat roofs. Details of flat roofs.
10. Realization of flat roofs. Failures of flat roofs.
11. Failures of flat roofs.
12. Sloping and steep roofs general characteristics. Roof trusses division. Wooden roof trusses rafter and purlin system.
13. Wooden roof trusses purlin system. Historical roof trusses. Reinforced concrete and steel roof trusses. Thermal technology of sloping roofs.
14. Roof girders.
15. Roofs in extreme climatic conditions. Attic solutions. Use of alternative energy sources in roof construction.
Syllabus of seminar:
1. Solution of drainage of sloping and steep roofs determining the slope of the roof planes, solving their intersection. Design of gutters their type, location, gradient and size. Design of vertical rainwater pipes their location and size. Entering the program no. 1.
2. Solution of drainage of flat roofs design of drainage of flat roof using the method of varying roof slope, location of roof drains, determination of their sizes. Entering the program no. 2.
3. Design of single-skinned unventilated flat roof composition of roof cover, thermal-technical assessment using computational programs TEPLO 2015 and AREA 2015. Entering the program no. 3.
4. Solution of details of single-skinned unventilated flat roof.
5. Solution of details of single-skinned unventilated flat roof.
6. Design of double-skinned ventilated flat roof composition of lower and upper roof cover, design of ventilated air layer. Entering the program no. 4.
7. Design of single-skinned ventilated flat roof solution of details.
8. Thermal-technical assessment of double-skinned ventilated flat roof using computational programs TEPLO 2015, MEZERA 2015 and AREA 2015.
9. Design of composition of the inverse roof. Design of composition of the walking and trafficable roofs and roof gardens. Design of composition of light single-skinned roof. Entering the program no. 5.
10. Solution of roof with bearing structure made of roof girders. Entering the program no. 6.
11. Design of composition of the sloping roof with thermal insulation. Thermal-technical assessment of roof cover using computational programs TEPLO 2015 and AREA 2015. Entering the program no. 7.
12. Design of composition of the sloping roof with thermal insulation. Solution of details.
13. Solution of roof trusses purlin system. Entering the program no. 8.
14. Solution of roof trusses purlin system.
15. Complete submission of the programs.
Conditions for subject completion
Occurrence in study plans
Occurrence in special blocks
Assessment of instruction