RU2198989C1 - Large-panel building - Google Patents

Abstract

FIELD: construction industry. SUBSTANCE: invention can be used to erect multivariant large-panel buildings from prefabricated concrete and reinforced concrete articles stock-produced by building material industry. Technical result of invention lies in design of multivariant skeleton-free large- panel building of various assignment with free planned formation of rooms on each story from identical members of prefabricated concrete and reinforced concrete. According to invention large-panel building comprises sections positioned on foundation. Sections are assembled from outer and inner walls. Internal space of section is divided into stories by interstory floors made of multiple-cavity plates. Part of outer panels can have door and/or window and/or balcony apertures. Plates of interstory floors are born with lateral butts against bearing outer face walls and bearing inner crosswalls. Part of outer wall panels forming longitudinal walls and longitudinal faces of interstory floors contacting them comes convex and curvilinear in plan and are mounted concentric one relative another. Inner walls divide space of each story of sections into rooms ( apartments ) of free planning. Three-layer panels of sandwich type with intermediate heat-insulation layers in the form of cores are employed as outer wall panels of which outer guarding longitudinal and outer bearing face walls of sections are assembled. Springy sealing member is placed in horizontal joints between wall panels of outer walls. EFFECT: erection of large-panel building with free planned formation of rooms on each story from identical members of prefabricated concrete and reinforced concrete. 2 cl, 6 dwg

Description

 The invention relates to construction and can be used in the construction of multivariate large-panel buildings from a standardized set of standard sizes of precast concrete and reinforced concrete, mass-produced by the building materials industry.

 It is known from the copyright certificate of the USSR 785450, cl. E 04 N 3/00, 1979, a building containing load-bearing internal walls, floor slabs supported on them by multi-hollow slabs, log slabs - external wall panels with openings.

 The disadvantages of the known building design are the increased consumption of materials, insufficient tightness of vertical and horizontal seams with seasonal and daily fluctuations in the external temperature and low thermal characteristics of the external walls due to the presence of cold bridges in the used panels of the external walls.

 The closest in technical essence to the proposed large-panel building is the famous from the book Tupolev M.S., Construction of civil buildings, M., Stroyizdat, 1968, p.52.61.182 large-panel building, including external longitudinal and end bearing walls of three-layer panels with intermediate insulating layer located between the reinforced layers, the internal bearing transverse and longitudinal walls with a wide pitch and hollow core slabs, supported by transverse ends on the outer end bearing walls and internal transverse load-bearing walls, an elastic sealing element located between the anti-rain ridge and the tooth formed respectively on the horizontal upper and lower ends of the reinforced layers of adjacent wall panels of the outer walls placed one above the other.

 The disadvantages of the known design of a prefabricated large-panel building is its low thermal characteristics due to the presence of cold bridges in the joints between the outer wall panels and the inability to erect the specified building to change the size and layout of apartments, depending on need.

 The aim of the invention is the creation of a multivariate frameless large-panel house for various purposes with a free floor layout of the premises (apartments) formed in it from the same elements of precast concrete and reinforced concrete.

This goal is achieved by the fact that a large-panel building, including external longitudinal and end bearing walls of three-layer panels with an intermediate insulation layer located between the reinforced layers, internal bearing transverse and longitudinal walls with a wide pitch and multi-hollow interfloor slabs supported by transverse ends on the external end walls load-bearing walls and internal transverse load-bearing walls, an elastic sealing element located between the anti-rain ridge and the tooth, formed respectively at the horizontal upper and lower ends of the reinforced layers of adjacent wall panels of the outer walls placed one above the other, and part of the three-layer panels of the external walls and the longitudinal ends of the multi-hollow floor slabs contacting them are made convex, concentrically arranged in plan view relative to each other, the ends of the insulation layers of adjacent panels the external walls are in contact within the elastic deformations, and the inclination angles of the working surfaces of the crest α and tooth β are 40-50 ^o and 55-65 ^o , respectively h _{1 of} each tooth exceeds the height h _{2 of} each anti-rain ridge and the diameter of the elastic sealing element, respectively 1.1-1.4 and 1.5-2.0 times.

 In addition, in a large-panel building, the protruding convex external wall panels of the external longitudinal walls are supported on racks mounted on the foundations, and part of the external wall panels has door and / or window and / or balcony openings.

 Figure 1 schematically shows a front view of a large-panel building.

 Figure 2 is a matrix of layout options for sections of a large-panel building with various sizes along the length of the supporting external end and internal transverse walls and hollow core slabs forming interfloor ceilings.

 Figure 3 is a section along aa in figure 1.

 Figure 4 is a section along bb in figure 1.

 In FIG. 5 - node C in figure 3 on an enlarged scale.

 In Fig.6 - node D in Fig.3 on an enlarged scale.

The large-panel building consists of sections 1 mounted on the foundation (not shown conditionally in the figures), each of which is formed from external, joined longitudinal vertical ends, enclosing longitudinal 2, external supporting end 3, internal longitudinal 4 and internal bearing transverse 5 walls formed from panels. The internal space of each section 1 is divided into floors, horizontal successive multi-hollow prefabricated floors 6 arranged successively in height, and elevator shafts with stairs (not shown conventionally in the figures) are mounted between adjacent sections 1. All sections 1 have common attic rooms and a roof (conventionally in the drawings not shown). Depending on the need, the external enclosing 2 and the external bearing 3 wall reinforced concrete panels can have door and / or window and / or balcony openings 7. The multi-hollow slabs 6 of the interfloor ceilings are supported by floorwise transverse ends on the horizontal ends of the external supporting 3 wall reinforced concrete panels of the external supporting end walls and internal bearing transverse 5 walls and are contacted by longitudinal ends with the upper ends of the outer enclosing 2 wall reinforced concrete panels of the outer enclosing longitudinal walls. Moreover, part of the external bearing 3 wall reinforced concrete panels and the transverse ends of the multi-hollow slabs 6 interfloor floors in contact with them are made convex, having a curved shape, are arranged concentrically in plan relative to each other. External supporting longitudinal 2, external protecting end 3, internal supporting longitudinal 4 and internal transverse 5 walls divide the space of each floor of section 1 into free rooms (apartments) 8. The location, number and size of rooms, corridors and domestic premises are set by intra-apartment partitions 9 installed in rooms (apartments) having a free layout 8. As external load-bearing 2 wall and external walling 3 wall reinforced concrete panels, three-layer panels of t IPA sandwich with 10 core insulation layers in the form of cores contacting energized within elastic deformations with ends of 10 core insulation materials in the form of cores with 10 layers of adjacent three-layer sandwich panels. At the joints between the outer reinforced concrete layers 11 and adjacent outer wall reinforced concrete panels, an elastic sealing element 12 is mounted, fixed between the outer reinforced concrete layers formed one and opposite on the horizontal upper and lower ends, one above the other, anti-rain crest 13 and tooth 14. Workers the surface of the anti-rain ridge 13 and tooth 14, between which the elastic sealing element 12 is fixed, are inclined at angles a and P equal to 40 respectively 50 ^o and 55 - 65 ^o . The height h _{i of} each tooth 14 exceeds the height h _{2 of} each anti-rain ridge 13 and the diameter of the elastic sealing element 12, respectively 1.1-1.4 and 1.5-2.0 times. The external wall reinforced concrete panels are mated by welding of embedded elements (not shown conventionally in the figures), after which the vertical and horizontal joints between adjacent external reinforced concrete wall panels and multi-hollow plates forming interfloor ceilings are then bonded 6. The external wall reinforced concrete panels are mated by welding their metal embedded elements (not shown conditionally in the figures), after which vertical and horizontal cial joints between the removable outer wall concrete panels and floor slabs forming hollow-core 6.

 The proposed design provides the multivariance of the proposed large-panel building, both for its intended purpose and for the set of sizes and layout of apartments, the number and number of storeys of the sections composing the building, depending on the pitch of the end and internal transverse walls of the latter.

Claims (3)

1. A large-panel building, including external longitudinal and end bearing walls of three-layer panels with an intermediate insulation layer located between the reinforced layers, internal bearing transverse and longitudinal walls with a wide pitch and multi-hollow slabs of interfloor ceilings, supported by transverse ends on the external end bearing walls and internal transverse load-bearing walls, an elastic sealing element located between the anti-rain ridge and the tooth, formed respectively on the horizontal upper and the lower ends of the reinforced layers of adjacent wall panels of the outer walls placed one above the other, characterized in that part of the three-layer panels of the outer walls and the longitudinal ends of the multi-hollow floor slabs contacting them are convex, concentrically arranged in plan view relative to each other, the ends of the insulation layers of adjacent panels of the external walls contact within elastic deformations, and the angles of inclination of the working surfaces of the crest α and tooth β are equal to 40-50 ^o and 55-65 ^o , respectively, while the height h _{1 of} each tooth is pre exceeds the height h _{2 of} each anti-rain ridge and the diameter of the elastic sealing element, respectively, 1.1-1.4 and 1.5-2.0 times.  2. The building according to claim 1, characterized in that the protruding convex external wall panels of the outer longitudinal walls are supported on racks mounted on the foundations.  3. The building according to claim 1 or 2, characterized in that part of the outer wall panels has door and / or window and / or balcony openings.

Images