RU2157441C2 - Heat-insulating and fencing structures for skeleton- type building and method for their manufacture - Google Patents

Abstract

FIELD: building engineering; outside monolithic walls, ceilings and floors of buildings with skeleton hidden in walls. SUBSTANCE: method involves installation of outer and inner in-situ form in design position, their interconnection by means of anchor braces, mounting of skeleton-forming components, and filling of interdeck space with hardening mortar. In-situ form is installed by means of locks at desired distance from both sides of skeleton forming building components; used as hardening mortar filling interdeck space as well as space between decks and skeleton forming components is cement- cellular-polystyrene or gypsum-cellular-polystyrene, or cellular-gypsum heat- insulating compound. Anchor braces and locks holding form in position are stuck on one end to inner surface of one of forms; then, when setting forms in design position, other end of anchor braces is stuck to inner surface of second form. Anchor braces and locks may be screwed. Anchor braces may be made in the form of I-section members whose flanges are positioned at form panel joints with skeleton forming member attached to I-section member wall. EFFECT: provision for manufacturing embedding prefabricated and pre- assembled skeleton of building in prefabricated heat-insulating panel. 11 cl, 3 dwg

Description

 The invention relates to the field of construction and can be used in the construction of frame buildings for various purposes both in the conditions of factory production and at the construction site of the building.

 Known wall of a residential or industrial building, consisting of a concrete core and an external and internal coating, acting as an abandoned formwork when performing a concrete core. Between the outer and inner coatings anchor ties are placed in the form of coaxially arranged bolts, one of which has an internal channel with a thread, and the second is screwed into this channel. The bolt heads are flush with the outer surface of the formwork left (application FRG OS 2645423 from 1978 MKI E 04 B 2/86).

 Also known is the design of reinforced formwork for the manufacture of building panels, consisting of two equally wide planks and transverse plates welded to them. To the protruding end sections of these plates are adjacent shield formwork, attached to the planks with fixing screws. The cavity between the formwork elements is filled with concrete. The described technology also allows the molding of coating panels (PCT application 89/12722 from 1989 MKI E 04 B 2/86).

 The closest analogue adopted for the prototype of the claimed method and device is the design of the reinforcement formwork block and the method of erecting building envelopes using this block. The method consists in installing the outer and inner formwork to be left in the design position, connecting them to each other with anchor ties, mounting frame-forming elements and filling the interdeck with a hardening solution. The heat-insulating wall of the frame building contains external and internal abandoned formwork connecting their anchor ties and frame-forming elements. The space between the formwork is filled with hardened mortar (USSR, aut. St. 694609 from 1978 MKI E 04 C 2/26).

 All the above analogues, including the prototype, suggest that the resulting enclosing structure is at least self-supporting, made of monolithic concrete, the thermal insulation properties of which are low, and do not involve the use of any supporting frame of the building, therefore, enclosing structures require, as a rule, additional insulation . In addition, none of the proposed analogues allows forming a building envelope around an existing building frame: the prototype only provides for the installation of a frame-forming element that plays the role of an anchor between previously formed fragments of the building envelope.

 The objective of the invention is to create the possibility of molding in factory or construction conditions a monolithic heat-insulating wall panel or panel covering or overlap, which is molded prefabricated and assembled building frame.

 This problem is solved by the fact that they mount the frame-forming elements, set the outer and inner formwork to be left in the design position, connect them to each other with anchor ties and fill the interdeck space with a hardening solution; the retained formwork is installed using fixators at a predetermined distance on both sides of the frame-forming elements of the building, moreover, as a hardening solution filling the deck and the space between the decks and the frame-forming elements, polystyrene-cement or foam-polystyrene-gypsum or foam-gypsum insulating composition is used. Anchor ties and formwork position fixers are glued at one end to the inner surface of one of the formwork before assembling the formwork, and then when installing the formwork in the design position, the other end of the anchor ties is glued to the inner surface of the second formwork. Before installing the left formwork, its opposite external and internal elements can connect to each other, drill holes in the places of installation of anchor ties, and then mount the elements of the left formwork in the design position, placing the anchor ties between them and fixing them through the fasteners passed through the drilled holes, whose heads are flush with the outer surface of the abandoned formwork. An anchor connection can be used as a clamp, which is mounted close to the frame-forming element and connected to the frame-forming element by a fastener. Anchor ties can be installed at the junction of formwork.

 The heat-insulating building envelope of the frame building contains external and internal retained formwork connecting their anchor ties and frame-forming elements. The outer and inner retained formwork are mounted on both sides of the frame-forming element by means of clamps at a predetermined distance, and the space between the formwork and between the formwork and frame-forming elements is filled with polystyrene-cement, or polystyrene-gypsum, or foam-gypsum heat-insulating composition. An anchor connection can be made in the form of a fiberglass tube and fasteners with heads, and the fiberglass tube can be installed in opposition between the inner planes of the formwork to be left and fasteners screwed flush with the outer plane of the formwork, passed through the corresponding formwork. The ends of the anchor ties and retainers can be glued to the inner surface of the formwork. Anchor connection can be made in the form of a wooden I-beam, the wall of which is located normally to the plane of the formwork. Shelves of the wooden I-beams can be located at the junction of adjacent formwork, which are connected to the shelves of the wooden I-beams with fasteners or glued to them. The wall of the wooden I-beam can be installed close to the frame-forming element and can be connected to it with a fastener or can be glued to it.

 A comparative analysis of the claimed invention with the prototype shows that the method of constructing a heat-insulating wall of a frame building is characterized in that the retained formwork is installed using clamps at a predetermined distance on both sides of the frame-forming elements of the building, moreover, as a hardening solution filling the interdeck space and the space between decks and frame-forming elements, use polystyrene-cement, or polystyrene-gypsum, or foam-gypsum heat-insulating position. Anchor ties and formwork position fixers are glued at one end to the inner surface of one of the formwork before assembling the formwork, and then when installing the formwork in the design position, the other end of the anchor ties is glued to the inner surface of the second formwork. Before installing the left formwork, its opposite external and internal elements can be connected to each other, drilling holes in the places of installation of anchor ties, and then they can mount the elements of the left formwork in the design position, placing the anchor ties between them and fixing them through the fasteners passed through the drilled holes whose heads are flush with the outer surface of the formwork left. An anchor connection can be used as a retainer, which is mounted close to the frame-forming element and connected to the frame-forming element by a fastener. Anchor ties can be installed at the junction of formwork.

 The heat-insulating enclosing structure of the frame building is characterized in that the external and internal retained formwork are mounted on both sides of the frame-forming element by means of clamps at a predetermined distance, and the space between the formwork and between the formwork and frame-forming elements is filled with polystyrene-cement, or gypsum-foam gypsum. An anchor connection can be made in the form of a fiberglass tube and fasteners with heads, and the fiberglass tube can be installed in opposition between the inner planes of the formwork to be left and fasteners screwed flush with the outer plane of the formwork, passed through the corresponding formwork. The ends of the anchor ties and retainers can be glued to the inner surface of the formwork. Anchor connection can be made in the form of a wooden I-beam, the wall of which is located normally to the plane of the formwork. Shelves of the wooden I-beams can be located at the junction of adjacent formwork, which are connected to the shelves of the wooden I-beams with fasteners or glued to them. The wall of the wooden I-beam can be installed close to the frame-forming element and connected to it with a fastener or glued to it.

 This analysis allows us to conclude that there is novelty in the proposed invention.

 A comparison of the proposed method for constructing a heat-insulating enclosing structure of a frame building and the heat-insulating building structure constructed using this method with other known technical solutions of the same purpose shows that installing the formwork before molding the hardening mortar on both sides of the frame-forming elements and fixing the formwork elements relative to each other and the frame-forming elements , as well as the use of foam polystyrene cement or foam polystyrene as a hardening solution styrene-gypsum, or foam-gypsum compositions, which are effective thermal insulation, which also has high adhesive properties with respect to the frame material made of wood, steel or concrete, and to the formwork material, allows, firstly, to obtain a monolithic filling of the external heat-insulating enclosing structures and, secondly, to "hide" the building frame in the walls, while simultaneously isolating it from the direct impact of the external environment. In addition, various options for attaching anchor ties and retainers to the formwork and building frame expand the technological capabilities of the proposed method, and the adhesive option for attaching anchors and fixers successfully combines with high adhesive properties of the proposed thermal insulation material to the building frame material and formwork. Another positive quality of the proposed method and device is the additional fire protection of the building frame, since it falls into the shell of non-combustible material.

 These beneficial effects can be obtained by using all of the claimed features. The comparison allows us to conclude that the proposed technical solution exceeds the existing level of technology.

The invention is illustrated by the example of its implementation. The drawings show:
in FIG. 1 - a fragment of a heat-insulating wall with anchor ties in the form of fiberglass tubes connected by fasteners;
in FIG. 2 - the same with anchor ties on the glue;
in FIG. 3 is an embodiment of an anchor connection in the form of a wooden I-beam and the fastening of formwork and a frame-forming element to it.

 The heat-insulating enclosing structure of the frame building, for example, the wall, is made in the form of the outer 1 and 2 inner formwork left, between which the frame-forming element 3 is located. The space between the formwork and between the formwork and the frame-forming element is filled with a hardening heat-insulating solution 4, for example, polystyrene foam or polystyrene foam or polystyrene composition. To maintain the design wall thickness during pouring and hardening of the heat-insulating solution during its assembly, anchor connections 5 are installed between the retained formwork, and a retainer is used between the frame-forming element of the building and the retained formwork to comply with the design 6. Anchor ties and the retainer can be fixed using fasteners 7 or glue 8. To set the gap between the frame-forming element and the formwork, clamps 9 with heads 10 are used. Anchor ties may be in the form of an I-beam with a stand 11 and shelves 12. For fastening the rack to the frame-forming element, a fastener 13 is used.

 The method is as follows.

Regardless of whether the production of insulating fencing is carried out under production or construction conditions, the outer 1 and inner 2 formwork are installed in the design position so that the frame-forming element 3 is located in the interdeck. In this case, the distance between the formwork 1 and 2 and between one of the formwork, for example external 1, and the frame-forming element 3 is clearly fixed using anchor ties 5 at the clips 6. Anchor links 5 and clips 6 can be made of fiberglass tubes. There are two options for attaching anchor ties and retainers to the design position:
- before the manufacture of the walls, the outer and inner formwork opposite each other are connected to each other, they are drilled with coaxial holes in the places of installation of anchor ties and clamps, then to one of the formwork 1 on the fasteners 7, for example, on screws or self-tapping screws, are fastened with one the end of the anchor ties 5 and the retainers 6, and on the other formwork - the retainers 9, after which the formwork is put into the design position and the other end of the anchor ties 5 is attached to the other formwork 2 also with fasteners 7, and the heads 10 are stronger GOVERNMENTAL parts arranged flush outer surface of the formwork; thus, the carcass forming element 3 is fixed between both left formwork 1 and 2, the distance between which is also fixed;
- before making the wall, the anchor joints 5 and clips 6 are glued with the ends to the inner surface of one of the formwork, the clips 9 are also glued to the inner surface of the other formwork; then put one of the formwork in the design position, spread the loose ends of the anchor ties with glue and, without waiting for the glue to harden, mount the second formwork in the design position, pressing it to the anchor ties until the glue hardens, and glue the clips 6 and 9 to the frame-forming element 3 no need - the length of each of the clamps is set with a guaranteed gap relative to the frame-forming element. Due to the fact that the heat-insulating composition has a small bulk weight, when it is poured into the inter-deck space, there is no spread between the decks, and the adhesion between the material of the heat-insulating composition and the formwork ensures their reliable joint operation during operation.

 There is another option for securing the formwork with each other and establishing a guaranteed gap between the formwork and the frame-forming element: the anchor connection is made in the form of a wooden I-beam, the rack 11 of which is located normally to the plane of the formwork 1 and 2. The formwork is fastened to the shelves of the anchor connection with fasteners, for example screws . The advantage of such an anchor connection is that, firstly, it is a temporary element that works only for the period of pouring the heat-insulating composition and its hardening, and secondly, it helps to simplify the joining of formwork sheets to each other: shelves 12 of the I-beam are placed in at the junction of the formwork sheets, the edges of which are fixed on the flanges of the I-beam with fasteners, and, thirdly, the fixing of the frame-forming element 3 relative to the formwork is simplified: the wall 11 of the double-tee is adjacent to the frame-forming element and repitsya him fastener 13, acting as a preservative.

 After mounting the formwork, fill in the inter-deck space of the heat-insulating material 4, which simultaneously isolates the frame-forming element 3.

 As formwork, cement-bonded, wood-bonded, gypsum plasterboard, gypsum-fiber, etc. can be used. sheets, protected from the effects of the external environment, and in the case of the manufacture of overlap - metal sheets, thin reinforced concrete slabs, wooden panels, etc.

 Similarly, coatings and floors are made.

 The proposed technology allows you to put the building's communications into the body of the building envelope before pouring insulating material: electrical wiring, telephone, television cable, etc.

Claims (11)

 1. A method of constructing a heat-insulating building envelope of a frame building, which consists in installing frame-forming elements, installing the outer and inner formwork to be left in the design position, connecting them to each other with anchor ties, and filling the interdeck space with a hardening solution, characterized in that the abandoned formwork is installed using fixers at a predetermined distance on both sides of the frame-forming elements of the building, moreover, as a hardening solution, filling m zhpalubnoe space and the space between the decks and karkasoobrazuyuschimi elements used penopolistiroltsementnuyu or penopolistirolgipsovuyu or penogipsovuyu heat-insulating composition.  2. A method of constructing a heat-insulating enclosing structure of a frame building according to claim 1, characterized in that the anchor ties and formwork position fixers are glued at one end to the inner surface of one of the formwork before the formwork is assembled, and then, when the formwork is installed in the design position, the other end of the anchor ties is glued to the inner surface of the second formwork.  3. The method of constructing a heat-insulating building envelope of a frame building according to claim 1, characterized in that before installing the formwork to be left, its opposite external and internal elements are connected to each other, holes are drilled in the places of installation of anchor ties, and then the elements of the left formwork are mounted in the design position locating the anchor connections between them and fixing them by means of fasteners passed through the drilled holes, the heads of which are flush with the outer surface new abandoned formwork.  4. A method of constructing a heat-insulating building envelope of a frame building according to claim 1, characterized in that an anchor connection is used as a retainer, which is mounted close to the frame-forming element and connected to the frame-forming element by a fastener.  5. A method of constructing a heat-insulating enclosing structure of a frame building according to claim 1, characterized in that the anchor ties are installed at the junction of the formwork.  6. The heat-insulating building envelope of the frame building, containing external and internal retained formwork, connecting their anchor ties and frame-forming elements, characterized in that the external and internal retained formwork are mounted on both sides of the frame-forming element by means of clamps at a given distance, and the space between the formwork and between formwork and frame-forming elements are filled with polystyrene-cement, or polystyrene-gypsum, or foam-gypsum heat-insulating composition by.  7. The heat-insulating enclosing structure of the frame building according to claim 6, characterized in that the anchor connection is made in the form of a fiberglass tube and fasteners with heads, and the fiberglass tube is installed opposite between the inner planes of the left formwork and the fastening screws are screwed flush with the outer plane of the formwork elements passed through the corresponding formwork.  8. The heat-insulating enclosing structure of the frame building according to claim 6, characterized in that the ends of the anchor ties and retainers are glued to the inner surface of the formwork.  9. The heat-insulating enclosing structure of the frame building according to claim 6, characterized in that the anchor connection is made in the form of a wooden I-beam, the wall of which is normal to the plane of the formwork.  10. The heat-insulating enclosing structure of the frame building according to claim 6 or 9, characterized in that the shelves of the wooden I-beams are located at the junction of adjacent formwork, which are connected to the shelves of the wooden I-beams with fasteners or glued to them.  11. The heat-insulating enclosing structure of the frame building according to claim 6 or 9, characterized in that the wall of the wooden I-beam is installed close to the frame-forming element and connected to it with a fastener or glued to it.

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