RU2198988C2 - Process of erection of monolithic walls of buildings and structures in permanent forms - Google Patents

Abstract

FIELD: construction industry, erection of monolithic concrete and reinforced concrete walls of buildings and structures. SUBSTANCE: process of erection of monolithic walls and floors of buildings and structures in permanent forms includes simultaneous installation on technological horizon of external and internal separate boards of forms made of wooden and mineral materials and fixing of their tops by flexible bracings in the form of installation clamps which fix upper faces of separate external and internal boards in projected position. First row of external and internal boards are installed on dog, section or story around edges of guarding walls and partitions. Second row of external and internal boards is mounted then over flexible bracings of first row of separate external and internal boards by means of flexible bracings. Concrete mixture is placed against permanent forms, mixture spreads boards of each row as far as they go and planes of panels are fixed in planned position when walls have same thickness. EFFECT: reduced labor input and possibility of continuous placing of concrete. 1 cl, 2 dwg

Description

 The invention relates to the field of construction and can be used in the construction of monolithic concrete and reinforced concrete walls and ceilings of buildings and structures.

 There is a method of erecting walls of buildings using fixed formwork, including concrete reinforced panels and fasteners, each shield made of several parts interconnected by flexible connections, the shield reinforcement being used (copyright certificate CCCP 968259, class IPC E 04 G 9/06).

 However, this method of erecting a monolithic building and structures in fixed formwork is quite time-consuming to install formwork, requires the use of heavy cranes, the need to assemble the formwork in several stages: assembly of panels using welding, hanging them with a crane separately of external and internal panels, fastening to spatial frames, final fastening with clamping bars and anchor bolts, after concreting walls and hardening concrete, removing anchor bolts, which are cold bridges and rizhimnyh bars.

 Closest to the claimed one is a method of erecting monolithic walls of low-rise buildings in fixed formwork, including installing external and internal formwork panels and securing them in the design position, while after installing external formwork panels they attach vertical diaphragms of low thermal conductivity material to which internal formwork panels, vertical diaphragms are fixed evenly along the walls being erected (USSR copyright certificate 1673716, class IPC E 04 G 9/02).

 The disadvantages of this method is the heterogeneity of the properties of a monolithic wall, divided by vertical diaphragms from another material into separate cavities, concreting is carried out intermittently to build up the inner formwork panel, which complicates the technology of construction production, increases the labor costs for building a building, and reduces the load-bearing capacity of the walls. Vertical diaphragms made of low thermal conductivity material divide the wall into separate cavities and thus do not allow the installation of reinforcing meshes and frames for the construction of multi-storey buildings, i.e. the scope of this fixed formwork design is limited.

 The technical problem to which the claimed invention is directed is to improve the design of fixed formwork for multivariate use in the construction of buildings and co-equipment, simplify the technology of assembling the formwork, unfasten it, reduce labor costs for its installation, use a continuous cycle of concreting walls and floors on one floor, improve sound and heat insulation of walls and ceilings, reducing the time of construction of buildings and structures, the possibility of building buildings of various architectural and planning accurate solutions and configurations, expanding the possibilities for the construction of multi-storey buildings and structures using fixed formwork.

 The specified task during the implementation of the invention is achieved by the fact that in the known method of erecting monolithic walls and ceilings of buildings and structures in fixed formwork, including installing external and internal formwork panels and securing them in the design position, the feature is that the external and internal formwork panels are assembled at the same time from separate boards using flexible connections, while the boards are made of wood-mineral material.

 An analysis of the prior art by the applicant, including a search by sources of patent and scientific and technical information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find a source characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype as the closest in the totality of the features of the analogue allowed us to establish a set of essential distinguishing features in relation to the technical result perceived by the applicant in the claimed method set forth in the claims. Therefore, the claimed invention meets the condition of "novelty."

To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify signs that match the distinctive features of the prototype of the claimed method. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention was not revealed from the prior art determined by the applicant to achieve a technical result. Therefore, the claimed invention meets the condition of "inventive step",
In FIG. 1 shows a cross section of a wall being constructed, in FIG. 2 a section AA in FIG. 1.

 The method is as follows: on the technological horizon 1, both external 2 and internal 3 separate formwork panels are installed from wood-mineral materials and fix them on top with flexible connections 4 in the form of mounting clamps that secure the upper faces of the individual external 2 and internal 3 panels in the design position . The first row of separate external 2 and internal 3 panels are installed on the capture, section or floor around the perimeter of the walls and partitions. Further, through flexible connections 4 of the first row of separate external 2 and internal 3 panels, simultaneously, from the separate external 2 and internal 3 panels, using the flexible connections 4, the second row of external and internal formwork panels is simultaneously installed. Then, using flexible connections 4 of the second row of separate external 2 and internal 3 panels, simultaneously, from the separate external 2 and internal 3 panels, using the flexible connections 4, the third row of external and internal formwork panels, etc. All operations for installing separate external 2 and internal 3 panels using flexible connections 4 are repeated on subsequent rows of the assembly of external and internal formwork panels. Thus, from separate external 2 and internal 3 panels, using flexible connections 4, the external and internal formwork panels are assembled simultaneously along the walls and partitions to the height of the floor. The concrete mixture 5 is placed in a fixed formwork formed from external and internal formwork panels assembled from separate external 2 and internal 3 panels using flexible connections 4, evenly around the walls and partitions. Concrete mixture 5 is fed into the structure of walls and partitions using tubs, concrete pump or other known methods, if necessary, compacted. The concrete mixture evenly, under pressure of its own weight, bursts the external 2 and internal 3 panels of each row all the way along the flexible connections 4 and fixes the planes of the external and internal formwork panels strictly in the design position with the same wall thickness. When erecting multi-storey buildings and structures before assembling from separate external 2 and internal 3 panels, using flexible connections 4, external and internal formwork panels, reinforcing meshes and frames are installed and fastened between them. The concrete mixture 5 is laid continuously, distributing the load along the perimeter of the walls and partitions. After hardening the concrete in the walls and floors, a fixed formwork is installed from the external 2 and internal 3 panels using flexible connections 4 to the next floor, grab, section.

Compared with the known solution, this method of erecting monolithic walls and ceilings of buildings and structures in fixed formwork has several advantages, in particular, the use of wood-mineral materials as separate external and internal panels gives good adhesion to the monolithic wall after curing concrete or other filler and does not require any additional connection of external and internal formwork panels in a fixed formwork, so there is no need for vertical diaphragms, which RAT to connect the external and internal formwork panels. External and internal panels made of wood-mineral materials can significantly improve the sound and heat insulation of walls and ceilings while reducing the thickness of walls and ceilings. External and internal panels are installed at the same time by means of flexible connections immediately onto the grip, section or floor along the entire perimeter of walls and partitions to the entire height of the floor, which makes it possible to concrete cast walls and ceilings in a continuous cycle and significantly improves the quality of monolithic walls and ceilings, disappears the need to interrupt the laying of concrete mixture, to increase the height of the inner formwork panel and vertical fixing trusses. Moreover, in the proposed solution, the monolithic wall is homogeneous in physical properties and does not break into separate cavities with material with other properties. As a result of the assembly of external and internal formwork panels from separate external and internal panels with the help of flexible connections, fixed cavities are not formed in fixed formwork, which allows installing both vertical and horizontal reinforcing meshes and frames in monolithic walls for erecting multi-story buildings and structures. Due to the simplicity of the assembly of external and internal formwork panels and the absence of vertical diaphragms and fastening trusses, the labor required to install a fixed formwork is reduced, and significant savings in the consumption of basic materials per 1 m ^{2 of} monolithic walls are obtained. The technology of assembling external and internal formwork panels from separate external and internal panels by means of flexible connections is simplified, which not only fasten the external and internal panels together in the formwork panels, but also simultaneously connect the external to internal formwork panels to each other in the design position without using vertical diaphragms fixed evenly along the walls being erected. When using this method of erecting monolithic walls and ceilings of buildings and structures, the design of fixed formwork is greatly simplified: these are shields plus flexible connections in the form of mounting clamps; multivariance of its application appears.

Claims (2)

 1. The method of construction of monolithic walls of buildings and structures in fixed formwork, including the installation of external and internal formwork panels and fixing them in the design position, characterized in that the external and internal separate formwork panels made of wood-mineral materials are installed on the technological horizon and fixed on top with flexible ties in the form of mounting clamps that secure the upper faces of the individual external and internal panels in the design position, with the first row of individual external and internal panels are installed on the grip, section or floor around the entire perimeter of the enclosing walls and partitions, then along the flexible connections of the first row of separate external and internal panels, at the same time, from the separate external and internal panels, using the flexible connections, the second row of external and internal formwork panels is installed, then all the installation of separate external and internal panels using flexible connections is repeated on subsequent rows of the assembly of external and internal formwork panels, thus from separate external the internal panels using flexible connections collect both the external and internal formwork panels along the walls and partitions to the height of the floor, then the concrete mixture is placed in a fixed formwork formed from external and internal formwork panels, evenly around the perimeter of walls and partitions, while the concrete mixture is uniformly under by the pressure of its own weight it bursts the external and internal panels of each row to the stop along flexible connections and fixes the planes of the external and internal formwork panels strictly in the design position and the same wall thickness.  2. The method according to p. 1, characterized in that when erecting multi-story buildings and structures before assembling from separate external and internal panels, using flexible connections, external and internal formwork panels, reinforcing meshes and frames are installed and fastened between them, with this concrete mixture is laid continuously, distributing the load along the perimeter of the walls and partitions.

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