RU2043470C1 - Method for erecting monolithic elements of a building, preferentially floor, and concrete form to implement it - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: support frame 1 is installed with its bolt jacks 3 on walls 2 over the floor being erected. Suspensions 5 and 6, as well as step-wise pins 30 and screws 31 are secured in sleeves 4 of the support frame. Beams 10 and 11 with screens 12 and 13 are secured on the Suspensions and nuts 9 are used to direct them to the step-wise pins and screws. Screws 34 are fixed in sleeves 33. Sides 23 are let down on the walls. Carrying frame 15 with screens 19 and fixed sides 25 and 26 are brought into contact with step-wise pins 30 and screws 31 and fastened through Suspensions 16 to support frame 1 to form balcony section of the floor. Then the floor is reinforced and concreted. Once concrete has been consolidated, beams, carrying frame and sides 25 and 26 are installed in another working position to form gaps between them and floor 29. In so doing, beams with screens are fixed on Suspensions or stands. Step-wise pins and screws are withdrawn out of holes formed in the floor, and thrust rods, thrust screws and studs are fixed in a part of the holes instead of them. Reinforced grids are fastened to the floor through other holes. Matrixes are installed to sides 25 and 26 on screens when the screens are installed. Then thrust rods are removed and spaces and step-wise holes are filled with decorative solidifying composition. Different spaces may be filled with concrete of different color. Concrete form is dismantled after decorative layer is formed, structural and decorative pieces are fastened to the floor through threaded openings in the floor. EFFECT: increased quality of the building, decreased amount of man-hours, improved seismic stability. 11 cl, 5 dwg

Description

 The invention relates to the construction, in particular the construction of two-layer ceilings and laminated walls.

 A known method of erecting floors, in which a formwork slab of decorative material with a reinforcing mesh fixed on top of it is installed on the supporting formwork frame in the working position and concreting is made of the floor. In this case, the reinforcing mesh is monolithic and the formwork plate is thus attached to the ceiling.

The known method is implemented in the formwork of ceilings containing a supporting frame, which through the suspension is fixed to the supporting structure with the possibility of changing a fixed vertical position. At the same time, supporting adjusting screws are brought under the supporting frame, which are attached to the walls through the brackets, and formwork plates with bushings through which the suspensions are passed through are laid on top of it [1]
During the construction of monolithic walls, as well as in the manufacture of prefabricated wall panels, it is necessary to form technological holes in them for mounting brackets, which are then closed up, which is associated with additional labor costs and is not economical.

 A solid (continuous) monolithic ceiling of the room and the balcony cannot be erected, since it is impossible to fix the brackets for the support screws from the opposite side. This is possible only in the gap between two walls, and the overlapping of the balcony rests on only one wall.

 Since the supporting structure is installed directly on the wall, and not above the walls, then build a solid ceiling on several rooms, i.e. it is impossible above the walls, because the supporting frame (supporting structure) will be monolithic. This means that to support the monolithic ceilings on the walls in the latter during their manufacture, it is necessary to provide sockets, which entails additional labor costs. In addition, support is only intermittent, and not continuous, which is less reliable, especially when building buildings in seismic areas.

 The objective of the invention is to improve the quality of the erection of monolithic elements of the building and reduce labor costs during their erection, the ability to change the art form of the monolithic elements of the building by replacing decorative parts, as well as expanding the technological capabilities of the formwork of the floor and increasing the seismic resistance of the building.

 The essence of the invention is expressed in the fact that with the method of erecting monolithic building elements, mainly floors, including setting formwork devices in the working position and concreting the element, according to the invention, when concreting in the element, step or threaded holes or their combinations are formed, then the formwork devices are installed in another working position and the space formed between them and the element, as well as part of the holes, are filled with a decorative hardening compound, th part of holes in the decorative layer elements form they are coaxial openings through which the element is attached to the structural and decorative items.

In preferred embodiments of the method, the essence of the invention is as follows:
that before installing the formwork devices in a different working position, reinforcing nets are attached to the concreted element using the holes in it;
that a formwork matrix or matrices with a relief pattern are installed on or to formwork devices;
that certain matrices or matrix particles, the working surfaces of which are limited by walls, are filled with a decorative hardening composition of different colors, while filling is done before the matrix is installed in the working position or after installation, through openings formed in the overlap;
that the matrix, its walls are pressed to the element and temporarily, until the decorative composition hardens, is fixed in this position, and when the decorative composition is introduced after the matrix is pressed, air is forced out through the drainage holes in the ceiling or in the matrix.

 The described method is implemented in the formwork for the erection of the floor, including a support frame installed above the erected floor, on which, using pendants, the supporting and formwork devices are fixed with the possibility of changing a fixed vertical position, according to the invention, the formwork is equipped with sides that can be mounted on it to the working position and leads from the concreted floor, as well as step fingers or screws, or combinations thereof, which are installed in fixed x on the support frame of the bushings with the possibility of fixing in the working position and removal from the stepped or threaded holes formed by them in the overlap, in addition, the formwork devices are made in the form of shields, and the support frame is mounted on the walls or supports through screw jacks at a height that allows concreting continuous (one-piece) ceiling with continuous support on the walls.

In preferred embodiments of formwork, the essence of the invention is as follows:
that the screws are installed on shields or sides;
that the formwork is equipped with thrust rods, which are inserted into the bushings of the support frame and fixed before installing the shields in a different working position, while the thrust rods pass through stepped openings in the ceiling;
that the formwork is equipped with stop screws or studs that are screwed into the threaded holes in the ceiling before installing the shields in a different working position;
that the formwork is equipped with interchangeable matrices, which are made of solid or elastic material with volumetric patterns, some of which are mounted on boards and the other on the sides, to obtain an artistic surface of the bottom of the floor and the side surfaces of the balcony and cornice parts, each matrix consists of one or more parts and is made with or without walls;
that the sides for the formation of the balcony and cornice parts of the ceiling are fixed to the supporting devices and have two working positions, one of which is allotted from the ceiling for installation in the formed gap of the matrix and the introduction of a decorative hardening composition;
that the formwork is equipped with racks that are made with lifting devices. The combination of the above distinguishing features allows you to:
erect a continuous (integral) ceiling, for example, on the entire block section of a building with balcony and cornice parts, which both economically and significantly increase the earthquake resistance of the building;
to change the artistic appearance of the ceilings with minimal labor, and therefore the buildings in the process of fixing to the ceilings through threaded holes, which diversifies the artistic appearance of the rooms and the appearance of the building as a whole.

 In FIG. 1 shows a plan view of a formwork (fragment); in Fig.2 a section along aa in Fig. 1; figure 3 is the same as in figure 2, but the formwork devices are shown in a different operating position; figure 4 is a view in plan of the erected floor; in Fig.5 section along BB in Fig.4.

 The formwork for the erection of the ceiling contains a support frame 1, which is installed on the walls 2 or on the formwork supports of the walls of the building through screw jacks 3 and is made detachable. On the supporting frame, bushings 4 are fixed, in which pendants 5 and 6 are installed, the lower ends of which are made in the form of screws with or without anchor nuts 7 screwed onto them. The upper ends of the pendants have heads with holes for a wedge 8 or a handle. On the suspensions 5 and 5, the supporting devices are made using nuts 9, made in the form of beams 10 and 11, on which the shields 12 and 13 are mounted. Forks 14 are fixed on the supporting frame 1, into which the suspensions 16 with nuts fixed on the supporting frame 15 are inserted 17 and 18, with which the supporting frame is attached to the supporting frame 1. On the supporting frame 15 mounted boards 19.

 Guides 20 with holes 21 are also fixed on the supporting frame 1. In the guides, through the brackets 22 are fixed with the possibility of installation in the lower working position and fixing in the upper position of the bead 23, intended to form a part of the ceiling that does not protrude outside the outer walls. In this case, the fixation was carried out using the wedges 24 inserted into the upper holes of the brackets 22. The sides 23 can also be locked in working position with the guides 20 using the wedges 24, which are inserted into the holes 21 and the lower holes of the brackets 22, which reduces the pressure on the walls from the loaded support frame 1 at the reference points of the screw jacks 3.

 Flanges 25 and 26 are installed on the supporting frame 15 to form the balcony part of the ceiling (similar sides for forming the cornice part of the ceiling are not shown in the drawing). At the same time, through the holes on the sides and on the supporting frame with the help of wedges 27, the sides are fixed in one working position for concreting the floor, or in the other for forming a gap 28 between the sides and the concrete floor 29. In the bushings 4 of the support frame, step fingers 30 and screws are also installed 31, which are fixed in the working position by means of pins 32. On the shields 12, 13 and 19, screws 34 can be installed in the bushings 33 and locked in the working position by means of locking screws 35. Step fingers 30, screws 31, screws 34 and suspension ki 5 and 6 are used to form stepped holes 36 and threaded holes 37 and 38 in the concrete slab. In this case, the screws 34 can be made without a cylindrical end portion to form blind threaded holes. Such screws can also be installed on the sides 25 and 26 for the formation of blind threaded holes in the lateral surfaces of the balcony and cornice parts of the floor (not shown in the drawing. Moreover, step openings in any combination can be formed in the floor.

 In the other operating position of the supporting and shuttering devices (Fig. 3), thrust rods 39 are inserted and fixed in the bushings 4 with pins 32 in the part of the stepped holes 36 formed in the overlap, and the thrust bolts 40 and studs 41 in the threaded 44. Thrust rods, thrust screws and studs are limiters when installing the shields in a different working position and the formation between them and the overlapping of the necessary spaces (gaps) 42 and 43 for installing the matrices and for filling them with a decorative hardening composition. 44-reinforcing mesh, which is fixed to the ceiling 29 through the stepped holes 36 using the clips 45; 46 - a matrix with walls around the perimeter (in the form of a pallet). 47 and 48 matrixes without walls; 49 and 50 matrices mounted to the sides; 51 internal cavity of the matrix; 52 cavity formed by different thickness matrices; 53 racks with screw jacks 54, which serve to support the bearing and formwork devices and matrices with a decorative hardening compound introduced into the gap; 55 underlying ceiling; 56 decorative layer inside the room (figure 5); 57 decorative layer of the balcony (or cornice) part of the ceiling; 58 is a decorative part that is attached to the ceiling through threaded holes.

 The formwork works as follows. The supporting frame 1 screw jacks 3 are installed on the walls 2 floors of the building and lead to a horizontal position. Then, pendants 5 and 6, as well as step pins 30 and screws 31, which are fixed with pins 32, are installed in the respective bushings 4. Beams 10 and 11 are hung on the pendants 5 and 6 and secured with nuts 9 somewhat lower than their working position.

 After that, shields 12 and 13 are installed on the side shelves of the beams and the beams 10 and 11 with shields are brought to the stepped fingers 30 and screws 31 with the nuts 9 until they stop, thus making them set into working position.

 Then, screws 34 are inserted into the bushings 33 and fixed with locking screws 35. By removing the wedges 24 from the upper holes of the brackets 22, the sides 23 are lowered onto the walls 2, i.e. in the working position and, if necessary, fix them with wedges 24 in the holes 21 of the guides 20.

 When erecting a ceiling with a balcony part (or with a cornice) on the on-site site, shields 19 are installed on the supporting frame 15, the sides 25 and 26 are fixed with wedges 27 in the working position and with a crane, for loops 51, they are inserted with suspensions 16 into forks 14 of the supporting frame 1, then nuts 17 and 18 fix the supporting frame 15 in the working position. Then the ceiling is reinforced, parts of the parts used to form holes are lubricated and concreted. After hardening the concrete, the pins 32 are knocked out and, using wedges 8 and handles, stepped fingers 30, screws 31 and 34 are removed from the holes formed in the overlap 29. With nuts 9, the beams 10 and 11, and with them the shields 12 and 13, are slightly lowered and the shields are dismantled to clean them. At the same time, the suspension through the anchor nuts 7 continues to absorb the load from the overlap 29, which has not yet fully gained the formwork strength, which allows accelerating the formwork turnover.

 If necessary, racks 53 are brought under the beams 10 and 11, and the suspensions 5 and 6 or part of them are removed. This is done to obtain a decorative overlap layer without holes. Then, with the help of clamps 45, reinforcing nets 44 are fixed to the overlap. The stop screws 40 and studs 41 are also fixed to the overlap, and the stop rods 39 are fixed with pins 32 in the bushings 4.

 After that, beams 12 and 13 are installed on the beams 10 and 11, on which (simultaneously with the installation of the boards), matrices 46 or 47 and 48 are installed (elastic matrices are for a length, for example, the rooms are started and dragged over the ends as the boards are installed). Moreover, matrices 46 with walls around the perimeter or part of the matrices can be filled with a decorative hardening composition of different colors before installation on the boards. Then, the nuts 9 of the suspensions or screw jacks 54 of the racks 53 (if the suspensions are removed), the beams 10 and 11, and the shields 12 and 13 with the matrices are set to another working position, in which a space 42 (gap) is formed between the matrices and the overlap 29. After that, the thrust rods 39 are removed and through the holes 36 in the overlap the space 42 and the holes themselves are filled with a decorative hardening compound 56 (Fig. 5).

 To obtain a decorative layer of the balcony (or cornice) part of the overlap of the sides 25 and 26 with wedges 27, divert from the concrete overlap 29, loosen the nuts 17 and 18 and remove the supporting frame 15. Clean the shields 19 and the sides 25 and 26, install the shields on the supporting frame 15 and fix the wedges 27 sides in a different working position. Then, the matrices 49 and 50 are installed to the sides, and, for example, the matrices 47 and 48 are installed on the shields 19, and then the supporting frame 15 is installed by a crane into a different working position. In this case, between the matrices 47 and the overlap 29, as well as between the matrices 49, 50 and the overlap, a space 43 and 28 is formed (gaps). After that, the thrust rods 39 are also removed here and through the openings 36, as well as through the gap 28, the spaces 52, 43 and 28 are filled with decorative hardening composition 57. In this case, the space 52 (as well as the space 51) can be filled with a composition of a different color as before installation of the supporting frame 15 in a different working position, and after its installation through the holes 36 above the space 52. After hardening the decorative composition, the formwork is dismantled, and decorative parts 58 and structural parts are attached to the overlap through the threaded holes, for example to the nut 7 fix the chandelier.

Claims (11)

 1. A method of erecting monolithic building elements, mainly floors, comprising installing formwork devices in a working position and concreting an element, characterized in that stepwise or threaded holes or a combination thereof are formed in the element when concreting, then the formwork devices are set to another operating position and formed between they and the element space, as well as part of the holes are filled with a decorative hardening composition, while the other part of the holes in the decorative layer of the element Braz aligned with them holes through which the element is attached constructive and decorative details.  2. The method according to claim 1, characterized in that before installing the formwork devices in a different working position, reinforcing mesh is attached to the concrete element using the holes in it.  3. The method according to claim 1, characterized in that a formwork matrix or matrices with a relief pattern are mounted on or to formwork devices.  4. The method according to PP.1 and 3, characterized in that the matrix or parts of the matrix, the working surfaces of which are limited by the walls, are filled with a decorative hardening composition of different colors, the filling is carried out before the matrix is installed in the working position or after installation through the holes formed in the element .  5. The method according to claims 1, 2 and 4, characterized in that the matrix is pressed against the element by the walls and is fixed in this position until the decorative composition hardens, and when the decorative composition is introduced after the matrix is pressed, air is forced out through the drainage holes in the element or matrix.  6. Formwork for the erection of the ceiling, including the supporting frame, on which, with the help of suspensions, supporting and formwork devices are fixed with the possibility of changing a fixed vertical position, characterized in that it is equipped with sides that can be mounted on it with the possibility of installation and removal from concreted floors, as well as step fingers or screws, or a combination thereof, which are installed in bushings fixed to the support frame with the possibility of fixing in working position and removal from the stepped or threaded holes formed by them in the overlap, and the support frame is mounted on the walls or supports by means of screw jacks or without them.  7. The formwork according to claim 6, characterized in that the screws are mounted on shields or sides.  8. The formwork according to claim 6, characterized in that it is equipped with thrust rods inserted into the bushings of the support frame with the possibility of fixing in a predetermined position and passed through step openings in the ceiling.  9. The formwork according to claims 6 and 7, characterized in that it is equipped with limiters for the installation of shields in the form of thrust screws or studs screwed into threaded holes in the ceiling.  10. The formwork according to claim 6, characterized in that it is equipped with interchangeable matrices, which are made of solid or elastic material with embossed patterns, some of which are mounted on shields and others on the sides, each matrix made of one or more parts , with or without walls.  11. The formwork according to claim 6, characterized in that the sides of the balcony and cornice parts of the floor are mounted on load-bearing devices with the possibility of changing position relative to the floor to accommodate the matrix and decorative hardening composition.

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