RU2071536C1 - Mobile shuttering - Google Patents

Abstract

FIELD: civil engineering; may be used for construction of monolithic reinforced concrete buildings. SUBSTANCE: shuttering includes jack frames, lifting-and- fixing equipment and shuttering panels provided with sealing attachments. They are made in the form of strip 2 butted to shuttering panel 1 and pivotally fixed along its lower edge with hinges made in the form of pair of brackets 4, 5. The latter have axial pins and provided with installed in parallel a pair of snap ties 6, 7 with holes at its ends engaged with axial pins 10. EFFECT: higher reliability of butt compaction between shuttering and floor. 2 dwg

Description

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

 There are known constructions of volumetric climbing formwork, including formwork for concreting lighthouses (see textbook authored by N.I. Evdokimov, A.F. Matskevich and V.S. Sytnik "Technology of monolithic concrete and reinforced concrete, M. Higher School, 1980, p. . 186).

 A disadvantage of the known formwork design is that the concrete casting production cycle when it is used is divided into two stages: concreting walls and ceilings and installing formwork for concreting beacons and their shaping, which complicates the technology of work.

 In addition, this design does not allow a sequential transfer of formwork from tier to tier only vertically, which entails additional labor costs for the installation of formwork sections.

 The closest in technical essence and the achieved effect to the proposed invention is a movable formwork for implementing the method of erecting a building, including a supporting frame, a lifting and fixing mechanism and shuttering slabs, equipped with pneumatic seals placed around the perimeter to prevent concrete from leaking / 2 /.

 A disadvantage of the known formwork is the technical complexity and relative unreliability of the known device associated with the possibility of rupture and deformation of pneumatic sealing. In addition, such a device requires thorough post-formwork cleaning, which increases labor costs, since it is difficult to clean the air seal at the docking points without the use of manual labor.

 The aim of the proposed invention is to simplify the design of formwork and increase its reliability.

 This goal is achieved by the fact that in a movable formwork, including a circular truss, jack frames, a lifting and fixing mechanism and formwork panels equipped with sealing devices, according to the invention, the sealing device is made in the form of a strip installed end-to-end to the formwork board along a plane inclined inwardly to the concreted cell and pivotally fixed at least at two points along the bottom edge of the shuttering board, and the hinges are made in the form of a pair of brackets with axial pins fixed to corresponding to the plank and the shuttering board perpendicular to its axis and equipped with a pair of parallel-mounted screeds with holes at the ends that engage with the axial pins mounted on the brackets in pairs at an equal distance from the shield plane, with the tie hole located closer to the shield plane, made oval.

 In FIG. 1 shows a fragment of a formwork panel with a sealing device in the design position.

 In FIG. 2 the same, in the process of stripping.

 Movable formwork includes jack frames, combined on top by circular trusses, lifting and fixing equipment in the form of main and auxiliary hydraulic stands (not shown, except for fragments of shuttering boards) and shuttering wall boards suspended from jack stands by hydraulic cylinders (not shown). The formwork panels (1) are framed bottom by a sealing strip (2), which is joined with the panel (1) along the plane (3) inclined inwardly to the planning cell of the building.

 The bracket (4) is fixed to the formwork panel (1). A similar bracket (5) is fastened to the sealing strip (2). The brackets (4) (5) form a mounting hinge pair, such pairs of at least two along the length of the strap (2). The brackets (4), (5) are connected by couplers (6), (7) having holes (8), (9) at the ends that engage with the axial pins (10).

 In the initial (design) position (Fig. 1), the pins (10) are placed in pairs along two vertical axes (11), and the hole 9 located on the upper bracket (4) closer to the formwork is oval.

 Formwork works as follows.

 In the design position (Fig. 1), the sealing strip (2) is placed on the floor. The formwork board 1 moves to the docking with the sealing strip (2) to the plane 3, forming a single forming surface (12). The oval hole (9) makes it possible to play along the strip (6), due to which it is sealed between the shield (1) and the sealing strip (2).

 The swivel is “locked”, as it were, eliminating the possibility of the sealing strip coming out of the forming plane (12).

 Next, concreting the wall (13).

 At the end of wall shaping (13) and concrete with sufficient strength, the shuttering boards (1) are torn off from the walls (13), with the shield (1) freely separating from the wall and leaving the butt joint with the sealing strip (2), due to screeds (5), (7), rotating around the pins (10), carries the sealing strip (2) along with it while lifting and breaking away from the ceiling (14), excluding damage to the formwork panels (1), possible when dragging boards (1) by overlap (14).

 The proposed device allows you to reliably seal the joint between the formwork of the walls and the ceiling, it is reliable in operation and simplifies the design of the formwork, since it does not require additional funds to maintain the pneumatic laying in working condition.

Claims (1)

 Movable formwork, including a circle truss, a jack frame, a lifting and fixing mechanism and formwork panels equipped with sealing devices, characterized in that the sealing device is made in the form of a bar installed end-to-end to the formwork panel, the plane inclined inside the concrete cell and pivotally fixed not less than two points along the lower edge of the formwork shield, and the hinges are made in the form of a pair of brackets with axial pins attached respectively to the bar and formwork perpendicular to its axis and equipped with a pair of parallel-mounted screeds with holes at the ends that engage with axial pins mounted on brackets in pairs at an equal distance from the shield plane, while the holes for the screed located closer to the shield plane are oval.

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