RU146409U1 - FORMWORK FOR PRODUCTION OF WATER DRAINS - Google Patents

Abstract

A formwork for the manufacture of drainage systems, containing mounting supports and a forming element, the shape of the lower surface of which corresponds to the shape of the surface of the manufactured drainage system, characterized in that two support angles are introduced, each of which is fixed in the upper part of the corresponding lateral side of the forming element, with which the horizontal part of the supporting the corner is joined end-to-end, and the vertical part of the reference corner is oriented upwards, as well as two reinforcing nodes, each of which is installed along the corresponding lateral side of the forming element, along the length of which it is made, while the height of the reinforcing nodes is made in accordance with the height of the side walls of the drain, each of them contains uniformly placed vertical reinforcing elements and horizontal reinforcing elements fixed to them, and each of the mounting supports is installed on the ground surface and is equipped with a pair of adjusting bolts, each of which is connected to its corresponding support angle using a threaded connection.

Description

The utility model relates to construction and can be used for the manufacture of formwork drainage systems, mainly on sections of the earth's surface with complex curvature.

A device is known [RU 2510635, C2, E04C 1/00, E04B 2/86, 04/10/2014], containing the outer and inner plates installed at a certain distance from each other with the formation of the internal volume for installation of reinforcement and filling with building filler, and connecting jumpers between plates, moreover, jumpers are made in the form of metal brackets interconnected in pairs, each of which is fixed on one side on the inner surface of one of the plates, and the end parts of the brackets have 4 strips with hook teeth, limit At the same time, the end parts of the hook strips are made of two types, one of which has a stepped platform in the rear part, on which there is a hook tooth and a stop in the form of stamped protrusions, while other hook strips have rectangular rectangular windows under the hook teeth, while the edges of the hook bands, on which the teeth are, have a flange 5-7 mm wide, bent 8-10 ° from the plane of the bracket shelf in the opposite direction from the tooth.

The disadvantage of this device is the relatively narrow functionality.

The formwork is also known [RU 141322, U1, E04G 11/00, E04G 9/08, 05/27/2014], made in the form of a metal mold from a prepared metal strip with the possibility of cutting and bending at the place of installation into the mold and the required length, marked with holes at the places of bending into the mold; types of shapes: Π or Π with double side walls, or C square, or G, or V with bends outward, or a square with double side walls, or Π a trapezoid with bends outward at the base, or Π with bends outward at the base, or a rectangle with a double side wall, designed for the production of concrete lintels with reinforcement or concrete frame for the walls of buildings with reinforcement or concrete columns with reinforcement, the form may not be removable or removable, reusable, multi-functional when bent from the prepared tape to the desired shape mu.

The disadvantage of this device is also the relatively narrow functionality.

In addition, a formwork is known [RU 138772, U1, E04C 1/00, E04B 2/86, 03/20/2014], containing two opposite facade and inner slabs made in the form of a rectangular parallelepiped of a porous heat-insulating material with a facing layer on the outside facade plates bonded to each other, forming a space for mounting reinforcement and filling with a fluid material capable of hardening, moreover, the plates are made of extruded polystyrene foam, the plates are fastened with fiberglass rods periodically moreover, if one edge of each pair of parallel edges of the plate is provided with a groove, the second is equipped with a protrusion corresponding to it in shape and location, in addition, an alkali-resistant mesh is rigidly fixed on the front side of the plate.

This device also has relatively narrow functionality.

Also known is removable formwork [RU 109433, U1, B28B 1/00, 10.20.2011] containing side walls, which includes enclosing panels, each of which contains a layer of water-repellent material and a layer of heat-insulating material connected directly or through an intermediate material in the form of polyfoam with a thickness of 40-80 mm, mounted on a supporting base of plywood with a thickness of 9 to 14 mm, while a plastic film or plastic or fluoroplastic is used as a water-repellent material, and using an intermediate material getinax plate.

And this device has a relatively narrow functionality.

In addition to the technical solutions mentioned above, interchangeable formwork is known [RU 2171878, C1, E04G 11/20, E04G 11/02, 08/10/2001], which includes type-setting formwork L-shaped half-tunnels with end shields forming in a paired position tunnel, end-to-end shield fastening elements, struts of adjustable length, rollers, racks supporting parallel channel stiffness beams of vertical panels, fastened at the joints with their smaller section channel inserts, ceiling and end panels connected at the joint between each other with pivotable swivel brackets covering paired fixing bolts, embedded elements in the form of concrete crosses, auxiliary equipment - roll-out and hinged scaffolds carrying parallel stiffness beams of the end shield adjacent to the vertical one are in contact with the stop fixed on the parallel parallel stiffness beams of the vertical shield , and in the working position rely on it, moreover, stabilization of the axial distance between the fixing bolts fixed on the mating shields and the size of the gap between the ends of the shield of the shields is provided by a removable cover, the distance between the axes of the conical recesses of which is equal to the specified distance between the axes of the fixing bolts, the thickness of the catcher of the removable cover is equal to the specified clearance between the ends of the decks of the shields, and the fixing bolts are installed in the conical recesses of the removable cover and at the same time the catcher is installed in the gap between the ends of the decks of the shields and the catcher it is fixed.

This technical solution also has a relatively narrow functionality.

The closest in technical essence and the achieved result is the formwork for the manufacture of structures with surfaces of various curvatures [BY 2002, C1, E04G 11/04, 30/12/1977], containing formwork elements, each of which includes formwork, the curvature of which corresponds to the curvature surfaces of the fabricated structure, supports and interacting with supports, belt elements arranged at a certain interval relative to each other, consisting of separate parts installed with the possibility of regulating their length I am waiting for the supports and with the possibility of adjusting the distance between the points of interaction of the supports and the waist elements, as well as formwork screeds to tighten the formwork elements located against each other, while on each formwork element, at least two supports interact with one of the parts of the waist element, made in the form of a traverse, forming a counter support for the shuttering screed, moreover, the traverse is installed on at least one of the supports interacting with it with the possibility of movement in the longitudinal and transverse th direction with respect to this support.

Despite the fact that the closest technical solution allows the formation of formwork for surfaces of various curvatures, but its functionality does not allow the formation of removable formwork for the construction of structures with a given (variable for each drainage element) inclination depth, which is important, in particular, for construction street drainage.

The problem that is solved in the proposed utility model is to expand the functionality to ensure the possibility of creating removable formwork for the construction of structures with a given, variable inclination depth, which is important, in particular, for street drainage.

The required technical result is to expand the functionality of the device by introducing an additional arsenal of technical means that provide the possibility of creating removable formwork for the construction of structures with a given, variable inclination depth, which is important, in particular, for street drainage.

The problem is solved, and the required technical result is achieved by the fact that, in the device containing mounting supports and a forming element, the shape of the lower surface of which corresponds to the surface shape of the manufactured drain, according to the proposed utility model, two support angles are introduced, each of which is fixed in the upper part the corresponding lateral side of the forming element, with which the horizontal part of the reference corner is attached end-to-end, and the vertical part of the reference corner is a reference point upward, as well as two reinforcing nodes, each of which is installed along the corresponding lateral side of the forming element, along the length of which it is made, while the height of the reinforcing nodes is made in accordance with the height of the side walls of the drain, each of them contains uniformly placed vertical reinforcing elements and horizontal reinforcing elements fixed on them, and each of the mounting supports is installed on a plot of earth surface and is equipped with a pair of adjusting bolts, each of which is connected to The appropriate reference area it via a threaded connection.

The drawing shows the design of the formwork for the manufacture of drainage systems assembled for pouring concrete on a site of the earth's surface (formwork option for the manufacture of at least one extended drainage element).

The formwork for the manufacture of drainage systems contains mounting supports 1 installed on a plot of earth surface 2 and a forming element 3, the shape of the lower surface of which corresponds to the shape of the surface of the manufactured drainage system.

In addition, the formwork for the manufacture of drainage systems contains two supporting corners 4 (4-1 and 4-2), each of which is fixed in the upper part of the corresponding side of the forming element 3, with which the horizontal part of the supporting corner 4 (4-1 and 4-2) is attached end-to-end, and the vertical part of the reference corner is oriented upward.

The formwork for the manufacture of drainage systems also contains two reinforcing nodes 5 (5-1 and 5-2), each of which is installed along its corresponding lateral side of the forming element 3, along the length of which it is made, while the height of the reinforcing nodes 5-1 and 5 -2 is made in accordance with the height of the side walls of the drain, each of them contains uniformly placed vertical reinforcing elements 6 and horizontal reinforcing elements 7 fixed to them, and each of the mounting supports 1 is installed on a plot of earth surface 2 and provided with a swarm of adjusting bolts 8 (8-1 and 8-2), each of which is connected to its corresponding supporting angle 4-1 and 4-2 by means of a threaded connection.

Used formwork for the manufacture of drainage systems as follows.

A trench is being excavated at the place of drainage, the depth and width of which corresponds to the full width and depth of the concrete drainage structure.

At the edges of the trench, at a given width of the concrete drainage structure, reinforcing nodes 5-1 and 5-2 are installed, between which a forming element 3 is placed, in the upper part of the corresponding lateral sides of which the horizontal parts of the reference corners 4-1 and 4-2 are fixed, and their vertical parts are oriented up. The forming element 3 can be made of iron, PVC, polystyrene foam, etc., the shape of the lower surface of which corresponds to the shape of the surface of the manufactured drain. Each of the mounting supports 1 is equipped with a pair of adjusting bolts 8-1 and 8-2, each of which is connected to its corresponding support angle 4-1 and 4-2 using a threaded connection.

Using the adjusting bolts 8-1 and 8-2 and a level that sets the horizontal surfaces of the corners 4-1 and 4-2, the required slope is set both along the drainage system and in the direction perpendicular to it. After that, concrete is poured into the trench under the forming element 3 with the capture of reinforcing nodes 5-1 and 5-2. In the process of its solidification, the forming element 2 is removed with the separation of the reference corners 4-1 and 4-2, which in the finished drainage act as supports for the lining of the upper flat drainage grate.

Thus, in the proposed utility model, the required technical result is achieved, which consists in expanding the functionality, which makes it possible to create removable formwork for the construction of structures with a given (regulated during the construction) inclination depth, which is important, in particular, for outdoor drainage in Earth's surface with complex curvature.

Claims (1)

A formwork for the manufacture of drainage systems, containing mounting supports and a forming element, the shape of the lower surface of which corresponds to the shape of the surface of the manufactured drainage system, characterized in that two support angles are introduced, each of which is fixed in the upper part of the corresponding lateral side of the forming element, with which the horizontal part of the supporting the corner is joined end-to-end, and the vertical part of the reference corner is oriented upwards, as well as two reinforcing nodes, each of which is installed along the corresponding lateral side of the forming element, along the length of which it is made, while the height of the reinforcing nodes is made in accordance with the height of the side walls of the drain, each of them contains uniformly placed vertical reinforcing elements and horizontal reinforcing elements fixed to them, and each of the mounting supports is installed on the ground surface and is equipped with a pair of adjusting bolts, each of which is connected to its corresponding support angle using a threaded connection.

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