DE29901141U1 - Formwork element for industrial floors - Google Patents

Abstract

Free ends (4) of vertical sides (2) of the sections are bent at right angles away from one another, so that each section is U-shaped. A flat joint covering section (5,6) is fixed on the outside of these ends. Preferably the joint covering section is formed by two flat bars with a narrow gap (8) between them.

Description

Formwork element for industrial floors

The invention relates to a formwork element
Formwork element as a component of a permanent formwork for industrial floors made of concrete, whereby the formwork essentially consists of the formwork element protecting the edges of a concreting field and, if necessary, an underlay film, spacers, sliding plates and sliding dowels, whereby the
Formwork element consists of two folded profiles made of sheet metal, the vertically aligned legs of which are arranged almost gap-free in the installation position and the horizontal legs
are directed away from each other and form the contact area on the ground.

Such formwork elements are known in the state of the art.

Such industrial floors are used, for example, in the driving area of forklift trucks, other vehicles, in particular in the area of shelving and high-bay systems or in cold storage and deep-freeze halls. It is important that the individual concrete fields of the industrial floor are connected to one another with almost no gaps, with the formwork elements protecting the edges of the concreting fields. Such an industrial floor is usually constructed in such a way that a film is applied to a substrate, onto which formwork elements are then applied. Sliding dowels are arranged on the formwork elements, which penetrate the vertical legs of the formwork elements on sleeve-like structures. The legs of each folded profile are stiffened by stiffeners arranged at a distance. Sliding plates are placed transversely to the direction in which the formwork elements are laid, onto which spacers in the form of riders are placed. Reinforcing steel mats are placed on these. Then the corresponding field is concreted, whereby an L-shaped profile of the formwork element forms the edge of the concreting field. Low-shrinkage, high-strength special concrete is preferably used as the concrete. The surface of the concreting field can then be provided with a monolithic hard material coating that provides resistance

capable of withstanding rolling, grinding or impact stresses.

This design largely provides edge protection for the edges of the concreting field, so that damage to the edges of the concrete only occurs to a minimal extent. The formwork elements, which are connected to the corresponding concrete material of the concreting field, can follow shrinkage-related movements of the concreting field without there being a tear between the concrete and the corresponding L-shaped profile.

Although such designs have proven themselves in the state of the art, there is a need to create even better edge protection for the edges of the concreting field, whereby the concrete should be prevented from breaking out at the connection to the formwork element. The joint formed between the adjacent formwork elements should be relatively narrow to avoid chatter marks or the like when driving over the joints. In principle, an almost jointless design should be guaranteed.

To solve this problem, the invention proposes that

the free ends of the vertically directed legs are bent away from each other at right angles, so that each profile section is approximately U-shaped, and that a substantially flat joint cover profile is fixed to the outside of the profile ends thus formed.

The corresponding U-shaped profiles can be folded from suitable sheet metal, whereby the starting material can be, for example, steel sheet with corrosion protection or even stainless steel. The design of the profiles in the form of folded metal sheets is essential for the design of the formwork element, since it is theoretically possible to use rolled profiles, but these are too heavy to enable manual installation of the formwork elements. In addition, with rolled profiles it would be necessary to have different rolling tools available depending on the profile's web height. When the profiles are made from folded metal sheet, they can be made relatively lightweight, so that the individual profile sections can be easily handled by one or two people, and it is also possible to change the web height with the same material cut. Only the leg length changes, while the web height is then variable. This means that it is cost-effective to manufacture and

Easy to assemble and handle.

Because the individual sections of the profile are U-shaped, the edge of each concrete field is permanently protected against damage. Since it is not possible to create sharp edges at the transition from the web to the bends with bent profiles made of sheet metal, a joint cover profile must be installed. This joint cover profile can cover the relatively wide joint between the bent profile ends, so that only an extremely narrow joint is created between the individual concrete fields.

Preferably, the joint cover profile consists of two flat irons, one of which is fixed to the profile end of the first profile and extends over the joint gap to over part of the profile end of the second profile, and the other of which is fixed to the profile end of the second profile, whereby both flat irons enclose a narrow joint gap between their abutting edges in the desired position.

According to this design, joint cover profiles made of flat iron are fixed to the bent ends of the profile legs, which are located in the upper side of the concreting field, whereby one of the two flat irons reaches over the joint gap formed between the adjacent profiles and the other flat iron is fixed to the other profile end area parallel and flush with the first flat iron, so that a narrow joint is formed between the two flat irons. This ensures an exact and tight joint formation despite the formwork elements being made of bent profiles made of sheet metal.

The edges of the joint cover profile can either be embedded flush into the concrete mass in the finished concrete field or, as is preferred, these joint cover profiles protrude with their sheet thickness above the surface of the concrete field, whereby a flush connection to the joint cover profiles is then achieved by the monolithic hard material coating on the top of the concreting field.

To ensure an exact and permanent arrangement of the joint cover profiles at the respective profile ends and to avoid distortion of the profile ends where

the joint cover profiles are attached, it is intended that the components of the joint cover profile have holes in the support area on the respective profile end and are firmly connected to the profile end in the area of the holes by means of punch welding.

This design avoids distortion and still ensures that the parts are held together securely and permanently. The respective welding area can then be ground or ground smooth so that disturbing visible areas or the like in the area of the welding points are avoided.

In order to ensure in particular that the joint cover profiles are pre-fixed to the respective profile ends, it is intended that the components of the joint cover profile are attached to the respective profile ends.

Even when tacking, for example by means of a welded connection, no distortion of the components of the profile or the like will occur.

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Preferably, it is also provided that the wall thickness of the profiles and/or the joint covering profiles is a few millimeters, preferably about 2 mm to 6 mm, in particular about 4 mm.

The wall thickness of the profiles should be such that the profiles can bear sufficient loads, but also that the profiles can be bent with manageable forces. A profile thickness of approx. 4 mm has proven to be particularly suitable.

In order to ensure that the formwork elements are properly aligned with one another when they are laid and yet to ensure that the formwork elements can move due to shrinkage when cast with concrete, the vertical legs of the profiles are connected to one another by means of fasteners, in particular screw bolts with nuts, which break or tear in the event of relative movement of the concreted formwork elements due to shrinkage.

The connecting means may, for example, be plastic connecting means that are suitable and intended for the proper connection of the profiles, which

but do not hinder the relative movement caused by shrinkage after the formwork elements have been concreted, but break or tear when such forces occur.

A schematic embodiment of the invention is shown in the drawing and described in more detail below.

It shows:

Figure 1 shows a formwork element in isometric view.

The formwork element 1 is part of a permanent formwork for industrial concrete floors. The formwork consists essentially of the formwork element protecting the edges of the respective concreting field as well as other elements not shown in the drawing, namely an underlay film, spacers, sliding plates, sliding dowels and reinforcing steel mats.

The formwork element 1 consists of two folded profiles made of sheet steel, which in the installation position are vertically

directed legs 2 are arranged almost without a gap to one another and their lower horizontal legs 3 are directed away from one another and form the contact surface on the substrate. For this purpose, these legs 3 are designed to be relatively long in order to ensure that the formwork element 1 stands securely on the substrate.

The free ends 4 of the vertically directed legs 2 at the upper end of the formwork element are bent at right angles away from each other so that they run parallel to the legs 3. Each section of the formwork element 1 is thus approximately U-shaped, whereby the length of the legs 3, 4 is not the same but different.

A two-part joint cover profile, generally designated 5, 6, is attached to the outside of the profile ends 4 thus formed.

The joint cover profile consists of two flat irons 5, 6, one of which (5) is fixed to the profile end 4 of the first profile and extends over the joint gap 7 to over part of the profile end 4 of the second profile,

while the other (6) is fixed to the profile end 4 of the second profile. Both flat irons 5, 6

in the desired position, they enclose a narrow joint gap between their abutting edges. The components of the joint cover profile 5, 6 are provided with holes 9 in the support area on the respective profile end 4 and are firmly connected to the profile end 4 in the area of the holes by means of punch welding, with the weld point then being ground or ground smooth so that a flat visible surface is formed. Furthermore, the components 5, 6 of the joint cover profile can be attached to the respective profile ends 4 by means of welding points in order to ensure pre-fixing before final fixing.

The wall thickness of the profiles (2, 3, 4) and the joint cover profiles 5, 6 is preferably about 4 mm. The vertical legs 2 of the profiles are connected to one another by connecting means 10, which, after the permanent formwork has been cast with concrete material, break or tear in the event of shrinkage-related relative movement of the concreted formwork elements 1, so that the hold of the formwork elements on the corresponding concrete mass is ensured and only the joint 7 between the profiles of the formwork element 1 moves slightly.

enlarged. The joint 8 also enlarges, whereby the joint gap is above one end 4 of one profile of the formwork element 1. The inventive design enables excellent protection of the edges of the respective concreting fields, whereby the separating joint 8 is designed to be relatively narrow, so that no chatter marks or the like are formed when vehicles or the like drive over it.

The invention is not limited to the embodiment, but is variable in many ways within the scope of the disclosure.

All new individual and combination features disclosed in the description and/or drawing are considered essential to the invention.

Claims (6)

Protection claims: 1. Formwork element (1) as a component of a permanent formwork for industrial floors made of concrete, the formwork essentially consisting of the formwork element (1) protecting the edges of a concreting field and optionally an underlay film, spacers, sliding plates and sliding dowels, the formwork element (1) consisting of two folded profiles made of sheet metal, the vertically directed legs (2) of which in the installed position are arranged almost without a gap to one another and the horizontal legs (3) of which are directed away from one another and form the contact surface on the substrate, characterized in that the free ends (4) of the vertically directed legs (2) are folded away from one another at right angles, so that each profile section is approximately U-shaped, and that an essentially flat joint covering profile (5, 6) is fixed to the outside of the profile ends (4) thus formed. 2. Formwork element according to claim 1, characterized in that the joint covering profile (5, 6) consists of two flat irons, one of which is fixed on the profile end (4) of the first profile and extends over the joint gap (7) to over a part of the profile end (4) of the second profile and the other is fixed to the profile end (4) of the second profile, whereby both flat irons in the desired position enclose a narrow joint gap (8) between their abutting edges. 3. Formwork element according to claim 1 or 2, characterized in that the components of the joint covering profile (5, 6) have perforations (9) in the support area on the respective profile end (4) and are firmly connected to the profile end (4) in the area of the perforations (9) by means of punch welding. 4. Formwork element according to one of claims 1 to 3, characterized in that the components of the joint covering profile (5, 6) are attached to the respective profile ends (4). 5. Formwork element according to one of claims 1 to 4, characterized in that the wall thickness of the profiles (1) and/or the joint covering profiles (5,6) is a few millimeters, preferably about 2 mm to 6 mm, in particular about 4 mm. 6. Formwork element according to one of claims 1 to 5, characterized in that the vertical legs (2) the profiles are connected to one another by means of connecting means (10), in particular screw bolts with nuts, which break or tear in the event of shrinkage-related relative movement of the concrete formwork elements (1).