DE4012301A1 - FORMWORK COVER - Google Patents

Abstract

Formwork shell for making a concrete, insulating, sealing, drainage or floating base layer in foundation work which has woven walls (1, 2) which are interwoven at least at the edges (4, 5, 6, 7) of the formwork shell and joined together via woven spacers (8) in such a way that, when a setting, insulating, sealing or waterway material is inserted, the bulging of the walls (1, 2) is limited. In order to separate different materials from one another in the formwork shell, the latter has a third wall (3) interwoven with the other two walls (1, 2) at the edges (4, 5, 6, 7) and joined to the central wall (2) via woven spacers (9) so that the space between the central (2) and third (3) walls can also be filled.

Description

The invention is based on a formwork casing for manufacture len a concrete, insulating, sealing, drainage or floating base course in the basic structure, the two woven hull len walls that at least on the edges of the Scha are wrapped together and the over woven Spacers are interconnected so that when Filling a hardening, insulating, sealing or water-conducting material the bulging of the shell walls be limit.

Formwork casings of this type are known from DE-PS 29 33 551. In these known formwork casings, they are at the casing walls not only at their edges, but also along the edges long of at a distance parallel to the edges in shot and Ver warp direction connecting strips together weaves. The formwork cover is due to the intersecting ver Tie strips divided into chambers that pass through openings in the connecting strips in connection with each other stand. With the help of these formwork casings, concrete covers made up of several by joints assemble individual panels that are partially separated from each other, but which are still connected to each other via concrete walkways. The connected concrete webs arise when filling the formwork shell le with concrete mortar at the passage openings of the strip moderate swings. The division of the formwork envelope into numerous, largely separate chambers has u. a. the advantage that when laying the formwork cover to a reltiv steep slope the exerted on the shell walls Pressure of the poured pourable concrete not too great becomes.  

Especially when creating and / or covering Depo The task is different materials layers on you in approximately uniform layer thickness apply even or inclined surface. With these Layers can be another layer on top of a concrete base Layer, e.g. B. from a sealing or insulating Ma be applied material. If the backing layer is stronger kere inclination, this is very difficult bound, especially since the adhesion of such a layer on the Small surface area of a formwork envelope filled with concrete is.

The invention has for its object a formwork envelope to create, in which, separately, two difference Liche materials in a substantially uniform layer thickness can be introduced. This will accomplish this task solved that it also has a third shell wall, those on the edges of the formwork shell with the other two The walls of the cover are woven and woven into the spacers the middle wall and the third wall with one hardening, insulating, sealing, filtering or water-conducting material can be filled.

In this formwork cover according to the invention can according to her Laying - depending on the application - a concrete layer and a sealing layer or a concrete layer and a drainage layer or a concrete layer and a planting layer or a sealing layer and a drainage layer or a filter layer and a drainage layer or a carrier layer and an insulating layer be filled in.

Concrete and other setting materials come as carrier layers materials, e.g. B. made of plastic, in question. As a seal layer comes clay, swelling clays, such as bentonites or the like in question. A layer of gravel or comes as the drainage layer  Fibers in question. To form a filter layer are in particular diatomaceous earth, pearlite, charcoal, wood flour and cellulose.

The substances to be filled can be hoses or Lances slurried into the installed formwork cover or be blown in. The layer thicknesses can be very below be different.

On the flat surface covered by a plastic film The formwork covering according to the invention can be laid and landfilled in the space between the lower shell wall and the middle a drainage material can be filled and then between the middle hull wall and the upper hull Wrapped a layer of concrete, which according to her Er harden a concrete slab that forms the plastic sheet and the drainage layer against mechanical injuries protects.

A plastic film can be used to cover a landfill who laid a two-layer formwork envelope according to the invention the one that is filled with concrete in its lower area and in the upper area with plant soil, which seed for the Greenery can be added. In this case the above is right wall of the casing is formed as a tissue that is easily rooted. Such formwork covers can also be used to protect relatively steep slopes are to be used, which should be plantable len.

Should be in a space between the middle shell wall and egg ner outer shell wall concrete are then Woven spacers from woven ribbons that are in the Chains of the middle and outer shell wall are inserted. The distance between these ribbons can be 5 to 10 cm and in at appropriate intervals they should form the Ab Switch stand holder from wall to wall. The so Spacers formed can, for example, 10 cm or 20 cm long.  

Should there be a space between the middle shell wall and one outer shell wall with a sealing material, in particular Clay, to be filled, then to form the spacers Use monofilament threads to avoid wicking the. These monofilament threads can be used for spacing yourself crossing from the middle to the outer shell wall and from switch from the outer to the middle shell wall. You can the distances of the monofilament threads from each other be 2 to 6 cm wear and at appropriate intervals the changes be provided.

The distances between the three shell walls when filled Formwork cover will be from the length of the spacers Right. This length is determined by the task at hand Formwork cover determined and is when weaving the formwork cover to be determined. The distance of an outer shell wall from the middle shell wall can be five times as large, for example how the distance of the other outer shell wall from the mitt outer shell wall.

For better adhesion of the formwork cover to the subsurface the lower shell wall can be heavily structured. The upper Shell wall can be spaced by using thick warp and / or weft threads are structured to a better adhesion of soil to the top wall of the casing to reach.

One of the two outer shell walls can be used as a reinforcement or stabilizing tissue. Unless this reinforcement tissue sensitive to fresh concrete can enter the room between the middle shell wall and the outer, the Casing wall forming reinforcement or stabilizing fabric an insulating agent can be filled or foamed. The Stabilizing fabric points in the warp direction or in Shot direction or in both directions a maximum train force of at least 50 KN / m, preferably 60 to 100 KN / m and consists of high-strength polyester yarns. It can also use high-strength polyethylene yarns come.  

In the following description, embodiments of the Formwork cover according to the invention with reference to the Drawings explained in more detail. The drawings show in

Fig. 1 is a perspective view of a two-layer shaving lung cases according to the invention,

Fig. 2 is a sectional view of another embodiment of the formwork shell according to the invention,

Fig. 3 is a plan view and

Fig. 4 is a sectional view of a compartmentalized formwork shell, in which the chambers of the lower layer are offset from the chambers of the upper layer,

Fig. 5 is a sectional view of a formwork envelope according to the invention with formed as overlap areas th edge areas.

As shown in FIGS . 1 and 2, the formwork casing according to the invention has a lower casing wall 1 , a middle casing wall 2 and an upper casing wall 3 . These three envelopes walls 1 , 2 , 3 are woven and are woven together at least at the edges 4 , 5 , 6 . Such a triple fabric is woven with the help of three chains, which are connected with the help of weft threads. The lower shell wall 1 is also connected to the middle shell wall 2 by woven spacers 8 so that when bulging fresh concrete the bulging of the shell walls 1 and 2 is limited. Furthermore, the middle shell wall 2 is connected to the upper shell wall 3 by woven-in spacers 9 so that the bulging of the shell wall 3 is limited to a desired dimension. The spacers 8 and 9 can be woven in such a way that the distance between the casing walls 1 and 2 and the casing walls 2 and 3, for example 20 cm or 1 cm, when filling a material.

In this way, the two-layer Formwork cover are woven so that in the lower part of the Formwork covering, for example, a 20 cm thick layer of concrete is formed and in the upper part of the formwork envelope about 1 cm thick sealing layer or insulation layer.

As FIG. 2, the space enclosed by the lower casing wall 1 and the center shell wall 2 space can, for example, by strip-shaped Abwebungen 10 in chambers 11 to be subdivided. So that the material can be filled into these chambers 11 , all the chambers 11 are connected to one another via passages 14 in the strip-shaped weaves 10 . These passages 14 also fill with the filled material.

As shown in FIGS . 3 and 4, the two-layer formwork cover can wall both in the area between the lower cover wall 1 and the middle cover wall 2 and in the area between the middle cover wall 2 and the upper cover 3 in chambers 11 and in Chambers 13 may be divided, and these chambers 11 and 13 may be offset from one another. The chambers 11 in the lower layer are formed by weaves 10 extending in the warp and weft directions, while the chambers 13 are formed by strip-shaped weaves 12 extending in the warp and weft directions.

Fig. 5 shows a section through a two-layer Scha development envelope, in which the middle shell wall 2 and the upper shell wall 3 are woven together to form an underlying overlap area 15 over a wider edge area and in which to form an overlapping overlap area 16, the lower shell wall 1 are interwoven with the middle shell wall 2 over a wider edge area.

These formwork casings are installed in such a way that the overlapping area 16 of an adjacent formwork casing comes to rest on the overlap area 15 .

So that the formwork cover rests non-slip on an inclined surface or earth adheres better to the upper cover wall 3 , the structure of the outer surface of the lower cover wall 1 and / or the upper cover wall 3 is particularly rough or uneven by appropriate binding or by weaving threads of different thicknesses .

Reference symbol list

1 lower shell wall
2 middle shell wall
3 upper shell wall
4 rand
5 rand
6 rand
7 edge
8 spacers
9 spacers
10 strip-shaped weaving
11 chamber
12 striped weave
13 chamber
14 passages
15 overlap area below
16 overlapping area

Claims (11)

1. Formwork casing for producing a concrete, insulating, sealing, drainage or floating base layer in the basic structure, which has two woven casing walls ( 1 , 2 ), at least on the edges ( 4 , 5 , 6 , 7 ) of the formwork casing are interwoven and the woven spacers ( 8 ) are connected to each other so that they limit the bulging of the casing walls ( 1 , 2 ) when filling a hardening, insulating, sealing or water-conducting material, characterized in that they additionally have a has third casing wall ( 3 ) which is woven at the edges ( 4 , 5 , 6 , 7 ) of the formwork casing with the two other casing walls ( 1 , 2 ) and is connected to the middle casing wall ( 2 ) by means of woven-in spacers ( 9 ) and the space between the middle shell wall ( 2 ) and the third shell wall ( 3 ) can also be filled with a hardening, protective, insulating, sealing or water-conducting material . 2. Formwork casing according to claim 1, characterized in that the spacers ( 8 ) between an outer casing wall ( 1 ) and the central casing wall ( 2 ) are formed by woven tapes and are at least twice longer than the spacers ( 9 ) between the middle hull lenwand ( 2 ) and the third hull wall ( 3 ). 3. Formwork casing according to claim 2, characterized in that the spacers ( 9 ) between the central casing wall ( 2 ) and the third casing wall ( 3 ) are formed by monofilament threads. 4. Formwork casing according to one of claims 1 to 3, characterized in that the spacers ( 9 ) are warp threads of the first casing wall ( 1 ) and the central casing wall ( 2 ) and the spacers ( 9 ) warp threads of the central casing wall ( 2 ) and third shell wall ( 3 ). 5. Formwork casing according to one of claims 1 to 4, characterized in that the space between an outer casing wall ( 1 or 3 ) and the central casing wall ( 2 ) is divided into chambers ( 11 ) by strip-shaped weaving ( 10 ). 6. Formwork casing according to claim 5, characterized in that both the space between the first casing wall ( 1 ) and the central casing wall ( 2 ) and the third casing wall ( 3 ) by stripe-shaped weaves ( 10 , 12 ) extending in warp and weft directions. are divided into chambers ( 11 , 13 ) and the strip-shaped weaves ( 10 ) between the first ( 1 ) and the middle shell wall ( 2 ) are offset from the strip-shaped weaves ( 12 ) between the middle ( 2 ) and the third shell wall ( 3 ) are. 7. Formwork casing according to one of claims 1 to 6, characterized in that at least one of the two outer casing walls ( 1 or 3 ) is strongly structured by using warp and / or weft threads of different thicknesses. 8. Formwork casing according to one of claims 1 to 7, characterized in that one of the outer casing walls ( 1 or 3 ) is designed as a stabilizing fabric. 9. Formwork casing according to claim 5, characterized in that the spacers ( 9 ) between the central casing wall ( 2 ) and the third casing wall ( 3 ) are designed such that after filling the spaces on both sides of the central casing wall ( 2 ), the third casing wall ( 3 ) has an essentially equal distance from the middle shell wall ( 2 ). 10. Formwork casing according to one of claims 1 to 9, characterized in that the third casing wall ( 3 ) lying at the top is formed by an easily rootable fabric, the fabric meshes of which are 0.5 to 2 mm in size. 11. Formwork casing according to one of claims 1 to 10, characterized in that the upper casing wall ( 3 ) are woven together over a wider edge area to form an overlap area ( 15 ) and to form an overlap area ( 16 ) in an opposite one the lower casing wall ( 1 ) and the middle casing wall ( 2 ) are woven together in accordance with the wide edge area.