DE19814025A1 - Shuttering for the manufacture of precast concrete sections - Google Patents

Abstract

A shuttering system for the manufacture of precast concrete sections is provided with a device to remove the shuttering when the concrete is only partially set enabling the shuttering to be used with a shorter turn-round time than obtained with conventional shuttering. The shuttering (3) is held onto the steel base plate (1) of the mould by magnetic grips. These are released by threaded drives (11) prior to releasing the shuttering. A crank operated release lever (4) is used to slide the shuttering along the edge of the concrete to release the grip via shear force. Further application of the crank pulls the shuttering away from the concrete. The crank lever is pivoted on a magnetic grip (8) clamped to the base plate, and released by threaded drives (9).

Description

The invention relates to a formwork for precast concrete parts for parking a base plate with a supporting the concrete of the precast concrete Final page.

Formwork of this type can be found in production plants for prefabricated concrete components. There, formwork is set up on a base plate with which the dimensions of precast concrete to be cast be, for example of ceilings, walls, etc. The precast concrete parts who which is then poured and after the concrete has set the formwork removed and then reused.

Since the setting of the concrete takes some time, is during this time the formwork is bound and cannot be shared with others Positions are used. Removing the formwork too soon poured precast concrete can damage the concrete lead the end surface formed support. For example Areas of the not yet fully hardened concrete on the formwork ten remain, so that appropriate on the support surface in the concrete find breakout-like depressions. This is what is required today Quality not acceptable.

On the other hand, the length of time a formwork stays on a hardening one Concrete part should be kept as short as possible so that a ge to have the smallest possible number of formworks in circulation,  the task arises to specify formwork as early as possible can be subtracted from the precast concrete to another Precast concrete to be put into use.

This object is achieved in that invented at a formwork according to the invention for precast concrete which is the concrete of the Betonfer partially supporting end side is movable via a positive guide, which they only parallel to the Ab from the concrete formed on the end leads and then pulls it away from this.

The invention is based on the finding that liability between Concrete and sealing strip on the support surface is to be loosened by a Shear motion. With this shear movement, every single one in the Supporting surface lying particles of concrete by neighboring particles supported. The concrete particles stick to the end replaced by a glide. When sliding, the concrete particles stick considerably less on the end side, so that one slips out pulling out the closing side from the support surface Cohesive forces in the concrete are greater than the adhesive forces of the concrete on the final side. The concrete particles remain in the same way as the concrete formed support surface and do not break out of this.

The positive control, which is provided according to the invention, has the significant advantage that the transition from the sliding movement in the Ab pulling movement takes place continuously and there is no risk that the Final side is stopped again after its parallel leading, so that there is again adhesion between the concrete and the end face, which if they are then pulled back to the ones not desired causes the outbreak.

In principle, it would be possible to follow the guiding and pulling movement make above. However, this has the disadvantage that when moving the weight of the end side must also be transported. Instead of  which is proposed to close the end side along the base plate to lead. So that profile elements on the end side, as with For example, the angles provided for chamfers are made cleaner.

The final page can, for example, have a base plate with it move the rotary lever that can be brought into active connection along a circular path be. Then the initial parallel guidance is actually tangent tial view and pulling the end of the support surface takes place continuously. It is possible to use the rotary lever to delete the Lö on the final side by this part of a sepa advise tool that can be connected to the end side.

On the other hand, the loosening of the end side can also be done via one her attached lever take place, then only via the rotary lever still taking the lead. The rotary lever is advantageous in an abutment in the form of a magnet that can be fixed to the base plate ten stored. The magnet has the advantage that there are no holes the base plate are necessary to fix the rotary lever. Otherwise can in this way an optimum radius for the respective application be selected for the pull-off movement by the corresponding length of the Rotary lever.

Basically, the final page can be together with the actual Formwork body to be movable, it being in this context is parlous if the formwork body is closed by magnets on the base plate fasten, which are retractable into the formwork body. So that can the magnets are detached from the base plate and their adhesive force must be then cannot be overcome during the initial parallel movement.

Of course, it is also possible to only close the closing side move, which is then movable relative to the formwork body.  

Here is one between the formwork body and the end side to provide the cam track determining the movement of the end side, which then controls the movement of the end side accordingly takes over with initial parallel and then slowly from the outrigger surface of the concrete moving away.

Further features and advantages of the invention result from the following description of an embodiment. It shows

Fig. 1 is a perspective view of a formwork according to the invention.

In Fig. 1, a formwork for precast concrete is shown, which can be parked on a base plate in order to limit an area that is to be filled with concrete for the production of a precast concrete element, such as a ceiling, a double wall, etc. The concrete is on an end side 2 of the formwork.

This final side is now to be moved in parallel, that is to say in accordance with the movement arrow 3 , when a supported precast concrete element is no longer liquid, but is also not yet fully cured. In principle, the chemical additive corresponding to the concrete can be mixed in for faster setting.

By moving along the movement arrow 3 , a shard movement between the end face 2 of the formwork and the supporting surface of the concrete is executed. From this parallel movement, the end side is then subtracted from the support surface, this being done in the example shown by a rotary lever 4 .

This rotary lever can be pivoted about a rotation point 6 in accordance with arrow 5 , and is operatively connected to the formwork via a coupling point 7 . The point of rotation 6 is mounted in an abutment 8 , in which a strong adhesive magnet is integrated on the underside, which can have an adhesive force of up to 1000 kg. This magnet can be lifted via two gene Federführun 9 of the base plate 1 and is then drawn into the housing of the abutment, so that then a total of the abutment can be lifted 8 abge to be useful in another form member.

The rotary lever 8 is moved at the rotation point 6 via a pivot lever 10 to which an operator applies a rotational force.

Before the formwork starts to move, it is detached from the base plate 1 by lifting magnets attached to the formwork via corresponding spring guides 11 and moving them upwards into a cavity 12 . The formwork element can then be moved and, after an initial tangential movement according to the movement arrow 3, performs a movement which is indicated by the arrow 5 and slowly releases the end face from the concrete. The movement of the closing side leads parallel to the base plate 1 . Thus, existing bulges 13 or chamfers 14 provided for chamfers on the end side are disengaged without difficulty.

In addition to the version shown, in which the entire formwork is movable, it is also conceivable to move only the end side 2 , in which case a curved path must be provided between it and the formwork body 15 , which takes over the positive guidance accordingly.

In summary, the invention thus represents a possibility of a To design formwork for precast elements in such a way that with it already at a very early stage, a cast concrete was stripped part can be made so that the operating time of the Scha body on the precast concrete can be greatly shortened.

Claims (9)

1. Formwork for prefabricated concrete parts to be placed on a base plate ( 1 ) with a final side ( 2 ) supporting the concrete of the prefabricated concrete part, characterized in that the final side ( 2 ) is movable via a positive guide ( 4 ), which is only parallel to the concrete on the end side ( 2 ) formed from the support surface and then subtracts from it. 2. Formwork according to claim 1, characterized in that the end side ( 2 ) along the base plate ( 1 ) can be guided. 3. Formwork according to claim 1, characterized in that the end side ( 2 ) via a with it and the base plate ( 1 ) can be brought into operative connection rotary lever ( 4 ) along a circular path ( 5 ) be movable. 4. Formwork according to claim 3, characterized in that the rotary lever ( 4 ) is part of a separate tool ( 4 , 6-10 ). 5. Formwork according to claim 3, characterized in that the rotary lever ( 4 ) is mounted in an abutment ( 8 ) with a te on the Grundplat te ( 1 ) fixable magnet. 6. Formwork according to claim 1, characterized in that the end side ( 2 ) together with the formwork body ( 15 ) is movable. 7. Formwork according to claim 6, characterized in that the formwork body ( 15 ) via magnets retractable into the formwork body is attached to the base plate ( 1 ). 8. Formwork according to claim 1, characterized in that the end side ( 2 ) relative to the formwork body ( 15 ) is movable. 9. Formwork according to claim 8, characterized in that between the formwork body ( 15 ) and the end face ( 2 ) is a movement determining the end face movement curve.