DE9105539U1 - Recess body - Google Patents

Description

Description:

MTK-Magnettechnik GmbH & Co. KG, Saarstr. 24 a, W-5650 Solingen

Recess body

The invention relates to a reusable recess body for the production of precast concrete parts, which has at least one magnet attached in the area of the underside.

Recesses and holes are formed in precast concrete parts during the casting process by first placing so-called recess bodies on the base of the casting mold at the places intended for the recesses or holes. In the prior art, it is known to use metal recess bodies in series production for this purpose, on the underside of which a bar magnet is attached. This bar magnet works together with the casting base made of a ferromagnetic material and holds the recess body in the intended place even during the casting process.

The known, reusable recess bodies are expensive and, if they are larger, very heavy. In addition, the metal of the recess body often bonds with the concrete material, making it difficult to remove the recess body. Finally, the previously known recess body is subject to corrosion.

The invention is therefore based on the object of designing a recess body of the type mentioned at the beginning in such a way that it is inexpensive to manufacture and easy to handle, that it has no tendency to form bonds with the concrete and is significantly more corrosion-resistant.

This object is achieved according to the invention in that the recess body is made of a plastic material and that the magnet or magnets is or are suspended in a vertically adjustable manner.

The use of plastic, particularly polyethylene or polyurethane, significantly reduces the weight of the recess body, especially in large-scale designs, and also ensures that the recess body is corrosion-resistant. It has also been shown that the plastic has no tendency to bond to the concrete and can therefore be easily removed without the use of release agents. In addition, any shape can be produced very easily.

The problem that arose due to the use of plastic for the recess body, namely making the underside of the magnet or magnets exactly flush and parallel to the underside of the recess body, is solved according to the invention by suspending the magnet or magnets in the recess body so that they can move vertically. This allows the magnet to be set to a desired height in relation to the underside of the recess body, in particular flush or almost flush with the underside. If the recess body has several magnets, they can be set to exactly the same height. This ensures that the magnet or magnets of the recess body lie flat on the base.

The height can be adjusted by suspending each magnet from a support bolt, which can be adjusted in height using a nut that is screwed onto the top of the recess body and rests against it. By turning this nut, the support bolt is moved up and down, with the respective magnet following this movement.

According to a further feature of the invention, it is provided that the

The magnet or magnets are loaded with at least one spring, preferably in an outward direction, i.e. downwards. With the help of these springs, the magnet does not have to be held in a form-fitting manner by the support bolt, but rather a support downwards is sufficient, whereby the springs ensure that the magnet in question follows the movement of the suspension when adjusted downwards. It is useful if several springs are provided for each magnet.

In a further development of the invention, it is provided that the recess body has a through-channel running from the top to the bottom with an internal thread into which a forcing screw is screwed, which preferably has a handle at its upper end. Such a forcing screw makes it much easier to lift the recess body, even if a powerful magnet is used. By screwing in this forcing screw, the recess body lifts off the base when the forcing screw comes into contact with the base. The through-channel can expediently pass through a central recess in one or more of the magnets, as this makes the forcing process easier. The through-channel is expediently designed as a separate sleeve, whereby the sleeve can simultaneously form the suspension for the magnet or one of the magnets. In this case, it is advisable for the sleeve to have an annular web on the bottom for suspending the magnet, on which the magnet rests. The sleeve then simultaneously forms the supporting bolt in the above-mentioned sense.

It is also advantageous if the magnet is inserted into a tray that is open at the bottom and adapted to the shape of the magnet, whereby the connection between the tray and the ring magnet can be made by gluing. In this case, it is advisable to support the magnet via the tray on the support device, in particular the support bolt or the sleeve.

In the drawing, the invention is illustrated by means of a

The vertical section of the embodiment shown is shown in more detail. It shows a recess body (1) with a flat top (2) and a flat bottom (3). The side surfaces (4, 5) are slightly inclined outwards in order to be able to remove the recess body (1) more easily from the precast concrete part.

The underside (3) of the recess body (1) has a circular recess (6) into which a metal tray (7) that is open at the bottom is inserted. A ring magnet (8) is glued into the cavity formed by the metal tray (7), the outside of which rests against the inner wall of the metal tray (7).

A metal sleeve (9) is inserted into the recess body (1) coaxially to the metal tray (7) and the ring magnet (8). The sleeve (9) has a ring web (10) in the lower area, the top of which rests against the underside of the metal tray (7) so that the latter is supported accordingly. In the upper area, the sleeve (9) has an external thread (11) onto which a nut (12) is screwed. The nut (12) sits on a shoulder within a recess (13) that is open at the top, whereby it does not protrude beyond the top

(2) protrudes. The screw connection is adjusted so that the magnet (8) and the metal tray (7) are flush with the bottom

(3) of the recess body (1).

The sleeve (9) has an internal thread (14) in the lower area. A forcing screw (15) is screwed into this internal thread (14), which also has an external thread (16) in the lower area. The forcing screw (15) protrudes upwards from the recess body (1) and has a handle (17) at its upper end. With the help of this handle (17), the recess body (1) is easy to handle, even if it is of larger dimensions. The forcing screw (15) with the handle (17) can be removed for the casting process.

If the recess body (1) has several magnets, it is

It is not necessary for each magnet to be assigned a forcing screw. In this case, the sleeve (9) is replaced by a suitable hexagon socket screw inserted from below and screwed into the nut (12), the head of which then takes on the function of the ring web (10) on which the metal tray (7) then rests. In this case, the hexagon socket screw is also only screwed into the nut (12) so far that this magnet - like the other magnets - is essentially flush with the underside (3) and at the same height as the other magnets.

Distributed around the circumference of the metal tray (7) are three helical springs designed as compression springs, of which only one, namely the helical spring (18), is visible here. The helical springs (18) are each located in a vertical blind hole (19) above the metal tray (7) and press it onto the ring web (IC). The upper opening is otherwise closed by a cover cap (20).

Before pouring a precast concrete part, the recess body (1) is placed in the form shown at the intended location on a base made of ferromagnetic material. The ring magnet (8) ensures a firm hold during the pouring process. After the concrete has hardened, the recess body (1) can be removed. To do this, the forcing screw (15) is screwed further into the sleeve (9) so that it moves downwards. After the front of the forcing screw (15) has been placed on the base, the recess body (1) is lifted off this base until the ring magnet (8) no longer exerts any adhesion. The recess body (1) can then be easily removed.

The recess body (1) otherwise consists of a cast polyethylene material, which has proven to be comparatively cheap and particularly durable. However, other plastic materials with similar properties can also be used.

Claims (15)

Claims: MTK-Maqnettechnik GmbH & Co. KG1 Saarstr. 24 a, W-5650 Solingen Recess body 1. Reusable recess body for the production of precast concrete parts, which has at least one magnet attached in the area of the underside, characterized in that the recess body (1) is made of a plastic material and that the magnet (8) or the magnets is or are suspended in a vertically adjustable manner. 2. Recess body according to claim 1, characterized in that the plastic is a polyethylene or a polyamide. 3. Recess body according to claim 1 or 2, characterized in that each magnet (8) is suspended from a support bolt (9) which is height-adjustable via a nut (12) screwed on from the top of the recess body (1) and supported on the latter. 4. Recess body according to claim 3, characterized in that the support bolt is designed as a screw inserted from the underside, on the head of which the associated magnet rests. 5. Recess body according to one of claims 1 to 4, characterized in that each magnet (8) is acted upon by at least one spring (18). 6. Recess body according to claim 5, characterized in that the spring(s) (18) urges the magnet (8) in an outward direction. 7. Recess body according to claim 6 or 7, characterized in that each magnet (8) is acted upon by more than one spring (18). 8. Recess body according to one of claims 1 to 7, characterized in that the magnet or magnets is designed as a ring magnet (8). 9. Recess body according to one of claims 1 to 8, characterized in that the recess body (1) has at least one through-channel (9) extending from the top to the bottom (2, 3) with an internal thread (14) into which a forcing screw (15) is screwed. 10. Recess body according to claim 9, characterized in that the forcing screw (15) has a handle (17) at the upper end. 11. Recess body according to claim 9 or 10, characterized in that the through-channel (9) passes through a central recess in the magnet (8). 12. Recess body according to one of claims 9 to 11, characterized in that the through-channel is formed by a sleeve (9). 13. Recess body according to claim 12, characterized in that the sleeve (9) has an annular web (10 for the suspension of the magnet (8). 14. Recess body according to claim 12 or 13, characterized in that the sleeve (9) is height-adjustable at the top via a screwed-on nut (12). 15. Recess body according to one of claims 1 to 14, characterized in that the magnet (8) is inserted into a trough (7) which is open at the bottom.