DE19810612A1 - Magnetic clamping strip for concrete formwork - Google Patents

Abstract

The strip has permanent magnets and soft magnetic intermediate or outer layers which are surrounded by a nonmagnetic material, except for at the front (3) of the soft magnetic layer which acts as a pole shoe. The nonmagnetic material may be a plastic which is cast or injected over plate-shaped magnets.

Description

The invention is directed to a magnetic bar with plate-shaped Permanent magnets and soft magnetic intermediate and / or outer layers, their Front faces which are preferably raised in the area of a contact surface Pole shoes serve, all alternately stacked on top of each other Permanent magnets and intermediate and / or outer layers are fixed to each other.

The proven already in the fourth decade after Christ in the Roman Empire The concrete material used is still extremely popular today in the construction of structures. It is common here in concrete plants To produce plate-shaped concrete parts, which are then transported to a construction site and processed there. The production of plate-shaped concrete parts takes place by pouring the liquid concrete into the formwork on steel tables assembled according to the desired outline of the concrete wall to be produced become. To include those contained in the concrete when it is poured in To remove air bubbles as completely as possible and thereby a high stability of to get the finished concrete wall are conventional concrete tables with a drive provided, which gives them strong shaking movements. It is important that the the formwork parts surrounding the concrete on the surface are extremely stable of the concreting table are set so that they can move during such can not move, as in this case the entire concrete slab as a committee would be treated.

First, therefore, the formwork parts on the relevant table surface screwed, which had the disadvantage that the holes in question a change in the desired plate dimensions no longer fit and therefore this method was extremely inflexible.

That is why, for example, European Patent 0 639 686 Formwork system for concrete parts with a steel base plate proposed on the magnetic body can be placed, which the formwork parts in their respective Fix position. These magnetic bodies are U-shaped in cross section and  are placed with their two legs on the base plate and then there held by magnetic force. A U-shaped formwork part can then are placed over such magnetic bodies and is then in place by them and held on. European patent specification 0 638 686 further provides that the two legs of the magnetic body converge towards the base plate, a claw-like lifting tool with complementarily designed jaws pushed over such a magnetic body and then for the purpose of it Disassembly can be tilted using a lever.

This arrangement known from European patent specification 0 639 686 allows a more flexible adaptation of the formwork to changed geometries concrete slabs to be produced, however, the U-shaped, with their Legs converging towards the base plate magnet arrangement a lot of space, so that in relation to the volume of such a magnetic body of the achievable Magnetic forces are too low to withstand the high inertial forces during the To be able to withstand the vibration phase.

Another way is taken in DE-OS 195 07 506. Here is within one outer, hood-shaped housing arranged the actual magnetic body, the made of laminated, plate-shaped permanent magnets interposed, soft magnetic plates is formed, which by perpendicular screws inserted through the plate surfaces are fixed to each other. The soft magnetic plates are in the Area of the bottom of the assembly opposite the hard magnetic Permanent magnets emerge and in this way form pole pieces, which the Bundle magnetic field lines in the area of the transition to the metallic table top. This arrangement has a much higher adhesive force since there are a large number of Permanent magnets can be summarized in the smallest space, and is therefore much more suitable for use on concrete vibrating tables. she allows in particular the provision of recesses within the Precast concrete parts.

Finally, the inventor succeeded with the arrangement according to the German Utility model 94 11 585 the improved principle of bundled magnetic disks  can also be used for formwork in the peripheral area of a slab to be concreted close. The screws that hold the individual magnetic disks reach through together with intermediate and outer layers and fix them together by in Corresponding recesses inserted rivet pins, which are completely in the two outer layers can be sunk so that one is ideal cuboid shape, to which after fixing it to a metallic Base plate placed an approximately U-shaped formwork part and then immovable can be held. However, this arrangement develops so strong Magnetic forces that cause difficulties with metallic formwork parts, to release them from the magnetic holding strips after the completion of a concrete slab.

The serious disadvantages of European patent 0 639 686 could be overcome by the arrangement according to German utility model 94 11 585 largely eliminated, yet its outstanding adhesive force casts the additional problems, for smooth lifting U-shaped Take care of formwork parts.

This problem is solved according to the invention with a generic one Magnetic strip in that the permanent magnet and soft magnetic Intermediate and / or outer layers with the exception of those serving as pole shoes End faces of the soft magnetic layers and / or the entire contact area are surrounded by a non-magnetic material. This wrapping is for Magnetic field lines largely impenetrable and therefore creates a magnetic Isolation of the magnetic holding strip according to the invention from an inverted one Formwork, so that it is not subject to any magnetic forces and therefore both can be easily slid on and removed. The formwork is therefore immovable in the horizontal direction with the most massive forces fixed, but is relatively easy to move in the vertical direction, so that maximum stability goes hand in hand with optimum ease of use.

It has proven to be favorable that a plastic as a non-magnetic material is used, which is cast around the plate-shaped magnetic elements or is injected. The individual hard and soft magnetic layers layered together, then by means of  Fasteners set each other and then within a casting or Injection mold placed to finally be enveloped by the plastic. This process is far simpler and therefore cheaper than one Housing-like cover made of a non-magnetic metal material to manufacture.

The invention prefers a hard plastic as a non-magnetic material use, which has good dimensional stability and therefore none Allows horizontal movements of a slipped, U-shaped formwork element.

On the other hand, the invention recommends using a slightly elastic plastic use. By making the plastic extremely small, it is nevertheless has effective elasticity, injuries, as otherwise caused by Accidentally falling magnetic strips could be caused can be reduced or even avoided.

Further advantages can be achieved in that the contact area together with the hardened plastic is face milled or ground. This measure ensures that the contact area is exactly flat and therefore full-surface and without there is any air gap on the table surface. As a result, the soft magnetic pole shoes direct contact to the also metallic Tabletop so that the magnetic field lines are completely within can form magnetic materials, and a maximum of magnetic Sustainability is achievable.

By the magnetic strip according to the invention an elongated, approximately cuboid Has shape, it is particularly suitable for guiding a slipped formwork body.

It has proven to be advantageous that the corners and / or edges of the Magnetic strip according to the invention are rounded. Such a design can be done in a very simple way by appropriate dimensioning of the casting or Injection molding tool can be achieved so that without additional  Workload can produce an object that is handled carelessly cannot cause injuries.

The magnetic holding strip according to the invention can be optimized so that a or more, preferably all four side surfaces from the contact surface to The upper side is inclined towards the outside. This shape allows a claw-like pulling tool from one of the narrow end faces to slide complementary shaped jaws, which is provided with a lever, in order to detach the magnetic strip from the relevant metal table overcome enormous magnetic forces by tilting the arrangement can. Here is due to the side surfaces converging from each other formed dovetail shape of the connection between the invention Magnetic strip and peel tool created a positive connection, which also to withstand enormous magnetic forces, which is due to the high concentration the magnetic field lines due to the layering of several permanent magnets are caused. To optimally leverage such a tool To be able to use, are preferably the two long sides of an elongated Magnetic strip inclined towards each other, while the end faces may also can be formed parallel to each other.

The invention recommends the angle of inclination of a long side relative to the Verticals between 1 ° and 20 °, preferably between 5 ° and 15 ° in particular to choose at about 8 ° to 12 °. This area represents an optimal compromise between a high form fit when the tool in question is detached from a tabletop on the one hand and between the smallest possible Volume increase due to the broadening on the other hand.

In a preferably alternative embodiment of the invention are on a or several side surfaces, preferably on the two long sides, to the edge parallel depressions on the contact surface, especially grooves intended. This embodiment also makes it possible to apply one Removal tool from the front, but has the advantage that the Side surfaces can also run at right angles, so that a particularly good Guidance of an overturned, U-shaped formwork part is guaranteed. A  such, groove or groove-shaped recess can be used when using a Plastic as a magnetic insulator in the simplest way by modifying the Injection or casting mold are caused. By making the appropriate deepening is designed as a groove on the bottom, it remains the magnetic insulator unaffected, further up, the arranged fasteners for mutual Determination of the permanent magnets, in particular screw heads or the like, to flow around and thereby to fix them so that they cannot come loose.

Finally, it is in accordance with the teaching of the invention that the non-magnetic layer is thicker than possibly protruding parts of for mutual fixing the alternately stacked permanent magnets and intermediate and / or Fastening parts used in the outer layers, in particular screw heads or the like. By completely covering such parts, a magnetic Shunt completely excluded, furthermore the risk of injury is on reduced to a minimum.

Other features, details, advantages and effects based on the invention emerge from the following description of a preferred Embodiment of the invention and with reference to the drawing. This shows in:

FIG. 1 is an adhesive magnetic strip according to the invention in a perspective view;

FIG. 2 shows a section through FIG. 1 along the line II-II; such as

Fig. 3 is a representation corresponding to FIG. 2 of a modified embodiment of the invention in an upright position.

The magnetic strip 1 shown in FIG. 1 has fallen 180 °, so that the completely flat contact surface 2 can be seen. There, three pole shoes 3 made of soft magnetic metal material can be seen in the embodiment shown, otherwise the remaining surface 4 of the magnetic holding strip 1 consists exclusively of non-magnetic plastic.

Fig. 2 shows the inside of the magnetic bar 1 in the form of a cross section which is basically approximately constant over almost the entire length of the elongated magnetic bar 1 . It can be seen that the pole shoes 3 correspond to the end faces of soft magnetic, elongated metal plates 5 , of which the middle metal plate 5 is enclosed between two semi-magnetic permanent magnet plates 6 . In terms of their length, these correspond approximately to the soft magnetic metal plates 5 , but do not extend all the way to the contact surface 2 . These layered, permanently or soft magnetic metal plates 5 , 6 are fixed to one another by a plurality of three screws 7 in the embodiment shown. Here, the screw 7 passes through aligned holes in the metal plates 5, 6 and 8 opposite the metal plate 5 is firmly screwed into the her head by means of a local internal thread.

This magnetic body 5 , 6 is encased by the plastic compound 9 , such that the cavities between the pole pieces 3 are completely filled and otherwise all elements, in particular also the screw 7 and its head 8 , are completely encased by the plastic compound 9 .

The plastic 9 is extremely dimensionally stable with a minimal elasticity, which only appears noticeably in the case of shock-like forces such as an accidental falling, but does not allow any relative movement of an inverted, U-shaped formwork part with respect to the table top in question during the function and in particular during a shaking phase .

As can be seen in FIG. 1, the corners 10 and edges 11 are strongly rounded, for example with a radius of curvature of 0.5 to 2 cm, in order to avoid injuries. In particular, the two long sides 12 , but also the two end faces 13 in the magnetic holding strip 1 shown in the drawing, are inclined to converge from the upper side 14 toward the contact surface 2 . The angle of inclination corresponds to approximately 8 ° in the illustrated embodiment, but can vary in a range from approximately 10 to 20 °. This shape allows a dovetail-shaped engagement with a claw-shaped detaching tool pushed on from an end face 13 , which has a lever with which the magnetic bar 1 can be tilted up from the table top and then removed.

Another embodiment of the adhesive magnetic strip 15 according to the invention is shown in Fig. 3 in cross-section, not here runs the section through the plane of symmetry of the adhesive magnetic strip 15, so that also provided here for mounting screws are not visible. The magnetic holding strip 15 also has an elongated shape with two longitudinal side surfaces 16 , a contact surface 17 and an upper side 18 . This embodiment differs from the magnetic holding strip 1 according to FIGS. 1 and 2 only by the shape into which the plastic 19 is injected, while the magnetic elements, namely soft magnetic pole shoes 5 and hard magnetic permanent magnet plates 6 and their fastening screws 7 with the previously described one Embodiment are completely identical.

The difference between these two embodiments lies in the design of the side surfaces 16 . In the embodiment 15 , these run parallel to one another in the upper region and at right angles to the contact surface 17 and the upper side 18 . In the area of the lower edges 20 between the side surfaces 16 and the contact surface 17 , grooves 21 are provided, into which complementarily shaped thickenings on claw-like pulling tools can engage, so that there is a stable positive fit, which tilts the relevant magnetic element 15 away from the top 22 of one Vibration table 23 enables.

In Fig. 3 it can be seen how a cross-sectionally approximately U-shaped formwork element 24 is placed over the magnetic bar 15 , so that the two legs 25 of the formwork element 24 are seated on the top 22 of the vibrating table 23 . As a result of the side surfaces 16 which are parallel to one another and run at right angles to the contact surface 17 , the inner sides 26 of the two legs 25 of the formwork element 24 lie against the holding magnet strip 15 over a large area and can be guided optimally by the latter. As a result of the magnetically insulating resin 19, the shuttering member 24 may harmless also made of magnetic material such as, iron be made, and it can furthermore also in order to improve the clamping effect with the adhesive magnetic strip 15 in the area of its two legs 25 at their free ends readily formed convergently be so that they spread apart easily when pushed onto the magnetic bar 15 , thereby resulting in a particularly high contact pressure and consequently a very high frictional force to the magnetic element 15 , which additionally results in an immovable fixing of the formwork due to a specially selected plastic 19 with a high coefficient of friction 24 contributes. As a result of the magnetically insulating properties of the plastic 19 , the formwork element 24 can, however, easily be pulled up again from the magnetic holding strip 15 , which can then be tipped off and removed from the table top 22 by pushing on a pulling tool engaging in the grooves 21 .

Claims (11)

1. Magnetic strip ( 1 ) with plate-shaped permanent magnets ( 6 ) and soft magnetic intermediate and / or outer layers ( 5 ), the front faces ( 3 ) of which are preferably raised in the area of a contact surface ( 2 ) serve as pole shoes, all of the permanent magnets alternately stacked on top of one another ( 6 ) and intermediate and / or outer layers ( 5 ) are fixed to one another, characterized in that the permanent magnets and soft magnetic intermediate and / or outer layers ( 5 ) with the exception of the end faces ( 3 ) of the soft magnetic bearings ( 5 ) serving as pole shoes entire contact area ( 2 ) is surrounded by a non-magnetic material ( 9 ). 2. Magnetic strip according to claim 1, characterized in that a plastic is used as the non-magnetic material ( 9 ), which is cast or injection molded around the plate-shaped magnetic elements ( 5 , 6 ). 3. Magnetic strip according to claim 1 or 2, characterized in that a hard plastic is used. 4. Magnetic strip according to one of the preceding claims, characterized characterized in that a slightly elastic plastic is used. 5. Magnetic strip according to one of the preceding claims, characterized in that the contact surface ( 2 ) together with the hardened plastic ( 9 ) is face milled or ground. 6. Magnetic strip according to one of the preceding claims, characterized in that the magnetic strip ( 1 ) has an elongated, approximately cuboid shape. 7. Magnetic strip according to one of the preceding claims, characterized in that the corners ( 10 ) and / or edges ( 11 ) are rounded. 8. Magnetic strip according to one of the preceding claims, characterized in that one or more, preferably all four side surfaces ( 12 , 13 ) from the contact surface ( 2 ) to the top ( 14 ) is inclined outwardly diverging. 9. Magnetic strip according to claim 8, characterized in that the Inclination angle between 1 ° and 20 °, preferably between 5 ° and 15 °, is in particular about 8 ° to 12 °. 10. Magnetic strip according to one of claims 1 to 7, characterized in that on one or more side surfaces, preferably on the two long sides ( 12 ), to the edge ( 11 ) on the contact surface ( 2 ) parallel depressions, in particular grooves ( 21 ) are provided. 11. Magnetic strip according to one of the preceding claims, characterized in that the non-magnetic layer ( 9 ) is thicker than possibly protruding parts of fastening parts ( 7 ) used for mutually fixing the alternately stacked permanent magnets ( 6 ) and intermediate and / or outer layers ( 5 ) ), in particular screw heads ( 8 ) or the like.