DE10321622A1 - Magnetic pin wall system for notice boards has clamp rotatable bar magnet clamp polarised orthogonal to length and clamped by rotating lever - Google Patents

Abstract

A magnetic pin wall system (2) has a clamp magnet using a rotatable bar magnet (12) polarised orthogonal to its length with permanent magnet shell and magnetisable core in a magnetisable housing (8) with high friction coating and clamped and released by a lever (14).

Description

The The invention relates essentially to a magnetic pinwall system vertically arranged support surface magnetizable material according to the generic term of claim 1.

Magnetic Wall Systems have been used for a long time, notepads, plans, invoices or other leaf-shaped Information carrier, which are usually made of paper.

For this become one or more superimposed leaf-shaped information carrier with the help of a clamping magnet made of permanent magnetic material to a carrier surface made of magnetizable Material attached to which they are generated as a result of magnetic forces Frictional effect between the support surface and that facing the support surface clamping surface of the magnet in a desired one Be held in position.

The The advantage of the known magnetic wall systems is that by simply lifting the clamping magnets further additional Information carrier, for example a certain category or a certain Project are assigned together by a single clamping magnet can be attached to the magnetic board. This makes them suitable the known magnetic pin board systems, especially for organizing sheet-shaped information carriers or other leaf-shaped Material.

On there is a problem associated with the known magnetic pin wall systems in that the magnetic holding forces of the clamping magnets are due the strong dependence on distance of magnetic forces and the comparatively low magnetic field strengths only a small number of leaf-shaped information carriers can hold for example only 3-4 Sticky notes, and for a larger number from writers the magnetic forces is no longer sufficient to reliably provide the resulting bundle of information carriers to keep the support surface.

In The use of higher quality also creates this connection Magnetic material for the known clamping magnets with a factor, for example 2 to 10 raised Magnetic force effect no solution of the problem described above, since this is a larger number of leaves or Allow the nut labels to be clamped onto the carrier surface. however, when holding only a single information carrier Problem arises that the clamping magnet is not due to the high magnetic forces can be easily detached from the support surface by hand.

Accordingly it is an object of the present invention, a magnetic pin board system to create, which overcomes the disadvantages of the prior art.

This According to the invention, the task is Features of claim 1 solved.

According to the invention a magnetic pin wall system comprises an essentially vertically arranged one Carrier surface from magnetizable material, as well as at least one clamping magnet, the one facing the support surface clamping surface has, and made of a permanent magnetic material with a very high magnetic field strength exists, that is a material such as Cobalt samarium, neodymium iron boron or another known rare earth material, which compared to the known Clamping magnets made of soft iron have a magnetic that is increased by a factor of 2 to 10 Clamping force generated.

According to the invention contains the clamping magnet in a housing made of magnetizable material, for example made of iron, rotatable bar magnets, the over an actuating element acting on the bar magnet, for example a switch made of plastic material, a knurled wheel or other lever-shaped Actuator which is attached to the front of the magnet from a first release position, in the effect of magnetic forces is lifted, can be rotated into a second clamping position, in which the clamping magnet is attracted to the carrier surface by the magnetic forces becomes.

hereby there is the advantage that with a comparatively small spatial Dimension of the clamping magnet according to the invention this for clamping a variety, for example from 60 to 80 notes or other sheet-shaped writing materials Turn the bar magnet from the release position to the clamping position can be fixed. The actuation forces required for this According to the invention, twisting of the bar magnet within the housing is very slight that no additional Tools are required to remove the clamping magnet from the Solve carrier surface, for example to add another sticky note to a bundle.

As the applicant has found, the use of very high-quality magnetic materials with a very high magnetic field strength of, for example, 0.9 to 1.3 Tesla on the surface of the bar magnet, which can now be manufactured and obtained comparatively inexpensively, makes it possible to stack a large number of them Secure conventional sheets reliably to the support surface and by simply turning the bar magnet detach from the carrier surface again by means of the actuating element.

The Invention is described below with reference to the drawings.

In the drawings show:

1a an inventive magnetic pin wall system, in which the bar magnet of the clamping magnet is in the first release position,

1b a clamping magnet in which the bar magnet has been rotated into the second clamping position by rotating the actuating element and a bundle of sheets is clamped to the associated carrier surface made of magnetizable material,

2 a side view of another clamping magnet of the embodiment according to the 1a and 1b in the second clamping position,

3a 1 a further embodiment of a clamping magnet according to the invention with two permanent magnets arranged axially in the housing and rotatable relative to one another in the first release position,

3b a clamping magnet according to the embodiment of 3a in the second clamping position, in which the individual fields of the two axially arranged magnets overlap constructively,

4 a further embodiment of a clamping magnet according to the invention, in which spring-loaded clamping means for holding further information carriers are additionally arranged on the housing, and

5 a further embodiment of a bar magnet according to the invention, which consists of two half-shells made of permanent magnetic material, which are fastened to a central support body made of magnetizable material in the form of iron or the like by screws to form the bar magnet.

As in 1 shown comprises a magnetic pin wall system according to the invention 1 a support surface 2 made of magnetizable material, for example made of iron, on the clamping magnet according to the invention 4 for holding one or more sheet-shaped information carriers 6 are attachable.

Everyone in the 1a . 1b and 2 shown clamping magnets 4 has a housing 8th made of magnetizable material, for example of iron, which preferably has a strip-shaped area 10 made of non-magnetizable material, for example aluminum.

In the housing 8th of every clamping magnet 4 is a preferably cylindrical bar magnet 12 made of permanent magnetic material, such as cobalt samarium or neodymium-iron-boron, with a magnetic field strength in the range of, for example, 0.9 to 1.3 Tesla, which is arranged on the surface by an actuating element in the form of a bar magnet 12 attached lever 14 from one in 1a shown first release position in a in 1b shown second clamping position is rotatable.

The bar magnet 12 points at the in the 1a . 1b and 2 Embodiment of the invention shown a polarization indicated by the letters "S" and "N", which is substantially perpendicular to the longitudinal axis of the magnet 12 is directed, and that together with the strip-shaped areas 10 in the in 1a shown first release position generates such a course of the magnetic field that the magnetic force effect on the support surface 2 in the outer area of the housing 8th is completely or at least almost completely canceled.

The housing is in the clamping position 8th however, by the resulting magnetic force due to the changed course of the magnetic field with one on the housing 8th formed, preferably roughened or coated clamping surface 15 against the support surface 2 pulled to one or more sheet-shaped information carriers by the resulting clamping effect 6 to clamp and on the support surface 2 to keep.

According to the in the 3a and 3b shown further embodiment of the invention is in the housing 1U8 made of magnetizable material over the front lever 14 rotatable bar magnet 112 as well as one in the housing 108 preferably fixedly arranged further bar magnet 113 added, the clamping surface 115 of the clamping magnet 4 runs in this embodiment of the invention on the end face. The polarization of the bar magnet 112 and further bar magnets 113 is in this embodiment of the invention substantially perpendicular to the unspecified longitudinal axis of the magnets 112 . 113 directed so that by turning the bar magnet 112 from the in 3a shown release position by means of the lever 14 in the in 3b shown clamping effect a constructive superposition of the individual fields of the two bar magnets 112 . 113 is obtained through the housing 108 with the clamping surface 115 to the support surface 2 is attracted. If necessary, an area (not shown) made of non-magnetizable material can also be present within the housing 108 be provided to be the field course in the way influence that in the first release position no or almost no magnetic force in the exterior of the housing 108 is produced.

At the in 4 Embodiment of the invention shown are on the outside of the housing 8th additional clamping means for holding further sheet-shaped information carriers 6 arranged, for example, by a spring-loaded angle lever 16 can be formed, which in the direction of the arrow 18 about an axis of rotation 19 is pivotable. This can be done in an advantageous manner by turning the lever 14 eg 60 sheet-shaped information carriers 6 due to the magnetic force effect on the support surface 2 be attached, and at the same time additional information carriers 6 mechanically via the spring-elastic angle lever 16 on the housing 8th be clamped.

At the in 5 The embodiment of the invention shown is the bar magnet 12 through a first and second shell 20 . 22 made of permanent magnetic material attached to a central support body 24 for example by gluing or by in 5 shown, unspecified screws are attached. In this embodiment of the invention is the lever 14 for turning the permanent magnet 12 advantageously on the central support body 24 attached, whereby the torque for rotating the bar magnet according to the invention 12 via the mechanically resistant central support body 24 and not about the permanent magnetic material of the magnet 12 is initiated, which usually has only a very low mechanical resistance. This results in a significantly longer service life of the clamping magnet according to the invention with an almost identical magnetic field strength 4 ,

1

Magnetic pin wall system according to the invention

2

support surface

4

clamping magnet

6

sheet-shaped information carrier

8th

casing

10

Area made of non-magnetizable material

12

bar magnet

14

lever

15

clamping surface

16

springy bell crank

18

arrow

14

axis of rotation

20

first half shell

22

second half shell

24

centrally support body

108

Housing according to the embodiment of 3a . 3b

112

Bar magnet according to the embodiment of 3a . 3b

113

Another bar magnet according to the embodiment of 3a . 3b

115

frontal clamping surface

Claims (10)

Magnetic wall system ( 1 ) with a substantially vertically arranged support surface ( 2 ) made of magnetizable material, as well as with at least one clamping magnet ( 4 ) which is one of the support surface ( 2 ) facing clamping surface ( 15 . 115 ) and through between the support surface ( 2 ) and the clamping magnet ( 4 ) acting magnetic forces for clamping one or more information carriers ( 6 ), especially of note papers, on the carrier surface ( 2 ), characterized in that the clamping magnet ( 4 ) one in a case ( 8th ) Rotatable rod magnets made of magnetizable material ( 12 ; 112 ), which is attached to the bar magnet ( 12 ; 112 ) Actuating element ( 14 ) can be rotated from a first release position, in which the effect of the magnetic forces is canceled, into a second clamping position, in which the clamping magnet ( 4 ) by the magnetic forces on the carrier surface ( 2 ) is tightened. Magnetic pin wall system according to claim 1, characterized in that the bar magnet ( 12 ) with its longitudinal axis essentially parallel to the support surface ( 2 ) is arranged, and has a polarization directed essentially perpendicular to the longitudinal axis. Magnetic pin wall system according to one of claims 1 or 2, characterized in that the bar magnet ( 12 ) a central support body ( 24 ) made of magnetizable material, in particular iron, on which a first and second half-shell ( 20 . 22 ) made of permanent magnetic material. Magnetic pin wall system according to claim 1, characterized in that the longitudinal axis of the bar magnet ( 112 ) essentially perpendicular to the support surface ( 2 ) runs, and that within the housing ( 108 ) another bar magnet ( 113 ) axially to the bar magnet ( 112 ) is recorded, the polarization of which is selected in such a way that the magnetic fields of the bar magnet ( 112 ) and the further bar magnet ( 113 ) essentially cancel each other out in the release position. Magnetic pin wall system according to claim 4, there characterized in that the bar magnet ( 112 ) and / or the additional bar magnet ( 113 ) essentially perpendicular to the longitudinal axis of the magnets ( 112 . 113 ) have directional polarization. Magnetic pin wall system according to claim 4 or 5, characterized in that the further permanent magnet ( 113 ) rotatably in the housing ( 108 ) is included. Magnetic pin wall system according to one of the preceding claims, characterized in that the clamping surface ( 15 . 115 ) of the clamping magnets ( 4 ) is coated with a friction-increasing material. Magnetic pin wall system according to one of the preceding claims, characterized in that on the housing ( 8th . 108 ) of the clamping magnet ( 12 . 112 ) spring-loaded clamping device ( 16 ) for mechanical clamping of further information carriers ( 6 ) are provided. Magnetic pin wall system according to one of the preceding claims, characterized in that the actuating element has an end face on the bar magnet ( 12 ; 112 ) attached lever ( 14 ) includes. Magnetic pin wall system according to claim 9, characterized. that the lever ( 14 ) over the edge of the housing ( 8th . 108 ) extends beyond.