DE4334794A1 - Scissors with a magnetic region of movement - Google Patents

Abstract

The cohesive force of the scissor blades 3, 4 of a pair of scissors, in whose region of movement at least one magnet 5, 6 is inserted, is improved by providing a magnetic ring closure made of ferromagnetic material 8. The material 8 has a relative permeability mu r which is greater than the relative permeability of the remaining scissors material 9. The ring 7 of the ring closure connects unlike magnet poles which do not butt against each other (Figure 3). <IMAGE>

Description

The invention relates to scissors, their scissors becks held together by magnetic force. The Magnetic force acts in the aisle area of the scissors.

From DE-PS 37-26 434 is a pair of scissors with a magne table aisle area known. These scissors have the disadvantage that to achieve a certain cohesiveness for the Scherenbeck's relatively large magnets are used have to. Another disadvantage of these scissors is that of them outgoing magnetic field with which it is an annoying attraction force on ferromagnetic materials, such as neighboring components or tools made of steel or Cast iron exercises.

The invention has for its object to use scissors a magnet in the aisle area of a Scherenbeck and with another magnet or with ferromagnetic material instead of another magnet in the aisle area of the second To find Scherenbeck, such that a ver smaller magnet or reduced magnet used can be without losing magnetic cohesion force between the scissor becks, and that the Attraction of the scissors to neighboring ferromagnetic Objects has weakened significantly.

The task is solved according to the characteristic part of the Claim 1. Then there is a magnetic on the scissors Ring closure made of ferromagnetic material provided that ferromagnetic material has a relative permeability number that is greater than the relative permeability number of the rest of the scissors material, and the ring of the ring conclusion connects unequal, not clashing Magnetic poles.  

The magnetic ring closure ensures that the magnetic field lines bundled between the magnetic poles run in the magnetic ring. This will attract force of the scissors on neighboring ferromagnetic Objects significantly weakened. Furthermore, increases the magnetic force, so that even reduced magnets in the Scissors can be used without losing cohesion force between the scissor becks is reduced.

The higher the relative permeability number of the ferromagne table material of the ring compared to the rest Scissor material is the better the bundling of magnetic field lines in the ring closure. The material of the used magnets can also match the material of the ring be identical.

Further advantageous embodiments of the invention Scissors are described in more detail in claims 2 to 14.

If a magnet is provided in each of the two scissor bays, and surrounds the ring both magnets (claim 2), so the greater cohesive force of two magnets increases. This solution is also suitable, for example, for the case that the rest of the scissors material is not ferromagnetic, like with ceramic scissors. In contrast, is only in scissors beck provided a magnet and encloses the ring, from starting from this magnet, the one adjacent to the magnet, ferromagnetic region of the second scissor pool (Claim 3), a ferromagnetic scissor mate rial, for example steel, to generate the magnetic Cohesiveness can also be used. Like the out design according to claim 2 is also the design of the Scissors according to claim 4 independently of the rest of the scissors mat rial. According to claim 4 is only in a Scherenbeck Magnet provided, the ring surrounds this magnet, and the ring only extends in the second Scherenbeck on the area of the two directly adjacent to the magnet ten Scherenbeck's.  

Tilting of the scissors is prevented by the Cohesive force for the scissors pool is rotationally symmetrical acts for nail drilling. For this is according to claim 5 advantageous ring closure found. According to claim 5 is in Aisle area provided a nail to the scissors Nail drilling at least one magnet for rotational symmetry Central axis of the nail hole is arranged. At closed The scissors run the ring of the ring closure axles symmetrical to the central axis of the nail hole.

In order to make the scissors smoother, according to claim 6 at least one gangway of the scissors with one layer be provided with a low coefficient of friction Has. The effect of such a coating is special great, because the cohesion directly on the gangways acts as a force for the Scherenbecks. A particularly low one It is a coefficient of friction and good abrasion protection is sufficient if the layer polytetrafluoroethylene and a Abrasion reducing metal contains (claim 7). Such Layers contain the metal as a powdery admixture of the metal to polytetrafluoroethylene. Abrasion resistance the layer is at approximately the same coefficient of friction still increased when the layer of diamond-like carbon is (claim 8).

That for the installation of a magnet in a Scherenbeck Available volume is increased if only one only bridge the uneven poles of the magnet or the Magnets connects (claim 9).

The ring consists of two ring parts, one ring part in a Scherenbeck is arranged such that only in closed scissors condition the ring cut surfaces are congruent one above the other (claim 11), are Ring cut surfaces widened locally (claim 12), or separate ring cut surfaces are provided for each Scherenbeck (Claim 13), it is achieved that the cohesive force  the scissors are only maximal when the scissors are closed. Here it doesn't matter whether the rings or the magnets (Claim 14) are designed for congruence. Of the The advantage of such scissors design is that on the one hand an unintentional separation of the at the Scherenbeck is prevented, and on the other hand with Closing the scissors acts with a supportive force means that cutting is made easier. The one here Work won is done when opening the scissors. A such an effect is excluded if appropriate Claim 10 the ring consists of two ring shells, wherein a ring bowl in such a Scherenbeck is that the ring cut surfaces of the shells are congruent with each other.

In the following the invention is based on exemplary embodiments figures depicting games are described in more detail. It shows:

Fig. 1 in a top view in the open condition a pair of scissors with a magnetic transition region;

Fig. 2 shows a section along AA of Figure 1 with closed scissors with two inserted magnets.

Fig. 3 is a section analogous to Figure 2, but with lines on the contact surfaces of the magnets.

Fig. 4 is a section analogous to Figure 2 but with only an inserted magnet.

Fig. 5 is a section analogous to Figure 4 but with a ring which extends in the upper scissor Beck in directly adjacent to the magnet portion of the scissors Beck.

Fig. 6 is a partial section analogous to Figure 2, but with a nail in a nail bore and rotationally symmetrical to the central axis of the nail bore angeord Neten magnets.

FIG. 7 shows a plan view of a gangway area analogous to FIG. 6 without a nail;

Fig. 8 is a section analogous to Figure 2, but with set magnets.

Fig. 9 is a top view of the transition region of a scissors becks with an annular shell;

. FIG. 10 is a plan view of the transition region of two analog 7 Enriched, scissors Beck connected with a nail;

Fig. 11 in a plan view of the aisle area of a scissors pool with an interrupted ring shell and

Fig. 12 in a plan view share the aisle area of a scissors pool with two radially outer magnet and a concentric ring of a ring circuit.

In the aisle area 1 of a pair of scissors 2 , two magnets are used to generate a cohesive force between the scissor buckets 3 , 4 ( FIG. 1). The ring 7 of a magnetic ring closure is connected to the magnets 5 , 6 ( FIG. 2). The ring closure is given in that the magnetic field lines of the magnets 5 , 6 are passed over a ferromagnetic table 7 . The material 8 of the ring 7 has a relative permeability number that is greater than the relative permeability number of the remaining scissors material 9 . The ring 7 of the ring closure connects the unequal, non-colliding magnetic poles of the magnets 5 , 6 . In both scissors 3 , 4 , a magnet 5 , 6 is inserted. The ring 7 encloses both magnets 5 , 6 .

The aisle surfaces 10 , 11 of the scissor arms 3 , 4 can be coated with layers 12 , 13 which have a low coefficient of friction ( FIG. 3). Each layer contains polytetrafluoroethylene with an admixture of metallic powder.

In the exemplary embodiment according to FIG. 4, a magnet 6 is only provided in a Scherenbeck 4 . The ring 7 of this magnet 6 closes the solenoid 6 and to this Magne 6 th adjacent ferromagnetic region 14 of the second scissor Beck. 3

If only one magnet 6 is inserted, the ring 7 can enclose this magnet 6 and in the Scherenbeck 3 , which does not contain a magnet, extend to the area 15 directly adjacent to the magnet 6 ( FIG. 5). Of course, can play in all Ausführungsbei and also generally the ferromagnetic material of the ring and the material of the magnet or magnets be identical.

In a further exemplary embodiment ( FIGS. 6 and 7), a nail 16 (only FIG. 6) is provided in the aisle region of the scissors, around the nail bore 17 of which two magnets 5 , 6 are arranged rotationally symmetrically to the central axis of the nail bore 17 .

In the example according to FIG. 8, the ring 7 contains the two magnets 5 , 6 . A bridge 18 connects the unequal, outer poles of the magnets 5 , 6 .

If two identical, similar to Fig. 9 constructed Renbeckes on each other, then a cohesive force of the Scherenbeck independent of the opening state of the scissors is generated. The ring 7 consists of an annular shell 19 in each Scherenbeck 3 , the annular shells 19 being arranged in such a way that the annular cut surfaces 20 of the annular shells 19 lie congruently on one another.

In Figs. 10 and 12 separate ring interface surfaces 21, 22 each scissor Beck 3, 4 are provided. The ring here consists of two ring parts 23 , 24 , one ring part 23 , 24 being arranged in a Scherenbeck 3 , 4 in such a way that the ring cut surfaces 21 , 22 lie congruently one above the other only when the scissors are closed.

The positions of magnet 25 and ring 26 can also be interchanged ( Fig. 11). Thus, the ring 26 can be provided rotationally symmetrically directly around the nail bore, and a magnet 25 can be offset radially outward and also be interrupted. The mode of operation is analogous to that described above. The magnetic cut surfaces 27 lie one above the other only in the closed scissor state.

Claims (14)

1. scissors with a magnet in the aisle area of a scissors pool and with another magnet or ferromagnetic material in the aisle area of the second scissors pool, characterized in that a magnetic ring closure made of ferromagnetic material ( 8 ) is provided that the material ( 8 ) a has relative permeability µ _r , which is greater than the relative permeability of the remaining scissors material ( 9 ), and that the ring ( 7 ) of the ring closure binds unequal, non-colliding magnetic poles. 2. Scissors according to claim 1, characterized in that a magnet ( 5 , 6 ) is provided in each of the two scissor bays ( 3 , 4 ), and the ring ( 7 ) encloses both magnets ( 5 , 6 ). 3. Scissors according to claim 1, characterized in that a magnet ( 6 ) is provided only in a Scherenbeck ( 4 ), and the ring ( 7 ) includes this magnet ( 6 ) and this magnet ( 6 ) adjacent, ferromagnetic region ( 14 ) of the second scissor pool. 4. Scissors according to claim 1, characterized in that only a magnet ( 6 ) is provided in a Scherenbeck ( 4 ), the ring ( 7 ) surrounds this magnet ( 6 ), and the ring ( 7 ) but in the second Scherenbeck ( 3 ) only extends to the area ( 15 ) of the second Scherenbeck ( 3 ) directly adjacent to the magnet ( 6 ). 5. Scissors according to one of claims 1 to 4, characterized in that a nail ( 16 ) is provided in the aisle area of the scissors, around its nail bore ( 17 ) at least one magnet ( 5 , 6 ) rotationally symmetrical to the central axis of the nail bore ( 17th ) is arranged, and the ring of the ring closure runs axially symmetrical to the central axis when the scissors are closed. 6. Scissors according to claim 1, characterized in that at least one aisle surface ( 10 , 11 ) of the scissors is coated with a layer ( 12 , 13 ) which has a low coefficient of friction. 7. Scissors according to claim 6, characterized records that the layer polytetrafluoroethylene and contains an abrasion reducing metal. 8. scissors according to claim 6, characterized records that the layer diamond-like Koh lenstoff is. 9. Scissors according to claim 1, characterized in that the ring ( 7 ) contains the magnet or magnets ( 5 , 6 ) and, in addition, a single bridge ( 18 ) connects the unequal poles. 10. Scissors according to claim 1, characterized in that the ring ( 7 ) consists of two ring shells, with an annular shell ( 19 ) in each of a scissor bowl ( 3 ) is arranged such that the ring cut surfaces ( 20 ) of the ring shells ( 19th ) are congruent with each other. 11. Scissors according to claim 1, characterized in that the ring consists of two ring parts ( 23 , 24 ), wherein a ring part ( 23 , 24 ) in each of a scissor bowl ( 3 , 4 ) is arranged such that only in the closed scissor state the ring cut surfaces ( 21 , 22 ) lie congruently one above the other. 12. Scissors according to claim 10 or claim 11, there characterized in that the ring cut surfaces are widened locally. 13. Scissors according to claims 10, 11 or 12, characterized in that separate ring cut surfaces ( 21 , 22 ) per Scherenbeck ( 3 , 4 ) are seen before. 14. Scissors according to claim 1, characterized in that there are at least one magnet ( 25 ) in both scissors basins ( 3 ), and magnetic cut surfaces ( 27 ) are congruent only in closed scissors condition.