DE202011100703U1 - Multi-stage magnetic switch - Google Patents

Abstract

Multi-stage magnetic switch, comprising: a base (20) which is formed with a rotary bore (21), a locking groove (22) is formed on the side wall of the rotary bore (21), in which a locking element (23) is accommodated, and wherein the locking element (23) protrudes elastically from the locking groove (22); and a rotating body (10) which is rotatably accommodated in the rotary bore (21) and is provided with a plurality of latching grooves (11) into which the latching element (23) can latch, the latching groove (11) consisting of a latching surface (111) and a convex round surface (112), which are connected to each other, and wherein the two sides of the locking surface (111) and the convex round surface (112) extend to the outer surface of the rotating body (10), and wherein the locking element (23) with the locking surface (111) is locked and thus rests on the convex round surface (112).

Description

The invention relates to a rotary switch, in particular a multi-stage magnetic switch.

Conventional magnetic work table consists of a base and a rotary magnet. The rotary magnet is connected to a rotary switch, such that the rotary magnet rotates under the action of the rotary switch up and down by 180 degrees. In this way, the magnetic work table can attract a part to be machined and solve a manufactured part. With the development of the rotary magnet of today's magnetic work table can be multi-level rotated by different angles, such that the magnetic force can be adjusted in terms of their strength and their direction of the magnetic work table.

Conventional rotary switch is not able due to the omission of multi-stage positioning, adapted to perform the multi-stage rotation of the rotary magnet precise positioning. This creates many circumstances in use. However, conventional multi-stage switches are easily damaged due to the complicated structure in use, and the manufacturing cost is also very high. In addition, the connection of a conventional multi-stage switch with the magnet is also associated with certain difficulties. For these reasons, conventional multi-stage switches are not suitable for the magnetic work table.

The invention is therefore an object of the invention to provide a multi-stage magnetic switch, which is characterized by simple structure.

This object is achieved by a multi-stage magnetic switch having the features specified in claim 1. Further advantageous developments of the invention will become apparent from the dependent claims.

According to the invention, a multi-stage magnetic switch is provided which has a socket and a rotary body. The base is formed with a rotary bore in which the rotary body is rotatably accommodated. On the side wall of the rotary bore, a latching groove is formed, in which a latching element is housed. The locking element protrudes elastically out of the locking groove. The rotary body is provided with a plurality of locking grooves, in which the latching element can engage. The locking groove here consists of a locking surface and a convex circular surface. The locking surface and the convex circular surface are interconnected. The two sides of the latching surface and the convex circular surface in this case extend to the outer surface of the rotary body. The latching element is latched to the latching surface and thus abuts against the convex circular surface. By means of the latching surface, the latching element can be pushed back, such that the rotary element is rotated relative to the socket. In this way, the locking element can engage one behind the other in the locking grooves to realize multi-stage positioning. For the reverse rotation of the rotary body, a larger force can be applied, such that the latching element is retracted under the action of the latching surface.

Based thereon, the multi-stage magnetic switch according to the invention is characterized by simple construction, easier multi-stage positioning, robustness and lower manufacturing costs, wherein the multi-stage magnetic switch according to the invention can be rotated forward and backward. In this way, the practical suitability of the magnetic switch according to the invention is ensured.

In the following the invention and its embodiments will be explained in more detail with reference to the drawing. In the drawing shows:

1 an exploded perspective view of an embodiment according to the present invention;

2 an assembled perspective view of the embodiment according to the present invention;

3A a section through the present invention in a detent position;

3B a section through the present invention in a rotational position;

3C a section through the present invention in an emigration position;

3D a section through the present invention in a reverse rotational position;

4 a section through a further embodiment according to the present invention; and

5 a sectional view of the embodiment according to the present invention.

In 1 and 2 an inventive multi-stage magnetic switch is shown, which has a base 20 and a rotary body 10 having. The rotary body 10 is rotatable with the pedestal 20 connected. The base 20 is with a rotation hole 21 shaped. On the side wall of the rotary bore 21 is a locking groove 22 formed, in which a locking element 23 is housed. The locking element 23 protrudes elastically from the locking groove 22 out. The locking element 23 consists of a spring 231 and a pen 232 , The feather 231 engages in the locking groove 22 one. The pencil 232 pushes against the spring 231 and is thus also in the locking groove 22 , The pencil 232 is still with a recess 233 provided in which the spring 231 locks. The rotary body 10 is rotatable in the rotary bore 21 housed and with a variety of locking grooves 11 provided, in which the locking element 23 can engage. The locking groove 11 consists here of a locking surface 111 and a convex round surface 112 , The locking surface 111 and the convex round surface 112 are connected. The two sides of the locking surface 111 and the convex round surface 112 extend to the outer surface of the rotating body 10 , The locking element 23 is with the locking surface 111 locked and thus lies on the convex round surface 112 at.

Regarding 3A to 3D locks the locking element 23 when turning the rotary body 10 in any locking groove 11 ( 3A ), such that the rotary body 10 is positioned. Will the rotary body 10 continue to turn, then the locking element 23 through the locking surface 111 pressed, so that the latching element 23 withdraws ( 3B ). In this case, the rotating body rotates 10 relative to the pedestal 20 ( 3C ). By turning the rotating body 10 relative to the pedestal 20 can the locking element 23 on the pedestal 20 one after the other in the Rastnuten 11 of the rotary body 10 engage or behind each other from the locking grooves 11 of the rotary body 10 to be moved. In this way is a multi-stage positioning when turning the rotating body 10 to realize. For reverse rotation of the rotating body 10 can the locking element 23 under the effect of a larger force through the convex round surface 112 are pressed, causing the locking element 23 from the corresponding locking groove 11 emigrates ( 3D ).

In 4 is another embodiment of the multi-stage magnetic switch according to the invention shown, whose base 20A with a variety of locking grooves 22 and a plurality of locking elements 23 is provided. In the figure, for example, two locking grooves 22 and two locking elements 23 arranged. The rotary body 10A on the other hand consists of six locking grooves 11 , The locking elements 23 can when turning the rotating body 10A relative to the pedestal 20A one after the other in the Rastnuten 11 intervention.

It should be noted that the location of the plurality of locking grooves 22 in place of the plurality of locking grooves 11 adapts. In this way, the plurality of elastically out of the locking grooves 22 outstanding locking elements 23 by turning the rotating body 10A at the same time in the Rastnuten 11 engage or from the Rastnuten 11 to be moved. In this embodiment, the locking grooves 11 arranged hexagonally, while the Rastnuten 22 are arranged at the two opposite points of interest of the hexagon. This allows the rotary body 10A be positioned in six places. By snapping the locking elements 23 in the Rastnuten 22 . 11 is an increased positioning of the rotating body 10A guaranteed.

Regarding 5 a preferred embodiment of the multi-stage magnetic switch according to the invention is shown in section. According to the embodiment, the base 20 on a magnetic base 30 attached, a shot 31 having. The rotary body 10 is with a through hole 12 shaped. The rotary body 10 is here through the through hole 12 with a cylinder 40 connected. The cylinder 40 is in the recording 31 introduced. On the cylinder 40 is a flange 41 provided by the rotational position of the rotary body 10 relative to the pedestal 20 is fixed. As a result, the cylinder can 40 when turning the rotary body 10 multi-level in the recording 31 be positioned.

In summary, the invention provides a multi-stage magnetic switch by rotatable connection of the rotating body 10 with the pedestal 20 can be rotated forward and backward. As a result, a simple structure, lower production costs, easy operation and robustness are guaranteed. By adaptation of the locking grooves 22 to the Rastnuten 11 can the Rastnuten 22 at the same time in the Rastnuten 11 engage or simultaneously from the locking grooves 11 to be moved. This ensures not only multi-level but also enhanced positioning.

Claims (6)

Multi-stage magnetic switch, comprising: a base ( 20 ), which has a rotary bore ( 21 ) is formed, wherein a locking groove ( 22 ) on the side wall of the rotary bore ( 21 ) is formed, in which a locking element ( 23 ) is housed, and wherein the locking element ( 23 ) elastically out of the locking groove ( 22 ) stands out; and a rotary body ( 10 ) rotatable in the rotary bore ( 21 ) and with a plurality of locking grooves ( 11 ) is provided, in which the locking element ( 23 ) can engage, wherein the locking groove ( 11 ) from a latching surface ( 111 ) and a convex round surface ( 112 ), which are connected to each other, and wherein the two sides of the locking surface ( 111 ) and the convex round surface ( 112 ) to the outer surface of the rotary body ( 10 ), and wherein the locking element ( 23 ) with the locking surface ( 111 ) is latched and thus at the convex round surface ( 112 ) is present. Magnetic switch according to claim 1, characterized in that the latching element ( 23 ) from one Feather ( 231 ) and a pen ( 232 ), the spring ( 231 ) in the locking groove ( 22 ) and the pin ( 232 ) against the spring ( 231 ), so that the stylus ( 232 ) also in the locking groove ( 22 ) is located. Magnetic switch according to claim 2, characterized in that the pin ( 232 ) with a recess ( 233 ) into which the spring ( 231 ) engages. Magnetic switch according to claim 1, characterized in that in each case a plurality of locking grooves ( 22 ) and a plurality of locking elements ( 23 ) are provided, wherein the locking elements ( 23 ) with the turning of the rotary body ( 10A ) relative to the socket ( 20A ) in a row in the locking grooves ( 11 ). Magnetic switch according to claim 4, characterized in that the plurality of latching elements ( 23 ) simultaneously in the plurality of locking grooves ( 11 ) intervenes. Magnetic switch according to claim 1, characterized in that the base ( 20 ) on a magnetic base ( 30 ), which has a receptacle ( 31 ), wherein the rotary body ( 10 ) with a through hole ( 12 ) is formed, through which the rotary body ( 10 ) with a cylinder ( 40 ), and wherein the cylinder ( 40 ) into the recording ( 31 ), and wherein the cylinder ( 40 ) with a flange ( 41 ) is provided, with which the rotational position of the rotary body ( 10 ) relative to the socket ( 20 ).

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