FI98967B - Reversible circuit breaker - Google Patents

Description

98967

Reversible switch

The invention relates to a reversible switch having a body, at least two connectors, a contact member movable by an external force acting on it along a certain predetermined trajectory to at least two positions, which contact member in its at least second position makes contact between at least two connectors and which contact member is at least partially magnetizable material 10 and a force member comprising at least one magnet which causes the contact member to remain in a certain position when the external member does not act on the contact member and the force member to return the contact member to a certain position after the external force ceases to act on the contact member 15.

In known return switches, the return of the switch is effected by means of a spring. However, the spring becomes tired and brittle during use, which means that the service life of the spring-return coupling is quite short. Furthermore, it is difficult to provide such a feature to the spring-return switch 20 that the user of the switch is able to determine with certainty the operation of the switch contacts on the basis of the sensor. nan.

Reversible switches are also used, for example, 25 switches in which the switch is restored; the receiving spring is a convex plate used by the switch; pressed on the convex side. In this switch, the reset function takes place in such a way that the convex plate in question returns to its convex position. This structure provides a tactile movement, but it is difficult to obtain reliable switches and the convex plate is a wear part in use, in which case the switches are not long-lasting.

The object of the present invention is to provide a switchable switch in which the above-mentioned drawbacks do not occur.

The switch according to the invention is characterized in that the contact member is at least partially continuously under the influence of at least one magnetic field of one magnet, so that the magnetic field of the magnet keeps the contact member in a certain position when the external member does not affect the contact member and the contact member returns to a certain position. -10 to the tactile element.

The essential idea of the invention is that the magnet acts as a force element for restoring the contact member making contact with the terminals of the switch and that the contact member is at least partially magnetizable material.

15 A further essential idea is that the magnetic force of the magnet constantly acts on the contact member.

The advantage of the invention is that the switch according to the invention withstands mechanical operation for a very long time. A further advantage is that when using the switch, the movement of the contact member is clearly perceptible on the sensor.

The invention is explained in more detail in the accompanying drawing, in which Fig. 1 schematically shows an embodiment of a switch according to the invention in a side view and in partial cross-section, Fig. 2 schematically shows another embodiment of a switch according to the invention in a side view. Fig. 3 schematically shows a third embodiment of a switch according to the invention in a side view and in part in cross-section.

Fig. 1 schematically shows a side view of a switch 1 according to the invention and a partial cross-section. sectioned. The switch 1 comprises a housing 2 which acts as a switch body. The material of the housing 2 is, for example, plastic • · • · ·· ♦ ···· • · 3 98967 or some other similar insulating material. The switch 1 further comprises connectors 3, through which the switch 1 is connected to the rest of the circuit in a manner completely known per se. The terminals 3 are not electrically connected to each other, but can be electrically connected by a contact member 4. The contact member 4 must therefore be at least partially of an electrically conductive material, such as aluminum, copper or iron. The contact member 4 is movable inside the housing 2 by applying a force to the arm 5 in communication with the contact member 4. The switch 1 further comprises a magnet 6. The contact member 4 of the switch 1 must still be at least partially magnetizable material, such as iron. to the tactile member 4. In the context of this application, the term magnetizable means a material which is exposed to the action of a magnetic field. Thus, the contact member 4 may, for example, be made entirely of iron, whereby it is electrically conductive and magnetizable. On the other hand, the contact member 4 may also be of such a construction that its surface on the connector 20 side is, for example, aluminum, whereby it makes electrically conductive contact between the connectors 3 and on the other hand, for example iron, in which case the magnet 6. it is affected by a magnetic field. The switch 1 according to Fig. 1 operates in such a way that when the switch 1 is not acted upon by any external force, the magnetic field of the magnet 6 is reduced. the contact member 4 against itself, whereby the terminals 3> ·; no electricity can flow between them. When the arm 5 is pressed downwards as seen in Fig. 1, the contact member 4 moves downwards at the same time, and by pressing the contact member 4 onto the terminals 3, the terminals 3 can be electrically connected to each other. The structure of the switch 1 is such that, when the contact member 4 is in its lowest position, it is affected by the magnetic field of the magnet 6. Thus, if the external force 35 acting on the arm 5 and through it on the contact member 4 is removed, the magnetic field of the magnet 6 pulls the contact m ♦ 4 98967 from the terminals 3 against the magnet 6. In the switch 1 according to Fig. 1, the arm 5 is arranged to pass through the magnet 6, whereby it is advantageously realized that the movement of the contact member 4 is effected by pressing the arm 5. The housing 2 is dimensioned so that the contact member 4 can move back and forth inside the housing 2 so as to contact the terminals 3 as simultaneously as possible. The switch 1 according to Figure 1 is thus a reversible, closing button switch.

Figure 2 schematically shows another switch 1 according to the invention seen from the side and partly in cross-section. The numbering in Figure 2 corresponds to the numbering in Figure 1. In the switch 1 according to Fig. 2, the connectors 3 are arranged between the contact member 4 and the magnet 6 so that when the switch 1 is not acted upon by an external force, the magnetic field of the magnet 6 pulls the contact member 4 towards the magnet 6, pressing the contact member 4 against the connectors 3. Therefore, in this situation, there is an electrical connection between the terminals 3. There is an insulator 7 between the terminals 3 and 20 so that the electrical i <.eys is not formed through the magnet 6. By applying a downward force to the arm 5 in Figure 2, the contact member 4 is obtained. moved downwards as shown in Fig. 2, whereby the contact member 4 no longer contacts the terminals 3. In this case, there is no electrical connection between the connectors. The housing 2 is dimensioned so that when the contact member 4 is in its furthest position relative to the terminals 3, the contact member 4 is acted upon by the magnetic field of the magnet 6, whereby the external force ceases to act. the magnetic field of the magnet 6 on the arm 5 pulls the contact member 4 against the terminals 3. Thus, Fig. 2 shows a reversible, openable pushbutton switch.

Fig. 3 schematically shows a third switch according to the invention seen from the side and partly in cross section m V 35. The numbering in Figure 3 corresponds to the numbering in Figures 1 • · • · ··· 1 5 98967 and 2. The arm 5 of the switch 1 according to Fig. 3 is adapted to engage the contact member 4 on the side opposite to the magnetic part 6. Thus, in order to get the contact path 4 under the action of an external force against the ground connectors 3 in the switch 5 according to Fig. 3, a downward pulling force must be applied to the arm 5 in Fig. 3. Figure 3 thus shows a reversible, closing pull switch. A common feature of all the switches shown in Figures 1-3 is that when the switch 1 is not affected by an external force, the contact member 4 is at its closest point with respect to the magnet 6. In this case, the magnetic field acting on the contact member 4 of the magnet 6 has the greatest force effect. In this situation, when an external force is applied to the arm S and thereby to the contact member 4, the force exerted by the contact member 4 is quite large compared to the force which must act on the arm 6 when the contact member 4 is in its furthest position relative to the magnet 6. Thus, in practice, when the contact member 4 is moved, its movement becomes ny-20 and thus easily perceptible to the touch, because the force of the magnetic field of the magnet 6 resisting the movement decreases as the contact member 4 moves away from the mag. rivet 6.

The drawing and the related explanation are intended only to illustrate the idea of the invention. The details of the invention may vary within the scope of the claims. Thus, the body of the switch 1 may have a structure ϊ: other than the housing 2. The body may be, for example: 1 a frame to which the necessary parts of the switch 1 are attached, as long as said body limits the movement of the contact member 4 so as to be at least partially 6 mag's1: under the influence of the force of the rivet field and that the trajectory of the contact member 4 with respect to the terminals 3 and the magnet 6 is V1 as desired. Furthermore, the magnet 6 and the contact member 4 can be made of materials such that the magnetic field of the magnet 6 9 9 · • 1 999 9 999 · • 9 6 98967 pushes the contact member 4 away from the magnet 6. It is further self-evident that the switch structure according to the invention in addition to the above, it is also possible to implement, for example, a changeover switch structure and 5 other switch structures known per se. The switch can also have several magnets, for example so that when the contact member 4 moves away from one magnet, it moves more strongly to the influence of the other magnet, whereby the movement and position of the contact member, for example, can be more easily sensed. It is further possible to implement the force element structure in such a way that, in addition to the magnet, for example, an auxiliary spring or springs are used, but it is essential that the force element includes at least one magnet.

• · • · mmm * 999 9 • 99 9 9 • 9 9 999 9 • 99 9 9 9 9 9 • 9 9 999 9 9 9 · • 9 9 99 999 9 9 9 9 9 9 9 9 9 • 999 999 9 * · ··· 1 • · · · • · · ♦ ·

Claims (6)

98967 Patent Applications A reversible switch with a body, at least two connectors (3), a contact member (4) movable by an external force acting on it along a certain predetermined trajectory to at least two positions, the contact member (4) in its at least one position making contact with at least two between the connector (3) and which contact member (4) is at least partially magnetizable material and a force member comprising at least one magnet (6), which force member causes the contact member (4) to remain in a certain position when no external force acts on the contact member (4) and a force member for returning the contact member (4) to a certain position after the external force ceases to act on the contact member (4), characterized in that the contact member (4) is at least partially continuously under the magnetic field of at least one magnet (6) so that the magnet (6) causes the contact member (4) to remain in a certain position when the external force is not affected the contact member (4) and the return of the contact member to a certain position after the external force has ceased to act on the contact member (4). ,. Reversible switch according to Claim 1, characterized in that the contact element (4) is made entirely of magnetizable and electrically conductive material. . Reversible .1: * switch according to Claim 1 or 2, characterized in that the switch (1) has an arm (5) which is connected to the contact element (4), whereby an external force applied to the contact element (4) is transmitted. 30 by means of the arm (5) of the contact member (4). ·. A claim according to any one of the preceding claims. Reversible switch, characterized in that there is an insulator (7) between the terminals • · (3) and the magnet (6). Reversible switch according to one of the preceding claims, characterized in that the arm (5) m m t 9 · »· · • · 98967 is adapted to pass through the magnet (6). Reversible coupling according to one of the preceding claims, characterized in that the body is a housing (2) made of insulating plastic. > · · • · • · i · • · ··· »· • · • · • · 1 m ··· •« • · · • · 1 ··· · • ·· f 1 · • 1 1 ·· • · • · · * · «» • · · · · · · · ·: · »» · · · · · · 1 98967 (3), that contact type (4) that type of contact material (4), that contact type (4), that contact type (4) that contact type (4) ) vilka är ätminstone tvä account antalet och varvid kontaktorganet (4) 10 är av ett ätminstone delvis magnetiserbart material, och et kraftorgan som omfattar ätminstone en magnet (6), varvid kraftorganet Fär kontaktorganet (4) att hällas i ett visst läge dä den externa kraften inte päverkar kontaktorganet (4) och äterställer kontaktorganet (4) i 15 ett visst l after the external contact with the main contactor (4), the contactors of the contactor (4) with the contactor under the magnets (6) the magnetic contact with the magnets (6) the magnetic contact (4) with 20 characters i ett visst läge dä den externa kraften inte päverkar kontaktorganet (4) och Fär det att ätergä i ett visst läge dä den extema kraften upphört att päverka .. 4 · β kontaktorganet (4). : *, 2. Ätergäende brytare enligt patentkrav 1, 25 kännetecknad av att contactorganet (4) är av '· ·' and that the material is magnetized and electrically conductive ·· ♦ · conductive. *. ·; 3. A bracket according to claim 1 or ϊρϊ: 2, which comprises a bracket (1) having 30 straps (5) and which may be applied to the contactor (4), the colors being scaled to the contactor (4) and more; ·. means of contact with the handle (5) on the contact area (4). 4. Apparatus according to the invention for a patent, which is provided with an insulating material (7) with a sealing device (3) »> · f« * ··· τ * ί 98967 and magnets (6). 5. A bracket according to the invention of the patented magnets (5) of the genome magnets (6). 5 6. The reference brackets are provided with a reference to the patented material, which means that the scale (2) is insulated with plastic. • m% »Φ ·» Ι • · mmm mm • · ·· »··· • · • · ··· • · · · · · · I · I · 9 mm • ··» · * imm # 9 999 9 »« M i: ·· # 9 9 9 * »99 mmm 9 v ·