DE1085217B - Switch with increased contact pressure by utilizing the contact spring reaction force - Google Patents

Description

There are switches known that have a movable spring snap member that is directly connected to a Control element is connected and carries switching contacts that interact with stationary counter-contacts. The spring snap member has two slotted tongues in its central part, which are attached to the as Attack trained push button, centrally arranged control member. It has two stable ones Switching positions that are determined by the position of the push button. When transitioning from one switch position In the other, the spring snap link goes through a dead center position, which is the moment of the snap specifies. The contact pressure at the contact points is created by the spring snap link itself generated, d. i.e. it depends on the strength of the spring material. With the intensification of the contact pressure is therefore inevitably associated with an increase in the necessary actuation force. There often one low actuation force is required at high contact pressure, result from the design such a switch significant difficulties.

Although toggle switches are known in which the contact pressure is achieved by deflecting the toggle spring reaction force is slightly increased on the contact carrier, but these switches are constructed completely differently, so that of the advantageous increase in contact pressure with the aforementioned miniature snap-action switch cannot be used without further ado.

It is the object of the invention to create a switch construction which enables the principle the increase in contact pressure by deflecting the contact spring reaction force even with a push-button switch to be used with spring snap link. According to the invention, the reaction force is fixed by means of hinged, on the one hand on the push button and on the other hand on the spring snap member next to the Lever acting on contacts used to the full extent to increase contact pressure.

In the case of a switch with a stable contact closed position and a strip-shaped spring snap link, which carries the movable switching contacts at its ends and with its middle part which is designed as a push button control element in connection, the levers are symmetrical to Push button arranged on one side of the snap member parallel to its free ends and grip with the lever arms facing the push button to a collar of the push button. Of the Push button is under the action of a return spring, the force of which also increases the contact pressure is exploited. It is expedient for a switch with two stable contact closed positions and a strip-shaped spring snap member which carries the movable switching contacts at its ends Switch with contact pressure increase

through exploitation
the contact spring reaction force

Applicant:

LICENTIA Patent - Verwaltungs -G.m.b.H., Frankfurt / M., Theodor-Stern-Kai 1

Helmut Brand, Hamelin,
has been named as the inventor

and with its middle part with the middle of the as a double push button slide trained operating member is connected, a double-armed pair of levers on both Sides of the snap member provided, which is arranged symmetrically to the push-button slide. Of the Double push button slide is provided on both sides of the snap link with a collar on which attack the lever arms facing the push button.

The invention is explained in more detail with reference to the drawing. In

1 and 2, a push-button snap switch is shown in two switching positions;

3 shows, as an explanatory sketch, the force relationships in the switch according to FIGS. 1 and 2; in Fig. 4 is a switch with two stable contact closed positions and double push button slide shown.

In the switch according to FIGS. 1 and 2, a strip-shaped housing 1 is in a shell-shaped housing Snap spring 2 housed, as a result of a double, parallel longitudinal slot in its central part and an expansion of the

+5 which outer webs 2 α relative to the central web 2 α is capable of their snap action. In the middle of its central web 2 b , the snap spring engages in recesses in a projection 3 of the operating push button 4. At its ends it is provided with contacts 5 and 6. The spring contacts interact with stationary contacts 7 and 8, respectively. Above the snap spring levers 9 and 10 are provided which can be pivoted about fixed axes 11 and 12, respectively. On the one hand, the levers grip a collar 13 of the operating

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push button 4 and act on the other hand on the contact-side ends of the snap spring. It is an additional spring 14 is also provided, one end of which is in a recess in the housing and at its other end is supported on the extension 3 of the operating push button.

The switch shown has only one stable switched-on position, which is shown in FIG. the Snap spring is due to its bias between the operating push button and the stationary contacts 7 and 8 braced. The contact pressure therefore initially depends on the force with which the spring is acting the contacts 5 and 6 acts directly on the stationary contacts 7 and 8. Through the levers 9, 10 but now also the reaction force of the snap spring, which acts on the extension 3, on the contacts transfer. The reaction force of the snap spring pushes the push button up and causes the levers resting on the collar 13 with their pressing on the contact-side ends of the snap spring Ends work as a transmission medium in the sense of a contact pressure reinforcement. The additional spring 14, which in itself merely act as a counter spring to the snap spring to achieve a stable one, namely that shown in FIG The switching position is intended to act, since it also engages the push button, also reinforces the contact pressure.

In the switch-off position shown in FIG. 2, the push button is pressed in against the force of the additional spring, and the snap spring is in its other switching position, in which its ends are in contact with the housing. The switch contacts are open. The levers 9, 10 are detached from the collar of the push button and are not under any force. This switch position can only be maintained when the push button is held down, as it is unstable due to the effect of the additional spring. When the push button is released, the additional spring acting on it causes the snap member to snap over into the stable switching position shown in FIG. 1.

The balance of forces in the switched-on position according to FIG. 1 can be seen from FIG. 3, in which the lever system is shown schematically. The arrows P _s / 2 indicate the contact pressure which is already present and caused by the snap spring. Through the levers 9,10 the reaction force P ^ = P _{s of} the snap spring, which is transferred to this by the collar of the push button, is now directed to the contact-side ends of the contact spring, and it occurs halfway at both ends, i.e. as P. % / 2 on. The force of the additional spring P ₂ , which is also fed to the levers via the collar of the push button, is also divided, and so it occurs in each case as P _z / 2 at the contacts. In the illustration, the size of the additional spring force is assumed to be equal to that of the snap spring reaction force. The contact pressure is therefore composed of the components P _s / 2 + P _z / 2-iP _R / 2 and is accordingly about three times as large as that caused by the snap spring alone, which is only P _s / 2 .

In the embodiment according to FIG. 4, the switch also consists of a shell-shaped housing 1 in which the strip-shaped snap spring 2 is accommodated. The snap spring is designed as in the case of the switch according to FIGS. 1 and 2, so it also has two parallel longitudinal slots in its center, through which the outer webs 2 α and the central web 2 & are generated. The contacts 5 a, 5 b and 6 a, 6 b , to which the stationary contacts 7 a, 7 b and 8 a, 8 b are assigned, are attached to the leaf spring ends. In its central part, the snap spring is in a non-positive connection via the central web 2 & with the operating element Aa _{1, which is designed as a double push-button slide.} The operating element consists of two normal snap fastener parts, each provided with a collar 13 α and 13 b , which are connected to one another by a web 3 a. On both sides of the snap spring ends, levers 9 a, 10 a and 9 b, 10 b are arranged symmetrically to the double push-button slide, which around the fixed axes 11 σ, 11 ί? or 12 a, 12 b are pivotable. As in the embodiment according to FIGS. 1 and 2, the levers act on the one hand on the collar 13 α or 13 b and on the other hand act on the ends of the snap spring on the contact side.

The switch shown has two stable contact closed positions. In the illustrated one closed position, the contact pressure is initially caused by the spring action of the snap spring

but increased by the snap spring reaction force, which acts on the levers 9b and 10b via the double push-button slide and is thus deflected onto the contacts. The levers 9 α and 10 a are in this switching position under no force. When the control element is operated in the direction of the arrow, the snap spring is brought into its other switching position so that it now touches the contacts 7 b and 8 b. In this switching position, the contact pressure is increased by levers 9a and 10a, which are now under the action of the contact spring reaction force, in a manner analogous to the other switching position described.

Claims (4)

Patent claims: 1.Electric 'switch with a spring snap link, that is, the moving switching contacts that interact with the contacts fixed to the housing carries and is directly connected to the operating organ, and with utilization the reaction force of the snap member to increase the contact pressure, characterized by a use in a push-button operated switch in such a way that the reaction force by means of stationary hinged, on the one hand on the push button and on the other hand on the spring snap link Lever acting in addition to the contacts is fully utilized to increase the contact pressure. 2. Switch with a stable contact closed position and a snap member formed in the form of a spring strip on its Ends the movable switching contacts and carries with its middle part with the push button trained operating member is in connection according to claim 1, characterized in that that the lever is symmetrical to the push button on one side of the snap link parallel to the ends of which are arranged and with their lever arms facing the push button on one Attack the collar of the snap fastener. 3. Switch according to claim 1 and 2, characterized in that a return spring for the Push button is provided, the spring force of which is also used to increase the contact pressure. 4. Switch with two stable contact closed positions and a snap link that is in the form a spring strip is formed, carries the movable switching contacts at its ends and with its middle part with the middle of the operating element designed as a push-button slide bound is according to claim 1, characterized in that a double-armed pair of levers on each Pages of the snap member is provided symmetrically to the push button slide and that the Push-button slide has a collar on both sides of the snap link, on which the push-button Engage lever arms facing the button slide (Fig. 4). References considered: British Patent Nos. 131191, 660 338; U.S. Patent No. 2,684,418. 1 sheet of drawings