EP1750291A1 - Microswitch - Google Patents

Abstract

A microswitch (1) comprises a housing (2) in which two conducting paths (3) and a supported spring element (11) are arranged. The spring element is formed as a plate (12). A detatchable switching dome is formed on an area of the plate around the centre of the conducting path. A switching dome (13) is movable through the levels formed on the plate. The two opposite shaped parts (19) are provided at plates which run away laterally in the levels formed by the plate.

Description

The invention relates to a micro switch, consisting of a housing, at least two conductor tracks arranged in the housing and a spring element supported on the housing, which is lifted in the unactuated state of at least one conductor track, which is movable in the direction of the conductor tracks and through the when pressing the tracks for generating an electrical contact with each other are connected.

Of the DE 198 16 956 C1 is a so-called snap disc switch removable, which has a curved snap disc, which is supported by a plurality of support elements on a base member. In order to increase the contact path of the snap disc switch, a separating element is provided, by which the distance of the support elements is increased from the base element.

It is also known to form the spring element as a truncated cone in order to absorb the occurring stresses that occur when moving the spring element, in particular in its edge region.

A disadvantage of such snap-action switch has been found that caused by the movement of the snap disk in the edge region of the operating field stress cracks, which cause the life of such snap-action switch is limited. In addition, the known snap disk switch build extremely large, so that they can not be used as a micro-switch, for example, by the DE 198 16 956 C1 revealed Snap disc switch has a separator to increase the stroke of the snap-action switch. The larger, however, the separating element is formed, the larger the outer contour of the entire snap disk switch assembly.

Based on the known snap disk switch, the invention has the object, a micro-switch of the aforementioned type to design such that it has an increased life compared to a microswitch of the same size; the same time should take the smallest possible size. This micro-switch should also have the largest possible lifting or switching path.

This object is achieved in that the spring element is designed as a plate whose area is formed around the center of mass as lifted from the tracks switching cup, that the switching cupola is movable by the plane formed by the plate and that on the plate at least two opposing projections are provided which protrude laterally from this and which extend in the plane formed by the plate.

It is particularly advantageous if at least two opposing projections are provided on the spring element formed as a plate, because thereby the voltages occurring due to the movement of the switching dome are absorbed by the projections and forwarded to the housing. In particular, in the transition region between the switching dome and the plate caused by the movement of the switching dome in the plate voltages that lead to damage to the connection between the switching dome and the plate. The moldings therefore increase the service life of the microswitch.

The spring element has a material property that allows the switching dome to be moved through the plane formed by the plate when actuated so that the stroke traveled by the dome is increased.

In order to achieve a further increase in distance between the inside of the switching dome and a running below the switching dome trace, a support base is in each case formed on the underside of the plate, preferably in the corner regions, which rests on the housing or on outside running tracks. Due to the significantly increased distance between the inside of the switching dome and the inner conductor track an accidental short circuit is avoided.
Rather, it is ensured that only the microswitch is activated by the actuation of the switching dome.

In order to facilitate the operation of the spring element from the outside, an actuating element which is fixed to the housing, is provided. The actuating element is designed as a ball and is held in a lid. As a result, a positionally accurate activation or actuation of the spring element is ensured.

It is particularly useful if a circumferential sealing jacket is provided on the ball, through which the gap between the ball and the lid is closed. Consequently, dirt and dust particles can be prevented by the sealing jacket from penetrating into the interior of the housing of the microswitch.

The sealing jacket can be held clamped between the cover and the housing so that the sealing jacket acts in the manner of a diaphragm when the actuating switch is actuated. The sealing jacket can also be designed such that it engages over the housing, for example as a two-component construction part.

In order to avoid an unintended short circuit between the switching dome and the middle conductor, it may be provided to arrange the middle conductor in a level lower level in the housing than the two outer parallel thereto extending conductor tracks, so that the distance between the switching dome and the middle conductor this structural measure is increased.

Further advantageous developments of the invention will become apparent from the dependent claims.

In the drawing, two embodiments of a micro-switch according to the invention are shown, which are explained in more detail below.

Figur 1

ein erstes Ausführungsbeispiel eines Mikroschalters, bestehend aus einem Gehäuse und ein in diesem eingebetteten Federelement, das durch ein Betätigungselement in Richtung auf drei Leiterbahnen betätigbar ist, in perspektivischer Ansicht,

Figur 2a

den Mikroschalter gemäß Figur 1, entlang der Schnittlinie II-II, im unbetätigten Zustand,

Figur 2b

den Mikroschalter gemäß Figur 1 entlang der Schnittlinie III-III, im unbetätigten Zustand;

Figur 2c

den Mikroschalter gemäß Figur 2a, im betätigten Zustand,

Figur 2d

den Mikroschalter gemäß Figur 2b, im betätigten Zustand,

Figur 3a

das Federelement gemäß Figur 1, in Seitenansicht,

Figur 3b

das Federelement gemäß Figur 1, in Draufsicht,

Figur 4a

ein zweites Ausführungsbeispiel eines Mikroschalters, bestehend aus einem Gehäuse, in dem ein Federelement eingebettet ist und dessen mittlere Leiterbahn gegenüber den beiden äußeren Leiterbahnen in einer niveauniedrigeren Ebene verläuft, im Schnitt,

Figur 4b

den Mikroschalter gemäß Figur 4a in einem gegenüber der Figur 4a um 90 ° gedrehten Schnitt,

Figur 5a

den Mikroschalter gemäß Figur 1 und dessen schwimmend gelagertes Federelement, das im Gehäuse durch eine Einprägung gehalten ist, im Schnitt,

Figur 5b

den Mikroschalter gemäß Figur 5a in Draufsicht,

Figur 6

den Mikroschalter gemäß Figur 1, in perspektivischer Ansicht und eine Ausführungsvariante für das Betätigungselement ohne Dichtungsmantel, im Schnitt.

In detail shows:

FIG. 1

a first embodiment of a micro-switch, consisting of a housing and a spring element embedded in this, which can be actuated by an actuating element in the direction of three tracks, in a perspective view,

FIG. 2a

the microswitch according to FIG. 1, along the section line II-II, in the unactuated state,

FIG. 2b

the microswitch according to Figure 1 along the section line III-III, in the unactuated state;

Figure 2c

the microswitch according to FIG. 2a, in the actuated state,

Figure 2d

the microswitch according to FIG. 2b, in the actuated state,

FIG. 3a

the spring element according to FIG. 1, in side view,

FIG. 3b

the spring element according to FIG. 1, in plan view,

FIG. 4a

A second embodiment of a microswitch, consisting of a housing in which a spring element is embedded and whose middle conductor runs opposite the two outer conductor tracks in a lower level, in section,

FIG. 4b

4a in a section rotated by 90 ° with respect to FIG. 4a,

FIG. 5a

the microswitch according to Figure 1 and its floating spring element, which is held in the housing by an impression, in section,

FIG. 5b

the micro switch according to Figure 5a in plan view,

FIG. 6

the micro-switch of Figure 1, in perspective view and a variant for the actuator without sealing jacket, in section.

FIG. 1 shows a microswitch 1, by means of which an electrical switching operation can be carried out. The microswitch 1 can be operated manually or mechanically.

The microswitch 1 consists of a housing 2, in which three mutually parallel conductor tracks 3 are accommodated. At both opposite end sides of the housing 2, a slot or pads for SMO or variant for THT are provided for each of the three interconnects 3, so that on the housing 2 either one-sided or two-sided connection options are created.

To the housing 2, a circumferential web 5 is formed in its edge region, so that the web 5 forms a space. In this space, a spring element 11, which is formed as a plate 12, used.

In particular, the figures 3a and 3b, the exact design of the spring element 11 can be removed. The plate 12 has two axes of symmetry 16 and 17 which intersect at the center of symmetry 18 of the spring element 11.

Around the center 18, an annular switching dome 13 is formed, which is elastically connected to the plate 12. The switching dome 13 protrudes from the plane formed by the plate 12 and can be moved by a force directed toward this through the plane formed by the plate 12.

On the side facing away from the switching dome 13 side of the plate 12 are each a pedestal 14 are provided on this in the four corner regions. The plate 12, which formed on this molded switching dome 13 and the four pedestal 14 thus form the spring element eleventh

In particular, in the figure 3b it is shown that on the plate 12 two opposite projections 19 are mounted, which extend laterally in the plane formed by the plate 12. The projections 19 serve to absorb the resulting during actuation of the switching cup 13 voltages in the transition region between the switching cup 13 and the plate 12 in order to increase the life of the spring element 11 in total, as by these the switching operations for the microswitch 1 can be accommodated without Stress cracks occur by which the switching dome 13 would be separated from the plate 12.

FIGS. 2 a and 2 b show how the spring element 11 is accommodated in the housing 2. The edge region of the plate 12 abuts against the inside of the web 5 of the housing 2. The inner contour of the web 5 therefore corresponds to the outer contour of the plate 12, so that the plate 12 is held by the web 5 in the horizontal directions.

For actuating the spring element 11, in particular for actuating the switching dome 13, an actuating element 21 is attached to the housing. The actuating element 21 is spherical in its cross section. In the transition region between the outer contour of the actuating element 21 and the housing 2, a sealing jacket 23 is integrally formed on the actuating element 21, the free end resting on the upper side of the web 5. On the outside of the web 5 two oppositely extending locking lugs 24 are formed, over which a lid 22 can be pressed with a snap projection 25. The locking lugs 24 act as undercuts and fix the snap projection 25. The cover 22 completely surrounds the sealing jacket 23, whereby the actuating element 21 is locked on the housing 2.

The cover 22 may be designed such that it is connected to the sealing jacket 23 by a suitable manufacturing process.

The three interconnects 3 extend in a common switching level in the housing 2. In this case, the pedestals 14 of the spring element 11 rest on the two outer interconnects 3.

FIGS. 2c and 2d show how the switching dome 13 of the spring element 11 can be deformed by the actuating element 21 in the direction of the middle conductor track 3. By a vertical force in the drawing, namely, the actuating element 21 can be moved in the direction of the switching dome 13, whereby it is pressed in the direction of the middle conductor 3. The switching dome 13 penetrates the plane formed by the plate 12 and also overcomes the distance that is additionally generated by the pedestals 14. By pressing down the switching dome 13 on the middle conductor 3, the three interconnects are shorted to each other, so that a switching operation of the microswitch 1 can be generated.

If the holding force applied to the actuating element 21 is reduced or completely removed, the switching dome 13 snaps back into its starting position in the manner of a spring. As a result, the switching operation is terminated and the actuating element 21 is lifted by the switching dome 13.

The attached to the actuator 21 sealing jacket 23 serves to protect the spring element 11 and the three interconnects 3 from dirt ingress. At the same time, the actuating element 21 is fixed by the sealing jacket 23 between the cover 22 and the upper side of the web 5 on the housing 2.

In Figures 4a and 4b, the middle conductor 3 is lowered relative to the two outer two conductors 3 arranged in the housing 2, so that the distance between the inside of the switching dome 3, so the pointing to the middle conductor 3 side of the switching dome 13 a greater distance is generated as in the embodiment of Figures 2a to 2d. A greater distance between the inside of the switching dome 13 and the middle conductor 3 increases the security and unwanted switching operations of the microswitch 1 are prevented.

In the figures 5a and 5b it is shown that the spring element 11 can be fixed without the actuating element 21 in the housing 2. For this purpose, the four corner regions of the housing 2 are impressed in the direction of the spring element 11, so that the spring element 11 is held floatingly mounted in the housing 2 by the embossments thus produced. By the imprints in the corner regions of the housing 2 is namely prevented that the spring element 11 can fall out of the housing 2. The actuation of the switching dome 13 can be done by a user's finger or a thin pin.

In the figure 6, the actuating element 21 is formed as a ball without a sealing jacket 23 is formed on this. The trained as a ball actuator 21 is exclusively held rotatably in the cover 22 on the housing 2. The outer contour of the lid 22 therefore protrudes beyond the median plane of the actuating element 21, so that falling out of the actuating element 21 from the lid 22 is prevented due to the enlarged subsequent diameter of the actuating element 21.

Characterized in that the actuating element 21 is formed in all embodiments as a ball and the switching dome 13 has a dome-shaped outer contour, which is bent away from the actuating element 21, it is ensured that the summit of the switching dome 13, which is arranged exactly in the center 18, in the direction is moved to the middle conductor 3. The actuator 21 is namely exclusively with the highest elevation of the switching dome 13 come into operative connection, so that a lateral actuation of the switching dome 13 can be excluded.

Due to the four formed on the plate 12 support bases 14 and the selected curvature of the switching cup 13, a switching path is given, which is sized so large that an unwanted contact between the inside of the switching cup 13 and the middle conductor 3 in the unactuated state of the switching cup 13 is not is possible. Since the two projections 19 extend in the lateral region, in which considerable stresses arise due to the actuation of the switching dome 13, these are introduced uniformly into the plate 12. It is therefore particularly advantageous if the radius occupied by the switching dome 13 around the center 18 is used as the starting basis for the outer contours of the two projections 19. Namely, the outer contours of the projections 19 are intended to run in a circle around the center point 18. The radius of the projections 19 should be 10% to 50% greater than the radius of the switching dome 13 about the center of the 18th

Due to this selected geometry properties ensures that the dimension of the plate 12 is kept as small as possible and that at the same time resulting from the actuation of the switching dome 13 voltages are passed through the projections 19 uniformly to the plate 12.

Claims (14)

Microswitch (1) consisting of a housing (2), comprising at least two printed conductors (3) arranged in the housing (2) and a spring element (11) supported on the housing (2), which in the unactuated state is at least one printed conductor (11). 3) is lifted, which is movable in the direction of the conductor tracks (3) and by means of which by the actuation of the conductor tracks (3) are connected to each other for generating an electrical contact,
characterized,
in that the spring element (11) is designed as a plate (12), in the region of which about the center (18) a switching dome (13) lifted off from the printed conductors (3) is formed so that the switching dome (13) 12) formed plane is movable and that on the plate (12) at least two opposite projections (19) are provided which protrude laterally from this and which extend in the plane formed by the plate (12). Microswitch according to claim 1,
characterized,
in that the plate (12) has a rectangular shape and the switching dome (13) arranged in the center (18) of the plate (12) is circular, that the two opposing projections (19) have a circular outer contour and that the radius of the outer contours of the projections (19 ) relative to the center (18) of the plate (12) is at least 10 percent larger than the radius of the switching dome (13) around the center (18). Microswitch according to claim 1 or 2,
characterized,
in that at least one peripheral support base (14) is formed on the plate (12) such that the support base (14) is provided facing the switching dome (13) in the direction of the conductor tracks (3) and that the support base (14) is provided by a the conductor tracks (3) is spaced and rests on the other or the other tracks (3). Microswitch according to claim 3,
characterized,
in that the support base (14) is integrally formed in each of the corner regions of the plate (12). Microswitch after one or
several of the preceding claims,
characterized,
in that a circumferential web (5) pointing in the direction of the spring element (11) is integrally formed on the housing (2),
that the inner contour of the web (5) with the outer contour of the spring element (11) corresponds. Microswitch after one or
several of the preceding claims,
characterized,
in that at least the four corner regions of the web (5) are embossed in the direction of the housing (2) and of the spring element (11). Microswitch after one or more
the aforementioned claims,
characterized,
in that the switching dome (13) is assigned an actuating element (21),
by which the switching dome (13) from the outside in the direction of the conductor tracks (3) is movable and that the actuating element (21) on the housing (2) is supported supported. Microswitch according to claim 7,
characterized,
in that the actuating element (21) is designed as a ball in cross-section and in that the actuating element (21) is held against slipping on the housing (2) by means of a cover (22). Microswitch according to claim 8,
characterized,
that on the actuating element (21), a circumferential sealing skirt (23) is formed,
that the free end of the sealing skirt (23) between the housing (2) and the lid (22) firmly clamped. Microswitch according to claim 8 or 9,
characterized,
that the cover (22) or the sealing jacket (23) on the housing (2) by at least one latching nose (24) is held in the manner of an undercut, on the mounted a lid (22) or the sealing jacket (23) snap projection (25) is movable. Microswitch after one or
several of the preceding claims,
characterized,
that the spring element (11) in the housing (2) is floatingly mounted. Microswitch after one or
several of the preceding claims,
characterized,
in that the corner regions of the housing (2), preferably subareas of the web (5), are embossed in the direction of the spring element (2) and that the spring element (11) is impressed by the embossing of the housing (2) and / or the web (5). is locked. Microswitch after one or
several of the preceding claims,
characterized,
that in the housing (2) three mutually parallel conductor tracks (3) are arranged,
that the conductor tracks (3) lying in a common switching plane,
that the spring element (11) rests on the two outer conductor tracks (3) and
that the switch dome (13) can be moved with its inner surface in contact with the middle conductor path (3). Microswitch after one or
several of claims 1 to 12,
characterized,
that in the housing (2) three mutually parallel conductor tracks (3) are arranged,
that the spring element (11) rests on the two outer conductor paths (3),
that the middle conductor track (3) is housed in a level lower level than the two outer conductor tracks (3) and
in that the inside of the switching dome (13) can be transferred into contact with the middle conductor track (3).

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