NO179429B - Mechanically controlled switch - Google Patents

Abstract

The invention relates to a mechanically actuated switch. The switch comprises an operating lever (1) provided with an actuating cam (2) and a switching member (8), the latter fixed to a support (4), which contains a plurality of microcontacts (15). It comprises means of moving the operating lever (1) so that the actuating cam (2) can actuate at least two of these microcontacts (15) in succession. <IMAGE>

Description

The present invention relates to a mechanically controlled switch.

Switches of this type usually comprise an operating device arranged for rotary or translational movement as well as a contact device. This body comprises fixed contact elements and a shaft driven by means of the operating element, which carries movable contact elements arranged to make contact with certain of the fixed contact elements. This switch occupies a space that is determined by the mechanism that ensures the cooperation between the two types of contact elements. In certain device types that are heavily integrated, this volume cannot be brought into compliance with the available space limitations.

When it is desired that the switch should have good tightness, the routing of the shaft through the contact member also makes it necessary to use gaskets which could have a detrimental effect on the device's reliability.

From an article entitled "Sliding selector switch" published in "IBM Technical Disclosure Bulletin", volume 22, no. 6 of November 1979 (page 2324), a switch is thus known which meets these requirements. This switch, which together with the operating member has a contact comb arranged to actuate micro-contacts, however exhibits a relative mobility for this comb in a direction at right angles to the plane determined by the micro-contacts. The partial assembly made up of the operating member and the contact cam is thus a mechanical structural element which is subject to certain limitations, particularly with regard to elasticity.

On this background, it is an object of the present invention to produce a switch with a modest scope and which exhibits a high degree of tightness, at the same time that said sub-assembly is substantially simplified.

The invention thus relates to a switch which comprises an operating member and a contact member attached to a carrier and provided with several micro-contacts, said operating member having at least one contact cam and the switch further comprising equipment to allow movement of the operating member so that the contact cam can in turn be brought into contact with at least two of said micro-contacts. On this background of known technology, the switch has as a distinctive feature according to the invention that said contact member is made with a protruding bubble membrane and said contact comb is arranged for movement at a constant distance from the carrier.

In this switch, the carrier preferably comprises sockets, while the operating member is equipped with a device for step-displacement and which cooperates with said sockets in such a way that the contact comb is held motionless on the micro-contacts.

In a first embodiment of the switch, the operating member is arranged for rotary movement.

In a second embodiment of the switch, the operating member is arranged for translational movement.

Furthermore, each micro-contact in the switch can be covered by a material bubble.

In an embodiment of the switch, all the micro-contacts can be covered by a single bubble membrane.

According to a further distinctive feature of the switch, the electrical conductors connected to the micro-contacts are assembled in a contact plug strip which is arranged to be inserted into a connector for resilient circuits.

The various purposes and distinctive features of the invention will become more apparent from the subsequent, non-limiting design examples given with reference to the attached drawings, in which: Fig. 1 shows in section a rotary switch according to the invention,

fig. 2 shows the switch in fig. 1 seen from below,

fig. 3A and 3B schematically show a carrier with one bubble membrane,

seen respectively from above and in section,

fig. 4 shows an embodiment of a rotary switch,

fig. 5 shows a section through a switch for rectilinear

link movement, and

fig. 6 shows the rectilinear switch seen from above.

The structural elements shown are provided with the same reference numbers in the different figures.

The switch shown in section in fig. 1 as well as seen from above in fig. 2, comprises an operating device 1 of the button type and equipped with a contact cam 2. The operating button 1 is attached to a shaft 3 by gluing, by screw fastening or by means of any known means, this shaft being supported by means of a mounting shoulder 5 on a carrier 4 for rotational movement relative to the carrier. The switch also has a step displacement device of the type which is constituted by a spring ball 6 which can be brought into engagement with any of the recesses 7 made in the carrier 4. The switch also comprises a contact member 8 attached to the carrier 4.

In a first embodiment, the contact member is made in accordance with the known bubble membrane technique which is particularly used in the manufacture of keyboards. It thus comprises an active layer 9 which on its upper side is covered by an outer layer 10 which creates bubble membranes 11, and has an adhesion layer 12 on its underside, which ensures attachment to the upper side of the carrier 4. The bubbles 11 are arranged along a circle whose radius is equal to the distance that separates the contact cam 2 from the axis of rotation of the control button 1.

The active layer 9 comprises in the middle of each bubble membrane 11 a microcontact 15 which creates the electrical connection between two electrical conductors 16, 17 when the bubble is subjected to a pressure exerted perpendicular to the surface plane of the carrier 4 by means of the contact comb 2. When the pressure ceases, the the contact due to the elasticity of the bubble membrane. The assembly of the conductors from the micro-contacts is led to a contact strip 18 which can be plugged into a connector for compliant circuit elements. This type of connection is also known from the manufacture of keyboards.

In another embodiment of the contact member and which is shown in fig. 3, the same component assembly as discussed above applies, except for the design of the outer layer 10. This layer then does not consist of several bubbles, but of a single membrane path, namely in the form of a torus section 20 whose axis of symmetry is shared with the axis of rotation for operating button 1. The micro-contacts 15 are arranged along a circle whose radius is essentially equal to the mean radius of the torus section 20, and whose mid-point coincides with the aforementioned axis of symmetry. This torus section 20, like the bubble membranes 11, is produced by hot forming.

In the two embodiments described above, the tightness of the device is ensured by means of the bubble membrane system, so that the contact member, in contrast to the known devices, is not in mechanical connection with any external part. The contact closure takes place under the influence of pressure. Moreover, the extent of the contact member is reduced to the thickness of a film layer.

In a third embodiment of the contact member, the micro-contacts 15 are not actually integrated into a film, but consist of ordinary micro-contacts which are mechanically attached to the carrier 4 in a similar manner as previously described. Although this embodiment has a larger scope, it exhibits all the advantages of conventional micro-contacts.

In the three cases discussed above, the contact member 8 and the operating button 1 are placed on the same side of the carrier 4. In an embodiment shown in fig. 4, they are, however, placed on each side of the carrier. Only the most essential elements of the device are shown here schematically. The spring ball 6 and the recesses 7 can then be on one or the other side of the carrier 4.

In the various embodiments indicated above, the operating button is provided with a single contact cam. Without exceeding the scope of the invention, it can, however, be equipped with several such chambers.

The invention has so far been described in connection with a rotary switch. However, it also applies to a rectilinear switch of the type shown in section in fig. 5, as well as seen from above in fig. 6. The carrier 4 has a guide groove 30. The shoulder 5 on the shaft 3 for the operating button 1 is then arranged in such a way that the button is mainly held in contact with the carrier 4 and can be brought to a sliding movement in the groove 30. The micro contacts 15, the bubble membranes 11 and the outlets 7, which has the same working function here as in the rotatable switch, is placed parallel to the guide track 30 in such a way that the operating button 1, which is not rotatable, is set correctly in relation to each elementary contact.

In the same way that it has been shown with the rotary switch that the bubble membranes can be replaced by a torus section, they can here be replaced by one continuous membrane, such as in the form of a cylinder section. The guide track 30 which is shown in a straight line in fig. 6, can also be made in a curve shape without thereby exceeding the scope of the invention.

Claims (7)

1. Switch comprising an operating device (1) and a contact device (8) attached to a carrier (4) and provided with several micro-contacts (15), said operating device (1) having at least one contact comb (2) and the switch further comprising equipment to allow movement of the operating member (1) so that the contact cam (2) can in turn be brought into contact with at least two of said micro-contacts (15), characterized in that said contact member (8) is made with a protruding bubble membrane (11) and said contact comb (2) is arranged for movement at a constant distance from the carrier (4). 2. Switch as specified in claim 1, characterized in that said carrier (4) comprises sockets (7) and the operating device is equipped with a step displacement device (6) which cooperates with said sockets (7) with the aim of keeping said contact comb (2) immobile on at least one of said micro-contacts (15) ). 3. Switch as stated in one of the preceding claims, characterized in that said operating device (1) is arranged for rotary movement. 4. Switch as specified in claim 1 or 2, characterized in that said operating device (1) is arranged for translational movement. 5. Switch as stated in one of the preceding claims, characterized in that said micro-contacts (15) are each covered by a separate bubble membrane (11). 6. Switch as stated in one of claims 1-4, characterized in that all said micro-contacts (15) are covered by a single common bubble membrane (20). 7. Switch as stated in one of the preceding claims, characterized in that the electrical conductors (16, 17) which are connected to the micro-contacts (15) are assembled in a contact strip (18) designed to be plugged into a connector for compliant circuit elements .