This application claims the priority benefit of France Patent Application 1051554, filed Mar. 4, 2010, the content of which is hereby incorporated by reference in its entirety.
The present disclosure relates to an electrical switch of the type making it possible to make successively at least two electrical switchpaths by means of an actuating member which the user depresses, exerting a pressure force.
Such a control enables the user to exert successively a low first pressure to make a first switchpath and then a higher second pressure to make a second electrical switchpath.
During the first phase, the user perceives an elastic resistance and then, during the making of the second switchpath, the switch gives the user a tactile sensation of the making of that switchpath.
The tactile sensation is obtained by means of an elastically deformable triggering member, for example of dome shape, the pressure exerted on which causes a sudden change of state making it possible on the one hand to make an electrical switchpath and on the other hand to give the tactile sensation.
One such type of double-action switch, also known as a double-pressure switch, is used in numerous electronic devices and notably in cameras and video cameras in which the trigger button is actuated over an axial stroke in two stages, for example, in a first stage to bring about automatic focussing (“autofocus”) and then in a second stage the actual triggering of the shutter and/or storage of the digital file.
Other applications in which it is necessary to make two electrical switchpaths successively, for example for consecutively establishing two signals, include selection followed by validation buttons and buttons for commanding the activation of a function and then the execution of that function.
Various designs have been proposed for such double-action or double-pressure switches.
U.S. Pat. No. 4,659,881, the content of which is hereby incorporated by reference, proposes a switch including two stacked coaxial domes that successively command an activation function and then a triggering function.
A second solution described in U.S. Pat. No. 5,898,147, the content of which is hereby incorporated by reference, uses two triggering members each including four superposed and interleaved radial branches.
There is further known in U.S. Pat. No. 4,359,614, the content of which is hereby incorporated by reference, a switch including a lower dome surmounted by an elastically deformable contact crossbar.
In the same family of documents, all covering at least one “fixed” lower dome, the annular lower edge of which bears on a support carrying fixed contacts, there may also be cited U.S. Pat. No. 5,564,560, the content of which is hereby incorporated by reference, which, to make the first switchpath, uses a flexible circuit with conductive lands that presses on the upper face of the dome in association with an axial actuating plunger including a mobile contact bead which, at the end of the first actuating stroke, makes a first switchpath between these conductive lands.
U.S. Pat. No. 6,498,312, the content of which is hereby incorporated by reference, proposes a “double” triggering member in one piece with two sets of radial branches, the triggering member is deformed twice in succession to make the two switchpaths.
All these solutions are particularly bulky, notably along the actuating axis, because they use two superposed domes or a plurality of superposed contact components or necessitate electrical contacts outside the area delimited by the dome.
Precise adjustment of the switch, and notably control of the actuating forces, are particularly complicated if two domes or the like are used.
U.S. Pat. No. 4,385,218, the content of which is hereby incorporated by reference, proposes a switch that includes a single dome forming a triggering member that is deformed in two successive steps to make successively a first electrical switchpath between peripheral fixed contacts and which is then deformed a second time to make a second electrical switchpath between these peripheral contacts and a central fixed contact.
In this embodiment, in which the single triggering member, or dome, is initially pressed against the bottom of the housing that receives it, the problems inherent to the overall size are at least partially solved, but the industrial realization of a dome with a particular conformation enabling double deformation thereof and the service life of such a dome subjected to large deformations are complex and lead to insufficient service life.
Here again, control of the forces felt successively by the user is also very difficult.
This disclosure is not limited to the particular systems, devices and methods described, as these may vary. The terminology used in the description is for the purpose of describing the particular versions or embodiments only, and is not intended to limit the scope.
As used in this document, the singular forms “a,” “an,” and “the” include plural references unless the context clearly dictates otherwise. Unless defined otherwise, all technical and scientific terms used herein have the same meanings as commonly understood by one of ordinary skill in the art. Nothing in this document is to be construed as an admission that the embodiments described in this document are not entitled to antedate such disclosure by virtue of prior invention. As used in this document, the term “comprising” means “including, but not limited to.”
To remedy the drawbacks that have just been referred to, the invention proposes a double-action tactile-effect electrical switch including an insulative support an upper face of which that lies in a horizontal plane carries at least three fixed electrical contacts including a peripheral first contact, a peripheral second contact, and a central third contact; and a triggering member, which is elastically deformable from a stable rest state by the action of an actuating member acting in a globally vertical direction, which includes a lower peripheral annular area adapted to come simultaneously into bearing engagement with the two first peripheral contacts to make a first switchpath, and a domed upper central section on which the actuating member acts, which member is deformable in order to make an electrical connection between on the one hand the two fixed first contacts and on the other hand the central third electrical contact, to make a second switchpath consecutively to the making the first switchpath. In its stable rest state, the triggering member can occupy an initial high rest position toward which it is urged elastically and in which the annular area does not bear on the two peripheral fixed first contacts i.e. a position in which there is no electrical contact or connection between the two peripheral fixed first contacts; and a final low switching position toward which it is moved by the actuating member, against the return spring force, and in which the annular area of the triggering member bears directly or indirectly on the two first peripheral fixed contacts, i.e. a position in which the annular area of the triggering member establishes electrical contact between the two peripheral fixed first contacts.
Additionally, the switch may include a spring return member that is disposed vertically between the support and the triggering member and which is compressible globally vertically to enable the triggering member to move from its initial high position to its final low position. In the initial high position of the triggering member, the lower peripheral edge that delimits the annular area lies in a plane that forms an acute angle with the horizontal plane, and, in the low final position, the lower peripheral edge lies in a plane parallel to the horizontal plane and bears on the two first peripheral fixed contacts.
According to additional embodiments of the invention, the spring return member is a ring that includes a rigid bearing section on which a section of the lower peripheral edge bears and an elastically deformable section, this ring being elastically deformable between a stable rest state in which the rigid section lies in a plane that forms an acute angle with the horizontal plane and an elastically compressed final state in which the rigid section extends horizontally and bears on the horizontal upper face.
According to additional embodiments of the invention, the elastically deformable section of the return ring includes two elastically deformable branches which join at a point that bears on the horizontal upper face situated between the two first peripheral fixed contacts.
According to additional embodiments of the invention, the triggering member is a spherical dome.
According to additional embodiments of the invention, the switch includes a contact support for contacts that delimits a housing the bottom of which is delimited by the horizontal upper surface.
Other features and advantages of the invention will become apparent on reading the following detailed and non-limiting description of embodiments of the invention, for an understanding of which reference should be made to the appended drawings, in which:
To facilitate an understanding of the following description and to make the claims clear, the terms vertical, horizontal, longitudinal, transversal, etc. are used without limiting the invention and without reference to terrestrial gravity, referring to the system of axes L, V, T shown in the figures.
In the following description, identical, similar or like components are designated by the same references.
The electrical switch 10 may have a generally symmetrical design with respect to the vertical and longitudinal median plane PVML indicated in
In its central part, the casing 14 may include a housing 20 in the upper face 16 which is open vertically upwards and is delimited by a horizontal bottom plane 22 and by a concave cylindrical vertical lateral wall 23.
With the components assembled, the housing 20 may house an annular return spring 24 and at least part of a triggering member or triggering dome 26, while here an actuating member or plunger 28 extends vertically above the plane of the upper face 16.
In the assembled position of the components shown in
According to a technique known in the art, the casing 14 may be molded around cut and bent metal strips, as shown in
Each peripheral fixed contact 30A, 30B may be arranged near the lateral vertical wall 23 of the housing 20 and takes the form of a circular patch which here projects vertically so that its free horizontal upper face 34A, 34B extends above the plane of the horizontal upper face that the bottom 22 of the housing 20 constitutes.
Similarly, the switch may include a central common fixed third contact 36 electrically connected to two other electrical connecting terminals 38A, 38B also intended to be connected to corresponding conductive tracks of the printed circuit board 12. The central fixed contact 36 may also be produced in the form of a circular patch, an upper face 40 of which lies in a horizontal plane at a height relative to the horizontal bottom plane 22 that is slightly less than that of the upper faces 34A and 34B.
An exemplary shape of the metal strips cut out with the fixed electrical contact patches is shown in detail in
In the bottom of the housing 20, there may be a stud 42 for locating a return spring 24 which projects vertically upward and is in one piece with the molded insulative plastic material.
As may be seen in
The housing 20 may receive and locate the annular return spring 24 in an initial high rest position of the triggering dome 26. Here, the spring 24 may be a member of generally annular shape produced by cutting and bending sheet metal, for example, or by molding a plastic material resulting in the spring 24 having no electrical conduction function.
The generally annular spring 24 may include a rigid first part or section of substantially semicircular ring shape 44 which is situated in the lower half of
As may be seen in
The complementary shapes of the stud 42 and the facing portion of the rigid section 44 and of the wall 23 of the housing 20 may locate the spring 24 in the housing with clearance, notably so that the spring cannot turn in its housing and its movements are limited to the rocking mentioned above during its elastic deformation.
A second part or section 48 of the spring 24, corresponding to the upper part of
As may be seen in
Starting from the high rest position of the spring 24 shown in
The semicircular annular plane upper face 45 of the first section 44 of the spring 24 may constitute a bearing plane for the lower peripheral annular area of the triggering dome 26, which here is shown as a circular contour spherical dome the concave side of which faces downward. The dimensions of the triggering dome 26, and in particular its outside diameter, are such that it is at least partly housed and located in the housing 20.
The triggering dome 26, shown in
As may be seen in
When, by means of the plunger 28, the user exerts a force on the convex upper face 27 of the triggering dome, in the vertical direction of the arrow F in
This deformation of the spring 24 may cause rocking of the triggering dome 26 leading to bearing engagement and electrical contact of its lower edge 54 with the coplanar upper faces 34A, 34B of the peripheral fixed contacts 30A and 30B.
The triggering dome 26 may thus be moved from its initial high rest position shown in
At the end of the actuation first phase, the spring 24 may be substantially “flat” and the triggering dome 26 is in a “classic” position in which its lower peripheral annular area bears on a horizontal plane to enable thereafter its “classic” sudden change of state.
Then, on continuing application of a push force of higher value in the direction of the arrow F, the user may cause elastic deformation of the triggering dome 26 and its sudden change of state, as known in the art. At the end of this deformation, the conductive lower face of the central part of the triggering dome 26 may come into electrical contact with the upper face 40 of the central fixed contact 36.
Apart from the tactile sensation that it gives the user, this deformation may then make the second electrical switchpath between the central fixed contact 36 and the peripheral fixed contacts 30A and 30B, i.e. between the connecting terminals 38A, 38B and 32A, 32B.
For example, for a triggering dome 26 with a diameter of 2 mm, the first actuating stroke is equal to approximately 0.1 mm with a force of 1 Newton while the second actuating stroke is equal to approximately 0.2 mm with an actuating force equal to 2.5 Newtons.
The peripheral annular area and/or the lower free edge 54 of the triggering dome 26, via its conductive lower face, may make directly the electrical contact between the two fixed contacts 30A.
The invention is not limited to the two embodiments that have just been described. For example, the fixed contacts may be part of a rigid or flexible printed circuit board. Nor is the invention limited to two fixed peripheral contacts. The annular return spring 24 may be associated with the lower face of a triggering dome 26.
The design of the invention that has just been described is particularly compact as much in height as laterally, the height being only increased (relative to a standard single-action dome switch) by the thickness or vertical height necessary for the deformation of the return spring.
The invention is not limited to a switch actuated by a vertical plunger, and may also find applications with lateral actuation with a movement direction-changer along the vertical axis to act at the centre of the triggering dome 26.
Various of the above-disclosed and other features and functions, or alternatives thereof, may be combined into many other different systems or applications. Various presently unforeseen or unanticipated alternatives, modifications, variations or improvements therein may be subsequently made by those skilled in the art, each of which is also intended to be encompassed by the disclosed embodiments.
Number | Date | Country | Kind |
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1051554 | Mar 2010 | FR | national |