DE1640444B1 - PRESSURE ACTUATED ELECTRIC SWITCH ARRANGEMENT - Google Patents

Description

Γ 640 444

1 2

The invention relates to a pressure-actuatable electrical layer which has the disadvantages mentioned

Irish switch arrangement, in which on an under- 'avoids compressible materials,

layer of insulating material at least one contact This object is according to the invention

element is arranged, above which one solved at a distance in that the intermediate layer has a

second contact element on the underside of a 5 given constant thickness and from a

Membrane is attached, which is on one of the undersize, the rest distance of two

located, in the area of the contact elements associated contact elements with security

there is an insulating-maintaining material with a hole per contact point,

the intermediate layer rests and with a cover.

layer of an elastomer is covered. io dung, especially arrangements with more than one

A switch arrangement according to the present invention allows contact in a planar or even spatial arrangement, switches in rows or areas are mentioned in the subclaims,
put together, with each individual switch- An embodiment of the invention is shown in the element is much smaller than conventional drawings and will be described in more detail below lever or push-button switch. The individual 15 are described. It shows

Switching elements can be made so small, Fig. 1 shows the cross section of an individual switch

that you can only use a pointed stylus, one in the open position,

Fig. 2 shows the cross section of the one shown in Fig. 1

can. The required actuation pressure is in the closed state and switch

relatively small. Even when using a stronger 20 F i g. 3 several switches arranged in a panel

The membrane according to FIGS. 1 and 2 may be pressurized with a pointed stylus.

suffer no harm. It is therefore expedient, the base 10 is plated with strip-shaped contacts, either an inherently strong membrane or elements 12 (hereinafter referred to as contact strips, or better a protective cover layer on this) made of conductive material and used. The intermediate layer 14 made of insulating material is supported by a strong membrane without a cover layer. Has a close. The mem pack lies on the intermediate layer 14, but in certain applications it is der- brane 18 which, at the locations of the holes 16, are attached to switch arrangements, eg. B. in punch cards. its underside is the contact element 20 (also designed as a reader or in the case of handwriting recording device- 3 ° contact strips and in the following so prayed, desired. A dimensionally stable insulating draws) made of conductive material. In such a switch assembly membrane 18, the cover layer 22 rests on the intermediate layer from an advantage, so that a quick reopening of elastic material is guaranteed, the layer 24 from a lubricating contact opening being guaranteed between the aforementioned of the individual contact elements and a defined two layers . At the switch 35 fabric is inserted. The materials used for the various layer arrangements according to the present invention and the thickness of the same contamination of the conductive contact surfaces are largely dependent on the application of the switch organic molecules or other dust arrangement. The following materials are excluded. Minor pollution that result as a. satisfactory way of working,
can form a thin film over the contact surfaces, 40. The base 10 embodies a copper-coated one which is broken through during the flexing closure, so glass foil or a paper-reinforced resin foil of that good contact is guaranteed. Scarf a thickness of about 1.5mm. The intermediate layer terhub, pressing time and opening time are particularly short in the case of the 14 consists of a polyester film lius Äthylenvor present arrangement. glycol and terephthalic acid and is 0.02 to 0.1 mm

They are already 45 thick according to the Swiss patent. The membrane 18 consists of a film made of 319 093, according to the USA patent specification 3 056 005 and elastic polyester film, which can be copper-covered according to the British patent specification 923 891 switch and 0.06 to 0.12 mm thick is. The contact arrangements of a similar type became known. The strips 12 and 20 are preferably made of gold, which is a major disadvantage of all of these arrangements and are 0.0006 to 0.00075 mm thick. The cover, however, that - between the two together - 50 consists of a uretane-synthetic pressable contact element according to the rubber mentioned or of another suitable elastomeric patent specification which is elastically resilient, compressible and has a thickness between 0.1 to 0.6 mm. The layer and resilient intermediate layers are in -._ "..24 consists of a silicone grease.
those in which, under different temperature and aging conditions, pressure is exerted on the cover layer 22, no defined opening time 55 (FIG. 2). is the by 'down-acting pressure and not a defined opening distance advertising guaranteed force P through the covering layer into a can in the Verden. Furthermore, the three geometrically acting pressure components Pd and in common patents only deal with floor covering components P _r , the latter in all common, mat-shaped devices that report only one direction in a single contact closure parallel to the base 10 ^ to the outside . They radiate 60 levels. As a result, the area of the membrane 18 is therefore essentially only suitable for purposes to which pressure is exerted, such as, for example, the automatic opening of a. This area is denoted by D , the door, when the mat in front of it is entered, is larger than the area d of the pen 26. In

The object of the present invention is to bring the contact strip 20 into contact with the contact strip 12 in a pressure-actuated switch 65 described above in the area D. The arrangement, which on the one hand the dense packing of relatively large contact area D reduces the contact-separated contact elements per length or resistance and the current density, so that the switch allows unit area and on the other hand an interchangeable is for relatively large currents of about

1 amp without overheating. With low currents on the order of a few milliamperes, the switch can be used for an almost unlimited number of switching operations. The ability of the switch to make contact is also increased by the unrolling process, which arises from the fact that the center of the contact strip 20 first touches the contact strip 12 and then gradually adjacent parts of this contact strip come into contact position until finally the entire surface D takes over the contact. A reverse unwinding occurs when the switch is opened. The initial point contact causes, on the one hand, high pressure over a small area, which punctures any film of contamination that may have formed on the contact surfaces, and, on the other hand, causes high contact resistance and high current density over a short period of time. The duration of this state is sufficient for any film of contamination to burn off, but is not so long to be able to attack the contact surfaces.

From Fig. 1 it can be seen that the switch travel is very small (0.07 to 0.7 mm for the aforementioned Dimensions) so that the response time of the switch is satisfactory and the required Operating force is low. The lubricating layer located between the membrane 18 and the cover layer 22 24 reduces the friction between the aforementioned layers when they are relative move against each other, and thereby also reduces the required operating force of the switch and its response time. In that only the thin membrane 18 moves into the opening 16 must, the latter can be made relatively small, which in turn reduces the number of switches per unit area, d. H. the switch density 'can be large.

The switch panel shown in Fig. 3 is for example can be used in a punch card reader. When used in a cornering device can record a series of X-F coordinates on this switchboard. At this switchboard are the layers 10, 12, 14, 18, 20 and 22 clamped in the frame 28 in order to prevent them from shifting relative to one another. The contact strips 12 run parallel to one another, and the contact strips 20 run likewise parallel to one another and at right angles to the contact strips 12. With each contact strip 12 is a line 30, and with each contact strip 20 each connected to a line 32.

The switch panel shown in Fig. 3 is operable by moving the pen 26 over the cover layer 22. If the pen has a Opening 16 comes, the membrane 18 and a corresponding contact strip 20 through the opening 16 moved through and brought into contact with the contact strip 12 / by successive Applying a signal on lines 30 and sensing those occurring on lines 32 Output signals make it possible to determine which of the openings 16 the pen 26 traverses at a specific point in time became.

The switch panel is easy to manufacture using known thin-film techniques such as Photo etching. With such a method extremely thin switch panels can be produced, such as can be seen from the dimensions given above. In addition, the clenching calls of the individual layers in the frame 28 shows that it is sealed, which is what makes the switch panel enables, even under unfavorable temperature, humidity and contamination conditions without work adverse effect. Should continue to provide security against harmful environmental conditions be desired, the switch panel described must be hermetically sealed. Any impurities of the contacts that could still exist are due to the unwinding process described above harmless for contact security. A sheet can also be made over the cover layer 22 Paper or similar material can be arranged that is writable without affecting any Way to hinder the switch operation of the plane, so that at the same time with the electrical Record a record of the same information in a visually perceptible form can.

While in Fig..3 contacts 12 and 20 are shown, as strips crossing at right angles consist of conductive material, so that the individual switch points are arranged like a matrix are, it is also possible to design the switch panel so that, for example, the underside of the membrane 18 is coated with a conductive material or the membrane itself is made of a conductive material is produced and a single contact element 12 is arranged at each index position. Here the conductive surface under the membrane must be connected to a line and to each a single output line is to be connected to the contact elements 12. In this case, the Switchboard can be made in any desired shape.

If multi-pole switch are desired which can be actuated by a single member, the top of the membrane carries a contact element which interacts with a contact element which is mounted on the underside of a _t further arranged over a lying on the first-mentioned membrane intermediate layer membrane. In the case of a switch panel designed in this way, in which two membrane switches are accordingly layered on top of one another, the upper layer closes first and opens last when pressure is exerted on the cover layer 22. In this way it is easily possible to also form multi-layer switch panels.

Claims (5)

Patent claims: 1. Pressure-actuated electrical switch arrangement, in which on a base made of insulating material at least one contact element is arranged above which a second at a distance Contact element is attached to the underside of a membrane, which is on a pad located, in the area of the contact elements per contact point having a hole having insulating Intermediate layer rests and is covered with a top layer made of an elastomer, characterized in that the intermediate layer (14) has a predetermined constant Has thickness and consists of a dimensionally stable, the retirement of two related Contact elements (12 and 20) with security maintaining Material. 2. Switch arrangement according to claim 1, characterized in that on the base (10) a plurality of contact elements (12) are arranged, which as mutually parallel ,, to each a line (30) connected strips are formed, and that on the underside of the Membrane (18) several contact elements (20) are arranged, which are also parallel to each other running, each connected to a line (32) strips are formed and one Make angles with the first-mentioned strips (12) that in the intermediate layer (14) at each A hole (16) is arranged at the intersection of the two strip groups (12, 20) and that on a frame (28) connected to the base (10) rests on the cover layer (22). 3. Switch arrangement according to claim 1, characterized in that the intermediate layer (14) has a plurality of holes (16), each of which has one on the base (10), is assigned to a respective line connected contact element (12) that the entire Underside of the membrane (18) in a manner known per se with a layer of electrically conductive material connected to a line is coated and that on the cover layer (22) a connected with any shaped base Frame rests. 4. Switch arrangement according to one of claims 2 or 3, characterized in that the top of the membrane (18) opposite the contact elements (20) on their underside Has contact elements and is covered with an intermediate layer in which with the Holes (16) of the intermediate layer (14) resting on the base (10) are arranged aligned holes are that on this further intermediate layer, a second membrane rests on its underside has contact elements that the contact elements on the top of the first opposite said membrane (18) and that on this second membrane the cover layer (22) made of an elastomer. 5. Switch arrangement according to one of the preceding claims, characterized in that that the hole (s) (16) in the intermediate layer (s) (14) has / have a diameter of a size through which a pin-shaped Actuating element (26), e.g. B. a pencil, for - actuation of one contact point or a superimposed pair of contact points is required. 1 sheet of drawings