DE2302278A1 - PRESSURE DEPENDENT ELECTRIC SWITCH - Google Patents

Description

Patent attorneys Dipl.-Ing. W. Scherrmann Dr.-ing. R. Roger

73 Esslingen (Neckar), Fabrikstrasse 9, PO Box 348 January 17, 1973 ^Telephone

_, _, -Ε- ... Stuttgart (0711) 356539

PA 55 muk

Telegrams patent protection Essilngennecfcar

23D2278

Eaton Corporation,

100 Erieviev / Plaza, Cleveland, Ohio, 44114 / üS'a

Pressure sensor electrical switch

The invention relates to a pressure-dependent electrical Switch with a switching spring which is movably arranged between two adjustable contact arms is. · ·

The use of pressure-dependent electrical switches, z. B. to adjust the level in a container, has long been known and common. There are also known devices that allow the automatic adjustment of the filling level between an upper and a lower filling level under certain conditions serve for the z. B. the following terms are known: switching on at a constant filling level, with constant difference in filling heights and with proportional! Ratio of the fill levels.

When "switching on at constant filling level", the ratio of the upper and lower filling level is such that the under-2 filling level or the pressure remains unchanged while the upper filling level or the pressure changes vjird. "Switching on with constant difference in filling heights" denotes the state, with cen the difference zv / ischen the high and low pressure bz * ·, *. the

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Filling levels remain unchanged, so that when the upper filling level increases or decreases, a predetermined, constant difference remains between the lower and upper filling levels. With the "switch on at proportional ¹ : ratio of the filling heights" causes an increase or a decrease in the upper filling level or pressure, a proportional increase or a decrease in the lower filling level or, pressure, so that z. B. with an increase in the upper filling level, the difference between it and the lower filling level increases proportionally.

In the prior art, these different pressure or the filling ratio is not achieved by a single pressure-dependent electrical switch; Rather, extensive changes to a basic switch design are required in order to be able to use it in Reality to achieve Sehalter with different structure. It can also be used with the well-known pressure-dependent electrical switches do not combine these different ratios of fill levels with one single version of a pressure-dependent electrical switch achieved v / ground.

It is particularly advantageous to use the subject matter of the invention in automatic washing machines, of which what is required is that a wide range of fill levels be easily and accurately from a possible small, as possible economical and possibly ^ easy and safe to use Switching element is observed. Lately these fascines have grown considerably in size; therefore it has become more important to keep the water level in the To be able to adjust machines over a wider range, and thus those with a larger capacity equipped machines to operate over a wide loading area. So it is z. B. no longer

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• unusual, the filling height of the water of about 10 cm to change with a small load up to 45 or more with a full load. Because of this requirement a greater value implies a higher degree of accuracy, stability and operational consistency the smallest possible dimensions of the switch. It also has the need for higher engine power let the electrical power increase; thus have the effects of contact bruise and the resulting contact welding as well as the noise generation increased.

The object of the invention is to create a pressure-dependent electrical switch that allows the various fluid level conditions mentioned can be set optionally, and the next to it characterized by a simple, reliable and, in particular, bounce-free structure.

To solve this problem, the switch is according to Invention characterized in that it is a co: clock limiting device with a first cam adjusting device, by means of which the first movable contact arm can be adjusted, and with a second Cam adjusting device through which the second movable Is adjustable contact arm, and that thereby the contact point between the switching spring and the contact arms is changeable.

Here, the contact limiting device can expand a third cam adjusting device through which the Movement of the switching spring with respect to the first and the second movable contact arm is controllable. The arrangement can also be made such that the first, the second and the third cam position

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direction each have two spaced apart surfaces on the contact limiting device, the position of the switching spring and the movable contact arms can be adjusted by adjusting the contact limiting device. It is advantageous if the contact limiting device is an essentially cylindrical body, the first cam adjusting device is a groove arranged on the outer surface of the rotatable body, in which part of the first contact arm is guided, and the second cam adjusting device is one on the outer surface of the rotatable body arranged groove is / in which a part of the second movable contact arm is guided, and if the third cam adjusting device is also a groove on the cylindrical surface of the rotatable body, in which a part. the switching spring is guided. The opposing surfaces of the cam actuating device can guide a part of the first contact arm, the opposing surfaces of the second cam actuating device can guide a part of the second contact arm and the opposing surfaces of the third cam actuating device can guide a part of the switching spring, the opposing surfaces of the cam actuating devices in each case have a distance that allows limited movement of the contact arm or switching spring ends guided by them. It is also advantageous if the switching spring is connected to a pressure-dependent actuating device, by means of which the switching spring can be moved in two opposite directions as a function of changes in pressure, and if the switching spring is connected to elastic pretensioning means that counteract the movement generated by the pressure-dependent device counteract the switching spring in one direction and support this movement of the switching spring in the opposite direction. The by the Vorsoannunqs-

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means exerted force can be adjustable, so that the to. Operation of the pressure-dependent device required Pressure is changeable. The new switch can have a membrane in the pressure-dependent device have which delimits a pressure chamber which can be connected to a variable pressure source, wherein the membrane can consist of a polyurethane film. The opposing faces of the Cam actuators may be spaced apart allowing movement of the first and second contact arms, exhibit. The first and second contact arms can move towards each other and towards the intermediate one Switch spring be pretensioned. They lie on the inner surface of the first and the second, respectively Cam dividing device on, so that depending on from the contact with the switching spring a part thereof between the opposing surfaces of the Can move cam actuator, the rapid movement of the switching spring is stopped, and the contact arms rest against the outer surface of the cam adjusting device and rest on one side of the switching spring. The controlled movement of the contact arms between the inner and outer surfaces of their associated Crouching device significantly reduces the incline to the occurrence of a contact bruise and noise generated by the contacts. By changing the The angular position between the contact arms and the switching spring can be used to set the extent to which the contacts rub against one another will. This amount of slack is important because it causes a force amplification through which broke any contact welds between the contact points during their contact will.

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In order to maintain a constant difference between the lower and the upper filling level, the opposing surfaces of the first and second cam adjusting devices can be arranged essentially parallel to one another, so that the difference between the high and the low pressure or filling level remains unchanged. If switching on at a constant filling level is to be achieved, the opposing surfaces of the second Nockenstelleinrichtüng can be arranged so that when the contact limiting device is rotated, the second contact arm remains essentially in its previous position, while the first cam actuator is adjusted as it is for the predetermined upper fluid level is required. In order to achieve a proportional ratio of the filling levels, the first and the second cam positioning devices are adjusted in a proportional relationship to the rotational movement of the contact limiting device in such a way that, for example, when the upper filling level rises, the difference between it and the In addition to being able to set these basic conditions, the first, second and third cam actuators can be modified as needed to set virtually any ratio or combination thereof of the pressure-dependent electrical switch can also be opened quickly in order to install a new and / or a different i'zn clock limiting device that enables this wide range of applications.

Particular advantages of the new switch are that the switching speed depends on the speed of the iJeinbran depends on what, because of the low speed, the switching process takes place without contact bouncing. In addition, is the one resulting from the contact opening

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Arcing is significantly reduced in that the opening speed of the contacts is adjustable, while the known type of switch Contact bruise occurs at such a high speed that severe arcing occurs. The crouching devices on the contact limiting device result in a positive stop for the contact arms and the switching spring within a range of practically infinitely finely adjustable different Locations. This allows a simple adjustment of the Meir the switching spring acting force depending on the adjustment path of the switching spring-reproducing curve is significantly improved in that it is precisely the section of the curve that can be selected which is favorable for the respective case. In addition, the ones attached to the cam actuators make it easier Stop surfaces the calculation and design of the switch in order to meet the required conditions. In addition, since all forces are transmitted directly through the contact points, the contact forces are very high generated, with which larger electrical outputs switchable and bouncing phenomena as well as some others Difficulties with known switches are prevented.

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In the drawing are exemplary embodiments of the Subject of the invention shown. Show it:

.Figur 1 a washing machine with a pressure dependent electrical switch according to the invention in a schematic representation, "

Figure 2 shows a pressure-dependent electrical switch for installation in a washing machine according to Figure 1, in axial section in a side view in one different scale,

Figure 3 shows the contact limiting device of the switch · according to Figure 2, wherein the Switching spring is shown in the working position compared to the rest position according to Figure 2 / in a side view /

FIG. 4 shows the contact limit device of the switch according to FIG. 2 in another Embodiment in a side view /

FIG. 5 shows a diagram in which the force is shown over the adjustment path of the switching spring is,

FIG. 6 shows a diagram to illustrate the Xias ε acquisition over the setting of the Contact limiting device and

Figure 7 is a diagram to illustrate the Water level or pressure above the setting of the contact limiting device,

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Sheet j ₀

In the washing machine shown schematically in FIG. 1, there is a pressure-dependent electrical switch 10 provided according to the invention, which is in communication with an inlet 12 with a pressure line 14, which are connected to a washing machine container 20 is. Pressurized water can be supplied via an inlet pipe 22, which is operated by a magnetically actuated Valve 24 can be opened or closed, which has appropriate electrical connections is connected to the pressure switch 10? here the magnetically operated valve 24 is through the Pressure switch 10 controlled. If the valve 24 is open, then water flows through the inlet 23 in the washing machine container 20 so that the washing machine container is filled to a certain level. The washing machine container 20 has a conventional drain 30 and a pump 32 for pumping out the water.

The filling height or the filling height range in the washing machine container 20 is indicated by an arrow 36 which extends from the bottom of the washing machine container 20 to the required upper water level 37. In a washing machine, it is important to keep the water level at two levels. The first height corresponds to the point at which the water is switched off after the washing machine container 20 has been filled, the second. Point indicates the limit value for the lower water level 38, at which the switch Ί0 trips and the periodic water supply is switched on. <'± t help of the invention, both of the required upper ^T * ^T asserFtand 37 are adjusted and the lower water level 33 easy and simple so that the ratio of the water levels corresponds to 37 and 38 values, "proportional to as" constant difference " Difference "or" constant setting "

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are known. It is a quirk of the invention / that changes in these combinations are also possible. These relationships are detailed below explained:

Because of the demand for washing machines with ever larger capacity it has become increasingly important _for being able to change in the washer tank 20 wide on a right area 35 the water level, because the machine also has to work with large capacity, a very small load. So found z. B. Changes in the lower water level 36 between about 10 cm with a low load and about 45 cm or more with a full load are not unusual. In addition, more and more importance is attached to the exact setting of the water level and the exact adherence to it. Summing up these requirements, a pressure switch of a very small type is required, which is easy to use. Housing of the washing machine can be installed.

All of the above requirements are met by the pressure-dependent electrical switch 10 .

In Figure 2, the pressure-dependent electrical switch 10 according to the invention is enlarged in cross section shown. The pressure sensitive electrical switch 10 includes an expandable pneumatic pressure chamber 15, which on the one hand is connected to the pipe 14, and a part of which is delimited by a membrane 16.

The membrane 15 is via a transmission device connected to an elongated, tongue-like switching spring, so that movements of the membrane 16, which in

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Sheet WM

Depending on pressure changes in the pressure chamber take place by means of the transmission device 17 the switching spring 40 are transmitted. A first contact arm 50 is below on one side of the switching spring 40 arranged inclined at an angle to the switching spring 40. This first contact arm 50 has a contact point 52 on. A second Kontrktarm 60 is on the other side of the switching spring 40 at an angle to this mounted inclined. The second contact arm 60 has a contact point 62. Both contact arms 50, 60 can be designed in the form of elongated, flexible parts. The contact arm 50, the contact arm 60 and the switching spring 40 engage with a part in a first Cam adjusting device 55, or in a second cam adjusting device 65 or in a third ITocking device 45 a. These Iocking devices 55, 65, 45 are arranged on a contact limiting device 70; they determine the permissible movement of the corresponding contact arms 50, 60 and the switching spring 40. The contact limiting device 70 can be rotated, as shown, in a housing 11 of the pressure-sensitive electrical oil Switch 1 <"> arranged.

A tension spring 80 is at one end 81 with the switching spring 40 and at its other end 82 with a Actuating device 85 connected, by means of which the bias of the tension spring 80 can be changed. The spring package of the Tension spring 80 counteracts the force which is generated by the transmission device 17 when the pressure rises Pressure chamber 15 acts on membrane 16. To this The spring force acts on the increasing force on the membrane 16, which is transmitted by the transmission device 17 counter to the tension spring 80 until the force acting on the transmission device 17 changes the spring force the tension spring exceeds 80; at that point the Switching spring 40 from the closed contact position

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or rest position according to Figure 2 in the open contact position or working position according to Figure 3 transferred. The contact arms 50, 60 and the switching spring 40 are electrically conductive, so that when the switching spring 40 is switched from the contact arm 50 to the contact arm 60 Depending on the pressure change in the pressure chamber 15, a circuit is interrupted and another is closed will. The pressure-dependent electrical switch 10 normally acts as a converter that converts a hydropneumatic function into an electrical function. If the water level 36 in the washing machine container 20 according to FIG. 1 rises, the water column also rises in the tube 14, bringing the air into the upper end of the tube is pressurized. This pressure acts on the diaphragm 16 in the pressure-dependent electrical Switch 10 on and moves the membrane 15 in dependence from the pressure applied. This creates the electrical circuits, in which the switch spring and the contact arms 50, 60 are open or closed. As soon as the water level 36 has a water level 37 has reached, which in particular by the respective position of the first cam adjusting device 55 and the third tocking device 45 on the contact limiting device 70 is determined, the membrane 16 overcomes under the action of the pressure in the pressure chamber 15 a predetermined bias of the tension spring 80, with which the switching spring 40 from the first contact arm 5O is moved away, which is part of the circuit of the solenoid operated valve 24 forms for the flow of water into the washing machine container, and closes the Circuit with the normally open contact arm 60; through this is another inflow of water into the washing machine tank 20 switched off. When the water level drops and with it the pressure in the pressure chamber 15 decreases, the diaphragm 16 is moved in such a direction that the contact between the switching spring 40

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and the contact arm 60 is interrupted and the contact between the switching spring 40 and the contact arm 50 will be produced. The solenoid-operated valve 24 is thereby emptied of voltage; the water level in your washing machine container 20 rises again to the upper water level 37 has been reached. At this point the cycle begins again.

The three cam adjusting devices 55, 65 and 45 each have opposite one another in pairs inner and outer surfaces 56, 57, 66, 67 and 46, 47 on. Each of the cam actuators 55, 65 and 45 engage between the inner and outer surfaces the respectively assigned contact arms 50 or 60 or the switching spring 40 with a part 50 a or 60 a or 40- a a. In this arrangement, by rotating the contact limiting device 70, the relative position the contact arms 50, 60 and the movable switching spring 40 can be changed to one another. The opposite Surfaces of the cam adjusting devices each have such a distance from one another that that movement of the associated contact arms 50 and the switching spring 40 within certain limits is possible. As shown in Figures 2, 3 and 4, the contact limiting device 70 in the form a substantially cylindrical, rotatable member, the first cam adjusting device 65 in the form of a groove on the outer surface of the cylindrical organ is formed into which a Part 50 a of the contact arm 50 engages. Similarly, the second cam actuator 65 is on the essentially cylindrical outer part the contact limiting device 70 arranged, wherein the part 60 a of the second movable Kontakterias 60 engages in this cam adjusting device.

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The third cam adjusting device 45 is also as a groove on a cylindrical iiantelflache of the Contact limiting device 70 formed, with aas part 40 a of the switching spring 40 with this cam adjusting device is engaged. If the contact limiting device 70 is removed from the housing by means of a outstanding part 70 a rotated, the position of the first contact arm 50 is in relation to the essentially unchangeable position of the '-second Contact arm 60 changed. This change in position of the first contact arm 50 causes a jjiderung of Position of the switching spring 40 when üese in the rest position is, so that the opposing forces acting on the transmission device 17 on the switching spring 40 acting forces are changed, and thus the upper water level 37 is changed. Appropriate Measuring and / or display devices can be provided in connection with the contact limiting device 70 in order to be able to set the corresponding water level optionally. In the illustrated embodiment the collars 70 b and 70 c between the cam adjusting devices 55, 65 and 45 are to be interpreted as wide and to be designed in such a way that perfect operation is guaranteed and that it is tailored to the size the contact points 52, 62 and 42 is given. The first contact arm 50 and the second contact arm 60 can through Devices not shown in lease towards one another and towards the switching spring 40 lying therebetween be biased so that they rest against the outer surface 57 and the inner surface 66 when they are not with the switching spring 40 are in contact. As soon as the switching spring 40 snaps into engagement with the first contact arm 50, it moves the contact arm against it inwardly directed bias and causes the part 50 a on the inner surface 56 egg first cam adjusting device 55 comes into play. As soon as the pressure in the pressure chamber 15 is high enough, the switching spring 40 toggle and make contact with the first; * contact arm

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Sheet m

To interrupt 50, the part 5O a of the first contact arm 50 resumes its starting position in which it rests against the outer surface 57 under prestress. In the case of the second contact arm 60, the switching spring 40 has the effect that the part 6O a is brought into contact with the outer surface 67 after it had previously been in pretension against the inner surface 66, as can be seen from FIG. The inwardly directed biases of the contact arms 50 and 60 have the effect that the switching spring 40 is delayed at the end of its snap movement and is accelerated at the beginning of its switching movement. This ensures that the contact bruise is reduced or completely eliminated, and the generation of noise is also reduced to a minimum. The forces between the contact arms 50, 60 and 40 are transmitted through the contact points 52, 62 and 42, so that an excellent electrical contact results with corresponding improvements in terms of noise generation, switching performance and general operational safety. The angular position of the contact arms 50, 60 in relation to the switching spring 40 and their curved relative movement cause the contact points 52, 62 and 42 to rub against one another. This grinding brings about the creation of a force amplification, by means of which contact wear that has arisen between the contact points during their contact is broken up. This is particularly important with regard to switches of this type with higher electrical power. It is another unique feature of the invention that the angular position of the contact arms 50, 60 relative to the switch spring 40 can be changed to change the dragging of the contact points. In this case, the grinding can be switched off completely and the friction that occurs in the device due to the grinding of the contact points can be theoretically eliminated.

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The transmission device 17 can be an elastic, spring-like component, which during the initial movement the membrane 16 and before overcoming the elastic spring force of the tension spring 80 by the Membrane force · stores energy so that after overcoming the spring force of the tension spring 80 the transmission device 17 releases its energy again and the switching spring 40 2V7ischen the contact arms 50 and 60 can be snapped over effectively. It goes without saying that the resilience of the transmission device 17 in relation to the tension spring 80 and the force on the membrane 16 can be designed so that the movement characteristics of the switching spring 40 accordingly will be changed. The transmission device can therefore be dependent on the respective required holding characteristic from very stiff to very elastic construction. It becomes clear that by simply changing this one part an adaptation and modification of the new one Switch can be reached.

With the aid of the invention described above, water levels can be changed easily and precisely. Another example for the range of possible changes with the aid of the contact limiting device 170 shown in FIG is explained in the following: Here, the first contact arm 50 engages in a first cam adjusting device 155 a, the second contact arm 60 in a second cam adjusting device 165, and the switching spring 40 rests against the third cam adjusting device 145. The surfaces 156, 157 of the first cam actuator 155 and the surfaces 166, 167 of the second cam actuator 165 run in this. However, fall parallel to each other. This creates a constant difference between reached the upper and lower water levels, even if the water levels themselves change. With the help of other contact limiting devices, all are only possible Realize conditions of water levels. This allows for a wide range of possible changes and achieved a high level of adaptability. So can ζ. B.

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with the help of a laterally attached projection 172 in the third cam adjusting device 45 or 145 the Switching spring can be pressed by hand against the first contact arm 50, in order to thereby reduce the automatic pressure dependency turn off. A wide variety of other possibilities of discovery are conceivable.

In Figure 5, the force transmitted to the switching spring 40 by means of the transmission device 17 is above the Adjustment travel of the switching spring 40 applied; here it is shown that it is possible due to the invention is, a part of a normal Kippbex excitation curve to select. The tilting movement curve is at 90, the upper water level or the response line at 92 and the lower water level or the switch-on line indicated at 94. Line 95 shows that the pressure builds up on the switching spring 40 at the contact limit assigned to the rest position of the contacts, until response point 96 on response line 92 is reached. The switching spring begins at this point 40 to move, the force decreasing until the switching arm 60 is reached (see. Fig. 2). In this At point, the force increases again, as shown by line 97. In fact, the lines give 95 and 97 the limits of movement of the switching spring 40 again. It is thus possible to select any area of curve 90, which is in section 98. In addition, this selection can be made easily and accurately.

In Figure 6, the water level is plotted against the setting of the contact limitation device 70, the it allows different ratios between the upper and lower water level to be set. So are z. B. that The ratio of the water levels at a constant lower water level is shown by the lines 100 and 103, with a constant difference in the wet levels through the lines 102 and 103 and with a proportional difference through

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lines 101 and 103. In all cases, line 103 indicates the upper water level or the response line, while lines 100, 101 and 102 show the lower water level or the switch-on line.

FIG. 7 shows another example of possible changes in the response and switch-on lines based on Lines 110 to 117. Here the lines 110, 111 a possible course, the response line again, whereas the line 112 reveals another possibility .. Similarly, lines 113 to 117 show various alternative ways of finding the lower one Limit of the water level or switch-on line. From the preceding description of the invention it follows that that many problems of the prior art arise from the pressure sensitive electrical switch 10 according to the invention be solved.

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Claims (12)

Sheet f # claims 1.) Bridge-dependent electrical switch with a ~ "" 'Switch spring that is movable between two adjustable Contact arms is arranged, characterized in that it has a Kontaktbeerrenzungsvcrrichtung (70) with a first cam adjusting device (55), by means of which the first movable contact arm (50) can be adjusted is, and a second cam actuator (65) through which the second movable contact arm 60) is adjustable, and that thereby the contact point between the switching spring (40) and the contact arms (50, 60) can be changed. 2. Switch according to claim 1, 'characterized in that the contact limiting device (70) has a third cam adjusting device (45) through which the Movement of the switching spring (4O) with respect to the first and the second movable contact arm (50, 6O) is controllable. 3. Switch according to claim 2, characterized in that the first, the second and the third cam adjusting device (55, 65, 45) each zttfei at a distance from one another opposite surfaces (56, 57, 66, 67 and 46, 47) on the contact limiting device (70) are, and that by adjusting the contact limiting device (70) the position of the switching spring (40) and the movable contact arms (50, 60) is adjustable. 4. Switch according to claim 2, characterized in that that the contact limiting device (70) is a substantially cylindrical body, that the first Cam adjusting device (55) arranged on the outer circumferential surface of the rotatable body Is groove in which a part (50 a) of the first contact 309830/0497 Sheet Μι + Ό arm (50) is guided, the second cam adjusting device a groove arranged on the outer circumferential surface of the rotatable body is in which a part (60 a) of the second movable .Kontaktarms (60) is guided, and that the third cam adjusting device there is also a groove on the cylindrical surface of the rotatable body, in which a part (40 a) of the switching spring (40) is guided. 5. Switch according to claim 3, characterized in that the opposing surfaces (56, 57) the Nockenstelleinrichtunr (55) a part (50 a) of the first contact arm (50) ,, the opposite Surfaces (66, 67) of the second cam adjusting device (65) a part (60 a) of the second Kontaktarnes (60) and the opposing surfaces (46, 47) of the third cam adjusting device (45) are a part (40a) of the switching spring (40) and that the one another opposing surfaces of the cam actuators each have a distance that is limited Movement of the contact arm or Switching spring ends permitted. 6 * switch according to claim 5, characterized in that that the opposite surfaces of the first and the second. Cam adjusting device (55, 65) run essentially parallel to one another. 7. Switch according to claim 1, characterized in that the switching spring (40) with a pressure-dependent Actuating device (15, 17) is connected by the switching spring as a function of pressure changes (40) is movable in two opposite directions., And that ir.it the switching spring (40) elastic biasing ttel (80) connected to the by 309830/0497 the pressure-dependent actuating device (16, 17) generated ^ movement of the switching spring (40) in one Direction and counteract this movement of the switching spring (40) in the opposite direction support. 8. Switch according to claim 7, characterized in that the exerted by the biasing means (80) Force is adjustable. 9. Switch according to claim 7, characterized in that that the pressure-dependent device has a membrane (16) has, which limits a pressure) camirer (15) that can be connected to a variable pressure source and that the membrane (16) consists of a polyurethane film. 10. Switch according to claim 5, characterized in that the opposing surfaces (56, 57, 66, 67 and 46, 47) of the Fockenstel! Devices (55, 65, 45) have a movement of the first (50) and second (60) contact arms allowing distance that the first (50) and second (60) contact arms are biased in the direction of the switching spring (40) and through the switching spring (40) overcomes the bias of the contact arm (50, 60) interacting with it and this contact arm (50, 60) from one surface of the corresponding cam adjusting device to the opposite Area is transferable. 11. Switch according to claim 1, characterized in that the contact arms (50, 60) and the switching spring (40) are arranged relative to one another at an angle of inclination which is determined by means of the crouching devices (55, 65, 45) of the contact limiting device (70) while changing the grinding of the contact points (52, 62, 42) is variable. 309830/0497 sheet 12. Switch according to claim 1, characterized in that the first (50) and the second (60) contact arm and the switching spring (40) each protruding Ken- ■ have tact points (52, 62, 42) which the contact points of the switching spring (40) with the corresponding Contact arm (50, 60) represent ^ and that each other counteracting forces of the switching spring (40) and the respective contact arm (50, 60) directly can be transmitted through the contact points (52, 62, 42). . 309830/0497 Blank page