DE1172760B - Electrical switch assembly responding to pressure from a deformable medium - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 02 c

German class: 21c-40/04

Number: 1 172 760

File number: S 74096 VIII d / 21 c

Filing date: May 24, 1961

Opening day: June 25, 1964

The invention relates to a switch arrangement which responds to the pressure of a deformable medium, especially for use as a transducer in a two-point controller, with a pressurized membrane, an adjustable one acting on the membrane in the counterpressure direction Spring, which determines the switch-off pressure, and a tappet device connected to the membrane, which cooperates with an actuator of a toggle switch and in terms of their distance to the actuator in the absence of pressure for the purpose of setting the differential pressure between Switching on and off is adjustable by an adjusting member.

The known switch arrangements have the disadvantages that they are symmetrical to pressure loading respond and their function is usually based on the design of the switches used.

In a known embodiment, an adjusting screw is located on the operating lever of the without play Switch on. The bias is asymmetrical, so that the response of the switch through its internal Structure or the resulting manufacturing tolerances is determined. The free game between On and off positions also disadvantageously depend on the internal structure of the switch. A precise switch insert cannot be achieved with the known design.

There are also designs with an adjusting screw known that the growth of the Pressure is moved with the corresponding lever, whereby the switch is closed. The actuator this switch is disadvantageously always in contact with the adjusting screw.

But there are also non-prestressed arrangements known that by means of a threaded spindle in their Sensitivity are adjustable, but the setting is not combined with the electrical switch, so that here, too, there are certain inaccuracies, which are also disadvantageous from his internal structure.

The present invention is based on the object of creating a switch arrangement which the disadvantages of the known designs are avoided and in a simple construction only allows absolutely positive switching operations.

The invention consists essentially in the fact that the toggle switch is asymmetrical by an additional spring biased in the sense of a preference for the setting corresponding to the maximum pressure and one connected to the actuator of the switch

At the pressure of a deformable medium
attractive electrical switch arrangement

Applicant:

Ernst Singer, Vancouver (Canada)

Representative:

Dipl.-Ing. H. Görtz, patent attorney,

Frankfurt / M., Schneckenhofstr. 27

Named as inventor:

Ernst Singer, Vancouver (Canada)

Claimed priority:

Great Britain May 24, 1960 (18 349)

dener stop is provided, which together with the adjusting member and depending on its setting a certain game for the plunger device when the arrangement is deflected between one Defines the maximum and a minimum value of the pressure. The invention has the effect, among other things, of that even with a very small deflection of the membrane in the range of the maximum pressure, the toggle switch becomes effective, while on the other hand it only returns to a defined decrease in pressure returns to its basic position. The possible play of the ram device ensures that that the switch responds to a very low differential pressure set at low pressure differences, while if the differential pressures are set higher, the play also increases. Preferably the switching arrangement according to the present invention comprises a further pressure actuated switch which is operated by the pressure element when the pressure exceeds the predetermined pressure and allows means for reducing the pressure to take effect.

The present switching device is designed so that it can be used for a wide variety of purposes can be. It is operated by means of pressure to control an electrical circuit, which is any device required as a result of an increase or decrease in pressure, puts into operation, the switch responding to these pressure fluctuations. The pressure can be against a Diaphragm, a piston or a pressure cell act,

409 627/343

if z. B. this device is connected to a pressure line. The switch operates the electrical one Circuit when the pressure in the line reaches a predetermined value, this circuit regulates the necessary control elements for changing the pressure in the line until the line pressure drops to some other predetermined value. The pressure in question can do the Be pressure in a pressurized can as a function of temperature changes, if z. B. the device is used as a temperature control, or it can be the pressure of a liquid that is on a certain level is regulated.

Further features, advantages and possible applications result from the detailed description Description of various embodiments according to the invention with reference to the drawings. It shows

F i g. 1 is a plan view of a preferred embodiment of the present invention;

F i g. 2 shows a partial section along the line 2-2 of FIG. 1,

F i g. 3 is a side view of the switching mechanism;

F i g. 4 is a partial sectional view taken along line 4-4 of FIG. 3;

F i g. 5 is a partial sectional view taken along line 5-5 of FIG. 3;

F i g. 6 the pressure differential adjusting disk,

F i g. 7 shows a partial side view of a modified embodiment of the setting means;

F i g. 8 is a plan view of the adjustment means according to FIG. 7 and

F i g. 9 details of a further embodiment of the switching mechanism.

In the F i g. 1 through 6 is a preferred embodiment of a push button switch assembly 10 shown with a housing 11. The housing has side walls 12 and 13 and a top wall 15 and a lower wall 16 with a relatively large opening 17 as well as a rear wall 19 and a cover 20, on the front of the housing z. B. is removably attached by screws 21. the Cover is preferably made of a transparent plastic material. Anyone can do it other suitable material can be used.

In the preferred exemplary embodiment, a membrane 30 is used as the pressure element. It understands that this element can also be designed as a piston or pressure cell.

The unit having the membrane 30 is denoted by 23 and with the housing 11 at the opening 17 attached in the usual way. The unit 23 consists of a flange 25 on the housing 11 and a bottom part 26 together. Both parts are circular and the bottom part z. B. by Screws 28 attached to the housing, with the membrane between the flange 25 and the bottom part 26 30 is clamped by bolts 28.

The membrane consists z. B. made of rubber or another material. The unity is therefore with the Housing 11 molded in one piece in such a way that it surrounds the opening 17. The inside of the The housing communicates with the interior of the unit 23 via the membrane 30.

A further O-ring 31 is arranged in the unit in such a way that it rests against the underside of the membrane 30 rests and forms a bearing for a support plate 33, which is slidable or preferably just free in the annular space 34 of the unit 23 is mounted. The annular space is through a stop shoulder 35 limited in the flange or in the housing. This stop shoulder has one of the membrane certain distance when the membrane 30 is in its neutral or unstretched position.

The bottom part 26 of the unit 23 is designed so that below the membrane 30 an inlet chamber 39 is present and it has a shoulder 40 with an internal thread, which extends from the center of the bottom part extends downwards. The end of the extension 40 is preferably from the chamber 39 through a Wall 41 closed with the exception of a small opening 42 in this wall.

The membrane 30 forms the pressure element for the pressure-actuated switch 10. In the illustrated Switch arrangement, pressure medium is fed through a line to a projection 40. The medium pressure then lies on the underside of the membrane 30. The opening 42 merely protects the membrane in front of it sudden increases in pressure, it acts as a throttle opening.

Inside the housing 11 is a counteraction against the movement of the membrane 30 Counter pressure means in the form of a main spring 50 is provided, which is between two cup-like stops 51 and 52 extends. The lower stop rests on the head 54 of a screw 55 which is in turn screwed into a shoulder 46 on the support plate 33. The bias of the spring 50 can be adjusted by a screw 59 in a shoulder 60 on the top wall 15 of the housing 11 will.

Furthermore, an actuating unit is provided within the housing 11 near the membrane 30, which has a lever 62 and an actuating member 65. The toggle lever has a lower lever arm 63 and an upper lever arm 64, the lower arm 63 close to the membrane 30, namely parallel to it is arranged and forked in legs 66 and 67. The legs extend around the screw 55 and below its head 54.

The actuator 65 has a longitudinally extending channel shape with side walls 68 and 69, which are connected by a web 70. Lever 62 and actuator 65 are also by means of a pivot pin 71 articulated, which in turn is appropriately supported in the housing.

Lever 62 and actuator 65 are therefore mounted on a common axis. With a relative Movement of the lever 62 with respect to the actuator 65 will move the upper lever arm 64 into the through the side walls 68 and 69 formed recess of the actuator 65 rotated in and out.

A protruding stop 72 is provided on the side wall 68, which stops the rotation of the lever 62 limited about the axis of rotation 71 relative to the actuator 65 counterclockwise rotation.

The clockwise movement of the lever 62 is controlled by a further adjustable adjustment arrangement limited, which consists of an adjusting screw 74 with a shaft 75 which is in the wall 68 of the Actuating member 65 is screwed and a pin-shaped Has extension 77, which extends from a shaft 75 following conically shaped portion 76 stretched out lengthways. The free end of the pin 77 extends through an opening in the wall

I 172 760

69 and is flexible in this position by a spring 78 via a washer 79 and a split pin 80 held. The conical shaped portion 76 of the screw 74 can be connected to the upper end 73 of the Lever arm 64 cooperate in such a way that this causes the movement of the lever 62 in a clockwise direction is limited relative to the actuator 65. The extent of the relative movement can be determined by rotation the adjusting screw 74 can be determined. If minimal relative movement is desired, this is the Adjusting screw 64 to move by turning inward into a position in which the conically shaped Section 76 cooperates with the upper end of the lever arm 64 and the arm against the stop 72 brings up. In this case, no free movement between actuating member 65 and lever 62 is possible; they move as a whole.

If the lever 62 is to be able to move relative to the actuating member 65 , then only the adjusting screw 74 has to be turned counterclockwise, as a result of which the conically shaped section 76 is released from the upper end of the lever 62. The lever can now move freely between the stop 72 and the section 76. In this way, any desired extent of free movement of the lever 62 relative to the actuating member 65 can be selected within predetermined limits by a corresponding adjustment of the adjusting screw 74.

To facilitate a desired setting, the head 82 of the adjusting screw 74 has a pointer 81, which is attached to a correspondingly calibrated scale on the surface of the wall 68 83 deletes.

The amount of relative movement between lever 62 and actuator 65 controls the pressure differential across the switch. If z. B. the pressure control should be set to 25 kg / cm ² and a pressure difference of 5 kg / cm ^{2 is} required, the tension of the main spring 50 is set so that it ^{exerts a pressure of 25 kg / cm 2} and the adjusting screw 74 so rotated so that the lever arm part 73 does not cooperate with the conically shaped portion 76 until the pressure rises ^{to 30 kg / cm 2.} In this way, it is therefore possible to obtain any desired pressure differential by turning the differential set screw 74.

Between the lever 62 and the membrane 30 is still z. B. a spring 84 is provided between a shoulder 85 on the support plate 33 and the underside of the ends of the forked lever arm 63 is mounted, which is thereby pressed against the head 54 of the screw 55. The spring 84 forms a automatically working centering for the support plate 33, such that the circumference of the latter always is kept free within the space 34 of the unit 23. For this purpose sits the lower end of the Spring 84 on a tapered portion 86 of protrusion 56.

In the housing 10, a toggle switch 87 is also attached to an arm 89. This switch is with aligned with and spaced from the top of actuator 65. He owns an actuator pin 88 protruding from the switch and cooperating with the actuator. The toggle switch 87 is a well-known commercial version, in which a certain force to Actuation is required. The pin then returns to its original position with a smaller force.

An angle 91 is also attached to the switch housing, into which a retaining spring 90 is suspended at one end, while its other end is attached to the actuating member 65.
As a modification of this, one end of the spring 90 can also be adjustable or z. B. be attached to the wall 13 of the housing 11 with a screw. The function of the spring 90 is to keep the actuator with the switch pin 88 in contact

ίο hold, and she's chosen to hit the Shift rod 88 exerts a force which is smaller than the switch actuation force, but is greater than that Switch reset or return force. The spring 90 therefore causes the switch pin 88 to be in its actuated position is held when it has been moved by the actuator 65 into this position.

In an alternative embodiment to the present invention (not illustrated) the retaining spring 90 by a magnet which is attached to the switch 87, and by one with it cooperating opposite pole, which is attached to the actuator 65, replaced. If desired, Instead of a separate pole piece, the actuating member can also be made from a suitable one magnetic material so that it acts as a pole piece itself. With this arrangement the strength of the magnet selected so that it normally attracts the actuator and it holds in cooperation with the switching pin 88 with a force which is smaller than the switching actuation force, but is greater than the switch reset or return force.

The main spring 50 acts, as mentioned, the movement of the membrane 30 and thus the fluid pressure effect at inlet 40 opposite. The spring loading of the pin 88 counteracts the spring 90.

The switch 87 can be in an electrical circuit (not illustrated) and open it or close. If the pressure-operated switch assembly 10, the pressure increase over a predetermined Preventing value beyond, the circuit controlled by switch 87 becomes any suitable Activate the device, the function of which is to reduce the pressure.

In the housing, a second toggle switch 95 is also attached near the membrane 30, wherein preferably its position is adjustable. One end of the switch 95 is on a protrusion the rear wall 19 of the housing pivotally mounted, while the other end of the switch at 99 with the lower end of an arm 100 is hinged, the upper end of which is tapered and with a Screw thread 102 is provided. The tapered end protrudes through the top wall 15 of the housing. There is a button on the protruding end

103 screwed on. Between the end of the arm 100 and the inside of the housing is a spring

104 provided.

The toggle switch 95 also has a downwardly extending actuating pin 106, the free End with the surface of the support plate 33 cooperates. With this arrangement, the switch 95 when the support plate moves upward a predetermined amount through the membrane 30 is moved, can be actuated. This switch can control an electrical circuit that also controls the mechanism or device for changing the pressure, or it can

otherwise serve a useful purpose. In other words, the switch 95 can be used as a safety switch act so that if anything occurs at switch 87 and it is not operated at the time when the pressure reaches a level at which the switch 10 is set, so that a further pressure increase in the pressure line operated the switch 95 in order to still exercise the required control function to be able to. The switch 95 is operated before

increases, the support plate 33 moves further upward while further rotation of the lever 62 and the Actuating member 65. If its further rotation as a result of interaction with the switching pin 88 ver-5 is prevented, the further upward movement of the support plate 33 due to the opposing force of Transfer spring 84 prevented. The spring 84 allows this plate movement without Damage to switch 87 continues. If the

the support plate 33 is moved upwards so high that the overpressure reaches a predetermined value,

that it rests against the shoulder 35 in the housing. When, as is dictated by the spring 84, begins

therefore z. B. both switches fail and the pressure, the support plate 33 is up against the pressure

rises further, the support plate is detached from the shoulder of the spring 84 in cooperation with the pin 96

35 held before moving the various elements of the switch 95 to the latter

Switch 10 destroyed by the excessive pressure 15 press. The amount of overpressure required

will. to operate the switch 95 is by the spring

The operation of the illustrated switch assembly 84 is ceased, and by appropriate selection of this spring

10 is very easy. The pressure of the main spring 50 can this overpressure within certain limits

is changed by turning screw 59 to be varied. The switch 95 can therefore be used as a

the pressure at which the switch is to operate, e.g. B. serve 20 safety switches in the event that the

set at 25 kg / cm ² . Therefore, if the pressure switch 87 fails when the pressure reaches the level

reaches the set height against the membrane 30, is sufficient to which the switching device is set

the membrane moves against the pressure of the Fe- is. Another surge in pressure as he went through

The 50, this movement against the spring 50, the spring 84 being determined, causes an actuation

is transmitted via the screw 55. Movement 35 of switch 95.

the membrane 30 is transferred to the lever 62. As an example of the actuation of this pressure control, which now operates independently of the actuation, assume that the switch actuating member 65 rotates until the upper end of the lever 62 with force 300 g and the reset or Return force of the conically shaped section 76 of the adjustment 180 g and that the retaining spring a force of screw 74 cooperates. The movement path 30 exercises 240 g. In this case a force of 60 g corresponds to the desired pressure regulation interval. required to operate the switch. A further movement of the lever 62 therefore takes the lever 62 inwardly around its rotary actuator 65, whereby the pin 88 up to the axis when the pressure in the line 45 is shifted via the actuation of the switch 87. The pressure set by the spring 50 rises and actuation of the switch causes the control of a 35 therefore moves the diaphragm upwards. The first controlled circuit for a device for part of the lever movement is free until the pressure change exerted. The spring means of the switch 87 pressure the desired maximum, which are designed such that when the switch is set an adjusting screw, whereupon the time is actuated, a smaller reset or return lever with the conically shaped portion 76 is reached the sweeping force is exerted on the pin than when its adjusting screw 74 interacts. After that, moving impressions had been necessary. If the pressure drops, the actuating element with the lever and exerts, the diaphragm moves downwards, and the pressure on the switching pin 88 increases. When the pressure exerted on the actuating member via the lever by the main spring 50 reaches the forked end 62, the switch of the lever arm 63 is downwards to thereby actuate the last 45 and remains in it Position. If the ren falls to return to its original position. During the initial part of the return axis, the lever rotates outwards, but the actuator remains stationary as movement of the lever 62 moves it independently the restoring force of 180 g is insufficient to that of the actuator 65. When the pressure but to overcome retaining spring tension of 240 g. Even if it is reduced to the desired setting, the lever with the stop 72 on the operator lever 62 actually works together with the stop 72 of the actuating actuating member 65 and takes the latter member 65 together. The lever then continues
swing outward, but the actuator remains stationary until opened by the lever
the force exerted is the difference between the force 55
the retaining spring 90 and the restoring force of the switch exceeds. This arrangement changes
the pressure to the desired level as it goes through
the main spring 50 is set before the pressure changing device is inoperative due to the 60 that serves to limit the movement of the lever 62, movement of the pin 88 of the switch 87 in the rearward direction. The adjusting screw is locked in reverse position. by means of a spring attached to the wall 68

It has been shown that the operation of the switch wire.

acts on an electrical circuit, which in another embodiment of the

in turn a mechanism or a device according to the invention according to FIG. 9 shows the release

device to reduce the line pressure controls. unit on a lever 116, which with its one

However, if for some reason the pressure end 117 hinged to the side 112 of the housing

above the value set by means of the screw 59, while its other end has an

with. When the force acting on the actuator
exerted via the lever exceeds 60 g
the switch pin returned to its normal position.
The above description explains only one
Embodiment of the invention. There are many
Variations possible. For example, FIGS. 7
and 8 a modified adjusting screw 110, whose
one end has a conical end portion 112,

impact 118 has. An L-shaped actuating member 120 is hingedly attached at one end to the lever 116. The other end rests against a pin 122 of a toggle switch 124, corresponding to switch 87, under the tension of a spring 126 . The spring 126 is normally effective to urge the actuator against the switch pin 122 with a force less than the switch actuation force but greater than the switch reset or return force. An adjusting screw 128 , which is screwed into the lever 116 , protrudes through an opening 130 in the actuating member 120. The head 132 of the screw 128 acts to limit the relative movement of the lever 116 and the actuator 120 in one direction, while the stop 118 limits the relative movement in the other direction. The range of relative movement between lever 116 and actuator 120, and hence the range of pressure differential of switch 10, can therefore be varied by adjusting screw 128. If desired, such a screw construction can be used between the lever 116 and the follower 120 in the first-described embodiment according to the invention instead of the stop 72.

The invention allows many variants. It is not limited to the exemplary embodiment (s) shown limited.

Claims (9)

Patent claims: 1. Electrical switch arrangement responding to pressure from a deformable medium, in particular for use as a transducer in a two-point controller, with a pressurized membrane, an adjustable spring acting on the membrane in the counterpressure direction, which determines the switch-off pressure, and a plunger device connected to the membrane, which with an actuator of a toggle switch interacts and is adjustable with regard to its distance to the actuator in the absence of pressure for the purpose of setting the differential pressure between switching on and off by an adjusting member, characterized in that the toggle switch (87) by an additional spring (90) asymmetrically in the sense of a preference the setting corresponding to the maximum pressure and a stop (72) connected to the actuating member (65, 88) of the switch (87) is provided, which together with the adjusting member (74 to 77) and depending on its setting a bes determines the correct play for the plunger device (62, 64) when the arrangement is deflected between a maximum and a minimum value of the pressure. 2. Switch arrangement according to claim 1, characterized by resilient compressible means (84) between the plunger means (62, 64) and the membrane (30), which counteract the movement of the membrane (30), the compressible means being weaker than the pressure means. 3. Switch arrangement according to claim 1 or 2, characterized in that the switch has a requires a predetermined operating force and a smaller return force. 4. Switch arrangement according to one or more of claims 1 to 3, characterized in that that the plunger means an articulated lever (62) and the actuator (65), the latter being movably coupled to the lever. 5. Switch arrangement according to claim 4, characterized in that the lever (62) as Knee lever is formed and a lower arm (63) near the membrane and an upper arm (64), which is connected to the lower arm, with the toggle lever at the connection point of the two arms is articulated. 6. Switch arrangement according to claim 4 or 5, characterized in that the lever (62) according to Reaching a predetermined limit is carried along by its actuator (65). 7. Switch arrangement according to claim 6, characterized in that the switching pin (88) of the toggle switch (87) by the actuating member (65) in the actuating position via a predetermined movement of the lever (62) beyond one of the limits and into its normal position is moved back over a predetermined movement of the lever beyond the other of the limits. 8. Switch arrangement according to claims 4 to 7, characterized in that the actuating member with its one end on the lever is articulated. 9. Switch arrangement according to claims 1 to 8, characterized by a second toggle switch (95) which is attached near the membrane (30) and from it after a predetermined movement can be operated due to overpressure. Considered publications:
Austrian Patent No. 187,968;
Swiss Patent No. 348 741;
French Patent No. 1103,986;
U.S. Patent No. 2,782,272. 1 sheet of drawings 409 627/343 6.64 ® Bundesdruckerei Berlin