DE1665788B2 - PRESSURE SENSITIVE CIRCUIT ARRANGEMENT - Google Patents

Description

3 ' 4

ρ i 2. 2 a longitudinal section through the pressure-sensitive device of variable inductance

The circuit arrangement according to FIG. 1. However, at 16, a winding 40 and an essentially

JO = turned. U-shaped layered magnetically through-

F fs. 3 a cross-section along the line 3-3 of the casual part 34 is formed. The part 34 sits with closer

f j 2 Ϊ with the anchor arrangement. ö Fit in a central opening in the winding 40

Fi o. 4 a cross section essentially and has Schenkeiteile 42 and 43, the ends

four lines 4-4 in FIG. 2 delimit part of the air gap 22 with a part of the movable 44.

Chen anchor arrangement and ~ The anchor 19 has an essentially U-

F '. Ä. 5 a schematic representation of a control iron core 50. made of layered ferromagnetic

Ireisei. which are produced in the pressure-sensitive circuit io-table plates similar to the core 34

»Order is used. ~ can. A substantially U-shaped holding element

The ir. De.u drawings and especially in ment 52 outlines the historical core and is on

fi ₂ . 1 and 2 shown pressure sensitive scarf attached to this. The anchor 19 surrounds a shaft

lunas arrangement 10 ~ has an essentially. 54. which is through the retaining element and the anchor

cylindrical housing part 11 and a closure 12, 15 50 extends. The shaft 54 carries a permanent magnet

ijer in one end of the cylindrical housing part 56. The core 50. the holding element 52_ and the

11 can be used. The circuit arrangement permanent magnet 56 are carried on the shaft 54

10 can be inserted into a housing 13 which is shown in FIG. Ϊ an enlarged part 57 at the front end of the

is only partially shown and which holds a part of the Gc shaft 54, which is used to

housing of a drive with a constant speed of 5 ° gneten 56 to be loaded against a shoulder 58 on the shaft 54

bilriet. The housing 13 has an Aa.-alz 14. lit-MUi. The housing part has 11 in its middle part

A coil 16 is fixed in the housing part 11 and a partition 60 with a substantially right

with an alternating current source through lines 18 angular slot 61 for the sliding reception of the \ bound. An anchor 19 is teelements 52 with a piston 70.

an actuating arrangement 20 connected, which 25 The actuating arrangement 20 is used to respond to the pressure medium in a chamber 21. layered core 50 from its in F 1 g. 1 and 2 used the approach 14 is formed to the anchor showed position, which is referred to as the first position. 19 in one of its bistable positions to move to a position in which it rests on the historical change of the impedance of the coil 16 to the core 42 and which move as a second position, whereby either a slight apparent reflection can be recorded . The actuator arrangement or a high impedance of the coil shows a stepped, essentially cylindrical KoI-Kuct is. The chamber 21 is with the hydraulic benführung 65 on. which sits in the right-hand end of the housing inside the drive housing 11 and is connected by a ring 67 in this gelically. so that the hydraulic pressure medium will hold. A central bore 68 in the piston is fed to the chamber 21. 35 guide 65 serves to slide the piston. In the right end position 70 to the left, as a result of which the movable armature 19 of the piston 70 lies, the head part 71 is moved to the left if necessary, so that the air-shaped housing shoulder 72 is closed ^{at the} gap 22 and the impedance of the 40 Das The right end of the piston 70 is exposed to the rewind 16 ″ to a relatively high value determined in the chamber 21. A closed one is increased If a certain value falls, the extended end of the shaft 54 would move before the piston 70 under the action of a screw.

benfeder 90 to the right, whereby the armature 19 of 45 is between the piston 70 and the armature IV of the coil moved away, and a relatively large lost motion connection 76 is provided around the aut ßer air gap 22 is generated, which exerted the pseudo-armature through the actuating member 20 stood in the coil 16 lowered and thus adjust a two-closing force. In particular, the 1 otten creates a stable state. "gang connection 76 a pin 77 on. the inside

The housing part 11 has protruding lugs 25 50 of the diametrical bores in the head part 71 of the Koizur Fastening of the circuit arrangement in which the give 70 is fastened and is moved by a long-desired position in the housing 13. The Vcr- slot 79 in the shaft 54 extends Emc within the End 12 of the housing part 11 is loaded by a central axial bore seated compression spring 80 norbohrung 27 received in the housing part 11. One in times the shaft 54 of the piston 70 ™ ch outside a central opening inserted in the lock 12 to a position in which the style 77 is at the rear Lierstopfen holds the electrical lines 18 in their end of the slot 79, as in FIG. 1 g. ^ shown is applied. Position The shutter 12 has forked projections, which means that the i> chatS4 extends further cc 29 and 30 on. the best from F i g. 3 crsi-bt- the axial bore 75 is prevented: how from are borrowed and which results in a shoulder 32 in the following, the spring 80 is used Bore 27 extend and bear against this. The 60 the desired closing force between the armature Itc bifurcated projections 29 and 30 flank one and the fixed core 34 independently magnetically permeable layered core 34, the force of the hydraul.-cin 'acting on the piston 70 Part of the bobbin 16 forms. The shutter can be seen generating pressure. . ..

12 is secured in the housing part 11 by a snap ring 36 The actuation arrangement has remote cmc screw

hold up. around the piston 70 of the to which g ^c 8 ^c, y '"^ ™ ^r * _h shoulder 32 maintains the projections 29 and 30 against the" 5 benfeder 90th around the spool 16 with respect braced on the housing part 11, after To keep armature 19 in alignment, loads are provided on the right-hand alignment of pins 38 retracted in scmc or in the first position

Essentially cup-shaped spring silicone element 93 with a flange part 94. which forms a seat for one end of the spring 90. The spring seat element 93 has a central opening 94. which receives the shaft 54 freely. The spring 90 therefore loads the piston 70 into its retracted position through the spring seat element 93. The spring 90 is selected with reference to the surface area of the side of the piston 70 loaded by the pressure medium that at a certain pressure, e.g. B. of 7 kg cm-, in the chamber 21 the piston 70 is moved to the left against the force of the spring 90, whereby the gap 22 is closed: the pressure then falls below the certain value. so the spring 90 loads the piston 70 to the right, whereby the gap 22 is opened.

The spring seat element 93 has projections 95 which flank the sides of the anchor retaining element 52 and serve to limit the movement of the piston 70 to the left. When the piston 70 moves to the left and entrains the holding element 93, the projections 95 come to rest at the end of a recess 97 in the housing part 11 , whereby further movement of the piston 70 is prevented. The movement limits of the piston 70, which are formed by the shoulder 97 and the housing shoulder 72, are selected so that the piston 70 moves from its position in FIG. 1 and 2 is moved to its second position in which the projections 95 come to rest on the shoulder 97 after a greater distance than is necessary. to bring about contact between armature 50 and core 42. The piston 70 therefore performs a greater movement than the armature 19.

In the housing parts 11 and 14, drainage channels 102 and 103 are provided for draining leakage fluid. The effluent from the channel 102, fluid flows to a fluid reservoir within the housing 13. In order to avoid the leakage of liquid from the chamber 21 is an annular seal 105. To the leakage of liquid from the housing 13 between the housing part 11 and the inside of the neck 14 To avoid this, a white ring seal 106 is provided, which is seated within a suitable annular recess in the circumference of the housing part 11 .

The above-mentioned permanent magnet 56 serves to collect floating in the pressure medium magnetic particle that leaks past from the Kam mer 21 at Koibea 70th This prevents foreign particles from collecting in the air gap 22 and interfering with the operation of the switch.

When the chamber 21 is below a certain value during operation, the pretensioned spring 90 holds the piston 70 and the armature 19 in the position shown in FIG. 1 and 2 position shown. The large air gap 22 existing in the magnetic circuit has the consequence that the apparent coil resistance

ίο is low and a considerable current flows through a load resistor R _L , as in the control circuit in FIG. 5 shown. A control or display device 100 is connected in parallel to the load resistor R _1. During this operating state, the current / ,, is largely determined by the value of the load resistance R _r . This state When to choose either the "On" or the "Off" state.

When the pressure in the chamber 21 exceeds the certain value, the piston 70 moves to the left against the loading force of the compression spring 90. Before the projections 95 come to rest on the shoulder 97 in the housing part 11 , the armature 50 comes to the ends of the legs of the core 34 in the fixed coil 16 to the plant. However, the hydraulic pressure acting on the piston 70 continues. whereby the actuator assembly 20 is moved to the left until the projections 95 on the shoulder 97 come to rest. During this movement, the pin 77 leaves the right end of the longitudinal slot 79 in the shaft 54 and assumes a floating position therein. When the armature 50 comes to rest on the core 34, the closing force between them is therefore determined by the compression spring 80, which acts against the rear end of the shaft 54, and can be selected in the desired manner. The impedance of the coil 16 is then large compared to the load resistance R _L , since the air gap 22 is very small and the current /, is very small, since it is essentially determined by the reactance of the coil. The low value of the current flowing through the load resistor /? Changes the bistable state of the display or control device 100

When the pressure in the chamber 21 drops below the certain value, the spring 90 guides the actuator back into the first retracted position in which the return of the armature zi the in F i g. 1 and 2 position shown takes place.

1 sheet of drawings

Claims (1)

The invention relates to a pressure sensitive Claims: Circuit arrangement with a coil arrangement with variable inductance and a pressure-sensitive 1. Pressure-sensitive circuitry loaned device for changing the value of the with a coil arrangement with variable Tn-5 inductivity, which is magnetically permeable and a pressure-sensitive single armature is connected to the opposite of the coil to change the value of the inductive arrangement is movable, and the armature below did which with a magnetically permeable of a given pressure value to a core Armature is connected to the coil assembly opposite the coil by the action of a spring arrangement is movable. and the anchor is kept at a certain distance. half of a predetermined pressure value compared to such pressure-sensitive circuit arrangements a core of the coil arrangement through the wires are used as measuring devices for pressure measurement via the action of a spring at a certain distance in a continuous measuring range (hand holding is characterized by the fact that the pressure-sensitive device from a 15 1967 , VDI-Verlag GmbH, Düsseldorf, page 539).
with the armature (19) connected piston (70) pressure-sensitive switches are also used, which benfeder (90) against the action of a screw drive of invariable speed in aircraft to the armature (19) to indicate when to bring the hydraulic with the core (34) at a given pressure delivery pressure for certain hydraulic control orgaim vve ^ public in system, so that the ₂ o ne has reached a permissible high value, and the impedance of the circuit arrangement at ncr for display that the output speed is in the predetermined pressure value between a permissible range, so that the Annem changes a high and a low value. drove the desired power to the shaft of one 2. Circuit arrangement according to claim 1. The synchronous generator coupled to the drive emits, characterized by a lost motion connection (76), ₂₅ which forms the electrical energy supply for the flight switch, the piston (70) and the armature (19). So far, the binds for this purpose and allows an extended piston travel, used switches consisted of a switch mechanism with a spring (80), which pushes the armature (19) away from the mus, the electrical changeover contacts in bistable piston (70) and which the armature arrangement and a hydraulically operated piston (19) determines effective closing force. _{3 <J responsive} to hydraulic pressure See circuit arrangement according to claims or Z. and the switch mechanism at a particular one characterized by actuating means (56) for pressure. By using this scarf Collecting metal halves that have occurred in the out of the ter are serious drawbacks in that they are Fluid escaping from the pressure chamber are carried along relatively briefly in some applications. _{35 were} lively and unreliable as a result of the strong 4. Circuit arrangement according to claim 3, thereby the contacts flowing current and the Schwindurch characterized in that the collecting device was in the area, and because the temperature was through a permanent magnet (56) is formed, and pressure fluctuations to a proportionate which led next to the piston (70) and between KoI- low contact life. ben (70) and coil assembly (19) lies. 40 The object of the present invention is to 5. Circuit arrangement according to claim 2. 3 reasons to create a bistable pressure-sensitive circuit or 4, characterized in that the piston arrangement, which has the aforementioned (70) an enlarged head part (71), the described disadvantages of the previously known pressure in one Avoids piston position on a housing shoulder sensitive switch, and which rests as (72), and that the piston can also _{operate a 45} contactless switch.
Axial bore (75) for receiving an at the anchor This is achieved according to the invention in that ker has a fixed shaft (54) in which the pressure-sensitive device slides from a piston with an axial bore, and the spring arrangement consists of the armature connected piston, which is between piston ( 70) and armature (50) consists of a compression spring (80) mounted in the axial bore, displaceable against the action of a helical spring, in order to reserve the armature with the core at a pressure which essentially brings the shaft from the axial bore into abutment seeks to press, the backlash connection gene so that the impedance of the Schaltungsan- (76) between armature and shaft from a longitudinal order at the predetermined pressure value is slot (79) with pin (77). between a high and a low value 6. Circuit arrangement according to claim 5, changed 55. characterized by a spring seat element (93), the invention makes a pressure-sensitive which on the enlarged head part (71) of the piston circuit arrangement created either one (70) rests, with one arranged in the housing. delivers a high or a low current value, in general System with the spring seat element for buckets that work with strain gauges Coil spring (90), and with the spring seat 60 known arrangements that have a pressure-sensitive element arranged fork-like projections result in analog working circuit arrangement, such as (95), by means of which the piston of the whose position is limited and which is delivery 274 of November 1958, page 226, beaxial en the sides of the anchor (50) extend. are written. 65 The invention is explained using an exemplary embodiment shown in the figures; it shows F i g. 1 shows a longitudinal section through the pressure-sensitive circuit arrangement,