DE2016898A1 - Control device - Google Patents

Description

Control device The present invention relates to a control device, the ß; lit is a movable stimulating member that depends on the Value of a quantity, such as the pressure in a gas or a liquid against the Effect of a leaf spring occupies one or the other of two layers, the Spring pressure is constant in one position and variable in the other position. As an example of an application in which the invention can be used, bilge pumps are mentioned, which should be started automatically when the Mirror in liner Wasseransarxmlung, z ,. in a septic tank, a certain high Value reached to also be stopped automatically when the mirror is on has dropped a certain low value. The higher mirror value may matter can be changed on a case-by-case basis, and therefore the spring pressure is in the said-second Position adjustable so that the spring according to the intended water level turns out to be. Control devices of this type are known> for example by Swedish patent specification 215,766.

The invention aims to provide a control device in which the spring will operate within a larger interval under safer and more precise conditions can than with the known execution.

This is essentially achieved in that the leaf spring in in a manner known per se in an almost flat state under tensile stress at two ends is clamped and at one point a lever arm, while the excitation member the Spring engages at a different point, and that the leaf spring is arranged in such a way that she gave the arm a rash, which only in the said second position has a larger angle and is therefore insignificant or insignificant in the first-mentioned position is equal to zero. The leaf spring is related in its basic design known with electric switches, but it is always why that her arm one of two contact layers under the action of essentially the same force should einnehrnen. According to the invention, however, a main sacne becomes constant holding force in one position, the spring arm is achieved and continuously adjustable Actuating force in its second position.

The invention is described below with reference to one in the accompanying drawings Drawings exemplary embodiment shown are described in more detail, and further, -characteristic of the invention are also intended. Eiz, properties specified will.

1 shows a regulating device embodied according to the invention or a pressure relay in perspective and cut away. FIGS. 2 and 3 show on a larger scale the leaf spring in plan or in side view.

The pressure relay shown in the drawings has one in two with each other e.g. Casing. The part 10 can be made of metal, while the part 12 is expediently made of hard Plastic or other material that does not conduct electricity is made. Between The parts are sealed by a plate 14, a j4ambran 16 and a sealing ring 18 trapped. The membrane forms one side wall of a chamber 20, which is through a Pipe socket 22 can be connected to a line nicnt shown, which to which leads to means whose level is to be regulated, like deTa water in a Pit or the like. The circular membrane 16 is made of elastic material and books under influence of pressure of means in greater or, to a lesser extent, with its middle part outwards. On the back of the Diaphragm 16, a circular support member 24 is provided, the smaller Dunchmesser than the membrane has and with less clearance in one in one of the plate 14 formed chamber 26 fits. laughs the pressure of the remedy a certain amount Has reached a value, the membrane 16 lies against the plate 14 outside the chamber 20, which means that the free area of the membrane corresponds to that Difference in diameter between the constrained periphery of the membrane and that of the chamber 26 is reduced. This reduces the size of the membrane acting on the support member 24 pressure corresponding to this reduction of the free Surface of the membrane, as shown in more detail in the above patent.

The support member 24 is in its center with a guide member 28 connected, which is slidably disposed in a socket 30 inserted into the plate 14 is. The guide member 28 goes into a pin 32 with a strongly reduced cross section above. The guide member 26 is expediently round, approximately square. Furthermore, the scent the pin 32 with a certain amount of play in the socket 30 so that the sar.uner 26 communicates with the space 34 between the housing part 12 and the plate 14.

A leaf spring, generally designated 36, has at both ends each a finger-shaped opening 38, 40, with the help of which they are in a flat, with the Housing part 12 firmly connected frame 42 is clamped. This frame is with two support projections 44, 46 with equally flat, flat surfaces 45 or 47 (Fig. 3) provided., To which the ends of the leaf spring apply. In the Openings 38, 40 or holes in the frame, screw connections 48, 50 are used. The screw union 50 has an eccentric portion 52 which fits into the opening 40, whereby the spring 36 between the screw associations 48, 50 with any desired Tensile force can be tensioned.

The leaf spring 36 is with a double loop or -winuung in on formed into a type S in a known manner. One loop 54 extends outside one of the centers.

of openings 38, 40 connecting line 56 in one direction and tie another loop 58 in the opposite direction. Here the loop extends 58 further away from line 56 than loop 54. Goes further die.loop 58 directly into the end part 41 (Fig. 2) around the opening 40, while between the loop 54 and the end portion 39 around the opening 38 largely to the line 56 parallel blade part 6Q is provided. Accordingly, loops 54 and 58 are both closer to opening 40 than the opening 38. An arm extends from the loop 58 at its outermost part 62, and this arm extends approximately parallel to line 56 in the direction where the opening 38 is located.

when the leaf spring 36 between the openings 38,40 an initial tension is subjected, the lines of force by and large become the two loops while arm 62, viewed from its attachment end itself, is free from encumbrances.

The support surfaces 45 and 47 on the projections 44, 46 lie in relation to one another parallel but staggered planes. The support surface 45 has a greater distance from the base plane of the frame 42 as the support flacile 47. The surface 45 is against the part 60 of the spring 36 is bounded by an edge 64 that forms a part of the line 56 Narrow angle forms, as shown in FIG. 2 can be seen.

The parallel displacement of the support surfaces 45 and 47 to each other and the beveled edge 64 are essential for that of the arm 62 performed angular movements. In order to generate these angular movements, the pin 32 on the loop 54 at the transition to the straight part 60 at one point 66, which is located on or near line 56. Because the leaf spring 36 subjected to a pressure of some magnitude perpendicular to its plane at point 66 is, such a displacement of the arm 62 is effected that he, while the The spring also occupies a mainly flat position, with the plane of the leaf spring forms an angle, see Fig. 3. According to the invention, the translation is very high large, so that the arm 62 overlaps with a contact pole 68 at its outer end Moved a much longer distance than point 66.

The leaf spring 36 is a member in an electrical system included, and for this purpose the screw connection 48 is on the outside of the Housing part 12 is connected to the shoe 70 of a cable 72. Lin another cable 74 is connected to a Verschradxng 76, which has an arm 78 made of electrically conductive material wearing. In contrast, this arm 78 itself is from the frame 42 and the leaf spring 36 isolated. The arm 78 is countersunk with a Kontau'pol 80, its position opposite the frame 42 and thus relative to the spring 36 can be adjusted in that a Insulating body 82 with a somewhat above the center point Groove 84 is provided. Depending on the degree to which the screw connection 7b is tightened is, the insulating body 82 clamps the 84 84 more or less together, and as a result the contact pole 60 of the arm 78 takes a variable distance from the plane the leaf spring 36 a. As can be seen from FIG. 3, the pole 80 should be close of the leaf spring are located in such a way that the arm 62, when it is in the starting position located approximately in the plane of the leaf spring with which pole 80 is in contact.

The arm 62 works on its opposite side with the end portion 86 of an adjusting screw 88 together, which is a sleeve fixed in the frame 42 90 is screwed in. The adjusting screw 88 can be adjusted from the outside by means of a Handwheel or knob 92 or the like. actuate. A cable 94 can be attached to the adjusting screw 88 be conductively connected.

The controller works as follows: Assume that it should control the water level between a predetermined low level A and one predetermined high mirror B.

It is also assumed that the operating state has become a certain The point in time is such that a pump actuated by the control device is stopped after the lower value A has been reached. Then the water level rises incessantly, it is clear that it has not yet reached the value ß. At the same time, the leaf spring 36 assumes the position that is shown in particular from FIG. 3 can be seen. The arm 62 forms a large angle to the Lene of the leaf spring and rests against the end portion or stop 86 of the screw 88. In this case it has the cable 94 has no connection and therefore no current passes through the regulators.

The rising water level has the consequence that the pressure increases gradually In the chamber 20 rises. With which the membrane 16 thus pushes the pin 32 against the leaf spring 36 at point 6-6 presses. The leaf spring 36, however, exerts a strong counter pressure off, and only after reaching the high value B for the water level takes place snap-like Ums.tstellung-the spring such that the arm 62 instead against the Pole 80 strikes on arm 78 isun gets the power from the cable 72 closed by the spring 36, the arm 78 and the cable 74, so that the pump comes in motion. In this position of the arm 62 only a small force is required in order to keep the arm in contact with pole 80. Because the pump works, it sinks the water level, and thus the pressure in the chamber 20 drops, but the arm 62 remains in contact with the pole 80. This condition persists until the low water level A has been reached and only then does the spring 36 gain the excess weight and cause that the arm 62 returns to the stop end portion 86 and the current is interrupted. The process then repeats itself in the same way as soon as the water rises again rose to mirror B.

To the same extent as the end portion 86 is screwed through the adjusting screw 88 approaches the plane of the leaf spring 36, the Force required to overcome the resistance of the spring, i.e. the The control device then sprays to a lower maximum pressure in the chamber 20 at.

According to the invention, the control device can be actuated Set the handwheel 92 for highs that change within wide limits, while, on the other hand, the holding pressure, i.e.

when the arm 62 rests against the pole 80, it is much lower and moreover is always constant or approximately constant.

It goes without saying that you can also see the regulating device for two-pole Switching can be applied, e.g. when reversing a motor in order to achieve a certain control process. In this case, the cable 94 is switched on, so that a The circuit is also closed when the arm 62 rests against the stop end part 86.

The invention is of course not limited to the embodiment shown It is delimited, but can be found in the broadest sense within the framework of its basis modify the underlying guiding principle.

So it can be used for other processes, with aen the one to be controlled Size through heat, movement of a body, flow velocity of a medium etc. is embodied.

Claims (8)

Claims 1. Control device with a movable excitation element that is dependent on on the value of a quantity, as opposed to the pressure in a gas or a liquid the action of a leaf spring occupies one or the other of two layers, with the spring pressure in one position remains constant and in the other position it changes is, by g e k e n n n z e i c h n e t> that the sheet fiber (36) is known per se Way clamped in an almost flat state under tensile stress at two ends (39, 41) is and has a lever arm (62) at one point, while the excitation member (16, 28, 32 ') the spring engages at another point (66), -and that the leaf spring so is arranged that she gave the arm (o2) a rash, which is only mentioned in the second layer has a larger angle and thus in the first-mentioned position is insignificant or zero. 2. control device according to claim l, characterized in that g e k e n n '-z e i c n-n e t s that the lever arm (62) in said second position against a stop (86) is applied, which can be adjusted from the outside for the purpose of regulating the size of the flip angle is. 3. Rebel device according to claims 1 and 2, characterized g e -k e n n z e i c n e t, aass the leaf spring (36) as a gliea in an electrical circuit is contained, in which the neDelarm forms a Kontakjarm, that in the former Location comes to rest on a contact pole (80) and thus closes the circuit. 4. Control device according to claims 1-3, characterized g e -k e n n z e I cant that the stop (86) is also connected to an electrical conductor (94) is. 5. Control device according to one of the preceding claims, thereby g e k e n n z e i h n e t that 'the excitation member (16, 28, 32) the leaf spring on one Point (66) actuated on or near one of the centers of the attachment points (38, - '40) connecting line (56) lies-. 6. Control device according to one of the preceding claims, thereby g e k e n n z e i h n e t that the leaf spring (36) a-n-its fastening points (38, 40) on flat support surfaces (4S ,, 47) which are parallel to each other but to the side are slightly offset. 7. Control device according to claim 6, characterized in that g e k e n n -z e i c That is, the one supporting surface (45) is inclined to the connecting line (56) Edge (64) against which the leaf spring (36) rests when its lever arm (62) Makes angular deflections. 8. Control device according to claim 1, g e k e n n z e i c h -n e t by links such as an eccentric (52) for adjusting the tension of the leaf spring (36). L e r s e i t e