DE1169003B - Electrical differential pressure switch - Google Patents

Description

Electrical differential pressure switch The invention relates to a differential pressure switch, especially for electric water heaters, with a movement of the membrane the pressure differential box to the switching contacts transmitting switching lever, wherein the Adjusting force exerted by the diaphragm of the differential pressure cell on the shift lever is transmitted to the shift lever via a spring element.

There is already a pressure-dependent switching device known at which is arranged on the switching lever actuating the switching contacts, a spring element is whose path is limited by a screw provided with a nut and whose force is less than that required to engage the switch, but greater than is the force necessary to hold the switch closed. Now falls after when the switch is engaged, the pressure acting on the shift lever is capable of the spring alone to keep the switch on until the moment where she has come to the end of her path.

However, this known switching device has the disadvantage that In the event of overpressure, the shift lever will not be over-sprung is possible and thus the entire pressure is transferred to the switching contacts and must be absorbed by the contact springs. This can either become a remaining Deformation of the shift lever or the contact springs. If you now want the contact springs interpret so that this is avoided, it is necessary to relate the contact springs train long in order to obtain a sufficiently large elasticity. Such a one However, execution is relatively complex.

According to the invention, it is now proposed that the spring element so too dimensioned that it is below the required contact pressure of the switching contacts as ., tarrer lever arm acts and only when the contact pressure of the switching contacts is exceeded absorbs the force above the contact pressure through elastic deformation.

Such a design of the spring element is more advantageous Way achieved that when overpressure occurs this by the elastic deformation of the spring element is caught, so that the excess pressure on the switching contacts of the switch is not transmitted, whereby the contact springs of the switch are in front an undesirable high stress, which leads to a deformation of the contact springs and thus circuit inaccuracy can be protected.

Further advantageous details of the invention are described using an exemplary embodiment illustrated in the drawing. In the drawing, 1 denotes the pressure differential box of the switch according to the invention, in the interior of which the Meinbran operated by the water pressure is arranged. The membrane acts on a plunger 2 protruding from the can on the surface of the can, through which the movement of the membrane is transmitted to the switching lever 3. On the box 1 , the switching contacts 5 are attached by means of an angle 4, which, as shown in the drawing, can be designed as microswitches.

The switching lever 3 is rotatably mounted about an axis 6 and rests with its one end 7 on the microswitch 5 by means of an adjusting screw 8 . The other end 9 of the lever 3 is angled in a U-shape, with an angled leaf spring 10 attached to the lever 3 resting on the free leg of the angle. The leaf spring 10 continues to rest on the plunger 2 of the diaphragm of the differential pressure cell 1.

In the axis of rotation 6 of the lever 3 there is a spiral spring 11 , which rests with its one end 12 on the upper side of the lever 3 and with its other end 13 is attached to a bracket 14 firmly attached to the bracket 4.

If a force is exerted on the spring element 10 by the plunger 2, the lever 3 * is pivoted upwards and presses with the adjusting screw 8 on the actuating element of the microswitch 5. The spring element 10 acts as long as the required contact pressure of the microswitch contacts 5 is not exceeded, as a rigid lever arm transmitting the force to lever 3 ..

If, when there is overpressure on the membrane, the adjustment force is so great that an impermissible pressure is exerted on the microswitch 5 by the adjusting screw 8 , then the spring element 10 is bent upwards and the lever is over-sprung, whereby the elastic deformation of the Spring element 10, the force lying above the contact pressure of the contacts 5 is absorbed. Expediently, the spiral spring 11 can also be dimensioned so that an increasing counterforce is generated as the pivoting movement of the lever 3 increases, the spiral spring 11, the spring element 10 and the contact pressure of the contacts being offset against one another so that after the required contact pressure has been reached for the switching contacts an elastic deformation of the spring element 10 takes place at the adjusting screw 8 when the pressure increases.

Claims (2)

Is transmitted 1. An electrical differential pressure switch, particularly for electric heaters, with a movement of the diaphragm of the pressure difference can be transmitted to the switching contacts shift lever, wherein the membrane of the pressure difference can dievon on the shift lever applied displacing force of a spring element to the shift lever, d a d u rch: claims g e - indicates that the spring element is dimensioned so that it acts as a rigid lever arm below the required contact pressure of the switching contacts and only absorbs the force above the contact pressure by elastic deformation when the contact pressure is exceeded. 2. Differential pressure switch according to claim 1, characterized in that the spring element (10) on the lever (3) is arranged such that it rests with its end resting on the lever (3) on the one with its on a switching pin (2) End on the other side of the axis of rotation (6) of the lever (3) . 3. pressure differential switch according Anspruelr # 1 oder.2, characterized in that, as spring element a riveted to the lever (3) the leaf spring. (10> is arranged with its end Schaltstift- (2) of the membrane of the pressure difference can (1 ) resting end rests on the angled end (9) of the switching lever (3) . 4. Pressure differential switch according to claim 1 or the following, characterized in that a spiral spring (11) is arranged in the axis of rotation (6) of the lever (3), one end of which is fixed in a bracket (14) fixed in space, the other end (13 ) rests on the upper side of the lever (3) and is dimensioned such that with increasing pivoting movement of the lever, an increasing counterforce counteracts it the pivoting movement is generated, wherein the spiral spring (11) and the spring element (10) are placed on each other so that after reaching the required contact pressure for the switching contacts an elastic deformation of the spring element when the pressure increases tes (10) takes place. Documents considered. German interpretative document No. 1010 611.