NO130610B - - Google Patents

Description

Electric switch with tilting system.

The present invention relates to an electrical switch with an electrical contact system that is placed in a house, and where the system consists of two parts, one part of which is made up of a tilting system that is provided with an operating device, and the other part is made up of a contact system that includes a contact placed on a leaf spring and a contact carrier fixed in the housing with a contact, and where the difference to the tilting system is determined by two stops, of which at least one is adjustable, and where the movable contacts in their resting position are pressed springily against the fixed contact and is lifted from this by the operating device, which is connected to the tilting system.

An evaporator thermostat with a two-part tilting system is known which has a main arm and an Omega spring, which system on one side of the dead center plane tilts between two positions defined by means of projections. The contact system has a fixed contact and one of a closing spring against this pressed movable contact. The main arm carries an operating element, with which the movable contact is either lifted away or moved towards the fixed contact during the changeover. Por setting the difference, i.e. for the switching necessary pressure change in the working element of the evaporator thermostat, the tension of the Omega spring can be changed, for which purpose the fixed bearing of this spring is formed by means of an adjusting screw. With the contact system of such an evaporator thermostat, significant bouncing times have often been determined when closing.

Similar and even stronger bouncing effects have another electric switch, in which the movable contact is placed immediately on the main arm of the tilting system.

Furthermore, tilting systems with more than two elements are known, e.g. two rigid arms and a tilting spring, which, when tipped, moves through the dead center plane and by which the two end positions are determined by means of stops, of which at least one is adjustable, in order to change the difference of the tilting system.

The purpose of the invention is to provide the simplest possible electrical rocker switch, whereby the bouncing tendency can be kept to a minimum.

This purpose is achieved by an electric switch of the type mentioned at the outset, which is characterized by the fact that the leaf springs have an adjustable bias.

A further feature of the invention is that the bias for the leaf springs is adjustable by means of screws.

In the following, the invention will be explained in more detail with the help of an embodiment shown in the drawing, which shows: fig. 1 a side view of the switch according to the invention, which is designed as a room thermostat with bimetal operation,

fig. 2 a ground plan with a cut-away shaft for the setting device,

fig. 3 essential parts of the tipping system for operation, pulled out from each other,

fig. 4 the contact system in fig. 2 on a larger scale, and fig. 5 the contact system as in fig. 2, seen from above.

The room thermostat is housed in a housing 1, which can be covered by means of a lid 2, which is indicated by dotted lines. The lid is pierced by a setting button 3 for setting the working point. In the house, there is a connection system 4, a tilting system 5 and a contact system 6 next to each other.

The connection system 4 has an introduction 7 at the bottom and a series of connection screws 8 on both sides of the introduction.

The tilting system 5 sr mounted on a bottom surface 9, which is attached to the bottom of the housing by means of screws 10. The base plate carries on opposite end sides bent up tabs 11 with threaded holes 12 for attaching the lid 2. On one side there is bent up tabs 13, 14 and 15 - The tab 13 carries a leaf spring 16 which simultaneously forms an egg 17 and a guide tab 18 for a first fixed bearing. The tab 14 carries eggs 19 to form a second fixed bearing. The tab 15 has a thread for a stop adjusting screw 20. In the bottom plate there is a further fastening hole 21 for receiving an axis 22 for the setting device shaped like a curved disk 23, which is firmly connected to the setting head 3.

A bimetallic main arm 24 is provided at one end with

a first shoulder 25 in the form of a U-shaped hoop and at the other end with a block 26 of insulating material which forms a second shoulder. While the main arm 24 is attached at the leg 27 to the bracket 25, this carries a second bimetallic strip 29 at the opposite leg 28 which bends in the opposite direction to the main arm 24. The second bimetallic strip 29 serves as a setting arm and is under the action of the leaf spring 16 with a setting screw 30 against the cam disc 23 of the setting device. The main arm 24 and the bimetallic strip 29 are equipped with air flow slots 31, 32. The slot 31 also enables operation of the screw 30. In the middle step 33 of the hoop 25 there is an elongated indentation 34, in which the eggs 17 are engaged. In the middle of the indentation, a through-break is provided, which accommodates the guide tab 18.

The block 26 has a first pair of side grooves 35 in which the legs 36 of a large U-shaped tin pin part 37 grip. This forms with its end edge a knife bearing 38 for articulated connection with one end 39 to an Omega spring 40, the other end 4l of which is held in the knife 19 to the other fixed bearing. A screw 42 screwed into the block 26 acts on the inner edge 43 of the tin punch piece 37, which is pressed against the screw end by means of the Omega spring 40. A second pair of side grooves 44 in the block 26 serve for attachment to the main arm 24. For this purpose, this main arm has a recess 45 with a step-shaped limitation. The first step. 46 has such a cross-section that the block 26 can be pushed through. The second stage 47, on the other hand, forms guide rails, on which the block 26 is pushed with its side tracks 44 under the influence of the Omega spring 40. In addition, the block 26 carries an extension 48 of an operating element 49 for setting the contact system. On the surface 50 of the block 26, the stop setting screw 20 can engage, and on the opposite surface 51, a stop setting screw 52 can engage, which is guided in a holding device 53.

The contact system has a fixed central double contact 54 and two outer movable contacts 55 and 56. Each contact sits on a contact carrier 57, 58, 59, of which the central 58 is essentially rigid, while the two outer carriers 57 and 59 are designed as leaf springs and is stiffened at the outer part by means of edges 60 bent to the side. These leaf springs are held at the other end in a fixed clamp 6l, 62, which is equipped with set screws 63, 64, with the help of which the preload of these leaf springs can be adjusted. These leaf springs are closing springs, which press the movable contacts 55, 56 in their resting position springily against their fixed contact 54. The outer carriers 57 and 59 stand so far above the associated contacts that the operating element 49 can influence them and raise the contacts against the spring force to their carrier from the fixed contact.

From this it appears that when switching the tilting system from

the one in fig. position shown in 2, the operating element 49 completes a movement to the left, whereby the movable contact 56 follows under the influence of its closing spring 59- When the contact 56 rests on the fixed contact 54, the movable masses of the tilting system separate from the movable contact 56, so that then only its mass is effective. At the same time, shortly before and after, the movable contact 55 is raised from the fixed contact 54, whereby the tilting system already has a considerable speed, to bring about a rapid opening of the contact set.

A minimal bouncing time is achieved when the movable contact 56 hits with a predetermined speed against the fixed contact 54. This speed can be influenced by setting the screw 42, i.e. the moving bearing of the Omega spring 40, then because of this setting the steepness of the spring characteristic for The Omega spring is changed. An additional adaptation can be achieved with the help of the adjusting screws 63 and 64, with which the bias of the closing springs 57 and 59 can be changed. With these measures, it is possible to keep the bounce extremely small and even suppress it completely. The difference to the room thermostat is set with the help of the limit set screws 20 and 52. In the present embodiment, it has been ensured that the two end points for the tilting movement lie symmetrically on both sides of the dead center center line of the tilting system. By setting the two screws 20 and 52, the symmetrical mode of operation can be maintained which, on the one hand, leaves the mean value for the set temperature unchanged and, on the other hand, is advantageous due to the symmetrical contact system.

The desired room temperature is set using the setting knob 3, whose rotation via the cam disc 23 leads to an oscillation of the main arm 24. Using the screw 30, the exact setting of the scale on the setting head 3 can be carried out.

During assembly, all parts of the tilting system can be mounted on the bottom plate 9. Then this bottom plate is built in next to the coupling system 4 in the housing and finally the lid 2 is put over and screwed to the latches 11.

Instead of the bimetal main arm 24, a rigid main arm can also be used, such as is loaded, using a thermostatic or pressostatic working element and a set value spring.

Claims (2)

1. Electric switch with an electric contact system, which is placed in a housing (1) and where the system consists of two parts, one part of which is made up of a tilting system (5) which is provided with an operating device (49), and the second part consists of a contact system (6) which comprises a contact (55, 56) placed on a leaf spring (57, 59) and a contact carrier (58) fixed in the housing with a contact (54), and where the difference to the tilting system is determined by two stops (20, 52), at least one of which is adjustable, and where the movable contacts (55, 56) in their rest position are pressed springily against the fixed contact (54) and are lifted from this by the operating member (49), which is connected to the tilting system, characterized by the fact that the leaf springs (57, 59) have an adjustable preload. 2. Electric switch according to claim 1, characterized in that the bias for the leaf springs is adjustable by means of screws (63,64).