DE1021053B - Hand drive for electric lever switch - Google Patents

Description

GERMAN

If the electric lever switches are provided with high contact pressures in the on position, so are when switched on from the moment of touch between the switch blades and the stationary contact points until the final one is reached Switch-on position great forces to use. Great forces also have to be applied when switching off, as long as the contact parts touch each other. It is already known the manual drive, the lever switch to be provided with a toggle mechanism to switch the switch blades on and off facilitate. The toggle mechanism works as long as: the contact parts touch each other only partially a reduction in the expenditure of force, specifically only in the vicinity of the end position of the hand lever. There are therefore great forces on the lever switches even when using a toggle lever mechanism when working with large contact pressures.

Lever switches with switch blades are also known in which the axis of rotation of the hand lever is parallel the switching knife is arranged to the axis of rotation and the power transmission of the hand lever via resp. takes place along a curved path located on the switch blade. Another type of Lever switches, whose axis of rotation of the manual drive is also parallel to the axis of rotation of the switch blade is located, there is a circular sector-shaped cam on the axis of rotation of the manual drive, which has an evenly curved slideway and toggle lever acts on the switch blade. With both lever switches described above with parallel Axes of rotation of the hand lever and the switch master occur through the use of. Curved tracks and cams do not have much more favorable power transmission ratios than with lever switches with manual drive with the help of a pure toggle lever mechanism.

The invention relates to an improvement in the manual drive for electrical lever switches with angular movement the switch knife, in which the drive axis is perpendicular to the axis of rotation of the switch knife is arranged and where large contact pressures occur on the contact parts. Takes place according to the invention the transmission of the turning movement causing the switching on and off movement from the drive axle on the switch blade by a cam on the drive axle with merging into one another Curves of different radii of curvature and. a driver that can be moved parallel to itself with the interposition of a role. The manual drive according to the invention takes place on. Lever switches reliable power transmission from a drive axis that is perpendicular to the axis of rotation of the switching

Manual drive for electric lever switches

Applicant:

Siemens-Schuckertwerke

Shareholding,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Bernhard Müller, Traunreut,
has been named as the inventor

knife stands, on the switch knife, especially if large with lever switches for large currents Contact friction forces occur. In contrast to a toggle mechanism, the translation of the hand drive according to the invention so · that on the whole way of the hand lever, as long as the contact parts touch each other, a relatively small amount of force is required. The hand lever attaches when closing, and. Open the switch as long as the contact parts are not in contact small way, but as long as the contact parts touch each other, a big way back. The lever switch according to the invention is thus characterized by a soft switching on and off, the contact parts the end.

Flat track switches are already used to facilitate switching on and off proposed by cam gears. A cam is used to generate a stroke and lowering movement that a. Switching on and off by contact connection or contact separation causes between a movable plate-shaped switching element and switching brackets. You can also see a second cam disc in front, which does not have an electrical Switching process, but a pure movement process. Because of this, that movable switching element in its switched-off positions by means of a rotary movement in a large number of Switch positions are brought. However, this construction principle is not suitable for lever switches with an angular movement of the switch blade.

An exemplary embodiment of the invention is shown in the drawing. Figs. 1 and 5 show side views of the manual drive, whereby

Fig. 1, the switch-off position and.

5 shows the switched-on position; in

Fig. 2 is a section AA and in

3 shows a section BB ;

709 810/235

Claims (2)

3 4 Fig. 2 also contains schematically the contact. Figs. I to 4 show the switch in the disengaged arrangement the lever switch; in switching station. Used to turn on the hand lever Fig. 4 is a plan view of the manual drive 10 moves counterclockwise (Fig. 1) so rotates posed. the cam 11 with and pushes with the help With 1 (Fig. 2) a -IsolierstofEsockel is referred to, 5 of the roller 19 the driver 6 upwards. Through the The Gal> el 6 'located on the driver 6 for each line pole of the switch will be the fixed contact part 2 and a rotatable switch blade 3 switch blade 3 moved into the switched-on position. So- wearing. The switch blades 3 are not the stationary ones on them for a long time Sitting insulating lugs 4 touching contact parts 2 through a cross bolt 5 is the resistance to movement moved by a. Driver 6 of the hand i ° on the switch blades 3 very small. The curve 12 of the drive is controlled according to the invention. The cam: 11 has for the movement of the switching Mitnehnierö has for the interaction with the knife 3 up to the contact with the stationary con Ouerbolzen 5 one fork 6 '. bars share a very steep increase. From the hand The manual drive according to the invention sits on lever 10 is only a small angular movement a wall 7, on which the 15 can be covered with the help of a bridge 8 in order to move the switch blade 3 to the ort-axis9 of the hand lever 10 is mounted. The solid one. Bring contact parts 2. The translation lever 10 moves the. Driver 6, which is with the switching of the manual drive - as long as a smaller dimensioning. 3 is coupled. According to the invention, the resistance to movement occurs at the switches - Transmission represents the switch-on and switch-off movement. As soon as the switch blade 3 reaches the stationary converting ends, If the rotary movement of the drive 20 cycle parts 2 touch, the cam acts! 11 with axis 9 of the hand lever 10 on the switch blade 3 a small increase in the curve on the driver 6 through, a seated on this drive axle 9 Kur- a. The hand lever 10 must go back a long way and lay one parallel to itself, around the switch blades 3, which are now one slidable driver 6 with the interposition of large contact pressure through the stationary, Kontakteiner Roller 19. These parts form a cam gear, 25 parts 2 are exposed, in the final engagement of which Translation to move with a small movement resistance. The manual drive thus works On the switch blades 3 it said large, with a large one with a small translation on the switch blades 3 Movement resistance at the switch blades 3, however, as long as the movement resistance at the switch small is. The cam 11 sits non-rotatably on knives 3 is large. Despite the great amount of movement Axis 9 of the hand lever 10. The cam 11 3 ° resistance is, however, a relatively small one has required a force exertion on the handle 10 that merges into one another at its edge in order to Curves of different radii of curvature are formed by the switch blades 3 on the stationary contact parts 2 Curve 12, with which you reach the. Driver 6 acts. to move. Fig. 5 shows the manual drive in the The driver 6 is parallel to itself, the final switched-on position. During the Einbar arranged on the wall 8. For this purpose 35 switching has possessed it on the cam disk 11 the wall 7 three guide slots 13, 14, 15, acting Kippsprungwerk changed its position. the in which the driver 6 with the help of the guide spring 22 of the tilting spring mechanism has initially pins 16, 17, 18 is guided. The guide pin 16 is slightly compressed and after crossing it at the same time carries a roller 19 to which the curve 12 of the dead center position is again somewhat extended. The ver cam 11 acts. Per se, the 40 different positions of the tilting jump mechanism could be used in the execution of the driver 6 on the wall 7 only and the switched-on position are in FIGS. 1 and 5, or two Guide slots with two guide pins visible. suffice, but a third slot is provided to turn off the switch Lifting of the plate-shaped driver 6 of lever 10 rotated clockwise, whereby the the wall 7 to prevent. 45 stuck cam 11 rotates with it. When it is out-of-purpose If the cam 11 acts with the switch, the cross pin 20 of the cam strikes Driver 6 except via the force 11 with the curve 12 against the edge of the opening 21 of the driver 6 coherently cooperating roller 19 over a loosely and pushes this down. The positive coupling 20, 21 together. This loose roller 19 of the driver in the vicinity of the curve 12 The clutch is formed in that the cam disk 11 changes on the cam 50 when it is switched off disk 11 a transverse pin 20 is seated, which is in an ent- again the tilting jump mechanism its position by itself Speaking shaped opening 21 of the driver 6 first compresses the compression spring 22 and engages. As a result of the coupling of. Cam 11 again somewhat after the dead center position has been exceeded and driver 6 through the transverse pin 20 is the expands. To carry out the switch-off process, Guide slot 15 wider than the usual Fiih- 55, the switch can also be designed so that when tion slots formed. Turn off the cam 11 with another To stop the lever switch in curve 12 '(Fig. 5) presses against a roller 25 which Intermediate positions between the switching on and off is mounted on the guide pin 18 of the driver 6. To prevent position, the manual drive is with a This is the driver 6 with the fork 6 'after Spring mechanism in the form of a tilting mechanism 60 overcoming the dead center of the tilting mechanism Mistake. The tilting mechanism has brought a compression spring 22 into the switch-off position. (Fig. 4), which sits on a tab 23. The tab 23 is on the cross pin 20 of the cam 11 to patent claims = steered and connected to a retaining pin 24 of the wall 7 1. Manual drive for electrical lever switches sliding. The Kippsprurigwerk seeks the curve 65 with angular movement of the switch blade, in which disk 11 and thus the hand lever 10 always in the drive axis perpendicular to the axis of rotation to move one or the other end position. Switching knife is arranged, thereby marked The mode of operation of the in the drawing shows that the transmission of the input or provided manual drive according to the invention is switching motion inducing rotary motion the following: 70 from the drive axle (9) to the switch blade (3) by a cam (11) seated on the drive axle (9) with merging curves of different radii of curvature and a driver (6) that can be moved parallel to itself with the interposition of a roller (19). 2. Hand drive according to claim 1, characterized in that the cam (11) with the driver (6) except via the roller (19) which interacts with the curve (12) in a craft-like manner interacts via a loosely positive coupling (20, 21). Considered publications:
German Patent Nos. 213 955, 246 876;
French patent specification No. 555 908. 1 sheet of drawings