DE1300717B - Jump system - Google Patents

Description

The invention relates to a spring mechanism with a switching part to operate valves, contact bridges in switches and the like between two end Ia2s.

A jump mechanism of this type with one on a control axis is known firmly attached driver for actuating the jump gear, one on this a support point finitely at one end supported resilient transferring element, one between two Endla_zn by means of this link around one of the control axis separate axis movable control member, with which the switching part -elenlä- is connected is, and a pin on the control member, which is the other end bearing of the resilient transmission link forms.

The object of the invention is to make this state-of-the-art To simplify jump work in its structure and to drive over the unstable state to ensure in any case. This object is achieved according to the invention. that the felierenden transmission link in a known manner as a helical spring is formed and has a guide sleeve. around the control element, too to turn. the storage of the control member itself between the other final storage of the Obertra2unL, s4licdes and the fastening point of the switching part on the control link lies. so that the direction of movement of the switching part with that of the first LaL, ertingspunktes @ des Transmission link on the driver matches, overall verciniL-t the inventor- the following mechanical functions: a) small angle of rotation of the control axis (<90J), b) Momentary movement in two opposite directions by a control spring the end; c) the control axis cannot simply be balanced so that it is in the Rotation angle stops. which corresponds to the unstable Lauc of the control spring. d. H. in the transition from tension to striking movement. This shows the location of the Control axis reliably shows the position of the currently influenced switching part; d) the currently operated switching part can with normal control members in its end positions be locked; e) the momentary movement (of the switching part) cannot in any way be braked by the control axis; f) the moment influenced by the jump system Switching part can always be switched by turning the control axis in one or the other Be brought to the final position. also then. if the control spring or the entire transmission link inoperative (yeraten is (broken spring or the like).

The invention and its functions are noted below described on the drawings. which schematically shows the inventive principle illustrate.

F i g. I shows the jump mechanism in its one end position @ -, i.e. left, the sclialttcil. the one with a valve or d41. connected is located in his an Endl.iee; F i 4.? shows the Sprun4Werk in its other end position. in % S, which means whichever the switching part is in the other end of the line.

In Fig. 1 and '_ is denoted by 1 the switching part of the jump mechanism. that should move between its two end positions momentarily and with which one the object to be actuated by momentum, e.g. B. valve or d-1., should be connected. The control axis 2 has a driver attached to it 3 connected. with a rotatable mounting point 4 for a transmission glicd 5 is provided. This f-transmission link 5 is after tension. d. H. Rotation of the Control axis 2. wherein the spring of the transmission member 5 is compressed. momentarily triggered. the transmission member 5. its final storage 9. which is rotatably mounted on the control member 7. currently around the L-t, 2erung 8 from the turns one end position into the other. The two end positions are in F i 1-. 1 or ^ can be seen. The driver 3 is with two spaced apart Edges 11 and 11 'provided, in the embodiment shown in F i 4.1 and 2 are formed as the edges of a groove in the driver 3. Actuate these edges 11 and 11 ' at a certain angle of rotation of the control axis 2, the link C>, which in turn the Closing members 10 and 10 'of the jump mechanism controls. These closing links 10, 1.0 ' can also act on the switching part 1 in parallel with the transmission, song 5. so that the latter is independent of the transmission member 5 from its one end position in the others can be brought.

If the control axis 2 and thus the driver 3 is so rotated. that the storage point 4 and the end storage 9 of the Obertragun-s @; song 5 come to lie with the control axis 2 on a straight line, then the spring of the transmission member 5 is tensioned (compressed) in this position. If the driver 3 is rotated a little further beyond this position, the transmission member 5 momentarily strikes via the control member 7 into its other end position. However, in order to prevent - that the control axis 2 and thus the driver 3 in the unstable position. which arises. If the bearing point and the end bearing 9 lie on a straight line with the control axis 2, stop or come slightly into equilibrium, the edges 11 and 11 'of the driver 3 are shaped in this way. that it is about 2 to 5 ° before the transmission member 5 has come into its unstable position, in which the bearing point 4 and the end bearing 9 are on a straight line with the control axis 2. the link C actuates, ie it moves. Here, the member G moves the closing members 10 and 10 'out of their closed position when the control shaft 2 is turned further and brings the switching part 1 by a certain slight movement in the same direction as the current movement of the spring joint is supposed to bring about. The switching part 1 then rotates the control member 7 a little in the same direction in which it is currently to be rotated by the transmission member 5. The control member 7 therefore rotates in the opposite direction to the control axis 2 and its driver 3. Thereby "fx: 4egnet" the end storage 9 of the transferring member 5 arn control member 7 to the other mounting point .l of the transferring element 5. so that the end storage 9 and the storage point .4 and the control axis 2 come to lie on a straight line. which forms on the Stctieraclise 2 a-c Dreli2rade in front of the angle monkey. which with the same degree of mechanism would have resulted in the unstable situation. d. 1i. the straight line through the parts 9, 4 and 2 without link C and .heel control edges 11 ' and 11 on the driver 3. Exactly the same control function arises when the mechanism is moved in the other direction, so that the switching part 1 is currently being returned to its first = annte Endlaie.

The here ati2egebecien functions cause. that the jump work the mentioned functional requirements b) and c) as well as d) are fulfilled.

To meet the other two functional requirements e): nd f), the edges 11 and 11 'of the .litnehmer 3 to each other must have such a zestininite Have angular position. that - apart from that. that the song G begins from the edges 11 or 11 'actuated: u - the edges 11 and 11' a few twisted jade before the transmission; licd 5 comes to rest in its unstable position. have to lie like that. that she looked for in the two end positions of the Sprunmverkes read link G operated. Through this is a movement! of the switching part 1 between its two Endla # 2en cloth without the transmission link 5 possible. Obviously, the movement will not then at the moment.

This jump mechanism has thus in both of its three directions of movement what is referred to as a complete, complete compulsory control, d. i.e., the jump mechanism can also work without transmission link 5 =.

The distance between the edges 11 and 11 'of the @litnehmer 3 is in Relation to the other dimensions of the jump unit chosen in this way. dal3 if Jas transferring member 5 is going through its unstable tepid. where the 'feile @i and 9 come to lic_en with control axis 2 on a straight line. the super-: ra, ungslink 5 can currently snap into its other end position ::. The control member 7 should then momentarily to its other end position ^ _drcht even if the control axis 2 and so that the participant 3 is forcibly held in deniicni # = cn angle of rotation, which you in the ad = enblick of the Cbc: rnnnn the transfer link 5 li: ib.n.

The jump \ Verk has proven to be very robust and simple in its practical Proven embodiment. Through the in F i g. 1 and 2 = showed expansion of the limbs the construction depth of the jump mechanism becomes very small perpendicular to the plane of the drawing, wherein the transfer member 5 can be of any length. This is also the possibility given. to determine the desired torque force.

The description and drawing show that the Monicntfeder so-called Spiral pressure pad is; However, other types of springs can also be used within the scope of the invention, z. B. hairpin feathers. Flat springs etc. are used.

Claims (1)

Claim: Spring mechanism with a switching part to operate of valves. Contact bridges in switches and d-1. between two end positions, one on a control axis permanently attached driver for actuation of the Sprun -% verks ,. one on this one on one Bearing point with its one end bearing- ten resilient transmission_licd. one between two end lay people by means of this link around one axis moved by the control axis control element. with which the switching part is is articulately connected. and a tenon on the Control song. which is the other final disposal of the resilient transmission song forms. through this gckennzeiclinet that the resilient upper tr; ieun @ = s _ ^ _ iied (5) in a manner known per se as Helical spring is formed and a Fülirun-2s- has sleeve, uni the control member (7) also to turn in two hours, with the bearing (S) of the steady place itself between the other Final storage (9) of the t) bcrtra @, ungsglicdcs and the BJcsti @; unus point of the S`clialt part (1) the control element runs. so that the Bc% vceun @ = sricii- to do; of the switching part with that of the first La @ _e- tion ^ _ point (.l) of the transfer; i = ting link on the Co-denominator matches.