DE451225C - Pneumatic clock system - Google Patents

Description

Pneumatic clock system. The invention relates to pneumatic clock systems and aims to remedy the main deficiency of the known systems of this type, which consists in that the operation of the slave clocks is affected by fluctuations in the air temperature will eliminate.

This is achieved in that for the generation and reception of the the air overpressure or underpressure influencing the slave clocks in movable cylinders, Relatively small, not completely tight-fitting metal pistons are used for transmission the pressure fluctuations a line is used for each clock to be driven has less than z qmm cross-section. Because of this small cable cross-section is also the case with pneumatic clocks with lines of larger cross-sections This eliminates the inconvenience that occurs at greater distances from the master clock up to the slave clocks a movement of the air column to the end of the lines no longer takes place safely, which is the case with the limited ones that can be accommodated in watch cases Weight or spring forces is understandable.

Through the combined application of the means mentioned, how has shown, even systems whose lines run through rooms with very different temperatures, that also there are still considerable fluctuations in each individual room is subjected to, are passed through, completely insensitive to the effects of temperature. The switching takes place precisely and reliably with a short time delay.

The drawing represents the subject matter of the invention in an exemplary embodiment schematically.

H denotes the master clock, the movement of which is set in motion by means of a weight in a manner known per se. The weight 13 , which is suspended from a traction element, drives a disc 6, which carries a crank pin 5, by means of the roller 7 through the intermediary of a pair of gears. One end of a push rod 3 acts on the latter, the other end of which is articulated on the piston 2, which is movable in the cylinder i with a certain margin between its circumference and the inside of the cylinder wall. A line 2 leads from cylinder i to slave clocks N1, N2 and N3.

The movement of the master clock H has a wheel 12 which z. B. every minute makes a full turn. The wheel 12 carries a pin io, which when rotated of the wheel i2 pushes against one end of its lever ii, which is rotatable on a pin g is stored. The lever ii is under the action of a spring 26, which it in the the position shown in the drawing pulls. On the lever ii are catch pins 8 and 2g attached, which cooperate with two pins 25 and 3o attached to the disc 6.

By rotating the wheel 12 in the direction of the arrow, the pin io adjusts the release lever ii so that the catch pin 29 releases the pin 25 of the disk 6. The pin 25 can thus pass between the pins 8 and 29, and the disk 6 is set in rotation. After it has carried out about half a turn, the pin 3o strikes the pin 8 of the lever ii, which has meanwhile been further adjusted by the pin io, whereby the disk 6 comes to rest temporarily. After the pin io has slid off the lever ii, the latter swings back under the action of the spring 26, the pin 30 being released from the catch pins 8 and 29 so that it can pass between the catch pins 8 and the disk 6 is set in rotation again until it comes to rest by pushing the pin against the catch pin 29 of the lever ii, which has meanwhile returned to its rest position shown in the drawing.

The first half turn of the disk 6 turns the piston 2 off the one end position is adjusted to the other, and this is in the line 4 a Pressure wave generated, which acts on the slave clocks, whose internal device for the Uhr N ;, is shown schematically in the drawing.

Each of the slave clocks has a cylinder 14 in which a piston 15 arranged in the same way as the piston 2 in the cylinder i of the master clock, ie is not moveable to close tightly. The piston 15 is through a push rod 16 connected to one arm of a three-armed lever 26, which around the pin 17 is rotatable. One of the two other arms of the lever 28 carries one Pen i8, the other a pen ig. The pins 18 and ig work with a toothed one Rade 21 together in such a way that when one of the teeth 18 and ig enters the Toothing of the wheel 21 the other tooth from the toothing. exit. The lever 28 acts as an anchor and carries a counterweight 2o, through which the weight of the Piston 15 and the push rod 16 is balanced.

The wheel 21 sits on the minute hand shaft, which is known per se Way, the pointers 22 and 23 adjusted. With every pressure surge that hits the cylinder 14 acts, the wheel 2i is rotated by one tooth pitch.

The clear diameter of the tubes 4, which are made of metal, rubber, etc. can exist has a small size. He needs z. B. for those in the drawing reproduced system with three slave clocks to be only about i mm. The one from that The space traversed by piston 2 in cylinder i need not be larger than approximately 4 qcm.

The system can also be set up so that in the master clock instead an overpressure, a negative pressure is generated.

Claims (1)

PATRNTANSPRUCn: Pneumatic clock system with a on a master clock Overpressure or underpressure generated by weight or spring force in a line transferred to slave clocks with organs adjusted under the influence of the pressure change is, characterized in that for generating and receiving the pressure in Cylinders movable, not completely tightly closing metal pistons serve and the transmission the pressure fluctuations caused by a line that is to be driven for each Clock less than i sqmm cross-section possesses the harmful effect of elasticity and temperature to prevent the column of air.