DE1171168B - Mechanical device for the continuous display of the quotient of two quantities - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Kl .: GOId

German class: 42 d -10

Number: 1171168

File number: A 24889IX b / 42 d

Filing date: May 14, 1956

Opening day: May 27, 1964

The invention relates to a mechanical device for continuously displaying the quotient of two sizes with freely selectable zero point suppression, especially the average speed of a vehicle, with a differential gear, each of which has a drive wheel through one of the two Sizes is driven and its balance gear holder provides the drive torque for a pointer arrangement supplies, which is also exposed to the action of a return torque.

The known devices of this type have the major disadvantage that the quotient formation only takes place after a certain time interval, whereupon the devices take the mean value in this time interval indicate.

In contrast, the device according to the invention is characterized in that the drive torque over a spiral spring with constant spring constant and the return torque via a spring with changeable, acts on the pointer arrangement to the one size proportional spring constant.

This has the advantage that the quotient formation is carried out continuously, so that the device continuously displays the mean value achieved from commissioning.

The invention is explained below by way of example with reference to the drawing.

F i g. 1 and 2 show a first embodiment of a device for displaying the average speed a vehicle whose dial is shown in two versions in FIGS. 3 and 4;

F i g. Figures 5 and 6 show the mechanism of two other devices for indicating the average speed;

F i g. 7 and 8 are modifications of these mechanisms.

The device shown in Fig. 1 and 2 for displaying the average speed of a vehicle contains a clockwork differential, one of which is a drive wheel formed by a spur gear and a bevel gear in engagement with a gear 5, which is driven simultaneously with the odometer of the vehicle, not shown , while the other drive wheel 6, which is also formed by a spur wheel and a bevel wheel, is driven by a gear wheel 7 which is driven by the movement of a clock 8. The differential gear holder 9 of this differential, the differential bevel gears 10 of which mesh with the two bevel gear parts of the drive wheels 4 and 6, has an axis 11 which is in alignment with an axis 12 on which the pointer 3 of the device for displaying the central mechanical Device for continuous display
the quotient of two quantities

Applicant:

Gabriel Angoulvant, Montmorency, Seine-et-Oise (France)

Representative:

Dr. jur. O. Eichin, lawyer,

Offenburg, Hauptstr. 34 b

Named as inventor:

Gabriel Angoulvant, Montmorency, Seine-et-Oise (France)

Claimed priority:

France of 16 May 1955 (691 753),

dated October 29, 1955 (56 135)

Speed sits. The axis 11 lies in the hollow shafts, which the hour hand 1 and the Wear minute hand 2 of the clock 8, and the three hands are positioned in front of a dial of the in F i g. 3 shown Art.

The axle parts 12 and 12 are connected to one another by elastic drive means which are provided by a spring 13 are formed, the ends of which are soldered to one of the axes 11 and 12 each.

The axle 12 is also firmly connected to a fork 14, in which elastic return means engage, which are formed by an elastic lamella 15, the equilibrium position of a certain Position of the pointer 3 corresponds to which it occupies when he z. B. one as a reference the selected average speed of 50 km / h. This elastic lamella is on a holder 16 attached, and their useful length as well as their flexibility are automatically dependent on the elapsed time changed by control means which comprise a movable stop 16 a, which is adjusted along the lamella 15 by a cam 17 which is driven by the mechanism 8 the clock is set in rotation (see Fig. 2).

If the vehicle is constantly traveling at the reference speed of 50 km / h, the drive wheels will turn 4 and 6 simultaneously in opposite directions at the same speed. The differential gears 10 load

409 597/197

not because of itself, so that the axis 11, the spring 13 and the axis 12 also stand still. The elastic Lamella 15 remains in its equilibrium position and holds the pointer 3 in its own equilibrium position. This pointer shows the mean speed from 50 km / h.

If, on the other hand, after one hour the vehicle has not driven 50 km, but a longer one Route, e.g. B. 100 km, the differential gears 10 and their axis 11 have to increase angle proportional to the distance traveled, and assuming that the Pointer 3 remains blocked in its equilibrium position, is the moment exerted on the axis 12 by the drive spring 13 for this magnification proportional to the distance traveled.

The pointer 3, which is exposed on the one hand to this moment and on the other hand to a counter moment, which is generated by the deformation of the elastic lamella 15 by the fork 14 thus remains stand in a new equilibrium position, which indicates an average hourly speed of 100 km. The useful length of the lamella 15 controlled by the cam 17 in the position it assumes after one hour of operation, corresponds to a moment which is about to be is that supplied by the spring 13 when the pointer 3 is in front of the division 100.

If the difference between the actual number of kilometers traveled and the 100 km, which the vehicle would have had to pass through if it were at the mean reference speed of 50 km / h would only be 50 km after two hours, is the real average hourly speed only 75 km / h. That in the spring 13 by the rotation of the differential gears 10 and their shaft 11 by this difference of 50 km corresponding angle is still the same as above, that generated by the elastic lamella 15 generated counter-torque has increased, so that the new equilibrium position of the pointer 3 automatically before the graduation 75 comes to rest.

This same total difference of 50 km would be after 3 hours at an average speed of 66 km / h, after 4 hours a medium speed of 62 km / h and after 5 hours a medium speed Speed of 60 km / h, from which it can easily be deduced that this is due to the elastic lamella 15 counter-torque generated must be a linear function of time, which is easy can be obtained by giving the cam 17 a suitable profile.

This mechanism can expediently by a device for starting, stopping and Return to zero of the device to display the mean speed must be completed. For this purpose, indicated very schematically, a control (not shown) can be used, which the any engagement or disengagement of the gear 5 of the odometer and the gear 7 of the clockwork allowed with the two drive wheels 4 and 6, with the differential gears in that of them occupied position remain blocked and an additional device to return to zero is provided to relax the spring 13 and return the cam 17 to its original position.

The device does not show the actually achieved average speed immediately after it has been put into operation on on. This value is only reached gradually more or less quickly, depending on the value of the moments generated by the spring 13 and the elastic lamella 15. This is practically none The disadvantage is that knowing the average speed is only interesting after a certain period of time. In the case of the in FIG. 4 illustrated embodiment

ίο of the dial is the adjustment amplitude of the pointer 3 smaller than in the case of the dial in FIG. 3, which are the divisions of the clock and display device but better to distinguish.

In the case of the in FIG. 5 illustrated embodiment instructs the mechanism of the device to display the average speed one through the odometer offset in rotation input axis 20 and one through the clock of the vehicle in rotation offset input axis 21, which are carried by base plates 22, 23 and 24. One with one double eccentric crank pin 26 provided gear 25 is in the ends of axles 20 and 21 rotatably mounted, and the elastic drive means are by two counter-rotating spiral springs 27 and 28, the inner ends of which are connected to the axles 20 and 21, respectively, and their outer ends each a crank pin 26 of the wheel 25 are attached, which with a gear 29 in engagement stands, which sits on a mounted in the two base plates 22 and 23 axis 30, which the before a suitable dial adjusting pointer 31 carries.

The two spiral springs 27 and 28 are identical to one another, and so are the drive ratios of the axles 20 and 21 are selected so that when the number of kilometers traveled by the vehicle becomes a given any point in time is equal to the number of kilometers it would have traveled through if it had been with the mean speed selected as the reference value

speed would be driven, the rotations of the axes 20 and 21 are the same.

The device is completed by elastic return means with flexibility that changes over time, which the in F i g. 2 shown correspond.

For this purpose, the gear 25 is provided with a fork 14 in which an elastic (not shown) Lamella engages whose equilibrium position corresponds to the equilibrium position of the pointer 31 and whose useful length is variable over time, as described above with reference to FIG. 2 executed.

In the above two display devices, the elastic drive means (differential and spring 13 in the first embodiment and springs 27 and 28 in the second) only have an effect when the mean speed different from a certain mean speed chosen as a reference variable is selected, which is generally smaller than the greatest mean speed of the vehicle will. As a result, the rest position determined by the rest position of the lamella 15 corresponds of the pointer 31 is not the zero point of the division of the dial.

In the embodiment of FIG. 6 this disadvantage is avoided. That shown in this figure Display device has an input shaft 32 which is mounted in a base plate 33 and which is from the odometer is driven and drives the inner end of a coil spring 34, the outer end of which

a crank pin 35 of a disc 36 is attached, which on one in the base plates 38 and 39 mounted axle 37 is seated. On this axis 37, a gear 40 is attached, which with another Gear 41 is in engagement, which is seated on an axle 42 carrying the pointer 43.

The spring 34 forms the elastic drive means of the display device, and the disc 36 also carries a fork 44, in which a free end of an elastic lamella 45 engages, which the elastic Forms return means. This lamella 45 is clamped at its other end in a holder 46, and a part 47, which can slide along the lamella to limit its useful length, is not through illustrated control means issued a translational movement, which it as a function of the time of the Holder 46 removed.

With a suitable choice of this time function, the rotation of the disk 36 can at any time be a linear function of the average speed at which the vehicle was traveling. In the equilibrium position corresponding to an angular adjustment Θ , which the disc 36 under the opposite action of a first torque C ₁ transmitted by the shaft 32 and the spiral spring 34 (which would have caused a rotation by an angle <d _x if only acting) and a second opposite _{assumes moment C 2} transmitted by the elastic lamella 45, it can namely be written:

C ₁ = C ₂

B),

C ₂ = ΒΘ, B ₁ = ρ Km,

where A and B mean the parameters corresponding to the operation of the spiral spring 34 and the elastic lamella 45, ρ a parameter corresponding to the reduction of the odometer, and Km the number of kilometers indicated by the odometer counter.

As already stated above, the characteristics of the spring and the elastic lamella must have a Function of time. To achieve the desired result, it is sufficient to select this function in such a way that that one obtains the following relation:

If, in fact, Q is a suitable constant and C ₁ and C ₂ are replaced by their values in the equation indicating the equality of the moments, one obtains in succession:

B Θ = A [B ₁ - θ),

B ₁ = QtB, ρΚ = QtB, ρ Km

B =

Qt

The deflection of the pointer 31 is thus divided by the total number of kilometers traveled proportional to the time taken to travel through it. He is therefore always to the middle Proportional driving speed.

In other embodiments, the elastic lamella 45, the effect of which as a result of a suitable adjustment of part 47 is a time function which corresponds to the following formula:

be replaced by a spring with variable hardness, as in FIG. 7 and 8 shown.

If a spring working only on rotation is sufficient, the in FIG. 7 device shown to be used. In this device, the helical spring 51 is mounted on an axis 52, which has a helical groove 53, which for receiving the spring 51 forming wire is deep enough and has the same pitch as this, with a nut forming part 54 more or can be screwed less far onto the threaded axle 52, whereby the The number of usable turns of the spring can be gradually reduced, with it being understood is that the moment acting on the spring seeks to enlarge its diameter.

The adjustment of the nut 54 takes place, for. B. by means of a long gear 55, which by a with the axis 56 connected to the odometer is set in rotation, the drive movement is done so that the hardness of the spring 51 is a function of time of the type indicated above.

If a coil spring is to be used, which work both in compression and in tension can, the device shown in Fig. 8 can be used. In this device is a Spring 57 arranged in a sleeve 58, the bottom 59 of which has a central threaded hole 60 into which a part 61 is screwed, the end 63 of which is provided with a helical groove which has the same pitch as the spring 57 and receives the turns of the same. Apparently is through a rotation of the part 61 in one direction or the other increases the useful length of the spring 57 or reduced.

The applications of the device are not restricted to the determination of medium speeds. The device can be used for a wide variety of applications, in general whenever it is a question of determining the mean value of a variable in with respect to a different quantity, in particular with respect to time. Incidentally, the device can also for the production of an apparatus for measuring the quotient of any two variable functions can be used, especially for making a division machine with a button "Dividend" and a button "divisor", each of which has a pointer playing in front of a divided dial, with the pointer of the main dial facing more correct Setting the two buttons indicates the result of the division.

The accuracy that can be achieved with such a device can be of the order of magnitude Be a slide rule, but their use is faster and can be done by anyone will.

When combined with the same device for manufacturing a product, such a device Arrangement the solution of three sets of tasks.

Claims (2)

Patent claims: 1. Mechanical device for the continuous display of the quotient of two quantities with free Selectable zero point suppression, in particular the average speed of a vehicle, with a differential gear, each of which has a drive wheel driven by one of the two sizes is, and its gear holder the drive torque for a pointer arrangement supplies, which is also exposed to the action of a return torque, characterized in that, that the drive torque A spiral spring (13) with a constant spring rate and the return torque via a spring (15, 45, 51, 57) with changeable spring constant proportional to the one variable on the Acts pointer arrangement. 2. Mechanical device according to claim 1, characterized in that the variability the spring constant of the clamped lamellar spring (15, 45) by changing its length by means of Shifting the clamping point (16 a, 47) is achieved. Considered publications:
German Patent No. 236 128;
French patent specification No. 849 070,
095 142;
U.S. Patent No. 2,529,070. 1 sheet of drawings 409 597/197 5.64 © Bundesdruckerei Berlin