DE420044C - Device for displaying the torque in piston engines - Google Patents

Description

Device for displaying the torque in piston engines. It exists the need for either the instantaneous values or the temporal mean values of the circumferential forces determine the torques of each piston engine in each individual working space contributes. So far, this has mainly been done by drawing, by printing the indicator of the work space concerned was determined and on it on arithmetical or the circumferential force was determined graphically. By applying these circumferential forces depending on the crank angle one obtains the tangential pressure diagram, from which one in turn can determine the mean torque in a known manner.

Also for this are already. Procedure became known by between the indicator piston and the part resisting its pressure (spring, weight, etc.) a periodically changing power converter is switched on. The present invention however, dispenses with the use of these highly stressed by the indicator forces and therefore heavy and heavily rubbing power converters and only uses suitable ones Path converter between the path of the normal piston and spring o. The like. Existing Indicator and the pen or pointer path. This is also used for this transducer a much simpler gear as used for the aforementioned power converter.

The invention relates to a device for mechanical operation this transformation; This mechanical transformation is supposed to serve a threefold purpose can be achieved, namely: firstly, the instantaneous Torque, secondly the temporal average value of the torque and thirdly in the case of multi-cylinder machines display the sum of the individual torques.

For a better explanation let us briefly on the theoretical basics received such a display device.

With a normal crank drive, the piston forces act on the crank pin P and the reaction of the slide pressure. The latter is merely the effect of the finite connecting rod and rod length and can mostly without major errors and for simplification of the apparatus can be neglected. In this case the circumferential force is T = P sin a if a is the crank angle. By the subject matter of the invention, the Piston forces P into the values P. to be converted to sin a.

In the case of a normal indicator, the piston of which has a greater mass, the P-forces are influenced by the inertial forces P "", which are positive or negative are. On the mean time pressure of the indicator forces, however, these have inertia forces no influence, since the sum of the free mass oscillations is zero. As a result the harmless influence of the masses can in contrast to known devices the indicator parts, e.g. B. the piston, have any mass, and the connection with the display device can be configured as long as desired by means of a rigid linkage will..

The known indicator devices have a force-absorbing one Piston, a resisting part used for measurement, which is usually consists of a spring, but also z. B. can be formed by an air chamber, and a way-pointing device, which in most cases directly from the spring travel according to Hooke's law, one can infer the forces. The task instead of the Piston forces P indicate the circumferential forces on the crank P # sin a, is done by solved a converter that this translation proportional to the crank angle u and can be switched on in two different places, namely either as a force converter in front of the suspension or at least in part of the suspension or as a pure transducer behind the suspension.

The invention relates only to the second solution, namely the transformation of the indicated paths by a path converter behind the suspension.

Apparatus for carrying out the method is shown in the drawings For example, it illustrates:,. # Fig. i is a schematic view a display device according to the invention, partially in section, Fig. 2 a just such a view of a somewhat different embodiment., Fig. 3 is a similar one View of a further embodiment, Fig. Q. View of a single part, Fig.5 a section through an individual part and Fig. 6 the view of an arrangement for display the sum of the circumferential forces in a multi-cylinder machine by means of a device according to Fig. 3, on a smaller scale.

According to the invention, an indicator cylinder 2 is on a frame i Piston 3 and spring .l attached. On the frame i is also by means of a pin 5 a curved rocker arm 6 rotatably mounted, which is supported by an arm 7 and a rod 8 is positively connected to the piston 3. On the frame is also an angle lever 9 with the two arms io and i i rotatable as an indicator lever stored. A rod 12 is articulated at the end of the arm and is supported by means a roller 13; against the rocker arm 6 or is inevitable at this point guided on the rocker arm. A shaft 14 with crank 15 can be used in any way stored on the frame i. The crank 15 carries a sliding block 16, which can move in a crank loop 17. The crank loop is by rods 18 or the like. Guided into the frame i and connected to the rod 12 by a handlebar i9.

The arrangement is now made in this way, through a special position the crank 15 to the crank of the cylinder to be indexed and by choosing the Dimensions of parts 6, 12, io and ig so that the rod 12 with its support roller 13 is just at the pivot point of the rocker arm 6, that is, by the Indicator piston 3 any movements on the rod 12 are not transmitted can when the machine piston is in the dead center.

The rocker arm acts in the other positions of the machine piston 6 with one of its arms through the support roller 13 onto the lever 12 and pivoted den ', # Vinkelh ° b, el 9, so that the deflection of the arm i i can be read on a scale 2o can be. This scale then indicates the current circumferential forces, or the same can be recorded at this point by a writing device. Around However, in order to obtain current values as precisely as possible, it is necessary to to keep the mass effects of the entire system as small as possible.

As already stated in the introduction, however, play in the investigation the mean circumferential forces. these mass effects do not matter and can from this Basic indica ', orkolben and the whole thing in connection with it standing Link system have any mass. To determine these mean circumferential forces is on the frame i on an axle 21 a large mass or a system of such Masses 22 rotatably mounted, and a lever 23 connected to the axis 21 is with the arm i i of the angle lever 9 is connected by a spring 2: 1. This arrangement made possible by means of a pointer 25 on a scale. 26 the mean circumferential forces read or have the same recorded at this point.

In the device according to Fig. I, the errors caused by Neglecting the slideway forces or the finite length of the connecting rod in the Display device arise, not taken into account.

In the case of the object according to Fig. 2, these errors are if possible considered. Here, too, there is an indicator cylinder 2 with a piston on a frame 27 3 and spring 4 provided, which by means of a rod 8 and arm 7 on a rocker arm 6 acts and the movement of the indicator piston 3 through the support roller 13 and lever 12 to an angle lever 9 with the arms io and i i transfers, so that on a scale 2o the current circumferential forces can be displayed. What is essential here is da.ß the crank 15 connected to the machine crank on a crank loop z8 acts, which is mounted oscillating about a point 29, so that during the transmission the movement of the crank loop on the rod 12 by a handlebar i 9 the Fact is taken into account that the piston speed is on the inner crank path is greater than that on the outer crank path. Accordingly, the Device also the rod 12 during the inner piston travel of the to be indexed The cylinder is pivoted at a greater speed than on .dem, the outer piston travel. Here, too, the angle lever 9 is supported by a spring 24 with a system of masses 3o connected, and by means of a pointer 31 can be on a scale 32 the mean circumferential force can be read.

In the subject of Figure 3, an indicator cylinder 2 finite piston 3, spring 4 and rod 8 is also provided in a frame 33. Instead of the rocker arm 6, however, a disk 34 is rotatably mounted in pin 35 and is connected to the rod 8 of the indicator piston by an arm 36. A shaft 37 is rotatably arranged in the plane of the mounting of this disk 34. In arms 38 connected to this shaft, a lever 39 with a support roller 4o is rotatably mounted, balanced by a mass 4i and is under the action of a spring 42. The lever 39 is connected by a support rod 43 to a displaceable rod 44, which on a pointer lever 45 works. By the spring 42, the roller 4o is always pressed against the disk 34, and the arrangement is made such that when the shaft 37 rotates and the roller 40 rotates in the dead center position of the piston of the cylinder to be indexed, the lever 39 in the plane of oscillation of the Scheiba 34 (plane of the pin 35) is so that any forces are not exerted by the disk 34 on the lever 39 in this position as a result.

To now adjust the lever 39 exactly to the dead center position of the piston To enable the cylinder to be indexed, the shaft 37 is driven by means of helical gears 46 and 47. By shifting the helical gear 47 axially an exact setting of the lever 39 can thus be effected. The shaft 48 of the helical gear 47 is driven by the crankshaft of the cylinder to be indexed.

Instead of this helical gear arrangement, the shaft 37 can also be driven directly, as shown in Fig. 4, or the shaft 48 can be driven by a concentric bevel gear, with the dead center being set by pivoting the lever 49 on which the intermediate gears 50 and 51 are arranged.

In the subject of Figure 3, the pointer lever 45 is connected by an elastic intermediate member 24 to a large mass 30 and pointer 31 to display the mean circumferential forces.

In the embodiment described so far according to Fig.3 lies insofar as there is a certain inaccuracy as the influence of the finite connecting rod length is not taken into account. But this can easily be done by the fact that in the drive of the shaft 37 is a rotating crank slider or an eccentric drag crank transmission is switched on.

Such an arrangement is shown by Fig.5, where on the frame 33 a drive wheel 53 is mounted eccentrically, which by means of a pin 53 the Antxiebsbewegung transmits to the shaft 37 in such a way that during each revolution the rotational speed is periodically decelerated and accelerated. The order is also made here in such a way that the movement of the piston of the to be indexed Cylinder from the inner dead center position to the center and vice versa a slight acceleration, in the movement from the center to the outer dead center position and vice versa, however, a slight delay takes place.

In order to get the middle one in multi-cylinder machines Torque to be read or written down on the whole machine temporarily or continuously the arrangement according to Fig. 6.

If different work areas work on one crank, only one displacement converter, e.g. B. according to Fig.3, is required, namely for the algebraic sum of all piston forces. This can be formed by combining the paths of the indicators of the various work spaces, which can be done in a known manner by means of compensating levers, compensating pistons or differentials. In Fig. 6 is illustrated in a schematic manner how the movements of four indicator pistons 54, 55, 56, 57 by means of tension members 58, 59, 6o and 6 1 act on the disk 34 of a device according to Figure 3, these tension members by a Spring 62 are kept permanently under tension.

The deflections of the indicator pistons can be basically similar in the case of multi-crank machines, they can also be added after the position transducers.

Claims (9)

PATENT CLAIMS: i. Device for displaying the torque at. Piston machines, characterized in that between the indicator piston path and the pointer path a position transducer that is periodically changing as a function of the crank angle is switched on with the aid of a rocker arm or the like, which is fixedly mounted together with the indicator cylinder, so that the deflections of the pointer do not correspond to those indicated by the indicator piston Indicator forces, but the circumferential forces are proportional and therefore equal to zero in the two crank deadlines. 2. Set up according to Claim i, characterized in that the indicator piston with the opposite to the Indicator cylinder fixed rocker arm (6 or 34) in non-positive Connection is, which on a pointer lever (9 or 45) through the mediation of a depending on the crank of the cylinder to be indexed movable support member (12 or 39, 40, 43, 44) acts in such a way that the latter does not have any, in the positions 9o and 27o ° of the crank, however, the greatest deflections of the pointer evokes. 3. Device according to claim 2, characterized in that the position of the support member (i2) acting on the pointer lever to the rocker arm (6) a cross loop is effected, which is connected to the machine crank by a Crank is moved. 4. Device according to claim 2 and 3, characterized by a for setting the support member, the oscillating ones mounted on the frame of the performance are used Cross bow. 5. Device according to claim 2, characterized in that the from the indicator piston.en moving rocker arm is designed as a disk against which the support roller (40) by a lever mounted in a rotating shaft (37) (39) is pressed. 6. Device according to claim 2 and 5, characterized in that that for precise adjustment of the support member of the drive of the shaft (37) from the Machine crank is done by adjustable helical gears (46, 47). 7. Establishment according to claim 2 and 5, characterized in that for precise adjustment of the support member in the drive of the shaft (37) a differential gear with adjustable intermediate gears (5o, 51) is switched on. B. Device according to claims 2 and 5, characterized in that that to take into account the finite connecting rod length in the drive of the shaft (37) a rotating crank loop or a drag crank is switched on. 9. Device according to claim 2 to 8, characterized in that to display the mean circumferential force of the display lever by an elastic intermediate member. (24) is connected to a further lever (23) carrying a pointer (25 or 31), the latter being equipped with a large mass (22 or 3o). ok Device according to claim 2 to 9, characterized in that for determining the algebraic sum of the piston forces more cylinders the oscillating lever (6) a plurality of indicators mi ttels tension members (58 to 61) and compensating rolls, compensating lever or differentials acting on a common Wegumformer.