DE3737403C2 - - Google Patents

Description

The invention is based on a hydraulic gear machine the genus of the main claim. With such a known tooth wheel machine is the pressure angle at the pitch point at least twenty degrees (GB 12 69 056). This has the disadvantage that the Tooth height is relatively small for a given outside diameter is. As a result, the delivery rate or swallowing rate of the gear machine is not optimal, pulsation and noise are still too high.

It is the object of the invention to provide a hydraulic gear machine of the type mentioned at the outset to create the largest possible Number of teeth also has the greatest possible tooth height, which Pulsation and noise can be kept low.

This task is indicated by those in the characterizing part of the main claim Features solved. This also has the advantage that the ratio from production to construction volume while maintaining favorable teeth number is significantly improved. In addition, the Ver reduction of the flank pressure in the critical area possible, whereby the life of the wheels is increased. Other advantages and ver improvement of the gear machine according to the invention result from the Subclaims.

drawing

Fig. 1 shows the two gears of a gear machine partially, the

FIGS. 2 to 4 relate to schematic illustrations.

Description of the embodiment

In Fig. 1, 10 and 11 denote the two gears of an otherwise conventional gear machine, the structure of which has not been discussed further, since the housing and bearing of the wheels are not essential to the invention and since they are otherwise generally known. W is the pitch point of the gears, E is the line of engagement. In known gear machines, this represents a straight line, usually at a pressure angle of approximately 20 degrees. The gear machine according to the invention has a completely different line of engagement, in such a way that there is a non-involute and non-cycloidal toothing. The line of engagement here represents a point-symmetrical curve based on the pitch point. In the area of the pitch point W , the tangent of the line of engagement has a relatively small angle, advantageously between 4 and 10 degrees, optimally about 6 degrees. Furthermore, the pressure line is characterized in that the pressure angle - starting from the pitch point W - increases continuously, in particular continuously, as in the exemplary embodiment according to FIG. 1, but it can also be an Archimedean or logarithmic spiral ( FIG. 2), which is from the wheel center starts, consist of two arcs with tangent T ( Fig. 3) or be designed according to a certain mathematical formula, as shown in Fig. 4.

The formula is: y = - a arc sin bx + cx , where z. B.

a = 7.5
b = 0.15
c = 1

can be.

The increase in the pressure angle is so small that the Undercut on the tooth flank just barely covers the overlap Decreased values below 1, i. H. that the degree of coverage is not becomes less than 1. With this interpretation you get for a ge given number of teeth the highest possible tooth.

Claims (3)

1.Hydraulic gear machine (pump or motor) with intermeshing gearwheels with non-involute and non-cycloidal teeth, in which the pressure line is a curve symmetrical to the pitch point, such that the pressure angle increases with increasing distance of the pressure line from the pitch point and the Degree of coverage is greater than 1, characterized in that the pressure angle of the pressure line ( E) at the pitch point (W) is between 4 ° and 10 °. 2. Machine according to claim 1, characterized in that the Line of engagement consists of two spirals around the wheel centers that are composed symmetrically at the pitch point. 3. Machine according to claim 1, characterized in that the Line of engagement consists of two arcs that are at the pitch point are composed symmetrically.