SU1610232A1 - Method of checking gear wheels having external gearing - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to methods and means of controlling gears. The purpose of the invention is to improve the accuracy of control of the hypocycloidal wheel of a planetary hydraulic machine. The base surface A of the measuring device is made in the form of a prism with an angle due to the kinematics of the engagement and a length not less than the width of the test wheel 6, and the surface B of the measuring tip 3 is in the form of a segment of a concave cylindrical surface with a radius R equal to the instantaneous center of rotation of the wheel up to diametrically opposite points of contact with its mating gear. Such basing ensures the self-installation of the gear on the measuring position under the action of its gravitational forces and allows to increase the accuracy of control of the hypocycloidal wheel of the planetary hydraulic machine. 2 Il.

Description

The invention relates to mechanical engineering, in particular to methods and means of monitoring gears.

The purpose of the invention is to increase the accuracy of control of the hypocycloidal wheel of a planetary hydraulic machine.

Figure 1 shows a structural diagram of a measuring device for implementing the proposed method: figure 2 is a design diagram for determining the radius of the bore R of the measuring tip.

The measuring device (Fig. 1) comprises a table 1 with a base surface a, a stand 2 associated with it, a movable measuring tip 3 with a measuring surface b, spring-loaded 4, an indicator 5 mounted on the stand 2 and kinematically connected with the measuring tip 3. In addition in FIG. 1 indicates the controlled wheel 6, the angle of the prism a, the radius r of the tooth of the controlled wheel.

Figure 2 shows the center Οι of the controlled gear, the center O2 of the mating gear with the controlled gear, the instantaneous center of rotation Os, the points c and d of the contact of the controlled gear and the mating gear.

The base surface a of the table 1 of the measuring device is made in the form of a prism with an angle determined by the kinematics of engagement and a length not less than the width of the controlled wheel 6, and the surface b of the measuring tip 3 is in the form of a segment of a concave cylindrical surface with a radius R 'equal to the distance from the instant center wheel rotation to diametrically opposed points of contact with a mating gear determined by the ratio

R '= 2Ri · cos ^ + g, where R' is the radius of the bore of the surface of the measuring tip:

Ri is the radius of the pitch circle of the controlled gear:

g is the radius of the tooth of the controlled wheel; βι - half the angle of the teeth of the controlled wheel.

As seen from Figure 2, R '= g + OzO5 IzDOzKO5 _{Λ Λ} Oz K

From ΔΟ3Ο1Κ determine OzK = Ri ♦ sin β, then _n η _ Rising _ ^2Rlsin ^ ” ^cos ^ ^{03 05} ~ sTn ^ i / 2 ~ = 2Rrcos ^, therefore, R '= 2Ricos βι / 2 + g.

The prism angle ά is determined by the well-known formula a = 180 - 2 arcsin.

Гш г Гр where R _p - radius of a circle passing through the centers of the circles of the teeth of the rotor, mating with a controlled wheel:

Gt ~ the radius of the teeth of the controlled wheel;

Gr - the radius of the teeth of the rotor, mating with a controlled wheel;

β - half the angle of the teeth of the rotor, mating with a controlled wheel.

When performing the surface b of the measuring tip 3 in the form of a segment of a concave cylindrical surface with a radius R 'and the base surface in the form of a prism with an angle a, the principle of the self-installation of the gear when moving around the instantaneous center of rotation Os is not violated. since this radius R 'passes through the tangent points c and d of the controlled gear with the mating wheel.

The method is as follows.

Set the measuring device to the nominal size of the controlled parameter of the gear wheel on the model part, base the controlled wheel 6 on the base surface and the device on the side working surfaces of the teeth of the wheel 6, bring into contact with the working surfaces of the gears of the wheel 6 the surface b of the measuring tip 3 associated with the indicator 5 , and measure the deviation from the nominal size.

A prismatic base surface with an angle a and a length not less than the width of the controlled gear and the radius of the measuring tip with radius R provide self-alignment of the gear in the measuring position and improve the control accuracy of the hypocycloidal wheel of the planetary hydraulic machine.

Claims (1)

Claim A method of controlling gears with external gearing, namely, that the measuring device is adjusted to the nominal size of the controlled parameter of the gear according to the model part, the control gear is based on the base surface of the device, a spring-loaded measuring tip connected to the working surfaces of the gear teeth with the indicator of the measuring device, and measure the deviation from the nominal size, characterized in that, in order to improve the accuracy of control of the hypocyclo wheel of the planetary hydraulic machine, the base surface of the measuring device is made in the form of a prism with a length not less than the width of the controlled wheel, and the working surface of the measuring tip is made in the form of a segment of a concave cylindrical surface with a radius equal to the distance from the instantaneous center of rotation of the gear to 'diametrically opposite points touching it with a mating gear defined by the ratio R '= 2Ri · cos ^ + g. where R 'is the radius of the bore of the surface of the measuring tip; Ri is the radius of the pitch circle of the controlled gear; β \ - half the angle of the teeth of the controlled wheel; g is the radius of the tooth of the controlled wheel.