SU418706A1 - - Google Patents

Description

one

The invention relates to measuring instruments in mechanical engineering, in particular, to iribors for monitoring involute irofil gears.

Known instruments for controlling an involute gear wheel profile include a measuring spindle for rotating the test wheel, a carriage kinematically connected to the spindles and a carrier measuring tip in contact with the involute profile of the test wheel, mounted on a center rod, a rotating body reproducing the main circumference of the circumference, the circumference of the test wheel, the rotating body, the repetitive main circumference, the circumference, the reproduced main circumference circumferential area, the circumference, and the circumference of the test wheel. wheels in contact with this body ruler, located on the carriage, and the readout device associated with the measuring tip .

Such tools do not control the wheels with different diameters of the main circumference, since the rotational body is made in the form of a disk, as a result of which the body of the Rotation should be replaced when controlling the involute profile of a gear wheel with a different diameter of the main circumference.

In order to avoid reconfiguring the device for monitoring wheels of another size, the proposed device uses a rotational body in the form of a truncated cone adjustable in height.

FIG. 1 shows the proposed device, the cut; in fig. 2 - the same, top view.

In the housing 1 of the device, there are located a sleeve 2 height-adjustable with a measuring rod G 3 built into it on the supports, and a meter of linear displacements of the sleeve, made, for example, in the form of a readout 4 and a nut-limb 5 (instead of a screw and a nut, use any measuring instrument linear displacement: line measure, inductive sensor, etc.).

From turning, the sleeve 2 is held by the guide pin 6 fixed in the housing 5.

On the pin 3, a rotation body 7 in the form of a truncated cone is fixed coaxially with it. The angle of the cone and the diameter of its outermost (initial) section are pre-certified by known methods. The pinch 3 has a notch 8 for fastening the checked gear 9.

The housing 1 has guides 10 for a radial mounting carriage 11, a transport screw 12 is mounted on it, a flywheel 13

5 and calibrated spring 14.

On the upper part of the carriage 11 there are transverse guides 15 for a tangential slide 16, bearing on themselves a ruler 17 and a stand 18 with a tip 19 and a reading unit 0

poiiCTBOM 20, a as well as spindle 21 with handwheel 22.

The device works as follows.

The controlled gear 9 is fixed on the spindle 3, after which it is necessary to ensure the contact of the ruler 17 with the cone 7 in such a cone section, the diameter of which corresponds to the diameter of the main circle of the tested wheel.

For this, the sleeve 2 is set by the reference screw 4 and the nut-limb 5 and is verticaled to the corresponding value. After this, the irodol carriage 11 with screw 12 and the flywheel 13 moves in radial direction until the ruler 17 comes into contact with the cone 7 with the tared force generated by the spring 14.

Then the tip 19 is brought into engagement with the side of the wheel tooth and provides interaction between the tip 19 and the reading device 20 (Fig. 2).

A linear interchange indicator with a divide value of 1 µm or less can be used as a readout device or a self-reading device of any type.

After setting the device is ready for operation.

To control the deviations of the side profile from the correct involute, the flywheel 22 of the screw 21 rotates smoothly. With this ruler 17, you get the tangent and shifting in the plane perpendicular to the spindle axis and the cone 7 rotates (due to the friction force) together with the spindle around its axis at an angle corresponding to the amount of movement of the run-in ruler.

Due to these two movements, tip 19, associated with the run-in ruler and moving along with the lei, determines the correct involute. If the side of the tooth has distortions, the reading device 20 shows them; if there are no distortions, then the arrow of the reading device is stationary.

Subject invention

A device for controlling an evolve profile of gears, containing a measuring spindle designed to rotate a test wheel, a carriage, kinematically connects a spindle and a carrier measuring tip in contact with an evolve profile of a controlled wheel, mounted on a spindle, a rotating body reproducing the base circumference of the controlled wheel, a ruler co-activating with this body located on the carriage, and a reading device associated with the measuring tip, which is different By the fact that, in order to avoid reconfiguring the iribor and the control of the wheels of another size, the body of rotation is made in the form of an adjustable but truncated cone height.

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-fig .1