RU170727U1 - SHOE-WHEEL GEAR - Google Patents

Abstract

The utility model relates to the field of engineering, in particular to gears used for machines and mechanisms, devices and apparatuses, including for use in vehicles and aircraft, as well as in textile and food engineering, in the rubber and other industries. The helical gear contains a metal hub, a polymer disk rigidly connected to it with various stiffening ribs, turning into a ring gear. Between the stiffening ribs of the polymer disk there are four radial through holes arranged symmetrically in pairs relative to the longitudinal axis of the keyway of the hub of the helical gear. EFFECT: reduced material consumption and weight of helical gears.

Description

The utility model relates to the field of engineering, in particular to gears used for machines and mechanisms, devices and apparatuses, including for use in vehicles and aircraft, as well as in textile and food engineering, in the rubber and other industries.

A helical gear is known that contains a metal hub, a polymer disk rigidly connected to it with stiffeners and tides, turning into a gear ring, while a number of stiffeners have a reduced length, and there are recesses and / or grooves on the outer cylindrical surface of the hub (see RF patent No. 2381401, publ. 02/10/2010).

The reasons that impede the achievement of the technical result indicated below when using the known device adopted as a prototype include high material consumption.

The technical problem that the utility model addresses is the development of helical gears.

EFFECT: reduced material consumption and weight of a helical gear due to the presence of four holes between the stiffeners of the polymer disk while maintaining the strength characteristics and structural stability to lateral and longitudinal loads, the strength and stiffness of the adhesion of the hub and gear wheel.

The technical result is achieved by the fact that the helical gear contains a metal hub, a polymer disk rigidly connected to it with various stiffeners, turning into a gear ring.

The peculiarity is that between the stiffening ribs of the polymer disk there are four radial through holes arranged symmetrically in pairs with respect to the longitudinal axis of the keyway of the helical gear hub.

In a preferred embodiment of the utility model, the holes are trapezoidal.

The essence of the claimed utility model is illustrated by the drawings presented in figures 1 and 2.

In FIG. 1 shows a general view of a helical gear.

In FIG. 2 shows a section AA of figure 1.

The helical gear consists of a metal hub 1, to which a polymer disk 2 is rigidly connected, turning into a gear ring 3. The polymer disk 2 has various stiffening ribs 4, some of which can be made in the form of ribs with a reduced length.

Between the ribs 4 of the stiffness of the polymer disk 2 there are four trapezoidal radial through holes 5 arranged symmetrically in pairs relative to the longitudinal axis of the keyway 6 of the hub 1 of the helical gear.

Also on the surface of the polymer disk 2 can be made tides 7 in the form of disks of a smaller size, designed to install metal markers for the operation of the injection engine. Also on the outer cylindrical surface of the hub 1, grooves and / or recesses can be made in the form of round or square recesses, which provide a rigid and reliable fastening of the gear in the longitudinal direction.

Helical gears are made by injection molding from polyamide 6 or 66 compositions (for example, Armamide PASV30) using hub blanks of various metals.

The manufactured helical gears with hub options were installed in the engines for comparative bench and operational tests as part of the engine in the amount of 400 hours.

Comparative tests on the subject of flexural strength with the notch of the hub for various designs of helical gears, carried out on the press in the laboratory of UMP OJSC, Ulyanovsk, are presented in the table:

Thus, the implementation of the helical gear described above using the entire proposed set of essential features allows to reduce the material consumption and weight of the helical gear while maintaining its strength characteristics.

Claims (2)

1. Helical gear containing a metal hub, a polymer disk rigidly connected to it with various stiffeners, turning into a gear ring, characterized in that four radial through holes are made between the stiff ribs of the polymer disk, arranged symmetrically in pairs relative to the longitudinal axis of the keyway of the helical hub gears. 2. The gear according to claim 1, characterized in that the holes have a trapezoidal shape.

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