RU2073223C1 - Bench for testing conical gears - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: bench has bed, electric motor mounted on the bed, technological conical ger transmission, and loader. One shaft of the technological gear transmission is connected with the electric motor and has a mounting member for mounting one of the wheels of a gear to be tested. The second shaft of the technological gear is hollow, has mounting members for mounting the second wheel with the shaft of the gear to be tested, and mounted for permitting rotation with respect to the wheel of the technological transmission. The loader is rigidly connected with the shaft of a gear to be tested and hollow shaft of the technological transmission. The loader may be made up as a slipping clutch. EFFECT: enhanced reliability of testings. 2 cl, 1 dwg

Description

 The invention relates to mechanical engineering, in particular to testing machines and stands.

Known stands for testing bevel gears and their elements in a closed loop, containing in addition to the tested additional process gears [1, 2]
Their disadvantages include high energy costs for manufacturing and testing, low accuracy of obtaining test results, high metal consumption.

 For the prototype, a test bench was chosen for testing two worm gears and two bevel gears with a closed power circuit [3] The stand also has an electric motor connected by a shaft with two gears of bevel gears, as well as an elastic element that carries out axial movement of the worm.

Famous booth has the following disadvantages:
in its power circuit there are simultaneously four pairs of gears and this causes large losses of energy due to friction in them;
the presence of a large number of elements in the power circuit leads to low reliability of the stand, necessitates the replacement of all rubbing parts during life tests, which ultimately also leads to an increase in the cost of testing:
the presence of a large number of gears in the stand leads to a large metal consumption;
the presence of worm gears in the power circuit leads to speed limits during testing, which may affect the accuracy of the results.

 The aim of the invention is to reduce energy consumption and improve the accuracy of obtaining test results.

 To achieve the set chain, the test and technological bevel gears are arranged so that the axes of the gears of the gears coincide, while on the one hand the gear of the test gear through the shaft is rigidly connected to the gear of the technological gear and the motor shaft, and on the other side the wheels of the test and technological gear are connected among themselves through a loader.

 The drawing shows a kinematic diagram of the proposed stand.

 The stand contains a test bevel gear consisting of gear 1 and wheel 2; technological bevel gear consisting of gear 3 and wheel 4; shafts 5, 6 and a hollow shaft 7 connecting the corresponding gear elements; a loader consisting of levers 8 and threaded ties 9; an electric motor 10 mounted on a bed 14 and connected to one of the shafts by a coupling 12.

 The stand works as follows.

The threaded ties 9 in the loader create a force and through levers 8 the torque is transmitted on one side through the shaft 6 of the gear 2, on the other hand through the hollow shaft 7, the gear 4 of the technological transmission, through the gearing 3 of the technological transmission, through the shaft 5 of the gear 1 the test gear and locks on the gearing of the test gear. The electric motor 10 reports a rotational movement through the clutch 12 to the shafts of the test and technological gears. This is how the stand operates under the condition that the gear ratios of the test and technological gears are equal, i.e. I ₁₂ I ₃₄ . If the gear ratios of the test and technological gears are not equal to each other, then a slip clutch is included in the power circuit instead of the loader, torque is accumulated for each revolution of the gears in the power circuit and, thanks to the slip in the clutch, its value in the circuit is kept constant.

 The proposed stand contains the minimum number of gears needed to close the power circuit. The coincidence of the axes of the gears of the test and technological bevel gears leads to the fact that the different diameters of the gears of these gears can, at the same moment in the power circuit, significantly reduce the force in the gears of the gears of the technological bevel gear and, therefore, ensure its greater durability with respect to to the test.

Claims (2)

 1. A test bench for closed-loop bevel gears, comprising a bed, an electric motor placed on it, a technological bevel gear, one shaft of which is connected to the electric motor and has mounting elements for installing one of the wheels of the gear under test, and a loader, characterized in that the second the technological transmission shaft is hollow and has mounting elements for installing a second wheel with the shaft of the test gear and the possibility of rotation relative to the technological gear wheel chi, and the loader is rigidly connected with the shaft of the tested and hollow shaft of the technological gear.  2. The stand according to claim 1, characterized in that the loader is made in the form of a slip clutch.