RU2374616C1 - Centrifugal unit to test materials - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: centrifugal units to test materials comprises base, rotary platform fitted on axle to move there about, specimen gripper attached onto aforesaid platform, two centrifugal weights for them to be fastened on specimen ends, and rotation drive. The latter comprises shaft and roller to come into friction contact with aforesaid platform, the roller being arranged off-center on the shaft extension. Note here that aforesaid rotation drive seats on additional platform mounted on aforesaid base to ensure shaft inclination toward platform axis.

EFFECT: higher accuracy and validity of tests.

1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known centrifugal installation for testing materials (RF patent No. 1762170, class G01N 3/08, 1991), containing a base, a platform mounted on it, a device for testing samples mounted on the platform, a roller radially mounted relative to the axis of rotation of the platform with the possibility of friction interactions with the platform, and a rotation drive with a shaft.

The disadvantage of the installation is the inability to conduct tests when bending samples against the background of centrifugal loading. Only centrifugal load acts on the samples.

Known centrifugal installation for testing materials (RF patent No. 2047124, class G01N 3/08, 1993), containing a base mounted on a platform with the possibility of axial movement, a device for testing samples mounted on the platform, the roller, radially mounted relative to the axis of rotation platforms with the ability to change the angle of inclination of the plane of its rotation to the axis of the platform and frictional interaction with the platform, and a rotation drive with a shaft.

The disadvantage of the installation also lies in the lack of the possibility of loading the sample not only by centrifugal, but also by bending loads.

Known centrifugal installation for testing materials (RF patent No. 1778611, class G01N 3/32, 1992), taken as a prototype. The installation contains a base mounted on the axis of the rotary platform with the possibility of axial movement, the capture of the sample mounted on the platform, two centrifugal weights designed to be fixed at the ends of the sample, a rotation drive including a shaft and a roller for frictional interaction with the platform mounted on the shaft end with eccentricity

The disadvantage of the installation is the inability to carry out tests when loading samples with bending loads in two planes, and with a centrifugal tensile load.

The technical result of the invention is to increase the amount of information by testing when loading the samples with both bending loads in two planes and a centrifugal tensile load.

The technical result is achieved by the fact that a centrifugal installation for testing materials, containing a base mounted on an axis of a rotary platform with the possibility of axial movement, the capture of the sample mounted on the platform, two centrifugal loads designed to be fixed at the ends of the sample, a rotation drive including a shaft and a roller for frictional interaction with the platform mounted on the end of the shaft with an eccentricity, according to the invention, the rotation drive is placed on an additional platform mounted on based on the provision of changing the angle of the shaft to the axis of the platform.

With this installation design, the platform rotates at a variable speed, which creates a bend in one plane, and reciprocating movements along the axis of rotation, as a prototype, which ensures bending in the second plane. In this case, unlike the prototype, rotational movements are performed in one direction, and this creates an additional centrifugal load. This achieves a technical result.

The drawing shows the installation diagram.

The centrifugal installation for testing materials contains a base 1, a rotary platform 3 mounted on an axis 2 with the possibility of axial movement, a gripper 4 of a sample 5 mounted on the platform, two centrifugal loads 6, 7, designed to be fixed at the ends of the sample 5, a rotation drive 8, including a shaft 9 and a roller 10 for frictional interaction with the platform 3, mounted on the end of the shaft 9 with an eccentricity "e".

The rotation drive 8 with the shaft 9 and the roller 10 is placed on an additional platform 11 mounted on the base 1 with a change in the angle of inclination of the shaft 9 to the axis 2 of the platform 3.

The eccentricity "e" is set by moving the roller 10 relative to the shaft 9 along the slot 12 with subsequent fixing by a nut 13. The platform 11 is mounted on a rotary axis 14, the position of which is fixed by a screw device 15.

Installation works as follows.

The drive 8 is turned on and the platform 3 is rotated through the shaft 9 and the roller 10. Due to the inclined position of the shaft 9 to the axis 2, the platform rotates at a variable speed, and centrifugal weights 6.7 create cyclic bending forces in a plane perpendicular to axis 2. To change the parameters cycles, change the angle of the shaft 9 to the axis 2, for which the device 15 releases the rotary axis 14, rotate the additional platform 11 to a new position and fix this position with the device 15. As the angle approaches the 90 ° amplitude and bending load cycles are reduced and become equal to zero when the angle of inclination is 90 °.

Due to the eccentric position of the roller 10 on the shaft 9, the platform performs reciprocating movements, and centrifugal loads 6, 7 create cyclic bending forces on the sample directed along axis 2. To change the parameters of the bending load cycles, change the eccentricity value “e”, which loosens the nut 13, the roller 10 is displaced along the slot 12 and the new position of the roller is fixed with nut 13. With zero eccentricity, the bending load becomes zero.

Due to the rotation of the platform 3 in one direction, the centrifugal loads 6, 7 create centrifugal tensile forces on the sample 5. To change the magnitude of the centrifugal load, the speed of rotation of the shaft 9 is changed by the drive 8. With zero eccentricity and with a value of the angle of inclination of the shaft 9 to axis 2 equal to 90 , tests are carried out under loading of the sample only by centrifugal tension.

The proposed installation provides tests when loading samples with bending loads in two planes, and with a centrifugal tensile load.

Claims (1)

A centrifugal installation for testing materials, containing a base mounted on an axis of a rotary platform with the possibility of axial movement, the capture of the sample mounted on the platform, two centrifugal weights designed to be fixed at the ends of the sample, a rotation drive including a shaft and a roller for friction interaction with the platform, mounted on the end of the shaft with an eccentricity, characterized in that the rotation drive is placed on an additional platform mounted on the base with a change in the angle of inclination she shaft to the platform axis.