RU2542595C1 - Unit for study of material sample on abrasion with ice - Google Patents

Abstract

FIELD: testing technology.

SUBSTANCE: unit comprises a base on which a horizontal platform is placed, provided with a rotary drive around the vertical axis with the ability to generate efforts pressing the samples of ice to abraded sample radially relative to the axis of rotation of the platform. The sample of the abraded material is made in the form of a cylinder. The platform is provided with means of rigid fixing of the sample. The stand of the unit is provided with vertical racks, the longitudinal axes of which lie in one plane with the axis of rotation of the platform. The means of retaining the ice samples are made in the form of horizontal guides passed through the vertical racks, made with the ability of longitudinal displacement of ice samples in them. In parallel with the guides over them in height providing the possibility of placing the sample of the abraded material on the platform in the vertical racks the through holes are made, through which a stem is passed, which ends are provided with vertical rods. On one of the vertical rods a power cylinder is attached with the ability of reciprocating movement of its stem along the longitudinal axis of the first sample of ice and the rest into it. The second vertical rod is provided with a stem with the footstep at the end, which rests on the end of the second sample of ice.

EFFECT: ensuring a stable contact area of the friction materials, compactability and universality of the unit, which enable to use it with rotational and translational motion of ice.

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Description

The invention relates to techniques for mechanical testing of materials for abrasion resistance to fracture and can be used, in particular, for testing for ice abrasion.

A known installation for examining a sample of material for ice abrasion, containing a base, means for holding a sample of abrasive material, equipped with a rotation drive, and means for holding a sample of abradable material (see Experimental study on abrasion of concrete by sea ice, placed on it, article on the 20th OTC in Houston, Texas, May 2-5, 1988).

The disadvantage of this solution is the low productivity, since it does not allow testing of more than one sample.

There is also known an apparatus for examining a material sample for ice abrasion, containing a base on which a horizontal platform is placed, capable of rotation, around a vertical axis and holding an annular sample of abrasive material, a platform rotation drive, means for holding samples of abrasive material, configured to impart him efforts, pressing against the abrasive surface (see RF patent on PM No. 45826, IPC G01N 3/56, 2005).

The disadvantages of this design include the unstable width of the contact surface due to wear of the material of the abrasive surface and one-sided abrasion direction (spindle rotation only in one direction).

The task to which the proposed technical solution is directed is to increase the reliability of the test by bringing the sample of the test material into motion in both rotational and reciprocal direction.

The technical result that is achieved when solving the problem is expressed in ensuring a stable contact area of rubbing materials, compactness and universality of the device, which allows it to be used for rotational and translational motion of ice.

The problem is solved in that the installation for examining a sample of material for ice abrasion, containing a base on which a horizontal platform is placed, equipped with a rotation drive around a vertical axis with the possibility of forming forces pressing ice samples to the abradable sample radially relative to the axis of rotation of the platform, differs in that the sample of the abradable material is made in the form of a cylinder, while the platform is equipped with means for its rigid fastening, while the bed of the installation is equipped with a vertical steel racks, the longitudinal axis of which lie in the same plane with the axis of rotation of the platform, while the means for holding ice samples are made in the form of horizontal guides passed through vertical racks made with the possibility of longitudinal movement of ice samples into them, while parallel with the guides, above they are at a height that provides the possibility of placing samples of abradable material on the platform, through holes in the vertical posts are made through holes through which they are passed with the possibility of longitudinal the rod, the ends of which are equipped with vertical rods, while a power cylinder is mounted on one of the vertical rods with the possibility of reciprocating movement of its rod along the longitudinal axis of the first ice sample and abuts against it, while the second vertical rod is equipped with a rod with a fifth at the end rested at the end face of the second ice sample.

A comparative analysis of the essential features of the proposed technical solution with the essential features of analogues and prototype indicates its compliance with the criterion of "novelty."

In this case, the distinguishing features of the claims solve the following functional tasks.

The signs "... the sample of the abradable material is made in the form of a cylinder, while the platform is equipped with a means of its rigid fastening ..." provide the ability to transmit abrasive forces along the cylindrical surface of the sample during its rotation around the longitudinal axis of symmetry (rotation).

The signs "... the bed of the installation is equipped with vertical struts, the longitudinal axes of which lie in the same plane with the axis of rotation of the platform ..." ensure the symmetry of the loading of the sample by the forces pressing abrasive samples to it.

The signs "... the means for holding the ice samples are made in the form of horizontal guides, passed through vertical racks, made with the possibility of longitudinal movement of ice samples in them ..." provide the application of abrasive forces to the cylindrical surface of the abraded sample.

The signs "... in parallel with the guides, above them at a height that allows the abrasive material to be placed on the platform, through holes are made in the vertical posts through which the rod is passed with the possibility of longitudinal movement, the ends of which are provided with vertical rods, while on one of the vertical rods a power cylinder is fixed with the possibility of reciprocating movement of its rod along the longitudinal axis of the first ice sample and abuts against it, while the second vertical rod The bottom is equipped with a rod with a fifth at the end, abutted on the end face of the second ice sample. ”They provide the possibility of fixing two samples of abradable material and“ automatic preservation ”of the force of pressing the samples against the abrasive surface.

Figure 1 shows the installation diagram. Figure 1 shows the sample 1 of the abradable material, the base 2, the rotation drive 3, the platform 4, the means 5 for hard fixing the sample 1, vertical racks 6, ice samples 7, horizontal guides 8, through holes 9, rod 10, vertical rods 11 and 12, the master cylinder 13, the spring-loaded rod 14 of the master cylinder 13, the rod 15 with the fifth 16, the spring 17 of the master cylinder 13.

The apparatus for examining the material sample 1 for ice abrasion contains a base 2 on which a rotation drive 3 is mounted. A horizontal platform 4 is coaxially mounted on the drive 3. The platform 4 is equipped with means 5 for rigidly securing the sample 1, for example, made in the form of several protrusions rigidly fixed to platform 4 with the ability to contact with the corresponding grooves (slots made at the lower end of the sample, supported by the platform 4). The base 2 of the installation is equipped with vertical racks 6, the longitudinal axes of which lie in the same plane with the axis of rotation of the platform 4. Means for holding ice samples 7 are made in the form of horizontal guides 8, passed through vertical racks 6, made with the possibility of longitudinal movement of ice samples 7 in them . At the same time, parallel to the guides 8, above them at a height that allows the sample 1 of the abradable material to be placed on the platform 4, through holes 9 are made through holes 9 through which the rod 10 is passed with the possibility of longitudinal movement, the ends of which are provided with vertical rods 11 and 12 A power cylinder 13 is mounted on the vertical rod 11 with the possibility of reciprocating movement of its rod 14 along the longitudinal axis of the first ice sample 7 and abuts against it. The second vertical rod 12 is provided with a rod 15 with a fifth 16 at the end, abutted at the end of the second ice sample 7.

Installation works as follows.

Sample 1 of the abradable material is made in the form of a cylinder, which is rigidly fixed on the platform 4 by means of its fastening 5, coaxially with the axis of rotation of the actuator 3, thereby providing the possibility of transferring abrasive forces along the cylindrical surface of the sample during its rotation around the longitudinal axis of symmetry (rotation). At one end (resting on the platform 4) of the sample 1 of the abradable material, slots are made (not shown in the drawing). Approximately 2/3 of the height of sample 1 of the abradable material is left free from the means of fixing it 5. The cylindrical surface of sample 1 is abraded.

A sample of ice 7 (abrasive material), having the form of a rectangular prism or cylinder, is placed in horizontal guides 8 with the possibility of mutual movement (their cross section allows free longitudinal sliding of ice samples 7 in them). The displacement vector of the ice sample 7 (abrasive material) in the horizontal guides 8 is oriented perpendicular to the axis of rotation of the sample 1 of the abraded material. One edge of the horizontal guides 8 forms a gap with the lateral surface of the sample 1 of the abradable material. From the other edge of the horizontal guides 8, the sample 1 of the abradable material and the ram 13 are supported with the possibility of reciprocating movement of its rod 14 along the longitudinal axis of the first ice sample 7 and abuts against it.

The pressing of the ice sample 7 to the sample 1 of the abraded material is ensured by its two diametrical generators simultaneously along the line passing through the axis of rotation of the sample, by the elastic force of the spring 17 of the force cylinder 13, which provides the appearance of a pressing force on both samples 7, since the spring 17 "works" between the vertical rods 11 and 12 of the rod 10.

The abrasive action is performed when the sample 1 is rotated when the rotation drive 3 is turned on, with which the contact surface of the ice samples 7 (abrasive material), which is not involved in the rotation, interacts. The wear of the material is compensated by the operation of the master cylinder 13, which ensures the movement of the spring 17 in the direction of the abradable sample 1. In this case, the horizontal guide 8 slides in the opposite direction.

During the tests, the magnitude of the torque, clamping force, temperature and other parameters (speed of rotation, number of revolutions) are controlled.

Claims (1)

An apparatus for examining a material sample for ice abrasion, comprising a base on which a horizontal platform is mounted, provided with a rotation drive around the vertical axis with the possibility of forming forces pressing ice samples against the abradable sample radially relative to the axis of rotation of the platform, characterized in that the abrasive material sample is made in in the form of a cylinder, while the platform is equipped with a means of its rigid fastening, while the installation bed is equipped with vertical struts, the longitudinal axes are of which lie in the same plane with the axis of rotation of the platform, while the means for holding ice samples are made in the form of horizontal guides passed through vertical racks made with the possibility of longitudinal movement of ice samples in them, while parallel with the guides above them at a height that provides the ability to place a sample of abradable material on the platform, through-posts are made through holes through which a rod is passed with the possibility of longitudinal movement, the ends of which equipped with vertical rods, while on one of the vertical rods a power cylinder is fixed with the possibility of reciprocating movement of its rod along the longitudinal axis of the first ice sample and abuts against it, while the second vertical rod is equipped with a rod with a fifth at the end, abutted on the end face of the second sample ice.