RU214453U1 - INSTALLATION FOR TESTING GRINDING BALLS FOR IMPACT RESISTANCE - Google Patents

Abstract

The utility model relates to metallurgical production, in particular to devices for mechanical testing for impact resistance. The specified technical result is achieved by the fact that the installation for testing grinding balls for impact resistance, including the base (2) connected to the receiving chute (3), and the conveyor (4) for lifting the grinding balls (1), characterized in that the conveyor (4 for lifting grinding balls (1) is made at an inclination relative to the vertical axis towards the base (2) at an angle of at least 45° and additionally contains an inclined chute (5) adjacent to the conveyor (4) for lifting grinding balls (1) from the side of the base (2), while the lower part of the inclined chute (5) is connected to the receiving chute (3) in such a way as to enable the grinding balls (1) to move from the base (2) to the conveyor (4), and the upper part of the inclined chute (5 ) has a slot (7) with inclined trays (6) installed in it for rolling grinding balls (1) of the corresponding diameter along them, and the slot (7) has an expansion in the direction of movement of the grinding balls (1), and the width of the slot (7) depends from the size of the test grinding ball (1), in addition, the conveyor (4) for lifting grinding balls (1) can be a bucket, trough, chain conveyor with an electromechanical drive, in addition, the base (2) can be made of a solid solid element in in the form of a cast-iron or steel plate, in addition, the base (2) can be made in the form of solid bodies permanently installed on it, including grinding balls (1) of appropriate hardness, to simulate the impact of grinding balls (1) against each other, in addition , the base (2) can have supports (8) of different heights installed at the place where grinding balls (1) of a certain diameter fall. The utility model provides the ability to simultaneously test grinding balls of several diameters without their collision with each other, which increases its productivity, as well as the fall of the grinding balls can occur over many cycles, while the cyclicity of the tests makes it possible to exclude the presence of a person in the testing process, which can last several days.

Description

The utility model relates to metallurgical production, in particular to devices for mechanical testing for impact resistance.

Known copyright certificate [1] "Pendulum impact tester for impact testing" SU 1250865 A1 IPC G01M 7/08 (2000.01), publ. Bull. No. 08/15/1986, containing a frame, an anvil installed on it, a pendulum in the form of a rod suspended from the frame with a striker mounted at the end of the rod with the possibility of separating from it when the striker collides with the anvil, a limiter for the movement of the rod, and the striker is made in the form of a ball and freely suspended on the swing axis of the rod by means of a cable, the end of which is connected to the striker in the center of the ball, and the element for installing the striker at the end of the rod is made in the form of a fork enclosing the ball, the distance between the teeth of which is sufficient for free passage between the teeth of the anvil.

The disadvantage of the invention is that the striker is fixed on the swing axis of the rod, while the ball does not have free fall from a certain height, which is necessary to simulate the process of balls in ball mills and allows you to increase the simulation of the dynamic ability of the ball and take into account not only kinetic work, but also potential impact energy, in addition, in this installation it is possible to test only one ball at a time.

The author's certificate is known [2] "Fatigue test bench for bolsters of freight car bogies" No. 868420 A1, IPC G01M 17/00, published on September 30, 1981, Test bench for fatigue resistance of bolsters of freight car bogies, including supports rigidly fixed on the base, and the loading device. The supports are made in the form of two fixed U-shaped struts interacting with the ends of the bolster, and one central support for supporting the bearing zone of the bolster. The loading device is made in the form of a hydraulic cylinder mounted on the top of one of the racks, and a spring set mounted on the top of the other rack.

Known invention [3] "Test for fatigue resistance of bolsters of freight car bogies" patent RU No. 2415395 C1 , IPC G01M 17/08 (2006.01) publ. 03/27/2011 Bull. No. 9, including at least one support rigidly fixed to the base, and a loading device, moreover, it additionally contains cylindrical rollers for installing bolsters on them, fixed on the support, shaped gaskets for placement between the tested bolster and cylindrical rollers and pneumatic pulsator installed on the base and connected to the compressed air line, while the loading device is made in the form of a car frame, equipped with fasteners for installing at least one measured load and pads for placing the tested bolsters on the thrust bearings, and the pneumatic pulsator is installed with the possibility impact on the pivot beam of the car frame.

The disadvantage of the inventions AC No. 868420 A1 and RU No. 2415395 C1 is that only one test sample (in the form of a spring beam) is tested at the same time, and this invention also does not allow testing more compact and less stable elements, like grinding balls.

Known application for the invention [4] "Device for testing the impact of grinding media" RU 94037362 A1, IPC G01M7/00, publ. 08/20/1996, containing a frame, an anvil installed on it, in the socket of which one of the tested balls is attached, a movable lever, on the striker end of which the second of the tested balls is fixed and a rotating fist in contact with a roller mounted on the movable lever, characterized in that an elastic element connected with a movable lever is installed on the frame.

The disadvantage of this invention is that a mechanical lever mechanism is used as an actuator, and not a free fall of the ball, which eliminates the imitation of the operation of balls in ball mills. It is also a disadvantage that only one ball can be tested at a time.

Known [5] "Method of testing grinding balls for impact resistance" patent RU 2759709 C1, IPC G01M 7/08 , G01N 3/34 , publ. 11/17/2021 Bull. No. 32, where a comprehensive test of 2 test balls takes place, repeatedly colliding with each other throughout the entire time of the test.

The disadvantage of this invention is that the balls are fixed, which excludes free fall and imitation of the process of the balls in ball mills, and also takes into account the work of only the kinetic energy of impact.

The closest (prototype) in technical essence to the claimed device, in terms of the number of similar features, is the Mintec installation described in the article Moema, J.S., Papo, M.J., Slabbert, G.A., and Zimba, J. Grinding media quality assurance for the comminution of gold ores. // World Gold Conference 2009, The Southern African Institute of Mining and Metallurgy, - 2009. - 27-34pp.

The disadvantage of this device is that it is not possible to simultaneously test several balls of different diameters. Also, the disadvantage of this setup is that for all diameters of the balls, the fall is made from the same height, which excludes the simulation of the fall height in the corresponding mills designed for a certain ball diameter.

It is proposed to use the free fall of the grinding ball from a given height, as is the case when working in ball mills when grinding ores and other materials with repeated repetition of this operation.

The technical result, which the proposed utility model is aimed at, is the premature detection of defective batches of grinding balls during impact testing.

The specified technical result is achieved by the fact that the installation for testing grinding balls for impact resistance, including the base (2) connected to the receiving chute (3), and the conveyor (4) for lifting the grinding balls (1), characterized in that the conveyor (4 ) for lifting grinding balls (1) is made at an inclination relative to the vertical axis towards the base (2) at an angle of at least 45° and additionally contains an inclined chute (5) adjacent to the conveyor (4) for lifting grinding balls (1) from the side base (2), while the lower part of the inclined chute (5) is connected to the receiving chute (3) in such a way as to enable the grinding balls (1) to move from the base (2) to the conveyor (4), and the upper part of the inclined chute ( 5) has a slot (7) with inclined trays (6) installed in it for rolling grinding balls (1) of the corresponding diameter along them, and the slot (7) has an expansion in the direction of movement of the grinding balls (1), and the width of the slot (7) depends on test size th grinding ball (1),

In addition, the conveyor (4) for lifting grinding balls (1) can be a bucket, trough, chain conveyor with an electromechanical drive.

In addition, the base (2) can be made from a solid solid element in the form of a cast iron or steel plate.

In addition, the base (2) can be made in the form of solid bodies permanently installed on it, including grinding balls (1) of appropriate hardness, to simulate the impact of grinding balls (1) against each other.

In addition, the base (2) may have supports (8) of different heights installed at the place where grinding balls (1) of a certain diameter fall.

The technical essence of the utility model is illustrated by drawings, which show:

- Fig.1 - installation test falling ball view 1;

- figure 2 - installation test falling ball type 2.

Positions according to the drawings:

grinding ball;

base;

receiving chute;

conveyor;

inclined chute:

inclined tray;

slot;

stands.

The apparatus for testing grinding balls for impact resistance comprises a base (2) connected to a receiving chute (3), an inclined chute (5) adjoining the conveyor (4), inclined trays (6) with a slot (7).

The base (2) is made of a hard material, such as steel (because steel has sufficient fracture toughness on impact) to withstand the load during grinding ball drop tests1.

The base (2) has a rectangular shape, with two short and one long edge bent upwards so that the grinding balls (1) do not fall out of the installation, and the other long edge is rigidly connected to the receiving chute (3) for transporting the grinding balls to the conveyor ( four).

The conveyor (4) is made of steel chain with buckets for stability.

The conveyor (4) for lifting the grinding balls (1) is made at an inclination relative to the vertical axis towards the base (2) at an angle of at least 45° so that the ball rises to a height, and then it is rolled down to return to its initial position.

When the angle of inclination of the conveyor (4) is more than 45° (the ball rises normally).

When the angle of inclination of the conveyor (4) is less than 45° (the ball rises slowly, and after it falls, it rolls to the initial position for a long time, while the height of such a conveyor will be limited by the dimensions of the installation).

An inclined chute (5) is adjacent to the conveyor (4) for lifting grinding balls (1) from the side of the base (2), while its lower part is connected to the receiving chute (3) in such a way as to allow the movement of grinding balls (1) from the base (2) to the conveyor (4), and the upper part of the inclined chute (5) has a slot (7) with inclined trays (6) installed in it for rolling grinding balls (1) of the appropriate diameter along them.

The slot (7) has an expansion in the direction of the grinding balls (1) and the width of the slot (7) depends on the size of the tested grinding ball (1).

The utility model works as follows.

Grinding balls (1) are placed in the proposed cyclic test setup (figure 1, figure 2). The tested grinding ball (1) under the action of gravity rolls from the base (2) into the receiving chute (3), along which it moves to the conveyor (4) and rises at an angle different from the vertical along the inclined chute (5). Given that in the inclined chute (5) there is a slot (7), with increasing width, at the moment when the width of the slot (7) reaches the diameter of the grinding ball (1), the grinding ball (1) falls out and falls into a certain tray ( 6), along which it rolls down and falls from a certain height to a certain place on the base (2), then the cycle repeats.

This setup allows you to simultaneously test several balls of different diameters, which increases the productivity of the test.

For testing, balls are selected from the lot from various places in the lot.

The geometric dimensions, surface quality and technical characteristics of the balls must comply with GOST 7524-2015.

Grinding balls (1) for testing are placed in a test facility and tested by multiple drops from a height to determine their total impact resistance.

The number of grinding balls falling (1) is set by the controller depending on the required total impact energy perceived by the ball.

Grinding balls (1) are considered to have passed the test if they have not cracked for a given number of falls or there are no cracks on their surface that are visible without the use of magnifying devices. Also, in the case of monitoring the wear of grinding balls (1), for each tested grinding ball (1), the total decrease in its mass after a certain number of falls is determined.

The analysis of patents and scientific and technical information did not reveal the use of new essential features used in the proposed solution in terms of their functional purpose. Therefore, the proposed utility model meets the criterion of "inventive step".

Thus, the use of the claimed utility model installation for testing grinding balls for impact resistance provides:

- the ability to test simultaneously

grinding balls of several diameters, without their collision with each other, which increases its productivity.

- falling grinding balls can

occur over many cycles, while the cyclicity of the tests makes it possible to exclude the presence of a person in the test process, which can last several days.

Sources of information:

[1] Author's certificate SU 1250865 A1 "Pendulum pile driver for

impact testing of products”, IPC G01M 7/08 (2000.01), publ., bul. No. 15.08.1986;

[2] Author's certificate No. 868420 A1 "Fatigue test bench for bolsters of freight car bogies", IPC G01M 17/00;

[3] Patent RU 2415395 C1 Resistance test stand

fatigue of bolsters of freight car bogies;

[4] Application RU 94037362 A1 for the invention "Device for testing

impact of grinding media”, IPC G01M7/00, publ. 08/20/1996;

[5] patent RU 2759709 C1 "Method of testing grinding balls for

impact resistance RU 2759709 IPC G01M 7/08, G01N 3/34, publ. 11/17/2021 Bull. No. 32;

[6] Moema, J.S., Papo, M.J., Slabbert, G.A., and Zimba, J. Grinding media quality assurance for the comminution of gold ores. // World Gold Conference 2009, The Southern African Institute of Mining and Metallurgy, - 2009. - 27-34pp.

Claims (4)

1. An apparatus for testing grinding balls for impact resistance, including a base (2) connected to a receiving chute (3) and a conveyor (4) for lifting grinding balls (1), characterized in that the conveyor (4) for lifting grinding balls (1) is made at an inclination relative to the vertical axis towards the base (2) at an angle of at least 45° and additionally contains an inclined chute (5) adjacent to the conveyor (4) for lifting grinding balls (1) from the side of the base (2), while the lower part of the inclined chute (5) is connected to the receiving chute (3) in such a way as to enable the grinding balls (1) to move from the base (2) to the conveyor (4), and the upper part of the inclined chute (5) has a slot ( 7) with inclined trays (6) installed in it for rolling grinding balls (1) of the appropriate diameter along them, moreover, the slot (7) has an expansion in the direction of movement of the grinding balls (1), and the width of the slot (7) depends on the size of the tested grinding ball (1). 2. Installation according to claim 1, characterized in that the conveyor (4) for lifting grinding balls (1) can be a bucket, trough, chain conveyor with an electromechanical drive. 3. Installation according to claim. 1, characterized in that the base (2) is made of a solid solid element in the form of a cast iron or steel plate. 4. Installation according to claim. 1, characterized in that the base (2) is made in the form of solid bodies permanently installed on it, including grinding balls (1) of appropriate hardness, to simulate the impact of grinding balls (1) against each other.

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