EXPERIMENT DEVICE AND METHOD FOR DETECTING ABRASION OF CONVEYER

Abstract

The present invention discloses an experiment device and a method for detecting abrasion of a conveyer. The device comprises a rack, a reciprocation sliding mechanism, a speed adjusting mechanism and a crankshaft, wherein the reciprocation sliding mechanism comprises scrapers and scraper chains; the scraper chains are arranged between an upper-layer scraper and a lower-layer scraper; the speed adjusting mechanism comprises a motor, a friction driving wheel and a friction driven wheel; the motor is connected with the friction driving wheel through a motor shaft; the friction driving wheel slides on a shaft in an axial direction; speed adjustment can be achieved by changing the distance between the centers of the friction driving wheel and the friction driven wheel. Due to the adoption of the speed adjusting motor, the speed can be precisely controlled; as the crankshaft is arranged on the shaft of the friction driven wheel and connected with the reciprocation sliding mechanism through two connecting rods respectively, the scraper chains and chain devices are driven in a reciprocation manner at the adjusted speed, so as to realize reciprocation motion of a material inside a groove. The present invention can simulate friction between friction pairs of the actual conveyer well when the material is conveyed, and avoid experiment on a complex conveyer structure.

Claims

1. An experiment device for detecting abrasion of a conveyer, characterized in that, it comprises a rack, a reciprocation sliding mechanism, a speed adjusting mechanism and a crankshaft; the rack is a main body for bearing various components; the reciprocation sliding mechanism and the crankshaft are fixed on one side of the rack, and the speed adjusting mechanism is fixed on the other side of the rack; the reciprocation sliding mechanism includes scrapers and scraper chains; the scraper chains are arranged between an upper-layer scraper and a lower-layer scraper; the upper-layer scraper and the lower-layer scraper forms a group; several groups of scrapers are arranged in parallel; a material groove is fixed inside the rack; the scrapers are placed on the material groove and move in a reciprocating manner; the end of the rack is provided with a connecting block; and the scrapers at ends of the scraper chains are connected with the connecting block; the lower part of the connecting block is fixedly connected with two connecting rods through a pin shaft, and the upper part of the connecting block is connected with the scrapers; the speed adjusting mechanism includes a motor, a friction driving wheel and a friction driven wheel; the motor is connected with the friction driving wheel through a motor shaft; the friction driving wheel slides on the motor shaft in an axial direction; speed adjustment is realized by changing a distance between the centers of the friction driving wheel and the friction driven wheel; the motor is a speed adjusting motor that realizes a motor output speed by adjusting a frequency; the shaft of the friction driven wheel is connected with the crankshaft; the driven wheel is in interference fit with the crankshaft; the crankshaft is fixed with the connecting block through two connecting rods to drive the scraper chains and the scrapers in a reciprocating manner, so as to realize reciprocation motion of the material in the material groove.

2. The experiment device for detecting abrasion of a conveyer according to claim 1, characterized in that: the material groove is provided with a circular or a square test piece hole; a pressure sensor is directly placed on the bottom of a test piece; and the test piece is placed in the test piece hole.

3. The experiment device for detecting abrasion of a conveyer according to claim 1, characterized in that: the crankshaft consists of 2 cranks.

4. The experiment device for detecting abrasion of a conveyer according to claim 1, characterized in that, the sliding speed of the reciprocation sliding mechanism is 1 m/min to 5 m/min.

5. The experiment device for detecting abrasion of a conveyer according to claim 1, characterized in that: the contact surface of the friction driving wheel and the friction driven wheel has a hatching knurling structure.

6. The experiment device for detecting abrasion of a conveyer according to claim 1, characterized in that, the upper-layer and lower-layer scrapers are connected through a fixed pin; a flat-link chain of the scraper chain is clamped by the scraper fixed pin; the connecting block and the connecting rods are connected with a pin shaft; and rotational motion of the crankshaft is transformed into reciprocation motion of the material driven by the scrapers.

7. An experiment method for detecting abrasion of a conveyer using the experiment device for detecting abrasion of a conveyer of claim 1, characterized in that, it comprises the following steps: (1) machining an object to be measured into a sheet test piece, weighing the mass m.sub.1 of the sheet with a balance before experiment, then placing the sheet test piece in a test piece hole formed on a material groove; placing a material to be simulated in the material groove; measuring a material pressure on the test object by a pressure sensor arranged on the bottom of the test piece, and recording data; (2) setting an output rotational speed of the motor according to the sliding speed required in the experiment; (3) washing the measured object after the experiment is finished, then weighing by the balance to obtain the mass m.sub.2 after experiment; (4) finally calculating to obtain the mass difference m.sub.2-m.sub.1, which is the abrasion loss of the test piece during experiment.

8. The experiment method for detecting abrasion of a conveyer according to claim 7, characterized in that: the sheet test piece is has a rectangular cuboid or cylindrical structure with a size of 1006010 mm, or 6010 mm, or 8010 mm.

Description

DESCRIPTION OF DRAWINGS

[0029] FIG. 1 is a 3D view of a device of the invention.

[0030] FIG. 2 is a top view of the device of the invention.

[0031] FIG. 3 is a sectional view along line A-A in FIG. 2.

[0032] FIG. 4 is a left view of FIG. 2.

[0033] In the figures: 1. material groove; 2. scraper; 3. scraper chain; 4. connecting block; 5. connecting rod; 6. crankshaft; 7. pin shaft; 8. friction driven wheel; 9. motor shaft; 10. friction driving wheel; 11. motor; 12. rack; 13. scraper fixed pin; 14. test piece hole.

EMBODIMENTS

[0034] The present invention is further illustrated below through examples, but not limited to the following examples.

Examples

[0035] As shown in FIGS. 1-4, an experiment device for detecting abrasion of a conveyer includes a rack, a reciprocation sliding mechanism, a speed adjusting mechanism and a crankshaft.

[0036] The rack 12 is a main body for bearing various components; the reciprocation sliding mechanism and the crankshaft 6 are fixed on one side of the rack 12, and the speed adjusting mechanism is fixed on the other side of the rack 12.

[0037] The reciprocation sliding mechanism includes scrapers 2 and scraper chains 3; the scraper chains 3 are arranged between an upper-layer scraper 2 and a lower-layer scraper 2; the upper-layer scraper 2 and the lower-layer scraper 2 forms a group; several groups of scrapers 2 are arranged in parallel; a material groove 1 is fixed inside the rack 12; the scrapers 2 are placed on the material groove 1 and move in a reciprocating manner; the end of the rack 12 is provided with a connecting block 4; and the upper-layer and the lower-layer scrapers 2 are connected with the connecting block 4 through a scraper fixed pin 13.

[0038] The lower part of the connecting block 4 is fixedly connected with two connecting rods 5 through a pin shaft 7, and the upper part of the connecting block 4 is connected with the scrapers 2;

[0039] The speed adjusting mechanism includes a motor 11, a friction driving wheel 10 and a friction driven wheel 8; the motor 11 is connected with the friction driving wheel 10 through a motor shaft 9; the friction driving wheel 10 slides on the motor shaft 9 in an axial direction; speed adjustment is realized by changing a distance between the centers of the friction driving wheel 10 and the friction driven wheel 8; the motor 11 is a speed adjusting motor that realizes a motor output speed by adjusting a frequency.

[0040] The shaft of the friction driven wheel is connected with the crankshaft 6; the friction driven wheel 8 is in interference fit with the crankshaft 6; the crankshaft 6 is fixed with the connecting block 4 through two connecting rods 5 to drive the scraper chains 3 and the scrapers 2 in a reciprocating manner at the adjusted speed, so as to realize reciprocation motion of the material in the material groove 1; and friction between the friction pairs when the actual conveyer conveys the material can be simulated well, thus experiments on the complex conveyer structure can be avoided.

[0041] In the experiment device, the speed adjusting mechanism is driven by the friction wheel to change a distance between the centers of the driving wheel and the driven wheel, so as to realize speed change of the system.

[0042] In the experiment device, the material groove 1 is provided with a circular or a square test piece hole 14; a pressure sensor is directly placed on the bottom of a test piece; the test piece is placed in the test piece hole;

[0043] In the experiment device, the crankshaft 6 consists of 2 cranks.

[0044] In the experiment device, the sliding speed of the reciprocation sliding mechanism is 1 m/min to 5 m/min.

[0045] In the experiment device, the contact surface of the friction driving wheel 10 and the friction driven wheel 8 has a hatching knurling structure.

[0046] In the experiment device, the upper-layer and lower-layer scrapers 2 are connected through a scraper fixed pin 3; a flat-link chain of the scraper chain is clamped by the scraper fixed pin 13; the connecting block 4 and the connecting rods 5 are connected with a pin shaft 7; and rotational motion of the crankshaft 6 is transformed into reciprocation motion of the material driven by the scrapers.

[0047] The present invention provides a method for detecting abrasion of a conveyer, including the following steps: [0048] (1) machining an object to be measured into a sheet test piece, weighing the mass m.sub.1 of the sheet with a balance before experiment, then placing the sheet test piece in a test piece hole formed on a material groove; placing a material to be simulated in the material groove; measuring a material pressure on the test object by a pressure sensor arranged on the bottom of the test piece, and recording data; [0049] (2) setting an output rotational speed of the motor according to the sliding speed required in the experiment; [0050] (3) washing the measured object after the experiment is finished, then weighing by the balance to obtain the mass m.sub.2 after experiment; [0051] (4) finally calculating to obtain the mass difference m.sub.2-m.sub.1, i.e., abrasion loss of the test piece during experiment.

[0052] In the above method, the sheet test piece has a cuboid or cylindrical structure with a size of 1006010 mm, or 6010 mm, or 8010 mm.