CN210953687U - Small-sized subsoiler abrasion test device - Google Patents

Abstract

The utility model provides a miniature subsoiler wear test device to practice thrift test cost, short-term test subsoiler's wear resistance. A motor bracket 14 is arranged on a base 22, and a speed regulating motor 13 is arranged on the motor bracket and provides power for a test device; the driving belt wheel 15 is arranged on the output shaft of the speed regulating motor and is connected with a driven belt wheel 21 arranged on a rotating shaft 20 through a belt 16; the driven pulley is mounted on the rotating shaft through a gasket 18 and a screw 19; the rotating shaft is arranged on the sleeve 12 through a bearing, a shaft sleeve 11 and a retainer ring 17; the sleeve is arranged in the circular sand groove 2, the circular sand groove is arranged on the frame 1, and the frame is arranged on the base; the disc 9 is arranged at the end part of the revolving shaft by a screw, and the revolving arm 6 is arranged on the disc by a bolt 8; the shovel seat 7 is installed on the rotary arm through a U-shaped bolt 23, the subsoiler 5 is installed on the shovel seat, and the subsoiler contacts with sand grains in the circular sand groove to carry out abrasion tests.

Description

Small-sized subsoiler abrasion test device

Technical Field

The utility model relates to an agricultural part wear test device that buries, concretely relates to subsoiler wear test device.

Background

The subsoiler is one of the main machines in the field soil cultivation, and the main part thereof, namely a subsoiler, is always a main object of the research related to the subsoiler. As a subsoiler working under special conditions, it is often operated in humid soil, and wear is the main form of failure and destruction. In order to improve the wear resistance of the subsoiler, a coating layer with good wear resistance is generally sprayed on the shovel tip, and in order to test the wear resistance of the coating layer, a wear test is required. The traditional wear test is mostly carried out in a field or a laboratory soil tank, but the field test is easily restricted by factors such as seasons, climate and the like, and the cost is higher by adopting the indoor soil tank.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a problem that exists in order to solve above-mentioned background art designs an indoor miniature subsoiler abrasion test device, the wear resistance of quick inspection subsoiler.

The technical scheme of the utility model is that:

a small-sized subsoiling shovel abrasion test device comprises a rack 1, a circular sand groove 2, a cylindrical roller bearing I3, a cylindrical roller bearing II 4, a subsoiling shovel 5, a rotary arm 6, a shovel seat 7, a bolt 8, a disc 9, a thrust ball bearing 10, a shaft sleeve 11, a sleeve 12, a speed regulating motor 13, a motor support 14, a driving belt wheel 15, a belt 16, a check ring 17, a gasket 18, a screw 19, a rotary shaft 20, a driven belt wheel 21, a base 22 and a U-shaped bolt 23, and is characterized in that the motor support 14 is installed on the base 22, and the speed regulating motor 13 is installed on the motor support 14 and provides power for the test device; the driving belt wheel 15 is arranged on the output shaft of the speed regulating motor 13 and is connected with a driven belt wheel 21 arranged on a rotating shaft 20 through a belt 16; the driven pulley 21 is mounted on the rotating shaft 20 through a spacer 18 and a screw 19; the rotating shaft 20 is arranged on the sleeve 12 through the first cylindrical roller bearing 3, the second cylindrical roller bearing 4, the shaft sleeve 11 and the retainer ring 17; the sleeve 12 is arranged inside the circular sand groove 2, the circular sand groove 2 is arranged on the frame 1, and the frame 1 is arranged on the base 22; the disc 9 is arranged at the end part of the revolving shaft 20 by a screw, and the revolving arm 6 is arranged on the disc 9 by a bolt 8; the shovel seat 7 is installed on the rotary arm 6 through the U-shaped bolt 23, the subsoiler 5 is installed on the shovel seat 7, and the shovel seat is in contact with sand grains in the circular sand groove 2 for abrasion tests.

The utility model has the advantages that:

(1) the test device has the advantages of simple structure, small occupied area, convenience in operation and low test cost.

(2) The quick detection of the wear resistance of the subsoiler can be carried out.

Drawings

FIG. 1 is a front view of the structure of the present invention;

fig. 2 is a top view of the structure of the present invention.

1. The device comprises a frame, 2 parts of a circular sand groove, 3 parts of a first cylindrical roller bearing, 4 parts of a second cylindrical roller bearing, 5 parts of a subsoiler, 6 parts of a rotary arm, 7 parts of a shovel seat, 8 parts of bolts, 9 parts of a disc, 10 parts of a thrust ball bearing, 11 parts of a shaft sleeve, 12 parts of a sleeve, 13 parts of a speed regulating motor, 14 parts of a motor support, 15 parts of a driving belt pulley, 16 parts of a belt, 17 parts of a retainer ring, 18 parts of a gasket, 19 parts of screws, 20 parts of a rotary shaft, 21 parts of a driven belt pulley, 22 parts of a base and 23 parts of U-shaped bolts.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1:

a small-sized subsoiling shovel abrasion test device comprises a rack 1, a circular sand groove 2, a cylindrical roller bearing I3, a cylindrical roller bearing II 4, a subsoiling shovel 5, a rotary arm 6, a shovel seat 7, a bolt 8, a disc 9, a thrust ball bearing 10, a shaft sleeve 11, a sleeve 12, a speed regulating motor 13, a motor support 14, a driving belt wheel 15, a belt 16, a check ring 17, a gasket 18, a screw 19, a rotary shaft 20, a driven belt wheel 21, a base 22 and a U-shaped bolt 23, and is characterized in that the motor support 14 is installed on the base 22, and the speed regulating motor 13 is installed on the motor support 14 and provides power for the test device; the driving belt wheel 15 is arranged on the output shaft of the speed regulating motor 13 and is connected with a driven belt wheel 21 arranged on a rotating shaft 20 through a belt 16; the driven pulley 21 is mounted on the rotating shaft 20 through a spacer 18 and a screw 19; the rotating shaft 20 is arranged on the sleeve 12 through the first cylindrical roller bearing 3, the second cylindrical roller bearing 4, the shaft sleeve 11 and the retainer ring 17; the sleeve 12 is arranged inside the circular sand groove 2, the circular sand groove 2 is arranged on the frame 1, and the frame 1 is arranged on the base 22; the disc 9 is arranged at the end part of the revolving shaft 20 by a screw, and the revolving arm 6 is arranged on the disc 9 by a bolt 8; the shovel seat 7 is installed on the rotary arm 6 through the U-shaped bolt 23, the subsoiler 5 is installed on the shovel seat 7, and the shovel seat is in contact with sand grains in the circular sand groove 2 for abrasion tests.

The working process is as follows:

when the abrasion test is started, the speed regulating motor 13 is started to provide power for the test device, and the driving belt wheel 15 is driven to rotate; the driving pulley 15 is connected to a driven pulley 21 mounted on the rotation shaft 20 through a belt 16 to rotate the rotation shaft 20; the rotary shaft 20 drives the rotary arm 6 to rotate through the disc 9, and the rotary arm 6 drives the subsoiler 5 to rotate in the circular sand tank 2; the circular sand tank 2 is filled with sand grains, and the subsoiler 5 is contacted with the sand grains when rotating to carry out the abrasion test of the subsoiler.

Claims (1)

1. A small-sized subsoiling shovel abrasion test device comprises a rack (1), a circular sand groove (2), a cylindrical roller bearing I (3), a cylindrical roller bearing II (4), a subsoiling shovel (5), a rotary arm (6), a shovel seat (7), a bolt (8), a disc (9), a thrust ball bearing (10), a shaft sleeve (11), a sleeve (12), a speed regulating motor (13), a motor support (14), a driving pulley (15), a belt (16), a check ring (17), a gasket (18), a screw (19), a rotary shaft (20), a driven pulley (21), a base (22) and a U-shaped bolt (23), and is characterized in that the motor support (14) is installed on the base (22), and the speed regulating motor (13) is installed on the motor support (14) and provides power for the test device; the driving belt wheel (15) is arranged on an output shaft of the speed regulating motor (13) and is connected with a driven belt wheel (21) arranged on the rotating shaft (20) through a belt (16); the driven pulley (21) is arranged on the rotating shaft (20) through a gasket (18) and a screw (19); the rotating shaft (20) is arranged on the sleeve (12) through the cylindrical roller bearing I (3), the cylindrical roller bearing II (4), the shaft sleeve (11) and the retainer ring (17); the sleeve (12) is arranged inside the circular sand tank (2), the circular sand tank (2) is arranged on the rack (1), and the rack (1) is arranged on the base (22); the disc (9) is arranged at the end part of the rotating shaft (20) through screws, and the rotating arm (6) is arranged on the disc (9) through a bolt (8); the shovel seat (7) is arranged on the rotary arm (6) through a U-shaped bolt (23), the subsoiler (5) is arranged on the shovel seat (7) and is in contact with sand grains in the circular sand groove (2) for carrying out abrasion tests.

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