SU857767A1 - Test-bed for testing means for weight gripping - Google Patents

Description

(54) STAND FOR TESTING HANDLING FACILITIES

Claims (2)

The invention relates to a machine building for building test equipment, in particular for testing load handling means: slings, traces, etc. A stand for testing strops is known, which includes a stand, fastening elements of the slings and a drive mounted on the frame, including sequentially located hydraulic cylinders G 1 However, this device is difficult to manufacture due to the presence of a hydraulic drive with a pump station and other equipment. The closest to the invention to the technical essence is a stand for testing load-carrying means containing a frame, an actuator consisting of a winch and a drum, connected to the drum by means of a flexible pulling body, loading a polyspast containing two rows of blocks, one of which is rigidly fixed on bed frame. And the tension device associated with the chain hoist, including rollers and G2 flexible bands}. However, this device does not have a high reliability of operation due to the possible breakage of a flexible trap or | ghana during overloads and its descent from the polyspast blocks. The purpose of the invention is to increase the reliability of the stand. The goal is achieved by the fact that the stand is equipped with a beam consisting of a frame on which the load is mounted for movement along it, a carriage mounted on the frame, on which a second row of blocks of polyspast is fixed, and an additional flexible body connected through rollers with drum and carriage and having at the end of counter weight, and the drive is mounted on the rocker arm. At the same time, a calibrated scale is made on the frame for measuring the position of the counter-load. FIG. 1 shows a schematic diagram of the stand; in fig. 2 - the same, general view from above. The stand for testing load-holding means contains a frame 1, an actuator consisting of a winch with a flexible bend body 3 sprinkled on its power drum, passed through roller 4 and stored in a horizontally loaded loading unit having two rows of parallel blocks 5 and 6. Blocks 5 are fixed on the frame. The second row of blocks 6 of the loading polyspast is mounted on the carriage 7, mounted in the guides 8 of the bed 1 and having the possibility of longitudinal movement. A rocker arm mounted in the frame 9 supported on the axis 10 mounted on the bed is installed on the stand. The winch is mounted on frame 9 and has a tension drum 11. In addition, a movable counter load 12 is mounted on frame 9. The tension device consists of a movable roller J3, on which a supplementary flexible body 14 and a fixed roller 15 mounted on the shaft are stockpiled. through which another ddine is thrown an additional flexible body 16, having on the free counterweight 17. This pro-weight can be made in the form of a load of a spring or any other part that creates a force. Calibrated scale 18 is mounted on the frame 9 of the rocker, along which pointer 19 moves associated with counterweight 12. Counterweight 12 communicates with handle 20 to move it along frame 9. Test load-carrying means 21 is fixed to bed eyes 22 .1 and to the rake 7 loading tackle. The winch is equipped with a handwheel 23 with a handle, and a support 24 for the frame 9 is attached in the lower part of the frame. The device operates as follows. By rotating the handle 20, moving the counterweight 12, the pointer 19 is set at a predetermined scale division of 1Y, which corresponds to the load specified during the test. Turning the winch handwheel 23 clockwise loads the stand, this causes the carriage 7 to move to the right, and along with it a number of Moving blocks 6 of the loading polyspast and thereby the loading of the test object. Next, the handwheel 23 is rotated from the support 24 and a gap A is formed between the stand and the frame, of the order of 3050 mm (Fig. 1). In this case, the test volume is loaded with a given load. Further rotation of the handwheel 23 is impractical, since in this case the part of the frame 9 on which the load is mounted rises upwards relative to the axis 10. And therefore, the horizontal distance between this axis and the load decreases, i.e. the leverage of the load decreases, and this leads to a decrease in the loading force on the test object. The test object is under the load specified by Time, after which, by rotating the handwheel 23 in the opposite direction (counterclockwise), the load is removed from the test object. In this case, the carriage 7 moves to the left, and the frame 9 of the rocker arms is lowered and rests on the support 24. After removing the test object from the stand, the sagging of the flexible traction body 3 does not occur due to the presence of the tensioning device. An additional traction device 16, fixed to the movable roller 13, moves the roller 13 at the expense of the existing counterweight 17 and thereby selects the slack of flexible traction organs 3 and 14. Thanks to this constructive implementation of the stand, it helps to eliminate the possibility of overloading the test object and testing objects wide nomenclature. Formula of the invention 1. A stand for testing load-bearing means containing a frame, an actuator consisting of a winch and a drum, connected to the drum by means of a flexible traction body, a loading polyspast containing two rows of blocks, one of which is rigidly fixed on the chain, and an associated with a pulley tensioner, including rollers and flexible rods, characterized by so that, in order to increase the reliability of work, the stand is equipped with a beam consisting of a frame on which the Counterweight is mounted for movement along it, mounted on the frame by a carriage on which the second row of polyspast blocks is fixed, and an additional flexible cable body, connected through rollers with a drum and a carriage and having a counterweight at the end, the drive being fixed on the yoke. 2. A stand according to claim I, in connection with the fact that, on the frame, a calibrated scale is made to measure the position of the counter-load. Sources of information taken into account in the examination 1. The copyright certificate. USSR 9 640166, cl. G 01 M 19/00, 1976. 2. Authors certificate of the USSR 583381, cl. G 01 M 19/00, 1976 (prototype).