RU2338171C1 - Device for erecting crane test - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: device includes load device, anchor device for connection to building constructions, device for hanging to crane load gripper, test effort gauge. Load device is made in the form of jack and different arm lever connected to anchor device. One lever end is connected to jack rod by mobile joint, the other end is connected to test effort gauge attached to load gripper by hanging device. Anchor device is made in the form of beam attached to building columns. Device can be equipped with threaded unit for tension of tested crane cable.

EFFECT: enhanced reliability and operation safety, reduced labour cost of crane tests in restricted conditions.

3 cl, 2 dwg

Description

The invention relates to the field of material handling equipment, and in particular to devices for testing cranes, mainly bridge cranes, including cranes installed in cramped conditions, to which it is impossible to supply a test load under production technology conditions, during static tests (e.g. bridge cranes installed in inaccessible conditions at high altitude).

A device for testing a crane (AS No. 670847, publ. 06/30/79), including a dynamometer and a load device, which is an electromagnet mounted on a ferromagnetic base. The loading force is generated by the winch of the lifting mechanism of the test crane and is controlled by a dynamometer. The disadvantage of this device is the inability to provide smooth dosed loading, which can lead to overloading of bridge cranes with high rigidity of the metal structure.

A device for testing cranes (AS No. 1592272, publ. 15.09.90), containing a gearbox, drum, adjustable clutch included by means of a controlled clutch. A flexible organ is attached to the drum, by means of which the device is connected to the load-gripping organ of the crane under test. The magnitude of the loading force is limited by an adjustable clutch. The loading force is generated by the winch of the lifting mechanism of the test crane and is controlled by a dynamometer. The disadvantage of this device is its complexity, as well as the possibility of overloading the tested crane due to inaccurate adjustment of the friction clutch.

Closest to the proposed device is a device for testing cranes of a bridge type (Lazdan E.I., Izrailevich ML. "Load devices for testing cranes of a bridge type. - Hoisting and transport business, 2005, No. 2, p.7 -8), containing a loading device, an anchor device for attaching a loading device to the building structures, means for hanging on the load-gripping organ of the crane, means for measuring the test force. The loading device consists of an eye attached to the anchor device, a hydraulic cylinder and a pump unit. The means for measuring the test force is made in the form of a manometer of the pumping unit. The disadvantage of this device is the impossibility of its use for testing cranes installed at high altitude in hard to reach tight conditions.

The technical result to which the claimed invention is directed is to increase the reliability, safety of work and reduce the complexity of testing cranes in cramped conditions.

To achieve the specified technical result in a device for testing cranes, mainly overhead cranes, including a load device, an anchor device for attaching a load device to the building structures, means for hanging the load device on the load gripping body of the crane, means for measuring the test force, the anchor device is made in the form beams attached to the columns of the building, and the load device is made in the form of a jack connected to the anchor device and raznoplechego lever. One end of the lever is connected to the jack rod by a pivotally-movable connection, the other end is connected to a device for measuring the test force, for example, by a dynamometer connected by means of hanging to the load-lifting organ of the crane. To limit the stroke of the jack, the device can be equipped with a device, for example a screw, for selecting the slack of the rope of the crane under test, installed between the second end of the different lever and means for measuring the test force, for example, a dynamometer.

Distinctive features of the proposed device from the one closest to the above are the execution of the load device in the form of a jack and a different arm, one end of which is connected via a pivotally-movable connection to the said jack, and the other is connected with the load-gripping body of the tested crane, as well as the performance of the anchor a device intended for fastening the elements of the load device, in the form of a beam attached to the columns of the building, the presence of a device for choosing the weakness of the can ATA, for example, screw type.

The proposed device for testing cranes is illustrated by drawings, where Fig. 1 shows a general view of the device, Fig. 2 is a node of a pivotally-movable joint of a different lever and a jack rod.

The device is a multi-arm lever 1, pivotally supported on a beam 2 attached to the columns of the building. One end of the lever is connected to a device 6 for selecting a slack of a rope, for example, of a helical type, which is connected to a dynamometer 3 connected to the load-gripping organ of the crane by means of 4 for hanging on the load-gripping organ of the crane. The other end of the lever is connected to a jack 5 (for example, a hydraulic jack) mounted on the beam 2. The node of the pivotally-movable connection of the lever and the jack rod includes a cylindrical stop 7 mounted on the lever, and a nozzle 8 mounted on the jack rod and allowing uniform distribute contact stress across the width of the stop.

When testing the crane in the columns of the building to which the beam 2 is attached, tensile longitudinal forces should not arise due to the forces arising from the testing of the crane. For example, in the particular case, for cranes mounted on split crane beams, when the load-gripping body of the crane under test is located in the middle of the span, when the crane wheels are located on one side of the crane track, it is symmetrical about the axis of the column to which beam 2 is attached, the minimum value the sum of the pressures on the crane wheels located on one side of the crane path corresponds to a value determined by the formula:

where P ₁ , P ₂ - pressure on the crane wheels located on the same side of the crane path;

P _u - test effort;

B - crane base;

l is the step of the columns.

To prevent overload of the crane during the test, the distance from the axis of attachment of the different lever 1 to the axis of the crane suspension is determined by the formula:

where a is the distance from the axis of the hinge of the mounting of a different arm to the suspension axis of the crane;

b is the distance from the axis of the hinge of the mounting of a different lever to the axis of the jack;

- грузоподъемность домкрата;

- load capacity of the jack;

P _u - test effort;

- ускорение свободного падения.

- acceleration of gravity.

The device operates as follows. The dynamometer 3 is hung on the crane hoist using a hitch 4 and attached to the eye of the screw device 6 to select the slack of the rope connected to the multi-arm lever 1. Before the test, the rope slack is sampled using the screw device 6. The crane is loaded using hydraulic jack 5. At the same time, the pump unit and maintenance personnel are outside the danger zone. Test force is controlled by dynamometer 3. When the test force reaches the rated value, the crane is kept under load, after which the crane is unloaded.

Claims (3)

1. A device for testing hoisting cranes, mainly overhead cranes, including a loading device, an anchor device for attaching a loading device to the building structures, means for hanging on a crane body, means for measuring the test force, characterized in that the loading device is made in the form of connected to with an anchor device of a jack and a different lever, one end of the lever is connected to the stem of the jack by means of a pivotally-movable connection, the second from means ohm for measuring the test effort, connected by means of hanging to the load-gripping organ of the crane, and the anchor device is made in the form of a beam attached to the columns of the building. 2. The device according to claim 1, characterized in that to limit the stroke of the jack it is equipped with a device, for example a screw, for selecting the slack of the rope of the test crane, installed between the second end of the lever and means for measuring the test force. 3. The device according to claim 1, characterized in that to prevent overloading the crane, the distance from the axis of attachment of the different lever to the axis of the suspension of the crane corresponds to a value determined by the formula:

where a is the distance from the axis of the hinge of the mounting of a different arm to the suspension axis of the crane; b is the distance from the axis of the hinge of the mounting of a different lever to the axis of the jack; Q - lifting capacity of the jack; P _u is the test force; g is the acceleration of gravity.

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