CN101750180A - Dynamic detection method of anti-wind capability of anti-wind device of port track crane - Google Patents

Abstract

The invention discloses a dynamic detection method of anti-wind capability of an anti-wind device of a port track crane. A loading system which mainly comprises a jack pushes the port track crane when a cart brake and a rail clamping device of the port track crane are in different combination states; meanwhile, a pressure sensor, a vibrating sensor, a data acquisition module, a data processing module and computer analysis software are used to collect, process and calculate the braking force of the port track crane in different braking conditions and respectively compare with the design value of each brake and the theoretical value of a wind force so as to judge whether the cart brake and the rail clamping device of the port track crane conform to anti-wind braking requirements as well as whether the braking capability of the whole port track crane conforms to the anti-wind braking requirements. The method can master the anti-wind capability of the anti-wind device of the port track crane in real time, lowers loss of various wind damages and provides reliable guarantee for ensuring personal safety and equipment safety.

Description

The anti-wind capability of anti-wind device of port track crane dynamic testing method

Technical field

The present invention relates to a kind of dynamic testing method of anti-wind capability of anti-wind device of port track crane.

Background technology

The wind-proof device of port track crane generally adopts big vehicle brake, rail clamping device, top rail machine, rim brake etc.Only considered the static strength state during these wind-proof device designs, and in the actual use of port track crane, the braking effect of all kinds of wind-proof devices is subjected to many factor affecting.The for example geometric configuration of the oil in the environment, water, dust and wind-proof device etc., so the braking capacity of wind-proof device does not often reach theoretical designing requirement.Because the application scenario of harbour machinery uniqueness, the harbour is subjected to the influence of climatic environment, all kinds of weathers such as typhoon frequently take place, therefore press for the actual working state and the braking capacity of real-time grasp port track crane wind-proof device, to grasp the capability of anti-wind of port track crane, for the safety of guaranteeing the person and equipment is given security.

Present braking capacity detection for the port track crane wind-proof device normally realizes by the detection to single detent braking capacity, therefore general exploitation, design and the detection of paying attention to single clamping device itself such as big vehicle brake, rail clamping device, top rail machine, rim brake of production firm and user mostly, and do not appear in the newspapers for the braking capacity detection of port track crane wind-proof device under complete machine and the dynamic situation.

Summary of the invention

Technical matters to be solved by this invention provides a kind of dynamic testing method of anti-wind capability of anti-wind device of port track crane, utilize this method can grasp the capability of anti-wind of port track crane wind-proof device in real time, reduce all kinds of disaster caused by a windstorm losses, provide reliable assurance for guaranteeing the person and device security.

For solving the problems of the technologies described above, anti-wind capability of anti-wind device of port track crane dynamic testing method of the present invention, the big vehicle brake and the rail clamping device that comprise port track crane, and loading system, data measurin system, signal acquiring processing system and display module, described loading system comprises lifting jack and respective holder, described data measurin system comprises pressure transducer and the vibration transducer that is installed on the crane, and described signal acquiring processing system comprises the data acquisition module of gathering described data measurin system signal, data processing module and Computer Analysis software; Described display module connects described signal acquiring processing system and display process result, and this method comprises the steps:

Step 1, described loading system is located at the port track crane rail side and is propped up port track crane, start described data measurin system and signal acquiring processing system;

Under the state of step 2, the big vehicle brake pine of setting port track crane, rail clamping device pine, start described loading system to port track crane and move, measure the stiction Fm of port track crane;

Under the state that big vehicle brake is tight, rail clamping device is loose of step 3, setting port track crane, start described loading system to port track crane and move, measure the brake resistance F1 of big vehicle brake;

Under the state that big vehicle brake is tight, rail clamping device is tight of step 4, setting port track crane, the start-up loading system also progressively is loaded into design load, if port track crane is motionless, then rail clamping device has the design safety ability and measures brake resistance this moment F2; If port track crane is moved, then rail clamping device can not meet design requirement, and repeats above-mentioned test behind the clamped condition of adjustment rail clamping device, and is motionless until port track crane;

Step 5, set under the tight state of big vehicle brake pine, the rail clamping device of port track crane, the start-up loading system also progressively is loaded into design load or till machine moves, measures the brake resistance F3 of rail clamping device;

Step 6, described data processing module and Computer Analysis software are analyzed, are calculated test data,

Obtain: the rail clamping device actual braking force is F1-Fm,

If F1-Fm designs damping force more than or equal to rail clamping device, then the rail clamping device capability of anti-wind is qualified, otherwise must adjust rail clamping device,

Big vehicle brake actual braking force is F3-Fm,

If F3-Fm is more than or equal to big vehicle brake design damping force, then big vehicle brake capability of anti-wind is qualified, otherwise must adjust big vehicle brake;

Step 7, the typhoon wind-force that foundation is possible are set theoretical wind-force Ff, the actual braking capacity Fs=F1-Fm+F3-Fm+Fm=F1-Fm+F3 of the wind-proof device of port track crane complete machine,

If Fs 〉=Ff, then port track crane complete machine capability of anti-wind is qualified, otherwise then defective.

Because anti-wind capability of anti-wind device of port track crane dynamic testing method of the present invention has adopted technique scheme, promptly adopt based on the loading system of lifting jack pushing tow port track crane when the big vehicle brake of port track crane and rail clamping device are in the various combination state, the while adopts pressure sensor, vibration transducer, data acquisition module, data processing module and Computer Analysis software collection, handle, the calculating port track crane is in the damping force under the different braking situation, and compare with design load or theoretical value respectively, with the big vehicle brake of judging port track crane and the requirement whether rail clamping device meets wind prevention braking, and whether the braking capacity of port track crane complete machine meets the requirement of wind prevention braking; Utilize this method can grasp the capability of anti-wind of port track crane wind-proof device in real time, reduce all kinds of disaster caused by a windstorm losses, provide reliable assurance for guaranteeing the person and device security.

Description of drawings

The present invention is described in further detail below in conjunction with drawings and embodiments:

Fig. 1 is for implementing the synoptic diagram of this method.

Embodiment

Anti-wind capability of anti-wind device of port track crane dynamic testing method of the present invention, the big vehicle brake and the rail clamping device that comprise port track crane 1, and loading system 2, data measurin system, signal acquiring processing system 3 and display module 4, described loading system 2 comprises lifting jack and respective holder, described data measurin system comprises pressure transducer 5 and the vibration transducer 6 that is installed on the crane 1, described signal acquiring processing system 3 comprises the data acquisition module of gathering described data measurin system signal, data processing module and Computer Analysis software, described display module 4 connects described signal acquiring processing system 3 and display process result; This method comprises the steps:

Step 1, described loading system is located at the port track crane rail side and is propped up port track crane, start described data measurin system and signal acquiring processing system;

Under the state of step 2, the big vehicle brake pine of setting port track crane, rail clamping device pine, start described loading system to port track crane and move, measure the stiction Fm of port track crane;

Under the state that big vehicle brake is tight, rail clamping device is loose of step 3, setting port track crane, start described loading system to port track crane and move, measure the brake resistance F1 of big vehicle brake;

Under the state that big vehicle brake is tight, rail clamping device is tight of step 4, setting port track crane, the start-up loading system also progressively is loaded into design load, if port track crane is motionless, then rail clamping device has the design safety ability and measures brake resistance this moment F2; If port track crane is moved, then rail clamping device can not meet design requirement, and repeats above-mentioned test behind the clamped condition of adjustment rail clamping device, and is motionless until port track crane;

Step 5, set under the tight state of big vehicle brake pine, the rail clamping device of port track crane, the start-up loading system also progressively is loaded into design load or till machine moves, measures the brake resistance F3 of rail clamping device;

Step 6, described data processing module and Computer Analysis software are analyzed, are calculated test data,

Obtain: the rail clamping device actual braking force is F1-Fm,

If F1-Fm designs damping force more than or equal to rail clamping device, then the rail clamping device capability of anti-wind is qualified, otherwise must adjust rail clamping device,

Big vehicle brake actual braking force is F3-Fm,

If F3-Fm is more than or equal to big vehicle brake design damping force, then big vehicle brake capability of anti-wind is qualified, otherwise must adjust big vehicle brake;

Step 7, the typhoon wind-force that foundation is possible are set theoretical wind-force Ff, the actual braking capacity Fs=F1-Fm+F3-Fm+Fm=F1-Fm+F3 of the wind-proof device of port track crane complete machine,

If Fs 〉=Ff, then port track crane complete machine capability of anti-wind is qualified, otherwise then defective.

Anti-wind capability of anti-wind device of port track crane dynamic testing method of the present invention adopts based on the loading system of lifting jack pushing tow port track crane when the big vehicle brake of port track crane and rail clamping device are in the various combination state, the while adopts pressure sensor, vibration transducer, data acquisition module, data processing module and Computer Analysis software collection, handle, the calculating port track crane is in the damping force under the different braking situation, and compare with design load or theoretical value respectively, with the big vehicle brake of judging port track crane and the requirement whether rail clamping device meets wind prevention braking, and whether the braking capacity of port track crane complete machine meets the requirement of wind prevention braking; Utilize this method can grasp the capability of anti-wind of port track crane wind-proof device in real time, reduce all kinds of disaster caused by a windstorm losses, provide reliable assurance for guaranteeing the person and device security.

Claims (1)

1. anti-wind capability of anti-wind device of port track crane dynamic testing method, the big vehicle brake and the rail clamping device that comprise port track crane, and loading system, data measurin system, signal acquiring processing system and display module, described loading system comprises lifting jack and respective holder, described data measurin system comprises pressure transducer and the vibration transducer that is installed on the crane, described signal acquiring processing system comprises the data acquisition module of gathering described data measurin system signal, data processing module and Computer Analysis software, described display module connects described signal acquiring processing system and display process result, it is characterized in that this method comprises the steps:

Step 1, described loading system is located at the port track crane rail side and is propped up port track crane, start described data measurin system and signal acquiring processing system;

Under the state of step 2, the big vehicle brake pine of setting port track crane, rail clamping device pine, start described loading system to port track crane and move, measure the stiction Fm of port track crane;

Under the state that big vehicle brake is tight, rail clamping device is loose of step 3, setting port track crane, start described loading system to port track crane and move, measure the brake resistance F1 of big vehicle brake;

Under the state that big vehicle brake is tight, rail clamping device is tight of step 4, setting port track crane, the start-up loading system also progressively is loaded into design load, if port track crane is motionless, then rail clamping device has the design safety ability and measures brake resistance this moment F2; If port track crane is moved, then rail clamping device can not meet design requirement, and repeats above-mentioned test behind the clamped condition of adjustment rail clamping device, and is motionless until port track crane;

Step 5, set under the tight state of big vehicle brake pine, the rail clamping device of port track crane, the start-up loading system also progressively is loaded into design load or till machine moves, measures the brake resistance F3 of rail clamping device;

Step 6, described data processing module and Computer Analysis software are analyzed, are calculated test data,

Obtain: the rail clamping device actual braking force is F1-Fm,

If F1-Fm designs damping force more than or equal to rail clamping device, then the rail clamping device capability of anti-wind is qualified, otherwise must adjust rail clamping device, and big vehicle brake actual braking force is F3-Fm,

If F3-Fm is more than or equal to big vehicle brake design damping force, then big vehicle brake capability of anti-wind is qualified, otherwise must adjust big vehicle brake;

Step 7, the typhoon wind-force that foundation is possible are set theoretical wind-force Ff, the actual braking capacity Fs=F1-Fm+F3-Fm+Fm=F1-Fm+F3 of the wind-proof device of port track crane complete machine,

If Fs 〉=Ff, then port track crane complete machine capability of anti-wind is qualified, otherwise then defective.

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