Merits and Demerits of Cranes and Its Components
Online, April 18, 2014 (Newswire.com) - A general mistaken belief is that double girder cranes are harder however as per the business standards each single and double girder cranes are equally rigid, strong and difficult. This is often as a result of single girder cranes use a lot of stronger girders than double girder cranes.
The distinction between single and double girder cranes is that the effective lifting height. Generally, double girder cranes give higher lifting height. Single girder cranes value less in many ways, just one cross girder is needed, tram is less complicated, installation is faster and runway beams value less as a result of the lighter crane dead weight.
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The Merits and limitations of Single / double girder cranes are as follows:
Single Girder Cranes
• Single girder bridge cranes typically have a most span between twenty and fifty feet with a most elevate of 15-50 feet.
• They will handle 1-15 tonnes with bridge speeds approaching a most of two hundred feet per minute (fpm), self-propelled vehicle speeds of roughly one hundred fpm, and hoist speeds starting from 10-60 fpm
• They are candidates for lightweight to moderate service and are value effective to be used as a standby (infrequently used) crane.
• Single girder cranes cut back the full crane value on crane parts, runway structure and building.
Double Girder Cranes
• Double girder cranes are quicker, with most bridge speeds, tram speeds and hoist speeds approaching 350 fpm, 150 fpm, and 60 fpm, respectively.
• They are helpful cranes for a spread of usage levels starting from occasional, intermittent use to continuous severe service. They'll elevate up to a hundred tons.
• These is utilised at any capability wherever extraordinarily high hook elevate is needed as a result of the hook is force up between the girders.
• They are extremely appropriate wherever constellation must be fitted with walkways, crane lights, cabs, magnet cable reels or alternative special instrumentation.
BASIC CRANE COMPONENTS
• Bridge
The most travel structure of the Crane that spans the dimension of the bay and travels during a direction parallel to the runway. The bridge consists of 2 end trucks and one or 2 bridge girders counting on the instrumentality kind. The bridge additionally supports the self-propelled vehicle and hoisting mechanism for up and down lifting of load.
• End trucks
Set on either aspect of the bridge, the tip trucks house the wheels on that the whole crane travels. Its associate assembly consisting of structural members, wheels, bearings, axles, etc., that supports the bridge girder(s) or the tram cross member(s).
• Bridge Girder(s)
The principal horizontal beam of the Crane bridge that supports the tram and is supported by the top trucks.
• Runway
The rails, beams, brackets and framework on that the Crane operates.
• Runway Rail
The rail supported by the runway beams on that the Crane travels.
• Hoist
The hoist mechanism may be a unit consisting of a motor drive, coupling, brakes, gearing, drum, ropes, and cargo block designed to boost, hold and lower the utmost rated load. Hoist mechanism is mounted to the self-propelled vehicle.
• Trolley
The unit carrying the hoisting mechanism that travels on the bridge rails in a very direction at right angles to the Crane runway. Tram frame is that the basic structure of the tram on that are mounted the hoisting and traversing mechanisms.
• Bumper (Buffer)
An energy gripping device for reducing impact once a moving crane or tram reaches the top of its permissible travel, or once two moving cranes or trolleys acquire contact.