Planning of Overhead Shop Cranes

Prudent planning and realization of cranes and overhead conveyor systems

Cranes and overhead conveyor systems are widely spread throughout the industry. But which advantages and disadvantages do they have compared to other conveyor systems? Which types exist? How can such systems be planned? All these questions will be answered in this article.

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Applications of cranes and overhead conveyor systems

Cranes and overhead conveyor systems are conveyor systems that are required for the material flow. On the one hand, they serve for transport and, on the other hand, they are used to handle heavy loads. But how to classify such systems? The diagram below gives a brief overview:

Which are the advantages and disadvantages of overhead discontinuous conveyors, and which are their fields of application?

Advantages:

• Discontinuous transport possible
• Can be used at different working levels
• High flexibility
• Transport above the working and production levels; no or little footprint
• No excessive investments required

Disadvantages:

• Can only be used for low or medium conveying capacities
• No continuous transport possible
• High expenditure of controlling and automation
• Main areas of application are small and medium-batch production

Types of overhead discontinuous conveyors

Please find below an overview of the different types of overhead discontinuous conveying systems.

Overhead conveyor systems

Overhead conveyor systems are rail-mounted, separately moving or driven conveyor systems. The linear transport is performed in circular or reversing mode. Overhead conveyor systems are mounted often directly on the supporting structure of the building. In case the load bearing capacity of the building is not sufficient, a specially designed steel construction can also be used for suspension of the overhead conveyor system. Overhead conveyor systems are dimensioned for the most varied payloads.

Function: Point to point transport

Transport distance: Short, medium, long

Illustration: Overhead conveyor system

 

Slewing jib cranes

The crane category of slewing jib cranes includes pillar-mounted slewing jib cranes and wall-mounted slewing jib cranes. Terms such as &#;derrick&#; or &#;pillar-mounted slewing crane&#; are used as synonyms for the term &#;pillar-mounted slewing jib crane&#;. For increased flexibility, slewing jib cranes can be designed for different load bearing capabilities, slewing ranges, and radii.

The pillar of the pillar-mounted slewing jib crane requires an installation area. Wall-mounted slewing jib cranes can be mounted on walls, columns or on the equipment.

Function: Area-wide transport

Crane footprint: Small, medium

Illustration: structure and components of a slewing jib crane

Overhead cranes

Overhead cranes, commonly called bridge cranes, exist in different sizes and designs. The terms &#;suspension crane&#; or &#;underslung crane&#; are used as synonyms. A distinction is often made between single girder underslung cranes and double girder underslung cranes. The double girder underslung crane is the ideal choice for higher payloads which may amount up to several hundreds tons. The crane bridge travels on the crane runways which are often mounted directly on the columns or pillars of the building, primarily in the case of larger systems. Smaller systems are, however, fixed on the roof supporting structure or on specifically designed steel constructions. Contrary to the slewing jib crane, the crane radius of overhead cranes is not round, but rectangular.

Function: Area-wide transport

Crane footprint: Small, medium, large

Illustration: structure, types and components of suspension cranes

Gantry cranes

In contrast to overhead cranes or suspension cranes, the crane runway of the gantry crane is installed on the floor. The supporting structure is mobile and usually guided in two parallel rails. There are also gantry cranes with freely traveling wheel frames. Gantry cranes can be designed in very different dimensions, depending on the requirements.

Function: Area-wide transport

Crane footprint: Small, medium, large

Illustration: structure, types and components of gantry cranes

Planning cranes and overhead conveyor systems

Planning conveyor systems is part of the iterative factory planning process. Iterations result from separate planning of the different planning objects. The systems and the layout of the production main process are planned in first iterations, and the systems of the peripheral processes, such as the conveyor systems, are planned in further iterations. Furthermore, iterations are required due to the increasing level of detail of planning solutions. Result of an iteration in the factory planning process is usually a layout.

1. Developing an overall layout

The planning of conveyor systems always starts out from layout variants of layout objects of the production main process, for example production sections, machines, systems, and workplaces. In this context, it is imperative to take into account the material flows. The types of conveyor systems are predefined in the material flow analyses. The conveyor system is selected in accordance with the following aspects:

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• Service program &#; type and number of the items to be transported
• Layout &#; transport routes, restrictions in respect of the building, etc.
• the relevant standards, regulations or ordinances where applicable &#; DIN EN or ISO standards, workplaces ordinance, etc.

The illustrations below show layout variants as they are developed as prerequisites for designing conveyor systems.

Fig. 1: Example layout for an overhead conveyor system (level of detail: area level)

Fig. 2: Example layout for a pillar-mounted slewing jib crane (level of detail: workplace level)

2. Designing conveyor systems

The conveyor systems are designed in the second step. It is paramount to verify the feasibility and to define the routes or positions of the conveyor systems. This step is often performed by a specialist planner of the company operating the conveyor systems.

Planning of the load suspension devices is paramount when working with overhead conveyor systems. In particular, the load bearing capacity of the hall supporting structure (pillars and roof supporting structure) is to be checked in particular, in the case of suspension crane and overhead systems. Specialist planners like architects or structural engineers are to be involved where necessary, and appropriate standards are to be observed, for example DIN EN -1-1, DIN EN -6. If the structure of the building does not permit the suspension of the loads, mounting on pillars in combination with steel constructions should be taken into account.

The main objective of designing the routing or arrangement of the crane runways, crane rails and slewing jib cranes is to specify the work areas and to ensure the feasibility in respect of collisions and interfering contours. The steel constructions are also designed with these objectives in mind, because in particular, the steel pillars constitute layout-relevant interfering contours. It is not decisive here to specify the type and dimensions of double-T girders exactly, for example, but rather to conceive possible pillar positions in advance and to fix them in the layout.

Designing cannot be performed without layout. At this point, however, the difference between designing and constructing should be mentioned. Designing is usually performed in the layout planning software, independently of the manufacturer. Details of the construction are as less as important as exact dimensioning of the crane components. A layout planning software with predefined, module-based, easy-to-operate library elements should be used to enable the specialist planner designing conveyor systems, without requiring him to be a design engineer or specialist for conveyor technology.

Conveyor systems designed by way of a layout planning system are shown in the illustrations below.

Fig. 1: Example layout for an overhead conveyor system (level of detail: area level)

Fig. 2: Example layout for a pillar-mounted slewing jib crane (level of detail: workplace level)

3. Tendering and awarding the contract

Overhead discontinuous conveyors: Planning and realizing cranes and overhead conveyor systems prudently

This phase is focussed on transferring the concept into a performance description with the objective to tender the desired system and request quotations. The quotations are then to be evaluated, manufacturers to be selected, and contracts to be awarded.

The concepts and requirements are usually described by way of requirement specifications. The more exact the inquiries to the manufacturers are formulated, the simpler will be the subsequent verification and comparison of the quotations. Therefore, the requirements and all technical data are to be described as exactly as possible. Important information are for example

• the routing/lengths of the crane rails and crane bridges
• payloads in kg or t
• the dimensioning of the desired swiveling ranges
• radii of the crane systems
• lifting heights
• descriptions of the desired lifting devices or lifting tackle and workpiece holders, for example, manual vs. electrical chain hoist, vacuum lifters vs. crane hooks, and so forth

In particular, geometrical correlations cannot always be described simply and unambiguously by way of requirement specifications. To avoid misunderstandings, a 3D model of the concept should be passed onto the manufacturers. Furthermore, it is recommended to fix appropriate interface formats to be able to exchange models between the customer and the system manufacturer, together with the inquiry or within the framework of the offer phase.

4. Detailed planning and implementation

The awarding of the contract is followed by the detailed planning which is usually performed by the system manufacturer. Paramount is the exchange between customer and contractor. The factory model kept by the customer should be provided with current plan versions of the detailed planning at regular intervals. Within the course of this process, the concept model is replaced by the model from the system manufacturer, and requests for modifications are sent by the customer to the system manufacturer. This iterative process should be conducted as simply and efficiently as possible.

Then the system will be realized which is to be monitored by the customer accordingly, including comparison against the offer. The system can start production after its implementation and release.

The next visTABLE® update that will be performed in the next time includes an extension of the crane catalog by a straightforward modular crane construction kit, which was also used to create the layout cutouts represented in this article.

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Brief comparison between the two models in large power station construction field Description Luffing jib tower crane
&#;Large Capacity&#; Level jib tower crane
&#;Large Capacity&#; Comparison results Luffing jib type Level jib type Application field Widely used and it can replace level jib tower crane Relatively narrow in application field and it can not replace luffing jib tower crane Superior inferior Laying out flexibility Good Bad Superior Inferior Design, manufacture and manufacturing cost Complex design and manufacture and high manufacturing cost Relatively easy and low manufacturing cost Inferior Superior Safety High Relatively low Superior Inferior Anti-wind ability Strong Weak Superior Inferior Perching accuracy and efficiency High Low Superior Inferior Lifting and derricking speed Fast Slow Inferior Superior Lifting capacity at large radius and the same moment Large Small Superior Inferior Maximum radius at the same moment Small Large Inferior Superior Safety and suitability of cooperative operation Strong Weak Superior Inferior Erecting and dismantling cost Low High Superior Inferior As the above comparison, luffing jib tower crane has great advantage over level jib tower crane in power station construction field, which has been confirmed by more than 100 power stations construction in china. Level jib tower crane is widely used in plant construction of power station as auxiliary tool while luffing jib tower crane definitely predominates in boiler lifting. It is not the only choice to use luffing jib tower crane for boiler lifting, which can be achieved by cooperation between large crawling crane, furnace handling crane and large level jib tower crane but also economical efficiency, safety and plane layout need to be carefully considered.


The following issues need to be carefully considered for large level jib tower crane

• Plane layout feasible or not? Large project needs simultaneous operation of many sets of cranes as it is very important for dodging of cranes from each other and from buildings. Otherwise, it may possibly lead to very low efficiency in operation, high risk and unguaranteed time limit for a project. But luffing jib tower crane is very flexible in boom range no matter, it is in working condition or nonworking condition for conveniently dodging the other cranes and buildings in construction field while level jib tower crane can not do that either in working condition or non-working condition.
• Are local climate especially wind frequency and wind speed suitable for using level jib tower crane? According to safety code, the slewing and brake mechanism of the crane must be released in non-working condition (i.e. free slewing condition) to ensure that the boom can freely slew with the wind for reducing wind influence to crane. Take dodging into consideration, whether the boom of the level jib tower crane is allowed to freely slew with wind or not? Luffing jib tower crane can simultaneously release slewing and brake mechanism and locate the boom in small range for the purpose of extensively reducing wind influence to the crane and avoiding collision between the boom and other cranes and buildings when freely slewing in non-working condition.
• Whether the cooperative operation of two sets of crane is needed in present and future project? Owing to the economical efficiency and shortage of crane with more large specification, the cooperative operation of two sets of cranes Is adopted widely. For cooperative operation, luffing jib tower crane has great advantage while level jib tower crane is very dangerous to use for structural limitation or even unavailable for interference between the crane and the building.
• Which country or area can your crane be used at present or in future? Level jib tower crane is prohibited in many countries and many areas. And landowners in many countries are entitled to have command of the air at limited height so that you can avoid lawsuit if you do not let your crane breach other people's sovereignty. According to the data of constructed power plant in China, most of the sites adopted luffing jib tower crane as the main lifting machinery that the customers can be benefited for scientifically choosing proper crane model.

As per the "Feasibility Study Report of Large-scale Machinery Arrangement for MW Coal-fired Unit Boiler Lifting" Published on "construction mechanization" magazine, November, , comparing with traditional machinery arrangement plan, the adoption of FZQ series luffing jib tower crane by Finehope (www.fhjs.net) has higher efficiency especially cooperated with auxiliary crawler crane, of which the plan can improve the economic benefits greatly by reducing the operating cost, assemble and dissemble cost and foundation treatment cost as well as engineering construction cost. Based on the large scale machinery performance condition within China, it can be concluded that the arrangement plan of adopting one FZQ and one FZQ by Finehope for the boiler lifting shall spread.

Luffing jib tower crane and level jib tower crane are two kinds of common models. Both models are widely used but they differ in their structure, operating principle and application field. Luffing jib tower crane is mainly used in large project and industrial equipment installing field where large lifting capacity, high perching accuracy and high safety are required for lifting large members and equipment component. Level jib tower crane is mainly used in common civil building field where fast lifting and inaccurate perching are required for lifting building materials. Both models have advantages and disadvantages in different application fields, therefore we can plan a key role in determining which model should be selected.As the above comparison, luffing jib tower crane has great advantage over level jib tower crane in power station construction field, which has been confirmed by more than 100 power stations construction in china. Level jib tower crane is widely used in plant construction of power station as auxiliary tool while luffing jib tower crane definitely predominates in boiler lifting. It is not the only choice to use luffing jib tower crane for boiler lifting, which can be achieved by cooperation between large crawling crane, furnace handling crane and large level jib tower crane but also economical efficiency, safety and plane layout need to be carefully considered.The following issues need to be carefully considered for large level jib tower craneAs per the "Feasibility Study Report of Large-scale Machinery Arrangement for MW Coal-fired Unit Boiler Lifting" Published on "construction mechanization" magazine, November, , comparing with traditional machinery arrangement plan, the adoption of FZQ series luffing jib tower crane by Finehope (www.fhjs.net) has higher efficiency especially cooperated with auxiliary crawler crane, of which the plan can improve the economic benefits greatly by reducing the operating cost, assemble and dissemble cost and foundation treatment cost as well as engineering construction cost. Based on the large scale machinery performance condition within China, it can be concluded that the arrangement plan of adopting one FZQ and one FZQ by Finehope for the boiler lifting shall spread.

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