Stacker

Stackers – fast, effective and reliable handling of bulk materials in a stockyard operation

In any large-scale stockyard operation stackers play a key role as they deposit the bulk materials in pre-set patterns and systems. Stackers are available in a wide variety of configurations depending upon the required throughput and degree of mobility. They may feature a stacking belt that can be raised or lowered, single or twin booms, a semi or fully automatic control system, and other application-specific features. Fully automatic rail-mounted stackers, for example, are ideal for building up stockpiles for storage or blending beds.

3D Stackers I thyssenkrupp

Key benefits of our stackers in your stockyard operation

Benefits of stacker in your stockyard operations I thyssenkrupp

thyssenkrupp stackers combine robustness, fast operation, and high throughputs. They are designed so the user enjoys the benefits of cost effectiveness, reliability, and eco-friendliness. To meet today’s increasingly strict environmental and safety requirements, thyssenkrupp stackers are generally equipped with all the necessary precautionary equipment and systems to minimize the impact of noise, dust emissions, etc. on operators and the surroundings.

Luffing and slewing stacker

Luffing and slewing stacker I thyssenkrupp

This is the most versatile type of stacker since it can slew from one stockpile to another on the other side of the yard, building uniform stockpiles on both sides of the yard feed conveyor. This stacker can build a stockpile in chevron, cone-shell, windrow or strata stockpiling modes. The machine can easily work in combination with each and every type of reclaimer on adjacent rail tracks, as the boom can slew to a position parallel to the rail track, thus allowing other machines to bypass it.

Luffing stacker

Luffing stacker

A luffing stacker travels along the entire length of the longitudinal stockpile conveyor to build a stockpile on just one side of the conveyor. A luffing stacker is easy to operate and the most cost-effective solution for a stockpile on one side of the conveyor. Thanks to its simple structure it has fewer mechanical components than luffing and slewing stackers. However, only chevron and cone-shell stacking are possible with this type of stacker. Moreover, bypassing machines on adjacent rail tracks is more difficult as the boom cannot be slewed out of the way.

Combined circular stacker-reclaimer

Combined circular stacker-reclaimer

A circular stacker-reclaimer, which is designed for 360° rotation, consists of a slewing and luffing stacker to stack the material, a reclaimer (portal, side or bridge type), and a central column, which includes a feed and discharge hopper. The stacking and reclaiming systems operate independently. Material is fed to the boom conveyor via an overhead feed conveyor.

Substructure

The substructure or undercarriage is the structural steelwork from above the equalizers up to the slew bearing. It comes in a plate box girder design, with welded constructions on all the major members. The stacker is designed to transfer loads from the stacker superstructure via the portal into the long travel system as efficiently as practicable.

Superstructure
Cable reel
Travel bogies
Boom
Slew arrangement
Boom luffing system
Tripper car
E-house

How a stacker operates

Stackers are high-capacity machines used for stacking and blending material. Working in two directions, a stacker can pile material onto two parallel stockpiles using a slewing and luffing boom. A rail-mounted stacker travels on two rails between the stockpiles. The stopping and starting sequence for the stacking operation is controlled either from the operator's cabin control panel or from a central control room.

Stacking methods
Chevron stacking
Chevron stacking

This method involves the stacker initially building a small pile at the center and along the full length of the stockpile. At the end of the stockpile the stacker is raised by a predetermined height to create a second layer on top of the initial pile by travelling along the rail in the opposite direction.

Cone-shell stacking
Cone-shell stacking

The cone-shell method involves a pile being formed by stacking the bulk material in a single cone at the center of the pile until the full height of the stockpile is reached.

Strata stacking
Strata stacking

The strata method stacks the bulk material in horizontal layers and creating alternat¬ing layers that enable different grades of the same bulk material to be reclaimed.

Windrow stacking
Windrow stacking

The stacker initially builds the first small cone along the stockpile length by slewing the boom to make the reach longer or shorter, as required. At the end of the stockpile the stacker boom slews to build a second cone by travelling in the opposite direction.

Technical facts and figures

InstallationsOver 1,300 installations worldwide
Product characteristicsFree-flowing or sticky; lump size up to 250 mm
ThroughputUp to 16,000 tons per hour
Boom lengthUp to 67 m
Pile widthsUp to 82 m
Pile heightsUp to 31 m