DE2406057A1 - JIB CRANE - Google Patents

Description

Frank Arnold Nix

Patent attorney

6 Frankfurt am Main 70 2406057

Gartenstrasse $ 12

JIB CRANE

The invention "relates to cranes for lifting loads and more precisely on jib cranes »

The present invention can be most effective at self-propelled jib cranes are used.

The jib cranes include portal, tower Ui.xd Selbstfah_ running cranes.

In gantry cranes, articulated joints are boom systems used, which consist of boom, luffing jib, rigid or flexible drawstring, which is a four-membered Form articulation system, which guarantees horizontal load guidance when indwelling the crane outreach. However, these cranes are not universally applicable enough and find limited use when carrying out construction and assembly work, where often independent movement of the fly jib with respect to the jib is required, which is the case with the articulated joints

not
own boom systems ^{v is} guaranteed.

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In tower cranes, the crane radius is changed by pivoting the boom in relation to the fixed tower. horizontal Load management is achieved through the use of systems with a compensating roller train or systems with a pull-in and load roller train, which are connected to each other, guaranteed.

It is a disadvantage of tower cranes that the radius of the boom can only be changed by pivoting the boom. The tower is not swiveled here, which reduces the maximum crane radius. They also enable Do not crane to insert a load into building openings and your tower is stressed by a bending moment created by the load, making the tower heavier.

In the case of self-propelled jib cranes, a tower jib -Equipment used which includes a tower and a maneuverable boom, the outreach can only be reached by slewing the Boom is changed with respect to the fixed tower. The latter is done with the help of one located on the crane The winch has been brought to the previously determined position. In these cranes, the boom is in the form of a one or two-armed lever executed

Cranes of this type are known which are provided with devices for horizontal load management when changing the crane radius They include self-propelled cranes with pneumatic wheel chassis, which have a tower linked to the crane frame, the one with a winch and one used to erect the tower

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Roller train is connected and after erecting rigidly on the crane frame "is attached. One end of the tower is the Articulated boom, the second end of which is connected to a pulley and a winch for retracting the boom «, The Load is raised and lowered with the help of a load winch placed on the crane frame · Horizontal load guidance is through Achieved using a compensating pulley, which consists of load rope strands.

Self-propelled jib cranes are also known which have a tower which is connected to a winch and a pulley which are used to erect the tower and to hold it in a predetermined position. ^{An arm * 1 in} the form of a two-armed lever is hinged to the tower, which is drawn in by a winch with the help of a pulley.

The load is raised and lowered with the help of a load winch and a load pulley. The second end of the Load rope attached to the drum of the pull-in winch in such a way that the load is correspondingly increased when the boom is raised or lowered raised or lowered and a horizontal load guidance is achieved.

One of the disadvantages of these cranes is that they do not Have devices that allow the boom to be moved forward parallel to the horizon when the tower is pivoted. Such a shift is required to

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Insert loads in buildings / openings. Also own these cranes have no devices that automatically maintain that ensure a horizontal load path when pivoting the boom when the tower is at any angle is set up.

It is the aim of the present invention to obviate the above mentioned drawbacks.

The present invention has for its object to provide such a jib crane in which during the Pivoting the tower ensures a forward displacement of the boom parallel to the horizon and automatically a horizontal one Load path is maintained when pivoting the boom when the tower is set up at any angle, whereby the latter is not subjected to any stress from bending moments.

The object is achieved in that the jib crane, which has a tower hinged to the crane frame Boom, one end of which is articulated to the tower and its head piece, and has a swivel arm, the one end is hinged to the tower, while the second end is placed with the tower head piece and on the crane frame Portal support "is connected, according to the invention a means is provided for pivoting the tower with the load in the vertical plane which is attached to the crane frame ;, <«oöei the head piece is articulated on the tower, while the swivel arm is articulated with the

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Portal support is connected and the tower, the swivel arm, d $ s Drawstring and the portal support form a four-membered articulation system, which has the 3? O] ge that when pivoting the tower The boom is moved horizontally with the load.

The axes of the joints that connect the boom, the head piece and the swivel arm to the tower coincide with one another together, whereby the ratio of the length of the swivel arm to the length of the portal support is expedient in the case of the four-link system mentioned in the range from 0.7 to 1.4 and the ratio of the drawstring length to the tower length in the range from 0.75 to 1.3.

It has been found that the best result is obtained becomes, if in the four-link system mentioned, the length of the swivel arm is equal to the length of the portal support and the length of the tie rod is equal to the length of the tower, the four-part joint system merging into a joint parallelogram.

The means for pivoting the tower with the load can be in the form of a winch with pulley, which connects the tower with the portal connects, or be executed in the form of a hydraulic cylinder · In the last lalle is the piston rod of the hydraulic cylinder hinged on the tower and the cylinder housing on the portal.

The crane according to the invention has new technological possibilities, the construction of its tower-Aus Ib ger equipment is simple and light.

The controlled inclination of the tower with the load and

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the articulation of the tower head piece as well as the implementation of the tuna connection with the crane portal in the form of a joint parallelogram make it possible "with the same / wig_bej ^ known crane tower and boom length" to increase the maximum crane radius and also to use loads in building openings.

The crane according to the invention also has a new property. It ensures that a horizontal load path is maintained when changing the crane radius, if the tower is set up at any angle. This extends the scope of the crane »

In the crane construction according to the invention, the tower not stressed by a bending moment generated by the load, which reduces the weight of the crane, which is particularly important for self-propelled jib cranes.

The invention can be used successfully with all types of jib cranes, namely self-propelled, tower and gantry cranes will.

A specific embodiment of the present invention is described below with reference to the drawing, on which the overall view of the crane according to the invention is shown.

The crane has a tower 1, which is hinged to the crane frame 2, and a means for pivoting the tower 1 with the Load, which is designed in the form of a winch 3 and a pulley 4, the fixed lug 5 of which is articulated on a support 6

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a portal 7 attached to the crane frame 2 ″ are set Means for pivoting the tower 1 can also be a (not shown) Hydraulic cylinders are used, the piston rod of which is hinged to the tower 1 and the cylinder housing of which is hinged to the portal 7.

On an axis 8 of the tower 1 are the ends of the boom 91 the head piece 10 of the tower 1 and the swivel arm 11 are articulated The second end of the pivot arm 11 is through a drawstring 12 to the second end of the head piece 10 and through a Tension band 13 connected to the end of the support 6 of the portal 7.

In this way, the tower 1, the swivel arm 11, and the drawstring 13 form and support 6 of the portal 7 is a four-part articulation system. Here are in the four-link system mentioned, the ratio of the length of the swivel arm 11 to the length of the support 6 of the portal 7 in the range from 0.7 to 1.4 and the ratio from the length of the tension band 13 to the length of the tower 1 in the range from 0.75 to 1.3.

It has been found that the choice of link lengths of the four-link articulation system results in a horizontal forward displacement of the boom 9 niit the load when pivoting the tower 1 is guaranteed.

Most effective horizontal Vorwärtsverschiebtsng of the boom 9 is ensured parallel to the horizon, when the four-membered linkage system the length of the pivot arm ^ 11 gieieii the length of the support 6 of the portal and the length of the tension band 13 is equal to the length of the tower 1 is _a ^ as a result has ₉ -that the four-part joint system changes into © la Geleakparallelogramii «

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The second end of the boom 9 is connected to a winch 14 via a pulley 15, the fixed rollers 16 are placed on the head piece 10 of the tower 1, while its loose rollers 17 via a tension band 18 with the end of the boom 9 connected sina =, yes controlled changing of the position of the boom 9 can also be used with this crane by a hydraulic cylinder (not shown), a rack gear or a Spindle retraction mechanism as well as another work with an analogous purpose. A horizontal load management is used with Changing the outreach of the boom 9 achieved in the present crane with the help of a system, to the load and pulling-in rollers united sindo For this purpose, one end of the load rope 19 is attached to the drum of the pull-in winch 14, which around rollers on the axis 8 of the tower 1 and on the axis 20 of the boom 9 »as well as the loose rollers of a load roller train 21 and is directed from here to the load winch 22.

Horizontal load management when changing the extension of the boom 9 can also be done with the present crane by using others known devices, for example a compensating roller train ι interconnected load and pull-in winch or other devices serving an analogous purpose can be achieved.

The crane according to the invention works as follows. When the tower 1 is locked in its vertical position, it is switched on the winch 14 and lowering the boom 9

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its outreach is increased · At the same time, the load rope 19 is wound onto the drum of the pull-in winch 14, whereby it is achieved that the path traveled by the load is horizontal.

When the boom 9 reaches its maximum reach, the latter is made by pivoting the boom 9 supporting Tower 1 enlarged. The tower 1 is with the help of the winch 3 and of the Eollenzugs 4 controllably inclined. After pivoting the tower 1, the latter is held in a predetermined position and with the help of the winch 14, the extension of the boom 9 is changed, but this is already done in a new one Throat area. This changes as a result of the mode of action of the four-link joint system with the aforementioned ratios between the lengths of its limbs, the angle of inclination of the boom 9 to the horizon during the pivoting of the Tower 1 only very little or not at all if the four-part joint system is designed in the form of a joint parallelogram is. This changes only insignificantly or (when using a joint parallelogram) not at all Prerequisites which guarantee a horizontal load guidance and which locked in the initial vertical position Tower 1 are present. As a result, a horizontal load path is maintained when indwelling the radius.

When placing loads in building openings, the Boom 9 placed horizontally, while the actual loading

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set the load by pivoting the tower 1 with the help of the switched on Winch 3 takes place. Here, the boom 9 is pushed forward in the horizontal direction and the load in the Building openings used.

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Claims (1)

PATENT CLAIMS Luffing crane, which has one hinged to the crane frame Tower with boom, which is articulated to the tower and its head piece, and a swivel arm "has one of which End is hinged to the tower, while the second end with the tower head piece and the portal support placed on the crane frame is connected, characterized that a means for pivoting the tower (1) with the load in the vertical plane is provided on the crane frame (2) is attached, and a head piece (10) is articulated on the tower (1), while the pivot arm (11) is articulated with the Support (6) of the portal (7) is connected, the tower (1), the swivel arm (11), the tension band (13) and the support (6) of the Portals (7) form a four-part articulation system, which means that when the tower (1) is pivoted, the boom (9) is shifted horizontally with the load. 2 · Jib crane according to claim 1, characterized in that e i without t that the axes of the joints, which connect the boom (9) »the head piece (10) and the swivel arm (11) to the tower (1), coincide with each other · 3 β-boom crane according to claim 1 and 2, characterized in that when _s visrgliedrigen mentioned articulated system, the ratio of length of the Sohwenkasms (11) to the length of the support (6) of the portal (7) in the range of 0.7 to A09838 / 0312 1.4 and the ratio of the length of the drawstring (13) to the length of the tura (1) is in the range from 0.75 to 1.3. 4 _e jib crane after. Claim 1 and 2, characterized in that in the aforementioned four-part articulation system, the length of the swivel arm (11) is equal to the length of the support (6) of the portal (7) and the length of the tension strap (13) is equal to the length of the tower (1) , whereby the four-limb joint system merges into a joint parllelogram. 5 · Jib crane according to claim 1, characterized in that that the means for pivoting the tower rait the load in the form of a winch (3) with a pulley (4), which connects the tower (1) with the portal (7), is executed. 6. Jib crane according to claim 1, characterized in that the means for pivoting the Tower (1) is designed with the load in the form of a hydraulic cylinder, the piston rod of the hydraulic cylinder being rait
kig ^v the tower (1) and the cylinder housing with the portal (7) connected is. 409836/0312