FI126621B - Lifting stand to lift goods transport unit - Google Patents

Description

Lifting bracket for lifting the freight unit

Background of the Invention

The invention relates to a lifting bracket for lifting a freight unit, such as a container, comprising a rectangular frame comprising two edges and two ends; in the center are two adjacent lifting means arranged in line with the lifting means at lower corners of the frame for securing and locking to the fastening means located in the middle of each longitudinal edge of the superstructure of the cargo unit. As used herein, the term superstructure generally refers to the structures of the freight unit located at the top of the freight unit and defining the top level of the freight unit.

US 7905528 discloses a rectangular frame lifting unit for lifting a freight unit. At the corners of the frame are lifting means for securing and locking to the fastening means at the corners of the superstructure of the freight unit. The problem with this known lifting rack is that it causes a great deal of stress on the container structure when lifting the container due to the fact that the lifting rack is adapted to lift the container only at its corners. In particular, if the container is long, for example 12 m (40 ft), the longitudinal profiles of the container, even when lightly loaded, are subjected to extremely high forces when lifted by a lifting rack. As a result, a loaded container of a few tens of tonnes cannot be lifted by a lifting rack. Even if the structure of the container is strong, the standard strength fasteners in the container superstructure do not allow the container to be lifted by means of a hoisting rack over 50 tons total weight. Consequently, when such a container is to be lifted, for example, it must be lifted aboard or only lightly loaded. Filling a container with heavy cargo can only be completed once the container has been loaded onto the ship. As a result, handling of the container and its load is necessarily slow.

US 3210113 discloses a lifting frame comprising a rectangular frame comprising two edges and two ends. The edges comprise lifting means extending over the entire length of each of the longitudinal edges of the lower plane of the frame.

Long 12 m (40 ft) long cargo carriers, such as containers, having adjacent fastening members in the center of each of the longitudinal edges of the superstructure, are known so that two 6 m (20 ft) small containers can be mounted on the line. Such a container is known, for example, from US 7591386 B2. Also, for the reasons stated above, such a container, when very heavily loaded, cannot be successfully lifted by a Lifting Rack according to US 7905528, which comprises lifting means only at its angles.

WO 2011/028172 discloses a lifting rack according to the preamble of appended claim 1.

Brief Description of the Invention

It is an object of the invention to provide a new lifting bracket which enables a heavily loaded cargo transport unit, for example a container or transport cassette, whose superstructure includes standard strength fastening members at corners and additionally adjacent fastening members at the middle of each longitudinal edge.

The object of the invention is achieved by a lifting bracket, characterized in that the lifting bracket comprises an adjusting arrangement for changing the relative elevation of two lifting means adjacent to each other on the longitudinal edges of the frame, the adjusting arrangements comprising a swinging member mounted on The longitudinal edge of the lower plane of the frame refers to the longitudinal edge of the frame formed by the lifting means at the corners of the lower plane of the frame. The edge need not consist of a physical structure (e.g., beam), but may be formed of such (e.g. beam). The rocker is easy to reach and very reliable.

The invention is based on the juxtaposition of lifting means with a height adjustable position relative to each other so that the height of the lifting means corresponds to the height of the latches of the goods transport unit. The adjacent fastening members in the middle of the superstructure of the freight unit are almost always at slightly different heights because it is difficult to produce exactly the same height with a difference of a few millimeters in practice. This is not detrimental if the fastening means are not used for lifting but are used to place containers on top of the cargo unit. On the other hand, even a slight difference in height between adjacent fastening members would be of great disadvantage if they were to be used for lifting a heavy goods transport unit and were to be provided with lifting means which would lack the adjustment arrangements according to the invention. The disadvantage is that the pair of lifting attachment members having a lower engagement member than the attachment member of a pair of adjacent lifting attachment members is heavily loaded, but the adjacent pair of lifting attachment members is not loaded at all. If the pairs of lifting attachment brackets are of standard type and the first lifting bracket pairing is subjected to a load of more than 15 t, it will be damaged. Thanks to the height adjustment of the adjacent lifting means, the same force is applied to the adjacent attachment means during lifting.

Preferably, adjacent lifting means located in the middle of the longitudinal edges of the frame of the hoisting rack are arranged to be displaced so that they do not protrude downward from the longitudinal edge of the frame; The adjacent lifting means may be detachable from the frame.

Preferred embodiments of the lifting device according to the invention are set forth in the dependent claims.

An advantage of the lifting bracket according to the invention is that it enables the lifting of a heavily loaded freight transport unit having a superstructure of the freight transport unit comprising, in addition to the angled fastening members, adjacent fastening members in the middle of each longitudinal edge of the superstructure; and, moreover, the rocker body is easily obtainable and extremely reliable. Smooth lifting means that all fastening elements are involved in carrying the load during lifting, whereby no fastening element or lifting device is unduly loaded and thus susceptible to damage. Due to the said uniform load, the lifting rack can be used to lift a very heavily loaded cargo transport unit, although it has, as is highly recommended, a standard type of fastening means. Of course, the structure of the freight transport unit must be such that it can withstand lifting even under load. The lifting rack according to the invention makes it possible, for example, to lift a cargo unit loaded with heavy steel coils, whereby the loading and unloading of the cargo unit loaded with coils onto the ship can be carried out very quickly. The freight unit may be brought into and out of the port area by vehicle. It is conceivable that the steel coils are already loaded directly at the steel mill into the freight unit, which is brought to port by means of transport, and the coils are only removed from the freight unit at the point of use, after the unit has been transported by ship and land. Thus, the lifting bracket according to the invention avoids the transport of an item, such as steel coils, which, when implemented in conventional loading arrangements, requires the item to be lifted several times before it, for example, reaches the end user from the factory. The lifting rack according to the invention can also be used for lifting cargo units larger than standard containers, for example large paper transport units, which can be twice the width of a standard container and, for example, 1½ times the height of a standard container.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described in greater detail by means of a preferred embodiment with reference to the accompanying drawing, in which Figs. 1-3 show a coil transport cassette to be lifted by a hoist carrier according to the invention, side and top, Figs. 4-6 show a preferred embodiment, 1-9 illustrate a lifting rack according to the invention when placed on top of a reel transport cassette according to Figs. 1-3, Fig. 10 illustrates a locking device for locking the lifting means of Fig. 4-6 in a retractable reel transporting cassette, and Fig. 11 illustrates an adjustment arrangement.

DETAILED DESCRIPTION OF THE INVENTION

Figure 1 is a side elevation view of a 40 ft (about 12 m) long freight unit 2 loaded with steel coils 1, a type of reel transport cassette (hereinafter also referred to as "cassette"). A longitudinal trough 3 for receiving the reels 1 is formed in the reel transport cassette. The dimension of the reel transport cassette base structure 4 corresponds to that of a 40 foot standard container. It has a width of about 8 feet (about 2.4 m). The height of the reel transport cassette is preferably equivalent to that of a standard container and roughly approximately 8 feet (about 2.4 m).

At each corner of the reel transport cassette base structure 4 are fastening means 5, 6 for securing the cassette to the substrate, e.g. Fig. 1 shows only the fastening means 5, 6. In the middle of each longitudinal edge of the cassette base structure 4 are adjacent fastening means 8, 9 for fastening the cassette to the substrate, for example the ship deck (not shown). The fastening means 5-9 are of the same type of so-called cor-casting as is used to fasten conventional containers to the substrate.

At each corner of the superstructure of the reel transport cassette are fastening members 10-13 which form lifting points for lifting the reel transport cassette, as shown below. The superstructure comprises opposite longitudinal edges formed by an edge defined by the fastening members 10 and 11 and by an edge defined by the fastening members 12 and 13 respectively. At the center of the edges are adjacent fastening members 14, 15, and 16 and 17, respectively, which form adjacent lifting points, as shown below. The position of the fastening members 10, 14, 17 and 13 is such that they correspond to the position of the fastening members in a 20 ft standard container (not shown); and also the position of the fastening members 15, 11, 12 and 16 is such that they correspond to the position of the fastening members in a standard 20 foot container (not shown). The fastening members 10-17 are of the same type known as "corner castings" as used in conventional containers. Thus, each securing member 10-17 is sized to provide a lifting force of up to about 15 t.

The cassette of Figures 1-3 weighs approximately 10 tons when empty and 1 coil of coils 1 about 100 tons and can be lifted by the lifting bracket of Figures 4-6.

The lifting stand shown in Figures 4-6 comprises a rectangular frame 18 comprising two edges 19, 20 and two ends 21,22. The edges 19, 20 are comprised of longitudinal profiles 40 and 41 and terminate in transverse profiles 42 and 43. In addition, frame 18 has three transverse profiles 44 -46 which interconnect profiles 40 and 41 to stiffen the frame. At each corner of the lower plane 23 of the frame 18 there is a lifting means 24-27, and in the center of each longitudinal edge 19, 20 there are two adjacent lifting means 28, 29 and 30, 31, respectively.

4-6 is positioned on top of the cassette of Figures 1-3 such that the lifting means 24 rests on the clamping member 10, the lifting means 28 on the clamping member 15, the lifting means 25 on the clamping member 11, the lifting means 26 on the clamping member 12, on top, the lifting means 31 on the fastening means 17, and the lifting means 27 on the fastening means 13.

Figures 7-9 show a lift stand mounted on a cassette. Lifting Bracket The lifting means 24 - 31 (see Figure 5) are cooperated with the cassette clamping members 10-17 by rotating the lifting means so that they engage in the clamping members. The lifting means 24 - 31 are thus so-called Twist-lock locking means. Rotation and locking is accomplished by rotating the lifting means 24 to 31 approximately 90 degrees. To this end, lifting means 24 - 31 of the rack are associated with locking means comprising transverse locking rods 70 - 72 and longitudinal locking rod 73. The transverse locking rods 70 - 72 are adapted to rotate lifting means 28, 29 so that they of fastening means 10 -17. For rotating the lifting means 24 to 31, the locking means comprise a pivot mechanism of Figure 10 for rotating the triangular flattened lower parts of the lifting means 28, 29 in accordance with known design. With articular-mechanism comprises a first hinge part 32 comprising two links 33, 34, and a second hinge portion 35 which comprises a joint 36 and an arm 74 which connects the first pivot portion 32 to the second joint part 35. When the locking bar 71 moves the direction of arrow A, the lifting means 28, 29 (see. Figure 11) rotate the link mechanism in the direction of arrow B. The respective locking devices and the articulation mechanism are associated with the lifting means 30 and 31, i.e., as the locking rod 71 moves, the lifting means 30, 31 are pivoted. The locking rods 70 and 72 at opposite ends of the lifting bracket are adapted to rotate lifting means 24, 27 and 25, 26, respectively, with pivoting mechanisms comprising pivot parts corresponding to pivot portion 32 and a pivot corresponding to pivot 33 of pivot portion 32. 73 is preferably attached to the locking bars 70, 71, 72, whereby moving the locking shaft 73 in a transverse direction to its longitudinal direction, ie the direction of arrow C (see Fig. 5), the locking bars 70, 71, 72 are displaced. The displacement of the locking rods 70-73 may be carried out, for example, by hand or by other arrangements known to those skilled in the art. It is conceivable that instead of the locking bars 70-72, hydraulic, pneumatic or electrical locking devices are used to turn the lifting means 24-331. The locking devices or the locking means of the lifting means 24 to 31 to the fastening means 10 to 17 will not be described in detail herein, as such locking devices are known to one skilled in the art and can also design suitable locking devices.

Figures 7 and 9 illustrate a dashed line of elongated lifting members 56-58, such as ropes, chains or ropes secured to the upper fastening points 59-62 of the hoisting rack, cf. Figures 7-9. The attachment points 59 to 62 are secured to the upper plane of the longitudinal profiles 40 and 41. The anchorage points 59 to 62 are preferably lugs which, when viewed in the longitudinal direction of the frame 18, are arranged so that at each corner of the frame there is a single attachment point in the middle of each lifting means and a pair of adjacent lifting means. Thus, the anchorage point 59 is located in the middle of the lifting means 24 and the pair of lifting means 28, 29; the anchorage 60 is located in the middle of the lifting means 25 and the pair of lifting means 28, 29; the attachment point 61 is located in the middle of the lifting means 26 and the pair of lifting means 30, 31; and the attachment point 62 is located in the middle of the lifting means 27 and the pair of lifting means 30, 31. The fastening points 59 to 62 arranged in this way exert a rather even load on the frame.

In Figures 7, 8 and 11, reference numerals 47 and 48 indicate an adjustment arrangement associated with a lifting bracket for adjusting the elevation positions of the lifting means 28 to 31. Each adjusting arrangement 47, 48 comprises a rocking body 49, 50 mounted in a frame 18, which is mounted on a shaft 52 in the frame.

In Fig. 11, the swing member 49 and the associated lifting means 28, 29 are shown in more detail. The lifting means 28, 29 are fixedly but pivotally mounted on the rocking body 49. The center of the rocking body 49 has an opening 51 whose wall forms a bearing on the shaft 52 in the center of the rocking body. the lifting means 28, 29 may be adjusted, The lifting means may be positioned correctly against the cassette clamping members 14,15, although the latter are, for manufacturing reasons, slightly different in height, as shown in Fig. 11. The mounting member 15 is located 5 mm below the mounting member 14. When lifted from the lifting bracket, the swing member 49, due to its bearing, is positioned in a position where its lifting means 28, 29 are at the height of the fastening members 14, 15. Thus, although the fastening member 15 is, for example, 5 mm lower than the fastening member 14, the lifting means 29 is secured to the right height by the fastening member 15 by rotating the rocker member 49 clockwise. As the swing member 49 rotates about 1 degree clockwise, the lifting means 29 descends 5 mm relative to the lifting means 28. Similarly, if the fastening member 14 was lower than the fastening member 15, the swing member 49 would rotate counter-clockwise. When the lifting means 28, 29 are placed in the correct positions on the fastening members 14, 15 and the lifting means are rotated by means of the locking devices described above to the locking members 14, 15, the fastening members 14, 15 are uniformly loaded. Similarly, the lifting means 30, 31 are secured to the fastening members 16, 17 and cause the fastening members 16, 17 to be substantially substantially loaded. Naturally, when the cassette is lifted, all the lifting means 24 to 31 are secured to the securing members 10-17. The lifting means 24-27 at the corners do not require an adjusting system for adjusting their relative elevation, since the frame 18 of the lifting stand is so long that despite its rigid structure, the fastening members 10-13 at the corners of the cargo unit 2 are slightly different. However, the elasticity of the lifting bracket is so small that the adjacent lifting means 28, 29 can in no way move sufficiently to accommodate adjacent fastening members 14, 15 at different heights, and so that the lifting means and fastening members are uniformly loaded when lifting the cartridge is an adjustment arrangement.

The rocking member 49 is triangular and preferably the center of its opening 51 forms an approximately equilateral triangle with the lifting means 28, 29. Thus, if the lifting member 29 moves 5 mm lower than the lifting means 28, then the lifting means 28, 29 will move 5 mm to the left. The standard type fastening members 14, 15 permit such displacement. Instead of the rocking member 49 having an aperture 51 on which the shaft 52 rests, the rocking body could, unlike the figure, comprise an axis, the frame 18 having an opening acting as a bearing on the axis of the rocking body.

Preferably, the adjacent Lifting Devices 28 to 31 are adapted to be displaced so as not to protrude from the lower plane of the frame (Ref. 23 in Figure 4), since the lifting rack can also be used to lift empty or lightly loaded cargo transport units For example, the portability of the lifting means may be implemented such that adjacent lifting means are adapted to be detached from the frame.

The invention has been described above with reference to the examples, which is why it should be stated that the invention can be implemented in many ways within the scope of the appended claims. Therefore, the frame structure of the lifting stand may vary. The rectangular structure of the frame can be implemented by various lattice structures, of which a preferred embodiment is described above. The length of the rack may not be 40 feet (12 m), although this length is highly recommended and important in practice because it allows the rack to be used with a standard-sized freight unit.

Claims (8)

Lifting rack for lifting a freight unit, such as a container, comprising a rectangular frame (18) comprising two edges (19, 20) and two ends (21, 22,), the lower plane (23) of the frame having four corners each comprising lifting means (24-27) for securing and locking the fastening means (10-13) at the corners of the superstructure of the freight unit (2), and two adjacent lifting means (28 and 29; 30 and 31) in the middle of each longitudinal edge of the lower plane (23). arranged in line with the lifting means (24-27) at the corners of the lower plane (23) of the frame for securing and locking to the fixing means (14, 15, 16, 17) in the middle of each longitudinal edge of the superstructure of the freight unit (2) 47, 48) two lifting means adjacent to each other and at both longitudinal edges of the lower plane (23) of the frame (18) (28 and 29; 30 and 31) for changing the mutual elevation position, the adjusting arrangements (47, 48) comprising a rocking member (49, 50) mounted on a frame (18) to which adjacent lifting means (28 to 31) are attached. Lifting rack according to claim 1, characterized in that each side (19, 20) of the frame (18) has a longitudinal profile (40, 41) on which the rocking member (49, 50) is mounted. Lifting rack according to Claim 1 or 2, characterized in that the lifting means (24 - 31) are provided with locking means (32-36, 70-74) for rotating with respect to the frame (18) from a first position enabling the lifting means to be positioned on the superstructure of the freight unit (2). to the fastening means (10-17), to a second position for locking the lifting means to the fastening means (10-17) of the cargo unit. Lifting rack according to claim 3, characterized in that the locking devices are mechanical devices. Lifting rack according to one of the preceding claims, characterized in that the frame (18) comprises longitudinal profiles (40, 41) which are interconnected by means of transverse profiles (42-46). Lifting bracket according to claim 1, characterized in that the lifting bracket comprises four fastening points (59-62) for fastening the elongated lifting members (56, 57, 58), the fastening points of which are viewed in the longitudinal direction of the frame (18). there is one attachment point in the middle of each lifting means (24-27) and a pair of lifting means adjacent the lifting means (28 and 29; 30 and 31) adjacent the longitudinal edges of the frame. Lifting bracket according to one of the preceding claims, characterized in that the lifting bracket is 12 m long and that its lifting means (24 - 31) are adapted to be fastened and locked to standard brackets (10) on the superstructure of a 12 m long freight unit (2). -17), wherein the lifting means (24-27) at the corners of the frame are adapted to be fastened and locked to the standard type fastening members (10-13) at the corners of the superstructure of the freight unit and the lifting means 28 29; 30 and 31) are adapted to be fastened to adjacent fastening members (14, 15, 16, 17) in the middle of each longitudinal edge of the superstructure of the goods transport unit. Lifting rack according to one of the preceding claims, characterized in that adjacent lifting means (28 and 29; 30 and 31) located in the middle of the longitudinal edges of the frame are arranged to be displaced so that they do not protrude downward from the longitudinal edge of the frame. claim