The invention relates to a chain shackle for fastening the end of a hoist chain of a chain hoist to a hoisting member or the chain hoist, the hoist chain comprising chain loops fastened to each other with the planes formed by the adjacent chain loops mainly at a 90° angle to each other.
In chain hoists, the end of the hoist chain must be locked in two places depending on the implementation of the hoist. In single-chain hoists, a chain shackle is necessary in the hook cylinder of the hoisting hook. In a double-chain hoist, the end of the chain needs to be locked in the frame of the chain hoist. In addition, a type of lock piece is needed in the chain bag to operate a limit switch and/or prevent the chain from being run out of the chain hoist completely. Often all three places have their own locking elements.
A general manner of locking the chain to the hook cylinder and chain hoist frame is to use a pin that passes through the chain loop and supports itself against the hook cylinder and chain hoist frame. The pin solution has the problem that the pin is a double-supported “beam” subjected to bending and its tension level becomes high because it is not possible to push a pin with a very large diameter through the chain loop. In addition, during chain change, the pin may be set in a different position than originally. The direction of the load of the pin may then become disadvantageous so that the side of the pin that was originally subjected to compression is now subjected to tensile stress. Especially if a notch has formed in the pin during compression by a chain loop, the pin solution becomes dangerous. In the pin solution, the surface pressure between the chain loop and pin is disadvantageous due to the geometrics, because, in principle, it is a point contact.
Often shape-locking elements are used in locking the chain, either directly moulded into the hook cylinder or to separate parts that in turn lock into the hook cylinder or chain hoist frame by shape-locking.
It is an object of the invention to primarily reduce the stress directed to the chain and chain shackle. Another object of the invention is to avoid a situation in which many different elements are needed to lock the chain.
The set objectives are achieved by a chain shackle of the invention that is characterised in that the chain shackle comprises two identical shackle halves installable against each other to work together on a plane parallel to the longitudinal direction of the halves and the hoist chain in such a manner that they form between them a first space for one chain loop or chain loop half of the hoist chain to lock it against the hoisting direction or force, the first space being open in a first direction in the longitudinal direction of the chain shackle, and a second space connected to the first space and intended for a second hoist chain loop that is coupled with the first chain loop or is to be coupled with a chain loop half, the second space being open in both longitudinal directions of the hoist chain and turned 90° in relation to the first space about the longitudinal direction of the hoist chain.
Preferred embodiments of the invention are disclosed in the dependent claims.
The solution of the invention provides the following advantages, for instance:
The invention will now be described in more detail by means of a few preferred exemplary embodiments, with reference to the attached drawings, in which
a is a front view (from the inside of the chain shackle) of a shackle half of the chain shackle according to the invention;
b shows the shackle half according to
c shows the shackle half according to
d shows the shackle half according to
e shows the shackle half according to
f is a perspective view of the shackle half shown in the above figures;
g is an outline of the cooperation between the shackle halves;
a shows a single-chain chain hoist, in which the chain shackle formed of the shackle halves shown in
b is an exploded view of the locking shown in
a shows a double-chain chain hoist, in which the chain shackle formed of the shackle halves shown in
b is an exploded view of the locking shown in
c shows a sleeve-like locking nut shown in
a is a more detailed representation of the chain shackle shown in
b is an exploded view of the locking shown in
The drawings show a chain shackle 1 of the invention for fastening the end of a hoist chain 3 of a chain hoist 2, 20 to a hook cylinder 5 of a hoisting hook 4 of a single-chain hoist 2 according to
With reference to
The first space A comprises a recessed groove 1b on each shackle half 1a and, extending across the second space B, a cam 1c, on the surface of which the groove 1b continues so that the shapes of the groove 1b and cam 1c surfaces substantially correspond to the shape of the outer surface of the chain loop 3a or chain loop half 3b. Thus, the essential thing with this structure is that, if necessary, the hoist chain 3 may continue in both directions from the chain shackle 1, as seen in
In an appropriate manner, the shackle halves 1a form together a rotationally symmetrical entity, as shown in the drawings.
In addition, on the outer edge of each shackle half 1a, on the end that is on the side of the open end of the first space A, there are means for supporting the chain shackle 1 to the fastening location. When the chain shackle is of the rotationally symmetrical type shown in the drawings, these means for supporting the chain shackle 1 to the fastening location are most preferably a flange structure 1d surrounding the outer edges of the shackle halves 1a.
a and 2b show, how the end of the hoist chain 3 is fastened to the hook cylinder 5 formed by two identical cylinder halves 5a of the hoisting hook 4 of the single-chain hoist 3 with the chain shackle 1 of the invention. A cut half 3b of a chain loop is passed through the intact hoisting loop 3a at the end of the hoist chain 3 and the shackle halves 1a are set on both sides of this entity. The formed combination is closed between the cylinder halves 5a, which have semi-cylindrical recesses 5b corresponding to the shape of the outer surface of the shackle halves 1a for shape-locking the shackle halves 1a inside them. The above flange structure 1d of the chain shackle 1 is supported against corresponding machining 5c formed in the recesses 5b of the cylinder halves 5a and, thus, receives the load in the hoist chain 3. The load of the hoist chain 3 is also directed to the grooves 1b and cams 1c of the first space A of the chain shackle 1, the load-bearing surface area of which is considerably larger than that of the earlier pin solutions.
a and 3b show the fastening of the hoist chain 3 end to the bottom part of the frame 21 of a double-chain hoist 20. In this structure, the hook cylinder 23 has a chain pulley 24, around which the hoist chain 3 coils and fastens at its other end to the bottom part of the frame 21. For this fastening, a sleeve-like locking nut 25 has been arranged, the inside of which forms a space 25a corresponding to the outline of the chain shackle 1 for the chain shackle 1 and for arranging the shackle halves 1a in cooperation, and the outer surface of which has threads 25b for fastening the chain shackle 1 supported against the locking nut 25 to corresponding threads of the frame 21. The locking nut 25 together with the chain shackle 1 receives the load directed to the hoist chain 3. The locking nut 25 can also be locked stationary with a clamping screw 26 of
Finally,
The description of the invention is only intended to illustrate the basic idea of the invention. A person skilled in the art may, however, implement the details of the invention in several alternative ways within the scope of the attached claims.
Number | Date | Country | Kind |
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20126051 | Oct 2012 | FI | national |
Filing Document | Filing Date | Country | Kind |
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PCT/FI2013/050970 | 10/7/2013 | WO | 00 |