DE102009055407A1 - Hoist with a twistlock assembly - Google Patents

Abstract

A hoist with a twistlock assembly (6) has a pivot pin (7) with a hammer head (8). The latter can be pivoted about a pin axis (9) between a release position and a locking position for engaging behind side walls of a locking opening of a body to be lifted by the hammer head (8). The pivot pin (7) has an externally threaded pin section (10). A bolt nut (11) has an internal thread which is complementary to the external thread of the external thread bolt section (10). The bolt nut (11) is mounted on a hoist support frame (1) via a bearing wall (12). The bearing wall (12) of the bolt nut (11) is convex. A counter wall (13) of an abutment body (14) fixed to the supporting frame, against which the bearing wall (12) rests, is concave. The bolt nut (11) is floatingly supported. The result is a hoist with a twistlock assembly, in which the insertion of the hammer head into the locking opening of the body to be lifted is made easier.

Description

The invention relates to a load handling device or hoist with a twistlock assembly according to the preamble of claim 1. Instead of the term "twistlock" is the expert the term "screw cap" common.

Such a hoist is known from the DE 100 21 480 A1 ,

It is an object of the present invention to develop a twistlock assembly for a hoist of the type mentioned in such a way that the insertion of the hammer head is facilitated in the locking hole of the body to be lifted.

This object is achieved by a hoist with a twistlock assembly with the features specified in claim 1.

According to the invention it has been recognized that the convex shape of the bearing wall of the bolt nut and / or the complementary concave shape of the counter wall of the support frame fixed abutment body allows a given tilting degree of freedom of the pivot pin relative to the support frame, which is the insertion of the hammer head in the locking hole of the body to be lifted, in particular in a slot twist-shot recording of a container, z. B. in a corner fitting after DIN ISO 1161 , facilitated. The pivot pin is thus floating on the support frame. The hoist may be a container hoist. The hoist can be designed in particular in the form of a spreader. The bearing wall of the bolt nut and / or the opposite wall of the abutment body can by machining method, for. B. by CNC turning, be made. The shaping on the one hand of the bearing wall and on the other hand, the counter wall may be such that the two walls are formed complementary to each other. The shape of the bearing wall to the counter wall may be such that the two walls abut each other via a plant-ring portion surrounding the pin axis. The bearing wall or the counter wall can be designed cone-shaped. The bearing wall or the counter wall can be formed as a hollow cone. Instead of the term "pivot pin" is the expert the term "pivot" (see. DIN EN 15056 ) common. The twistlock assembly according to the invention can be used both in a load handling device such as a spreader, in particular in a spreader frame-like load handling device, as well as in a hoist such as a gantry forklift or a crane. The entire twistlock assembly can be manufactured at a low cost.

A spherical shape of the bearing wall and / or the counter wall allows a particularly low-wear floating bearing of the pivot pin.

An abutment body according to claim 3 additionally has the function of a support frame reinforcing frame support plate. Such a frame support plate can on the support frame z. B. be fixed by a screw.

A driver body according to claim 4 allows for a given thread pitch of the thread of the male threaded bolt portion and the bolt nut fine length adjustment of a supernatant of the hammer head of the pivot pin on the support frame by screwing or unscrewing the threaded connection between the pivot pin and the bolt nut. The driver body can be designed as a driver disc with non-rotationally symmetrical driver opening, which is designed to be complementary to a driver head of the pivot pin. The driver opening may be designed axially symmetrical with orthogonal symmetry axes or point symmetrical. The actuator of the rotary actuator can be designed as a lever that is loaded during pivoting to train or pressure.

A compound according to claim 5 can be manufactured with low production costs. The connection points can be designed through connection openings. The connection points of the bolt nut can have internal threads. By connecting points designed as connection points of the driver body connecting screws can be introduced.

Another object of the present invention is to develop a twistlock assembly of a hoist of the type mentioned in such a way that the radial guidance of the pivot pin is improved.

This object is achieved by a hoist with a twistlock assembly according to claim 6.

According to the invention it has been recognized that the radial guidance of the pivot pin can be improved if it is guided to the hammer head. The guide sleeve can be supported on the abutment portion on the support frame and / or on the hammer head. The biasing spring for tensioning the guide sleeve against the abutment portion avoids an undesirable constraint between the pivot pin and the support frame, at the same time a floating support of the pivot pin remains possible on the support frame. The preload spring can be made of steel, Rubber or plastic, in particular made of polyurethane (PUR), be made. A possible, supporting support of the guide sleeve not on the hammer head, but on an abutment portion of the support frame can prevent the hammer head from unwanted wear. This can result in an extension of the service life of the twistlock assembly. Instead of the term "pivot pin" is the expert the term "pivot" (see. DIN EN 15056 ) common. The twistlock assembly according to the invention can be used both in a load handling device such as a spreader and in a hoist such as a gantry forklift or a crane. The entire twistlock assembly can be manufactured at a low cost.

A guide piece according to claim 7 allows a cost-producible installation of the guide sleeve on the abutment portion.

A press fit according to claim 8 represents a production technically uncomplicated and at the same time secure connection of the guide piece with the sleeve body.

Profiled investment walls according to claim 9 result in that no radial deflection of the hammer head takes place against the guide sleeve. This also avoids unwanted wear of the hammer head.

A game according to claim 10 can ensure a defined contact of the two abutment walls together in the region of their radial profiling. In addition, the game can provide a desired tilting degree of freedom of the pivot pin in the guide sleeve.

A lubrication point according to claim 11 allows lubrication of the pivot pin, without requiring a disassembly of this from the guide sleeve is necessary.

A support of the biasing spring according to claim 12 simplifies the construction of the twistlock assembly. The frame support plate can be supported flat on the support frame.

A support frame according to claim 13 is stable and inexpensive to manufacture. The top flange can simultaneously represent the abutment body on which the bolt nut is mounted floating in a variant of the twistlock assembly. The hollow profile of the support frame may extend to the pivot pin and beyond. In such an embodiment of the support frame, this can be continued in one piece in the region of the twistlock assembly, which improves the integrity of the support frame and thus its stability.

An embodiment of the abutment body according to claim 14 leads to an advantageous reinforcement of the support frame in the region of the twistlock assembly.

A wear plate according to claim 15 leads to an additional reinforcement of the support frame in the region of the twistlock assembly. The wear plate can be supported flat on the support frame and in particular on a lower flange of the support frame. The wear plate may be fixed to the support frame via a weld joint that does not have to be a load-bearing connection transmitting lifting forces. Such a welded connection is inexpensive. The wear plate may have a passage opening for the pivot pin, which is then dimensioned such that the above-described tilting degree of freedom of the pivot pin is given. The through hole of the wear plate can be removed by thermal abrasion DIN 8590 , z. B. be formed by autogenous burning or plasma or laser cutting.

Embodiments of the invention will be explained in more detail with reference to the drawing. In this show:

1 in perspective and in the region of a twistlock assembly partially broken in section an end portion of a support frame of a hoist or lifting device using the example of a spreader for container handling;

2 in one of the 1 corresponding perspective view of the twistlock assembly of the hoist;

3 the twistlock assembly after 2 , seen from one compared to 2 opposite viewing direction;

4 in one too 1 similar representation of another embodiment of a hoist with a twistlock assembly;

5 a vertical axial longitudinal section through the end-side frame portion of the hoist with the twistlock assembly after 4 ;

6 in an axial longitudinal section one of the execution of the 4 and 5 corresponding, mounted on the opposite end portion of the support frame twistlock assembly, wherein the cutting plane perpendicular to that of 5 lies;

7 the detail VII in 6 ; and

8th the detail VIII in 6 ,

A hoist or load-handling device in the form of a spreader for container handling has a hoist or load-carrying support frame 1 in the form of a hollow profile, which is designed as a rectangular box profile, with a top flange 2 , a bottom strap 3 and two the top strap 2 and the lower chord 3 each side edge connecting side walls or webs 4 . 5 , As far as the load handling device is a spreader, the support frame is 1 as end carrier or head beam (cf. DIN EN 15056 ).

The hoist has a twistlock or twist lock assembly 6 in total in the 2 and 3 is shown. The twistlock assembly 6 has a pivot pin or pivot 7 with a hammer head 8th , The hammer head is about a pin axis 9 pivotable between a release position shown in the drawing for insertion of the hammer head 8th in a locking opening of a body, not shown, in particular a container, and a locking position for locking behind engaging side walls of the locking opening by the hammer head 8th , In the locking position is the pivot pin 7 compared to the release position by 90 ° around the pin axis 9 pivoted.

The pivot pin 7 has an externally threaded pin portion 10 , A bolt or pin nut 11 has an internal thread leading to an external thread of the male threaded bolt portion 10 is executed complementary. The bolt nut 11 is over a storage wall 12 on a counter wall 13 an abutment body 14 of the supporting frame 1 stored. The bolt nut 11 is against the abutment body 14 over one the bolt nut 11 outside surrounding sealing ring 14a (see in particular 4 ff.). The sealing ring 14a prevents dirt from entering through the walls 12 . 13 formed bearings of the bolt nut 11 on the abutment body 14 penetrates. The abutment body 14 is as the upper belt 2 of the supporting frame 1 reinforcing frame support plate executed.

The warehouse wall 12 the bolt nut 11 is spherically convex. Also a different design of the storage wall 12 It is possible to make a crown around the pin axis 9 circumferential system on the opposite wall 13 leads. The counter-wall 13 the support frame fixed abutment body 14 is formed as a hollow cone.

The bolt nut 11 and the abutment body 14 as well as the other major components of the twistlock assembly 6 and the hoist with the support frame 1 , of mild steel, for example steel grade S355J2 + N (former structural steel St 52). In particular, non-welded components of the twistlock assembly 6 can also be made of other materials. The bolt nut 11 can be made of tempered steel. The warehouse wall 12 the bolt nut 11 and the counter wall 13 of the abutment body 14 become with the help of cutting manufacturing methods DIN 8589 , z. As a numerically controlled lathe, ie by CNC turning produced.

Due to the through the storage wall 12 and the counter wall 13 formed pivot pin bearing is a floating bearing of the pivot pin 7 on the support frame 1 educated. This allows a predetermined tilting degree of freedom of the pivot pin 7 to facilitate insertion of the hammer head 8th in the locking opening of the body to be lifted, in particular in a long-hole twist-lock receptacle of a container.

A driver body 15 serves for the positive mechanical coupling of the pivot pin 7 with an actor 16 in the form of a lever of an otherwise not shown pivoting drive for pivoting the pivot pin 7 between the release position and the locking position. The driver body 15 is as a drive plate with a stadium-shaped, so not rotationally symmetrical cam opening 17 executed. The driver opening 17 is complementary to a driver head 18 of the pivot pin 7 executed.

A connection device 19 for the rotationally fixed connection of the driver body 15 at the bolt nut 11 is designed such that the driver body 15 with the bolt nut 11 in more than two circumferential positions of a rotation of the bolt nut 11 relative to the abutment body 14 around the bolt axis 9 rotatably connected. The rotationally fixed connection of the Mitnehmerkörpers 15 with the bolt nut 11 via the connection device 19 takes place via a combination of pairs of connection points on the one hand to the bolt nut 11 and on the other hand on the driver body 15 , For this purpose, the connection device 19 a predetermined number of connection points on the bolt nut 11 , namely a total of four connection openings with internal threads, which are not visible in the drawing, and an integer multiple greater number of connection points on the driver body 15 namely a total of eight passage connection openings 20 , Through the passage connection openings 20 in the driver body 15 can connecting screws 21 guided and screwed into the internal thread of the bolt nut connection openings, as far as the connection openings on the one hand in the driver body 15 and on the other hand in the bolt nut 11 aligned with each other. The four Connection holes with internal thread in the bolt nut 11 and the eight passage connection openings 20 in the driver body 15 are at the same radial distance to the pin axis 9 and arranged equally distributed in the circumferential direction, so that in each case four of the eight passage connection openings in the driver body 15 with the four female threaded connection holes of the bolt nut 11 can be brought into alignment. This aligned match is given given position of the driver body 15 in a total of eight circumferential positions of a rotation of the bolt nut 11 relative to the abutment body 14 around the bolt axis 9 , ie in 45 ° part steps of a complete revolution of the bolt nut 11 around the bolt axis 9 in front.

About this possibility of positioning the bolt nut 11 relative to the abutment body, so the frame support plate 14 , can a supernatant of the hammer head 8th over a bottom of the support frame 1 via the thread of the male threaded bolt portion 10 Specify fine for a given thread pitch.

The hollow profile with the upper flange 2 and the lower chord 3 and the two side walls 4 . 5 extends transversely to the pin axis 9 over the pivot pin 7 out. The pivot pin 7 penetrates through holes 22 . 23 in the upper belt 2 and in the lower flange 3 are executed.

The hollow profile of the tag frame 1 is also in the area of the twistlock assembly 6 designed as a continuous, one-piece frame. Between the frame support plate 14 and the upper girth 2 is a reinforcing plate 24 arranged, which has a fillet weld, so a non-load-bearing weld with a small cross section, with the top of the upper chord 2 is welded. The abutment body 14 , so the frame support plate, is with the top flange 2 and the reinforcing plate 24 via screw connections 25 screwed.

A wear plate 26 reinforces the lower flange 3 of the supporting frame 1 on the hammerhead 8th facing side of the support frame 1 , The wear plate 26 is supported flat on the lower flange 3 From and is fixed with this in turn via a fillet weld, which is not a load-bearing connection, so the wear plate 26 only in position to the lower flange 3 holds.

The wear plate 26 has a passage opening 27 for the pivot pin 7 , which is dimensioned such that the tilting degree of freedom of the pivot pin 7 given is. The wear plate through hole 27 and also a corresponding through opening through the frame support plate 14 to the passage of the pivot pin 7 are formed by autogenous burning or by plasma cutting.

A guide sleeve 28 serves for radial guidance of the pivot pin 7 , The guide sleeve 28 lies over a rigid support frame investment area 29 , namely via the through opening 23 surrounding edge region of the lower belt 3 , on the supporting frame 1 at. Between the support frame attachment area 29 and the through hole 23 surrounding edge region of the lower belt 3 can, as far as the twistlock assembly 6 is used normally, a game is available.

The guide sleeve 28 has a tubular sleeve body 30 and a the hammer head of the pivot pin 7 adjacent guide piece 31 in the form of a stepped ring. The leader 31 has a perimeter level 32 about which the leader piece 31 the guide sleeve 28 axially on the support frame contact area 29 is applied. The leader 31 has a guide piece sleeve section 32a starting from the perimeter level 32 through the passage openings 23 and 27 except for the hammerhead 8th is led to. The guide sleeve 28 rests on the guide piece sleeve section 32a at the hammerhead 8th from.

The leader 31 is with the sleeve body 30 connected via a compression bandage. For this purpose, the sleeve body 30 where he is with the leader 31 is connected, turned on fit outer diameter and the guide piece 31 has a corresponding turned on fit inside diameter.

The leader 31 the guide sleeve 28 extends to the hammer head 8th and has a hammer head 8th facing pivot pin attachment wall 33 whose radial profiling is complementary to a radial profiling of the guide sleeve 28 facing hammerhead plant wall 34 is executed. The radial profiling of the hammer head abutment wall 34 is by a recess or groove 35 educated. Complementary to the rotation 35 has the pivot pin attachment wall 33 of the guide piece 31 a projecting profile bead.

Adjacent to the hammerhead 8th has the leader 31 one at the cross section of the hammer head 8th adapted cross section, as in the 2 and 3 shown. This cross-section matching of the leader 31 to the hammerhead 8th facilitates the introduction of the hammer head 8th in the locking opening of the body to be lifted.

When locking the pivot pin 7 the leader turns 31 not with.

The two investment walls 33 . 34 lie against each other so that due to their profiles no unwanted radial deflection of the hammer head 8th against the guide sleeve 28 he follows.

The sleeve body 30 the guide sleeve 28 has a lubrication point 36 for supplying a lubricant. In this way, the pivot pin 7 without disassembly, ie without removal from the guide sleeve 28 to be lubricated.

For detecting the installation of a body to be lifted on the lower flange 3 has the twistlock assembly 6 a stylus 37 , with a free pin end over the lower flange 3 survives down. The stylus 37 is as a remote rotary part with a male threaded portion 38 executed at its obergurtseitigen end. A stylus pen 39 rests between a stylus section 40 that is rigid with the free end of the stylus 37 connected, and the frame support plate 14 from. This is the free end of the stylus 37 in the extended position, which is shown in the drawing, biased. A splint shown in the drawing serves as an assembly or disassembly aid.

A lock button 41 locks a pivoting movement of the pivot pin 7 with suspended body to be lifted. This function of the lock button 41 is known from the prior art. The driver body 15 is non-positive with the pivot pin 7 , the bolt nut 11 and the actor 16 connected. In the end positions of the actor 16 , on the one hand the locking position and on the other hand, the release position of the hammer head 8th of the pivot pin 7 correspond, finds a locking of the driver body 15 with the lock button 41 instead of. The lock button 41 is about an external thread of the male thread section 38 of the stylus 37 complementary internal thread on the stylus 37 screwed. The lock button 41 is about a locknut 42 on the stylus 37 secured.

To carry out the stylus 37 have the frame support plate 14 , the reinforcement plate 24 , the upper strap 2 , the lower belt 3 and the wear plate 26 corresponding passage openings, which in turn are carried out by autogenous burning or plasma cutting.

The twistlock assembly 6 is with the hoist with the support frame 1 as follows: First is the pivot pin 7 in the release position shown in the drawing. Before a lifting insert is in the context of one-time adjustments the supernatant of the hammer head 8th of the pivot pin 7 by appropriate rotational positioning of the bolt nut 11 relative to the frame support plate 14 with screwed pivot pin 7 and at installation of the bearing wall 12 on the opposite wall 13 set. When the correct length is reached, the bolt nut becomes 11 still rotated in the nearest rotational position, in the pairs of connection openings in the driver body 15 and in the bolt nut 11 for screwing in the connecting screws 21 aligned with each other. In the release position, the support frame 1 then positioned over the body to be lifted so that the pivot pins 7 that come to rest at the four corners of the body to be lifted, in particular at corner fittings of the container, can be inserted into the slot-twistlock recordings of the body to be lifted. Such container corner fittings are described in the DIN ISO 1161 , The floating bearing of the pivot pin 7 over the spherical walls 12 . 13 allows a tilting degree of freedom or a tilting clearance of the pivot pin 7 that facilitates this introduction. After inserting the hammer heads 8th the twistlock assemblies 6 at the four corners of the body to be lifted are the styli 37 pushed in and the lock button 41 gives a pivoting movement of the pivot pin 7 free from the release position into the locking position. The hammer heads engage behind in the locking position 8th the side walls of the locking openings of the body to be lifted, so for example the shape of a container corner fitting, from the inside. It is then a positive connection of the support frame 1 made with the body to be lifted, so that the hoist can lift the body to be lifted.

Based on 4 to 8th Below is another embodiment of a twistlock assembly 43 described in place of the twistlock assembly 6 on the hoist with the support frame 1 can be used. Components which correspond to those described above with reference to 1 to 3 already described, bear the same reference numbers and will not be discussed again in detail.

Compared to the 4 and 5 show the 6 to 8th a mirrored design of the twistlock assembly 43 at the other end of the hoist support frame 1 is used. Apart from the fact that the Twistlock assembly after the 6 to 8th mirror-symmetrical to the twistlock assembly 43 after the 4 and 5 is formed, exists between these twistlock assemblies 43 no significant difference.

The detail enlargements after the 7 and 8th clarify the type of plant the warehouse wall 12 the bolt nut 11 on the opposite wall 13 the frame support plate 14 , The counter-wall 13 is designed as a hollow cone. In longitudinal section after the 6 and 7 has the counter-wall 13 in the radial direction a constant slope. The bearing wall 12 is convex and in particular spherically convex and lies in the center of the support frame 1 aligned pintle 7 in a middle, around the bolt axis 9 circumferential ring section 45 , the Indian 7 is highlighted by a dashed oval, on the opposite wall 13 at. At a tilt of the pivot pin 7 relative to the support frame 1 remains the plant ring section 45 due to the spherical design of the bearing wall 12 stationary. For a non-spherical design of the bearing wall 12 can the plant-ring section 45 at a tilt of the pivot pin 7 relative to the support frame 1 also hiking in or out.

Instead of the straight hollow cone shape, the counter wall 13 also be designed concave hollow cone, the radii of curvature of the bearing wall 12 and the counter-wall 13 complementary to each other. The radii of curvature can also be coordinated with each other, so that in turn a ring-shaped annular bearing ring section on the type of investment ring section 45 results. In a further variant, the bearing wall 12 be straight cone shaped and the counter wall 13 correspondingly convex and in particular spherical convex, so that in turn an annular abutment-ring section according to the nature of the ring section 45 to 7 results. Finally, it is also possible the counter-wall 13 convex and the bearing wall 12 concave design, where the design can be here so that the two walls 12 . 13 are formed complementary to each other, or so that in turn a system investment ring section on the type of investment ring section 45 results. Also a design such that both walls 12 . 13 Convex are possible.

The crop enlargement after 8th clarifies the conditions of the system of the swivel pin attachment wall 33 of the guide piece sleeve section 32a of the guide piece 31 the guide sleeve 28 at the hammerhead plant wall 34 , Please note that in the detail section after 8th the leader piece sleeve portion 32a in longitudinal section, the pivot pin 7 with the hammer head 8th however, is shown in a non-cut side view. The around the pivot pin axis 9 circumferential rotation is therefore in the 6 and 8th only to see where they are due to the rotational symmetry around the pin axis 9 deviating design of the hammer head 8th emanates from this. Extending from a radially inner section 46 of the guide piece sleeve section 32a axially towards the hammer head 8th extending profile bead of the pivot bolt abutment wall 33 of the guide piece sleeve section 32a dives into the recess 35 of the hammerhead 8th and therefore immersed in an upper hammerhead level 47 one. Apart from the radially inner section 46 of the guide piece sleeve section 32a with the profile bead has the other pivot pin attachment wall 33 of the guide piece sleeve section 32a a lower guide sleeve level 48 , Between these two levels 47 . 48 remains a game S, the z. B. may be 0.5 mm. The size of the game S can be over the twist of the bolt nut 11 around the bolt axis 9 be set. A comparably large game S is between an outer shell wall of the pivot pin 7 and an inner shell wall of the guide sleeve 28 before, allowing a pivoting of the pivot pin 7 in the guide sleeve 28 around the bolt axis 9 is possible.

For the twistlock assembly 43 is the guide sleeve 28 against the hammerhead plant wall 34 via a biasing spring 44 biased. The plant of the peripheral level 32 of the guide piece 31 at the support frame investment area 29 serves to secure the guide sleeve 28 at a demolition of the hammer head 8th from the pivot pin 7 in case of emergency. In the illustrated embodiment according to the 4 and 5 it is the bias spring 44 around a plate spring.

The 4 and 5 show the leader 31 the guide sleeve 28 against the biasing force of the biasing spring 44 shifted from the support frame investment area 29 spaced. When using the twistlock assembly 43 lies between the circumference level 32 of the guide piece 31 and the support frame abutment area 29 a defined gap in front, so that the circumferential level 32 and the support frame abutment area 29 during normal operation of the twistlock module 6 respectively. 43 do not touch each other.

The biasing spring 44 can be designed as a steel spring, rubber spring, as a plastic spring, for example made of polyurethane (PUR) or as a spring made of a soft plastic. Between the frame support plate 14 and the biasing spring 44 can still be arranged an intermediate plate.

Alternatively, the biasing spring can 44 on the upper belt 2 of the supporting frame 1 support.

Due to the preload spring 44 is a constant axial positioning of the guide sleeve 28 ensures, so that an undesirable constraint of the bearing of the pivot pin 7 in the area of the walls 12 . 13 or an undesired constraint in the region of a system of the guide sleeve 28 on the frame support plate 14 is avoided. The biasing spring 44 ensures a return of the pivot pin 7 from a capped position into a relative to the support frame 1 centered position.

The support frame investment area 29 as well as the pivot pin attachment wall 33 the guide sleeve 28 can have an abutment function to support the guide sleeve 28 against the support frame 1 and / or against the hammerhead 8th of the pivot pin 7 to have. Both the support frame investment area 29 as well as the pivot pin attachment wall 33 the guide sleeve 28 can therefore represent an abutment body, over which the guide sleeve 28 axially on the support frame 1 and / or on the hammerhead 8th supported.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10021480 A1 [0002]

Cited non-patent literature

• DIN ISO 1161 [0005]
• DIN EN 15056 [0005]
• DIN EN 15056 [0012]
• DIN 8590 [0021]
• DIN EN 15056 [0031]
• DIN 8589 [0035]
• DIN ISO 1161 [0055]

Claims (15)

Hoist with a twistlock assembly ( 6 ; 43 ) - with a pivot pin ( 7 ) with a hammer head ( 8th ) around a pin axis ( 9 ) is pivotable between a release position for insertion of the hammer head ( 8th ) in a locking opening of a body to be lifted and a locking position for locking behind engaging side walls of the locking hole by the hammer head ( 8th ), - wherein the pivot pin ( 7 ) an externally threaded bolt portion ( 10 ), - with a bolt nut ( 11 ) with an external thread of the male threaded bolt portion ( 10 ) complementarily executed internal thread, wherein the bolt nut ( 11 ) via a storage wall ( 12 ) on a hoist supporting frame ( 1 ), characterized in that the bearing wall ( 12 ) of the bolt nut ( 11 ) is convex and / or that a counter wall ( 13 ) of a supporting frame fixed abutment body ( 14 ), on which the bearing wall ( 12 ) is concave, so that a floating mounting of the bolt nut ( 11 ). Hoist according to claim 1, characterized in that the bearing wall ( 12 ) and / or the counter-wall ( 13 ) are spherically shaped. Hoist according to claim 1 or 2, characterized in that the abutment body ( 14 ) at the same time a support frame ( 1 ) reinforcing frame support plate. Hoist according to one of claims 1 to 3, characterized by a driver body ( 15 ) for the positive mechanical coupling of the pivot pin ( 7 ) with an actuator ( 16 ) of a pivoting drive, - wherein a non-rotatable connection device ( 19 ) for connecting the driver body ( 15 ) on the bolt nut ( 11 ) is designed such that the driver body ( 15 ) with the bolt nut ( 11 ) in more than two circumferential positions of a rotation of the bolt nut ( 11 ) relative to the abutment body ( 14 ) is rotatably connected. Hoist according to claim 4, characterized in that the connection via the connecting device ( 19 ) via a combination of connection points ( 20 ) on the one hand on the bolt nut ( 11 ) and on the other hand on the driver body ( 15 ), wherein the connection device ( 19 ) a predetermined number of connection points on the bolt nut ( 11 ) and an integer multiple number of connection points ( 20 ) on the driver body ( 15 ) having. Hoist with hoist support frame ( 1 ) and with a twistlock assembly ( 6 ; 43 ) - with a pivot pin ( 7 ) with a hammer head ( 8th ) around a pin axis ( 9 ) is pivotable between a release position for insertion of the hammer head ( 8th ) in a locking opening of a body to be lifted and a locking position for locking behind engaging side walls of the locking hole by the hammer head ( 8th ), - with a guide sleeve ( 28 ) for radial guidance of the pivot pin ( 7 ), - wherein the guide sleeve ( 28 ) to the hammer head ( 8th ) and an abutment section ( 29 ; 33 ), over which the guide sleeve ( 28 ) axially on the support frame ( 1 ). and / or on the hammer head ( 8th ), characterized by a biasing spring ( 44 ) for tensioning the guide sleeve ( 28 ) against the support frame ( 1 ) and / or against the hammer head ( 8th ). Hoist according to claim 6, characterized in that the guide sleeve ( 28 ) a sleeve basic body ( 30 ) and a hammer head ( 8th ) of the pivot pin ( 7 ) adjacent guide piece ( 31 ) with a peripheral level ( 32 ), over which the guide sleeve ( 28 ) axially on a support frame abutment area ( 29 ) Can be brought to the plant. Hoist according to claim 7, characterized in that the guide piece ( 31 ) with the sleeve main body ( 30 ) is connected via a press fit. Hoist according to one of claims 6 to 8, characterized in that the guide sleeve ( 28 ) a the hammer head ( 8th ) facing pivot pin abutment wall ( 33 ), whose radial profiling complementary to a radial profiling of the guide sleeve ( 28 ) facing hammer head abutment wall ( 34 ) is executed. Hoist according to claim 9, characterized in that in sections between the pivot bolt abutment wall ( 33 ) and the hammerhead attachment wall ( 34 ) a game ( 5 ) is present. Hoist according to one of claims 6 to 10, characterized in that the guide sleeve ( 28 ) a lubrication point ( 36 ) for supplying a lubricant. Hoist according to one of claims 6 to 11, characterized in that the biasing spring ( 44 ) on the frame side at the same time a support frame reinforcing frame support plate ( 14 ) is supported. Hoist according to one of claims 1 to 12, characterized in that the support frame ( 1 ) by a hollow profile with a top flange ( 2 ) and a lower flange ( 3 ) is formed. Hoist according to claim 13, characterized in that the abutment body ( 14 ) flat on the upper flange ( 2 ) is supported. Hoist according to one of claims 1 to 14, characterized by a wear plate ( 26 ) supporting the supporting frame ( 1 ) on a hammer head ( 8th ) side facing reinforced.

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