EP0464209A1 - Gewichtshebevorrichtung - Google Patents

Gewichtshebevorrichtung Download PDF

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Publication number
EP0464209A1
EP0464209A1 EP19900917521 EP90917521A EP0464209A1 EP 0464209 A1 EP0464209 A1 EP 0464209A1 EP 19900917521 EP19900917521 EP 19900917521 EP 90917521 A EP90917521 A EP 90917521A EP 0464209 A1 EP0464209 A1 EP 0464209A1
Authority
EP
European Patent Office
Prior art keywords
load
upright
rod
mast
hydraulic cylinder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP19900917521
Other languages
English (en)
French (fr)
Other versions
EP0464209A4 (en
Inventor
Mark Mikhailovich Raikhlin
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
RAIKHLIN Mark Mikhailovich
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP0464209A1 publication Critical patent/EP0464209A1/de
Publication of EP0464209A4 publication Critical patent/EP0464209A4/en
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66FHOISTING, LIFTING, HAULING OR PUSHING, NOT OTHERWISE PROVIDED FOR, e.g. DEVICES WHICH APPLY A LIFTING OR PUSHING FORCE DIRECTLY TO THE SURFACE OF A LOAD
    • B66F13/00Common constructional features or accessories
    • B66F13/005Thrust chain devices

Definitions

  • the disclosed technical solution relates to load-handling equipment, particularly to hoisting devices.
  • a hoisting device comprising a vertical mast having a guide with load-carrying members moving thereon.
  • the load-carrying member nearest to the top of the mast supports a bracket for fastening the load.
  • the load-carrying members are moved along the guide by a hydraulic cylinder installed in the lower part of the mast.
  • the load-carrying members are brought to, and withdrawn from, the guide manually (SE, C, 417082).
  • Another known hoisting device comprises a tubular mast provided with load and storage uprights arranged parallel to each other along the mast and provided with movably-installed load-carrying members one of which, located nearest to the top of the mast in the load upright supports a load-fastening bracket, and a mechanism for transferring the load-carrying members along the uprights and from one upright to the other, said mechanism being located in the base of the mast.
  • This mechanism comprises a vertical hydraulic cylinder with two rods arranged coaxially with storage and load uprights, respectively, and a horizontal hydraulic cylinder whose rod has a grab for load-carrying member and moves it from under one upright into alignment with the mouth of the other upright, and has swivelling spring-loaded stops under each upright, said stops having projections for fixing said stops in closed position, for moving load-carrying members under their force of gravity, and a removable bushing installed on one or the other rod of the vertical hydraulic cylinder depending on the direction of movement (SU, A, 914467).
  • Such a hoisting device is characterized by difficulties in ensuring strictly alternate operation of vertical and horizontal hydraulic cylinders which impairs reliability of the device.
  • the removable bushing installed on the rod of the vertical hydraulic cylinder arranged coaxially with the load upright is subjected to loading not only along the vertical axis and constituted by the weight of the load and that of the load-carrying members located in said load upright but also by the load acting along the horizontal axis and originated by friction between the projections of swivelling stops and the face surface of the load-carrying member proportional to the weight of the load which calls for the necessity of building up an additional force by the vertical hydraulic cylinder and results in heavy wear of swivelling stops and the surface of the removable bushing.
  • a known hoisting device comprising a tubular mast having load and storage uprights arranged parallel to each other along the mast and provided with movably installed load-carrying members one of which, located nearest to the top of the mast in the load upright supports a load-fastening bracket, and a mechanism for transferring the load-carrying members along the uprights and from one upright to the other, said mechanism being located at the base of the mast.
  • the mechanism comprises a hydraulic cylinder secured in such a manner that the axis of its rod coincides with the axis of the load upright, a guiding device installed under the mast base and having the form of an oval sleeve with a cutout in its bottom determining the trajectory of movement of load-carrying members from one upright to the other, two pushrods installed with a provision for moving towards each other in the direction perpendicular to the axis of the hydraulic cylinder rod and for interacting with the side surface of the load-carrying member located in the guiding device for transferring it from one upright to the other, each linked kinematically by a two-arm lever with the corresponding side of a frame installed on the cylinder rod with a provision for moving relative to said rod in the plane perpendicular to the rod axis in the direction from one upright to the other.
  • the known device is capable of working reliably when hoisting loads weighing up to 200 t. In case of heavier loads the mechanism for transferring load-carrying members from one upright to the other is not sufficiently reliable in this device.
  • the load-carrying member may tilt in the guiding device and may destroy the lower part of the mast when the improperly (tiltably) standing load-carrying member is moved by the cylinder rod.
  • the load-carrying member may also loose stability while it is being moved upward in alignment with the upright, when it rests only on the end of the cylinder rod because, rising together with the rod, is the frame that has kept the spring-loaded lever in inclined position wherein the end of the pushrod which has transferred the load-carrying member from under one upright into alignment with the other one is located inside the guiding device. While the frame moves upward, the return spring shifts the spring-loaded lever to the initial position and withdraws the pushrod from the guiding device.
  • the load-carrying member moving into alignment with the upright will for some time stay in instable position and, since its centre of gravity is located above the supporting point (end of cylinder rod), vibration of the hoisting device may originate an overturning moment which will tumble the load-carrying member before it comes into alignment with the upright.
  • movement of the load-carrying member inside the guiding device under the force of friction which is directly proportional to the weight of the member may also create an overturning moment applied to the load-carrying member and then, as soon as the frame stops holding the two-arm lever in inclined position, the load-carrying member acted upon by the overturning moment will force the pushrod from the guiding device and tumble on its bottom which may also result in a breakdown.
  • the main object of the invention is to provide the hoisting device with two-arm levers and load-carrying members so designed that would ensure reliable operation of the device of any load capacity and would permit reducing the size of the transfer mechanism and, consequently, of the device as a whole.
  • a load-hoisting device comprising a tubular mast with load and storage uprights arranged parallel to each other along the mast axis and having load-carrying members arranged movably along the uprights, the load-carrying member nearest to the top of the mast in the load upright supporting a load-fastening bracket, a mechanism for transferring the load-carrying members along the uprights and from one upright to the other, said mechanism being located in the base of the mast and having a body accommodating a hydraulic cylinder whose rod axis coincides with the axis of the load upright, a guiding device installed under the base of the mast and having the form of an oval sleeve with a cutout in its bottom determining the trajectory of movement of load-carrying members from one upright to the other, two pushrods installed with a provision for moving towards each other in the direction perpendicular to the axis of the hydraulic cylinder rod and for interacting with the side surface of the load-carrying member located in the guiding
  • the stability of the load-carrying members in the guiding device should be increased by making them of a complicated shape formed by two coaxial cylinders of different diameters, the smaller of them being smaller and the larger of them being larger than the width of the cutout in the bottom of the guiding device and that the working position of the load-carrying member should be the one in which its larger-diameter part is directed towards the top of the mast and the smaller-diameter part, to its base.
  • the hoisting device realized in accordance with the present invention is reliable and has smaller dimensions combined with a higher load capacity.
  • Construction of the load-carrying member in the form of two cylinders of different diameters has made it possible to bring the centre of gravity of the load-carrying member as close as possible to the surface of its support (towards the bottom of the sleeve of the guiding device) thereby ensuring its stability under any vibrations of the hoisting device.
  • the hoisting device illustrated in Figs 1,2 comprises a tubular mast 1 with two uprights 2 and 3 arranged parallel to each other along the mast 1, a load upright 3 and a storage upright 2. Located movably along the uprights 2 and 3 are load-carrying members 4, the nearest of them to the top of the mast 1 in the load upright 3 supporting a bracket 5 intended for fastening the load to be hoisted (not shown in the drawings).
  • a mechanism 6 located in the lower part of the mast 1 is intended to transfer the load-carrying members 4 along the uprights 2 and 3 and from one upright (2 or 3) to the other.
  • the mechanism 6 has body 7 (Figs 3,4,5,6,7,8) accommodating a hydraulic cylinder 8 installed so that the axis 9 of its rod 10 coincides with the axis 11 of the load upright 3.
  • the rod 10 of the hydraulic cylinder 8 carries two pins 12 and 13, pin 12 being arranged coaxially with the load upright 3 while pin 13, with storage upright 2.
  • the rod 10 also has a frame 14 installed with a provision for moving relative to said rod 10 in guides 15 perpendicularly to the axis 9 of the rod 10 in the direction from one pin 12 or 13 to the other; the frame 14 can occupy two end positions corresponding to hoisting or lowering of the load.
  • spring-loaded rollers 16 capable of interacting with a pair of swivelling stops 17 and with a swivelling stop 18 the fulcrums 19 of which are secured in the body 7, said stops being disposed under the uprights 2 and 3, stops 17 under the load upright 3 and the stop 18, under the storage upright 2.
  • the swivelling stops 17 and 18 have the form of two-arm levers whose fulcrums 19 are located in their centre of gravity.
  • the stops 17 and 18 have projections 20 at one end, interacting with the load-carrying members 4 located in the uprights 2 and 3 with the stops 17 and 18 in closed position.
  • Projections 20 prevent the load-carrying members 4 from moving under the force of gravity.
  • the stops 17 and 18 have profiled surfaces 21 over which the roller 16 of the frame 14 roll when the rod 10 of the cylinder 8 moves to the base of the mast 1 and bring the stops 17 or 18 into open position in which they come out of interaction with the load-carrying members 4.
  • the body 7 accommodates a spring mechanism 22 (Fig. 4) provided for returning the stops 17 and 18 to the closed position.
  • Said mechanism 22 comprises handle 23 and tension springs 24.
  • the body 7 of the transfer mechanism 6 houses a guiding device 25 (Fig. 4) which determines the trajectory of movement of load-carrying members 4 from one upright, for example, upright 3 to the other, upright 2, and vice versa.
  • the guiding device 25 has the form of an oval sleeve (sleeve 25 hereinunder) secured under the base of the uprights 2 and 3 on the body 7 of the mechanism 6 for transferring the members 4, the open end of the sleeve 25 being directed towards the mouths of uprights 2 and 3.
  • the bottom 26 (Figs 3,5) of the sleeve 25 has a cutout 27 through which pins 12 and 13 pass towards the ends of the lower load-carrying members 4 contained in the uprights 2 and 3.
  • the transfer mechanism 6 of the load-carrying members 4 also has two pushrods 28 (Fig. 3) and 29 installed in the body 7 with a provision for moving towards each other in the direction perpendicular to the axis 9 of the rod 10 of the hydraulic cylinder 8.
  • Said pushrods pass through holes 30 made in the wall of the sleeve 25 for interaction with the side surface of the load-carrying member 4 contained in the sleeve 25.
  • the pushrods 28 and 29 move the load-carrying member 4 contained in the sleeve 25 from under the upright 2 (3) under the upright 3 (2).
  • the pushrods 28 and 29 can move in guide bushings secured in the upper parts of L-shaped brackets 31 rigidly connected with the body 7 and are linked kinematically and alternately, each, by two-arm levers 32,33, respectively, with the movable frame 14 in its end positions.
  • the fulcrums 34 of the levers 32 and 33 are also mounted on the brackets 31.
  • Each one of two-arm levers 32 and 33 has a profiled surface 35 with sections "a", "b” and “c” while the end 36 of the arm of each lever 32 and 33 interacting with the corresponding pushrod 28 and 29 is spring-loaded relative to the remaining part of this arm and has a roller 37. Besides, the end of the other arm 38 of each two-arm lever 32 and 33 interacts with the frame 4 in one of its end positions.
  • the rod 10 of the hydraulic cylinder 8 has two brackets 39,40 set perpendicularly to the axis 9 of said rod 10 and having rollers 41 at the ends, each roller engaging the profiled surface 35 of the corresponding two-arm lever 32 or 33 while the rod 10 of the hydraulic cylinder 8 is moving towards the base of the mast 1.
  • each load-carrying member 4 is formed by coaxial different-diameter cylinders 43 (Fig. 4) and 44, the diameter of the smaller cylinder 43 being smaller and that of the larger cylinder being larger than the width of the cutout 27 in the bottom 26 of the sleeve.
  • the working position of the member 4 is the one in which the cylinder 44 faces the top of the mast 1.
  • the hoisting device functions as follows.
  • the load or cargo sling is fastened to the load bracket 5 (Fig. 1) in its downmost position.
  • the storage upright 2 is filled full with the load-carrying members 4 the lowest of which rests by the larger-diameter cylinder 44 on the projection 20 (Fig. 5) of the stop 18 located under the storage upright 2.
  • One of the load-carrying members 4 is located in the guiding device, i.e. sleeve 25, rests by the cylinder 44 on its bottom 26 and is fixed between the wall of the sleeve 25 and the end of the pushrod 28 under the load upright 3.
  • the frame 14 (Fig. 8) is shifted to the right (towards the storage upright 2) and engages the arm 38 of the two-arm lever 32. This end position of the frame 4 corresponds to load-hoisting operation.
  • the pushrod 28 is extended and presses the load-carrying member 4 to the wall of the sleeve 25 (the member 4 being stationed under the load upright 3).
  • the rollers 16 (Fig. 5) of the frame 14 interact with section "a" of the profiled surface 21 in the lower-part of the stop 18.
  • the handles 23 (Figs 4,7) of the stop-returning spring mechanism 22 are set to a position wherein the springs 24 connected with the stops 17 located under the load upright 3 are stretched, thus keeping the stops 17 under the load upright 3 in the closed position.
  • the larger-diameter cylinder 44 of the load-carrying member 4 moves between the wall of the sleeve 25 and the end of the pushrod 28 as if in guides.
  • the roller 41 engages the profiled surface 35 of the lever 32 which turns about axis 34.
  • the roller 37 of the spring-loaded end 36 of the lever 32 comes out of the stop 42 and, as the roller 41 moves on over the surface 35 of the lever 32, the latter withdraws the pushrod 28 through the hole 30 from the sleeve 25 and shifts it into the end position wherein the roller 37 is fixed in the second stop 42.
  • the load-carrying member 4 After the load-carrying member 4 has entered the load upright 3, it acts on the load-carrying member 4 which supports the load bracket 5, and moves said load-carrying member 4 along the load upright 3 to a height equal to that of the load-carrying member 4.
  • the pin 13 (Fig. 7) lifts the lower load-carrying member 4 contained in the storage upright 2 above the projection 20 of the stop 18 which is withdrawn by the spring-loaded roller 16.
  • Reciprocating movement of the rod 10 will transfer the load-carrying members 4 automatically from the storage upright 2 to the load upright 3 with simultaneous lifting of the load bracket 5.
  • the spring 24 connected with the base of the stop 18 must be tensioned by means of the handles 23 of the return mechanism 22 while the springs 24 connected with the bases of the stops 17 must be slackened.
  • the frame 14 must be moved to the left and fixed with, for example, lock 45 (Fig. 3) which will ensure its interaction with the two-arm lever 33 and, consequently, movement of the pushrod 29.
  • the spring-loaded rollers 16 of the frame 14 will engage the profiled surface 21 of the stops 17 installed under the load upright 3.
  • Reciprocating motion of the rod 10 will ensure successive transfer of the load-carrying members 4 from the load upright into the storage upright 2 and lowering of the bracket 5.
  • the load hoisting device can be used successfully in any branch of engineering for erection of extra-heavy equipment including vertical structures by the method of turning them around a vertical joint.

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  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Geology (AREA)
  • Mechanical Engineering (AREA)
  • Structural Engineering (AREA)
  • Nitrogen And Oxygen Or Sulfur-Condensed Heterocyclic Ring Systems (AREA)
  • Forklifts And Lifting Vehicles (AREA)
EP19900917521 1990-01-30 1990-01-30 Hoisting device Withdrawn EP0464209A4 (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/SU1990/000032 WO1991011385A1 (en) 1990-01-30 1990-01-30 Weight lifting device

Publications (2)

Publication Number Publication Date
EP0464209A1 true EP0464209A1 (de) 1992-01-08
EP0464209A4 EP0464209A4 (en) 1992-08-12

Family

ID=21617653

Family Applications (1)

Application Number Title Priority Date Filing Date
EP19900917521 Withdrawn EP0464209A4 (en) 1990-01-30 1990-01-30 Hoisting device

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EP (1) EP0464209A4 (de)
WO (1) WO1991011385A1 (de)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE4413165A1 (de) * 1994-04-15 1995-10-19 Rexroth Mannesmann Gmbh Hydraulische Hubeinrichtung zum Heben und Senken einer Last

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU914467A1 (ru) * 1980-06-27 1982-03-23 G Pk I T Montazha Promy Oboru Гидравлический подъемник 1
SU1051025A1 (ru) * 1982-07-08 1983-10-30 Государственный Проектно-Конструкторский Институт Технологии Монтажа Промышленного Оборудования "Гипротехмонтаж" Гидравлический подъемник
WO1990006276A1 (en) * 1988-11-29 1990-06-14 Gosudarstvenny Proektno-Konstruktorsky Institut Tekhnologii Montazha Promyshlennogo Oborudovania-Giprotekhmontazh Load-lifting device

Non-Patent Citations (2)

* Cited by examiner, † Cited by third party
Title
No further relevant documents have been disclosed. *
See also references of WO9111385A1 *

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE4413165A1 (de) * 1994-04-15 1995-10-19 Rexroth Mannesmann Gmbh Hydraulische Hubeinrichtung zum Heben und Senken einer Last

Also Published As

Publication number Publication date
EP0464209A4 (en) 1992-08-12
WO1991011385A1 (en) 1991-08-08

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