SU1355604A1 - Cargo-hoisting device - Google Patents

Abstract

The invention relates to a lifting and transport machinery and can be used in masts for the installation and dismantling of equipment mainly in cramped conditions. The purpose of the invention is to increase the carrying capacity of the device. The device includes a base, a load-carrying device 2, an articulated lever system 3, a stabilizing mechanism 4 and a device 5 for disintegration. The base 1 includes a support shoe 6 and a ball support 7, which is connected to the support farm 8. The stabilizing mechanism 4 contains the legs 9 and the shoes 10. The load holding device 2 is a masthead, made in the form of a farm 11 carrying a fixed 12 and bypass 13. blocks of the cargo polyspast 14. 8 Il. tf i (L with sd JV O5 figure 1

Description

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The invention relates to hoisting machinery and can be used in masts for the installation and dismantling of equipment, mainly in cramped conditions.

The purpose of the invention is to increase the carrying capacity of the device

Fig, 1 shows a schematic drawing of a lifting device in the extended position, made in the form of a mounting mast; in fig. 2 view A in FIG. in fig. 3 scheme of rope storage of the cable-block system; in fig. 4 - lifting device when folded; in Fig.5 section bB in Fig.1; Fig, 6 is a section bb In figure 1; Fig, 7 - flat farm; in fig. 8 - spatial truss.

The lifting device is made up of a mounting mast comprising a base 1, a load-holding device 2, a pivot-lever system 3, a stabilizing mechanism & 4 and a device 5 for bracing.

The base 1 includes a support shoe 6, mounted on the foundation and the ball bearing 7, which is connected to the support farm 8, the Stabilizing mechanism 4 is made in this case in the form of racks 9 and shoes 10 One ends of the racks 9 are hinged to the support farm 8, and the others rest against the projections of the shoes 10. The ends of the uprights 9 freely slide along the guide shoes 10 when moving toward the support shoe 6 and cannot move in the opposite direction.

The load holding device 2 is a mast head made as a spatial truss; 1 1 carrying the fixed block 12 and the outlet block 13 of the cargo polyspast 14 o The movable branch of the cargo polyspast 14 is led to the drum of the lifting winch (not shown). Spatial device 11 is fixed to the device 5 for rushing

vani with flexible gi 15.

The hinged-lever system 3 consists of spatial trusses 1 6, hingedly connected to each other, Kazh, n, and the space truss 16 consists of two parallel-arranged flat trusses 17 and 18, between which spatial truss 19 is located, made in the form of two flat trusses 20 and 21, like 17 and 18s hard

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B

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connected by ties 22 (stanchions and extensions) All flat trusses 17 and 18, 20 and 21 are made in the same configuration in the form of a rod parallelogram with intersecting diagonal rods 23 and 24 and with a hole 25 ,, made at the place where the Siberian crane crosses (it, and with holes 26 formed in the joints of the rods that form the vertices of the parallelogram with large diagonal rods. In addition, flat ones may have additional connecting rods.

Two flat trusses 17 and 18 are connected to spatial truss 19 by means of an axis 27 installed in holes 25, while the vertices of the parallelograms with large diagonal rods at flat trusses 7 and 18 are directed on one side, and at spatial truss 19 on the other side from the longitudinal axis. Thus, flat trusses 17 and 20, as well as 18 and 21, form pairs of two intersecting plane-parallel arms. The spatial forms 16 are interconnected by two axes 28, which are installed in the openings 26 of flat trusses, so that single flat trusses 1 7 and 18 are connected to flat trusses 20 and 21 sos: units of spatial truss 16,

On axes 27, tap-off units 29 of the cable-block system are installed; and on oppositely-arranged axes 28, working units 30 are installed. Rope 31 is stored in blocks 30 to form a polyspast. In detail, the reserve of the rope 31 on the blocks is shown in FIG. A movable branch of the rope 31 is attached to a pull mechanism (not shown).

Lifting the mast to the design position is carried out in the following way,

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The folded mast is installed at the equipment installation site, gg Support shoe 6 of the base 1 and shoe 0 of the stabilizing mechanism. 4 is fastened to the foundation with, for example, 5 anchor bolts. The traction mechanism is turned on. When tensioning the movable branch of the cables (of the 3-block system, the rope 31 begins to be selected, bringing the axis 28 closer together. After the diagonal rods 24 in all flat trusses occupy the horizontal

31

the position and the two side rods are in the vertical position and the mast takes the design position, the traction mechanism stops. Since during lifting the mast is loaded only with its own weight, it is sufficient that the stability is provided by the stabilizing mechanism 4. After lifting the mast the flexible t 15, the mast is masting, and the ends of the uprights 9 are detached from the support truss 8 and stability is ensured by the usual reception

When the cable-mast mast is mounted on the system, it performs the functions of a part of the lifting mechanism. In the design position, the cable-block system becomes a constructive element of the mast, since the rope 31, which is reserved for the blocks 30, is working to stretch the tension, keeping the axis 28 from diverging.

The mast in the extended state performs the functions of a lifting device, having lifted and lowered the load with the help of a cargo tackle 14.

The removal of the mast is carried out in reverse order.

In the static position, the device is a single truss, where the rope between the ends of the rod parallelograms is the rope stored in blocks and pairwise connecting them into a tackle. All tackles are part of a single cable-block system, so they are used not only as power elements of communication, but also as elements of a lifting mechanism for extending and lowering the device.

Due to the fact that the ends of the levers in our case are fastened by the tackles, the bending stresses in the levers are removed. The levers themselves, made in the form of parallelograms, represent a lattice design with maxi

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an increased cross section of the arms at the points of their intersection, which makes it possible to increase the bearing capacity of the structure.

Claims (1)

Invention Formula A lifting device containing a base, a load-holding device, a pivot-lever mechanism consisting of two intersecting plane-parallel levers pivotally connected to each other at a cross point, the ends of these levers are interconnected by means of axes, the cable-block system with a pulling mechanism , the movable branch of which is connected to the specified traction mechanism and stored on the blocks with the formation of loops, with part of the blocks placed on the end axes of the intersecting plane-parallel ryl This is characterized by the fact that, in order to increase the carrying capacity of the device, it is made with additional pairs of intersecting plane-parallel arms, which are trusses of spatial design and form a hinge-lever system, each of the arms of the system being a rod parallelogram with intersecting diagonal rods, with all pairs of levers interconnected by end axes connecting the ends of large diagonal rods and intersection points are diagonal x rods, and part of the blocks through which the haul rope is formed with the formation of loops is mounted on oppositely located axes connecting the tops of the rod parallelogram 5 with large diagonals of the main and additional pairs of the said levers. five 0 five 0 BiidA ll , fPu2.2 headlight cpue.ft 6-6 8-3 gju5.5 (ft. 6 2 26 9gL 23 9ig.8 Editor Yu, Sereda Compiled by L. Trofichuk Tehred M.DidykKorrektor V.But ha Order 5750/24 Circulation 721 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab ,, d.4 / 5 Production and printing company, Uzhgorod, Projecto st., 4