SU1161680A1 - Scaffold for multilayer stonework - Google Patents

Abstract

1. BRANCHES FOR MULTI-LEVEL STONE LAYER, containing working floor boards, supported by stiffeners, prismatic supports hinged to them, traction elements passed through openings in the flooring and connected to supports, which are designed to increase reliability and convenience operation of scaffolding, as well as reducing material consumption, stiffening elements are made in the form of metal trusses from a bent profile, united by transverse girders with guiding elements mounted on their ends and, in which the scaffold support is installed, in a transverse vertical section, there is a tetrahedron with an obtuse angle at the place of installation of the hinge, two sides of the tetrahedron, which are supporting, are larger than the other two opposite sides and equipped with balancing weights and guiding arches, Shaped in cross section, whose axes coincide with the axes of the hinges, and the traction elements are made in the form of ropes, passed into the grooves of the guide arcs, each of which ends in a loop with a fixing element, rigidly connected with transverse runs. (L 2. Lines under item 1, characterized in that the flooring is provided with removable face limiters. 3. Lines under item 1, which is due to the fact that, in order to improve safety 35 35 works, they are equipped with a pivoting fence The racks of the fence are connected to the Zimi elements by means of brackets and each bar is equipped with a ledge in the upper part and a finger in the lower part with the possibility of the stand and the finger of the stand interacting with a notch and groove.

Description

The invention relates to construction, in particular, to a scaffolding for the production of masonry of various buildings and structures. Scaffoldings are known to contain teel, frame and telescopic supports. Such scaffoldings can be used for masonry, the height of which corresponds to the elongation of telescopic supports {J}. It is impossible to make masonry, for example, at a height of 9 m from such a scaffold, since, when installed on one another, the construction of supports with a small footing does not ensure sufficient stability of the working position. The closest to the proposed positive effect are scaffoldings for multi-masonry masonry, containing a working plank floor, supported on stiffeners, hinged with them — prismatic supports, traction elements, passed through openings in the flooring and connected to ramie. Such a scaffolding design allows the scaffolding to be installed on each other and on the other and to carry a lot of brown masonry t.2. These scaffolding have the following disadvantages. First, when translating the supports of one working position to another, these supports are struck against the scaffold frame, which reduces the reliability of their operational properties and, accordingly, their service life. Secondly, the design of the working platform consists of two longitudinal beams and planks of wooden flooring nailed, the edges of which are located cantilever in relation to the beams. Such a working platform design is unreliable during operation, as with side impacts of the scaffolding during their rearrangement, the cantilever ends of the boards break, therefore the boardwalk is often repaired, as a result, scarce lumber is consumed. The overall rigidity of the scaffolding depends on the thickness of the floorboards that connect the longitudinal beams to each other. This circumstance necessitates thickening of the boards and, consequently, a high consumption of sawn materials. Thirdly, the prismatic supports of the Bhinojiuefro base are in the form of a rectangular quadrilateral. Consideration of stability in the upper working position of the scaffolding in the event of a horizontal force in the direction parallel to the longitudinal beams shows that one IG of the supports has close contact with the frame of the scaffolding, while the other has the ability to rotate around the hinge. In this case, the support begins to fold, which reduces the overall stability of the working position of the scaffold. The purpose of the invention is to improve the reliability and ease of use of scaffolding, as well as reducing material consumption and improving safety. This goal is achieved by the fact that, in scaffoldings for multi-layered masonry, containing a working board floor, supported on stiffeners, prismatic supports articulated with them, pull elements passed through openings in the deck and connected to the supports, stiffeners are made in the form metal trusses from a curved profile, combined by transverse girders with guide elements mounted on their ends, in which the flooring is installed, and each prismatic scaffolding support has A vertical cross-section of a tetrahedron with an obtuse angle at the place of installation of the hinge, two sides of the four-sided hinge, which are supporting, are larger than the other two opposite sides and equipped with counterbalancing balancers and directional arcs, Shaped in cross section, the axes of which coincide with the axis of the hinges, and the elements are made in the form of ropes, passed into the grooves of the guide arcs, each of which terminates in a cflle with a fixing element rigidly connected to the transverse and girders, while the flooring is provided with removable and end caps limiters further scaffolding provided with a turning guardrail, wherein the rack enclosure connected to the guide members via brackets L each rack is provided at the top of the protrusion and the bottom - the finger with the IN-CHMOZHPOSTYU, -3 INffV (ef C-I-BHH

protrusion and iiajTbiia racks with notches and grooves on the bracket.

In FIG., 1, a scaffolding is shown, general vst; in fig. 2 - mounted vkg1 scaffolding on each other ;; tta fig. The same, view in the plan-, or fig. element by element assembly of scaffolding in fig. 5 - fastening of the towing elements; FIG. 6 shows the mounting of the guard post in FIG. 7 is a sectional view L-A in FIG. 3

Scaffolding consists of stiffeners 1, prismatic supports 2 and 3, connected with them by means of hinges 4, flooring 5 and pulling elements 6. The stiffening element of scaffolds 1 is made in the form of metal trusses 7 of a bent profile, guiding elements 8 and transverse girders 9 are mounted on them. On the farm 7, at both ends, diagrams 10 bushings 11 are inserted, into which axles 12 of prismatic supports 2 and 3 are inserted. Load-lifting loops 13 are attached to transverse girders 9. Prismatic supports 2 and 3 have a transverse vertical section chtefeh A runner with an obtuse angle at the place of mounting the hinge, the two sides of which 14 and 15 are supporting, is larger than the other two opposite sides 16 and 17. Each support is provided with another 18 U-shaped guide in cross section, the radius of which with respect to axis 12 is constant , and their axes coincide with the axis of the hinges. The end of the arc has a rigid connection with the end of the traction rope 19, passed into the groove of the guide arcs. A balancer 20 is rigidly fixed on the support, which balances the rest of the support with respect to the hinge 4. The free end of the hauling rope 19 is connected to the link 21, which in turn is connected to the loop 22, for which the scaffolds are in working position. Inside the loop 22, the locking element 23 is missed, rigidly connected to the frame and serving as a stop.

The end of the floorboard 5 enters the guide element 8. Each board rests on the frame in four places: along the edges, on the guide elements 8 and in the upper part - on the upper sections 7. From the end

the sides of the nagil.ch pmemto ogre npitchelch 24, which protect the extreme DOSK1T from, are rigidly connected, 1 with horses of the trusses 7 and guiding elements 8, to which the crown 25, v is welded and the upper part has 26 in the lower groove 27. The lower end of the post of the guard 28 is provided with a finger 29, passed through the bracket groove 27, as well as a protrusion 30 interacting with the recess 26.

Scaffolding work as follows

in a way. I

When the scaffolds are installed on the supports in the lower position for keeping the first Russian masonry, the load gripping hooks of the lifting mechanism (not shown) are fixed to the hinges 22. In this case, the loops together with the straps and the ropes 19 are pulled outwards and the lower part of the loop to the stop. This moment corresponds to the horizontal position of the prismatic supports 2 and 3, at which they are separated from the frame at a certain distance. In this case, the main weight of the scaffolds is perceived by the loops, and the further turning of the supports is influenced by the mass of the supports themselves and the opposing mass of the balances.

When installing the scaffolding to the upper position (2nd Russian), slinging and lifting are done by loops 13. Under the action of the weight force of the balance bar, the supports rotate and take a vertical position.

In order to carry out the laying of the third Rus on the scaffolding, other scaffoldings are installed with a horizontal arrangement of prismatic supports. Subsequent masonry rushes are similar.

To set the working position, it is rotated to the vertical position, the lower ends of the posts are lowered, the protrusions 30 slide along recess 26, and the fingers 29 are fixed in the groove 27. When the fence is moved to the transport position, the racks are raised and rotated relative to the rod

The implementation of the proposed invention will reduce the consumption of sawn timber by 50% by reducing the thickness of the flooring and replacing other elements (longitudinal beams) with metal trusses from a curved pro 51161680 6

l In addition, the service life is improved. The annual economy of the scaffolding in operation, the total effect of the use of sawnwood reduces the supply of scaffolding and the cost of repairs and by 10–15% will increase 318,000 rubles.

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Claims (3)

1. SCOPES FOR MULTI-TIER STONES, containing a working board flooring, supported by stiffeners, prismatic supports pivotally connected to them, traction elements passed through openings in the floor and connected to supports, characterized in that, in order to increase reliability and convenience operation of scaffolds, as well as reducing material consumption, stiffeners are made in the form of metal trusses from a bent profile, combined by transverse runs with guide elements mounted on their ends, in which The flooring is installed, and each prismatic support of the scaffolds has a square in transverse vertical section with a blunt angle at the place of installation of the hinge, two sides of the tetrahedron, which are supporting, are larger than two other opposite sides and are equipped with balancing balancers and guide arcs, Figurative in cross section, the axes of which coincide with the hinge axes, and the traction elements are made in the form of ropes passed into the grooves of the guide arcs, each of which ends with a loop with a fixing element m rigidly soedinen- 5 nym with transverse girders. 2. Scaffolding according to claim 1, characterized in that the flooring is equipped with removable end stops. 3. Scaffolding according to claim 1, characterized in that, in order to improve the safety of work, they are equipped with a rotary guard, and the guard rails are connected to the guiding elements by means of brackets and each pillar is equipped with a protrusion in the upper part and a finger with the possibility of interaction of the protrusion and the finger of the rack with a recess and a groove made on the bracket.