RU2116413C1 - Mounted platform for work at fronts of buildings - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: work platform has load-bearing frame. Attached to lateral beams of load-bearing frame are three longitudinal beams with possible changing of distance between extreme beams. Extreme beams are of L-shape configuration with members directed vertically down. Middle beam is provided with L-shaped extending member. One side of this extending member is turned through 180 deg. with respect to down-turned members of extreme longitudinal beams and to extending L-shaped member. Pivotally attached to horizontal part of L-shaped member is supporting unit which is made in the form of two eye-lugs fastened together by supporting strip. Center of gravity of supporting unit is located below fastening point. Vertical members of extreme longitudinal beams are made sectional with possibility of changing their length. Aforesaid embodiment of work platform allows for complete mechanization of its mounting procedure and for reduction of labour-intensity in process of mounting. EFFECT: higher efficiency. 2 cl, 3 dwg

Description

 The invention relates to construction and is intended for use in the construction and repair of buildings to perform work on building facades, for example, for facade cladding.

 Known reception area for the supply of goods to the opening of the building / see author St. USSR N 1585478, class E 04 G 3/06, 1996). The platform includes a support element made in the form of an external vertical rectangular frame with cross-members bent towards the opening, to the racks of which the supporting frame is pivotally attached from the inside with the possibility of turning it in the vertical plane, and the fasteners are made in the form of levers attached from the outside of the frame racks supporting element with the possibility of rotation and longitudinal movement. The lower ends of the levers are pivotally attached to the supporting frame from the outside of the building, and the upper ones are made with a retractable stop interacting with the wall from the side of the room, while the supporting frame is equipped with an additional stop fixed from the inside of the room.

 This device is taken as a prototype.

 The disadvantage of the prototype device is that the effect of the load is transmitted to the bridge and the wall in the form of a bending moment, the perception of which they are not designed for (especially a brick wall). The second disadvantage is the difficulty of installing the site in the opening, the high complexity of the work when installing it.

 The task to which the proposed device is aimed is to increase mechanization and reduce the complexity of the work when installing the scaffolds on the facades of buildings.

 The technical result achieved when solving the problem is expressed in the complete mechanization of work on the installation of hanging platforms.

The problem is solved in that the hinged platform for work on the facades of buildings, containing a support node, a supporting frame and fasteners, is characterized in that three longitudinal beams are fixed to two transverse beams of the supporting frame with the possibility of changing the distance between the extreme longitudinal beams, the latter being made L-shaped with lowered vertically down elements, and the average beam is provided with a T-shaped sliding element, one side of which turned by 180 ^o with respect to the extreme lowered down elements p odolnyh beams, wherein the sliding T-shaped member pivotally attached support assembly with the center of gravity below the point of attachment.

 The problem is also solved by the fact that the support node is made in the form of two eyes, fastened by a support bar.

 The problem is also solved by the fact that the vertical elements of the extreme longitudinal beams are made integral with the ability to change their length.

 A comparative analysis of the features of the prototype and the proposed solution indicates its compliance with the criterion of "novelty."

The features of the distinctive part of the formula solve the following functional tasks:
The sign - "... the platform consists of a frame, three longitudinal beams are attached to two transverse beams with the possibility of changing the distance between the extreme beams ..." - allows you to simplify the design of the site and change its size.

 The sign - "... the extreme beams are made L-shaped with the elements dropped vertically downward ..." - allows you to provide emphasis on the outside of the building wall when installing the site in the window opening.

The sign - "... the middle beam is equipped with a L-shaped retractable element, rotated 180 ^o in relation to the downward-facing elements of the extreme longitudinal beams, ..." - allows you to provide emphasis on the inner side of the building wall when installing the site in the window opening and adjust design for use on buildings of any structural systems with the transfer of loads at the level of floors.

 The sign - "... to the retractable L-shaped element, to its horizontal part the support unit is pivotally attached, ..." - allows you to create a temporary center of rotation.

 The sign - "... the center of gravity of the support unit is located below the attachment point. .." - provides a horizontal position of the support unit at any position of the platform.

 The sign is "... the supporting unit is made in the form of two eyes secured with a supporting strip." . . allows you to rotate the site relative to the temporary center of rotation and protect the design of the window filling from damage.

 The sign - "... Vertical elements of the longitudinal beams made integral with the ability to change their length" - allows you to adapt the site for work on buildings of any structural systems with the transfer of loads at the level of floors (the most rigid elements of buildings).

In FIG. 1 shows a general view of a hanging platform in oxonometry; in FIG. 2 - hinged platform during installation;
in FIG. 3 - hinged platform in working position.

The proposed platform consists of a frame, to which two longitudinal beams 2 and 3 are attached to two transverse beams 1. Two extreme longitudinal beams 2 are L-shaped with smaller sides directed downward and are located at a distance "a" equal to the width of the window opening. The middle longitudinal beam 3 is equipped with a L-shaped retractable element, rotated 180 ^o to the vertical elements of the extreme longitudinal beams 2 and extended relative to the vertical elements of the beams 2 at a distance "b" equal to the wall thickness. The height of the L-shaped retractable element is h ₀ ≈ 1.3h, where h is the height of the window opening. All L-shaped elements are made integral and with the help of nodes 4, the mates can telescopically change their length so that the length of the vertical elements of the beams 2 is equal to "c" - the height of the wall from the ceiling to the hinge of the support node, and the height of the vertical element of the middle beam 3 was equal to "h ₀ " - the distance from the support to the window sill. In this case, the free ends of the constituent elements play the role of supporting elements. The support node 5, made in the form of two eyes, fastened by a support bar, is pivotally attached to a retractable L-shaped element of the beam 3. The supporting elements of the support node 5 and the free ends of the composite L-shaped elements of the beams 2 and 3 are equipped with shock absorbing spacers 6, which allow to reduce dynamic effects on the building structure during the installation of the site and protect them from damage. Gaskets 6 can be made of rubber, for example. To the transverse beams 1 of the supporting frame of the site is fixed working flooring (not shown conventionally) with a width equal to the width of the window opening. On the extreme longitudinal beams 2 platforms there are two mounting loops 7.

 The device operates as follows.

 Installation of a hinged platform in an aperture.

The site using a crane sling for mounting loops 7 and at an angle of 30 ^o to the horizon, which is provided by the use of slings of different lengths, lead into the window opening. The platform is oriented relative to the opening, so that the middle beam 3 with the L-shaped sliding element goes under the opening beam, and the supporting elements of the extreme beams 2 are located on the outside of the opening. Then lower the support node 5 on the windowsill, while the platform under the influence of its own weight is set to the working (horizontal) position. Moreover, the supporting elements of the extreme longitudinal beams 2 are based on the outer side of the wall of the building, and the supporting element of the middle beam 3 is based on the inner side of the wall of the building. Moreover, when installing the site, the working flooring should go into the window opening to prevent spontaneous slipping of the thrust elements of the beams 2 in the wall plane. In practice, non-alignment installation of the site is carried out in a completely mechanized way.

 Delivery of goods to the opening.

 After setting the site in working position, using a crane, lower the load onto the working floor as close as possible to the window opening. In this case, the force from the torque created by the load is perceived by the supporting elements of the beams 2 and 3 and transmitted to the wall at the level of the floors of the building, which eliminates the destructive effect on the wall structure below the window opening.

 Dismantling the site.

The site is slinged with four-branch spider-type slings, the branches of which are pairwise different in length. A pair of short slings is attached using carabiners to loops equally spaced from the L-shaped elements, another pair is fixed to mounting loops located closer to the L-shaped elements. The platform is hoisted until all the slings are taut. In this case, the site occupies a position at an angle of ≈ 30 ^o to the horizon. Then the platform is removed from the window opening and moved to the place of subsequent installation.

 The platform is compact, convenient for transportation. The effectiveness of the application of the site is achieved due to the fact that manual work associated with the transportation of the site elements along the stairs to the desired floor, the need to perform work on fastening and unfastening during installation and dismantling work are excluded. The dimensions of the site are practically unlimited. It can be moved apart in width to perform work on the facades of buildings and in length - for receiving long loads. Site fencing is carried out using invert devices in preparation for installation. The use of the site of the proposed design allows for installation, dismantling and rearrangement in a fully mechanized way.

Claims (3)

1. A hinged platform for work on the facades of buildings, containing a support unit, a supporting frame and fasteners, characterized in that three longitudinal beams are fixed to two transverse beams of the supporting frame with the possibility of changing the distance between the extreme longitudinal beams, the latter being L-shaped with lowered vertically down elements, and the average longitudinal beam is provided with a T-shaped sliding element, one side of which turned by 180 ^o with respect to the extreme lowered down elements of longitudinal girders, with fl m the sliding T-shaped member to the horizontal part of the support assembly pivotally attached to the center of gravity below the point of attachment.  2. The device according to claim 1, characterized in that the support node is made in the form of two eyes, fastened by a support bar.  3. The device according to claim 1, characterized in that the vertical elements of the longitudinal beams are made integral with the ability to change their length.

Images