RU176894U1 - FRAME-AWNING ARCH ANGAR - Google Patents

Abstract

The utility model relates to the field of agricultural production, namely to the manufacture and use of frame tent structures that can be used as lightweight quick-mounted agricultural structures suitable for household, industrial and other needs, in particular for feeding and raising animals or for storage and grain processing and as a temporary shelter from external influences in the production of various types of agricultural work. The essence of the utility model It is the fact that the frame-tent arched hangar is assembled from single-tube prefabricated arches made of four of the same type bent arched sections connected to each other through adapter inserts - bushings with bolts and fastened below on inclined support cups with a step of 1.5 meters, and supporting inclined cups mounted on the longitudinal beams of the frame mounted on the supporting racks, concreted in the foundation, while the end arches are reinforced with vertical racks to the height of the span, concreted in the foundation and equipped with gates ventilation windows, while the prefabricated arches are interconnected by longitudinal spacer beams, and each arch is made in the form of support sections connected by means of tubular bearing elements, arcuate spans with holes for bolts, while on the outer surface of the supporting elements of the arches and beams span racks fixed tent made of fire-resistant multilayer reinforced polyvinyl chloride fabric.

Description

The utility model relates to the field of agricultural production, namely to the manufacture and use of frame tent structures, which can be used as lightweight quick-mounted agricultural structures suitable for household, industrial and other needs, in particular for feeding and raising animals or for storage and grain processing and as a temporary shelter from external influences in the production of various types of agricultural work.

The well-known "Quickly prefabricated frame tent structure" according to the patent PM No. 77883 M., class. EB04 1/342. The frame tent structure contains a frame consisting of a rectangular in plan base from a steel profile with a cross section of 50 × 50 mm. with a span of semicircular trellised trusses 10 meters wide, interconnected by a crate and wind posts - two for each end of the structure and a PVC tent. In this case, each trellised truss consists of three parts: the middle and two side, made in the form of support pillars and part of the roof. To the base of the truss are fixed with two fingers, and the crate is made with the possibility of fastening to the truss with the help of a L-shaped corner connection on the crate and a loop connecting element of the truss, and the support posts are connected diagonally by stiffeners. Rigid elements are steel cables or cords with a drawstring lanyard. Farms are installed at a distance of 2.5 m from each other. The individual parts of the farm are interconnected via pads. The trusses are interconnected by a steel crate made of pipes with a diameter of 50 mm.

The disadvantages of the design include low reliability when exposed to loads due to lack of foundation, with the difficulty of manufacturing trellised trusses and fastening them to the base with two fingers.

The construction of the hangar frame and its assembly technology are also known. (RF patent for the invention No. 2449093). The frame of the quick-erect structure of the strut-crossbar type includes pivotally connected elements of the arch-frame structure, where the racks are pivotally connected to the crossbars, the struts with the crossbars and racks are also pivotally, there are central and supporting hinges, while the frame is made with additional rotary hinges in the crossbar between strut and adjoining strut, as well as within the length of the strut, and sections of struts adjacent to the crossbar are rigidly attached to it so that together with the elements of the strut and crossbar form a cell yuku of a convex four-link mechanism, the geometry of which provides the possibility of a structure to be supported before installation by the articulated knots of the struts, and the central hinge is located above the supporting hinges. The installation of the frame of the structure includes the layout of the elements on the site, the connection of the elements in the nodes, the installation of the frame on the foundation and lifting to the design position, while lifting the frame is done by drawing together and pulling opposite nodes of the cells of the four-link mechanism, for example, using winches.

The disadvantages of the design include the complexity of the nodes of the cells and the unreliability associated with the constant voltage of the tightened nodes, and the possibility of changing the geometry and rigidity of the structure in the articulated joints. In addition, the installation of additional connecting links for the final fixation of the position of the structure involves the long-term work of collectors at a height using cranes and hoists.

Also known is the "Steel tent structure" of RF patent No. 2553700, containing complex trusses made in the form of connected three spans, containing tubular load-bearing elements along the longitudinal sides, connected by a crate and mounted through supporting heels on the foundation, each truss made in the form of connected with the help of guide tubular supporting elements of the support posts, at least one support post of each truss is pivotally connected to the support heel mounted on the foundation, and to prevent To deform the tubular load-bearing elements of the support struts, straight and arcuate spans, the connection unit is made anti-deformation and spacer by mounting tubular load-bearing elements connected to each other by at least one sleeve, while on the outer surface of the load-bearing elements of the struts and spans fixed PVC awning. The PVC awning is made in the form of separate canvases with a width equal to the distance between the trusses and fixed on the outer surface of the supporting elements of the racks, spans with the help of locking joints made in the form of a double-sided aluminum profile with longitudinal grooves on the sides corresponding to the profile of the keder mounted on the sides of the awning on which tension beams are also mounted, connected by bolts to tension beams mounted between the support posts of each truss, while the distance between the trusses may be from 3 to 5 meters.

Design flaws should be considered the complexity of the manufacture and mounting of the frame sections on the heels and the awning due to the presence of hinges and grooves in the castle joints with a significant span.

The objective of the utility model is to create a simpler, more reliable, functional, more load-resistant frame structure from simplified trusses - arches for accelerated assembly that can be reliably and simply fixed on the frame and foundation for a quick-erected multi-purpose hangar with a width of at least 10 meters and length according to the customer’s request, assembled at the minimum range of components when using an easy-to-install fire-resistant translucent tent with increased strength and reliability that does not require assembly larger cranes and hoists.

Strength calculations showed that the technical result for a single-tube composite arch hangar with a width of 11.6 meters, a length of about 80.8 meters, is achieved by the fact that the hangar frame is assembled from single-tube prefabricated arches from four similar bent arcuate sections interconnected via transitional inserts - bushings bolted and fastened below on inclined support cups with a step of 1.5 meters, and support inclined cups mounted on the longitudinal beams of the frame mounted on support pillars, concreted in a strip-pillar foundation, while the end arches are reinforced with vertical uprights to the span height, concreted in the foundation and equipped with gates and pivoting ventilation windows, while the prefabricated arches are interconnected by longitudinal spacer beams, and each arch is made in the form of tubular guides connected bearing elements of support sections, arched spans with holes for bolts, while on the outer surface of the bearing elements of the struts of the spans of arches and beams fixed A tarpaulin coating is made of a fire-resistant multilayer reinforced polyvinyl chloride fabric, while single-tube prefabricated arches are assembled from four bent arc-shaped sections from pipes with a diameter of 76 × 3 mm, and end arches from pipes 76 × 5 mm, bent along a radius of 6400 mm and having bolt holes at the ends fastenings and connections with supporting inclined cups, and inclined supporting cups are fixed on the longitudinal beams of the frame with a slope of 14 degrees to the center of the hangar at a height mark of 1500 mm, and the longitudinal beams are made of square pipes 120 × 120 × 5 mm and closed insulated on vertical racks of the same cross section, concreted in a foundation 400 mm high with a lower elevation of -1500 mm, while the vertical racks of the end arches are made of a pipe 80 × 80 × 4 at a height of 4000 mm with welded plates for installing gates, ventilation windows and units fastening the awning and two transverse beams of 40 × 40 pipes, one installed at the level of the foundation, and the other at the level of the longitudinal support beams, and the fire-resistant multilayer reinforced polyvinyl chloride tent is made in the form of a single welded from separate strips of a lot, with a width of 3.65 meters and fixed on the outer surface of the supporting elements of arches, uprights and spans using a connection made in the form of a profile, fixed on the sides of the awning, on which tension beams are also mounted, connected by bolts with tension beams, mounted between the supporting posts of each truss, with the use of a tent covering of the NOVASHIELD type with a density of about 356-410 g / m ² with a width of 3.65 meters and a thickness of about 0.5 mm with a lower temperature limit of -60 ° C.

The main structural dimensions, such as a span width of 11.6 meters, a step of arches of 1.5 meters, the diameters of the pipes of the arches, the dimensions of the longitudinal beams and racks are justified by calculations and modeling in 3D format.

The novelty of the proposed frame-tent arch hangar is the implementation of each arch in the form of four identical arcuate tubular spans connected by means of guide bushings and bolts, while the extreme arcuate tubular arch elements are worn with free ends on inclined support glasses mounted on longitudinal square beams of a frame installed through supporting racks on a strip-column foundation, and the supporting racks are concreted in the foundation, while on the outer surface of the supporting elements pillars and spans fixed continuous welded strips of fiber reinforced synthetic fabric tent.

The calculations and full-scale verification showed that the execution of each prefabricated arch in the form of bolted joints connected by means of guide bushings, arcuate tubular spans and the connection of each prefabricated arch with supporting inclined cups on the longitudinal beams of the frame, of the indicated sizes, mounted through the supporting posts on foundation with fixing the arches on the supporting cups with bolts through the fixing holes, allows you to assemble a reliable design of arched hangar of various lengths complementing it with arched tubular tymi arches (span), the presence of the inclined support cup with fixing holes for mounting bolts allows to connect thereto through the supporting rack structure further arch combining them into a solid frame hangar and perform sequential assembly, collecting structure to the desired length.

The presence of the supporting elements of the support struts from the longitudinal sides of the spans in the places of bolted connection prevents the deformation of the bearing elements in the places of their connection and allows you to get a rigid, reliable, solidly bolted structure.

The signs of the implementation of the guide tubular load-bearing elements of each arcuate span and the supporting struts of the arches on one side in the form of load-bearing elements rigidly fixed on the lateral sides, and on the other hand, the execution of holes for bolted joints in the load-bearing elements and the awning in the form of a continuous web, fixed on the outer surface of the supporting elements of the uprights and Spans by connecting on each arch and on the awning of the tension beams connected to each other by means of bolts, are signs and, revealing the specific implementation of the design and contribute to the achievement of the technical result.

The implementation of the distance between the prefabricated tubular bent arches equal to 1.5 meters allows you to increase its length by a factor without compromising the reliability and rigidity of the entire structure of the hangar.

The main components and parts of the hangar are shown schematically below.

In FIG. 1 shows a sketch of a general view of a frame tent tent arch hangar without an awning with a span of 11.6 meters (axonometry).

In FIG. 2 shows a sketch of a general view of a frame tent arched hangar without an awning with a span of 11.6 meters (front view on the foundation).

In FIG. 3 shows drawings of an inclined support cup for attaching a tubular arch to a longitudinal hangar beam (separately and assembled).

In FIG. 4 shows drawings of a section (one-pipe bent span) for assembling four sectional tubular arches.

In FIG. 5 shows a transverse spacer beam.

In FIG. 6 shows guide bushings for assembling end arches B and intermediate arches A.

In FIG. 7 shows the support post for the end arched spans A, B - the frame of the ventilation window, G and D - the design of the gate of the end arch.

Suggested Frame Awning Arched Hangar FIG. 1 and FIG. 2 consists of tubular arches assembled from four identical single-tube bent elements 1 with connecting sleeves 2 mounted on the supporting cups 3, which connect the arch to the glass 3, with a supporting longitudinal beam 4 mounted on supporting pillars 5, concreted in the foundation 6. Arches between themselves connected by spacer beams 7 using connecting elements made in the form of pipes with holes for bolted connections. Tent tension tension beams (not shown) are mounted in the lower part of the arches, which is fixed on the outer surfaces of the supporting elements of the uprights and spans using a connection made in the form of overlays fixed to the upper surface of the arches and the bar insert with an awning fixed on it. The end sides of the hangar frame are supplemented by two longitudinal beams 7 with a size of 40 × 40 mm, and vertical racks 8 designed to install doors 9 and frame 10 for installing a ventilation window and securing the tent.

The proposed device operates as follows.

In the manufacture of the foundation 6 with a height of 400 mm and the required dimensions around its perimeter at a given distance, support racks 5 are installed, to which two longitudinal beams 4 are fixed on the longitudinal sides of the foundation 6 at a height of 1200 mm, for fastening the inclined support glasses 3 installed along the span (farms). Raising the loose edges of the assembled arches, proceed to join the arcuate arches of four bent elements 1 to the support cups 3. At the same time, on the sides of the supporting elements of the spans are fixed guides - spacer tubes 7 with holes for bolted connections. All partially assembled trusses are interconnected by transverse beams 7.

After securing the arched precast arches, the partially assembled carcass structure takes on the form shown in FIG. 1. The next arcuate span is attached to the extreme end spans, and the arches are connected by transverse beams 7. In the same sequence, other sections of the frame are assembled. An awning is fixed on the outer surface of the assembled carcass with the help of pads and bar inserts. On the end sides of the frame with the help of transverse 8 and vertical 9 beams, doors 10 are installed and the ventilation window 11 also fix the awning.

The spans of each arch are connected to each other using guides 7, and the corresponding holes in them for bolted connections.

The execution of the assembly node of the arch of four sections 1 using connecting sleeves 2 with holes for the bolts matching the holes of the sleeves and bends, depending on the dimensions of the frame, allows you to select the required stiffness of the nodes by connecting two or more spacer beams 7 with end or serial arches.

Bent load-bearing elements of arches in a variant design can be made in the form of pipes of rectangular or circular cross-section.

The implementation of the awning in the form of a solid, welded from strips, web, fixed on the outer surface of the supporting elements of the frame using the accepted connection, made in the form of a profile lining mounted on the sides of the awning, allows in combination with the existing between the supporting posts of each team arch truss and the tent with tension beams connected to each other by means of bolts, securely fasten the tent in the joints and with the help of tension beams ensure its necessary tension.

According to the literature review and patent information search, no combination of known common with the prototype and new features of the proposed development was found in the information sources, which allows us to conclude about their novelty. The specified combination does not follow explicitly from the existing level of technology, which allows them to be attributed to those having an inventive and technical level of novelty, and a description of the design using the proposed essential features allows them to be attributed to industrially feasible.

Currently, the company has manufactured and assembled several experimental frame tent awning arched hangars of various sizes in length, which are being tested. At the end of the tests, a decision will be made on the widespread use of the proposed original design of the frame tent tent arched hangar.

Claims (6)

1. Frame-tent arched hangar, containing a frame mounted on the foundation, doors from the ends of the hangar, an awning, characterized in that the frame of the hangar is assembled from one-pipe prefabricated arches made of four similar bent arcuate sections connected to each other through transition inserts - bushings with bolts and fixed below on inclined support cups with a step of 1.5 meters, and support inclined cups mounted on the longitudinal beams of the frame mounted on support pillars, concreted in the foundation, while the end arches are reinforced vertical struts to the height of the span, concreted in the foundation and equipped with gates and ventilation windows, while the prefabricated arches are interconnected by longitudinal spacer beams, and each arch is made in the form of support sections, arcuate spans with holes made for bolts while on the outer surface of the supporting elements of the struts of the spans of arches and beams, an awning from a fire-resistant multilayer reinforced polyvinyl chloride fabric is fixed. 2. Frame and tent arch hangar according to claim 1, characterized in that the single-tube prefabricated arches are assembled from four bent arc-shaped sections of the same type from pipes with a diameter of 76 × 3 mm, and end arches from pipes 76 × 5 mm, bent over a radius of 6400 mm and having holes at the ends for bolts of fastening and connection with supporting inclined glasses. 3. Frame and tent arch hangar according to claim 1, characterized in that the inclined support glasses are fixed on the longitudinal beams of the frame with an inclination of 14 degrees to the center of the hangar at a height mark of +1500 mm. 4. Frame and tent arch hangar according to claim 1, characterized in that the longitudinal beams are made of square pipes 120 × 120 × 5 mm and are mounted on vertical posts of the same section concreted in a foundation 400 mm high with a lower mark of -1500 mm. 5. Frame-tent arched hangar according to claim 1, characterized in that the vertical racks of the end arches are made of a pipe 80 × 80 × 4 at a height of 4000 mm with welded plates for installing gates, ventilation windows and attachment points of the awning and two transverse beams of 40 × 40 pipes at the level of the foundation and longitudinal support beams. 6. Frame-tent arch hangar according to claim 1, characterized in that the fire-resistant multilayer reinforced polyvinyl chloride tent is made in the form of a single web welded from separate strips and fixed to the outer surface of the supporting elements of arches, racks and spans using a connection made in the form of corresponding a profile mounted on the sides of the awning, on which the tension beams are also mounted, connected by bolts to the tension beams mounted between the support posts of each truss, while t as a canvas awning cover type NOVASHIELD, a density of the order of 356-410 g / m ^2, with a web width of 3.65 meters and about 0.5 mm thick with the lower temperature limit -60 ° C.

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