RU174852U1 - SURFACE - Google Patents

Abstract

The utility model relates to building structures made primarily of metal, namely to the construction of ceilings or roofs, and can be used to erect arched awnings in washing complexes - multi-post car wash self-service. The technical result is to increase the structural strength of the canopy by improving the mutual fixation of its elements. The technical result is achieved by the fact that the canopy consists of separate modules separated by partitions, and contains an arched arch fixed on arched rafters and mounted on columns made of stainless steel in the form of welded profiled racks with the formation of a niche at the junction of the racks; while the columns are rigidly connected in the longitudinal and transverse directions by girders with the help of connecting nodes formed at the junction of the longitudinal and transverse girders. The longitudinal run is made in the form of a gutter, the profile of which is an open figure containing walls and a bottom, the outer wall being rounded and the inner wall with a straight section turning into an inclined section with a L-shaped protrusion, forming a supporting element for attaching the arcuate rafter to the gutter. The bottom of the gutter in the connecting unit is rigidly connected to the upper platforms of the columns to provide structural rigidity in the longitudinal direction of the canopy. The transverse run is made in the form of a beam, the end of which is secured to the rectilinear wall of the gutter in the connecting unit to ensure structural rigidity in the transverse direction of the canopy. The connecting unit contains a bracket in the form of a curved plate, resting against the shelves from the inside into the walls of the gutter, and a clamping element fixed to the bracket ensures that the sheet coating is pressed against the arcuate rafters of the arch vault. 4 c.p., 11 ill.

Description

The field of technology.

The utility model relates to building structures made primarily of metal, namely to the construction of ceilings or roofs and can be used for erection of arched awnings in washing complexes - multi-post car wash self-service.

From the source http: //www.zermantechnics.m/self-service a canopy is known. The design is not described, but the images show that the canopy consists of a frame made of metal arcs and a polycarbonate coating.

From the source http://petromatic.ru/product_feature/konstruktsii-navesov/ also known canopy, consisting of a frame made of metal arcs and a coating of polycarbonate.

In the prior art, a knot of fastening elements on a frame structure according to patent No. 40760 [1], comprising a first element attached with its inner side to the frame profile using fastening means to form a cantilever part and a second element adjacent to the frame profile with its inner side, in formed by the outer angular cavity between the inner side of the first element and the outer side of the second element, placed a compressive-spacer part of the elastic seal, containing two interact general end sections.

Known roof according to patent No. 24484 [2]. The roof contains sheets with a figured castle reef for their fastening, made of plastic translucent material, a figured castle reef for fastening the sheets is made on each roof sheet, at the ends on each side, representing an open figure of rectangular cross section with a configuration that provides a tight connection of two roof sheets with the formation of a channel between them.

Known collapsible shelter according to patent No. 39991 [3], consisting of semi-arches and arched elements made in the form of spaced two parallel arcs and rigidly interconnected brackets, with the formation of a groove between them. An arched element has at least one fixed fixture on the arches of one of the semi-arches or an upper retainer for connecting the runs of the upper longitudinal element and one lower retainer on the left and right, the counterparts of which are rigidly fixed to the corresponding runs of the lower and longitudinal elements. The holder is made flexible, for example, in the form of a cord, and in the assembled state of a collapsible shelter is placed in the groove of the corresponding arched element. The end elements of the coating are made in the form of an overlying arched element of the lining of the coating material. The lateral and upper edges of the lining are sheathed with fabric, and a cord is passed into the obtained channel to tighten these edges relative to the extreme arched element and lay them in the groove of the latter. The end edges of the main cover tent are made covering the extreme arched elements on top of the end elements and are cut to form a channel with a cord placed in it to tighten the end edge of the main tent relative to the end element in the assembled state of the collapsible shelter.

Known knot connection of the rods of the spatial frame according to patent No. 93099 [4], containing a ring representing a segment of a cylinder, rods, a transverse groove is made at the end of each rod, which engages the rod with the ring according to the hook principle, in which the ring is located in the grooves of the rods; the rods are connected to the ring with the possibility of rigidly fixing the position of the rods relative to each other.

Known arch construction according to patent No. 77304 [5]. The arched structure consists of separate sections, rigidly connected by fasteners and docked in arches, interconnected by girders in a longitudinal relation. It has a mount, made in the form of a lining with stops-catchers, perpendicular to the runs. The arched structure is equipped with racks and sections made in the form of metal structures, interconnected by reinforcing elements in the form of sections of a rolling profile.

Known arched construction according to patent No. 45744 [6]. The arched structure is made of two rectilinear segments connected as a pair by a fragment of an I-section ring. The column is made of two parts, the parts of the column are interconnected by reinforcing sheet elements. The rectilinear upper segment of the semi-arch is connected to the upper part of the column; base plates are fixed on the lower section of the half-arch and the lower part of the column.

Known vaulted building construction according to patent No. 3770 [7], containing a coating, longitudinal side elements and arcuate ribs. The coating is flexible elastic, the side elements are fixed to the inner surface of its longitudinal edges, recesses for the side elements are made in the arcuate ribs, tensioning devices are installed.

Known translucent building construction according to patent No. 37741 [8], consisting of a supporting frame of intersecting hollow profiles interconnected, and sheets of translucent material glued to the frame from two opposite sides with the formation of closed cavities. The design contains a desiccant located inside one hollow profile, in each hollow profile containing a desiccant, at least one opening for collecting moisture is made from the side facing one of the closed cavities, and each closed cavity is sealed with respect to the surrounding space and to adjacent enclosed cavities.

Known bent closed profile, a method of manufacturing a bent closed profile, a frame of a spatial structure frame using a bent closed profile, and a spatial structure using a frame frame of the patent No. 2455096 [9]. A curved closed profile has a square or rectangular profile in cross section and a joint approximately in the center of one face. Each part of the face on which the joint is made has a continuation made in the form of a L-shaped and / or I-shaped rib. Before the finishing passage, a W-shaped profile is formed in the center, and in the finishing passage a closed profile is formed from it. The frame of the frame is made of a bent closed profile and is used in a spatial design.

Known coating of the building according to patent No. 2036284 [10], which includes load-bearing lattice structures, on which runs are supported, and having connections ensuring stability of the lower belts of lattice structures from their plane. The runs are made in the form of a horizontal beam, to one end of which, with the formation of a console, a stand is attached, having a fork at the end. The free and cantilever sections of the beam are supported on the upper belts of adjacent arches, and the lower belt of the arch is located in the fork of the rack.

The technical result.

The technical result is to increase the structural strength of the canopy by improving the mutual fixation of its elements.

Disclosure of a utility model.

The text should repeat the formula PM

The technical result is achieved by the fact that the canopy consists of separate modules separated by partitions and contains an arched arch fixed on arched rafters and mounted on columns made of stainless steel in the form of welded profiled racks with a niche at the junction of the racks; while the columns are rigidly connected in the longitudinal and transverse directions by girders with the help of connecting nodes formed at the junction of the longitudinal and transverse girders;

wherein the longitudinal run is made in the form of a gutter, the profile of which is an open figure containing walls and a bottom, the outer wall being rounded and the inner wall with a rectilinear section turning into an inclined section with a L-shaped protrusion forming a support element for mounting an arcuate rafters to the gutter;

the bottom of the gutter in the connecting node is rigidly connected to the upper platforms of the columns to ensure structural rigidity in the longitudinal direction of the canopy;

wherein the transverse run is made in the form of a beam, the end of which, in order to ensure structural rigidity in the transverse direction of the canopy, is mounted on the rectilinear wall of the gutter in the connecting node;

wherein the connecting unit contains a bracket in the form of a curved plate, resting against the shelves from the inside against the walls of the gutter profile, and a clamping element fixed to the bracket ensures that the sheet coating is pressed against the arcuate rafters of the arched arch.

In this case, the canopy partition is formed by supporting columns and transverse beams and contains a dividing panel installed between the columns and fixed by the lower and upper beams.

The crossbeam is made in the form of a box of trapezoidal section.

The column consists of a vertical rack formed by profiled parts, and an inclined part, the top of which ends with a platform.

The coating is made of cellular polycarbonate.

Enumeration of figures.

FIG. 1. General view of the canopy multi-post car wash self-service.

FIG. 2. Front view of the canopy.

FIG. 3. Top view of the canopy.

FIG. 4. General view of the canopy of one post.

FIG. 5. View A in FIG. four.

FIG. 6. Column stand in section AA in FIG. four.

FIG. 7. Column 3.

FIG. 8. View B in FIG. 7

FIG. 9. The crossbeam 6 in section.

FIG. 10. Gutter profile 10.

FIG. 11. Bracket 19.

FIG. 12. The connecting node 20 of the spatial elements of the canopy (section BB in Fig. 3).

FIG. 13. View D in FIG. 12.

The list of positions in the figures.

1 - arched arch;

2 - a partition;

3 - column;

4 - lower beam;

5 - upper beam;

6 - transverse beam;

7 - the upper platform of the column 3;

8 - the inclined part of the column.

9 - arched rafters;

10 - coating;

11 - a longitudinal side element - a gutter;

12 - a fixing strip;

13 - rounded wall of the gutter 11;

14 - the rectilinear wall of the gutter 11;

15 - an inclined section of the wall of the gutter 11;

16 - the ledge of the inclined section 15;

17 - the bottom of the gutter;

18 - strut arched rafters;

19 - an arm;

20 - connecting node of the spatial elements of the canopy;

21 - the internal channel of the gutter 10;

22 - a column of an open post for trucks;

23 - longitudinal box;

24 - column stand;

25 - sealing tape;

26 - the first shelf of the bracket;

27 - second shelf bracket;

28 - the rod of the clamping element;

29 - fastener;

30 - nozzles for hose nozzles;

31 - niche;

32 - enclosing panel.

Implementation of a utility model.

The inventive canopy is designed for multi-post self-service car washes and is a modular frame structure consisting of modules of the vehicle wash zone - posts mounted on both sides of the operator building zone (Fig. 1, 2, 3).

The canopy for each post (Fig. 1, 4) consists of an arch vault 1, mounted on arcs 9, and mounted on columns 3, rigidly connected in the longitudinal and transverse directions by girders 6 and 11 using connecting nodes 20 (Fig. 5), formed at the junction of the longitudinal 11 and transverse 6 runs (Fig. 12).

Each canopy column 3 is made of stainless steel in the form of two profiled parts 24.1 and 24.2 interconnected by welding (Fig. 6) to form a niche 31 at the junction.

Column 3 consists of a vertical strut 24 formed by profiled parts 24.1 and 24.2, and an inclined part 8 (Fig. 7, 8); at the top, the inclined part ends with platform 7 (Fig. 8).

The rack 24 and the inclined part 8 of the column 3 are rigidly connected by welding. The advantage of stainless steel columns is that this material has unique strength and decorative characteristics. Columns made of stainless steel are not susceptible to corrosion processes, are able to withstand low temperatures, increased mechanical stress, withstand acid influences, etc. These properties increase the strength and durability of the structure.

The canopy modules are separated by partitions 2 formed by load-bearing columns 3, interconnected by lower 4, upper 5 beams. The partition 2 (Fig. 4) contains the enclosing panel 32, made, for example, of thick glass or polymeric material. The enclosing panel 32 is installed on the lower 4 beam between the columns 3 and inserted into the grooves of the rubber seal, laid in the niches of 31 columns 3 (Fig. 6). On top of the panel 32 is fixed by the upper beam 5 (Fig. 5). Due to the construction of columns in the form of connected profiles with the formation of a niche for installing panels, the strength of the structure as a whole increases.

Columns 3 are rigidly connected by longitudinal and transverse runs. The longitudinal run 11 is made in the form of a gutter. The profile of the trough (Fig. 10) is an open figure containing the walls 13, 14 and the bottom 17. The outer wall 13 is rounded, and the inner wall 14 with a straight section that goes into an inclined section 15 with an L-shaped protrusion 16, forming a supporting element for fastening the arc 9 to the gutter 10.

The transverse run is made in the form of a beam 6, fixed on the sites of 7 columns 3 (Fig. 1, 4, 5).

Arched vault 1 is formed by a frame of arcuate rafters 9 (Fig. 1, 2, 3, 4), on which the coating 10 is laid, and longitudinal side elements 11, made in the form of gutters, mounted on the platforms 7 of columns 3 (Fig. 4). Arc-shaped rafters 9 are made of aluminum profile pipe.

The coating 10 of the arch 1 can be made of a translucent durable material, for example, cellular polycarbonate. The coating 10 is laid on the arcs 9 through the seal 25 and pressed to the ends of the arcs with a fixing strip 12 (Fig. 12, 13).

Longitudinal runs - gutters 11 installed on the upper platforms 7 of columns 3, contain connecting nodes 20 of the spatial elements of the canopy (Fig. 5, 9, 11).

The connecting node 20 serves:

for linking partitions 2, providing rigidity of the canopy in the longitudinal direction; for fastening the arches 9 of the arch vault to the longitudinal groove 11;

serves as a mounting point for the transverse beams 6, providing rigidity to the canopy in the transverse direction.

The longitudinal groove 11 is made of sheet metal and has a complex profile (Fig. 10). The profile of the trough 11 is an open figure containing the walls 13, 14 and the bottom 17. The wall 13, which is the outer part of the trough, is rounded. The wall 14 of the chute, facing the inside of the canopy, is made with a straight section 14, turning into an inclined L-shaped section 15 with a protrusion 16, forming a support for mounting the arc 9 to the chute 11 (Fig. 12).

The ends of the arcuate rafters 9 are fixed on the supporting elements 16 of the grooves 11 (Fig. 12), for example, by screws or bolts (not indicated). Between themselves arcs 9 are connected at the upper point of the arched arch with struts 18 (Figs. 1, 4).

The sheets of coating 10, preferably polycarbonate, are laid on the arcuate rafters 9 and at the ends of the arcs are pressed by the fixing strip 12, using the clamping element 28 and the fastening element 29 (Fig. 12, 13). The locking strip 12 is made of stainless steel.

The bracket 19 (Fig. 11) is made in the form of a plate with the first 26 and second 27 shelves bent in opposite directions.

One shelf 26 of the bracket 19 abuts against the support element 16 of the gutter (Fig. 12), and the other 27 abuts against the inside of the rounded wall 13 of the gutter 11. The rounded shape of the inner surface of the gutter allows you to reliably hold the bracket 19 in a fixed position.

A clamping element is installed on the bracket 19, which can be made in the form of a threaded rod, for example, a bolt 28, the rod of which passes through a threaded hole in the bracket 19, and a fastening element 29, for example, a bracket. The bolt 28 ensures that the coating 10 is pressed by the fixing strip 12 to the arcs 9 and its tension.

This design eliminates the need for self-tapping fasteners for attaching the cover to the longitudinal girders 11 of the canopy in the form of gutters, increases rigidity and improves fixation of the assembly compared to self-tapping screws.

In addition, a large number of fasteners, self-tapping screws reduces the performance of installation work and makes the arched structure heavier.

A channel 21 is formed inside the gutter (Fig. 10) to collect atmospheric moisture from the coating. In the lower wall of the gutter, nozzles 30 are provided for nozzles for water discharge hoses. Channel 21 can also be used to accommodate an insulated electrical cable.

The bottom 17 of the chute (Fig. 12) of the connecting unit 20 is fixed by fasteners (bolts or screws) on the upper platforms 7 of the columns 3. Thus, the connection between the partitions 2 in the longitudinal direction of the canopy and, accordingly, the structural rigidity are ensured.

In the connecting node 20 on the rectilinear wall 14 of the trough facing the inside of the canopy, the end of the transverse beam 6 is fixed (Fig. 12).

The transverse beam 6 is made in the form of a box preferably of a trapezoidal section (Fig. 9). The trapezoidal cross-section of the transverse beam increases the structural strength due to the fact that the upper wall of the beam is expanded and bent inward, forming stiffeners. This design has increased rigidity during bending. Thus, the connecting unit 20 serves as a mounting point for the transverse beams 6, providing rigidity to the canopy in the transverse direction.

In the middle of the transverse beams 6, a run is made in the longitudinal direction, made in the form of a box 23, which serves to give additional structural rigidity in the longitudinal direction, as well as for laying local wiring (Fig. 1, 2).

On the transverse beams 6 are mounted local lighting fixtures necessary for each washing platform in the dark. The support for the lamp is the column 22 of the open post. The column 22 of the open post for oversized or freight transport is attached to the end of the boxes 23. The profile of the column 22 of the open post is made similar to the column 3 and from the same material.

Boxes 23 of each module are joined together at the ends (Fig. 1, 2, 3).

The inventive modular design of the canopy has strength due to the rigidity and strength of the joints in both longitudinal and transverse directions. It makes it possible to mount a multi-post complex for washing vehicles and increase the number of car wash zones.

Assembly of the canopy.

The canopy is mounted in different directions from the operator structure to the required number of posts.

Welding operations of the canopy assemblies are carried out at the manufacturer, and the assembly is carried out directly by assembly of bolted joints.

The canopy is assembled at the final stage of the construction of the facility and is carried out at the prepared site.

The first stage is the installation and fastening of columns 3 on the studs, previously made on the site at the construction stage, after which the columns are connected to each other by the lower 4 and upper 5 beam. The columns, which are mounted next to the walls of the operator’s structure, are interconnected by upper beams.

Between the columns on the lower beam 4, a cladding panel 32 is installed, consisting of a durable translucent material, for example, of thick colored glass. The panel is inserted into the groove of the rubber seal, the lower beam, and also into the niches of the columns. Each panel is finally fixed by the upper beam. Enclosing panels are not placed only in partitions that are mounted next to the wall of the operator’s room.

The transverse beams 6 are installed on the upper platforms of the 7 columns. The next step is the installation of the longitudinal grooves 11 on the upper platforms of the 7 columns, due to which the canopy walls are connected, and the structure becomes stiff. The gutters are fixed with bolts to the columns, to the ends of the transverse beams and to each other through the end plates. The boxes 23 are installed and mounted on the transverse beams. The boxes 23 are connected to each other by adapter plates, the ends of the boxes are led into the technological openings of the operator structure for further installation of equipment communications.

The arches 9 of the canopy are mounted on an inclined section 15 of the gutters and fixed with screws through the mounting plates. Between themselves, the arcs are connected at the upper point by struts.

The canopy slope coating is cellular polycarbonate, which is laid on the arcs 9 through a porous sealing tape 25 and attracted by metal strips 12 to the arcs 9.

Technological niches in the columns are closed with plugs to hide bolted joints and give the final appearance. At the end of these works, the canopy is ready for the installation of electrical wiring under local lighting at the posts and technological equipment of the sink itself.

Industrial applicability.

The design of the inventive canopy provides increased strength by improving the mutual fixation of its elements.

All details of the claimed canopy are made according to the usual technologies for parts of such structures using industrially produced materials and can be widely used in the construction of arched canopies.

INFORMATION SOURCES.

1. Patent for utility model No. 40760. The assembly of the elements on the frame structure. Publ. 09/27/2004.

2. Patent for utility model No. 24484. Roof. Publ. 08/10/2002.

3. Patent for utility model No. 39991. Collapsible shelter. Publ. 08/27/2004.

4. Patent for utility model No. 93099. Nodal connection of the rods of the spatial frame. Publ. 04/20/2010.

5. Patent for utility model No. 77304. Arched construction. Publ. 10/20/2008.

6. Patent for utility model No. 45744. Arched construction. Publ. 05/27/2005.

7. Patent for utility model No. 3770. Vaulted building construction. Publ. 03/16/1997.

8. Patent for utility model No. 37741. Translucent building construction. Publ. 05/10/2004.

9. Patent for invention No. 2455096. A bent closed profile, a method of manufacturing a bent closed profile, a frame of a spatial structure frame using a bent closed profile, and a spatial structure using a frame frame. Publ. 07/10/2012.

10. Patent for invention No. 2036284. Coverage of the building. Publ. 05/27/1995.

Claims (8)

1. A canopy, consisting of separate modules separated by partitions, containing an arch vault, mounted on arched rafters, and mounted on columns made of stainless steel, in the form of welded profiled racks with a niche at the junction of the racks; moreover, the columns are rigidly connected in the longitudinal and transverse directions by runs with the help of connecting nodes formed at the junction of longitudinal and transverse runs; the longitudinal run is made in the form of a gutter, the profile of which is an open figure containing walls and a bottom, with the outer wall being rounded and the inner wall with a straight section that passes into an inclined section with a L-shaped protrusion, forming a support element for mounting an arched rafter to the gutter; the bottom of the gutter in the connecting node is rigidly connected to the upper platforms of the columns to ensure structural rigidity in the longitudinal direction of the canopy; wherein the transverse run is made in the form of a beam, the end of which, in order to ensure structural rigidity in the transverse direction of the canopy, is mounted on the rectilinear wall of the gutter in the connecting node; wherein the connecting unit contains a bracket in the form of a curved plate, resting against the shelves on the walls of the gutter, and a clamping element fixed to the bracket ensures that the sheet coating is pressed against the arcuate rafters of the arch vault. 2. The canopy according to claim 1, characterized in that the canopy partition is formed by load-bearing columns transverse to the lower and upper beams, and comprises a dividing panel mounted between the columns and fixed by the lower and upper beams. 3. A canopy according to claim 1, characterized in that the transverse beam is made in the form of a box of trapezoidal section. 4. A canopy according to claim 1, characterized in that the column consists of a vertical rack formed by profiled parts, and an inclined part, the top of which ends with a platform. 5. A canopy according to claim 1, characterized in that the coating is made of cellular polycarbonate.

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