RU164101U1 - DEFLECTIVE SHIELD - Google Patents

Abstract

1. The jet deflecting shield, consisting of separate sections with guiding jet deflecting plates of a curved profile and struts, struts, each section consisting of a frame with horizontal and vertical supporting elements of rectangular cross section, the jet deflecting plates of a curved profile are connected to vertical supporting elements, the design of the shield is prefabricated collapsible, characterized in that the device is additionally equipped with gaskets and struts-struts equipped with supporting platforms; wherein each gasket is installed between the jet deflecting plate of the curved profile and the vertical support element; the gaskets are made of a curved profile, similar to the profile of the jet deflecting plates; while curvilinear gaskets and jet deflecting plates have coaxial holes for fasteners from the end faces; wherein the support pads are a support plate on which vertical connecting plates with holes are rigidly fixed for fixing the strut-strut, and a fixing plate; while in the support plate two oval grooves are made from opposite sides; wherein the fixing plate has oval holes for installing and fixing the strut-strut on the supporting plate by axial alignment due to the execution of oval-shaped holes. 2. The jet deflector shield according to claim 1, characterized in that bolts and nuts are used as fasteners.

Description

The utility model relates to aerodrome equipment and can be used to improve the ecological state of the environment near the aerodrome.

Jet deflecting shields (SHS) are special protective structures designed to deflect upward and disperse gas-air flows arising from the operation of jet engines of aircraft. They are installed on platforms, parking lots for starting engines and fine-tuning of aircraft at the facilities of aircraft repair plants and aircraft technical bases, as well as on sites for testing engines.

Today, jet deflecting and enclosing platforms for testing engines are becoming an integral part of any modern airport. These structures are used to protect aircraft from buildings and structures of the airport, the apron (aircraft parking lots, taxiways, etc.) and baggage loading areas from the jet stream. The jet deflecting shield deflects the jet up, eliminating undesirable effects on sensitive objects.

There is a method of reducing surface gas contamination from working aircraft engine aircraft (RF patent No. 2427506, IPC B64F 1/26, op. August 27, 2011), which includes installing an obstacle in the path of gas jets that changes the direction of gas jets of working aircraft engines at the stages of aircraft movement along the aerodrome strip and an increase in mixing of the outgoing gases and / or a change in the density of the stream of outflow of gas jets with ambient air and the concentration of harmful substances. The barrier is performed either by using a screen that is installed with the possibility of its equidistant movement relative to the direction of the aircraft, or by blowing air, or a neutral gas, or a mixture of air with a neutral gas, or liquid. Blowing is carried out through holes in the coating of the strip along which the plane moves, across or towards the direction of flow of gas jets from aircraft engines. The screen is made in the form of a chipper containing a frame, closed with a solid or perforated heat-resistant material. The frame is made in the form of a parabola and fixed on a movable base on rigid retractable racks, and the frame is moved using a movable device of the airfield equipment. The screen is made in the form of a chipper, containing a frame providing a screen, closed with a continuous or perforated heat-resistant material, for example, reinforced with synthetic fabric, or NT-650 high-temperature fabric, or mesh fabric with nylon, and the frame is made in the form of a parabola, the direction of which is chosen to coincide with axis of the oncoming flow. In addition, the material for closing the carcass is corrugated, the carcass is fixed on a movable base on rigid retractable racks, and the carcass is moved using a movable device of airfield equipment, for example, a special vehicle. In addition, the holes for blowing in the coating of the strip along which the plane moves, are arranged in rows, with each row overlapping this strip in width and in a parabolic shape.

The famous BLASTWALL Shields (Internet.

http://www.aftpoject.ru/catalogue/all_fiberglass_or_steel_blast_fence/shields_blastwall//) Each Blastwall structure is made of steel or fiberglass invisible to radars and: is made according to an individual project, in accordance with the requirements of the installation site. Non-conductive and non-magnetic with respect to radars and radio frequencies. Designed to withstand the powerful airflow generated by the takeoff of an aircraft and the attendant high temperatures.

Jet deflecting shields for testing the aircraft engine are also known. MODEL S16S2-R - HIGH-STRENGTH, 16-FEET STEEL. (Internet. Http://www.aftpoject.ru/catalogue/all_fiberglass_or_steel_blast_fence/s16s2_r/).

Features

- 3 sections - one reinforced front section and two standard side sections

- 18 gauge galvanized corrugated panels provide extra strength, high corrosion protection

- Use of heavy-duty galvanized steel A36 in designs

- The front section has an interval of 2 feet for greater strength, the side sections have intervals of 4 feet to save construction.

The disadvantages of the known devices is the low stability when exposed to resonant loads from a jet stream.

Closest to the claimed device is a jet deflecting shield (STO-A3-23.01.07.28-2014-07 "Jet deflecting shields. Type L-1. Specifications" SPECAEROZASCHITA LLC http://aeroprotect.ru/ Jet deflecting shields), which is composite or metal shield intercepting and deflecting the jet stream up, excluding the negative impact on buildings, structures, equipment and people. The shield consists of separate sections mounted on the foundation. Each section consists of a steel frame with horizontal and vertical load-bearing elements. The jet deflecting plates of a curvilinear profile are welded to the vertical rectangular elements. The design of the shield is adopted collapsible rectilinear lattice. The shield is installed at an angle of 60 degrees. to the surface of the coating with an inclination to the sides of the aircraft using struts-struts attached to anchors and embedded parts in reinforced concrete foundations.

A disadvantage of the known technical solution is the decrease in the stability and structural integrity of the frame when exposed to resonant loads from a jet stream, the decrease in the bearing capacity of the bolt mount assemblies at low temperatures and under dynamic and vibrational effects.

The objective of the utility model is to develop a device for upward deflection and dispersal of gas-air flows arising from the operation of jet engines of aircraft, which should have improved operational qualities, such as reliability in operation and simplification of the process of bringing into working position, the creation of an effective external fence and the expansion of the outdoor arsenal fencing

The technical result from the use of the proposed utility model is to create an effective outdoor fence with increased stability of the shield against tipping and shearing, using the supporting platforms of the struts - struts, simplifying dismantling and changing the installation location, and expanding the arsenal of external fencing, and connecting parts by means of a fastener enables reliable assembly and disassembly faster.

This is achieved due to the fact that the jet-deflecting shield, consisting of separate sections with guiding jet-deflecting plates of a curved profile and struts - struts, each section consists of a frame with horizontal and vertical bearing section elements, and the jet-deflecting plates of a curved profile are connected to vertical bearing elements, the design of the shield is collapsible, rectilinear lattice, according to the utility model, it additionally has gaskets for the jet deflecting plate s profile and curved strut - struts are provided with supporting platforms; wherein each gasket is installed between the jet deflecting plate of the curved profile and the vertical support element; the gaskets are made of a curved profile, similar to the profile of the jet deflecting plates; while curvilinear gaskets and jet deflecting plates have coaxial holes for fasteners from the end faces; wherein the support pads are a support plate on which vertical connecting plates are rigidly fixed, having holes for the possibility of fixing the strut - strut, and a fixing plate; while in the support plate two oval grooves are made from opposite sides; wherein the fixing plate has oval holes for installing and fixing the strut - strut on the supporting plate by axial alignment due to the execution of oval-shaped holes. In this case, the gasket can be made of UHMW, VMP, PP or composite (fiberglass, carbon fiber, etc.). In this case, the jet deflector plate can be made of UHMW, VMP, PP or composite (fiberglass, carbon fiber, etc.). At the same time, bolts and nuts were used as fasteners.

In FIG. 1 shows a jet deflector shield, general view.

In FIG. 2 - the same side view.

In FIG. 3 - the same, top view.

In FIG. 4 - the same, node B in FIG. 3.

In FIG. 5 - the same, laying, general view.

In FIG. 6 - the same, the reference platform without the locking plate, General view.

Positions indicate: section 1; horizontal 2 bearing element; vertical 3 bearing element; jet deflector plate 4; gasket 5; rack - strut 6; supporting plate 7; plate 8; fixing plate 9; oval groove 10; oval hole 11.

The device consists of separate sections 1, installed on the surface of the site (platform, etc.). Each section 1 consists of a steel frame with horizontal 2 and vertical 3 supporting elements. The jet deflecting plates 4 of the curved profile are attached to the vertical elements 3 by means of a fastening connection (not shown in the figure), making it possible to assemble and disassemble faster. Between the jet deflecting plate 4 and the vertical element 3, a gasket 5, a curvilinear profile, repeating the curvilinear profile of the jet deflecting plate 4. is installed. The shield against tipping and shearing is ensured with the help of struts - struts 6 fixed on the supporting platform. The supporting pads are a supporting plate 7, on which the vertical connecting plates 8 are rigidly fixed, having holes for the possibility of fixing the strut - strut 6, and the fixing plate 9; while in the support plate 7, two oval grooves 10 are made from opposite sides; wherein the fixing plate 9 has oval holes 11 for installing and fixing the strut - strut 6 on the supporting plate 7 by axial alignment due to the execution of oval-shaped holes. The gasket 5 can be made of UHMW, VMP, PP or composite (fiberglass, carbon fiber, etc.). Serves to provide radio transparency, vibration absorption, protection against resonance, as well as against icing. The jet deflecting plates 4 of a curved profile can be made of UHMW, VMP, PP.

The device operates as follows.

The jet deflecting shield is installed on aprons, parking lots for starting engines and fine-tuning the aircraft at the structures of aircraft repair plants and aircraft technical bases, as well as on sites for testing engines. The jet deflector shield installed on the path of the gas jets expiration is an obstacle that changes the direction of the gas jets of working aircraft engines at the stages of aircraft movement along the airfield and increases the mixing of the outgoing gases and / or changes in the density of the stream of gas jets with the surrounding air and the concentration of harmful substances.

The jet deflecting shield is installed in such a way that the gas-air jet arising during the operation of gas turbine aircraft engines is directed to the jet deflecting surface. The jet deflecting shield deflects the jet up, eliminating undesirable effects on sensitive objects.

The location of jet deflecting shields on the aerodrome strip leads to a change in the shape and direction of the jets and to more intensive mixing with the surrounding air. The presence on one side of the barrier and on the other side of the surface of the runway leads to the formation of a vertical swirling vortex flow. Structurally lightweight and easy to install without the need for cranes. The installation process does not interrupt the operation of the airport.

The use of jet deflecting shields can significantly improve the organization of the airport's working area, providing high flexibility in planning its sections and maintaining safety at the required level.

Claims (2)

1. The jet deflecting shield, consisting of separate sections with guiding jet deflecting plates of a curved profile and struts, struts, each section consisting of a frame with horizontal and vertical supporting elements of rectangular cross section, the jet deflecting plates of a curved profile are connected to vertical supporting elements, the design of the shield is prefabricated collapsible, characterized in that the device is additionally equipped with gaskets and struts-struts equipped with supporting platforms; wherein each gasket is installed between the jet deflecting plate of the curved profile and the vertical support element; the gaskets are made of a curved profile, similar to the profile of the jet deflecting plates; while curvilinear gaskets and jet deflecting plates have coaxial holes for fasteners from the end faces; wherein the support pads are a support plate on which vertical connecting plates with holes are rigidly fixed for fixing the strut-strut, and a fixing plate; while in the support plate two oval grooves are made from opposite sides; wherein the fixing plate has oval holes for installing and fixing the strut-strut on the supporting plate by axial alignment due to the execution of oval-shaped holes. 2. The jet deflector shield according to claim 1, characterized in that bolts and nuts are used as fasteners.

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