RU2657923C2 - Flight attendant's chair (embodiments) - Google Patents

Abstract

FIELD: aircraft.

SUBSTANCE: invention relates to aircraft equipment and refers to the flight attendant's chair. Flight attendant's chair is attached to the floor of the aircraft and contains a rotatable backrest and a headrest, each of which contains fillers covered with covers. Seat bottom contains a removable filler and seat dampener with the possibility of absorbing vertical-lateral impact. Chair also contains a tethering system, two dampers with the possibility of energy absorption of the longitudinal-lateral impact.

EFFECT: increase in reliability in the emergency situation, simplification of the design and reduction of the mass-dimension parameters are achieved.

6 cl, 14 dwg

Description

The present invention relates to the equipment of aircraft of transport aviation: airplanes and helicopters, namely to cabin stewards, which are designed to ensure that they fulfill their functional duties in comfortable conditions, with the possibility of short-term rest during the flight, as well as to minimize the possibility of injury in the event of an emergency landing of the aircraft.

Currently, the peculiarities of all cabin crew seats created are high requirements for reliability, simplicity of design, weight and size parameters and wide functional capabilities in standard operating conditions and in emergency situations with the need for energy absorption of peak loads: dynamic strength in overload 16g for longitudinal-side impact F _PBU and overload of 14g to vertical-side impact F _wbu including with deformations of the floor of the aircraft (hereinafter referred to as the floor).

Known energy-absorbing seat of a crew member of an aircraft (RF Patent No. 2154595 Energy-absorbing seat of a member of an aircraft crew Serebryakov VA, IPC B64D 25/04, Publ. 20.08.2000), which can be used as a flight attendant seat. According to this invention, the energy-extinguishing seat of an aircraft crew member comprises a base with guides on which the body, the locking mechanism, the spring mechanism and the quenching mechanism mounted on the base are supported by upper and lower sliders. The locking mechanism is equipped with spring-loaded pins fixed to the housing. The spring mechanism supports the housing while adjusting the seat height. The mechanism of energy suppression is made in the form of knives mounted on base rails with the possibility of moving along them with a slice of longitudinal protrusions in the grooves of the rails. The base is equipped with side racks. The racks with the lower ends are built into the rails and are connected to them by means of shear pins. The racks are made with holes for the pins of the locking mechanism. Knives are mounted on racks in front of the ends of the rails. The ends of the guides are made with grooves for the sliders. The sliders are placed on the outside of the base and are provided with grooves for racks that are located on the inside of the base. The grooves for the racks are made with longitudinal protrusions located at the ends opposite the cutting edges of the knives. The cylinders of the spring mechanism are fixed with the upper ends on the uprights, and the lower ends on the seat casing.

The disadvantage of this chair design is that the design of energy-absorbing nodes involves working exclusively along the guide racks. The main part of the vertical load from the weight of the person sitting on the chair comes to the middle part of the seat, which is located at a considerable distance in front of the suspension components of the chair frame. This leads to the fact that the frame of the chair experiences additional bending moments, which, in turn, create additional loads in the horizontal plane, acting on the suspension nodes of the frame and energy-absorbing elements. This complicates the work of the sliders during the energy-absorbing movement of the chair, limiting the range of angles of possible emergency touchdowns of the aircraft. In addition, the possibility of skewing and jamming of energy-absorbing elements increases.

Known flight attendant seat selected as an analogue (Certificate for utility model No. 16495 Flight attendant seat Terentyev V.I., Abramov V.I., Levin V.F., Krivoshein E.M. IPK B64D 11/06, Publ. 10.01. 2001), containing the backrest, seat, sidewalls and the attachment system, the sides, which are the main load-bearing elements of the chair, consist of power walls connected to the liners and brackets, while the attachment points of the attachment system and the seat are located on the bracket so as to provide a short circuit for transmission arising loads from tether system and seat attachment points to the chair to the floor, located at the base of the brackets.

This technical solution has the following disadvantages:

- low reliability of seats in an emergency due to the influence of floor deformation on the overall ability of energy absorption,

- limitation of the functionality of the chair due to the fact that the chair is not reusable, because damaged nodes form the basis of the chair.

Known pilot's seat, selected as a prototype for the total number of common features (Certificate for utility model No. 161357 Chair of the pilot Tkanko Yu.F. IPC B64D 11/06, B64D 25/04, B60N 2/42 Publish. 04/20/2016, Bull. No. 11), containing rails, four movement supports, a carriage, a chair support, a seat of a chair with rollers, a back with a possibility of turning it, a lifting device, a device for fixing a rollback, armrests, a tie system, a device for deflecting the back, two dampers with the ability to provide turns of the chair , lift indicator, headrest, longitudinal rake and, and the headrest is mounted on top of the back and each of them contains fillers covered with covers, while the seat contains a seat damper and a filler.

The advantage of using such a chair for the flight attendant is its high stability in an emergency situation due to the energy absorption of peak overloads from the longitudinally-side F _FBU or vertical-side F _FBU impacts, provided the _{plane is} even on the floor, as well as the high maintainability of the seat.

However, the disadvantages of the chair include the following:

- low reliability of seats in an emergency due to the influence of floor deformation in the form of pitch and / or roll on the operation of dampers and, accordingly, the overall ability of energy absorption,

- complex design and large weight and size parameters of the chair due to the presence of rails and armrests and restrictions on the working space (freedom of passage, arms, body) of the flight attendant when using the chair, incl. Passing by, sitting down, getting up,

- limitation of functionality due to:

the impossibility of self-raising the seat and folding the backrest after rising from it;

the inability to use when installing the chair against the direction of flight;

the impossibility of using one seat for two directions: in the direction of flight and against it.

The technical problems solved by the invention are the following:

- improving the reliability of seats in an emergency,

- simplification of design and reduction of overall dimensions,

- expansion of functionality.

These technical problems are solved by a flight attendant chair attached to the floor of the aircraft and containing a swivel backrest and head restraint, each of which contains fillers covered with covers, a seat seat containing removable filler and a seat damper with the possibility of energy absorption of vertical side impact, a tie system, two dampers with the possibility of energy absorption of the longitudinal-side impact, moreover, two sidewalls, a rear panel and a door are introduced, while the sidewalls are connected to each other, with a back and in the afternoon, forming the frame of the flight attendant’s chair, the front side, which is formed by the back and the seat of the chair, the seat of the chair being inserted between the sidewalls with the formation of elastic connection with them, and between the sidewalls the back is also introduced with the formation of a mechanical connection with the seat of the chair and the possibility of synchronous turns of the backrest and seat chairs to their two extreme positions: the first - for sitting when lowering to a horizontal position of the seat of the chair with a synchronous rotation of the back and the second due to the aforementioned elastic connection when the seat is self-elevating to a vertical position with synchronous reverse rotation of the backrest, a seat plate is introduced between the floor of the aircraft and the seat frame with the possibility of compensating for floor deformations during pitch and / or roll, with a rear panel and head restraint installed on the back and top of the seat frame, forming the back and top sides, and the flight attendant seat frame is mounted on top of the seat plate with the front side in the direction of flight of the aircraft, with the possibility of turning it with the front side in this e direction, attaching to the plate of the chair in front with the formation of an axial connection, and behind with the help of dampers, while the door with is installed under the seat of the flight attendant chair and attached to two sidewalls with the possibility of its rotation, forming a closed cavity with the possibilities of opening or closing, the external contour of the chair introduced molding with the ability to protect the chair from external mechanical influences.

A feature of the invention is that the seat plate comprises a base plate with two or more pivotable supports and fasteners, the first of which can be extended with fixation without a reverse stroke, while the front and rear base plates are attached to the floor in the direction of flight of the aircraft, respectively with the help of supports and fixing connections with the possibility of forming a gap between the floor and the slab due to the elongation and rotation of the supports when the floor is deflected, as well as the turns of the fixing unions, and in the base plate there are nests for attachment to the floor of the aircraft, each of which represents a non-through vertical selection with the removal of material in the base plate with the formation of a cup-shaped end with an internal hemispherical surface with an axial through hole in the bottom of the cup with a diameter smaller than the diameter hemispherical surface, and in the front and rear nests the above nest cups created are directed upward and downward, respectively, with each support consisting of a support cone in in the form of a truncated cone or a part similar in shape to it with a through axial hole, a tube and a spherical washer with an inner flange, a gear mechanism and a fastening set of a bolt, washer and nut, and a spherical washer and the aforementioned fastening set are used in each of the fasteners, with the bolt of the mounting kit penetrates the cone of the support, which is inserted with a small diameter end into the tube passing through the through hole of the front socket of the base plate and partially inserted into the spherical with the shoulder abutting against its shoulder, while the spherical washer with the shoulder with its spherical surface is conjugated to the base plate with the spherical surface of the front socket cup, and the bearing cone sequentially penetrates the spherical washer with the inner shoulder resting against the floor of the aircraft, and pulling the floor of the aircraft their washer and nut of the fastener kit, and the bolt of the fastener kit of the fastener connection penetrates the spherical washer resting against the inner spherical surface against the spherical surface the surface of the cup of the rear nest of the base plate passes through its through hole in the bottom of the cup and the floor of the aircraft, tightening them with the washer and nut of the fastener set of the fastener, while the gear mechanism is created by one or more grooves formed on the surface of the support cone inserted into the tube , with a ring placed in each of them, an elastically compressed tube, with the possibility of expansion of each ring and incomplete exit of each of the grooves as the cone of support is further inserted into the tube and spherical aybu with an internal shoulder at an elongation of the support.

In addition, these technical problems are solved by a flight attendant chair attached to the floor of the aircraft and containing a rotatable back and head restraint, each of which contains fillers covered with covers, a seat seat containing removable filler and a damper seat with the possibility of energy absorption of vertical-side impact, a tethered system , two dampers with the possibility of energy absorption of a longitudinal-side impact, and two sidewalls, a rear panel and a door, are introduced, while the sidewalls are connected to each other, with the back and the seat of the chair, forming the skeleton of the flight attendant chair, the front side, which is formed by the back and the seat of the chair, the seat of the chair being inserted between the sidewalls with the formation of elastic connection with them, and between the sidewalls a backrest is introduced between the sidewalls with the formation of a mechanical connection with the seat of the chair and the possibility of synchronous turns the back and seat of the chair to their two extreme positions: the first - for sitting when lowering the seat to the horizontal position of the seat by synchronous rotation of the back and the second due to the above elastic connection when the seat is self-elevating to a vertical position with a synchronous reverse rotation of the back, while a seat plate is introduced between the floor of the aircraft and the seat frame with the ability to compensate for floor deformations when pitching and / or roll, with a rear panel and the head restraint, forming the back and top sides, and the flight attendant seat frame is mounted on top of the seat plate with the front side against the direction of flight of the aircraft, with the possibility of turning it over side in the same direction, attaching to the plate of the chair at the back with the formation of an axial connection, and at the front with the help of dampers, the door being installed under the seat of the flight attendant chair and attached to two sidewalls with the possibility of its rotation, forming a closed cavity with the possibilities of its opening or closing at the same time, a molding has been introduced along the outer contour of the chair with the ability to protect the chair from external mechanical influences.

Another feature of the invention is that the seat plate contains a base plate with two or more pivotable supports and fasteners, the first of which can be extended with fixation without a reverse stroke, while the front and rear base plates are attached to the floor in the direction of flight of the aircraft accordingly, with the help of supports and fixing joints with the possibility of forming a gap between the floor and the slab due to the elongation and rotation of the supports when the floor is deflected, as well as the turns of the crepe connections, and in the base plate, there are nests for attachment to the floor of the aircraft, each of which represents an endless vertical selection with the removal of material in the base plate with the formation of a cup-shaped end with an internal hemispherical surface with an axial through hole in the bottom of the cup with a diameter smaller than the diameter of the hemispherical surface, and in the front and rear nests the above-mentioned nest cups created are directed upward and downward, respectively, with each support consisting of a cone o pores in the form of a truncated cone or a part similar in shape to it with a through axial hole, a tube and a spherical washer with an inner collar, a gear mechanism and a fastening set of a bolt, washer and nut, and a spherical washer and the aforementioned fastening set are used in each of the fasteners , the bolt of the mounting kit penetrates the cone of the support, which is inserted with a small diameter end into the tube passing through the through hole of the front socket of the base plate and partially inserted into the spherical the shoulder with the shoulder abutting against its shoulder, while the spherical washer with the shoulder with its spherical surface is mated to the base plate with the spherical surface of the front socket cup, and the cone of the support sequentially penetrates the spherical washer with the inner shoulder resting against the floor of the aircraft and pulling the floor of the aircraft their washer and nut of the fastener kit, and the bolt of the fastener kit of the fastener connection penetrates the spherical washer resting against the inner spherical surface with a spherical surface the surface of the cup of the rear nest of the base plate passes through its through hole in the bottom of the cup and the floor of the aircraft, tightening them with the washer and nut of the fastener set of the fastener, while the gear mechanism is created by one or more grooves formed on the surface of the support cone inserted into the tube , with a ring placed in each of them, an elastically compressed tube, with the possibility of expansion of each ring and incomplete exit of each of the grooves as the cone of support is further inserted into the tube and spherical a washer with an inner flange when lengthening the support.

In addition, these technical problems are solved by a flight attendant chair attached to the floor of the aircraft and containing a swivel back and head restraint, each of which contains fillers covered with covers, a seat seat containing removable filler and a seat damper with the possibility of energy absorption of vertical-side impact, a tethered system , two dampers with the possibility of energy absorption of a longitudinal-side impact, while two sidewalls, a rear panel and a door are introduced, while the sidewalls are connected to each other , with the back and seat of the chair, forming the skeleton of the flight attendant chair, the front side, which is formed by the back and seat of the chair, the seat of the chair being inserted between the sidewalls with the formation of elastic connection with them, and between the sidewalls a backrest is introduced between the sidewalls with the formation of a mechanical connection with the seat of the chair and synchronous capabilities the back and seat rotations to their two extreme positions: the first is for sitting when lowering the seat of the chair to a horizontal position with simultaneous rotation of the back and the second due to the above elastic connection when the seat is self-elevating to a vertical position with a synchronous reverse rotation of the back, while a seat plate is introduced between the floor of the aircraft and the seat frame with the ability to compensate for floor deformations when pitching and / or roll, with a rear panel and the head restraint, forming the back and top sides, and the flight attendant seat frame is mounted on top of the seat plate with the front side in the direction or opposite to the direction of flight of the aircraft, with the possibilities and turning it with the front side in the same directions, attaching to the chair plate, front or rear, respectively, with the formation of axial joints and rear or front with dampers, the door being installed under the seat of the flight attendant chair and attached to two sidewalls with the possibility of its rotation, forming a closed a cavity with the possibilities of opening or closing it, and a molding is introduced along the outer contour of the chair with the ability to protect the chair from external mechanical influences.

Another feature of the invention is that the chair plate comprises a base plate with two or more pivotable supports and fixing connections, the first of which can be extended with fixation, without backward movement, while the front and rear base plates are attached to the floor in the direction of flight of the aircraft apparatus, respectively, using supports and fixing connections with the possibility of forming a gap between the floor and the slab due to elongation and rotation of the supports when the floor is deflected, as well as turns of the crepe male joints, and in the base plate there are nests for attachment to the floor of the aircraft, each of which represents a non-through vertical selection with the removal of material in the base plate with the formation of a cup-shaped end with an internal hemispherical surface with an axial through hole in the bottom of the cup with a diameter smaller than the diameter of the hemispherical surface, and in the front and rear nests the above-mentioned nest cups created are directed upward and downward, respectively, with each support consisting of a cone supports in the form of a truncated cone or a part similar in shape to it with a through axial hole, a tube and a spherical washer with an inner collar, a gear mechanism and a fastening set of a bolt, washer and nut, and a spherical washer and the aforementioned fastening set are used in each of the fasteners wherein the bolt of the mounting kit penetrates the support cone, which is inserted with a small diameter end into the tube passing through the through hole of the front socket of the base plate and partially inserted into the spherical the yuba with the shoulder abutting against its shoulder, while the spherical washer with the shoulder with its spherical surface is conjugated in the base plate with the spherical surface of the cup of the front socket, the cone of the support sequentially penetrating the spherical washer with the inner shoulder resting against the floor of the aircraft, and pulling the floor of the aircraft their washer and nut of the fastener kit, and the bolt of the fastener kit of the fastener connection penetrates the spherical washer resting against the inner spherical surface with a spherical surface the surface of the cup of the rear nest of the base plate passes through its through hole in the bottom of the cup and the floor of the aircraft, tightening them with the washer and nut of the fastener set of the fastener, while the gear mechanism is created by one or more grooves formed on the surface of the cone of the support inserted into the tube , with a ring placed in each of them, an elastically compressed tube, with the possibility of expansion of each ring and incomplete exit of each of the grooves as the cone of support is further inserted into the tube and spherical th washer with an inner collar while lengthening the support.

The presented technical solutions are illustrated by drawings.

FIG. Figures 1 and 2 show a front view and a side view (sectional view) of a flight attendant seat with installation in the flight direction of the aircraft (hereinafter, flight direction).

In FIG. Figures 3 and 4 show a support (door not shown) and a fastener connecting the chairs to the floor.

FIG. 5-8 represent the lower parts of the seats (in the context), installed in the direction of flight with floor deformations during pitch (side view, Fig. 5), against the direction of flight during pitch (side view, Fig. 6), and also installed in the direction of flight with floor deformations during roll (Fig. 7) and at the same time pitch and roll (Fig. 8).

In FIG. 9 and 10 simplistically depict seats before an emergency with installation in the direction of flight and against it.

In FIG. 11-14 on the example of a chair with a flight attendant with installation in the direction of flight and against it, the positions of the chair before and after an emergency with a longitudinal-side impact F _{PB are shown} in _{simplified form} during floor deformations with pitch and dampers triggered:

- with the installation of the chair in the direction of flight (Fig. 11, 12),

- with the installation of the chair against the direction of flight (Fig. 13, 14).

In the following statement, the coordinate system of the aircraft is adopted as the main one, and its axis OX and its positive direction is the longitudinal axis of the aircraft. The terms “front”, “front”, “front”, “behind”, “rear”, “rear” and the like will be interpreted in accordance with the arrangement of elements relative to the previously selected positive direction of the OX axis.

The terms "height", "above", "top", "bottom", "below", "down" are interpreted in accordance with the positive direction of the OY axis.

Pitch refers to floor deformations with an angular deviation from and the appearance of a gap in one or more places (points) of fastenings of the front (Fig. 5) or back (Fig. 6) parts of the chair to the floor, which, according to aviation rules, ranges up to 10 ° must be compensated by the chair.

Roll refers to floor deformations with angular deviations α _cr directed in different directions from the area occupied by the chair when it is attached to the floor (Fig. 7, 8), which, according to aviation rules, must be compensated by the chair in the range up to 10 °. In this case, the gap between the chair and the floor at the fastening points during roll is not formed.

Armchairs are used to ensure full operation of the flight attendant, attached to the floor of the aircraft without the possibility of adjusting movements and / or turns.

In the present invention, there are three options for chairs.

Chair No. 1 for installation in the direction of flight consists of a plate of a chair 1, two dampers 2, a left 3 and a right 4 sidewalls, a back panel 5, a backrest 6, a seat of a chair 7, a head restraint 8, a fastening system 9, a door 10, a molding 11.

Chair No. 2 for installation against the direction of flight consists of a plate of a chair 1, two dampers 2, a left 12 and a right 13 sidewalls, a back panel 5, a backrest 6, a seat of a chair 7, a head restraint 8, a fastening system 9, a door 10, a molding 11.

Chair No. 3 is a universal option for installation in or against the direction of flight and consists of a plate of a chair 1, two dampers 2, a left 14 and a right 15 sidewalls, a back panel 5, a backrest 6, a seat of a chair 7, a head restraint 8, a safety system 9, doors 10, molding 11.

Pairs of sidewalls 3 and 4, 12 and 13, 14 and 15, together with the rear panels 5, backs 6 and seats of the chair 7 form the frames of the seats No. 1, 2 and 3.

The above nodes and elements of the chair can be created the most accessible and / or inexpensive materials, mainly duralumin alloys and have the following composition and interactions.

The nodes and elements of the seats listed above have the following composition and interactions.

The plate of the chair 1 includes a base plate 101, mainly rectangular in shape, attached to the floor 16 with rotatable joints around the two axes OX and OZ:

- front - for two supports 102 of variable length,

- rear - for two fasteners 103 of fixed length. The base plate 101 is made mainly of

duralumin alloys and in its four corners created, the so-called sockets for attaching to the floor 16 aircraft. Each of these nests represents a non-through vertical sample with the removal of material in the base plate 101 with the formation of an end face in shape like a cup with an internal spherical surface and an axial through hole in the bottom of the cup with a diameter smaller than the diameter of the spherical surface. The inner surfaces of the cups, in fact, have a part of the spherical surface, but for simplicity, without changing the essence, in the future we will call it a spherical surface. In the front and rear nests of the base plate 101, the created ends in the form of nest cups are directed upward and downward, respectively, i.e. its spherical surfaces up and down.

Each support 102 (Fig. 3) consists of a spherical washer (with convex and flat sides) with an inner shoulder 104, a tube 105 with a thickness of ≈1 mm, a cone of the support 106 and a gear mechanism in one embodiment, including one (as shown in FIG. 3) and several grooves 107 located along the cone of the support 106, in increments of 3 to 10 mm, preferably 5 mm, with ring 108 installed in each of them; mounting kit 109 of a bolt, washer, and nut.

The cone of the support 106 (Fig. 3) is a body of revolution with a conical and cylindrical part, having, as a rule, a ratio of 2: 1 in length. Outside of the cylindrical part of the cone of the support 106, a groove 107 is created with the installation of a compressed ring 108 in it. The cone of the support 106 has a length of 41 to 45 mm, preferably 43 mm, a large end diameter of 18.5 mm to 19.5 mm, preferably 19 mm, the diameter of the cylindrical part is from 16 mm to 18 mm, preferably 17 mm, the axial hole with a diameter of 10.1 to 10.3 mm, preferably 10.2 mm

Depending on the characteristics of the aircraft, it is possible to design a tube 105 with a variable, for example, linearly varying wall thickness, with external and / or internal cones.

In the assembled state in each support 102 (Fig. 3), the bolt of the fastening set 109 penetrates the cone of the support 106, inserted together with the compressed ring 108 into the tube 105, and passes through a spherical washer with an inner shoulder 104 directed upward by its spherical surface and resting against it from below into the spherical bottom of the cup of the front nest of the base plate 101, attracting the above elements with the washer and nut of the mounting kit 109 to the floor 16. The tube 105 partially enters the through axial hole of the spherical washer with an inner shoulder 104, up ayas it.

Thus, an elongated rotatable joint is formed of two front corners of the base plate 101 with the floor 16 to compensate for its deformations during pitch and / or roll, which has two features. Firstly, when the support 102 is elongated from deformations of the floor 16 and the forward movement of the cone of the support 106 to Δl _op ≈20 mm, the ring 108, extending beyond the tube 105, partially expands, becoming a retainer. And in the case of a return stroke, the cone of the support 106, abutting against the tube 105 with this ring 108, forms a rigid connection between the floor 16 and the base plate 101, making it possible for the dampers 2 to work efficiently to maximize the energy absorption of the longitudinal-side impact F _PBU in an emergency. This forms the lower limit of the elongation of the support 102. In the case of using two or more grooves 107 and rings 108, the latter are released with their conversion into latches with a total number proportional to the forward stroke of the cone of the support 106.

Secondly, with large elongations of the support 102 from deformations of the floor 16, the tube 105 with the cone of the support 106 is jammed by the axial hole of the spherical washer with the inner shoulder 104, not allowing the support 102 to be further extended and stop it. This limits the maximum elongation of the support 102, amounting to ≈35 mm and forming the upper limit of its elongation.

Thus, for the supports 102, elongation limits Δl _{op are formed} in the range from ≈20 mm to ≈35 mm. The aspect ratio between the elements of the supports 102 is selected so that the force for such extensions does not exceed 10 kg

The fasteners 103 include the aforementioned standard fastener set 109 of a bolt, washer, and nut, as well as a spherical washer 110. When assembled, in each fastener 103 (FIG. 4), the bolt of the fastener set 109 penetrates the spherical washer 110, abutting its spherical surface from above the spherical bottom of the base plate cup 101, attracting the washer 109 to the floor 16 with the washer and nut, thereby forming an unextendable connection of the base plate 101 with the floor 16, like a ball joint, rotated along two axes OX OZ. It is used in an emergency during pitch and / or roll to exclude the influence of deformation of floor 16 on the operation of dampers 2.

The radii of the spherical surfaces of the spherical washers with an inner flange 104 and the spherical washers 110 may be equal, for example, in the range from 13 to 15 mm, preferably 14 mm.

On the spherical surfaces of the cups of the base plate 101, as well as spherical washers with an inner flange 104 and spherical washers 110, coatings, for example, cadmium with a thickness of 15-50 μm, can be applied, which reduces friction in the rubbing spherical surfaces and increases their corrosion resistance.

Damper 2 is used in an emergency to absorb the energy of circular motion of a chair from longitudinal-side impact F _PBU up to 16g, preventing death for the flight attendant, for example, by converting mechanical energy into plastic deformation energy by pressing a conical expander into the tube, as in prototype.

On the proposed seats, such dampers 2 have already been worked out, which are attached, as a rule, by 2 pcs. To the plate of the chair 1 and the frame of the chair from its rear side with the following parameters of the elements:

- conical expander made of duralumin alloy D16T 15 mm long with large and small diameters of 19 and 15 mm;

- a tube of stainless steel 12X18H10T 22 mm long with internal and external diameters of 15 mm and 19 mm.

Damper 2 is attached at one end to the rear side of the base plate 101, next to the fasteners 103, and at the other end to the seat frame (for example, using jumpers connecting the sides 3, 4): in the rear part, when installing the seat in flight and in the front - when installing the seat against flight.

Sidewalls 3, 4 (for chair No. 1) and 12, 13 (for chair No. 2) and 14, 15 (for chair No. 3) form the frame of the chair, in each pair they are non-interchangeable with each other and are fastened to each other by transverse jumpers. To connect these jumpers from the inside in the body of the sidewalls 3, 4 and 13, 14 due to the removal of material with the formation of stiffeners, recesses can be formed, as well as two pairs of through grooves 17 (Fig. 2) in the form of guides for the seat of the chair 7 and opposite each other backs 6 at synchronous turns of the latter.

Pairs of sidewalls of chairs can be interchangeable with each other during their manufacture by removing material, the formation of places of attachment and stiffeners from the sides that will be internal in the frame of the chair. At the same time, they provide minimal metal consumption.

And pairs of sidewalls can be interchangeable with each other in the manufacture of integral, without stiffeners with the creation of through holes, which can be closed from the outside with plugs, false panels, incl. from plastic or film.

The rear panel 5 in the form of a flat metal plate fastens the sides of the chair, forming the back side of its frame from the back, opposite the backrest 6 and the seat of the chair 7.

The backrest 6 (shown in FIG. 1, 2 for chair No. 1) forms the front side of the chair frame, is attached to the sidewalls 3, 4 in their upper part, is mechanically connected to the seat of the chair 7 with the possibility of rotation synchronously with it like a pendulum. It includes a backrest frame, a soft filler, for example, made of polyurethane foam and a cover. In the assembled state, the cover is worn on the back 6, and a soft filler is installed between it and the back frame.

The seat of the chair 7 also forms the front side of the frame of the chair, has axial fastening to the sides 3, 4 and is elastically connected with them using springs 18, which enable its self-raising when the backrest 6 is turned. The seat of the chair 7 includes a frame with a seat damper 701 and one or several soft removable fillers made of polyurethane foam. It is movably attached to the back 6 with the formation of two extreme positions, deflecting it forward to the working position and returning back to the idle:

1) working (first) - for the flight attendant's seat with the seat of the chair 7 lowered to a horizontal position and the backrest 6 inclined forward,

2) non-working (second), corresponding to the seat of the chair 7 raised almost to a vertical position and the backrest 6 tilted back.

The force of lowering the seat 7 to the operating state is from 2.9 kgf to 3.1 kgf, preferably 3.0 kgf with a self-raising time of the seat from 4.5 s to 5.5 s, mainly 5 s.

The damper of the seat 701 in an emergency absorbs the energy of a vertical-side impact F _wbu , acting from below on the seat and resulting in compression of the seat of the seat 7 due to the inertia of the body of the flight attendant. Its design is similar to the damper used in the prototype and similar to the dampers 2 described above.

The headrest 8 is rigidly fixed to the chair, has a frame and a filler and a cover are sequentially put on it.

The safety system 9 is used at different stages of the flight and especially during an emergency landing to fix the body of the flight attendant, as well as in case of incapacity of the latter. As a tethered system 9, a standard product 1-10-3C5Axx manufactured by Schroth Safety Products GmbH (Germany, Internet resource http://www.schroth.com) can be used.

The door 10 is attached to two sidewalls 3 and 4 under the seat of the chair 7 with the possibility of rotation and the formation of an open closed cavity for the compartment of the emergency equipment.

The molding 11 in the form of a laid-on convex bar is attached to the chair along an external horizontal contour and protects the chair from external mechanical influences.

In chair No. 1, the sides 3 and 4 are connected to each other, with the backrest 6 and the seat of the seat 7, forming the front flight attendant chair frame, which is formed by the backrest 6 and the seat. The seat of the chair 7 is inserted between the sidewalls 3 and 4 with the formation of an elastic connection with them. Between the side walls 3 and 4, a backrest 6 is also introduced with the formation of a mechanical connection with the seat of the chair 7 and the possibility of synchronous turns of the backrest 6 and the seat of the chair 7 to their two aforementioned extreme positions.

Between the floor 16 of the aircraft and the frame of the chair introduced plate plate 1 with the ability to compensate for deformations of the floor 16 during its pitch and / or roll. The rear panel 5 and the headrest 8 are installed at the back and top of the chair frame, forming the rear and upper sides. The flight attendant seat frame is mounted on top of the seat plate 1 with the front side in the direction of flight with the possibility of rotation in the same direction, attaching to the seat plate 1 in front with axial connection 19 along the DE axis (Fig. 9) due to axial mounting, and from the back using dampers 2.

In seat No. 2, its constituent elements are mainly assembled like chair No. 1, and the main difference is that the seat frame is mounted on top of the seat plate 1 with its front side against the direction of flight with the possibility of rotation in the same direction, attaching to the seat plate 1 from the rear with the formation of an axial joint 20 along the FG axis (Fig. 10), and from the front with the help of dampers 2.

In seat No. 3, its constituent elements are also basically assembled like chair No. 1, characterized in that the seat frame is mounted on top of the seat plate 1 with the front side in or against the direction of flight with the possibility of its rotation in the same directions, attaching to the seat plate 1 in front or at the rear with the formation of axial joints 19 along the axis DE (Fig. 11) or 20 along the axis FG (Fig. 13) and at the rear or front using dampers 2.

Axial fasteners (in the lower part of the armchair frame) involved in the formation of axial joints:

- 19 with rotation around the axis DE (chair number 1),

- 20 with rotation around the axis FG (chair number 2),

- 19 or 20 with rotations respectively around the axes DE or FG (chair number 3) can be realized through the use of rotary joints, for example, in the form of a shaft-hole between the base plate 101 and the frame of the chair. Alternatively, the shaft is attached by brackets to the base plate 101, and the shaft entry holes are implemented as non-through grooves in non-interchangeable sidewalls or through-through for solid sidewalls.

Armchairs are designed for people from 1.57 m to 1.9 m in height, preferably 1.75 m, and in one of the versions have the following overall dimensions:

- length (longitudinal size) is

when the seat 7 is lowered: from 610 to 620 mm, preferably 615 mm,

when the seat of the chair 7 is raised to the folded state: from 210 to 220 mm, preferably 215 mm,

- the width in the transverse direction is from 427 mm to 437 mm, preferably 432 mm;

- the height is from 1365 mm to 1375 mm, preferably 1370 mm.

The proposed chair work as follows.

In accordance with the methodological approach defined by the aviation rules, the operation of the chair is considered in the most critical mode when, in an emergency, floor 16 deforms initially with its angular deviations in pitch (α _t ≤10 °) and / or roll (α _cr ≤10 ° ), and then the damper 2 is activated, absorbing the energy of the longitudinal-side impact F _PBU . In other cases, i.e. before or during floor deformations 16, the actuation of dampers 2 does not raise potential concerns. The activation of the seat dampers 701 occurs from a vertical-side impact F _vbu and does not depend on deformations of the floor 16.

The operation of the chair No. 1, installed in the direction of flight (Fig. 9) is as follows. In an emergency, the floor 16 is subjected to mechanical deformation by pitch and / or roll with a corresponding angular deviation.

When the pitch (Fig. 5), the floor 16 deviates from the horizontal XOZ plane by an angle of α _t ≤10 °, entraining the bolt of the fastening set 109 and the support cone 106, pressed into the fixed tube 105 with their simultaneous rotation around the OZ axis due to rotation and slipping the spherical washer with the inner flange 104 relative to the bottom of the cup of the base plate 101. As a result, the cone of the support 106 is pressed into the tube 105 and, plastic deforming, expands it.

When the cone of the support 106 is immersed in the tube 105 by a value Δl _op ≈20 mm, the groove 107 extends beyond the limits of the tubes 105 and the previously compressed ring 108 partially expands, engages with the lower flat side of the spherical washer with the inner shoulder 104, preventing the cone of the support 106 from moving case backstop. This forms a rigid mechanical connection between the floor 16 and the base plate 101 with the formation of a gap between them.

Further similar deformation of the floor 16 also leads to the subsequent immersion of the cone of the support 106 into the tube 105, reaching the limit at Δl _op ≈35 mm (and the release of the other rings 108 from the grooves 107, if any), when the movement of the cone of the support 106 introduced into the tube 105, is jammed with a through hole of a spherical washer with an inner shoulder 104. As a result, the maximum value of floor deformation 16 is limited by Δl _op ≈35 mm. Thus, the effect of deformation of the floor 16 during pitch on the base plate 101 is eliminated (or minimized).

In addition, when pitching, deformation of the floor 16 also leads to small angular deviations at the attachment points of the fastening joints 103 at the rear of the base plate 101. This forces the fastening connection 103 to rotate there accordingly by rotating the spherical washer 100 in the base plate cup 101, eliminating (or minimizing ) the effect of deformation of the floor 16 on the back of the base plate 101.

As can be seen, possible deformations of the floor 16 during pitch for the base plate 101 are eliminated (or minimized) by using rotatable and extendable supports 102 and rotatable fasteners 103. In an emergency, this stabilizes the position of the base plate 101, eliminating (or minimizing) the impact on the design of the chair and, accordingly, the performance of the dampers 2.

The longitudinal-side impact F _PBU , which occurred in an emergency, deflects the chair frame from the plate of the chair 1 around the axis DE (front side forward, i.e. along the axis OX) by angle β and leads to the activation of dampers 2, which due to their elongation absorb most of this shock.

Deformations of the floor 16 in an emergency with a roll (Fig. 7) are associated with its angular deviations α _cr in the range up to 10 ° around the axes ОХ and OZ in the directions from the chair (from the area occupied by it on the floor) and force the supports 102 and / to rotate or fasteners 103 in the desired direction by rotating spherical washers with a collar 104 and spherical washers 110 in the cups of the base plate 101, respectively. These rotations of the supports 102 and / or fasteners 103, as in the case of the pitch described above, are excluded (or minimize) the impact of deformation of the floor and 16 on the base plate 101.

When the floor 16 is deformed in an emergency situation with simultaneous pitch and roll, the possibility of elongations and rotations of the supports 102 (as shown in Fig. 8) and rotations of the fastening joints 103 make it possible to compensate for these effects independently of each other.

Thus, in emergency situations, the effect of deformations of the floor 16 with different combinations of pitch and roll on the base plate 101 is compensated, ensuring the full performance of the dampers 2 during energy absorption of the longitudinal-side impact F _PB and high reliability of the designed chair.

The operation of the chair No. 2, installed against the direction of flight (Fig. 10) with the position of the base plate 101 unchanged and the supports 102 and the fastening joints 103 with compensation for pitch and / or roll, basically similar to that described above. The difference lies in the fact that in the case of a longitudinal-lateral impact F of a _PBU that _occurs in an emergency, the chair frame deviates backwards (along the OX axis) from the chair plate 1 around the FG axis by an angle β, which causes the damper 2 to due to their elongation, they absorb most of this shock.

Due to the fact that seat No. 3 is universal, the peculiarity of its operation is that when installed in the direction of flight, it works as seat No. 1, and when installed against the direction of flight, as seat No. 2.

In the developed versions of the seats, the following is proposed:

to simplify the design and reduce weight and size parameters:

- to secure the frame of the chairs directly to the floor 16 using the inserted intermediate link of the chair in the form of a plate of the chair 1 with the possibility of rotation of the chairs in the direction of longitudinal-side impact F _PBU with energy absorption of the latter. The use of rails and armrests is excluded, and the weight of the chair is reduced to ≈22 kg, in contrast to the prototype with a mass of ≈33-35 kg.

to increase reliability in emergency situations:

- to ensure the mobility of the introduced plate of the chair 1 when attaching it to the floor 16 with compensation for pitch and / or roll from the deformations of the latter in emergency situations due to four rotatable joints: two extendable supports 102 and two fasteners 103,

to expand functionality:

- after the flight attendant gets up, realize the possibility of synchronized self-folding of the seat 7 of the seat and turning the backrest 6 to the folded state with minimal overall dimensions.

- the use of seats with energy absorption when installed against the direction of flight or in the universal version for two directions: in the direction of flight and against it.

The proposed chair is implemented collapsible, is reusable with the ability to replace after an emergency, the used dampers 2, supports 102 and damaged nodes in a period of not more than 5-7 hours.

In 2015, the proposed chair was tested for the impact of longitudinal-side impact F _{FBU with a} value of 16g and vertical-side impact F _{FBU with a} value of 14g with floor deformations along the roll and / or pitch, confirming high reliability and compliance with modern international safety requirements. It is also already certified in accordance with aviation rules AP-25, corresponding to international requirements, and, in addition, their first pilot batch was delivered, which confirms the practical feasibility of the proposed one.

Thus, the proposed chair has a higher reliability in emergency situations, a simpler design with smaller weight and size parameters and wider functionality and therefore successfully solves the technical problems.

Claims (6)

1. A flight attendant seat with attachment to the floor of the aircraft, comprising a swivel backrest and headrest, each of which contains fillers covered with covers, a seat seat containing a removable filler and a damper seat with the possibility of energy absorption of vertical side impact, a tie system, two dampers with the possibility of energy absorption of the longitudinal-side impact, characterized in that two sidewalls, a rear panel and a door, are introduced, while the sidewalls are connected to each other, with the back and seat of the chair, forming a car A flight attendant chair, the front side of which is formed by the back and seat of the chair, and the seat of the chair is inserted between the sidewalls with the formation of an elastic connection with them, and between the sidewalls a backrest is also introduced with the formation of a mechanical connection with the seat of the chair and the possibilities of synchronous turns of the back and seat of the chair to their two extreme positions: the first - for sitting when lowering to a horizontal position of the seat of the chair with a synchronous rotation of the back and the second due to the aforementioned elastic connection when self-raising the seat to vertical position with synchronous reverse rotation of the back, while between the floor of the aircraft and the seat frame introduced a plate of the seat with the ability to compensate for deformations of the floor during its pitch and / or roll, and the rear panel and head restraint are installed at the back and top of the seat frame, forming the rear and upper sides and the flight attendant seat frame is mounted on top of the seat plate with the front side in the direction of flight of the aircraft, with the possibility of turning the front side in the same direction, attaching to the plate of the chair in front with the formation of an axial connection, and behind with the help of dampers, the door is installed under the seat of the flight attendant chair and attached to two sidewalls with the possibility of its rotation, forming a closed cavity with the possibilities of opening or closing, and a molding is introduced along the outer contour of the chair with the ability to protect the chair from external mechanical influences. 2. The chair according to claim 1, characterized in that the plate of the chair contains a base plate with two or more pivotable supports and fasteners, the first of which can be extended with fixation, without backward movement, while the front and rear base plates are attached to the floor in the direction of flight of the aircraft, respectively, using supports and fixing connections with the possibility of forming a gap between the floor and the slab due to the elongation and rotation of the supports when the floor is deflected, as well as the rotation of the mounting soy pressure, moreover, in the base plate there are nests for attachment to the floor of the aircraft, each of which represents a non-through vertical selection with the removal of material in the base plate with the formation of a cup-shaped end with an internal hemispherical surface with an axial through hole in the bottom of the cup with a diameter smaller than the diameter hemispherical surface, and in the front and rear nests the above-mentioned nest cups created are directed upward and downward, respectively, with each support consisting of a support cone in the idea of a truncated cone or part, similar in shape to it, with a through axial hole, a tube and a spherical washer with an inner collar, a gear mechanism and a fastening set of a bolt, washer and nut, each of the fastening joints using a spherical washer and the aforementioned fastening set , the bolt of the mounting kit penetrates the cone of the support, which is inserted with a small diameter end into the tube passing through the through hole of the front socket of the base plate and partially inserted into the spherical washer at the shoulder, abutting against its shoulder, while the spherical washer with the shoulder with its spherical surface is conjugated in the base plate with the spherical surface of the cup of the front socket, and the cone of the support sequentially penetrates the spherical washer with the inner shoulder resting against the floor of the aircraft and the floor of the aircraft , tightening them with the washer and nut of the fastening set, and the bolt of the fastening set of the fastening connection penetrates the spherical washer, abutting the spherical surface against the inner spherical the surface of the cup of the rear nest of the base plate passes through its through hole in the bottom of the cup and the floor of the aircraft, tightening them with the washer and nut of the fastening set of the fastening connection, while the gear mechanism is created by one or more grooves formed on the surface of the bearing cone introduced into a tube with an annularly compressed tube placed in each of them, with the possibility of expansion of each ring and incomplete exit of each of the grooves as the cone of support is further inserted into the tube and spherical a washer with an inner flange when lengthening the support. 3. A flight attendant seat with an attachment to the floor of the aircraft, comprising a rotatable backrest and a head restraint, each of which contains fillers covered with covers, a seat seat containing a removable filler and a seat damper with the possibility of energy absorption of vertical-side impact, a tethered system, two dampers with the possibility of energy absorption of the longitudinal-side impact, characterized in that two sidewalls, a rear panel and a door, are introduced, while the sidewalls are connected to each other, with the back and seat of the chair, forming a car A flight attendant chair, the front side of which is formed by the back and seat of the chair, and the seat of the chair is inserted between the sidewalls with the formation of an elastic connection with them, and between the sidewalls a backrest is also introduced with the formation of a mechanical connection with the seat of the chair and the possibilities of synchronous turns of the backrest and seat of the chair to their two extreme positions: the first - for sitting when lowering to a horizontal position of the seat of the chair with a synchronous rotation of the back and the second due to the aforementioned elastic connection with self-raising the seat d about a vertical position with a synchronous reverse rotation of the back, while between the floor of the aircraft and the seat frame introduced a plate of the seat with the ability to compensate for floor deformations during its pitch and / or roll, and the back panel and head restraint are installed at the back and top of the seat frame, forming the back and top side, and the flight attendant seat frame is mounted on top of the seat plate with the front side against the direction of flight of the aircraft with the possibility of turning the front side in the same direction, attach approaching the plate of the chair at the rear with the formation of an axial connection, and at the front with the help of dampers, the door being installed under the seat of the flight attendant chair and attached to two sidewalls with the possibility of its rotation, forming a closed cavity with the possibilities of opening or closing, while the outer contour of the chair introduced molding with the ability to protect the chair from external mechanical influences. 4. The chair according to claim 3, characterized in that the chair plate comprises a base plate with two or more pivotable supports and fixing connections, the first of which can be extended with fixation, without backward movement, while the front and rear base plates are attached to the floor in the direction of flight of the aircraft, respectively, using supports and fixing connections with the possibility of forming a gap between the floor and the slab due to the elongation and rotation of the supports when the floor is deflected, as well as the rotation of the mounting soy pressure, and in the base plate there are nests for fastening to the floor of the aircraft, each of which represents a non-through vertical selection with the removal of material in the base plate with the formation of a cup-shaped end with an internal hemispherical surface with an axial through hole in the bottom of the cup with a diameter smaller than the diameter hemispherical surface, and in the front and rear nests the above-mentioned nest cups created are directed upward and downward, respectively, with each support consisting of a support cone in the idea of a truncated cone or part, similar in shape to it, with a through axial hole, a tube and a spherical washer with an inner flange, a gear mechanism and a fastening set of a bolt, washer and nut, and each of the fasteners uses a spherical washer and the aforementioned fastening set , the bolt of the mounting kit penetrates the cone of the support, which is inserted with a small diameter end into the tube passing through the through hole of the front socket of the base plate and partially inserted into the spherical washer with against the shoulder, while the spherical washer with the shoulder with its spherical surface is mated in the base plate with the spherical surface of the cup of the front socket, and the cone of the support sequentially penetrates the spherical washer with the inner shoulder resting against the floor of the aircraft, and the floor of the aircraft, tightening their washer and nut of the fastener kit, and the bolt of the fastener kit of the fastener connection penetrates the spherical washer abutting the spherical surface against the inner spherical surface the cup of the rear nest of the base plate, passes through its through hole in the bottom of the cup and the floor of the aircraft, tightening them with the washer and nut of the fastening set of the fastening connection, while the gear mechanism is created by one or more grooves formed on the surface of the bearing cone introduced into a tube with an annularly compressed tube placed in each of them, with the possibility of expansion of each ring and incomplete exit of each of the grooves as the cone of the support is further inserted into the tube and the spherical washer with an internal shoulder at an elongation of the support. 5. A flight attendant seat with an attachment to the floor of the aircraft, comprising a swivel back and head restraint, each of which contains fillers covered with covers, a seat seat containing a removable filler and a seat damper with the possibility of energy absorption of vertical-side impact, a tethered system, two dampers with the possibility of energy absorption of the longitudinal-side impact, characterized in that two sidewalls, a rear panel and a door, are introduced, while the sidewalls are connected to each other, with the back and seat of the chair, forming a car A flight attendant chair, the front side of which is formed by the back and seat of the chair, and the seat of the chair is inserted between the sidewalls with the formation of an elastic connection with them, and between the sidewalls a backrest is also introduced with the formation of a mechanical connection with the seat of the chair and the possibilities of synchronous turns of the backrest and seat of the chair to their two extreme positions: the first - for sitting when lowering to a horizontal position of the seat of the chair with a synchronous rotation of the back and the second due to the aforementioned elastic connection with self-raising the seat d about a vertical position with a synchronous reverse rotation of the back, while between the floor of the aircraft and the seat frame introduced a plate of the seat with the ability to compensate for floor deformations during its pitch and / or roll, and the back panel and head restraint are installed at the back and top of the seat frame, forming the back and top side, and the flight attendant chair frame is mounted on top of the chair plate with the front side in the direction or against the direction of flight of the aircraft with the possibility of its rotation with the front side in the same directions, attaching to the chair plate, respectively, front or rear with the formation of axial joints and rear or front using dampers, the door mounted under the seat of the flight attendant seat and attached to two sidewalls with the possibility of its rotation, forming a closed cavity with the possibilities of opening or closing, and a molding was introduced along the outer contour of the chair with the ability to protect the chair from external mechanical influences. 6. The chair according to claim 5, characterized in that the plate of the chair contains a base plate with two or more pivotable supports and fasteners, the first of which can be extended with fixation, without backward movement, while the front and rear base plates are attached to the floor in the direction of flight of the aircraft, respectively, using supports and fixing connections with the possibility of forming a gap between the floor and the slab due to elongation and rotation of the supports when the floor is deflected, as well as the rotation of the mounting pressure, and in the base plate there are nests for fastening to the floor of the aircraft, each of which represents a non-through vertical selection with the removal of material in the base plate with the formation of a cup-shaped end with an internal hemispherical surface with an axial through hole in the bottom of the cup with a diameter smaller than the diameter hemispherical surface, and in the front and rear nests the above-mentioned nest cups created are directed upward and downward, respectively, with each support consisting of a support cone in the idea of a truncated cone or part, similar in shape to it, with a through axial hole, a tube and a spherical washer with an inner flange, a gear mechanism and a fastening set of a bolt, washer and nut, and each of the fasteners uses a spherical washer and the aforementioned fastening set , the bolt of the mounting kit penetrates the cone of the support, which is inserted with a small diameter end into the tube passing through the through hole of the front socket of the base plate and partially inserted into the spherical washer with against the shoulder, while the spherical washer with the shoulder with its spherical surface is conjugated in the base plate with the spherical surface of the cup of the front socket, the cone of the support sequentially penetrating the spherical washer with the inner shoulder resting against the floor of the aircraft, and the floor of the aircraft, tightening their washer and nut of the fastener kit, and the bolt of the fastener kit of the fastener connection penetrates the spherical washer abutting the spherical surface against the inner spherical surface the cup of the rear nest of the base plate, passes through its through hole in the bottom of the cup and the floor of the aircraft, tightening them with the washer and nut of the fastening set of the fastening connection, while the gear mechanism is created by one or more grooves formed on the surface of the bearing cone introduced into a tube with an annularly compressed tube placed in each of them, with the possibility of expansion of each ring and incomplete exit of each of the grooves as the cone of the support is further inserted into the tube and the spherical washer with an internal shoulder at an elongation of the support.

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