RU87128U1 - AMPHIBIAN AIRCRAFT - Google Patents

Abstract

1. Amphibious hovercraft containing an inflatable cushion of an air cushion, a hull, a blower unit with a steering device, a fencing area of the air cushion with bow and stern elements, characterized in that the ship is equipped with a retractable guide device consisting of a power frame pivotally mounted on the power frame of the bottom of the vessel, the hydraulic actuator and the disk wheel, movably mounted on the power frame along the longitudinal axis of the vessel, and in the extremely extended position the axis of the disk wheel is located ene in the lateral center plane of the pressure vessel. ! 2. Amphibious vessel according to claim 1, characterized in that the disk-wheel is made with pointed edges.

Description

The invention relates to the production of aircraft, in particular to amphibious hovercraft (SVP) and can be used for SVP for any purpose: military SVP, transport SVP, sports vessels, etc.

The “Hovercraft” is known (Russian patent No. 2182089 M. class. B60V 3/06) containing a blower with a steering device, fencing of the air cushion area with bow and stern elements and side skegs equipped with flexible guards attached to their lower part . On the outer surfaces of flexible fences at an angle of 30-60 ° to the vertical plane, strips of elastic material having a wedge-shaped shape are placed.

The disadvantage of the design is the high energy costs to overcome the resistance of the bearing surface.

Also known is the “Hovercraft” (Russian patent 2167775 M. class B60V 1/16) containing an inflatable air cushion enclosure, a hull, a blower unit with a steering device, an air cushion area enclosure with bow and stern elements and side skegs. The vessel also contains an element dividing the area of the air bag into the left and right chambers. This element is made in the form of a flexible duct with a longitudinal ridge in the lower part. The flexible duct is divided inside the longitudinal diaphragm into the left and right sections. The left and right sections are connected to the discharge unit. Holes are made in the walls of the flexible duct adjacent to the airbag chambers. These openings communicate with each section of the flexible duct with a corresponding air bag chamber.

It is known that at high speed and intensity of the side wind, the SVP trajectory can deviate greatly from a given route. Not without this drawback and marked design. This entails an increase in the distance of the path and an excessive consumption of fuel.

The task of the invention is to increase the stability and controllability of the SVP at high speeds of crosswind, increasing the efficiency of the vessel.

The task is achieved in that the amphibious hovercraft containing an inflatable cushion of an air cushion, a hull, a blower with a steering device, a fencing area of the air cushion with bow and stern elements, according to the claimed technical solution, is equipped with a retractable guide device consisting of a power frame pivotally mounted on the power frame of the bottom of the vessel, hydraulic drive and disk wheel, movably mounted on the power frame along the longitudinal axis of the vessel, and in cr In the extended position, the axis of the disk wheel is located in the lateral plane of the center of pressure of the vessel.

The disk wheel can be made with pointed edges.

The invention is illustrated graphically. Figure 1 presents a diagram of a hovercraft, side view; figure 2. front view; figure 3. shows the arrangement of the guide device with respect to the lateral plane of the center of pressure of the vessel. In figure 4. shows the frame of the guide device and the disk wheel in the working position and in the parking lot (shown by a dotted line), side view; figure 5. same frame, but bottom view.

The wheel disk 1 is mounted on a power movable frame 2. The hull of the vessel 3 has a flexible fence 4, on which the vessel rests in the parking lot. The frame 5 of the guide device is connected to the hydraulic actuator 6. By means of hinges 7, the frame is mounted on the bottom 8 of the SVP on the power frame 9.

Wheel-disk 1 when it is performed with pointed edges provides less resistance of the bearing surface to the movement of the SVP.

Operated by SVP as follows (Fig. 4. And 5.).

During the movement of the SVP in the case of strong crosswind, the frame 5 is moved out from under the bottom of the vessel 8 by means of a hydraulic actuator 6 until the disk wheel 1 comes into contact with the bearing surface, increasing the course stability of the vessel. When moving, the guiding device dampens on the irregularities of the soil with the help of hydraulic actuator 6. To reduce the resistance of the vessel when moving above the earth or water surface, the edges of the disk-wheel 1 are made pointed.

In the case of movement above the water surface, the guiding device maximally leaves the flexible fence 4 and the disk wheel 1 acts as a keel. In this case, the axis of the disk-wheel 1 is located in the lateral plane of the center of pressure of the vessel. The lateral plane of the pressure center of the SVP passes through the center of pressure perpendicular to the longitudinal axis of the vessel. The center of pressure is the point of application of the resultant of all aerodynamic forces acting on the aircraft.

The technical result achieved by solving the problem is to increase the stability of the movement of the SVP under certain natural working conditions, and more precisely, under conditions of strong crosswind.

The technical and economic effect of the implementation of this invention is to reduce the cost of cargo transportation, increase the profitability of SVP as a vehicle, reduce the distance and travel time, the prestige and comfort of passenger amphibious hovercraft.

Claims (2)

1. Amphibious hovercraft containing an inflatable cushion of an air cushion, a hull, a blower unit with a steering device, a fencing area of the air cushion with bow and stern elements, characterized in that the ship is equipped with a retractable guide device consisting of a power frame pivotally mounted on the power frame of the bottom of the vessel, the hydraulic actuator and the disk wheel, movably mounted on the power frame along the longitudinal axis of the vessel, and in the extremely extended position the axis of the disk wheel is located ene in the lateral center plane of the pressure vessel. 2. Amphibious vessel according to claim 1, characterized in that the disk-wheel is made with pointed edges.