RU2083401C1 - Vehicle - Google Patents

Abstract

FIELD: transport engineering; amphibian vehicles. SUBSTANCE: vehicle has body with fans, air intake and drive. Drive includes elbow-shaped hydraulic presses, pumps, compressors coupled through levers with hydraulic presses, reservoir with working medium communicating through pipes with pump outlets, and turbines enclosed in housing and communicating with pump outlets and with working medium reservoir. The latter is connected through pipes with outboard space. Hydraulic presses can be operated by man power or by engines. EFFECT: enlarged operating capabilities. 6 cl, 2 dwg

Description

 The invention relates to transport and for the construction of amphibious vehicles.

Known vehicles containing a housing with fans with an air intake device and a drive (a.c.SSSR N 389974, CL. B 60 Y 1/60, 1973). However, it has a narrow operating range.
The technical result from the implementation of the invention is to expand the range of its operation.

 The technical result is achieved by the fact that the transport contains a housing with fans with an air intake device and a drive, the drive includes knee-shaped hydraulic presses, pumps, compressors connected by levers with hydraulic presses, a container with a working substance, connected by pipes with the outlets of the pumps and turbines, closed by casings, communicated with pump outlets and a container with a working substance, and the tank is connected with pipes with an outboard space, while the hydraulic presses are made muscular and can be operated by engines.

 In addition, wheels for land travel are fixed to the shaft of each turbine. Fans are made in the form of blowers on a shaft with a turbine, which are equipped with rotary nozzles for movement and turns on land, water and in the air. The transport is made with a turbine with a casing and a propeller on its shaft to ensure flight, while the turbine is connected with a container with a working substance, which is connected with pumps and knee-shaped hydraulic presses, and the casing of this turbine is connected with a pipe to return the working substance to this tank.

 In addition, the pump inlets are configured to communicate with a reservoir for supplying a working substance to the hollow shaft and a propeller, which the vehicle is equipped with for moving on water.

 In addition, one pipe connecting the capacity of the working substance with the outboard space is connected with another pipe of a larger diameter, which is connected to the pump inlets with the possibility of supplying the working substance from the tank to one pipe and the intake space with the working substance entering another pipe of a larger diameter and with returning the working substance to the pump inlets to create reactive forces when moving on land, in liquid, and also in airless space.

 Figure 1 schematically shows a side view of the transport; figure 2 is a view along arrow A of figure 1.

 The transport includes a housing 1, on which fans 2 with an air intake device 3 are installed. The drive of the transport includes knee-shaped hydraulic presses 4, pumps 5, compressors 6, connected with hydraulic presses 4 by levers 7, a container 8 with a working substance, connected by pipes 9 with the outputs of the pumps 5 and pipes 10 with a turbine 11. The casing 12 of the turbine is in communication with the inputs of the pumps 5, which together with the casing 12 are connected with a capacity of 8 for the working substance. Capacity 8 is connected by pipes 13 to the outboard space. Hydraulic presses 4 are made muscular and with the ability to work from engines (not shown).

 On the shaft 14 of the turbine 11 fixed wheels for movement on land.

 Fans 2 are made in the form of an air duct on a shaft 14 with a turbine 11, which are equipped with rotary nozzles 15 for movement and turns on land, water and in the air.

 The transport is made for flight with a turbine 16 with a casing 17 and a propeller 18 to ensure flight. The turbine 16 is connected with the container 8 with the working substance, and the casing 17 of this turbine is connected with a pipe (not shown) for returning the working substance to the tank 8, from which the turbine 17 receives the working substance through the pipe 19.

 Transport is operated as follows. Thermal, electric, bicycle engines with crankshafts in a known manner alternately press on the levers 21. With the alternative, a person alternately with his left and right legs presses his mass on the levers 21, those on the rods 24 and the pistons 22. The latter squeeze the liquid into the vertical cylinders of the hydraulic presses, raise the pistons 23, which with their rods raise the long end of levers 7, and with other short ends, these levers exert forces on the rods of pumps 5 and compressors 6, pumps 5 and compressors 6 send liquid and air to tank 8 through pipes 9. From e bone 8 through the pipes 9 the mixture, the liquid or gas supplied to the turbine blades 11, and it rotates. Rotating, the shaft 14 rotates the blowers of the fans 2, which take air from the devices 3. Transport progressively rushes towards the intake of air. Air enters the nozzles 15 and pushes the vehicle with reactive force, which is pushed away from the solid, liquid, viscous and gas medium by air flow and moves. The liquid is collected in the casing 17, through the pipe goes back to the inlet of the pumps 5 under the pistons and to the outlet back to the tank 8, etc.

 In the presence of soft or iron wheels on the shaft 14, the vehicle rolled along the hard surface. Fan blowers 2 can be left or removed. Moving on water, firstly, it is possible to connect the pump inlets with 5 pipes to a reservoir. Pipes 13 with nozzles can be lowered into the pond. As described above, the hydraulic presses 4 are put into operation, the pumps 5 send the liquid or mixture to the tank 8. From the tank through the pipes 13, the working substance flies out into the nozzles and reactively pushes the transport. Secondly, on the nozzles of the pipes 13, the end of the pipe 20 of a larger diameter can be fixed, and its other end is connected to the inlets of the pump 5. The pump 7 can squeeze out the liquid from the tank 8, it will pass to the nozzles of the pipes 13. When flying out of the nozzles, it is reactive pushes the transport, and the pipe 20 itself passes into the inlets of the pumps 5 under their pistons. Re-compression in the pumps 5 re-passes the liquid into the tank 8 through the pipes 9 and pushes it into the nozzles of the pipes 13, etc. This force will move vehicles over land, water and air. The propeller 18 may be replaced at the appropriate time by a propeller (not shown) with hollow blades and nozzles at the ends of the blades that communicate with the hollow shaft. The flow of fluid into the hollow shaft leads to the release of water into the nozzles of the screws, the screw will tighten, and the transport will move through the water.

 From the container 8 through the pipe 19, the working substance is supplied to the turbine 16, and it will twist with a screw 18, which can push or pull the transport through air, water, land. The liquid itself is collected in the casing 12 and goes into the inlets of the pumps 5. Turns on water, on land, in the air are carried out in a known manner or by the nozzles of the air intake device 3. The nozzles are rotated at the same time when the forward gear is reversed, and turning into a fork turns the vehicle into one or another side. Transport can be transformed for movement in any one environment or simultaneously in three environments: in water, in air and on land.

Claims (6)

 1. Transport, comprising a housing with fans, with an air intake device and a drive, characterized in that the drive includes knee-shaped hydraulic presses, pumps, compressors connected by levers with hydraulic presses, a container with a working substance communicated by pipes with pump outlets, and turbines closed casings communicated with the pump inlets and with the container with the working substance, and the tank is connected by pipes to the outboard space, while the hydraulic presses are made muscular and can be operated by engines.  2. Transport under item 1, characterized in that the wheels of each turbine are fixed wheels for movement on land.  3. Transport under item 1, characterized in that the fans are made in the form of blowers on a shaft with a turbine, which are equipped with rotary nozzles for movement and turns on land, water and air.  4. Transport under item 1, characterized in that it is made with a turbine with a casing and a propeller on its shaft to ensure flight, while the turbine is connected with a container with a working substance, which is connected with pumps and knee-shaped hydraulic presses, and the casing of this turbine connected to the pipe returning the working substance to this tank.  5. Transport according to claim 1, characterized in that the pump inlets are arranged to communicate with a reservoir for supplying a working substance to the hollow shaft and a propeller with which the transport is equipped for movement on water.  6. Transport according to claim 1, characterized in that one pipe connecting the capacity of the working substance with the outboard space is in communication with another pipe of a larger diameter, which is connected to the inlets of the pumps with the possibility of supplying the working substance from the tank to one pipe and the outboard space with approach working substance into another pipe of larger diameter and with the return of the working substance to the pump inlets to create reactive forces when moving on land, in liquid and in air, as well as in airless space.

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