RU203051U1 - DEVICE FOR CREATING TRACTION FROM COUNTER FLOW OF FLUID MEDIUM - Google Patents

Abstract

The utility model relates to the means of creating additional thrust from the oncoming fluid flow and can be used, inter alia, in air flow control systems, mechanical engineering, aviation and rocket and space industries, transport, agriculture, etc. converting the energy of the fluid medium of the countercurrent flows into mechanical or potential energy. The technical result of the utility model is to increase the efficiency of using the energy of the fluid and its transformation into other types of energy, which is achieved due to the fact that the inner surface of the body is made with a constantly changing section of the trapezoidal profile in the longitudinal relation, to the narrow part of which the outlet is mounted, inside of the case, from its wide part to the narrow one in the center, an air duct with a constant cross-section is mounted, which coincides coaxially and in diameter with the outlet pipe. 1 wp f-ly, 2 dwg.

Description

The utility model relates to the means of creating additional thrust from the counter flow of a fluid and can be used, among other things, in air flow control systems, mechanical engineering, aviation and rocket and space industries, transport, agriculture, etc., where transformation takes place. energy of the fluid medium of counter flows into mechanical or potential energy [B63H1 / 36, 11/08, F42B10 / 34, B64C39 / 06].

From the prior art, a METHOD FOR CREATING A TRACTION AND A DEVICE FOR ITS IMPLEMENTATION [WO 2012 / 078122A1, publ .: 06/14/2012] containing a dome-shaped body and a device for suction of the surrounding fluid medium (air, water) under the dome-shaped body is known.

The disadvantage of this device is the need to use mechanical energy for the suction of the fluid with the subsequent transformation of its movement into the force of jet thrust.

Also known from the prior art is a TWO-MODE WATER INTAKE FOR HIGH-SPEED VESSEL [RU2219099C1, publ .: 20.12.2003] containing a flow pipeline and cylinders installed inside it with the possibility of rotation, the axes of which are perpendicular to the diametrical plane of the vessel.

The disadvantage of this device is the need to use additional energy to create traction force, as well as the narrowly targeted use of this device.

The closest in technical essence is a METHOD OF MOVEMENT OF THE RESIDUAL BODY AND A DEVICE FOR ITS IMPLEMENTATION [RU2373484C1, publ .: 20.11.2009] containing a head part, a hollow body and a stern, characterized in that a pre-compression chamber and a Laval nozzle are made in the hollow body , in the confuser of which blades are installed at the entrance to the critical section, the head part is made with an inverse cone, the height of which reaches the beginning of the critical section of the Laval nozzle, and is connected to the hollow body by thin bridges in the form of blades located along the radius and resting on the lateral surface of the inverse cone with the formation of an annular hole between the head part and the hollow body, while the blades installed in the confuser are connected to its inner walls and the side surface of the inverse cone at its apex, and the feed is equipped with a pallet and is made ogival with holes along its diameter for ejection of external air into the zone discharge of the diffuser, which together with the outlet of the diffuser is closed by the mentioned tray.

The main technical problem of the prototype is that to obtain the traction force, a powerful initial impulse of a moving body is required, while the thrust tends to zero over time due to the absence of secondary impulses. Also, the implementation of the method is possible in combination with the ogival body, which makes the device for its implementation narrowly focused.

The task of the utility model is to eliminate the shortcomings of the prototype.

The technical result of the utility model is to increase the efficiency of using the energy of the fluid and its conversion into other types of energy.

The technical result is achieved due to the fact that the device for creating thrust from the counter flow of the fluid containing the body and the outlet pipe, characterized in that the inner surface of the body is made with a constantly changing section of the trapezoidal profile in the longitudinal relation, to the narrow part of which the outlet pipe is mounted, inside of the case, from its wide part to the narrow one in the center, an air duct with a constant cross-section is mounted, which coincides coaxially and in diameter with the outlet pipe.

In particular, the outlet is made in the form of a Laval nozzle.

Brief description of the drawings.

FIG. 1 shows a top view of a device for creating a thrust from a counterflow of a fluid medium.

FIG. 2 is a side view of a counter-flow thrust device.

The figures indicate: 1 - housing, 2 - outlet, 3 - air duct.

Implementation of the utility model

The device for creating thrust from the counter flow of the fluid contains a housing 1 made with a constantly changing cross-section of the trapezoidal profile in the longitudinal relation. To the narrowest part of the body 1, an outlet pipe 2 is mounted, made in the form of a straight pipe of constant cross-section. Inside the housing 1, in the center from its wide to the narrow part, coaxially with the outlet nozzle 2, an air duct 3 is mounted, made like the outlet nozzle 2 in the form of a straight pipe of constant cross section, while the section of the air duct 3 is not larger than the cross section of the outlet nozzle 2.

The device for creating thrust from the counter flow of the fluid is used as follows.

The described device can be installed both on moving objects, for example, on a vehicle, and on stationary objects, for example, dryers, compressors, mills, where it is used, or it is possible to use the force of the counter flow of a fluid liquid (gas, water, etc.) ). When the flow of a fluid liquid is directed to the wide part of the body 1, said flow rushes into the body 1 and into the air duct 3. In this case, the speed of the flow flowing in the air duct 3 will be proportional to the speed of the counter flow and is constant at the inlet and outlet of the air duct 3. The speed of the flow passing through along the inner surface of the body 1, according to Bernoulli's law, will change according to the formula S ₁ V ₁ = S ₂ V ₂ , where S ₁ is the section of the inner part of the body at the inlet, S ₂ is the section of the inner part of the body at the outlet, and V ₁ and V ₂ - velocities of fluid medium flows through these sections. Thus, the flow flowing through the body 1 with a variable cross-section, at the entrance to the outlet nozzle 2, will move with acceleration and speed V ₁ , which is many times higher than the speed of the flow V ₂ moving through the air duct 3, due to which additional traction of a viscous medium is formed for the object , on which the proposed device is installed without changing other parameters of the object, which is how the delivered technical result is achieved. That is, leaving the parameters of the fluid at the inlet of the device unchanged, the potential energy of the flow at the outlet of the device increases.

Claims (2)

1. A device for creating thrust from a counter flow of a fluid, containing a body and an outlet pipe, characterized in that the inner surface of the body is made with a constantly changing section of a trapezoidal profile in the longitudinal relation, to the narrow part of which the outlet pipe is mounted, inside the body from its wide part to narrow in the center, an air duct with a constant cross-section is mounted, which coincides coaxially and in diameter with the outlet pipe. 2. The device according to claim 1, characterized in that the outlet is made in the form of a Laval nozzle.

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