UA14558U - Power unit - Google Patents

Abstract

A power unit has inlet unit as narrowed channel, working wheel, outlet unit. The inlet unit is arranged as separated with side elements separate channels connected through one-side valves to turbine chamber where guide apparatus and working wheel are placed, the blades of this one are fixed in radial positions. The outlet unit is arranged as separate channels arranged in radial positions.

Description

Description of the invention

The utility model refers to the field of power engineering and concerns installations for obtaining useful energy from a flowing medium, mainly air, and can be used in wind power installations of various capacities and purposes.

The famous wind engine with a vertical axis of rotation | see Patent OA Mo15247, M. cl. ROZOZ/00, Bul. MoZ dated 30.06.97), which contains a shaft, a wind turbine with horizontal traverses and vertical blades of an aerodynamic profile, connected to the shaft, the starting device is installed above the wind turbine and is made 70 in the form of two blades outlined along an arc, folded in the form of a letter "5" is symmetrical about the axis of rotation of the wind engine and connected from above and below by horizontal plates, and the lower plate is rigidly connected to the traverses.

The high reliability of the wind engine is ensured thanks to the absence of kinematic pairs in the wind turbine design. At the same time, the presence of two blades causes uneven rotation of the wind turbine due to a significant change in torque depending on the angular position of the blades relative to the flowing stream. In addition, with an increased speed of more than 1.5, there are significant loads on the structure caused by the radial component of the force that occurs on the blades as a result of interaction with the resulting flow.

The closest in terms of technical essence and set of features is a windmill with a deflector device | see Wind energy, ed. D. de Renzo.: M. "Znergoatomizdat" 1982, p. 27, fig. 1.3-e),13) which consists of an input device, an impeller fixed on the vertical part of the input device, an output device and a system for orienting the input device to the flow.

The use of the known device is limited due to the complexity of orienting the input device to the flow and the significant overturning moment acting on the structure, the reduction of power when changing the direction of the flow during the time of setting the input device in the optimal position.

The basis of a useful model is the task of creating a power plant in which, due to the implementation of the input device in the form of separate channels, the introduction of one-way valves, a turbine chamber, a guide device and an impeller with a radial arrangement of blades, the output device is made in the form of separate channels located radially, the reduction of the overturning moment transmitted to the structure is ensured, the need to install the input device on the wind flow in the system is eliminated. co

The task is solved by the fact that in a power plant containing an input device in the form of a narrowed channel, an impeller, an output device, according to a useful model, the input device is made in the form of separate channels separated by side elements connected through one-way valves with a turbine chamber in which there are a guide device and a working wheel, the blades of which are fixed radially, the output "And the device is made in the form of separate channels located radially.

З The design of the inlet device in the form of separate channels separated by side elements in which the flow increases the pressure in front of the turbine chamber makes it possible to exclude the system of orientation of the inlet device relative to the flow and makes it possible to reduce the overturning moment acting on the structure.

The introduction of one-way valves at the outlet of the channels of the input device makes it possible to evenly increase the pressure around the perimeter of the impeller regardless of the direction of the wind flow, which increases the efficiency of the conversion of flow energy into mechanical energy. c Execution of the output device in the form of separate channels located radially creates a vortex motion and,

As a result, the pressure drop on the impeller increases and, accordingly, its torque and power.

The use of a guide device allows you to effectively adjust the necessary parameters on the impeller shaft.

Fig. 1 shows the scheme of the power plant in the vertical plane; - in Fig. 2 - a view of the scheme from above. "" The power plant has (Fig. 17, 2) an input device 1 in the form of channels 2 separated by side elements C and a transparent cover 4, one-way valves 5 are installed between channels 2 and the turbine and chamber b, the guide device 7 is installed in front of the impeller 8 connected to the load 9, sl 20 elements 10 regulating the concentration of the wind flow of the input device 1 and the output device 11 is made in the form of separate channels located radially. The power plant works as follows. The wind flow, entering the channels 2 of the input device 1, increases the pressure in front of the corresponding one-way valves 5, which open and increase the pressure in the turbine chamber 6. At the same time, the one-way valves 5 are closed at the exit of those channels 2 where the pressure is lower than in the turbine 29 chamber 6. At the same time, the wind flow creates a vortex motion in the output device 11, which reduces the pressure behind the impeller 8. The pressure difference in front of the impeller 8 and behind it leads to the generation of an aerodynamic force on its blades, the component of which creates a torque on the load shaft 9. At the same time, the guide device 7 is installed in front of the working wheel 8 and elements 10 of the concentration adjustment allow to effectively adjust the power on the loaded 9 when the speed of the wind flow changes in wide ranges. To improve 60 the conditions of vortex formation in the output device 11 in the presence of solar radiation, the air in the channels 2 is heated by the sun's rays through the transparent coating 4 and upon interaction in the output device 11 with the ambient flow forms a vortex motion.

Thus, due to the implementation of the input device in the form of channels separated by side elements, it is possible to exclude the system of orientation of the input device relative to the flow and makes it possible to reduce the overturning moment acting on the structure. The introduction of one-way valves at the outlet of the channels of the input device makes it possible to uniformly increase the pressure around the perimeter of the impeller regardless of the direction of the wind flow, which increases the efficiency of converting flow energy into mechanical energy. The design of the output device in the form of separate channels located radially creates a vortex motion and, as a result, increases the pressure drop on the impeller and, accordingly, its torque and power. The use of a guide device allows you to effectively adjust the necessary parameters on the impeller shaft.

Using the proposed technical solutions, it is possible to manufacture power plants of high reliability and efficiency when operating in zones with different wind potential, which can be installed even on residential buildings, industrial buildings and natural hills.

Claims (1)

The formula of the invention is a power installation containing an input device in the form of a narrowed channel, an impeller, an output device, which is characterized by the fact that the input device is made in the form of separate channels separated by side elements, connected through one-way valves to the turbine chamber, in which the guide the device and the impeller, the blades of which are fixed radially, the output device is made in the form of separate channels located radially. that 2 (ee) iv) iv) « є - and? - sh» 1 1 IR e) 60 b5