RU174949U1 - MOBILE HYDRO POWER PLANT - Google Patents

Abstract

The proposed utility model relates to the field of small hydropower and can be used for energy supply of remote objects through the use of energy of watercourses. The task (technical result) solved by the proposed utility model is to increase the efficiency of water flow by simplifying installation and reliable fixation of a mini-hydropower station for a given depth in a position that ensures optimal use of the energy of the water stream. The problem is solved by the fact that the proposed Vision hydroelectric includes a support platform, rotational power transmission mechanism and a generator on a support platform slidably mounted frame, provided with height adjustment means in the watercourse, on a frame mounted shaft with blades. According to the proposed utility model, the frame is equipped with a working chamber mounted in it in the form of a hollow rectangular parallelepiped with two open opposite sides, inside which a shaft with blades is installed so that the working surface of the blades faces the open side of the chamber. The height adjustment means is made in the form of four self-screwing piles mounted on the lower corners of the frame. The supporting platform is equipped with a lifting device. The lifting device allows you to remove from the support platform, to transfer and install a frame with a working chamber mounted in it.

Description

The proposed utility model relates to the field of small hydropower and can be used for energy supply of remote objects through the use of energy of watercourses.

A known hydroelectric power station (RF patent for utility model No. 146468, IPC F03B 17/06, publ. 10/10/2014), including a frame mounted on a frame shaft with blades mounted on it, a rotation energy transmission mechanism mounted on the frame, made in the form of at least at least one timing belt, a generator and at least one pontoon. In addition, it is equipped with a vertical strut and guiding movable leaves mounted on the frame from the flow side, and the generator is made in the form of a motor-wheel and is mounted on the upper end of the vertical strut.

The disadvantage of hydroelectric power according to patent No. 146468 is the insufficiently efficient use of the water flow and the complexity of its installation and operation.

Closest to the proposed one is a hydroelectric power station (RF patent for utility model No. 165263, IPC F03B 17/06, publ. 10/10/2016) including a frame, a shaft with blades mounted on the frame, a rotation energy transmission mechanism and a generator. The hydroelectric power station is equipped with a support platform on which the frame is movably mounted, made in the form of a frame made of at least two longitudinal and at least two transverse elements rigidly connected to the lever frame, on which the height adjustment means, a latch and specified shaft with blades.

The disadvantage of hydroelectric power according to patent No. 165263 is the complexity of its installation at a given depth and the lack of reliability of fixation in a fixed place.

The problem (technical result), solved by the proposed utility model, is to increase the efficiency of the use of the water stream by simplifying the installation and reliable fixation of the mini hydroelectric power station to a predetermined depth in a position that ensures optimal use of the energy of the water stream.

The problem is solved in that the proposed mobile hydroelectric power station includes a support platform, a rotational energy transmission mechanism and a generator, a frame equipped with height adjustment means in a watercourse is movably mounted on the support platform, a shaft with blades is mounted on the frame. According to the proposed utility model, the frame is equipped with a working chamber mounted in it in the form of a hollow rectangular parallelepiped with two open opposite sides, inside which a shaft with blades is mounted so that the working surface of the blades faces the open side of the chamber. The height adjustment means is made in the form of four self-screwing piles installed on the lower corners of the frame, which also provide for fixing the frame to the ground. The supporting platform is equipped with a lifting device. The lifting device allows you to remove from the support platform, to transfer and install a frame with a working chamber mounted in it.

To reduce the likelihood of the frame with the camera overturning under the action of the water flow and fixing the frame at an angle that ensures the optimal use of the water flow, it is advisable to additionally equip the mobile hydroelectric power station with six anti-tippers made in the form of rods pivotally mounted on the upper corners of the frame, with self-screwing piles mounted on their free ends.

To further increase the efficiency of using the water flow, it is advisable to additionally provide the mobile hydroelectric power station with a shutter pivotally mounted on the upper edge of the chamber from the open side of the chamber facing the working surface of the blades. Moreover, the height of the damper is equal to the distance from the top of the camera to the center of the shaft.

The proposed utility model is illustrated by drawings, where in FIG. 1 presents the inventive mobile hydroelectric power in the water stream; in FIG. 2 - a working chamber mounted in the frame, with a shutter, a means of regulating the height and anti-tippers.

The proposed mobile hydroelectric power station (Fig. 1, 2) includes a support platform 1, a rotational energy transmission mechanism 2, and a generator 3. A frame 4 is movably mounted on the support platform 1, with a working chamber 5 mounted in it in the form of a hollow rectangular parallelepiped with two open opposite sides . Inside the working chamber 5, a shaft 6 with blades 7 is installed so that the working surface of the blades 7 is facing the open side of the working chamber 5. At the lower corners of the frame 4 there is a means for adjusting the height and fixing the frame to the ground, made in the form of four self-screwing piles 8 . The supporting platform 1 is equipped with a lifting device 9.

At the upper corners of the frame 4, six anti-tippers can be installed, made in the form of pivotally fixed rods 10, at the free ends of which self-screwing piles 11 are installed.

On the upper edge of the working chamber 5, from the open side of the chamber facing the working surface of the blades 7, a shutter 12 can be pivotally mounted. Moreover, the height of the shutter 12 is equal to the distance from the upper face of the working chamber 5 to the center of the shaft 6.

The proposed mobile hydroelectric power station operates as follows.

The possible selection of the power of the watercourse and the location of the mobile hydroelectric power station in the water and on the shore are determined. After that, the hydroelectric power station is delivered to the place of use. Using a lifting device 9, the frame 4 is moved with the working chamber 5 mounted in it to a predetermined place of work in the watercourse. By means of self-screwing piles 8, a frame 4 is installed at the planned height of the water flow. The screwed piles of 11 anti-tippers are fixed at the bottom of the watercourse. By means of the energy transfer mechanism 2, the shaft 6 is connected to the generator 3. The valve 12 is adjusted so that the water flow falls on the blades 7 located below the axis of the shaft 6. Under the action of the water flow, the blades 7 begin to rotate and rotate the shaft 6 on which they are mounted . Moreover, since the shutter 12 closes the blades 7 located above the shaft 6, the water flow does not affect the direction opposite to the rotation of the shaft. When this rotation of the shaft 6 occurs at high speed. Through the mechanism of energy transfer 2, made, for example, in the form of a gear belt or cardan transmission, the rotational energy from the shaft 6 is transmitted to the generator 3 installed on the platform 1. The generator 3 converts the rotational energy into electrical energy, which is supplied to the user. The user can use the generated electricity for the operation of devices or store it in batteries for later use.

If it is necessary to transfer the hydroelectric power station, self-screwing piles 8 and 11 are unscrewed, by means of a lifting device 9, the frame 4 with the working chamber 5, anti-tippers 11 and height adjustment means 8 are moved to the platform 1 and the hydroelectric power station is moved to a new place of work.

The use of the proposed mobile hydroelectric power station is very simple, does not require operating costs and maintenance costs. The proposed hydroelectric power station allows preserving the natural landscape and the environment. There is no negative impact on the quality of water: it fully retains its original natural properties.

Claims (3)

1. A mobile hydroelectric power station, including a mobile support platform, a rotational energy transmission mechanism and a generator, a frame equipped with height control is movably mounted on the support platform, a shaft with blades is installed on the frame, characterized in that the frame is equipped with a hollow working chamber mounted therein in the form of a hollow a rectangular parallelepiped with two open opposite sides, inside of which a shaft with blades is installed so that the working surface of the blades is facing the open side In addition to the camera, the height adjustment means is made in the form of four self-screwing piles mounted on the lower corners of the frame, and the supporting platform is equipped with a lifting device. 2. The mobile hydroelectric power station according to claim 1, characterized in that it is additionally equipped with six anti-tippers, made in the form of rods pivotally mounted on the upper corners of the frame, on the free ends of which are self-screwing piles. 3. The mobile hydroelectric power station according to claim 2, characterized in that it is additionally equipped with a shutter pivotally mounted on the upper edge of the chamber from the open side of the chamber facing the working surface of the blades, the height of the shutter being equal to the distance from the upper face of the chamber to the center of the shaft.

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