RU112748U1 - SOLAR WATER HEATER "RA-ROBOT" - Google Patents

Abstract

The utility model relates to the field of creating solar power plants with solar concentrators and can be used in all industries where thermal energy is required.

The technical result of the proposed utility model is to increase the compactness of the drive, expanding the field of application in areas with intense precipitation, increasing the stability of the structure in a crosswind. The technical result is achieved by the fact that the programmable drive is located under the parabolic reflector.

The heat receiver tube may be horizontal. The axis of rotation of the programmable drive can be horizontally oriented. A solar water heater may contain a heat accumulator. The solar water heater may include a programmable pump connected between the heat sink and the heat accumulator.

The increase in compactness is achieved by the fact that between the surface on which the device is mounted and the parabolic reflector there can be a minimum distance determined only by the necessary minimum of mechanical and electronic devices. The programmable drive is protected from atmospheric precipitation, which allows its use in areas with a high average annual rainfall. The inventive drive is stable in crosswinds, since a horizontally oriented reflector has a relatively small windage.

The utility model can be successfully applied for the production of compact, protected from atmospheric precipitation, stable in lateral winds of solar water heaters, which are applicable up to the northernmost latitudes.

Description

The utility model relates to the field of creating solar power plants with solar concentrators and can be used in all industries where thermal energy is required. The installation can work in parallel with heat sources for domestic and technological purposes, providing a reduction in energy consumption.

The well-known "SOLAR POWER INSTALLATION" RU 2179690 [1], containing a concave concentrator, spherical boilers, drives for rotating the concentrators in the horizontal and vertical plane, supply pipes and a hot water receiver. Executive drive motors can be connected via programmers on ROM.

A disadvantage of the known device is the high complexity of the design and low efficiency due to the incomplete use of solar energy.

Closest to the claimed technical solution is the "Solar Parabolic Collector" US 4,561,423 [2], containing a reflector in the form of a parabolic cylinder, the generatrix of which is parallel to the heat receiver tube located in the focus of the reflector in the form of a parabolic cylinder, a programmable drive.

Known water heater has a higher efficiency compared to [1].

A disadvantage of the known solar water heater is the low compactness of the drive, a narrow field of application associated with the possibility of atmospheric precipitation on the programmable drive, low stability in side wind.

The technical result of the proposed utility model is to increase the compactness of the drive, expanding the field of application in areas with intense precipitation, increasing the stability of the structure in a crosswind.

The technical result is achieved by the fact that the programmable drive is located directly under the reflector in the form of a parabolic cylinder.

The heat receiver tube may be horizontal. The specified location of the tube allows you to place the drive on the most common horizontal platform.

The axis of rotation of the programmable drive can be horizontally oriented. The specified location of the axis allows to achieve the greatest compactness of the drive and the entire structure as a whole.

A solar water heater may contain a heat accumulator. The presence of a heat accumulator allows you to separate the processes of heating the coolant and heat consumption, which will increase the consumer properties of the device.

The solar water heater may include a programmable pump connected between the heat sink and the heat accumulator. The presence of a programmable pump will allow you to arbitrarily place the heat accumulator, regardless of the conditions of circulation of the coolant.

An example of the implementation of a solar water heater using A.1, 3-5 is shown in figure 1, where:

1 - reflector in the form of a parabolic cylinder;

2 - a tube of a heat receiver;

3 - programmable drive;

4 - heat accumulator;

5 - pump.

The device operates as follows: light radiation from the Sun is reflected from the reflector in the form of a parabolic cylinder 1 and focuses on the tube of the heat receiver 2. Programmable drive 3 rotates the reflector and the tube in accordance with the position of the Sun. The heat accumulator 4 allows you to reduce the dependence of heat consumers on variations in the flow of solar energy. The pump 5 forcibly pumps the coolant from the tube of the heat sink 2 into the heat accumulator 4, which allows you to arbitrarily place the heat accumulator, for example, in the basement of the building.

The increase in compactness is achieved by the fact that between the surface on which the device is mounted and the reflector in the form of a parabolic cylinder there can be a minimum distance determined only by the necessary minimum of mechanical and electronic devices. The programmable drive is protected from atmospheric precipitation, which allows its use in areas with a high average annual rainfall. The inventive drive is stable in crosswinds, since a horizontally oriented reflector in the shape of a parabolic cylinder has a relatively small windage.

Industrial application. The utility model can be successfully applied for the production of compact, protected from atmospheric precipitation, stable in lateral winds of solar water heaters, which are applicable up to the northernmost latitudes.

Claims (5)

1. A solar water heater comprising a tube-shaped heat receiver, a parabolic cylinder-shaped reflector forming parallel to the heat sink so that the heat receiver is in the focus of the parabolic cylinder reflector and a programmable drive, characterized in that the programmable drive is located directly below the parabolic reflector cylinder. 2. Solar water heater according to claim 1, characterized in that the tube of the heat sink is located horizontally. 3. The solar water heater according to claim 1, characterized in that the rotation axis of the programmable drive is horizontally oriented. 4. The solar water heater according to claim 1, characterized in that it contains a heat accumulator. 5. Solar water heater according to claim 1, characterized in that it contains a programmable pump connected between the heat sink and the heat accumulator.