LT4827B - A device for heating of liquid - Google Patents

Abstract

Invention belongs to the class of devices intended for heating of the liquid by using the solar energy or other source of heat. The device consists of spiral pipe-shaped liquid reservoir, and the holder. The bottom of the holder is made from the dark, heat-resistant material, the walls of the holder are made from the heat and light reflecting material, and the cover is made from the transparent material. The external surfaces of the sides and the bottom of the holder are covered with material, resistant to the atmospheric influences. The water reservoir is a flexible pipe with the diameter from 40 to 70 mm. The intervals among the strands of this spiral-shaped pipe are from 0 to 5 mm. The holder may be round, triangular, tetragonal or polygon. The device is set up on the stand making the angle with the horizon of 55 degrees, simultaneously assuring the possibility to turn along the vertical axis in order to assure that the solar rays will fall perpendicularly to the cover of the holder.

Description

The present invention is an apparatus for heating liquids and for heating water or other liquids using solar energy or other thermal flux.

There is a known technical solution - solar radiation heated shower (patent EP 655588, priority since 09.09.1993). The main part of this unit is a cylindrical water tank, where the water is heated by sunlight. The vertical unit is placed outdoors and used as an open shower.

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Known solar water heating device (patent JP 6025636, priority dated 30.11.1984) consisting of solar collector, hot water tank, circulation pump. This unit faces the sun at an angle of 35 degrees south-east and 15 degrees south-west.

There is a known technical solution - a helium receiver (patent SU 1627788, priority dated 10.02.1989), consisting of a case with a twisted elastic element consisting of a double tube. Water circulates in the middle dark tube, and between the middle and the transparent upper tube air, thereby transferring heat to water. The entire unit can be stationary or mobile. This unit is complicated, double-pipe operation is complicated.

The closest technical solution to the patented invention is a solar thermal accumulator (patent LT 4297, priority dated 06.06.1997, published February 25, 1998), which consists of a housing and a built-in radiator consisting of thin-walled large diameter pipes interconnected in series. The sun-facing part of the collector has heating screens in contact with the radiator pipes and is covered with a light or heat-transmitting coating, either glass or double glazing. The whole unit is mounted on a stand and can be turned vertically and horizontally. The solar-facing collector plane has a horizontal angle of 45 degrees. Because the main units of this unit are made of metal, fibreboard, aluminum and glass, it is heavy, unwieldy and the solar energy used to heat the fluid is not fully utilized.

Patented fluid heating device, comprising a solar-heated tubular fluid reservoir and a storage device comprising a tubular fluid reservoir in a spiral shape with inlet and outlet openings, and a storage container having a dark, heat-impervious bottom and light and made of heat-reflecting material and a cover made of light and heat-conducting material. The outer surfaces of the sides and bottom of this case are covered with weatherproof material, preferably black plastic.

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The tubular fluid reservoir is a flexible tube of 40 to 70 mm, preferably 50 mm in diameter. The spacing between the coils of the spirally wound tubular tank is 0 to 5 mm. The heated surface makes up 40 to 50 percent of the total pipe area.

The tubular fluid reservoir housing is round, triangular, quadrilateral or regular polygonal, preferably rectangular. Ideally, its cover is made of clear reinforced plastic.

There are fasteners between the tubular fluid reservoir, the lid and the bottom, which tighten the spiral-wound reservoir and form air gaps that prevent the liquid from cooling for longer. The fasteners that make up the air gap between the reservoir and the tray lid are cross-linked and parallel to the plane of the spiral between the tank and the tray bottom.

The unit is positioned on a stand so that it forms an angle of 55 degrees to the horizontal and, with the stand, can be rotated so that the rays of the heat source, preferably the sun, are perpendicular to the lid of the tray.

The patented unit can be used to heat domestic water, water and other liquids for industrial purposes. Heating is best done with solar energy, but other types of heat fluxes can also be used.

The invention is illustrated by the following drawings:

Fig. 1 is a front view of the device.

FIG. 2 - Section A-A.

The device for heating the liquid consists of a rectangular tray 1 holding a spiral-shaped tubular fluid reservoir 2. The side walls 3 of the tray are covered with light and heat reflecting material 4, and the bottom 5 is lined with insulating material 6. Liquid inlet 7 and outlet 8. The tray 1 is provided with cross-fasteners 9 between the fluid reservoir and the lid, and fasteners 10 parallel to the helix plane between the reservoir and the bottom. The lid 11 is made of a light and heat-conductive material, preferably reinforced with a transparent plastic film. The bottom and sides of the case are covered with black plastic 12, which reduces weathering.

Here's how the device works.

To heat the solar water or other liquid, the unit is placed on a stand, filled with water through the inlet 7 and directed to the sun so that it is at an angle of 55 degrees to the horizontal with sunlight perpendicular to the lid of the tray. Sunlight penetrates through the top of the tray, warming the surface of the tubes and the water they contain. Warmed-up water flows out of the opening 8.

Tests have shown that a four-square-meter by twenty-centimeter-thick tray in a spiral-twisted 50-meter 55-mm black polyethylene tube heats up to 80 degrees in two hours on a sunny day, 50 degrees on cloudy days and a warm but rainy summer day the water temperature rises to 25 degrees. hot water without sunshine stays warm for 4-5 hours.

The patented fluid heating unit is an eco-friendly, compact, low-cost material that can economically heat water or other liquid for domestic or industrial use without burning fuel or polluting the environment.

Claims (8)

DEFINITION OF INVENTION 1. A fluid heating device having a solar-heated tubular fluid reservoir and a storage device, characterized in that the tubular liquid reservoir is helical with a fluid inlet and outlet, and the storage device is a bottom with a dark, heat-impermeable bottom. The cover is made of light and heat reflective material and the cover is made of light and heat conductive material, and the outer surfaces of the sides and bottom of this case are covered with weatherproof material. 2. A device according to claim 1, characterized in that the tubular fluid reservoir is a flexible tube having a diameter of 40 to 70 mm, preferably 50 mm. 3. Device according to claims 1 and 2, characterized in that the spacing of the pipe forming the tubular liquid reservoir is between 0 and 5 mm and the heated surface area is 40 to 50 percent of the total area of the pipes. 4. A device as claimed in claim 1, characterized in that the tubular fluid reservoir tray is round, triangular, rectangular or regular polygonal, preferably rectangular. 5. A device according to claim 1, characterized in that the material covering the outer surface of the tray is black plastic. 6. A device according to claim 1, characterized in that the lid of the tubular fluid reservoir tray is made of transparent reinforced plastic. 7. A device as claimed in any of claims 1-6, wherein the fasteners forming the air gap between the fluid reservoir and the tray lid are transverse, and the same parts between the reservoir and the bottom of the tray are parallel to the helix plane. 8. A device according to claims 1-7, characterized in that it is mounted on a stand so that the horizontal angle is 55 degrees and that the stand can be rotated so that the rays of the heat source, preferably the sun, are perpendicular to the cover of the tray.