RU1784087C - Suspension solar heater - Google Patents

Abstract

Use: in greenhouses. SUMMARY OF THE INVENTION: in the solar heater, the ends of the sleeve 1 are not sealed, and by means of the clamps 4, providing the cavity of the sleeve 1 with atmosphere so that the fluid pressure does not tear the sleeve film. 1 ill.

Description

The invention relates to the field of using solar energy for heat supply by heating a liquid (water) and air from a flat solar radiation receiver.

Flat solar receivers are known which consist only of a heat-absorbing panel, not insulated by a transparent coating on the side facing the sun, and without thermal insulation of the reverse side 1.

The coolant is supplied to the panel several degrees colder than the ambient temperature. Due to this, it is possible to use not only the energy of direct and scattered solar radiation, but also the heat of the atmosphere, precipitation, phase transformations during condensation; It is also possible to utilize heat losses through the building envelope when combining heat-absorbing panels with them. The panels are made of their metals or polymeric materials. The former have a high cost, and the latter have a short life, because under the action of solar radiation, polymer destruction occurs and heat carrier leaks occur

Known solar heater, made in the form of a sleeve of absorbing solar radiation of a polymer film, century the upper and lower parts of which are distributed and assembled perforated tubes for supplying and discharging the coolant; the ends of the sleeve are sealed connected and fixed in a rigid frame 2.

Compensation of the internal pressure and regulation of the flow cross-section through the coolant is carried out by tensioning the film walls of the sleeve attached to a rigid frame. In another embodiment of the same device, the compensation of the internal pressure and the regulation of the flow cross-section through the coolant are carried out by squeezing with air enclosed in transparent containers surrounding the sleeve. In both cases, the disadvantage is a short service life due to the occurrence of coolant leaks due to the degradation of polymers, and in the second, another disadvantage is the need to compensate for air leaks from the containers during operation.

An object of the invention is to increase the life of a solar heater.

(L

WITH

xi

00

4 O 00

x |

 With

made from polymer films that absorb solar radiation.

This goal is achieved in that in a suspended solar heater containing a sleeve made of a film that absorbs solar radiation, spacers are installed at its ends, the upper of which is made in the form of a perforated tube with a supply pipe, the end edges of the sleeve are fixed tightly to each other by clamps .

The drawing schematically shows a pendant solar heater, which consists of a film sleeve 1, an upper strut 2 made in the form of a perforated tube with a supply pipe, a lower strut 3 and clamps 4.

The heater operates as follows.

The coolant (water) is supplied through the openings in the tubular spacer to the inner surfaces of the film sleeve 1, flows down them, removes heat, and is discharged through the lower leaky end to the collection tray or collection container and is then used as intended.

By means of the clamps 4, which provide an unpressurized connection of the ends of the film sleeve 1 and, as a result, the pressure is equal inside and outside, the coolant moves without pressure; and when the sleeve is upright, agglutination (sticking) of the walls occurs, the liquid is evenly distributed over the heating surfaces and good heat dissipation. The lower spacer 3 serves to give the sleeve 1 a rectangular shape.

When the solar heater deviates from the vertical position of the lower

the sleeve wall bends under the weight of the liquid, and the upper one floats up, as a result of which the liquid slips over the surface due to poor wettability of polymeric materials without providing the necessary heat sink; and in the presence of leaks in the lower wall, the liquid flows out through them. Therefore, the above-described pendant solar heater normally only works in an upright position.

The connection of the ends of the sleeve using clamps is preferable to gluing or welding, because allows quick disassembly and assembly of the solar heater, for example, for drying before winter storage.

Due to the design and operation requirements, low cost and long service life, the present invention can be widely used in agriculture and everyday life.

For example, such solar heaters made of cheap black

polyethylene film can be used in greenhouses for heating (cooling) air and heating water for watering plants, while combining the functions of sunscreens.

Claims (1)

The claims An outboard solar heater comprising a sleeve made of a film that absorbs solar radiation, spacers installed at its ends, the upper of which is made in the form of a perforated tube with a supply pipe, characterized in that, in order to increase the service life, the end edges of the sleeve are fixed to each other using clamps. M & Ј pa & qrtit + uii 2 li R (/ k / J KOM L # & Of