SU1467332A1 - Accumulating collector - Google Patents

Abstract

The invention makes it possible to increase the efficiency of a collector-battery by reducing its heat loss by radiation and convection while increasing the temperature absorber. In the heat insulating casing (K) 1 with a translucent coating 2, the absorber (П) 3 and partition 4 are located. The baffle 4 forms a storage tank 5 with case 1, and a heat channel 6 for heat carrier connected to tank 5 from the ends 7 K 1. K capacious

Description

 The invention relates to solar technology, in particular to battery collectors.

I The purpose of the invention is to increase the efficiency of the collector-battery by reducing its heat losses by radiation and convection, while simultaneously increasing the temperature absorber. Fig: I is shown. A constructive | collector-battery circuit, section 1; FIG. 2 is a diagram of the reservoir — I accumulator, section. The accumulator-accumulator contains a heat-insulating body 1 (Fig.) With a translucent coating 2, an absorber 3 located in it and an interchange 4, forming with body 1: battery capacity 5, and with absorber 3 - channel 6 for heat-transfer l, hydraulically connected to the reservoir 5 from the end face 7 -. the housing 1, and the nozzles 8 and 9 connected to the storage tank 5 for supplying cold heat transfer fluid and taking out the heat transfer fluid, respectively.

The collector-battery is equipped with double-sided mirror plates 10 (Fig. 2) and flat reflectors.

P (Fig), the body I will absorb

Lem 3 (FIG. 2) is extended to the translucent coating 2, the latter has the form of half-waves 12 in the cross section, are convex to the absorber 3 and are adjacent to each other, and the absorber 3 is sawn through in cross section; the sides of the teeth 13 spacing ribs

14 and is provided with a transparent film 15, loosely laid on the teeth 13 and fixed along the contour of the absorber 3, with one edge of each mirror plate 10 located in the depression between the teeth 13 and the other between the half-waves 12 of the cover 2, and the flat reflectors 11 (Fig. 1 ) installed between the latter and the absorber 3 at the ends 7 of the housing 1.

The partition 4 is made, for example, from polyurethane.

Plates 10 (Fig. 2) form a concentrator in the form of shortened foils and are made of plastic with glued aluminum foil or paint on the surfaces. Coating material 3 is composed of a small percentage of iron.

The absorber 3 is made of duralumin and has a selective coating, for example, of cuprous oxide and tin dioxide.

The film 15 is made, for example, of Teflon and automatically stretches when installing the plates 10 in the case 1 having the shape of a parallelepiped.

The collector-battery concentrator is oriented at an angle of latitude. The accumulator accumulator may have a funnel 16 with a filling pipe 17 and a flexible hose 18 with a float 19.

Collector-battery works

in the following way.

Have a collector-battery in the attic of the house so that the coating 2 (figure 1) combined with

the slope of the roof facing south or south-west is filled with water to the upper edge of the partition 4 through pipe 8 from the aqueduct or through the funnel 16 manually.

The water in the channel 6 is heated by the absorber 3, the solar radiation to which comes in the form of a stream concentrated by the plates 10, as well as from reflectors 1I in the morning time (lower reflector) and during daytime sunshine (upper reflector).

Heating of water causes its thermosiphon circulation and accumulation of hot water in the tank 5. Water is taken off through the hose 18 and the pipe 9.

The collector-battery provides a twofold concentration of radiation and an increase in the efficiency of not less than 0%.

Claims (1)

The formula from the back and the collector-battery, containing a heat insulating body with a translucent coating, located in it an absorber and a partition, forming a accumulator with a housing 7332 the bone, and with the absorber g, the channel for the heat transfer fluid, which is hydraulically connected to the tank from the ends of the body and connected to the storage tank, are pipes for supplying cold heat transfer fluid and taking out a hot heat carrier, so that In order to increase efficiency, the collector-battery is provided with double-sided mirror plates and flat reflectors, the housing above the absorber is made expanding towards the translucent coating, the latter has in the transverse one. the cross-sectional shape of the half-waves convex to the absorber and adjacent to each other, and the absorber is made in cross-section with a saw blade 20, has spacing ribs on the sides of the teeth and is provided with a transparent film loosely laid on the teeth and fixed along the contour absorber, one 25, the edge of each mirror plate is located in the cavity between the teeth, and the other between the half-waves of the coating, and the flat reflectors are installed between the latter and the absorber on the ends of the housing. eleven Phie g l yu jz