SU895149A1 - Enclosure with solar collector - Google Patents

Description

3

The goal is achieved by the fact that in the construction of a fence with a solar collector, including a frame, a protective selective-transparent glazing, a solar cells connected to a tubular heat exchanger made in the form of a coil, and tenloisolation, the solar receiver is made of composite plates arranged in one plane, rigidly connected with a heat exchanger in the northeastern areas of the coil by means of silt plates, placed iodine angle to the silastone receiver.

FIG. Figure 1 is a perspective view of a fencing panel with a salt collector; in fig. 2 - sloped vat of the building, made 113 predlagasm1, X papelen with solpechnye collector; in fig. 3 - variatit wall fencing of a multi-storey building with the proposed name

The fence with a solar stake, a pector consists of a zan, an I-glazed window 1 that selectively transmits electro-emittance radiation, a frame 2, a tenon-insulation 3, a blackened plate heat absorber 4, a tubular tenloobennka 5 in the coil and flat plasters - impost 6, connecting threads, which have been drawn, which will be used. solar cells 4.

Protective glazing 1 is made of one or more layers of inorganic trench glass 1-5 mm thick and more depending on the climatic conditions and the size of the glazed section, they sing between the elements of the frame 2. With multi-layer glazing 1, air gaps 0 are left between the glasses. , 5-10 cm, a similar gap is left between the inner surface of the glazing and heat exchanger 5. Thermal insulation 3 from lightweight, fairly rigid material, such as foam polyurethane, tenants on the back side They are made of a solar receiver 4, which ensures their reliable connection between them.

There may be other nap | 1, inferring, tonzolii.

From the side facing a nomenopte, the thermal insulation 3 can be provided with a facing layer, which is conventionally not shown in the drawing. Plastppa gelponrmpnka 4, tenloobmenk 5 and n.mnost 6 form a single pro. Li in the vnde pipe with T-shaped .m finned. Wherein the structural element nredlagaemogo enclosure, sochetayunii a gelionriemnnk 4, 6 and imposts trubchat1,1Y teiloobmer1nik 5, bent to form a coil is formed from a solid, for example, compressed, n nrofnl circular pipe with a T-cross-mentioned obrazpym orebrepnem rassechepn shelves T-shaped finned but with a longitudinal notch in the impost (i no less than d long, 1 nna bending) of the pipe section 5. The material to produce from it a decree of the first and the proposed combination of the 4th line and theylobomeiik 5, taking into account Mechanical Protection properties and high teploprovodimoet, are wrought aluminum alloys. All profile elements that are glazed, including the front and top surfaces of the solar receiver 4, the impost 6, and the heat exchanger tube

5, black or anodize black d; | increase noglopgeii solar radnatsin while maintaining or reducing the relatively low coefficient of thermal radiation, i.e. walling

blackness in the infrared range, which is necessary for lowering the tentile notes and new efficiency of the solar collector.

The diameter of the heat exchanger pipe is taken small to increase the minimum speeds of the heat carrier flow and to improve the tenlossing. At the inlet and outlet, the ends of the heat exchanger pipe are in communication with the coolant supply system and the consumer of heat, tenlow water, or thermal heat accumulator. It is possible to sequentially connect the heat exchanger coils to achieve higher heating temperature of the heat transfer medium. During periods of no solar irradiation and insufficient heating of the solar power plant 4, property 6 and the tube 5, the circulation of the tenon carrier is automatically interrupted for 11H1) ayun1, they use devices of the known type that are triggered by commands from sensitive temperature sensors installed on the telescopic box. As a heat transfer fluid, ordinary water or antifreeze is used.

It is possible to use gas-liquid mixtures or air for this purpose.

The proposed fence with solar kol.chektorom following way.

When irradiated by the steppe coatings of the building, solar beams, penetrate through the protective selectively transparent glazing, are scooped up by the plates of the helienrnemic 4, by imposts 6 by a coil

heat supply 5, heat it when a certain normal heating temperature is reached includes heating spatter; 1 in pipes 5. The heated tenloposer enters the consumer in the heating system of the building or into the heated water disassembly system for household purposes, or when there is an excess of heat generated, in relation to the current analysis - postunet to the heat accumulator ODN01-0 of the known tnnov, nrp. msr to t (float1;; olnapapnu1O capacity, 1k) li1nnu1o water.

11th time, the proposed and -inventive allows to reduce the consumption of materials and unstructured design due to

in the heat exchanger of round tubes:

by the constant radius of curvature in the bend areas, and also due to the multifunctional use of the structural elements of the solar receiver, to increase the efficiency of the solar water heater by providing heat-conducting contact between the plate-type solar collector and the tubular heat exchanger, made in the form of a single profile.

According to preliminary data, the proposed design will save up to 30-40% of the heat spent on heating and hot water supply of buildings, and can be used in various climatic conditions, including in mid-latitudes, in the Far East, in the Polar region.

The reduction in the construction cost achieved in this case is due not only to the economy of scarce fuel, the cost of delivery of which is particularly high in remote areas that are difficult to reach, but also due to the multifunctional use of the structural elements of the solar receiver that perform the functions of durable and high-quality thermal insulation lining Impost coil - heat exchanger increases the overall rigidity of the structure and resistance to force.

Claims (3)

1. US patent number 2257524, CL. 126-271, 1971. 2. US patent number 2208789, cl. 126--271, 1970. 3. US patent number 3599626, cl. 126-271, 1971 (prototype). one L P