SU1453125A1 - Inflated solar-power air heater - Google Patents

Abstract

The invention relates to solar technology and allows to intensify heat removal and at the same time to simplify the manufacture of the air heater due to the design features of the fastening elements of the cones to the absorbing shell. The tubular sections 3 with the outer transparent and V11 killer (apertures 4.5 shells interconnected at the inlet and outlet sections 6,7, are connected in parallel to the distribution and collecting manifolds 1,2 ”In the sheath 5 are installed truncated cones 8 connected with using flexible t 9 and fastening elements in the form of a loop 10. The holes 11 of the shell 5 are placed in transverse rows with an odd number of holes 11 in each row multiple to the number of t g 9 of one cone 8. The loop 10 is skipped alternately with the inner and outer parties about 5 through all the holes 11 of one of the rows, since the cone 8 is acted upon by a constant air flow, which determines the tension force t 9, depending on the air pressure, this force is equal at all points of the cone 8 and therefore equally transmitted to all tam 9. uniformly distributed in cross section.The deformed shell 5 acts as a spatial absorber, a turbulizer and how the heat exchange surface is developed. Cones 8 contribute to intensive flow turbulization. 3 il. (Oh (l el 00 o sp

Description

The invention relates to solar technology, in particular to portable airborne; yokhonagpevatel m

The purpose of the invention is to intensify the Heploscopy and at the same time simplify Manufacturing due to the design features of the fastening elements of the cones j | c of the absorbing shell.

Fig. T depicts air heating, general view; figure 2 - section / .-A on figo1; on fig.Z - type BB on fig.K

The heater contains distribution 1 and collection 2 collections, tubular sections 3 connected in parallel with outer transparent 4 and internal absorbing 5 shells interconnected by the inlet 6 and outlet 7, and installed in the absorber F; e 5 truncated cones 8 connected with it by means of flexible pipes 9 and fastening elements in the form of a loop 10. The absorbing bundle 5 is provided with holes 11, spaced in transverse rows with an odd number of holes 11 in each YDU, a multiple of t g 9 single ifo cone 8o In this case, loop 10 pro 1 | is alternated between the inner and outer sides of the shell 5 through all “Hole 1J of one of the rows. ; Thus, each cone 8 corresponds to three flexible rods 9, three holes 11 with nine holes, 11 each. This allows placing the gi 9 with the displacement of their projections on the plane through an angle of 120 °

The cones 8 made of plastic or nylon are turned with smaller bases in the opposite direction to the air flow blown by the Fan 12. At the outlet section / sheath 5 is equipped with an elastic Ring 13.

The rods 9 and the loops 10 are made of a nylon rope. Holes 11, through which protrude loop 10, jloggyt be, scalded separately Or in a row. The loop 10 is attached to the knot 9 with a knot, and the latter is attached to the cone 8 by inserting it into the hole of the cone 8 and is locked with a knot at the end of the pull 9. The shells 4 and 5 are made of transparent and black polyethylene or polyvinyl chloride films, respectively.

Air heater works SLO- Duchschim way.

In the morning when solar radiation begins to heat absorb

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j P 5 „

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five

five

a shell 5, the air of the fan 12 through the distribution manifold

The air is injected into the inflatable tubular sections 3. In each section 3, part of the air enters into the space between shells 4 and 5, and the other part into the sheath 5, washing it from the inside. At the same time, the main air flow goes inside the absorbing shell 5, and a part of the flow passes at the inlet section biv gaps between the openings 11 and the loop 10 into the space between the shells 4 and 5, which occupy the working position; The air flow, the passage inside the absorbing shell 5, acts on the cones 8, which transmit a force through the gigs 9 loops m 10, and those to the shell

5, causing it to taper at the point of attachment of the loops 10 and form a wavy surface along and across the Zo section. As the air flow through section 3 increases, the force acting on the cone 8 and the rod 9 with loop 10 increases, due to which the shell 5 is further deformed. You can configure the waviness by changing the number of holes 11 in rows and the position of the holes.

I1v r dah relative to each other. Since the cone 8 is acted upon by a constant air flow, which determines the tension force tg r 9 depending on the air pressure, this force is equal at all points of the cone 8 and therefore is equally transmitted to all tam 9 distributed evenly in cross section. The tilting moment of the cone 8 with respect to the instantaneous center of forces (the intersection point of r g 9) is zero, since the shoulders of the forces of m r 9 are equal.

The deformed shell 5 works as a spatial absorber, a turbulizer, and how the heat exchange surface is developed. The cones 8 contribute to an intense flow gurbulization.

Claims (1)

Invention Formula An inflatable solar air heater, containing distribution and collecting manifolds and tubular sections connected in parallel to them with external transparent and internal absorbing shells interconnected at the inlet and outlet plots, and truncated cones installed in the absorbing shell, connected with it by means of flexible joints and fastening elements, which are designed so that, in order to intensify the insertion and simplify manufacturing, the absorbed shell is provided with openings arranged transversely Dami with. odd number of holes in each row, a multiple of the number of tons of one cone, and each fastening element is made in the form of loops, alternately passed from the inner and outer sides of the shell through all the holes of one of the rows FIG. 2 6-B