PL68997Y1 - Solar collector - Google Patents

Description

Pattern description

The subject of the utility model is a flow solar collector for hot utility water.

Solar collectors are simple devices that allow you to use the energy of solar radiation in the summer. With the appropriate design of the collectors, the period of their use can be extended from March to October in Polish latitudes. We can use approximately 1 kW / m2 of solar radiation energy density in the absence of cloud cover. Energy can be converted into heat through absorption to heat the water. The review of the publication by Jarosław Dąbrowski, "Analysis of the possibility of using solar collectors for heating domestic water", Ciepłownictwo Ogrzewnictwo Wentylacja 2007/5 shows that a different structure of the solar collector can be realized. The existing literature and studies on the issue of domestic water heating show that most of the construction solutions use metal elements for the construction of collectors and advanced technologies of applying solar absorption layers integrated with the heat transport system in order to heat and store hot water in insulated utility water tanks. ''Solar panels. Solar energy in housing, hospitality and small industry ”G. Wiśniewski, S. Gołębiewski, Grarciek, K. Kurowski, A. Więcka, Medium, 2008.

The essence of the hot utility water solar collector with collectors and connectors is that it consists of a transparent chamber plate made of a polymer or composite material with a softening temperature of 100-300 ° C, with the longitudinal channels inside the chamber plate and parallel in one direction between the supply collector and the collective collector, while the supply connector is attached at one end to the supply collector, and the outlet connector is mounted at its end on the opposite side to the collective collector. The solar radiation-absorbing layer is applied to the surface of the cell plate on the side opposite to the surface facing the sun.

The advantageous effect of the utility model is: - low production cost, - no circulating pump for water flowing through the collector, - ease of use, - possibility of connecting the collectors in series or in parallel, - the collector can be supplied directly from the commonly available water supply network.

The utility model is presented in the drawing showing the general view of the collector.

Flow-through solar collector for domestic hot water consists of a transparent 1-chamber plate made of a polymer or composite material with a softening point of 100-300 ° C, inside the 1-chamber plate there are channels 7 longitudinally, which are parallel in one direction between the collector 2 and the supply manifold 3, and at one end of the supply manifold 2, a supply socket 4 is attached, and an outlet 5 is attached to the collective manifold 3, on its opposite side. On the surface of the 1-chamber plate there is a layer 6 absorbing solar radiation on the side opposite to the surface facing the sun in order to reduce the energy loss of the phenomenon of solar radiation reflection from the surface of the plate 1. The whole system operates under a low pressure, the value of which depends on the height of the liquid column in the collector and increases slightly as the water flow through the collector increases.

List of symbols 1 - chamber plate made of polymer material or composite 2 - supply collector 3 - collective collector 4 - supply connector 5 - outlet connector 6 - solar radiation absorbing layer 7 - longitudinal channels

Claims (2)

Protective reservations 1.Water flow solar collector with collectors and connectors, characterized by the fact that it consists of a transparent chamber plate (1) made of a polymer or composite material with a softening temperature of 100-300 ° C, and inside the chamber plate (1) there are there are longitudinal channels (7) that are parallel in one direction, placed between the supply manifold (2) and the collective manifold (3), while the supply manifold (2) is attached at one end to the supply connector (4), and the manifold (3), the outlet stub (5) is fixed at its end on the opposite side of the structure. 2. Collector according to claim The method of claim 1, characterized in that the surface of the chamber plate (1) has a solar radiation-absorbing layer (6) on the side opposite to the surface facing the sun.