ES2686170A1 - FLOATING HEATER FOR SWIMMING POOLS AND SPAS (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Floating heater for pools and spas. The heater is constituted from a plurality of floating modules arranged fixed to each other on the surface of the pool or spa to be covered, wherein each floating module is formed by two bodies coupled together, a first body (1), upper, in the form of a curved-convex bubble, with a flat perimeter expansion (4), body (1) of resistant and transparent plastic material, while the second body (2), also made of resistant plastic material, in this case black , counting the set with holes for passage and heating of the pool water in the chamber (7) that is defined between both parts, chamber that is filled with elements (9-9') of high capacity and thermal conductivity. The device can incorporate a temperature predictive sensor associated with a computer application through which the user can monitor the installation. (Machine-translation by Google Translate, not legally binding)

Description

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In this way, both bodies (1) and (2) are coupled together to form the heater, with the particularity that the body constituting the bubble or first body (1) includes a flat and quadrangular perimeter expansion (4), with its vertices (5) chamfered and rounded, thus avoiding the overlapping of other modules equal to that described.

Both bodies (1) and (2) are made of resistant plastic material, the first body being transparent in nature, while the second body (2), constitutive of the collector, will be obtained in black, to achieve optimum thermal performance. in the heating caused by the solar rays incident on the whole.

The collector or second body (2) is flat, presenting on its lower face a series of complementary lugs (6) of recesses (8) established on the upper face of the first body (1) in order to facilitate stacking in a stable manner, as the figure shows

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In this way, the water accesses the chambers (7) through the grooves (3), where it is heated by greenhouse with great efficiency and optimum performance, said water being able to flow through the aforementioned grooves (3) , with the particularity that within said chambers (7) the inclusion of balls (9), as well as a metallic spiral (15), both of high capacity materials and thermal conductivity, which can be distributed in two layers of different densities, so that one of said layers of balls (9) tends to float giving greater buoyancy to the whole, while the other, of greater density allows a greater calorific flow to the water that circulates through the chambers (7) accelerating the water heating process.

In parallel, and as shown in Figure 2, at least one of the modules will be provided with a temperature predictive sensor (10), materialized in a sensor with a wireless communications module, preferably of the Bluettoth Low Energy type, consisting of three temperature sensors, an external sensor (11), an internal sensor

(12) that measures the temperature inside the chamber (7) and a lower sensor (13) that measures the temperature of the pool water, said electronics being assisted by a small photovoltaic solar panel (14) that gives energy autonomy to device.

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Claims (1)

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