FR2468857A1 - Double focus solar collector - heats an oil filled heating circuit and has photoresistors to position dish through hydraulic cylinders controlled by operational amplifier - Google Patents

Abstract

The solar collector has reflecting segments fixed to a polystyrene dish to form a dual focus heating of a closed oil circuit which is used to heat water. The orientation of the reflector dish is determined by photo resistors mounted on the dish which use an operational amplifier circuit to maximise the light intensity at the focus. The operational amplifier circuits control a hydraulic cylinder which through rack and pinion drive of a chain coupling positions the dish in the horizontal plane. A hydraulic cylinder connected to the lower half of the dish pivots it round the horizontal axis to give vertical orientation. A photo resistor is used to sense illumination level and to control the flow of the oil working fluid in response to the light level.

Description

The subject of the present invention is a double concentration solar energy sensor of the type (heliostat), allowing the use of said energy for the rapid superheating of a heat-carrying fluid at high temperature, of the order of (400 C at 500oC) in an exchange circuit. Calories are stored by an oil contained in an insulated tank. The accumulated heat can be used for domestic and industrial purposes for (central heating, hot water and steam production). The entire device is movable relative to two pivoting axes, it is fully automated and remote-controlled.

 To date, however, there are concave sensors comprising a single convergent focus. Their reflection surfaces are always very important for the achievement of a correct heat output. They are equipped with solar tracking allowing heliocentric pointing of the absorption organs (solar boilers).

The various handicaps, atmospheric filters and variations in light intensities) cause the alienation of the General Operation of these devices, because the four tracking organs (photoresist cells) are independent and there is no correlation between them and establish no comparison of the different electronic thresholds because their respective settings are established on a single intensity.

The devices according to the invention make it possible to collect solar energy with maximum efficiency, while reducing the reflection fs es of concentration sensors.

In this case, it is possible to develop the concentration techniques, by constituting through the reflector, two converging foci then, the beams are corrected by optics.

The heat gain is therefore recovered by two boilers, one of which is placed at the focal point of the first focal point and the other is placed after the convex optics, which correct the radiation of the superimposed beams and are placed at the focal point of the second fo
Worm.

The device according to the invention makes it possible to avoid the disadvantages of solar tracking.

 In this case, in fact, it is possible to remedy these, by placing the tracking units "Photoelectric cell" in pairs and by rotation movement, in the same electronic circuit which takes into account variations in light intensity - neuse. This analyzes the radiation received and pro-gressively stabilizes the trigger threshold which always remains fixed with respect to variations in solar radiation.

 The device which is the subject of the invention comprises a concave ref-reader in which several hundreds of plane mirrors, cut in a triangle, are glued, which are juxtaposed by forming hexagons which fit into one another over the entire surface of the parabola. The curvature, where the facets are positioned, is calculated so as to form two foci formed by the covergence of all the beams. The two focal points are justified by the light density, which is at these two points, maximum. The first focal point is made up of the radii emitted, from the end closest to the center of the parabola, of each facet. A first boiler of tubular shape is placed at this point, it consists of a tube at the end flared which encloses a heating body immersed in oil. This oil allows uniform heating of the entire boiler. The second focus of convergence is made up of all the rays which pass undisturbed around the first boiler. Here, these rays are superimposed on an optic, which after correction, p SitiOnsnera each beam in several hundred foci on the entire surface of the second boiler.

NOTR: The number of homes is equal to the number of facets
The second boiler is formed of a spiral, causing the ci -rculation and the progressive heating of the heat-carrying fluid, enclosed between two concave discs, on which is connected to the rear of the second, the entry and exit of this said fliude.

The superheated heat-carrying fluid coming from this boiler and from the heating body of the tubular boiler comes to be exchanged in a tank, this is regulated by a probe which, provided with a photoresist, pilot cell a speed variator acting on a circulator which favors the flow in relation to the variation of solar radiation.

This inventive device also has a tracking device
simultaneous solar in its apparent course, despite any filter
atmospheric and variation of light intensity. It consists
to place four directional cells in a surmo box
nte of a cache reporting a shadow on them. Everything moves
ment of shade by ranport to the axis perpendicular to the surface
that of the reflector, causes the immediate recovery of the balance
electrical circuit and in the same way the helioca- pointing
of the device.

 This operation is possible thanks to the connection in pairs by directional movements, azimuth and sit.

So two "photoelectric" elements are connected in a
circuit; connected in series between supply voltages
"-12V and + 1ZV", a potentiometer placed at the midpoint
allows to adjust the balance when these
are irradiated identically. From there, a tension
double negative and positive power supply, acts on the input
of reference, because compared to the mass (point 0), on the
integrated circuit (IC) "Operational Amplifier". The voltage of s
- output of the operational year is either negative or positive
with respect to the differential voltage, selected by the
increasing resistivity of the cell corresponding to the displacement
shading, then amplified by two transistors
sance exciting the relay corresponding to the polarity. Gi la
light density is strong or weak, the release threshold
of the CI remains fixed; its sensitivity is regulated by a resistance
variable ance which is connected between the input and the output of
this one. These circuits are food by a food
stabilized symmetrical to zener diodes, they can be
powered by battries, these being recharged by
photo-batteries. THIS type of chase can be adapted to all
sensor systems, requiring extremely precise tracking.

The accompanying drawings represent, by way of non-limiting example
-atives, an embodiment of the invention.

Figure 1 shows a rear view of the metal support
tubular.

FIG. 2 represents a profile view of the parabola, of
its support, two boilers and optics
Figure 3 shows a top view of the rotation system
- have chain and rack.

Figure - shows a side view of the elevation system
I parable it, the whole being integral with the pivoting base.

The figure represents a sectional view of solar radiation
on the facets.

Figure 6 shows a sectional view of the solar radiation passing through the converging optics and are positioned both
boilers.

 FIG. 7 represents the hydraulic operating circuit.

Figure 8 shows the automation circuit of the device
he.

Figure r represents the solar search head and j1 its
of the regulation, and the cut (A .... A ') of these two devices.

FIG. 10 represents the electronic diagram of a system
solar tracking.

The figure shows an electronic diagram of the
depointing and handing over to the EAST in the evening.

The device consists essentially of a parabola (1)
made of polyester, on which are glued several hundred mirrors forming a reflector (2). This is arched by a metal hoop (3) which is placed relative to a horizontal axis (10) two rolling bearings
(11, 12) integral with the two supports (4, 5), these "V" shaped supports are consolidated by two gussets (6,7) and by two tubular stiffeners (8, 5).

par l'intérmédiaire d'une chaîne (18), et d'un pignon(19).The whole is fixed. on the ground on a rolling base (13) which pivots relative to the vertical axis (14). The base is provided with a toothed wheel (15) which is maneuvered by a basic jack (16)

through a chain (18), and a sprocket (19).

The head cylinder (20) is fixed on a U-shaped support (21) integral with the base, the rod of this cylinder is anchored on the movable frame (2 which holds in position "the two boilers (24, 2; ) the optics (26) and the parabola (1) ", by an anchor point articulated on axis. (27).

The paragraphs above relate essentially to the invention.

The course of the parabola is calculated I so as to have two focal points of convergence.

A first boiler (24) is lace up at the first hearth (point A)
It is formed by a tube (28) with a flared end, inside
which a heating body (25) bathes in oil (30)
proven at high temperatures, on the upper part of the
tube there is a safety sub-valve (31), in the event of over-discharge
ssion. In the second focal point (point B), there is an optical con
vex (26) formed by a curved plane (32), which faces the
reflector, at this point, the beams (33) overlap
over the entire surface of the magnifying glass, and are more focused
- hundreds of homes (34) which are juxtaposed over the whole
surface of the second boiler (25).

NOTE: between these two equal surfaces (magnifying glass and second chau
diére), this produces an additional concentration of each
beam, radiating hundreds of facets, so there are
concentration gain at equal surface, therefore heat gain.

The whole of this device is operated by a system
hydraulic which has two cylinders (20, 16), the speed of
displacement of these are regulated by four limiters
flow (35,36,37 and 38), they act for both directions of displacement of the cylinder rods. The operation is controlled by
two solenoid valves (39, 40). normal solenoid valve
open (41) has the advantage of pinpointing the sensor to
get out of the sun spot during a power failure because it
it would be dangerous to heat the heat-carrying liquid without
-it doesn't circulate. It establishes the elevation circuit.

This device is fully automated. On the diagram
general electrical, the two solar pointing circuits
(47 and 45) are identical, one of these circuits is detailed
on figure 10. Considering the displacement of the sun, on a tette
research (integral with the reflector) surmounted by a cover (70)
which transfers a shadow to four fixed cells (66,67,68,69)
in a case (71), i? s circuits control the four bobi
- hydraulic solenoid valves (49, 50, 51, 52), by
through the management relays (53,54,55,56). Of
limit switches (57,58,59) which cancel movements
of rotation relative to the horizontal and vertical axis.
ine (60) which depends on the normally open solenoid valve remains
always on.

The pumping motor (42) starts or stops thanks to
to the pressure switch (46) which by the time delay
relay (61) maintains this for a few seconds to
pressurize the oil reserve in the accumulator (43). This accumulator is intended to operate the device with the minimum -mum of motive energy thanks to its hydraulic reserve.

A contactor (62) is provided with a flexible rod which is actuated in all "azymuts", at the end of this a small wind-catching flap is adjusted on the height to reach the required sensitivity. When the wind is strong, this contact commands the dish to be leveled horizontally. It remains a few minutes in this position thanks to the time relay (63).

The device is positioned at lTEsT by an electronic system (64). This circuit simultaneously cuts the power supply (65) of the pursuit circuits to avoid contradictions in movement. It is set to a fixed light intensity and operates on two extreme light thresholds, day and night
The entire solar tracking is based on four paired cells. These photoresist cells are placed in a box (71), they control an electronic circuit including an integrated circuit (72), compare the differential voltages, these voltages are amplified by two power transistors (73,74) to excite the corresponding relays to polarity.

 The advantage of this solar tracking device is that it works despite all the atmospheric filters and despite the different light intensities.

A probe (77) provided with a cell (76) regulates the flow rate of the heat-carrying fluid.

This device can be used for (hot and cold air conditioning, by exchange) or for (water pumping, in a borehole).

Claims (7)

 ), a regulation by probe acting on the flow.  a storage oil to heat water (heating and  to overheat a liquid-carrier which is exchanged in  I - device for the use of solar energy, allowing  lying about the heating power of a concave boiler.  yer, an optic focuses the beams of the second augured focus  gents, a tubular boiler positioned at the first fo  solar radiation is reflected in two focal points  It has a concave faceted reflector on which  metal seat actuated by hydraulic cylinder.  Automatic update. The whole being mobile on a chassis  a pair of photoresist cells, a remi  Horizontal and vertical tracking, each controlled by 2 - Apparatus according to claim 1 characterized in that  solar tracking and made up of 4 photo cells  resistant resistant paired in differentials in a cir  electronic cooked, which stabilize despite all varia  solar light intensity and despite all the wires  very atmospheric. 3 - Apparatus according to claim 2 characterized in that  the four photoresist cells are placed in a  housing (integral with the reflector) surmounted by a cover  so much a shadow cast on them. Any shift of ra  yons perpendicular to the axis -is immediately caught by the  (or the cell (s) concerned). 4 - Apparatus according to claim 1 characterized in that a  electronic circuit controlled by a probe fitted with a cell  photo-resistant regulates the flow of heat-carrying fluid in  function of variations in solar intensity. 5 - device according to claim 1 characterized ink that the  reflector is formed of triangular facets, in their  positions constituting two converging foci. 6 - Apparatus according to claim 1 characterized in that  the first boiler consists of a metal tube at the  flared end containing oil and a heating body in  spiral positioned perpendicular to the reflector.  also has a safety valve.  For a possible danger of overpressure the first boiler 7 - Apparatus according to claim 1 characterized in that  that the second boiler is made up of the 9th two discs  concaves that enclose a spiral causing a circuit  and nrogressively heats the heat-carrying fluid.  facing the reflector.  that the simple simple convex has a curved part  - Apparatus according to claim 1 characterized by the fact  a hydraulic cylinder.  lique and supported by a bearing base and actuated by  horizontal and vertical axis, consisting of a metal frame  dieres and correction optics and mounted pivoting on a  characterized by the fact that the reflector; the two chau r - Apparatus selo-n any of claims 1 to 6  reinstated at sunrise.  canceling the lawsuit, the cancellation of the lawsuit is  a fixed threshold positioning the device in the evening in the East and  È- for, pilot 'by a photoresist cell acts on  characterized by the fact that an electronic switching circuit  1C- Apparatus according to any one of claims 1 to 9