CN202325175U - 360-degree sunlight energy thermal sensor device - Google Patents

Abstract

The utility model discloses a 360-degree sunlight energy thermal sensor device, relates to a photosensitive sensor device matched with a building sunshade device, and in particular relates to a sensor device which can sense the building sunlight illumination at 360 degrees. The 360-degree sunlight energy thermal sensor device comprises a shell (1), a base (2) and optical sensors (5), wherein the shell (1) is fixed on the upper end of the strut of the base (2); the shell (1) is in a spherical structure; loopholes (3) are evenly distributed on the outer surface of the shell (1); baffles (4) used for separating every loophole (3) are arranged in the shell (1); and one optical sensor (5) is arranged at the inner side of each loophole (3) in the shell. According to the utility model, the problem that the existing building sunshade device can not give out a command at any time according to the intraday weather variation is solved.

Description

360 degree solar ray energy thermal sensor fixtures

Technical field

The utility model relates to the photosensitive sensor device that is used with the building solar protection devices, be specifically related to a kind of can 360 the sensor device of degree induction building sunlight illumination.

Background technology

The building solar protection devices generally is to adopt louver structure, and existing building sun-shading can not be packed up or put down according to the variation of weather or contingency (like fire etc.), and blinds can not be adjusted angle at any time according to the variation of sunlight angle.Blinds is realized rising, decline and flip angle by motor-driven, generally adopts controller to control motor action.The time that controller has calculated blinds and horizontal angle in advance or motor running needs when packing up.As run into the cloudy day and then artificially send through central authorities' control that blinds is packed up or blinds rotates to the order of level angle, as when running into fire, the order of packing up is sent in central authorities' control, all blinds are accepted.Owing to can not respond to the illumination of sunlight in one day at any time, so central controller can not send instruction at any time according to the variation of the weather on the same day.

Summary of the invention

The utility model provides a kind of 360 degree solar ray energy thermal sensor fixtures, and the utility model has solved existing building solar protection devices controller can not send the problem of instruction at any time according to the variation of the weather on the same day.

For addressing the above problem, the utility model adopts following technical scheme: 360 degree solar ray energy thermal sensor fixtures comprise shell 1, base 2 and optical sensor 5; Shell 1 is fixed in the pole upper end of base 2; Said shell 1 is a spherical structure, and shell 1 external surface is evenly distributed with loophole 3, has in the shell 1 each loophole 3 separated dividing plates 4, and each loophole 3 inboard is provided with an optical sensor 5 in shell 1.

The 360 degree solar ray energy thermal sensor fixtures of the utility model can be arranged at the roof and connect the control system of building sun-shading, the irradiating angle that it can multi-faceted induction sunlight.According to the detected illumination of inductor, confirm that weather is fine day or cloudy day, carries out sunshine tracking.If the cloudy day is then carried out cloudy pattern, the control system of building sun-shading can send instruction at any time, control blinds horizontal opening or pack up; If fine day is then from the motion tracking sun and calculate shade.Consider the harmony of whole mansion, all curtain of mansion can carry out central authorities' control or timing controlled in the control room, and the angle of regulating up-down and curtain sheet can be guaranteed the outward appearance uniformity when needing, and if necessary, also can cooperate with mansion vertical lighting at night.

Description of drawings

Fig. 1 is the utility model structural representation.

Symbol description among the figure: shell 1, base 2, loophole 3, dividing plate 4, optical sensor 5.

The specific embodiment

As shown in Figure 1,360 degree solar ray energy thermal sensor fixtures comprise shell 1, base 2 and optical sensor 5; Shell 1 is fixed in the pole upper end of base 2; Said shell 1 is a spherical structure, and shell 1 external surface is evenly distributed with loophole 3, has in the shell 1 each loophole 3 separated dividing plates 4, and each loophole 3 inboard is provided with an optical sensor 5 in shell 1.

What should explain at last is: obviously, the foregoing description only be for explain clearly that the utility model does for example, and be not qualification to embodiment.For the those of ordinary skill in affiliated field, on the basis of above-mentioned explanation, can also make other multi-form variation or change.Here need not also can't give exhaustive to all embodiments.And conspicuous variation of being amplified out thus or change still are among the protection domain of the utility model.

Claims (1)

1.360 degree solar ray energy thermal sensor fixture is characterized in that: comprise shell (1), base (2) and optical sensor (5); Shell (1) is fixed in the pole upper end of base (2); Said shell (1) is a spherical structure; Shell (1) external surface is evenly distributed with loophole (3); Have in the shell (1) the separated dividing plate of each loophole (3) (4), each loophole (3) inboard is provided with an optical sensor (5) in shell (1).

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