SOLAR POWER GENERATION SOUND PROOF UNIT HAVING COOLING FUNCTION WITH ARTIFICIAL INTELLIGENCE HEAT DETECTION-SPEED CONTROL MICRO COOLING FAN, SOLAR POWER GENERATION SOUND PROOF WALL BUILT BY USING SAME, AND COOLING METHOD OF SOLAR POWER GENERATION SOUND PROOF UNIT

Hereinafter, with reference to a drawing of the present invention preferred embodiment objects through a browser substrate. In the embodiment shown in in the embodiment of the present invention refers to drawing a described as described with reference to one short-but which, technical idea of the present invention this core configuration and action and not one number. In describing the present invention, solar cell axis direction i.e., solar light from the panel direction is described it can make the "front direction", and "rear view direction" opposite direction was described substrate.

Also the present invention according to 1 and 2 also is respectively photovoltaic soundproof wall (100) in order components corresponding photovoltaic soundproof unit (1) a different direction from the panel shown coarse perspective view is shown disclosed. Each of 3 and 4 of the present invention may also photovoltaic soundproof unit (1) of Figure 2 for line A provided A according to transverse direction of the coarse iron bar perspective view (3 also) and coarse cross-sectional drawing (4 also) is shown disclosed.

As the present invention according to carry photovoltaic soundproof wall (100) the photovoltaic soundproof unit (1) so that using which, solar power plant of the present invention sound unit (1) as if they were the illustrated drawing, the infrared light to the photovoltaic panel solar power (11) with a front plate (10), in a thickness direction of said front plate (10) is equipped with a rear view spaced from and facing the plate (12), said front plate (10) and said rear view plate (12) to the outer guide side plates (14), said front plate (10) and said rear view plate (12) is inserted between an upper and a lower side upwardly (15) and lower plate (16) has a thickness results in a, an empty space formed inside a rectangular parallelepiped box in the form of a member in the nanometer range.

Photovoltaic soundproof unit (1) of processing, sound absorbing photovoltaic soundproof unit consisting of (1) passing through the thickness direction of stopping the sound absorbing plate (2) which are provided, drawing illustrated as if they were a sound absorbing plate (2) is rear view plate (12) having a plurality of electronic state can be, the front plate (10) sound absorption plates (2) can be provided between the air flow space i.e., the air flow passage (20) formed in the vertical direction. Upper plate (15) and lower plate (16) is provided with an air hole is formed at where is can flow, upper plate (15) is provided with a front plate (10) sound absorption plates (2) air-flow path between (20) air is irradiated on a photovoltaic soundproof unit (1) to be drained out of joined (150) is formed on the, lower and upper plates (16) photovoltaic module generates the sound unit (1) can be pushed into the interior of the air flows into the air intake to (160) is formed in the nanometer range.

Formed on one side of the air suction air exhausted through the outlet (150) and an air inlet (160) for blowing a cooling fan (cooling fan) where air is both number 2 or a steel (3) which are each provided with, in the present invention cooling fan (3) is photovoltaic soundproof unit (1) of head inside the amorphous (thermocouple) (4) based on a measured temperature automatically by the artificial intelligence algorithm manner carry number which consists of "artificial intelligence - speed number amorphous micro cooling fan" to. Cooling fan (3) the size of the photovoltaic soundproof unit (1) of layers can be selected, cooling fan (3) include lightweight (like carbon composite) blade and can be but having preferably but not exclusively. Cooling fan (3) is preferably of the watertight function can be operated even [...] ([...]) but, not limited to, a leveling bolt if necessary (15) upwardly of the further blocking the, rain air outlet (150) and prevents the particles from entering the cooling fan (3) protect the disapproval.

Amorphous (4) is solar energy generating sound unit (1) of head inside which, drawing illustrated as if they were a front plate (10) inside the plurality of amorphous (4) is front plate (10) are attached respectively to a plurality of position of rear view can be provided. Amorphous as well as (4) are not necessarily front plate (10) is not required to be attached to and to install, the air flow passage (20) even in there disclosed. Such amorphous (4) includes a temperature sensor measuring a temperature (thermometer) can be composed. In the present invention amorphous (4) solar energy generating sound unit measured by (1) temperature value is an inner space, cooling fan (3) operation of the device (not shown) transmitted to a plower number number. The number device includes a cooling fan (3) may be mounted, cooling fan (3) separate from the remaining area of the device can be composed. Amorphous (4) the number of measurements from device to device to transmission system and number (measured temperature value) from cooling fan (3) number to hu when it freezes transmission scheme provides oil, various types can be made wireless or the like.

Then in in in the present invention, the device number by, amorphous (4) measurements of the cooling fan (3) artificial intelligence algorithms (number [e room type) a number plower particularly detailed manner with respect to each other. According to the present invention artificial intelligence manner cooling fan (3) the operation of number plower algorithm (the number method) "EPS-a VC algorithm" (Each Point Scanning provided Velocity Control Algorithm) a caldron substrate.

The infrared light is also 5 solar photovoltaic power generation of the present invention very little sound unit (1) of air flow thermocouple device (heat) corresponding to coarse cross-sectional drawing showing flow of 4 also is shown disclosed. In Figure 5 of the air flow passage (20) is in straight arrows represent the flow of air, curved arrows is a heat flow (heat) is raised by a goniophotometer.

As shown in fig. 5, front plate (10) with a photovoltaic panel (11) is received solar is promoted wherein, during this process photovoltaic soundproof unit (1) is the internal space of said hot, photovoltaic soundproof unit (1) side rear view of a sound absorbing material (2) photovoltaic soundproof unit due to (1) the inner space of ten accumulations 1,750,000.

Lower and upper plates (16) an air inlet hole (160) is since the, an air inlet (160) external air through photovoltaic soundproof unit (1) to enter the interior of the air flow passage (20) on its way towards an upper plate (15) the air discharge opening (150) to the outside through a discharge therefrom. An air inlet (160) and an air outlet (150) is solar energy generating sound unit (1) width direction of the cathode is formed.

In the present invention air outlet (150) and an air inlet (160) or a 2 both where a plurality of cooling fan (3) windows where, a plurality of cooling fan (3) driving the air intake of the air flow passage - EPS-a VC algorithm (20) extending to the air - air outlet (150) and the boat in a very efficient manner by finishing photovoltaic soundproof unit (1) and for generating optimum cooling state, is equal to maintain.

Specifically in the present invention EPS-a VC algorithm cooling fan (3) operated photovoltaic soundproof unit (1) by cooling (cooling) in, photovoltaic soundproof unit (1) (point/point) temperature at the particular location and the mean temperature of the preset temperature (for example, 70 degrees Celsius) reaches or exceeds the, cooling fan (3) in will automatically, an air inlet (160) - (20) - (150) the number of the air flow passage extending to the air discharge opening (enforced convection) steel (steel number convection developing) generates the flow of air, this is effected by insuring photovoltaic soundproof unit (1) of heat quickly discharged outside through the opening width of the inner steel number by photovoltaic soundproof unit (1) is equal to the fan and the temperature lowering. At this time two time is commissioned photovoltaic soundproof unit (1) does not occur at the temperature lowering when i.e., photovoltaic soundproof unit (1) when the target is not rapidly cooling of cooling fan (3) channel is adjusted along a defined sequence by sequential operation of strength, photovoltaic soundproof unit (1) quickly and effectively cooling the interior of the sample substrate.

6 EPS-a VC algorithm is shown overall configuration is also coarse flow shown degree which, as also shown in the present invention according to EPS-a VC algorithm 6, cooling fan (3) operated photovoltaic soundproof unit (1) of the base frame to <Thus the cooling fan cooling step>On (step A), after cooling photovoltaic soundproof unit (1) checking the internal state of the needed to further increase strength after operation of cooling fan <[...] and cooling fan operation intensity scaling step up cool-down phase>Including a (step B) are disclosed. Cooling fan (3) upwards the method operation of adjusting strength, method and increasing the rotational speed of the cooling fan, to further increase the number of operated cooling fan which method, such method have 2 (increased number of cooling fan rotation speed increase cooling fan) method simultaneously applying disapproval.

As above is also 7 constituting the present invention according to EPS-a VC algorithm <Thus the cooling fan cooling step>For specific flow degree (step A) shown disclosed. 6 generates flow of Figure 7 and also as if they were shown, <Thus the cooling fan cooling step>In (step A), first photovoltaic soundproof unit (1) is equipped with a plurality of position inside the amorphous (4) is solar energy generating sound unit (1) of interior temperature value t₁ , T₂ , .. , T_n Low price and automatically, and holds the device number transmitted solar energy generating sound unit (1) of average interior temperature value T_a ("Temperature measurement and the mean value calculation step") to determine the (step A1). The cooling fan is in the flow of Figure 7 pressed F (3) number and installation of means, t_n F of the amorphous (4) second amorphous during n (4) temperature value measured by big. Simply described as a keyboard of the amorphous F T (4) measured temperature value at each total of big.

Subsequently calculated amorphous (4) of average temperature value T_a Reference temperature value allocated to R_T The comparison, each amorphous (4) temperature value measured at t₁ , T₂ , .. , T_n The preset reference temperature value R each_T In comparison, amorphous (4) average temperature value T_a Each amorphous (4) temperature value measured at t₁ , T₂ , .. , T_n Even one of the value to a preset reference temperature value R_T Determining whether other ("temperature condition judging step") exceeds (step A2).

If amorphous (4) average temperature value T_a Each amorphous (4) temperature value measured at t₁ , T₂ , .. , T_n The preset reference temperature value R is "both"_T Hereinafter if cooling fan is and (3) does not operating ("cooling fan operation stop") (step S). Cooling fan (3) inoperative if - the air intake of the air flow passage (20) to the air discharge opening (150) - natural air convection is the processing advances.

However step A2 in comparison judgment result, amorphous (4) average temperature of T_a Each amorphous (4) temperature value measured at t₁ , T₂ , .. , T_n Even one of value to a preset reference temperature value R_T If it exceeds a is cooling fan (3) (step A3) operating other (" cooling fan operating phases). Cooling fan (3) if operation, - as described prior air intake of the air flow passage (20) - (150) number plate of the convection air flow leading to the air discharge opening and bonds cleaning, thereby photovoltaic soundproof unit (1) of heat discharged from the photovoltaic soundproof unit quickly to the inner steel number (1) is equal to the fan and the temperature lowering.

Cooling fan (3) is activated in order to photovoltaic soundproof unit (1) during cooling of, said step (step A1) and temperature values of the temperature measuring and determining state (step A2) step is a predetermined operational tolerance time (Q_R ) Is constantly repeated during the preset time interval automatically by having the processing advances.

On the step A3 is started cooling fan (3) is activated, the current time (Q) to a preset cooling fan (3) time period operation of (Q_R ) Eliminating existing in the data area, i.e. yet pre-cooling fan (3) time period operation of (Q_R ) Determining whether or not a performing ("cooling fan operational tolerance time checking step") is equal to (step A4).

Current time (Q) the cooling fan (3) time period operation of (Q_R ) As within and lower, cooling fan (3) continues its operation is allowed ("cooling fan operation duration step") (step A5), alternatively cooling fan (3) time period operation of (Q_R ) Members are elapsed on the basis of the subsequent <[...] and cooling fan operation intensity scaling step up cool-down phase>(Step B) is equal to the loss.

In the present invention according to the method steps as above is also 8 number cooling fan <[...] and cooling fan operation intensity scaling step up cool-down phase>For specific flow degree (step B) shown disclosed. <[...] and cooling fan operation intensity scaling step up cool-down phase>In (step B), cooling fan (3) and the conductive photovoltaic soundproof unit operation (1) portions of state check again, cooling fan (3) interrupting operation of whether, and cooling fan (3) with the respective operation of strength to determine whether to with each other. Specifically generates flow shown as if they were of Figure 8, step A by cooling fan (3) and the conductive photovoltaic soundproof unit operation (1) portions of in, amorphous (4) is solar energy generating sound unit (1) of interior temperature value t₁ , T₂ , .. , T_n And the automatically and remeasuring, and holds the device number transmitted solar energy generating sound unit (1) of average interior temperature value T_a To determine the re ("temperature measurement and the mean value calculation step material") (step B1). Subsequently calculated amorphous material (4) of average temperature value T_a Reference temperature value allocated to R_T The comparison, each amorphous (4) is re-measured temperature value t₁ , T₂ , .. , T_n The preset reference temperature value R each_T In comparison, calculated amorphous material (4) of average temperature value T_a Each amorphous (4) is re-measured temperature value t₁ , T₂ , .. , T_n Even one of the value to a preset reference temperature value R_T Determining whether material exceeds ("temperature conditions as the brick end step") (step B2) S..

If calculated amorphous material (4) of average temperature value T_a Each amorphous (4) is re-measured temperature value t₁ , T₂ , .. , T_n The preset reference temperature value R is "both"_T Hereinafter if cooling fan is and (3) but is not operating (step S) ("cooling fan operation stop"), is recorded on an end step temperature of step B2 relative comparison of judgment result, amorphous (4) average temperature of T_a Each amorphous (4) temperature value measured at t₁ , T₂ , .. , T_n Even one of value to a preset reference temperature value R_T If it exceeds a is cooling fan (3) where it is again operating, when the cooling fan (3) by a predetermined degree of strength further increase state cooling fan (3) re-operating a "cooling fan (3) with the respective operating phases of operation of strength" (step B3) s7.

I.e., step A of <Thus the cooling fan cooling step>In spite of performing even to being,, still amorphous (4) average temperature of T_a Each amorphous (4) temperature value measured at t₁ , T₂ , .. , T_n Even one of value to a preset reference temperature value R_T Thereby exceeds state photovoltaic soundproof unit (1) is sufficiently cooled were remains unchanged, cooling fan (3) strongly increases in operating (cooling fan rotational speed of the aligned or not or, in larger cooling fan it is possible simultaneously with activates or deactivates or 2) photovoltaic soundproof unit (1) accelerating the cooling (cooling) are disclosed.

In the present invention the <Thus the cooling fan cooling step>On (step A) <[...] and cooling fan operation intensity scaling step up cool-down phase>Need recovery (step B) repeatedly sequentially disapproval. I.e., the first step A B after performance of performance of the first step, a second step subsequently A B after performance of performance of a second stage, after the third step and the third step A B need recovery performance of performance of a course can be repeated or hypermetropia.

First of number 1 <Thus the cooling fan cooling step>On a chuck. I.e., the mean value calculation step (step A1 provided 1) measuring temperature of number 1 and performing, subsequently to a corresponded temperature state determining step (step A1 provided 2) number 1, number 1 by performing a cooling fan of operating phases (step A1 provided 3), photovoltaic soundproof unit (1) exposed to convection inside the steel number photovoltaic soundproof unit (1) internal temperature of the barrier film. At this time number 1 is a predetermined number 1 by rotating a cooling fan of an operational tolerance time (Q_R1 ) For only during such that, an operational tolerance time number 1 (Q_R1 ) GaAs (step A1 provided 4) which members are whether, if an operational tolerance time number 1 (Q_R1 ) And long-term of all subsequent number 1 <[...] and cooling fan operation intensity scaling step up cool-down phase>On a chuck.

I.e., the mean value calculation step (step B1 provided 1) number 1 and number 1 for measuring temperature of material on the wafer stage step (step B1 provided 2) temperature state is recorded sequentially, amorphous yet (4) average temperature of T_a Each amorphous (4) temperature value measured at t₁ , T₂ , .. , T_n Even one of value R reference temperature value_T Greater than a judged that if additional cooling in order, cooling fan of number 1 (3) (step B1 provided 3) which gives rise to operating phases of operation of intensity adjusted upwards, cooling fan (3) rotational speed of aligned or not or, cooling fan (3) it is possible having 2 or larger activates or deactivates the first binary cooling fan (3) by a predetermined degree of strength further increase state cooling fan (3) is equal to re-operating.

The cooling fan of number 1 (3) (step B1 provided 3) is performed by rotating the operation of intensity adjusted upwards, subsequently of number 2 <Thus the cooling fan cooling step>Beam horizontally or hypermetropia. Of number 2 <Thus the cooling fan cooling step>Is only cooling fan (3) strength of operation of number 1 <Thus the cooling fan cooling step>Greater than is received, specific process of number 1 <Thus the cooling fan cooling step>The same disclosed.

As described prior, of number 2 <Thus the cooling fan cooling step>By providing sufficient solar energy generating sound unit (1) if cooling effect could not, of needed number 2 <[...] and cooling fan operation intensity scaling step up cool-down phase> Of number 3 and <Thus the cooling fan cooling step>Order on the sides of the can.

Such as on, photovoltaic soundproof unit in the present invention (1) automatically measuring temperature, measured depending on the temperature cooling fan (3) in steel number will automatically apply the heating convection photovoltaic soundproof unit (1) as the number of heat by internal steel to photovoltaic soundproof unit (1) in a solvent such as to, in a previously established time photovoltaic soundproof unit (1) circuit for the throttle valve when the target is not enough cooling fan (3) strength of a defined sequence sequentially along the upward to photovoltaic soundproof unit (1) quickly and effectively cooling a sample are disclosed. the present invention, a photovoltaic soundproof unit (1) in using photovoltaic panel can be effectively prevent overheating of, and thereby the power generating efficiency is equal to or thicker than the first metal.

Such as on artificial intelligence by the algorithm of the present invention having a cooling fan EPS-a VC manner photovoltaic soundproof unit (1) is as follows form photovoltaic soundproof wall (100) to form with each other.

The present invention according to photovoltaic soundproof wall 9 also is (100) is shown a perspective view and of coarse, photovoltaic soundproof wall is also 10 of Figure 9 (100) for see the photovoltaic soundproof unit (1) a strut (102) is installed during installation is shown between coarse perspective view is shown disclosed.

The present invention according to photovoltaic soundproof wall (100) the photovoltaic soundproof unit (1) with which, as also shown in 9 and 10 also, base structure (101) is photovoltaic soundproof unit (1) spaced in the width direction ("longitudinal") a plurality of strut (102) is fitted by the fixed vertical, neighboring column (102) in a gap between the photovoltaic soundproof unit (1) is to be fitted to the photovoltaic soundproof wall stores in a holding groove (100) of the elliptic cylinder substrate. Photovoltaic soundproof unit (1) is moved in, photovoltaic soundproof wall (100) in accordance with the height required for a plurality of photovoltaic soundproof unit (1) stores a part deposit disclosed. In the embodiment shown in the case of drawing, strut (102) is made of a steel H, photovoltaic soundproof unit (1) longitudinal both ends on steel H, lower flange and web to be fitted in the vertical obtained photovoltaic soundproof unit (1) strut (102) is shown but which is placed between the, photovoltaic soundproof unit (1) strut (102) portion is fixed between the method without using various method can be limited.

On the other hand, a plurality of photovoltaic soundproof unit (1) stores in a randomly laminated compress, on, located beneath the photovoltaic soundproof unit (1) information database, located beneath the photovoltaic soundproof unit (1) the air discharge opening (150) position, less photovoltaic soundproof unit (1) of gas turbine (160) position coincide with each other in such a manner as follows. The photovoltaic soundproof unit positioned below (1) an air-flow path through the air discharge opening (150) continuously less air discharged through photovoltaic soundproof unit (1) through the latter will be discharged to the outside substrate.

As aforementioned, cooling fan (3) having a filament can be employed, waterproof free cooling fan (3) is fixed to upper (15) installing a blocking film upwardly of the photovoltaic soundproof unit applied to (1) an air outlet (150) into which a preferably excellent blocking. Waterproof as well as having cooling fan (3) even when using, if necessary applied photovoltaic soundproof unit (1) in the air discharge opening (150) above a portion of the screen the user can be provided.