Abstract:
A lighting system automatically adjusts at least one control illumination value of at least one illumination light beam provided to at least one selected region. The lighting system comprises at least one light assembly, a reflection element, at least one illumination sensing unit, and a control module. The light assembly comprises a plurality of light sources and a lighting direction control mechanism. After the light source projects an injection light along an injection direction, the reflection element reflects the injection light to project the illumination light toward the selected region, the illumination sensing unit senses a total illumination of the selected region to accordingly send an illumination sensing signal, the control module outputs an illumination control signal in accordance with the illumination sensing signal to control the lighting direction control mechanism to change the direction of the light assembly, therefore the control illumination can be automatically adjusted.

Description:
FIELD OF THE INVENTION 
       [0001]    The present invention relates to a lighting system, and more particularly to a lighting system being capable of automatically adjusting illumination. 
       BACKGROUND OF THE INVENTION 
       [0002]    For indoor illumination-design, a lighting device providing different illumination variations is adopted for the changing environment caused by the alternation of day and night and the variations of weather. 
         [0003]    Meanwhile, in some specified application fields, such as the animal and plant cultivation, the illumination control is then the most important factor. For example, in the north hemisphere of the earth, the illumination-hour of sunshine is less than 12 hours form the Autumnal Equinox to the Spring Equinox of next year, so that for getting better efficiency of cultivation, it is necessary to provide additional illumination hours to the cultivated animals or plants by the specified lighting devices. 
         [0004]    For indoor or outdoor sport stadiums, the illumination value of environment is obviously varied due to some activities and sport games are played from day to night. For the purpose of making the players enjoy the activities or sport games without being influenced by the variations of environment illumination, it is usually necessary to use proper lighting systems or devices for providing stable illumination under the variations of environment. 
         [0005]    For meeting the requirements as mentioned above, an embodiment of illumination adjustment technique provided according to prior arts is cited as follows. Please refer to  FIG. 1 , which illustrates a partial view of a lighting system provided in prior arts. As shown in  FIG. 1 , a lighting system  1  includes a light box  11 , a light assembly  12 , a reflection assembly  13 , and a control element  14 . The light is disposed at a specified position within the light box  11  and has a plurality of light sources  121 . The reflection assembly  13  includes a reflection plate  131  and a lighting direction control mechanism  132 . The lighting direction control mechanism  132  is connected to the light box  11  and the reflection plate  131 , and mechanically or electrically connected to the control element  14 . 
         [0006]    When the lighting system  1  provides illumination to a selected region  2 , the plurality of light sources  121  projects an injection light beam IL 0  along an injection direction I 0  to the reflection plate  131 , the light beam IL 0  is reflected to project an illumination light beam LL 0  along an illumination direction I 1  to the surface of the selected region  2  in an injection angle θ 0 . 
         [0007]    If a user feels that the illumination light beam cannot provide sufficient illumination to the selected region  2 , he can operate the control element  14  to control the lighting direction control mechanism  132  to make the reflection plate  131  rotate a rotation angle Δθ 0  along a rotation direction I 2 . After that, the injection light beam IL 0  will be reflected again to project the illumination light LL 0  along another illumination direction I 1 ′ to the surface of the selected region  2  in another injection angle θ 0 ′. From the geographical relation shown in  FIG. 1 , we can easily realize that: 
         [0000]      θ 0 ′=θ 0 −2Δθ 0 . 
         [0008]    People skilled in related arts can easily realize the illumination value that the illumination light beam LL 0  provides to the surface of the selected region  2  can be generally calculated from the formula as follow: 
         [0000]        I   eff =( I   to1 )(cos θ), wherein       I eff  is an effective illumination value that the illumination light beam LL 0  provides to the surface of the selected region  2 ;   θ is an injection angle that the illumination light beam LL 0  projects to the surface of the selected region; and   I to1  is a full illumination value, i.e., a maximum illumination value when the injection angle equals to 0 degree.
 
As above conditions, the effective illumination value is changed from (I to1 )·(cos θ 0 ) to (I to1 )·(cos θ 0 ′). Due to θ 0 ′=θ 0 −2Δθ 0 , the effective illumination value that the illumination light beam LL 0  provides to the surface of the selected region  2  will be increased after above adjustment.
         
         [0012]    On the contrary, when the user feels that the illumination light beam is too bright to light on the selected region, he can operate the control element  14  to control the lighting direction control mechanism  132  to make the reflection plate  131  rotate along a rotation direction opposite to the rotation direction I 2 , and then the effective illumination value that the illumination light beam LL 0  provides to the surface of the selected region  2  will be decreased. 
         [0013]    However, as above disclosure, when carrying out the adjustment of the illumination, it is still necessary to observe the illumination of the selected region by the naked eyes of user or by an illumination sensor, and adjust the illumination value, that the illumination light beam LL 0  provides to the surface of the selected region  2  through operating the control element  14 , by the user. Besides, in the lighting system  1 , it is only able to adjust the illumination with respect to a single selected region  2  via the reflection element  131  and the lighting direction control mechanism  132 . 
       SUMMARY OF THE INVENTION 
       [0014]    The problems intend being solved in the present invention and the objects of the present invention are described as follows: 
         [0000]    Summarizing above description, the adjustment technique of prior arts is very inconvenient to execute the adjustment of illumination due to it still needs to be carried out through that the user must observe the illumination and operate the control element. Furthermore, the adjustment technique of prior arts is only capable of adjusting the illumination with respect to a single selected region, so that the whole performance of the illumination adjustment is obviously limited. 
         [0015]    Thus, the primary object of the present invention provides a lighting system capable of automatically adjusting illumination. The lighting system senses an integral illumination value of a selected region via an illumination sensing unit, and automatically adjusts an injection angle of an illumination light beam projected from a plurality of light sources of a light assembly according to the integral illumination value sensed by the illumination sensing unit, so that a control illumination value that the illumination light beam provides to a selected region can be automatically adjusted. 
         [0016]    The secondary object of the present invention provides a lighting system capable of automatically adjusting illumination. The lighting system is further provided with a plurality of illumination sensing units and light assemblies, so that the lighting system can sense a plurality of integral illumination values of the selected regions, so that it is capable of respectively sensing the plurality of integral illumination values of the selected regions and adjusting the control illumination values that the illumination light beams provide to the of the selected regions. 
       MEANS OF THE PRESENT INVENTION FOR SOLVING PROBLEMS 
       [0017]    Means of the present invention for solving the problems as mentioned above provide a lighting system capable of automatically adjusting at least one control illumination value that at least one illumination provides to at least one selected region. The lighting system comprises at least one light assembly, a reflection element, at least one illumination sensing unit, and a control module. The light assembly includes a plurality of light sources and a lighting direction control mechanism. After the light sources project an injection light beam along an injection direction to the reflection element, an illumination light beam is then projected to the selected region. Continuously, the illumination sensing unit can sense an integral illumination value to accordingly output an illumination sensing signal. Finally, the control module can output an illumination control signal according to the illumination sensing signal to control the lighting direction control mechanism for adjusting the control illumination value. 
         [0018]    Meanwhile, the present invention is able to connect a data input device to the control module via a transmission cable or a wireless signal sending and receiving method. Thus, it is capable of presetting and storing at least one illumination calculation program and lighting-hour sequence according to real requirements, so that it is able to automatically adjust the control illumination value for a long period. Of course, the present invention is capable of connecting to the control element as disclosed in the prior arts, so that when the illumination sensing unit or the control module is out of order, it is still able to adjust the control illumination value that the lighting system provides to the selected region. 
       EFFECTS OF THE PRESENT INVENTION WITH RESPECT TO PRIOR ARTS 
       [0019]    Compare the lighting system of the present invention with the prior arts, the lighting system of the present invention is not only able to automatically adjust the control illumination value that the lighting system provides to a single selected region, but also automatically adjust the illumination values that the lighting system respectively provides to a plurality of selected regions. Thus, the present invention not only greatly improves the convenience of operation, but also provides an additionally function of providing different illumination values to different selected regions respectively. 
         [0020]    The devices, characteristics, and the preferred embodiment of this invention are described with relative figures as follows. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0021]    The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein 
           [0022]      FIG. 1  illustrates a partial view of a lighting system provided in prior arts; 
           [0023]      FIG. 2  illustrates a partial view of a preferred embodiment of the present invention; and 
           [0024]      FIG. 3  illustrates a functional block diagram of a preferred embodiment of the present invention. 
       
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
       [0025]    Due to that the lighting system as provided in accordance with the present invention can be widely applied to many illumination applications, the combined applications are too numerous to be enumerated and described so that we disclose two preferred embodiments here. 
         [0026]    Please refer to  FIG. 2  and  FIG. 3 , wherein  FIG. 2  presents a partial view of a preferred embodiment of the present invention, and  FIG. 3  presents a functional block diagram of a preferred embodiment of the present invention. As shown in the figures, a lighting system  3  includes a light box  31 , a light assembly  32 , a reflection element  33 , an illumination sensing unit  34 , and a control module  35 . 
         [0027]    The light assembly  32  is disposed in a specified position within the light box  31 , and has a plurality of light sources  321  and a lighting direction control mechanism  322 . In this preferred embodiment, the light sources can be light emitting diodes (LEDs), and the lighting direction control mechanism  322  is connected to the light box  31  and mechanically or electrically connected to the control module  35 . The illumination sensing unit  34  is arranged in the selected region  2 , and has an illumination sensing signal emitter  341 . Meanwhile, the selected region  2  has an environment illumination value before the lighting system provides illumination to the selected region. 
         [0028]    The control module  35  includes an illumination sensing signal receiver  351 , a signal processing circuit  352 , an operation processing unit, and a register  354  as shown in  FIG. 3 . The register  354  is pre-stored an illumination calculation program, and capable of presetting or pre-storing at least one lighting-hour sequence in accordance with real requirements. 
         [0029]    When the lighting system  3  provides illumination to the selected region, the lighting sources  321  project an injection light beam IL 1  along the injection direction II 0  to the reflection element  33 , after that, an illumination light beam LL 1  is projected along an illumination direction II 1  to the surface of the selected region  2  in an injection angle θ 1 , for providing a control illumination value to the selected region  2 . 
         [0030]    Meantime, the illumination sensing unit  34  arranged in the selected region  2  can automatically sense an integral illumination, which equals to the sum of the environment illumination value and the control illumination value. When the control illumination value equals to zero, the lighting system has not provided any illumination to the selected region yet, so that the integral illumination value equals to the environment illumination value. In other words, the illumination sensing unit  34  is also capable of sensing the environment illumination value. The illumination sensing signal emitter  341  of the illumination sensing unit  34  can then output an illumination sensing signal S 1  representing the integral illumination value, and the illumination sensing signal receiver  351  of the control module  35  receives the illumination sensing signal S 1 . 
         [0031]    After that, the illumination sensing signal S 1  is filtered, amplified, and normalized by the signal processing circuit  352  and then transmitted to the operation processing unit  353 . The operation processing unit  353  can download the preset or pre-stored illumination calculation program or lighting-hour sequence from the register  354  to execute an analyzing calculation to the integral illumination transmitted by the illumination sensing signal S 1 , and then output an illumination control signal S 2  to the lighting direction control mechanism  322  for controlling the light assembly  32  to change directions. 
         [0032]    If the integral illumination value is too low, the illumination control signal S 2  can control the light assembly  32  turning along a rotation direction II 2  in a rotation angle Δθ 1 . After that, the light sources  321  can project the injection light beam IL 1  along another injection direction II 0 ′ to the reflection element  33 , and then the illumination light beam LL 1  is projected along another illumination direction II 1 ′ to the surface of the selected region  2  in another injection angle θ 1 ′, hereafter to carry out the adjustment of the control illumination of the lighting system  3  provided to the selected region. 
         [0033]    From the geographical relation as shown in  FIG. 2 , we can realize that θ 1 ′=θ 1 −2Δθ 1 . As mentions in prior arts, the control illumination value of the light beam LL 1  provided to the surface of the selected region  2  can be generally calculated from the formula as follow: 
         [0000]        I   eff =( I   to1 )(cos θ), wherein       I eff  is an effective control illumination value that the illumination light beam LL 1  provides to the surface of the selected region  2 ;   θ is an injection angle that the illumination light beam LL 1  projects to the surface of the selected region; and   I to1  is a full control illumination value, i.e., I to1  is a maximum control illumination value when the injection angle equals to 0 degree.
 
Under the conditions of the preferred embodiment, the effective illumination value is changed from (I to1 )·(cos θ 1 ) to (I to1 )·(cos θ 1 ′). Due to θ 1 ′=θ 1 −2Δθ 1 , the effective control illumination value that the illumination light beam LL 1  provides to the surface of the selected region  2  will be increased after above adjustment.
         
         [0037]    On the contrary, when the integral illumination value is too high, the illumination control signal S 2  can turn the lighting direction control mechanism  322  along a rotation direction opposite to the rotation direction II 2 , and then the effective control illumination value, that the illumination light beam LL 1  provides to the surface of the selected region  2 , will be decreased. 
         [0038]    People skilled in related arts can easily realize that, the adjustment of the control illumination of the preferred embodiment is executed by adjusting the injection angle θ 1 , while in practice, installing proper voltage dividing circuits or voltage control chips in the light assembly  32  can adjust the voltage supplied to the light sources  321 . Through the means, the strength of the injection light beam IL 1  projected from the light sources  321  can be adjusted, moreover, the control illumination value, that the illumination light beam LL 1  provides to the surface of the selected region  2 , also can be simultaneously adjusted. 
         [0039]    Although the lighting system  3  of the preferred embodiment only has a light assembly  32 , the lighting system  3  can be still fitted with a plurality of light assemblies  32 . The light assemblies can be disposed within the light box  11  according to a specified array or around the inner wall of the light box. Moreover, the embodiment can adopt another way of arranging a plurality of illumination sensing units  34  in a plurality of selected regions  2  respectively, and simultaneously controlling the light assemblies  32  turning in different rotation angles via the control module  35  in accordance with the integral illumination values sensed by the plurality of illumination sensing units  34 . 
         [0040]    Positively, it is able to provide two or more illumination light beams with a same injection angle or different angles respectively from two or more light assemblies to a single selected region for adjusting the control illumination value that intended to be provided to the single selected region. 
         [0041]    Besides, the reflection element  33  can be formed with a pattern-grained surface for modulating the illumination light beam LL 1  to prevent that the user feels the illumination light beam LL 1  being too harsh to see. Furthermore, the reflection element  33  can be made through micro-structural design and proper surface treatment to have a performance of anti-glare. Obviously, the present invention can be connected to the control element as provided in prior arts, so that the embodiment can manually control the lighting direction control mechanism  322  when the illumination sensing unit  34  or the control module  35  is out of order. 
         [0042]    In the lighting system  3 , it is able to connect a data input device to the register  354  via a transmission cable or a wireless signal sending and receiving method in order to input the pre-set or pre-stored illumination calculation program and lighting-hour sequence. 
         [0043]    Hereinafter, an application will be disclosed to explain above technique. When the lighting system  3  provides illumination to the long-sunshine-hour plants, a lighting-hour sequence according to the growth requirement of the long-sunshine-hour plants located in one of the selected regions can be pre-set and pre-stored, and the long-sunshine-hour plants may be located in a selected region wherein the light-hour sequence includes an integral illumination value and an illumination maintenance time. 
         [0044]    For example, for the first three months, the long-sunshine-hour plants located in the selected region may need to be illuminated in one integral illumination value of 20 lumens for 16 hours and the other integral illumination value of 2 lumens for 8 hours per day; after three months, the long-sunshine-hour plants located in the selected region may need to be illuminated in one integral illumination of 30 lumens for 14 hours and the other integral illumination of 4 lumens for 10 hours per day. 
         [0045]    When the long-sunshine-hour plants located in the selected region  2  need to be illuminated in the integral illumination value of 30 lumens, but the environment illumination value is only 2 lumens, the lighting system  3  should provide a control value of 28 lumens to meet the requirements of 30 illumination. Therefore, if the maximum control illumination value, that one of the light assemblies  32  provided to the selected region  2 , is 20 lumens, the illumination sensing unit  34  only can sense an integral illumination value of 22 lumens, so that it still need another 8 lumens. Thus, another one of the light assemblies  32  can provide another control illumination value of 8 lumens to the long-sunshine-hour plants located in the selected region  2 , after that, the whole lighting system  3  can provide the total control illumination of 28 lumens and make the integral illumination value meet the requirement of 30 lumens. 
         [0046]    Although the present invention has been described with reference to the preferred embodiments thereof, it is apparent to those skilled in the art that a variety of modifications and changes may be made without departing from the scope of the present invention which is intend to be defined by the append claims.