Patent Abstract:
A dazzling light device includes a shell, a gem stone and one or several lighting members. The shell comprises a holding section to hold the gem stone therein. The lighting member shines light to the gem stone which then refracts or reflects light from various angles to produce dazzling light. By rotating or moving lamp shades in relation to the gem stone, the light produces different dazzling effect.

Full Description:
FIELD OF THE INVENTION 
   This invention relates to a dazzling light device, and more particularly to a light device incorporated with lamp shades to produce a dazzling light effect. 
   BACKGROUND OF THE INVENTION 
   Light devices are well used for many years by human being to assist in walking or working at a dark area. The light device comprises a shell and a lighting element (also known as a bulb or a light emitting diode) secured within the shell. When the light device is activated, the light reflects through the reflecting surface of the shell to enhance illumination. 
   The traditional light devices can only provide illumination without any decorating effect to attract consumers. 
   Thus, the inventor has derived the present invention to provide a light device, which is attractive. 
   SUMMARY OF THE INVENTION 
   It is the primary objective of the present invention to provide a dazzling light device, which attracts people&#39;s eyesight. 
   It is another objective of the present invention to provide a dazzling light device, which produces a dazzling light effect. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
       FIG. 1  is a cross-sectional view of a first embodiment of the present invention; 
       FIG. 2  is a cross-sectional view of a second embodiment of the present invention; 
       FIG. 3  is a cross-sectional view of a third embodiment of the present invention; 
       FIG. 4  is a cross-sectional view of a fourth embodiment of the present invention; 
       FIG. 5  is a cross-sectional view of a fifth embodiment of the present invention; 
       FIG. 6  is a cross-sectional view of a sixth embodiment of the present invention; and 
       FIG. 7  is a cross-sectional view of a seventh embodiment of the present invention. 
   

   DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
   The present invention comprises a shell  1 , a gem stone  2  and one or several lighting members  3 . 
   The shell  1  comprises a holding section  11 . (In this embodiment, the holding section  11  is consisted of a number of ribs.) The lighting member  3  is secured on the inner wall of the shell  1 . 
   The gem stone  2  (diamond will be taken as an example in this embodiment) is secured by the holding section  11  to stay in the shell  1  firmly, and is cut in various angle surfaces  21 . Due to the transparent character, the light will reflect or refract from various angles. 
   When the lighting member  3  is activated to illuminate, the gem stone  2  will reflect or refract the light from all of its cutting surfaces  21  and perform multiple reflections or refractions to produce dazzling light effect. 
   A second embodiment of the present invention, as shown in  FIG. 2 , the lighting member  3 A is relocated in the holding section  11  of the shell  1  and behind the gem stone  2 . The lighting member  3 A will shine the bottom of the gem stone  2 , and the gem stone  2  will reflect or refract the light from all of its cutting surfaces  21 . The illumination will produce a different effect. 
   For the above two embodiments, the gem stone  2  may reflect or refract light from an outside light source without the requirement of lighting members  3  in the shell  1  to produce the same dazzling light effect. 
   A third embodiment is illustrated in  FIG. 3 , which comprises other than the shell  1 A, the gem stone  2  and the lighting member  3 A, a connecting ring  4  and a first lamp shade  5 . 
   The shell  1 A comprises a holding section  11 A on the inner wall, a notch  12 A at the outer ridge, and a transmission device  13 A corresponding to the notch  12 A. The transmission device  13 A has a transmission wheel  131 A seating on the notch  12 A. The transmission device  13 A is best to be a motor. The shell  1 A is provided with a supporting section  14 A secured on the inner edge corresponding to the notch  12 A. The supporting section  14 A is an auxiliary wheel in this embodiment. 
   The connecting ring  4  comprises a gear  41  on its outer edge adapted to mesh with the transmission device  13 A, and is connected with the first lamp shade  5  at the inner edge of the connecting ring  4 . A trough  42  is formed between the inner edge and the outer edge of the connecting ring  4 . 
   The first lamp shade  5  is made of transparent material having a protuberance surface  51  at one side with a plurality of refracting surfaces  52 . 
   The first lamp shade  5  is fastened into the trough  42  of the connecting ring  4  with the gear  41  meshing with the transmission wheel  131 A of the transmission device  13 A. The connecting ring  4  is driven to rotate in relation to the gem stone  2  by the transmission wheel  131 A of the transmission device  13 A. The cutting surfaces  21  of the gem stone  2  reflect or refract the light to the refracting surfaces  52  of the protuberance surface  51  of the first lamp shade  5  to produce multiple reflections or refractions. 
   A fourth embodiment of the present invention, as shown in  FIG. 4 , is to add a second lamp shade  6  which is mounted on a second notch  12 B of a shell  1 B, and a second transmission device  13 B is also secured to the shell  1 B with another transmission wheel  131 B extending into the second notch  12 B. The inner wall of the shell  1 B is also formed with a supporting section  14 B. The supporting section  14 B is an auxiliary wheel in this embodiment. 
   The second lamp shade  6  is connected to the connecting ring  4  at its outer edge. The gear  41  of the connecting ring  4  meshes with the transmission wheel  131 B of the transmission device  13 B, thus the second lamp shade  6  may be rotated with respect to the first lamp shade  5 . 
   To practice, the two transmission devices  13 B link the first lamp shade  5  and the second lamp shade  6  to rotate in an opposing direction. 
   A fifth embodiment of the present invention, as shown in  FIG. 5 , comprises a shell  1 C having a sliding trough  12 C. The shell  1 C is provided with a transmission device  13 C at its outer edge. The transmission device  13 C comprises a leading screw as its spindle. The connecting ring  4 A connected with the first lamp shade  5  has a sleeve  41 A extending from its outer edge. The sleeve  41 A is formed with inner threads therein. The connecting ring  4 A extends outwardly from the sliding trough  12 C to connect with the spindle of the transmission device  13 C, while the connecting ring  4 A is formed with at least one pivoting hole  42 A at its outer edge in relation to the sleeve  41 A for insertion of a guiding rod  15  pivotally connected to the inner wall of the shell  1 C. 
   When the spindle of the transmission device  13 C rotates, the connecting ring  4 A links the sleeve  41 A and the first lamp shade  5  to slide along the guiding rod  15  in a linear direction in relation to the gem stone  2 . This distance change will produce a different lighting effect as well. 
   A sixth embodiment, as shown in  FIG. 6 , other than fifth embodiment is to add a unit of a second lamp shade  6  and a second connecting ring  4 A to the shell  1 C. The second lamp shade  6  and the second connecting ring  4 A are driven by the transmission device  13 C. Each connecting ring  4 A is provided with the sleeve  41 A and the pivoting hole ( 42 A) to receive the spindle of the transmission device  13 C and the guiding rod ( 15 ) therein. 
   In practice, when the transmission device  13 C is activated, the first lamp shade  5  and the second lamp shade  6  are linked to move in a linear direction in relation to the gem stone  2 . This makes the light provide an even dazzling effect. The first lamp shade  5  and the second lamp shade  6  of this embodiment are linked by the transmission device  13 C to move closer or farther in an opposite direction. 
   A seventh embodiment of the present invention as shown in  FIG. 7 , comprises a shell  1 D. The shell  1 D is consisted of a first shell  11 D and a second shell  12 D. Both the first shell  11 D and the second shell  12 D comprise reflecting surfaces  111 D and  112 D at the inner walls, respectively. The shell  11 D further comprises a shade  7  with a protuberance surface  71  thereon. The protuberance surface  71  has a plurality of refracting surfaces  72 . When the lighting member  3 A shines the gem stone  2 , the light reflects or refracts from the gem stone  2  to the reflecting surfaces  111 D and  112 D of the first shell  11 D and the second shell  12 D and makes multiple reflections of the light through the reflecting surfaces  111 D and  112 D before the light goes to the shade  7  which makes another reflection and refraction through the refracting surfaces  72 .

Technology Classification (CPC): 5