Abstract:
A key array structure comprises a key array constituted by connecting a plurality of key members arranged in an array, it is characterized in that an elastic element is connected between each two adjacent key members and a positioning hole or position holes is or are disposed in the key member. The elastic member disposed between each two adjacent key members of the key array structure according to the present invention has a cushioning effect to adjust the deformation of the key array caused from the processes such as heat baking while manufacturing so as to allow the positioning hole in each key member to be precisely positioned with a corresponding position pin on a relative member.

Description:
This Non-provisional application claims priority under 35 U.S.C. § 119(a) on Patent Application No(s). 093208129 filed in Taiwan, Republic of China on May 24, 2004, the entire contents of which are hereby incorporated by reference. 
   BACKGROUND OF THE INVENTION 
   1. Field of the Invention 
   The present invention relates to a key array structure, and more particularly to a key array in which an elastic member is disposed between each two keys to adjust the deformation yielded from manufacturing process such as hot baking to allow a positioning hole on each key member to be able to be accurately coupled with a positioning pin on a relative member. 
   2. Description of Related Art 
   Function keys used on electronic machines such as a video recorder/player, CD player and DVD recorder/player are always designed to be a function key array structure for being matched up with the model and the outlook of such facilities. These keys are assembled one by one in the earlier time. But, a key structure capable of integrating keys into one body and assembling by one set is currently developed to attain to the assembly of all keys in one time accompanying the progress of plastic molding technology and the consideration of convenience and labor cost in manufacturing so as to save the labor cost and the assembly time and further to lower the production costs of such kinds of facilities. 
   A position hole, as  FIG. 1  shows, is disposed between each two adjacent keys in a conventional key array structure for precise positioning while assembling. However, only an precise positioning hole shown as an element  11  in  FIG. 1  is disposed in an key array structure for a general positioning design thereof, and this precise positioning hole is usually in the middle of the key array and the rest of positioning holes are long holes shown as an element number  12  in  FIG. 1 ; the long hole positioning is only an auxiliary but not accurate positioning. The key array structures are mostly made from a manufacturing process such as plastic injection forming. The deviation of the positioning hole is possibly caused from a manufacturing error when the key array is manufactured or a paint such as pigment or a metal layer needed to coat or plate on the key array for increasing artistic quality or product value and a baking process needs to be practiced thereon at this time. The heat participated in the baking process could cause the key array to be deformed a little to induce the deviation of the positioning hole. The tolerance becomes larger when the position hole is farer away from the central accurate positioning hole. The accumulations of the error on the manufacturing of the key array mentioned above and the tolerance mentioned above causes the deviation of the key so that a uneven gap could formed between it and the positioning hole. 
   SUMMARY OF THE INVENTION 
   The present invention relates to a key array structure, mainly comprises a key array constituted by connecting a plurality of key members in an array, in which an elastic element is inserted between each two adjacent keys to connect them together and each key member is constituted by a fixing rack, key main body and key seat. The key seat is connected to the fixing rack through at least one elastic arm so that pressing-down and rebounding forces can be provided through the deformation of the elastic arm when the key member is pressed down. A positioning hole is disposed in the fixing rack for accepting a positioning pin on a relative member to process an accurate positioning. A projecting post is disposed at the opposite side of the key seat and the seat main body and a guide notch used to prevent the key from heeling is disposed approximately in the middle of a side of the key seat above or below the key main body or both of them for being connected with a raise mass on the corresponding member. 
   A key array structure according to the present invention is characterized in that each two adjacent key members are connected through an elastic element; the elastic element can be functioned as a buffer under a circumstance that a key array is caused to deform slightly when the key array is manufactured by injection forming so as to adjust properly a distance error formed between the position hole disposed in each key member and the corresponding position pin in the relative member caused from the deformation owing to the control of manufacturing conditions to allow the positioning hole in each key array structure according to the present invention to be able to be precisely positioned with the corresponding positioning pin. 
   Besides, each two adjacent key members according to the present invention are connected through an elastic element; a plurality of corresponding positioning pins can be disposed on a relative member to insert into positioning holes disposed in the key member to fix each other so as to solve the problem of the uneasy control of the interval between two key members caused from the deviation of the position hole in a conventional key array. 
   Along hole type auxiliary positioning hole can further disposed in a fixing rack of a key array structure according to the present invention besides a positioning hole so as to boost the stable positioning for the key member. For avoiding the dimension error caused from the heat participated in the manufacturing of the key array, the auxiliary positioning hole is designed to be a long hole type to tolerate the error. 
   A projecting post is disposed on the opposite of the key main body on each key seat in a key array structure according to the present invention is used to prop against a IC plate to prevent the key from being elastically deformed after frequent and numerous pressings. 
   For further preventing the key from being elastically deformed after numerous pressings, a projecting post can also be disposed at a proper position on the elastic element mentioned above besides the projecting post is disposed on the key seat and the opposite side of key main body to assist the fixation of the key and prevention of the elastic deformation. 
   A positioning hole can further be disposed in the bottom of the U type member, i.e. the circular arc of the U type member to bring a further positioning function when a positioning pin is disposed at a corresponding position on the relative member. But, the projecting post and the positioning hole in the elastic element of the key array structure according to the present invention are optional. 
   Besides, a guide notch is disposed on the key seat at a side of the key seat below or above the key main body or both of them in the key array structure according to the present invention. The guide groove is corresponding to the raised mass on the relative member so as to be engaged with the raised mass to prevent the key from heeling. 
   The distance between each two adjacent keys and the number of the keys are not particularly limited in the key array according to the present invention. And, whether the distance between each two adjacent keys is equal is also not limited. They are decided by the final purpose such as the design of a video/audio player and the number of needed function keys. 
   By the way, the relative member mentioned above means an operation panel on the video/audio player or something else. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The present invention can be more fully understood by reference to the following description and accompanying drawings, in which: 
       FIG. 1  is a schematic view, showing a key array structure of the prior art; 
       FIG. 2  is a schematic view, showing a key array structure of a preferred embodiment according to the present invention; 
       FIG. 3  is a schematic view, showing a key array structure of another preferred embodiment according to the present invention; 
       FIG. 4  is a top view, showing a key array structure shown in  FIG. 3 ; 
       FIG. 5  is a bottom view, showing a key array structure shown in  FIG. 3 ; and 
       FIG. 6  is a cross sectional view, showing a combination of a relative member and a key array structure of the preferred embodiment of the present invention shown in  FIG. 3  after assembly. 
   

   DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
   Please refer to  FIG. 2 .  FIG. 2  is a front schematic view, showing a key array structure of a preferred embodiment according to the present invention. For clarity in description, a positioning hole and an auxiliary positioning hole are disposed in each key member in the figure. A key array  2  is constituted by a plurality of key members  21  and an elastic element  22  connected between each two adjacent key members, in which the key member comprises a fixing rack  211 , key seat  212  and key main body  213 , in which each key member is connected to the fixing rack through two elastic arms  214  and to provide an elastic force to press down or rebound the key main body  213  owing to the deformation of the elastic arms  214  when the key main body  213  is pressed, a positioning hole  215  and auxiliary hole  215 ′, a guide notch  216  is disposed on the key seat  212  approximately in the middle of a side of the key seat  212  below the key main body  213  and a projecting post  217  and pressing element  218  are disposed on the key seat  212  and at the opposite side of the key main body  213 . The projecting post  217  is propped against a circuit board (not shown in the figure) located at the rear of the key array  2  to provide a supporting force to prevent the key from being permanently deformed owing to the elastic fatigue of the key when the key is pressed and the pressing element  218  is contacted with a driving unit (not shown in the figure) on the circuit board to actuate the function that the key stands for when the key is pressed. A projecting post (not shown in  FIG. 2 , but can be seen in  FIG. 5 ) can also be disposed on the fixing seat  211  and at the opposite side of the key main body  213  for propping against the circuit located at the rear of the key array  2  to provide a supporting force. A positioning hole  221  is disposed in the center of the elastic element  22  and can also be inserted into a corresponding positioning pin disposed on the relative member. 
   Next, please refer to  FIG. 3 .  FIG. 3  is a schematic view, showing a key array structure of another preferred embodiment according to the present invention. From the figure, a positioning hole, auxiliary positioning hole, a key seat on which two guide notches are formed are disposed on each key member and an elastic element with a projecting post thereon is disposed between each two adjacent key members. A key array structure  3  comprises a plurality of key members  31  in which an elastic element  32  is connected between each two adjacent key members  31 . The key member  31  is constituted by a fixing rack  311 , key seat  312  and key main body  313 . The key seat  312  is connected to the fixing rack  311  through two elastic arms  314  that provides a elasticity for pressing down and rebounding the key main body  313  by an elastic force yielded from the deformation of the elastic arms when the key main body is pressed. A positioning hole  315  and auxiliary positioning hole  315 ′ are disposed in the fixing rack  311 , a guide notch  316  is disposed approximately in the middle of one side of the key seat  312  below the key main body  313  and a projecting post  317  and a pressing element  318  are disposed on the key seat and at the opposite side of the key main body  313 . The projecting post  317  is propped against a circuit board (not shown in the figure) at the rear of the key array  3  after the key is pressed for providing a supporting force to prevent the key from being permanently deformed owing to an elastic fatigue and the pressing element  318  is contacted with an actuator unit (not shown in the figure) on the circuit board to actuate the function that the key stands for when the key is pressed. Besides, a projecting post  319  (please refer to  FIG. 5 ) can also be disposed on the fixing seat  311  and at the opposite side of the key main body  313  for propping against the circuit board at the rear of the key array  3  to provide a fixation supporting force therefore. A positioning hole  321  and projecting post  322  are disposed at the center of the elastic element  32 ; the positioning hole  321  can be inserted by a corresponding positioning pin disposed on the relative member and the projecting post  322  can be propped against the circuit board to provide a fixing force for the key array  3 . 
   The projecting post  322  mentioned above can be optionally disposed on all or a part of the elastic elements  32 . For example, it can be disposed in every other elastic element  32 . 
     FIG. 4  is a top view showing a part of key members of the key array shown in  FIG. 3 . The figure is used to show two guide notches  316  and  316  disposed on each key seat  312  approximately in the middle thereof above and below the key main body  313 . 
     FIG. 5  is a rear view showing a part of key members of the key array shown in  FIG. 3 . The figure is used to show the projecting post  319  disposed on the rack  311  and the opposite side of the key main body  313  and the projecting post  317  and pressing element  318  disposed on the key seat  312  and at the opposite side of the key main body  313 . 
     FIG. 6  is a cross-sectional view showing the key array structure of the preferred embodiment according to the present invention and the relative member after assembly shown in  FIG. 3 . When the key array structure  3  is assembled to the relative member  6 , the key main body  313  is passed through the key hole  61  in the relative member  6  and the key array structure  3  and the relative member  6  are fixed together by inserting the positioning pins  62  into the positioning hole  315  and the auxiliary positioning hole  315 ′ on each rack  311 . In addition, the positioning hole  321  disposed on the elastic element  32  is also inserted by the positioning pin  64  disposed on the relative member  6  and the raised masses  63  disposed on the relative member  6  are engaged with the guide notches  316  on the key seat  312 . When the key is pressed, the guide notch is moved to and fro on the raised mass  63  so that the heeling of the key can be prevented. The key array structure according to the present invention can be positioned precisely and fixed by inserting the positioning pin on the relative member into the positioning hole in the key array structure. Moreover, each positioning hole can be precisely positioned and inserted to fix with the positioning pin through the cushioning adjustment of the elastic element disposed in the key array structure even if the deviation of the positioning hole caused by the heat deformation in the manufacturing of the key array structure according to the present invention. 
   It is noted that the key array structure described above is the preferred embodiments of the present invention for the purpose of illustration only, and are not intended as a definition of the limits and scope of the invention disclosed. Any modifications and variations that may be apparent to a person skilled in the art are intended to be included within the scope of the present invention.