P
USRE43780EExpiredUtilityPatentIndex 71

Plug connector

Assignee: KUBOTA YOSHIFUMIPriority: Apr 30, 2003Filed: Nov 5, 2009Granted: Oct 30, 2012
Est. expiryApr 30, 2023(expired)· nominal 20-yr term from priority
Inventors:KUBOTA YOSHIFUMIKUROKI YOSHIHIDEWATANABE MASAHIDE
H01R 13/629H01R 43/16H01R 12/75
71
PatentIndex Score
4
Cited by
103
References
28
Claims

Abstract

A connector including a first connector element and a second connector element that are coupled into a single unit, in which the first connector element has an engagement projection that projects interior of the first connector element and extends in the direction of the depth of the first connector element so that the front end of the engagement projection is spacedly apart from the front edge of the first connector element, and the second connector element is formed with an engagement slit that extends in the direction of depth of the second connector element and engages with the engagement projection of the first connector element.

Claims

exact text as granted — not AI-modified
1. A connector comprising a first connector element and a second connector element that are coupled together, wherein
 said first and second connector elements are each formed with a metallic shell;   said first connector element is formed with an engagement projection that projects toward an interior of said first connector element and extends in a direction of depth of said first connector element, a front end of said engagement projection being spaced apart from a front edge of said connector element by a predetermined distance;   said engagement projection is formed by cutting a C-shape slit in a top surface of said metallic shell of said first connector element and bending a tongue formed downwardly; and   said second connector element is formed with an engagement slit in said metallic shell that extends in a direction of depth of said metallic shell of said second connector for engaging with said engagement projection formed in said metallic shell of said first connector element.   
     
     
       2. The connector according to  claim 1 , wherein said engagement projection is provided at two locations of said first connector element so as to be parallel to side edges of said first connector element, and said engagement slit is provided at two location of said second connector element so as to be parallel to side edges of said second connector element and to correspond to said two locations of said engagement projections of said first connector element. 
     
     
       3. The connector according to  claim 1 , wherein said engagement projection has a predetermined length in said depth direction and said engagement slit has a predetermined length in said depth direction which is at said predetermined length of said engagement projection. 
     
     
       4. An electrical connector comprising:
 a plug connector element having a first metallic shell and adapted to be coupled to a receptacle connector element having a second metallic shell, the first shell comprising a top plate, a bottom plate, a first side and a second side and having a width W and a depth D, the first and second sides being small relative to the top and bottom plates making the first shell substantially flat;   first and second engagement slits formed in the top plate of the first shell, the first and second engagement slits starting from a front edge of the top plate and extending in a direction of the depth D;   an array of electrodes positioned within the first shell extending in a direction of the depth D between the first and second engagement slits such that there are no electrodes between an engagement slit and its respective side, the array of electrodes being positionally secured by insulating material to an interior surface of the bottom plate of the first shell, leaving an insertion cavity in the interior of the shell between the array of electrodes and the top plate;   wherein the first and second engagement slits in the first shell are adapted to engage with first and second engagement projections of the receptacle connector element that project toward an interior of the receptacle connector element and extend in a direction of a depth of the receptacle connector element, a front end of the first and second engagement projections being spaced apart from a front edge of the receptacle connector element by a predetermined distance, the engagement projections being formed by cutting a C-shape slit in a top surface of the second shell and bending a tongue formed downwardly.    
     
     
       5. The electrical connector of claim 4 further comprising first and second raised springy holders that are raised upwardly from the top plate of the first shell, the raised springy holders providing for compressive action when the plug connector element is coupled to the receptacle connector element.  
     
     
       6. The electrical connector of claim 4 further comprising a plug assembly attached to a rear edge of the plug connector element; and
 a cable coupled to the plug assembly and electrically coupled to the array of electrodes via the plug assembly.    
     
     
       7. An electrical connector comprising:
 a plug connector element having a first shell and adapted to be coupled to a receptacle connector element having a second shell, the first shell comprising a top plate, a bottom plate, a first side and a second side and having a width W and a depth D, the first and second sides being smaller relative to the top and bottom plates;   first and second engagement slits formed in the top plate of the first shell, the first and second engagement slits starting from a front edge of the top plate and extending in a direction of the depth D;   an array of electrodes positioned within the first shell extending in a direction of the depth D between the first and second engagement slits such that there are no electrodes between an engagement slit and its respective side, the array of electrodes being positionally secured by insulating material to an interior surface of the first shell, leaving an insertion cavity in the interior of the shell between the array of electrodes and the top plate;   wherein the first and second engagement slits in the first shell are adapted to engage with first and second engagement projections of the receptacle connector that project towards an interior of the receptacle connector element and extend in a direction of depth of the receptacle connector element.    
     
     
       8. The electrical connector of claim 7 wherein the plug connector element is formed with a metallic shell.  
     
     
       9. The electrical connector of claim 8 further comprising first and second raised springy holders that are raised upwardly from the top plate of the shell, the raised springy holders providing for compressive action when the plug connector element is coupled to the receptacle connector element.  
     
     
       10. The electrical connector of claim 7 further comprising first and second springy retention pins protruding from the first and second sides, respectively, the retention pins providing releasable locking mechanism when the plug connector mates with a receptacle connector.  
     
     
       11. The electrical connector of claim 10 wherein a length of the first and second engagement slits is about two thirds the depth D of the first shell.  
     
     
       12. The electrical connector of claim 11 further comprising a plug assembly attached to a rear edge of the plug connector element.  
     
     
       13. The electrical connector of claim 12 further comprising a cable coupled to the plug assembly and electrically coupled to the array of electrodes via the plug assembly.  
     
     
       14. The electrical connector of claim 13 wherein the plug assembly comprises a mechanism for retracting the springy retention pins into the body of the plug connector to release the locking mechanism.  
     
     
       15. An electrical plug connector comprising:
 a body having a top plate, a bottom plate, a first side and a second side, the body having a width W and a depth D, wherein the first and second sides are smaller relative to the top and bottom plates providing a generally flat body;   first and second engagement slits formed on the top plate of the body and extending from a front edge of the top plate in a direction of depth D for engaging with engagement projections formed in a body of a corresponding receptacle side connector element;   an array of electrodes positioned within and extending in the direction of the depth D of the body between the first and second engagement slits such that there are no electrodes between an engagement slit and its respective side, the array of electrodes being positionally secured by insulating material to an interior surface of the bottom plate of the body, leaving an insertion cavity in the interior of the body between the array of electrodes and the top plate;   wherein the first and second engagement slits facilitate insertion alignment when the plug connector mates with a corresponding receptacle connector by mating with engagement projections that project toward an interior of the receptacle connector and extend in a direction of depth of the receptacle connector.    
     
     
       16. The electrical plug connector of claim 15 wherein the body comprises a metallic shell.  
     
     
       17. The electrical plug connector of claim 16 wherein the first engagement slit is formed at a distance W from the first side and the second engagement slit is formed at a distance W from the second side.  
     
     
       18. The electrical plug connector of claim 16 further comprising a retention mechanism formed on the body and operable to provide secure engagement between the plug connector and a corresponding receptacle connector when the plug connector mates with the corresponding receptacle connector, wherein the retention mechanism comprises at least one raised springy holder raised outwardly from one of either the top plate or the bottom plate of the body, the raised springy holder providing compressive action when the plug connector mates with a corresponding receptacle connector.  
     
     
       19. The electrical plug connector of claim 15 further comprising a plug assembly attached to the body for coupling an electrical cable to the connector.  
     
     
       20. An electrical plug connector comprising:
 a body having a top plate, a bottom plate, a first side and a second side, the body having a width W and a depth D, wherein the first and second sides are smaller relative to the top and bottom plates providing a substantially flat body;   an array of electrodes extending in the direction of the depth D, the array of electrodes being positionally secured by insulating material to an interior surface of the body;   a retention mechanism formed on the body and operable to provide secure engagement between the plug connector and a corresponding receptacle connector when the plug connector mates with the corresponding receptacle connector, wherein the retention mechanism comprises at least one raised springy holder raised outwardly from a plate of the body, the raised springy holder providing compressive action when the plug connector mates with a corresponding receptacle connector; and   first and second slits formed on the top plate of the body extending in the direction of the depth D, the first slit being formed at a distance S1 from the first side and the second slit being formed at a distance S2 from the second side,   wherein the array of electrodes is disposed between the first and second slits such that there are no electrodes between a slit and its respective side, and   wherein the first and second slits facilitate insertion alignment when the plug connector mates with a corresponding receptacle connector.    
     
     
       21. The electrical plug connector of claim 20 wherein each of the outermost electrodes of the array of electrodes is spaced away from its respective side by a distance that is no less than S1 or S2.  
     
     
       22. The electrical plug connector of claim 21 wherein each of the first and second slits has a length that is about two thirds of the depth D of the body.  
     
     
       23. The electrical plug connector of claim 20 further comprising first and second springy retention pins protruding from the first and second sides, respectively, the retention pins providing releasable locking mechanism when the electrical connector mates with another connector.  
     
     
       24. The electrical plug connector of claim 20 further comprising a plug assembly attached to a rear edge of the body for coupling an electrical cable to the body.  
     
     
       25. The electrical plug connector of claim 24 wherein the plug assembly comprises a mechanism for retracting the springy retention pins into the body of the electrical connector to release the locking mechanism.  
     
     
       26. The electrical plug connector of claim 20 wherein the slits are formed by one of either cutting through the top plate or molding them into the top plate.  
     
     
       27. The electrical plug connector of claim 20 wherein the top plate and the bottom plates are made of metal.  
     
     
       28. The electrical plug connector of claim 20 wherein each of the first and second slits begins at a front edge of the top plate.

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