Patent ID: 12206210

DETAIL DESCRIPTION OF THE INVENTION

CPSAMV (FIG.1,2,3,4,11,12)

The CPSAMV is composed of Connector Bridge16, Terminal Box7, and Case Assembly15.

Connector Bridge16(FIG.11,12,13)

The Connector Bridge16is composed of Connector Stem Holder1, Connector Stem2, and Bus Feeder8. The Connector Stem2with Connecting Pins19which is bridged with the Input Side18of Bus Feeder8and is molded into the inner wall named as Inner Depth Wall20of the Connector Stem Holder1to form a single piece.

Connector Stem Holder1is made of shock-absorbing, flexible and waterproof material. Connector Stem Holder1is composed of U-shaped straight piece with both ends bent at ninety degrees while the said Connector Stem Holder1is placed between Thin Strip6& the bottom edge of the user device.

Connector Stem2consists of a micro USB Male connector. The said micro USB Male connector connection pins designated to solder the electrical cable named as Connecting Pins19are bent by ninety degrees. The Connector Stem2is plugged in to the handheld electronic user device default charging & data port micro USB connector and stay plugged in all the time.

Bus Feeder8is composed of multi-pair electrical cable with a rectangular shaped flexible insulation jacket and one end of the Bus Feeder8is named as Input Side18which is bridged with Connector Stem2via Connecting Pins19; other end of the same Bus Feeder8is connected to a plug type electrical connector named as Output Connector21which is plugged in to Input Connector24on the PCB22.

Terminal Box7(FIG.1,2,4,5,6,7)

Junction Box11, Power Connector Holder10, and Data Connector Holder12compose a Terminal Box7.

The Terminal Box7is secured to the Back Wall4of the Case Assembly15.

Junction Box11is a square shape box made of water-proof heat resistance material. A Microchip23mounted on PCB22is housed inside the Junction Box11. Data Output Connector25and Power Output Connector26are bridged to PCB22via Wires27. Small drill holes are made on two sidewalls of the Junction Box11to accommodate wire27. The Bus Feeder8Output Connector21is connected to the Input Connector24that is mounted on the PCB22which is inside the Junction Box11. A non-removable waterproof cover is placed on top, to seal the Junction Box11.

The Microchip23is mounted on PCB22which is a printed circuit board; Input Connector24is bridged to input pins of the Microchip23; first and second output pins of Microchip23are bridged with the Wire27of Data Output Connector25via PCB22; third and fourth output pins of the Microchip23are bridged with the Wire27of Power Output Connector26via PCB22. The said PCB22is composed of plug type electrical connector named as Input Connector24secured to PCB22to facilitate all input connections to the Microchip23; two separate electrical cables both named as Wire27are soldered to PCB22respective terminals to facilitate connection from PCB22to Data Output Connector25and Power Output Connector26.

Power Connector Holder10(FIG.5,6,7,16)

Power Connector Holder10is a rectangular shaped box. Power Connector Holder10and all its parts are made of water-proof heat resistance material. Power Connector Holder10is composed of Replaceable Adapters28, Adapter Guides29, Cover Guide Blocks31, Power Output Connector26, Protective Cover32, Connector Opening34, Hole36and Connector Water Seals37. Power Connector Holder10is secured to Terminal Box7next to Junction Box11.

Connector Opening34is a wide-opened slot: placed on one of the short-edge sidewalls of the Power Connector Holder10. The Connector Water Seal37, which is a rubber O-ring, is secured to Connector Opening34mouth.

Hole36is a circular opening placed on the side wall on opposite side of the Connector Opening34: it has a slit from top of the side wall to center of the Hole36.

Replaceable Adapter28is composed of a micro USB Female connector named as Power Connector14secured to one end of the Replaceable Adaptor28and a plug type electrical connector that is bridged with the said micro USB Female connector14through the body of the Replaceable Adaptor28is secured to the other end of the same Replaceable Adaptor28. The said plug type electrical connector is coupled with the Power Output Connector26which is attached to PCB22via Wire27. The second Replaceable Adapter28has the same above said arrangement except the said micro USB connector is named as Data Connector13and the said electrical connector is coupled with Data Output Connector25which is attached to PCB22via Wire27.

Adapter Locks30are two-blocks molded to both sides of the Replaceable Adapter28, near Female micro USB connector end.

Adapter Guides29are rectangular blocks placed parallel to the long-edge-side of the Power Connector Holder10.

Cover Guide Blocks31are placed on the bottom, inner surface, of the Power Connector Holder10: close to both ends of the Connector Opening34.

Power Output Connector26is an electrical female connector attached to Wire27. The Wire27is placed into Hole36through slit opening above the Hole36. After placing the Wire27into the Hole36, the slit and the Hole36is sealed with waterproof material. The Power Output Connector26is permanently secured inside the Power Connector Holder10, near Hole36.

Protective Cover32is a removable rectangular box: with an open bottom; side walls are only on long-edge-side. Locking Posts35is a square block secured to both ends of the Connector Opening34. Cover Water Seal33is secured to inner surface of the Protective Cover32edges that meets the Power Connector Holder10and Junction Box11.

Data Connector Holder12(FIG.5,6,7)

The Data Connector Holder12and all the components associated with it are identical to Power Connector Holder10and its components. Instead of the Power Output Connector26, the Data Output Connector25is secured inside the Data Connector Holder12.

Case Assembly15(FIG.1,2,3,4)

Case Assembly15is composed of Retainer Strips3with thin strip6and Back Wall4along with cable management clips named as Cable Retainers9which is mounted on the Back Wall4outer surface are molded as a one Piece. All components of the Case Assembly15are made of waterproof, fire-resistance, shock absorbing and flexible material. Case Assembly15is a rectangular shaped box: with an arc shaped four corners; front side is open, and back is covered with Back Wall4; all four sidewalls, top bottom & right left, are named as Retainer Strip3. The Case Assembly15is externally installed on handheld electronic user device and stay installed all the time.

Retainer Strip3which is a thick strip without holes or openings that formulate a rectangular shape frame with arc shaped four corners; Top, right, left, sidewalls are U-shaped to form a trench on the inner walls of the Retainer Strip3. The straight bottom section of the Retainer Strip3, near Cover Opening5is named as Thin Strip6which is thinner than the other areas of the Retainer Strip3. Thin Strip6both ends are arc shaped sections. Retainer Strip3and the Thin Strip6are molded as a single piece.

Back Wall4is a thin sheet made of waterproof, fireproof and flexible material: molded to Retainer Strip3rear edges from all sides, top, bottom, right. Left. A square shaped slot is removed from bottom edge of the Back Wall4to form the Back Wall Opening5.

Cable Retainers9are cable managing, two legs, small U clips: they are secured to Back Wall4outer surface using one leg of the U clip. Cable Retainers9are placed in such way opening of the U clips facing each other.

CPSMV (FIG.20,21,22,23,24,25,26)

The CPSMV is composed of Popup Door41, Door Cavity40, Junction Box11, Bus Feeder8. The Junction Box11and Bus Feeder8used in CPSMV has the same components of the Junction Box11and Bus Feeder8used in CPSAMV.

Popup Door41(FIG.20,21)

Popup Door41is composed of Door Flap43, Adapter Guides29, Replaceable Adaptors28, Door Handle42, and door Operating Mechanism47.

Door Flap43is a waterproof, fireproof and non-flexible square shape thick sheet. A Data Output Connector25and a Power Output Connector26is permanently secured onto the Door Flap43.

Adapter Guides29are waterproof & fireproof semi-flexible rectangular blocks. Adapter Guides29are secured to the Door Flap43permanently. Two Adapter Guides29are placed, close to the edge, parallel to the long-edge-sides of the Door Flap43. The third Adapter Guide29placed on the middle of the Door Flap43, parallel to the other two Adapter Guides29.

Replaceable Adapters28are identical to the ones used in CPSAMV. They are placed between the Adapter Guides29. The two pin electrical connectors of the Replaceable Adaptors28are connected to the Power Output Connector26and Data Output Connector25, respectively. Connector Water Seals37are rubber O shaped rings secured to connector mouths of the Data Connector13and the Power Connector14.

Door Handle42is a half-square shape piece with round edges, secured onto front edge of the Door Flap43; Door Handle42overlaps on Finger Dip44halfway through.

Operating Mechanism47is composed of hinge arrangement, return spring assembly and a lock.

Door Cavity40(FIG.22,25,26)

Door Cavity40is a box shaped object with a closed front: the back of the Door Cavity40is open; made of water & fire resistance material; inside surface of the Door Cavity40is sealed with waterproof sealant. Door Cavity is composed of Cover Opening48, Guiding Lips46and Finger Dip44.

Cover Opening48is a rectangular shape opening on the User Device38back cover.

Guiding Lips46are the extended walls of the Door Cavity40: only left, right and bottom walls are extended through Cover Opening48; Guiding Lips46are extended up to the outer surface of the User Device38back cover. The Door Cavity40is secured into the inner chassis of the User Device38.

Finger Dip44is a half round dip on the back cover of the User Device38: it is placed next to bottom end of the Cover Opening48.

Junction Box11(FIG.22)

Junction Box11is secured to the Door Cavity40wall. The Wires27are connected to the PCB22in Junction Box11. The Wires27, of Data Output Connector25and Power Output Connector26, are inserted through the Hole8on the walls of the Door Cavity40.

Bus Feeder8(FIG.1,2,4,11,12,)

The Input Side18of the Bus Feeder8is bridged with connector designated by the handheld electronic user device manufacture, to connect bus cable of the conventional charging/data port that is on the User Device38motherboard and stay connected all the time. The Bus Feeder8Output Connector21is connected to the Input Connector24that is mounted on PCB22which is housed inside Junction Box11.