초록 ▼

A water-cooled system and method for cooling electronic components. The system includes a surface. At least one electronic component is coupled to the surface, the at least one electronic component including an integrated circuit. A closed-loop fluidic circuit is coupled to the surface for removing

A water-cooled system and method for cooling electronic components. The system includes a surface. At least one electronic component is coupled to the surface, the at least one electronic component including an integrated circuit. A closed-loop fluidic circuit is coupled to the surface for removing heat from the integrated circuit. The closed-loop fluidic circuit includes a heat exchanger. A blower is coupled to the surface, the blower having a first port, a second port, and an impeller that rotates around an axis. The blower is oriented such that the axis is perpendicular to the surface and non-intersecting with the heat exchanger, wherein the blower moves air through the heat exchanger.

대표청구항 ▼

A water-cooled system and method for cooling electronic components. The system includes a surface. At least one electronic component is coupled to the surface, the at least one electronic component including an integrated circuit. A closed-loop fluidic circuit is coupled to the surface for removing

A water-cooled system and method for cooling electronic components. The system includes a surface. At least one electronic component is coupled to the surface, the at least one electronic component including an integrated circuit. A closed-loop fluidic circuit is coupled to the surface for removing heat from the integrated circuit. The closed-loop fluidic circuit includes a heat exchanger. A blower is coupled to the surface, the blower having a first port, a second port, and an impeller that rotates around an axis. The blower is oriented such that the axis is perpendicular to the surface and non-intersecting with the heat exchanger, wherein the blower moves air through the heat exchanger. ed within the recess, the recess and the at least one of the cavities define the opening, and the modular jack insert and at least one of the cavities define the modular jack adapted for insertion of a plug. 3. A The notebook computer case according to claim 2, wherein the modular jack insert further comprises a plurality of contacts respectively extending through the channels and each including a contact section and a tail section, in which the contact section projecting outward from the front face of the insert and being folded rearward into the modular jack, and the tail section being embedded within the channel and projecting from the rear face of the insert. 4. The notebook computer case according to claim 2, wherein the front face of the insert is provided with a first indicative device thereon for indicating input and output signals through wires. 5. The notebook computer case according to claim 4, wherein the first indicative device is a light-emitting diode (LED). 6. The notebook computer case according to claim 2, wherein the front face of the insert is provided with a second indicative device thereon for showing a power on/off status. 7. The notebook computer case according to claim 6, wherein the second indicative device is a light-emitting diode (LED). 8. A notebook computer case, comprising: a modular jack insert, which comprises a front face and a rear face opposite to the front face, a plurality of parallel channels being formed through the insert between the front face and the rear face; wherein the modular jack insert comprises a first portion and a second portion which correspond to two modular jacks; and wherein the modular jack insert comprises eight channels formed within the first portion and six channels formed within the second portion; a lower case having a lower side frame which has a top and an outer wall, the lower side frame is configured to form a recess from the top thereof, the modular jack insert being removably mounted within the recess with the front face being adjacent the outer wall; an upper case having an upper side frame configured to upward form two cavities from the bottom thereof to define two modular jacks; thereby when the upper case is in engagement with the lower case of which the modular jack insert is mounted within the recess, the recess and the two cavities define an opening; thereby when the modular jack insert is received within the opening, the modular jack insert and the opening define the modular jack adapted for insertion of a plug. 9. The notebook computer case according to claim 8, wherein the insert further comprises a top face, which has a protrusion provided thereon from the front face to the rear face to separate the first portion from the second portion, in which the protrusion has a hole formed thereon, and wherein the upper side frame of the upper case is provided with a wall aligned with the protrusion of the top face of the insert, the wall is further provided with a post for inserting into the hole of the protrusion on the top face of the insert, thereby securely separating the two jacks from each other after the upper case is in engagement with the lower case. 10. A notebook computer case, comprising: a modular jack insert, which comprises a front face and a rear face opposite to the front face, a plurality of parallel channels being formed through the insert between the front face and the rear face; wherein the modular jack insert is formed with a plurality of parallel grooves respectively extending on the front face upward from the channels, for upward guiding the contact sections of the wires; a lower case having a lower side frame which has a top and an outer wall, the lower side frame is configured to form a recess from the top thereof, the modular jack insert being removably mounted within the recess with the front face being adjacent the outer wall; an upper case having an upper side frame configured to upward form at least one cavity from the bottom thereof; thereby when the upper case is in engagement with the lower case of which the modular jack insert is mounted within the recess, the recess and the at least one of the cavities define the opening; thereby when the modular jack insert is received within the opening, the modular jack insert and the opening define the modular jack adapted for insertion of a plug. 11. A notebook computer case, comprising: a modular jack insert, which comprises a front face and a rear face opposite to the front face, a plurality of parallel channels being formed through the modular jack insert between the front face and the rear face; wherein the modular jack insert is substantially a rectangular parallelepiped which has a first side face and a second side face opposite to the first side face, the first side face and the second side face connecting with the front face and the rear face, in which the insert is provided with two protrusions respectively projecting outward from the first side face and the second side face, and the recess of the lower side frame is defined by two lateral walls which are respectively provided with a groove for respectively receiving the protrusion and securing the modular jack insert in a lower side frame of a lower case; the lower case having the lower side frame which has a top and an outer wall, the lower side frame is configured to form a recess from the top thereof, the modular jack insert being removably mounted within the recess with the front face being adjacent the outer wall; an upper case having an upper side frame configured to upward form at least one cavity from the bottom thereof; thereby when the upper case is in engagement with the lower case of which the modular jack insert is mounted within the recess, the recess and the at least one of the cavities define the opening; thereby when the modular jack insert is received within the opening, the modular jack insert and the opening define the modular jack adapted for insertion of a plug. 12. An insulation modular jack insert for use with a notebook computer case, comprising: a front face and a rear face opposite to the front face, a first side face, a second side face opposite to the first side face, the first side face and the second side face connecting the front face and the rear face, wherein at least one of the first side face or the second side face comprise a vertical protrusion, and a plurality of parallel channels being formed through the modular jack insert between the front face and the rear face; the computer case having a side wall forming an opening for removably receiving the insert therein with the front face of the insert being adjacent the side wall, wherein the vertical protrusion(s) are adapted for interlocking insertion into the side wall of the computer case; thereby when the modular jack insert is received within the opening, the modular jack insert and the opening define the modular jack adapted for insertion of a plug. 13. The insulation modular jack insert according to claim 12, wherein the computer case comprises: a lower case having a lower side frame which has a top and an outer wall, the lower side frame is configured to form a recess from the top thereof, the insert being removably mounted within the recess with the front face being substantially flush with the outer wall; an upper case having an upper side frame which has a bottom and an outer wall being adjacent the outer wall of the lower side frame after engagement with the lower case, the upper side frame being configured to upward form at least one cavity from the bottom thereof; thereby when the upper case is in engagement with the lower case of which the modular jack insert is mounted within the recess, the recess and the at least one of the cavities define the opening, and the modular jack insert and at least one of the cavities define the modular jack adapted for insertion of a plug. 14. A wired modular jack insert, co