Patent application number | Description | Published |
20100297494 | BATTERY MODULE - A battery module includes a battery cell, a flexible shell and a supporting seat. The battery cell has a main body and two electrodes extended outwardly from the main body; the flexible shell has an upper and lower lid plates, both of which are connected and cooperated to each other to envelop the battery cell, and which are provided for the electrodes to extend out and respectively have an upper and lower adhesive parts, both of which are adhered to each other; and, the supporting seat is provided for arranging the flexible shell, in which the flexible shell further has an extending part, which is extended from one of the upper, lower adhesive parts towards the supporting seat and has an adhesive layer adhered to the supporting seat by a thermal pressing process, such that the flexible shell and the supporting seat can be connected securely. | 11-25-2010 |
20110135977 | AUTOMATIC BATTERY-OVERCHARGE POWER DISCONNECTION DEVICE AND BATTERY USING THE SAME - An automatic battery-overcharge power disconnection device electrically coupled to a battery includes an insulating frame, a space formed by enclosing edges of the frame, two grooves formed on a lateral edge of the frame, a flexible board installed at another opposite lateral edge of the frame, an opening formed at an end of the flexible board, a knife portion disposed on an internal side of the opening; a symmetrically folded electro-conductive thin plate, having two half-plate portions and a folding portion between two half-plate portions, and passed into the opening of flexible board, such that the two half-plate portions are clamped at the flexible board, and the folding portion is situated opposite to the knife portion; two conductive electrodes, each having a connecting portion extended out from the conductive connecting portion freely, disposed in the two grooves respectively, and electrically coupled to the two half-plate portions. | 06-09-2011 |
20110151303 | BATTERY MODULE - A secondary battery module with waterproof and cooling functions includes a plurality of battery units and a waterproof shroud. The battery units are arranged by being interspaced to each other. Between any two adjacent battery units, a cooling channel is formed to be communicated to the external fluid. Every battery unit has an electrically conductive part. The waterproof shroud seals and covers the electrically conductive parts correspondingly. Thereby, the electrically conductive part of the battery unit is sealed, so a waterproof function is achieved and an excellent cooling efficiency of battery module is thus obtained. | 06-23-2011 |
20110151319 | SECONDARY BATTERY WITH ENHANCED STRUCTURE - A package structure of secondary battery includes a flexible battery cell which is arranged within an accommodation space enclosed by a rigid shell; and a sealing agent which is injected into the gap between the flexible battery cell and the rigid shell. By sealing the rigid body, the secondary battery has a waterproof capability and the structural strength of the flexible battery cell is further enhanced. | 06-23-2011 |
20120301753 | ELECTROLYTE STORAGE STRUCTURE FOR A LITHIUM BATTERY - An electrolyte storage structure for a lithium battery made of a battery core having a stack with positive electrode plates, negative electrode plates and separating films, a battery core positive electrode welded with the positive electrode plate, a battery core negative electrode welded with the negative electrode plate, electrolyte, and a cup for receiving the battery core, positive electrode plate, the negative electrode plate and the electrolyte. The cup has a receiving space for accommodating the electrolyte core, the positive electrode plate and the negative electrode plate, and the electrolyte is disposed separately from the battery core. The electrolyte is released and flows into the receiving space for infiltrating the battery core before the battery is set to use. The battery core is infiltrated and saturated with the electrolyte. Then the saturated lithium battery undergoes following procedures of charging and activation to generate a finished lithium battery. | 11-29-2012 |
Patent application number | Description | Published |
20080245510 | HEAT DISSIPATION APPARATUS, TWO-PHASE HEAT EXCHANGE DEVICE AND MANUFACTURING METHOD THEREOF - A heat dissipation apparatus includes a plurality of fins and a two-phase heat exchange device connected to the fins. The two-phase heat exchange device includes a main body and a continuous wick structure. The main body forms a closed space therein, and the continuous wick structure is disposed on the entire inner surface of the main body. Methods for manufacturing a two-phase heat exchange device and a heat dissipation apparatus are also introduced. | 10-09-2008 |
20080295994 | Heat-dissipating fin assembly and assembling method thereof - A heat-dissipating fin assembly including a first fin and a second fin is provided. Each of the first fin and the second fin respectively includes a body, a bending part and a connecting part. The bending part is bent from an end of the body to form a turning portion along a predetermined direction. The connecting part, located near a turning portion of the bending part from the end of the body, extends opposite to the predetermined direction. When the first fin is connected to the second fin, the connecting part of the first fin is connected with the second fin. Also, an assembling method of the heat-dissipating fin assembly is provided. | 12-04-2008 |
20080295995 | HEAT SINK AND MANUFACTURING METHOD THEREOF - A heat sink includes a plurality of heat dissipation fins. Each of the heat dissipation fins includes a sheet body, at least one bent part, and at least one first combined part. The bent part is formed from a terminal end of the sheet body. The first combined part protrudes from the bent part along a direction opposite to the bent direction of the bent part. A manufacturing method of the heat sink is also disclosed. | 12-04-2008 |
20090107654 | HEAT DISSIPATION MODULE AND BASE AND MANUFACTURING METHOD THEREOF - The present invention provides a heat dissipation module, a base thereof and a manufacturing method thereof. The heat dissipation module includes the base having a bottom, a plurality of guiding columns and a plurality of fins. The bottom and the guiding columns are formed as a single piece, and the fins are tightly fitted on the guiding columns. | 04-30-2009 |
20090120613 | HEAT SINK - A heat sink includes a heat conductive portion, a plurality of fins and at least one connecting portion. The fins and connecting portion are disposed around the heat conductive portion. The connecting portion is disposed between the fins and has a fixed part. The fixed part is disposed at one side of the connecting portion and is used for connecting with a fastener. | 05-14-2009 |
20090168351 | HEAT DISSIPATION MODULE AND FAN THEREOF - The present invention provides a heat dissipation module and a fan thereof. The heat dissipation module includes a heatsink and a frameless fan. The fan is disposed in the heatsink. The fan includes a motor base, an impeller, a motor and at least one engaging member. The impeller and the motor are disposed on the motor base. The motor drives the impeller to rotate, and the engaging member is extended radially from the motor base. The fan is directly assembled to the heatsink via the engaging member. | 07-02-2009 |
20090194252 | HEAT DISSIPATION MODULE AND SUPPORTING ELEMENT THEREOF - A heat dissipation module includes a heat sink, a two-phase heat exchange device and a supporting element. The two-phase heat exchange device is located between the supporting element and the heat sink. The supporting element receives the two-phase heat exchange device, and the supporting element has a main body including a bottom part and at least two sidewall parts. An accommodating space is formed by the bottom part and the sidewall parts of the main body of the supporting element to receive the two-phase heat exchange device, and the received two-phase heat exchange device is attached to the bottom part of the main body of the supporting element. The two-phase heat exchange device is located and sandwiched between the supporting element and the heat sink. | 08-06-2009 |
20120240401 | MANUFACTURING METHOD OF A HEAT SINK - A manufacturing method of a heat sink is disclosed. A board having a first width is transported to a machine tool. The board is punched to form multiple sheet bodies. A bent part is formed on a terminal end of each sheet body having a second width. A first combined part protrudes from the bent part. A second combined part is hollowly disposed on the edge of the bent part as an indentation corresponding to the first combined part. The bent part is bent to stand correspondingly to each of the sheet bodies. Each sheet body is cut to form multiple heat dissipation fins. The second width is equal to the first width. When the heat dissipation fins overlap with each other, the first combined part of one heat dissipation fin is connected to the second combined part of another dissipation fin. | 09-27-2012 |
20150236310 | Cell and Manufacture Method Thereof - A cell includes a front cover having a front cavity, a rear cover having a rear cavity, a first terminal, a second terminal, and an electrode group. The rear cover is connected to the front cover. The first terminal is disposed on the front cover and passes through the front cover to the front cavity. The second terminal is disposed on the front cover, and passes through the front cover to the front cavity. The electrode group is disposed in the front cavity and the rear cavity, and connected to the first terminal and the second terminal in the front cavity. | 08-20-2015 |
Patent application number | Description | Published |
20120314360 | ALL-IN-ONE COMPUTER - An all-in-one computer includes a main body and a display. The main body includes a first locking structure, a first connector, and a second connector. The display includes a second locking structure detachably engaging with the first locking structure, a third connector connecting to the first connector, and a fourth connector connecting to the second connector. The second locking structure engages with the first locking structure to connect the display to the main body. | 12-13-2012 |
20130078838 | FIXING FRAME AND FIXING APPARATUS FOR STORAGE DEVICE - An apparatus for fixing a storage device includes a metal bracket, and a fixing frame slidably received in the bracket. The bracket includes two side plates, and one of the side plates forms a resilient tab. The fixing frame includes two opposite fixing arms each defining a latching hole, two resilient members, and two metal fasteners. Each resilient member includes a pad clinging to an inner surface of a corresponding one of the fixing arms, and a projection engaging in the latching hole of the corresponding fixing arm. Each fastener includes a head, and a pin. The heads are received in the corresponding latching holes and abut against outer sides of the corresponding projections. The pins extend through the corresponding through holes for engaging with the storage device. A protrusion extends outwards from one of the heads to contact the resilient tab and connect the storage device to ground. | 03-28-2013 |
20130114190 | FLAT PANEL DISPLAY - A flat panel display includes a housing, a support base, a support plate, a connecting plate, and a fixing element. The housing defines a sliding groove and a plurality of holes arranged in a line parallel to the extending direction of the sliding groove. The support plate is fixed at the support base. The connecting plate is rotatably connected with the support base. A protruding part is formed on the connecting plate and is sliably received in the sliding groove. The connecting plate further defines a through hole. The fixing element extends through the through hole and is inserted into one of the holes to fix the position of the connecting plate relative to the housing. | 05-09-2013 |
20140001940 | ENCLOSURE OF ELECTRONIC DEVICE | 01-02-2014 |