Patent application number | Description | Published |
20090064459 | Hinge Structure - The present invention discloses a hinge structure comprising a pivot having a linking portion disposed with a circular axle axially and a smaller axle extending from the center of the front end of the shaft; a main frame having a connection portion which is formed axially to have a bush-like tube spring below for the insertion of the shaft, the tube spring being positioned to have a gap with the connection portion and one end of the wall of the tube spring being formed to have an notch; a cam member having a rotation part and fixed part between which is disposed with concurrent protruded and to indented portions and which are installed inside the tube spring for the insertion of the axle, the rotation par being axially disposed with a protruded tenon which is connected with the notch of the tube spring, and the fixed part being secured with the axle, and at least a resilient member insertingly connected with the axle and secured with the connection segment of the axle by an end enclosure, which presses and constrains the aforementioned parts. | 03-12-2009 |
20090106939 | TORSION ADJUSTMENT STRUCTURE, MEMBER, AND METHOD FOR HINGE DEVICE - A torsion adjustment structure, member, and method for hinge device uses the hole diameters of a plurality of enclosing ends of an enclosing part as the torsion adjustment means, in which the interferences between the external pivoting diameter of the pivotal axle and the hole diameters of the plurality of the enclosing ends are different, such that the total torsion can be easily adjusted and the product's applicability can be expanded. | 04-30-2009 |
20090113670 | ENCLOSED HINDE DEVICE WITH A READILY CENTER-ALIGNED MECHANISM - The present invention discloses an enclosed hinge device with a readily center-aligned mechanism, employing two protruded blocks of a locking retainer engaged into and fastened with two notch grooves of an arresting part to form two positioning points, such that the locking retainer and the arresting part are not slidable therebetween along with the advantage of easy assembly. Further, the securingly connection between the enclosing part, the arresting part, and the locking retainer also enhances the structural strength, thereby reducing the rotational shaking of the pivotal axle. | 05-07-2009 |
20090158556 | COVERED ROTATION SHAFT STRUCTURE HAVING AUTO LOCKING FUNCTION - The present invention relates to a covered rotation shaft structure having auto locking function, includes: a cover member having a covering end, and one lateral side of the cover member is provided with a bump; a pivotal shaft having a first shaft section and a second shaft section, the first shaft section is pivotally provided on the covering end and the second shaft section is pivotally provided on a through hole of a retaining unit; a cam member composed by the above mentioned retaining unit and a rotating unit, the retaining unit has the above mentioned through hole and a concave slot, and the concave slot is served to mount the bump, so the retaining unit is retained on one side of the cover member, and the through hole is disposed adjacent to the covering end; and the rotating unit is provided on the second shaft section of the pivotal shaft and is provided against the retaining unit; at least one resilient member provided on the second shaft section of the pivotal shaft, and a screw nut is provided at the end of the second shaft section; when rotating the pivotal shaft, the rotating unit is released from a locking position, and the resilient member is pressed by the rotating unit, when reversely rotating the pivotal shaft, the rotating unit is moved toward the locking position and when the rotating unit is close to the locking position, the rotating unit is pushed to the locking position by the resilient member. | 06-25-2009 |
20090235489 | Sheath Type Rotating Axel Structure with Automatic Locking Mechanism - The present invention discloses a sheath type rotating axle structure with automatic locking mechanism, comprising a sheath device, a retainer, a pivotal axle, a locking fastener, a locking rotator, a resilient body, and a screw nut. The first axle segment of the pivotal axle is pivoted to the sheath of the sheath device to realize the function of “easy opening and firm closing,” and the sheath device is disposed with a retainer on one end to achieve the “anti-shaking” function. The second axle segment of the pivotal axle is pivoted to the through hole of the retainer and embeddingly inserted into a locking fastener and a locking rotator. The locking fastener is disposed with a pin to be securingly fixed with a pin hole formed on the retainer, and a screw nut is used to securingly fix a plurality of resilient discs or a spring. When the pivotal axle is rotated to drive the locking fastener departing from the locked position, the resilient discs (or spring) are compressed by the locking rotator. Also, when the pivotal axle is rotated back to drive the locking rotator returning to the locked position, the resilient discs (or spring) press the locking rotator back to the locked position, so as to achieve the function of “automatic locking.” | 09-24-2009 |
Patent application number | Description | Published |
20090031531 | Arresting Device for Hinge Assembly Structure - The present invention is to provide an arresting device for hinge assembly structure, comprising a fixed part and a movable part assembled together and then connected with the pivot such that the movable part can be rotated with respect to the fixed part; an engagement assembly in which a rotation base disposed with an engagement portion at its outer side is securingly disposed at the outer side of the movable part for the insertion of the pivot, a slide base disposed with a retention portion at its inner side corresponding to the engagement portion is abuttingly connected onto the outer side of the rotation base, also for the insertion of the pivot, and moved integratedly with the rotation base, and a resilient part disposed at the hollow seat chamber between the two bases for the insertion of the pivot; consequently, when the outer side of the slide base is applied with an external force from a compression member, the slide base moves toward the rotation base and compress the resilient part, such that the retention portion at the inner side of the slide base and the engagement portion of the rotation base are interlacingly engaged to form an arresting status. | 02-05-2009 |
20090158554 | Positioning Device for Hinge Structure - The present invention discloses a positioning device for hinge structure, comprising a fixed part, a rotatable part, a pivotal axle, at least an elastic part, a nut, and a cam member. The pivotal axle is passed through the first pivotal portion of the fixed part and the second pivotal portion of the rotatable part to render the rotatable part rotating relative to the fixed part and with respect to the pivotal axle. Consequently, through the rotation of the cam member, the contacts of the first and second contact faces with a pivoting portion is alternated and thus the distance between the contact faces and the pivotal portion is changed, rendering the nut pressing against or relaxing from at least one elastic part. The axial frictional force generated between the fixed part and the rotatable part is therefore changed so as to achieve positioning or rotation of the fixed part and the rotatable part. | 06-25-2009 |
Patent application number | Description | Published |
20100263843 | INCLINED WAVED BOARD AND HEAT EXCHANGER THEREOF - An inclined waved board and a heat exchanger thereof. The inclined waved board includes a board body composed of continuous waved sections. The waved sections are respectively inclined from a first side to a second side, inclined from the first side to a third side and inclined from a fourth side to the second side of the board body by an inclination. The waved sections define multiple raised sections and recessed sections on two faces of the board body. The heat exchanger is composed of multiple board bodies arranged adjacent to and in parallel to each other. Each two adjacent board bodies define therebetween a flow way. When fluids flow through the flow ways, the inclined waved sections enhance turbulence intensity and guide the fluids to produce secondary flows along the cross-sections of the flow ways so as to form dynamic three-dimensional swirling flow structure in the waved flow ways. The enhanced turbulence activities and the swirling flow structures augment heat transfer rates with less pressure-drop penalties from the likewise ribbed channel due to the smooth channel surface for the present invention. | 10-21-2010 |
20110088872 | HEAT PIPE STRUCTURE - A heat pipe structure includes a pipe body and a convection device. The pipe body defines a chamber enclosed in an inner wall of the pipe body. The convection device includes a rotary unit and a driving unit for creating a fluid pressure gradient in the chamber of the pipe body. The rotary unit and the driving unit are respectively located at an interior and an exterior of the pipe body. When the driving unit is excited, the rotary unit is driven to rotate under magnetic induction. With the fluid pressure gradient created in the chamber of the pipe body, the circulation of the working fluid in the chamber can be improved, and a forced convection flow of the working fluid in the pipe body is enabled to largely increase the heat transfer efficiency and heat transfer effect of the heat pipe. | 04-21-2011 |
20110168360 | HEAT EXCHANGER - A heat exchanger includes a body having a center and a spiral guiding trough extending spirally and outwardly from the center toward an outside of the center. The radius of the spiral guiding trough increases gradually from the center toward the outside of the center. A first port and a second port are in communication with the spiral guiding trough respectively. With the combination of the spiral guiding trough and the body, the fluid can be sufficiently mixed in the spiral guiding trough, thereby achieving an excellent thermal-conducting effect. | 07-14-2011 |
20110174470 | SPIRAL HEAT EXCHANGER - A spiral heat exchanger includes two assembled covers defining a chamber therebetween for receiving a spiral unit therein. The spiral unit includes a first and a second spiral member separately spirally extending from a central outlet to a peripheral outlet on the two covers to respectively form a first and a second flow passage. A driving unit is assembled to and drives the assembled covers to rotate at the same time, so that cold and hot airflows respectively enter and flow through the first and second spiral members from the central outlet to the peripheral outlet under a centrifugal force to exchange heat at the spiral unit. The spiral unit provides extended flow passages and increased heat exchange area, giving the spiral heat exchanger increased heat transfer capacity and heat exchange efficiency and allowing omission of fans and radiating fin assembly to eliminate operating noise and accumulated dust. | 07-21-2011 |
20120018128 | SLIM TYPE PRESSURE-GRADIENT-DRIVEN LOW-PRESSURE THERMOSIPHON PLATE - A slim type pressure-gradient-driven low-pressure thermosiphon plate includes a main body closed by a cover. The main body includes a central heat receiving zone, a pressure accumulating zone and a first flow passage unit separately located at two opposite sides of the heat receiving zone, a free zone communicating with the pressure accumulating zone, a first and a second condensing zone communicating with the free zone, a third and a fourth condensing zone communicating with the first flow passage unit, a second flow passage unit located between and communicating with the first and the third condensing zone, and a third flow passage unit located between and communicating with the second and the fourth condensing zone. In the thermosiphon plate, a low-pressure end is created through proper pressure-reduction design to form a pressure gradient for driving steam-water circulation, and the working fluid can transfer heat without any wick structure. | 01-26-2012 |
20120018130 | THERMAL SIPHON STRUCTURE - A thermal siphon structure includes a main body, a chamber disposed therein, an evaporation section, a condensation section and a connection section positioned between the evaporation section and condensation section. The evaporation section and condensation section are respectively arranged in the chamber on two sides thereof. The connection section has a set of first communication holes and a set of second communication holes in communication with the evaporation section and condensation section. The evaporation section and condensation section respectively have multiple first and second flow guide bodies, which are arranged at intervals to define therebetween first and second flow ways. Each of the first and second flow ways has a narrower end and a wider end. The first flow ways communicate with a free area. The condensation section is designed with a low-pressure end to create a pressure gradient for driving a working fluid to circulate without any capillary structure. | 01-26-2012 |
20120018131 | PRESSURE DIFFERENCE DRIVEN HEAT SPREADER - A pressure difference driven heat spreader includes a chamber defined in a main body; a vaporizing section arranged in the chamber and including a plurality of first flow-guiding members spaced from one another to define first flow passages therebetween, the first flow passages each having at least one free end communicating with a free zone; a condensing section arranged in the chamber opposite to the vaporizing section and including a plurality of second flow-guiding members spaced from one another to define second flow passages therebetween; and an interconnecting section arranged between the vaporizing and condensing sections and having first and second communicating holes for communicating the vaporizing section with the condensing section. The condensing section functions as a low-pressure end, so that a pressure gradient is produced in the pressure difference driven heat spreader to drive steam-water circulation therein, and no wick structure is needed for driving the working fluid. | 01-26-2012 |
20120018137 | HEAT-DISSIPATING ASSEMBLY - A heat-dissipating assembly includes a body and a bottom plate. The body has a heat-absorbing portion. The interior of the heat-absorbing portion is provided with a chamber covered by the bottom plate. The chamber has an evaporating region for generating a high pressure, and a condensing region for generating a low pressure. The pressure gradient between the evaporating region and the condensing region is used to drive the circulation of liquid/vapor phase of a working fluid. With this structure, heat can be conducted rapidly without providing any wick structure. | 01-26-2012 |
20120024499 | LOOP TYPE PRESSURE-GRADIENT-DRIEN LOW-PRESSURE THERMOSIPHON DEVICE - A loop type pressure-gradient-driven low-pressure thermosiphon device includes a case sealed by a cover to define a chamber with a vaporizing section. The vaporizing section includes a plurality of spaced flow-guiding members and first flow passages formed between adjacent flow-guiding members. The flow passages respectively have at least one free end communicating with a free zone in the chamber. A pipeline is connected at two ends to two opposite sides of the case, and has a second flow passage communicable with the vaporizing section. The pipeline extends through at least one heat-dissipating element, so that the pipeline and the heat-dissipating element together define a condensing section. In the thermosiphon device, a low-pressure end is created through proper pressure-reduction design to form a pressure gradient for driving steam-water circulation, and the working fluid can be driven to circulate and transfer heat in the pipeline and the case without any wick structure. | 02-02-2012 |
20120061063 | HEAT EXCHANGER - A heat exchanger includes a body. Both sides of the body are provided with a first flowing path set and a second flowing path set. The first flowing path set and the second flowing path set are provided with a plurality of flow-disturbing portions on both sides of the body respectively. The body is provided with an inlet and an outlet in communication with the first flowing path set and the second flowing path set. A working fluid circulates in the first flowing path set and the second flowing path set. The flow-disturbing portions make the working fluid to generate separated eddies to increase the strength of turbulent flow and to improve the heat-conducting efficiency of the heat exchanger greatly. | 03-15-2012 |
20120267083 | INCLINED WAVED BOARD AND HEAT EXCHANGER THEREOF - An inclined waved board and a heat exchanger thereof. The inclined waved board includes a board body composed of continuous waved sections. The waved sections are respectively inclined from a first side to a second side, and a third side and from a fourth side to the second side of the board body. The waved sections define multiple raised sections and recessed sections on two faces of the board body. The heat exchanger is composed of multiple board bodies arranged adjacent to and in parallel to each other. Each two adjacent board bodies define therebetween a flow way. The inclined waved sections enhance turbulence intensity and guide the fluids to produce secondary flows along the cross-sections of the flow ways to form dynamic three-dimensional swirling flow structures which combine to augment heat transfer rates with reduced pressure-drop. | 10-25-2012 |