Patent application number | Description | Published |
20110132477 | FLUID FLOW PLATE ASSEMBLY HAVING PARALLEL FLOW CHANNELS - A fluid flow plate assembly may include a first manifold, a second manifold, a first flow channel, and a second flow channel. The first manifold may have a fluid inlet for receiving an incoming fluid and may extend along a first direction to provide a channel for transporting the incoming fluid along the first direction. The first manifold may have at least two distribution outlets, each located in at least a portion of a sidewall region of the first manifold. The first manifold releases at least one portion of the incoming fluid as a released fluid through each distribution outlet. The second manifold may have a fluid outlet for discharging a discharged fluid, and the discharged fluid includes at least one portion of the incoming fluid. The second manifold may extend along a second direction to provide a channel for transporting the discharged fluid along the second direction. The second manifold receives the discharged fluid through at least two discharged fluid inlets on the second manifold. The first and second flow channels are coupled between the first manifold and the second manifold through distribution outlets and discharged fluid inlets. The second flow channel is parallel to the first flow channel with a dividing wall between the first and second flow channels. | 06-09-2011 |
20110136033 | FUEL CELL DEVICES - A fuel cell module may include a membrane electrode assembly two gas diffusion layers, two current collectors, two sealing members, and a fluid flow plate assembly. The membrane electrode assembly may include at least one membrane for fuel cell reactions, and the two gas diffusion layers may be respectively coupled with the two opposite sides of the membrane electrode assembly. The fluid flow plate assembly is coupled with the membrane electrode assembly at a first side of the two opposite sides of the membrane electrode assembly. At least one of the membrane electrode assembly, the two gas diffusion layers, the two current collectors, and the two sealing members has a non-planar surface prior to an assembly of the membrane electrode assembly, the two gas diffusion layers, the two current collectors, and the two sealing members, and the non-planar surface is at least partially flattened when the assembly occurs. | 06-09-2011 |
20110136042 | FLUID FLOW PLATE ASSEMBLIES - A fluid flow plate assembly may include a first manifold, a second manifold, and at least one fluid flow channel coupled between the first manifold and the second manifold. The first manifold has a fluid inlet for receiving an incoming fluid and extends along a first direction to provide a channel for transporting the incoming fluid partially along the first direction. The first manifold has at least one distribution outlet in at least a portion of a sidewall region of the first manifold and releases at least one portion of the incoming fluid as a released fluid through the at least one distribution outlet. The second manifold has a fluid outlet for discharging a discharged fluid, the discharged fluid comprising at least one portion of the incoming fluid and extends along a second direction to provide a channel for transporting the discharged fluid partially along the second direction. The at least one fluid flow channel is coupled between at least one of the at least one distribution outlet and at least one of the at least one discharged fluid inlet for distributing at least one portion of the released fluid. The at least one fluid flow channel has multiple channel sections extending in at least two directions and extending substantially along a fluid distribution plane. Both the first and second directions are substantially parallel with the fluid distribution plane. | 06-09-2011 |
20110136043 | MODULARIZED FUEL CELL DEVICES AND FLUID FLOW PLATE ASSEMBLIES - A fuel cell module may include a membrane electrode assembly, two gas diffusion layers, two current collectors, two sealing members, a fluid flow plate assembly. The fluid flow plate assembly may include a first manifold, a second manifold, and a fluid flow channel. The membrane electrode assembly may include at least one membrane for fuel cell reactions. The two gas diffusion layers may be respectively coupled with two opposite sides of the membrane electrode assembly. The two current collectors respectively coupled with the two gas diffusion layers, and the two sealing members respectively coupled with the two current collectors. The fluid flow plate assembly may be coupled with the membrane electrode assembly at a first side of the two opposite sides of the membrane electrode assembly, with at least a corresponding one of the two gas diffusion layers, at least a corresponding one of the two current collectors, and at least a corresponding one of the two sealing members coupled between the fluid flow plate assembly and the first side of the membrane electrode. | 06-09-2011 |
20140080028 | Fuel Cell Devices - A fuel cell module may include a membrane electrode assembly two gas diffusion layers, two current collectors, two sealing members, and a fluid flow plate assembly. The membrane electrode assembly may include at least one membrane for fuel cell reactions, and the two gas diffusion layers may be respectively coupled with the two opposite sides of the membrane electrode assembly. The fluid flow plate assembly is coupled with the membrane electrode assembly at a first side of the two opposite sides of the membrane electrode assembly. At least one of the membrane electrode assembly, the two gas diffusion layers, the two current collectors, and the two sealing members has a non-planar surface prior to an assembly of the membrane electrode assembly, the two gas diffusion layers, the two current collectors, and the two sealing members, and the non-planar surface is at least partially flattened when the assembly occurs. | 03-20-2014 |
Patent application number | Description | Published |
20100031513 | Scraper Blade Assembly Structure - The invention relates to a scraper blade assembly structure. The scraper basically comprises a stem for hand grip and a scraping section in the front. The invention provides fast replacement and firm assembly for scraper. The scraping section of the scraper comprises a jaw plate, a blade and a fastening button. The jaw plate extends backward to form an arm. The jaw plate is attached to the inside of the jaw plate groove of the scraping section by a fastener that also serves as a lever pivot for swinging back and forth. When a fastening button goes into the inside of the jaw plate of the scraping section, it pushes the inner side of the arm of the jaw plate, and so as to generate a great holding power for the front of the jaw plate that can facilitate fast replacement and firm assembly for the scraper blade. Further, the fastening button can be a handle protruding from one side of the scraping section to facilitate the user to exert stronger force for effective scraping. | 02-11-2010 |
20100077620 | Scraper Structure - The invention relates to a scraper structure, which is generally comprised of a long handle for handgrip and a scraping section in its front. Basically, the scraping section of the scraper is comprised of a jaw plate, a blade, a fastener and a fastening button. The front end of the scraping section extends downward or forward to form a blade slot and has a jaw base at the bottom to connect to the blade slot. The jaw plate has identical shape to the clamp jaw in the front of the jaw base. The fastener and the fastening button are combined to provide tightening and enable the clamp jaw in the front of the jaw plate to exert great pressure onto the blade and achieve quick blade replacement and assembly. Further, the fastening button can exert more force by the front hand in grasping the handle and achieve powerful scraping. | 04-01-2010 |
20110146083 | SCRAPING TOOL THAT CAN BE ASSEMBLED QUICKLY AND REPLACED FOR SCRAPER BLADE - The invention is related to a scraping tool that can be assembled and replaced for scraper blade quickly. The scraping tool in general comprises a stick for hand grasp and a scraping section in the front. The invention mainly uses an arm of suitable length extended from the back end of a jaw clamp toward the middle. It uses fasteners to be located inside the groove in the back of the scraping section. The fastener is also used as pivot for the arm to swing back and forth. On the arm in the back of the jaw clamp, there is a control button that provides vertical pushing force in the back of the jaw clamp and allows strong clamping force in the front of the jaw clamp onto the scraper blade to achieve stable assembly and fast replacement for scraper blade. | 06-23-2011 |
20120110766 | ASSEMBLY JOINT STRUCTURE OF A LONG HANDLE AND A SCRAPER TOP FOR A SCRAPING TOOL - The invention is related to an assembly joint structure of a long handle and a scraper top for a scraping tool. In general, it contains a long handle for hand grip and a scraper top in the front. In the invention, the rear central section of the scraper top has a connecting column of suitable length. On the connecting column, there are two through holes. In the front of the long handle, there is a connecting hole that has the same inner diameter as the outer diameter of the connecting column. On the wall of the connecting hole there are corresponding through holes. When the scraper top inserts the connecting column into the connecting hole of the long handle, rivets can be put in the through holes to constitute an assembly joint structure between the long handle and the scraper top. | 05-10-2012 |
20120110769 | TROWEL WITH EASY ASSEMBLY AND EASILY REPLACEABLE BLADE - The invention is related to a trowel that can be easily assembled and replaced for blade. The trowel comprises a handgrip shank and a knife holder that can accommodate a blade. The knife holder has a crossing locking groove inside and its top is firmly attached to the top of the supporting surface of the shank by fasteners. Thus, a suitable gap is formed between the bottom of the knife holder and the supporting surface. As a result, when the knife back has multiple locking hooks apart in equal distance, the blade can use knife back to slide in from the knife holder side and be locked inside the locking groove with the locking hooks. This provides a firm assembly positioning without downward detachment. In addition, the blade can be quickly removed from the knife holder side for replacement. | 05-10-2012 |
Patent application number | Description | Published |
20080221009 | Hydrophobic self-cleaning coating compositions - A super hydrophobic self cleaning coating composition that can be applied by conventional methods such as by spraying the composition onto a surface creating a wet and dry dirt repellent coating on the surface. The super hydrophobic self cleaning coatings are used on exterior automotive and boat surfaces, and in many other applications, to produce a self cleaning surface, reduce adherence of dirt and contaminants to a treated surface, and reduce drag in some applications providing an energy savings. The coating utilizes a blend of organic and/or inorganic polymers with hydrophobic nanoparticles of fumed silica and/or titania in a volatile solvent which evaporates at ambient temperature. The coating solves the problem of poor resistance to UV light, opaque appearance, and/or some abrasion resistance not found in previous coatings of similar nature. A preferred coating has good resistance to UV light and some resistance to abrasion. Clear, nearly transparent and translucent coatings are produced as compared to conventional coatings of comparable hydrophobicity which are typically white or opaque. The coating can be applied by a single and easy spraying method and the super hydrophobic property can be achieved by drying the film by evaporation of the solvent at ambient temperature for 5 to 10 minutes. Embodiments of the super hydrophobic self-cleaning coating composition result in a clear coating or in some cases a translucent dirt repellant film for coating on painted material, plastic, metal, glass, ceramic, fiberglass or a polymer substrate. The coating utilizes a blend of organic and/or inorganic polymers with hydrophobic nanoparticles of fumed silica and/or titania in a volatile solvent. At least one preferred coating composition comprising an effective amount of a treated fumed silica in a solvent resulting in a coated surface providing a contact angle of at least 165 degrees as compared to water having a contact angle of from 10 to 15 degrees on a noncoated surface. The composition imparts a degree of hydrophobicity to a surface so that the surface will have a tilt angle of sliding of less than 2 degrees as compared to water on a noncoated surface having a tilt angle of sliding of 90 degrees or higher. The coating composition is removed by washing with a detergent or applying pressure to the coating wiping same from the treated surface. Exposure to water in the form of rain or snow does not remove the coating composition. | 09-11-2008 |
20080221263 | Coating compositions for producing transparent super-hydrophobic surfaces - A coating composition and process for generating transparent, near-transparent, and semi-transparent super-hydrophobic coatings on surfaces having a contact angle of greater than 165 degrees. The composition comprises hydrophobic nanoparticles of silsesquioxanes containing adhesion promoter groups and low surface energy groups. | 09-11-2008 |
20080253824 | Tire dressing applicator - An applicator for applying a liquid to the surface of a vehicle tire side wall. The applicator includes an elongate container for holding a selected quantity of liquid and a housing connected thereto. The housing has a concave front face with an elongate open faced channel extending along a selected length portion thereof for distributing the liquid to a porous pad overlying the concave face. There is at least one vent hole through pad with an inlet thereto communicating with such open faced channel and an outlet in a free outer surface of the pad. | 10-16-2008 |
20080292578 | Sustained release air freshening device - This invention relates to a device that provides controlled release of a fragrant or deodorizing substance: the fragrant or deodorizing substance being solublized with an appropriate carrier solvent within a polymeric matrix. The layers function as protective barriers, semi-permeable membranes, fragrance reservoirs, and adhesives. The device is capable of delivering a fragrance at a controlled rate for a prolonged period of time through the gradual diffusion and release of fragrant material carried by a solvent from a reservoir system to the semi-permeable UV curable, oligomer composition acting a fragrance release regulator. Additionally, the UV curable, oligomeric composition that forms the reservoir and regulating layer can be engineered to be adhesive through cure inhibition. The method of cure inhibition can also be utilized to create internal areas of high and low cross link density to further control the release rate of a fragrance. | 11-27-2008 |
20090018249 | Hydrophobic self-cleaning coating compositions - A hydrophobic self cleaning coating composition that can be applied by conventional methods such as by spraying the composition onto a surface forming creating a wet and dry dirt repellent coating on the surface. The coating utilizes hydrophobic nanoparticles of fumed silica and/or titania in a solvent which evaporates at ambient temperature. The coating solves the problem of poor resistance to UV light, opaque appearance, and/or abrasion found in previous coatings of similar nature. Virtually transparent coating are produced as compared to conventional coatings of comparable hydrophobicity which are typically white or opaque. The coating can be applied by a single and easy spraying method and the super hydrophobic property can be achieved by drying the film by evaporation of the solvent at ambient temperature for 5 to 10 minutes. Embodiments of the hydrophobic self-cleaning coating composition can be produced resulting in a clear coating or in some cases a translucent dirt repellant film or coating on painted material, plastic, metal, glass, ceramic, fiberglass or a polymer substrate. One preferred coating composition utilizing an effective amount of a treated fumed silica in a solvent forms a coated surface providing a contact angle of at least 165 degrees as compared to water having a contact angle of from 10 to 15 degrees on a noncoated surface. The self-cleaning coating composition imparts a degree of hydrophobicity to a surface so that the treated surface will have a tilt angle of sliding of less than 2 degrees as compared to water on a noncoated surface having a tilt angle of sliding of 90 degrees or higher. | 01-15-2009 |
20110177252 | COATING COMPOSITIONS FOR PRODUCING TRANSPARENT SUPER-HYDROPHOBIC SURFACES - A coating composition and process for generating transparent, near-transparent, and semi-transparent super-hydrophobic coatings on surfaces having a contact angle of greater than 165 degrees. The composition comprises hydrophobic nanoparticles of silsesquioxanes containing adhesion promoter groups and low surface energy groups. | 07-21-2011 |
20120142814 | HYDROPHOBIC COATING COMPOSITIONS FOR DRAG REDUCTION - A hydrophobic coating has been made for use on interior pipe surfaces, exterior boat surfaces, and in many other applications, to reduce drag in fluid flow, thus providing an energy savings. The coating utilizes a blend of organic and/or inorganic polymers with hydrophobic nanoparticles of fumed silica and/or titania in a solvent. The coating solves the problem of poor resistance to UV light and/or abrasion found in previous coatings of similar nature. The coating of the present invention can be made to be translucent and nearly transparent whereas previous coatings of comparable hydrophobicity have all been white or opaque. The coating can be applied in a single application by an easy spraying method and the super hydrophobic property can be achieved by drying the film at room temperature for 5 to 10 minutes. A preferred coating has good resistance to UV light and some resistance to abrasion. The hydrophobic drag reduction coating composition forms an almost clear, translucent film or coating on painted material, plastic, metal, glass, ceramic, fiberglass or polymer substrate. A preferred coating composition comprising an effective amount of a treated fumed silica in a solvent resulting in a coated surface providing a contact angle of at least 165 degrees as compared to water having a contact angle of from 10 to 15 degrees on a noncoated surface. The composition imparts a degree of hydrophobicity to a surface so that the surface will have a tilt angle of sliding of less than 2 degrees as compared to water on a noncoated surface having a tilt angle of sliding of 90 degrees or higher. | 06-07-2012 |
Patent application number | Description | Published |
20090178795 | Manufacturing method for a radiator and a structure thereof - A manufacturing method for a radiator and a structure thereof are disclosed. The manufacturing method for a radiator includes the following steps. A substrate and a plurality of cooling sheets are provided. The side wall of the substrate has a plurality of concave troughs. The cooling sheets are respectively plugged into the concave troughs. The two side walls of each of the concave troughs tightly contact the two opposing surfaces of the cooling sheet. Thereby, each of the cooling sheets is located at the side wall of the substrate, and the top portion and the bottom portion of the cooling sheet extend to outside of the top surface and the bottom surface of the substrate. By using the riveting technology to directly fasten the cooling sheets via the two side walls of the concave troughs, the present invention prevents the heat-conduction loss from being occurred. | 07-16-2009 |
20090189169 | Light emitting diode lamp - A light emitting diode lamp includes a heat sink, a socket, a light emitting module, a holder and a lens. The socket and the holder are respectively positioned opposite sides of the heat sink. The light emitting module is combined with the heat sink and has a light emitting diode unit. The lens is mounted on the light emitting diode unit and combined inside the holder. The heat sink includes a substrate and a plurality of heat dissipating fins. The substrate has a plurality of extending arms in a manner that a slot is formed between two neighboring extending arms. A plurality of heat dissipating fins is inserted into the corresponding slots. One of opposite sidewall surfaces of each extending arm is against one of opposite surfaces of each heat dissipating fin. Thereby, there is no need of producing a heat sink by soldering. | 07-30-2009 |
20090194251 | Heat-dissipating element and heat sink having the same - The present invention relates to a heat-dissipating element and a heat sink having heat-dissipating elements. The heat sink includes at least one substrate and a plurality of heat-dissipating elements. The substrate includes a base portion and a plurality of extending arms. Insertion slots are provided between each extending arm and two adjacent extending arms. Each heat-dissipating element is inserted in the corresponding insertion slot of the substrate. The lateral surfaces of each extending arm abut against the corresponding surfaces of the each heat-dissipating elements. A plurality of embossed heat-dissipating portions protrudes from at least one surface of each heat-dissipating element. According to the above, the present invention avoids the use of solders and heat transfer loss. Via the embossed heat-dissipating portions, the surface area of the heat-dissipating element for heat dissipation can be increased and thus the heat-dissipating effect is enhanced. | 08-06-2009 |