XIAMEN RUNNER INDUSTRIAL CORPORATION Patent applications |
Patent application number | Title | Published |
20150174883 | LASER WELDING STRUCTURE FOR CONNECTING WATER PASSAGE ELEMENT - A laser welding structure for connecting a water passage element, including: a water passage soft tube; and a soft tube connector, wrapped around one end of said water passage soft tube. Inner surfaces of said soft tube connector and said water passage soft tube are each provided with a deep-color light absorption portion, outer perimeter of said soft tube connector is a laser transmission portion, such that connection portion of said soft tube connector and said water passage soft tube is performed laser fusion, welding, and connection under irradiation of laser lights. Also disclosed is a laser welding method, to realize connection of water passage element made of plastic such as PERT, and other water passage components. As such, it can solve a problem of the prior art of inferior welding strength, large deformation, poor tight seal connection. | 06-25-2015 |
20150014360 | FOAM SOAP DISPENSER CAPABLE OF ADJUSTING THE AMOUNT OF AIR - A foam soap dispenser capable of adjusting the amount of air includes a pump, piston rod, a valve seat sheathed on the piston rod, a feed pipe coupled to the pump, a feed check valve for feeding a foam soap and a discharge check valve installed in the pump, an air-liquid mixing chamber formed between the feed check valve and the discharge check valve, an air-intake pipe communicated with an air-liquid mixing chamber, and an air-intake hole formed on the air-intake pipe that connects the air-liquid mixing chamber. The air-intake pipe includes an air-intake check valve, a screw sleeve and an air adjusting screw rod. The screw sleeve is fixed to the air-intake pipe, and the air adjusting screw rod is fixed into the screw sleeve and passed through a through hole of the screw rod of the check valve to insert the screw rod into the air-intake hole. | 01-15-2015 |
20150008243 | FOAM SOAP DISPENSER - A foam soap dispenser includes a cylindrical external casing having two ports, a first check valve installed at a liquid soap inlet end of the external casing, an inner tube installed at a liquid soap outlet end of the external casing, a second check valve fixed to an inner end of the inner tube, a slide plug installed between the inner end of the inner tube and an inner wall of the external casing and slidable with the inner tube along the inner wall of external casing, a gap formed between the slide plug and the inner tube and covered by a soft edge of the second check valve, a vent hole formed at the external casing, and a chamber formed between the two check valves and communicated with outside air when the soft edge of the second check valve is not covered onto the gap. | 01-08-2015 |
20140374636 | BATHTUB FAUCET WATER SWITCHING STCUTURE - A bathtub faucet water switching structure includes: a hollow water passage body with a water inlet and a water outlet; a switching lever longitudinally installed at the front of the water passage body and having an upper end protruded from the faucet body and a lower end linked with the center bolt; and a center bolt movably installed to the water outlet and having first and second shaft portions, and a water stop plate installed between the first and second shaft portions. The first shaft portion is corresponsive to the lower end of switching lever, and a spring is sheathed on the second shaft portion, and the center bolt is moved horizontally back and forth in the water passage body by the action of the switching lever and spring to drive the water stop plate and water outlet hole to connect or disconnect a water path. | 12-25-2014 |
20140209706 | MULTIFUNCTIONAL DISPENSER - A multifunctional dispenser includes a main body having a connecting nozzle and a water supply pipe. A control valve, a regulating device, a proportional control device and a ventilation valve are on the main body. The bottom of main body communicates with a container through the proportional control device. The control valve determines the water flow of the water supply channel. The regulating device is a rotating cylinder passing through the main body. The cylinder has a valve track and a proportional controller track corresponding to the control valve and the proportional control device respectively. The valve track includes arc sections with unequal depths. The proportional controller track includes grooves with unequal depths and supports the proportional control device. A proportional regulator of the proportional control device has liquid outlet holes. The control valve controls the ventilation valve to open/close a gas inlet channel of a concentrated liquid container. | 07-31-2014 |
20140145010 | AERATED SHOWER HEAD STRUCTURE - An aerated shower head structure has a body, a stationary disc, a water distributor and a pressing disc sequentially assembled. The stationary disc has an air inlet hole and a water inlet hole both formed through the stationary disc and communicating with a water inlet of the body. The water distributor and the pressing disc are combined and rotatably mounted under the stationary disc. The water distributor has an air compartment and a water compartment separately formed in a bottom of the water distributor, and has an air channel selectively communicating with the air compartment and multiple water orifices selectively communicating with the water compartment. The pressing disc has an air outlet hole communicating with the air compartment, a water outlet hole communicating with the water compartment, and an elongated water passage communicating with the air outlet hole and the water outlet hole and constitute a water outflow path. | 05-29-2014 |
20140064836 | HEIGHT ADJUSTMENT ASSEMBLY FOR USE IN BATHING SUPPLIES - A height adjustment assembly includes a joint having a through hole defined therethrough, a tube insertable through the through hole, at least one clamping plate with one distal end thereof pivotally connected to the joint to securely engage with an outer periphery of the tube and an adjustment handle movably connected to the joint and having at least one annular ear integrally formed with the adjustment handle to enclose a distal end of the joint so as to enclose therein a free end of the clamping plate, a block formed inside the at least one annular to securely engage with the free end of the clamping plate such that rotation of the adjustment handle forces the clamping plate away from engagement with the outer periphery of the tube to allow the tube to move relative to the joint. | 03-06-2014 |
20140054482 | FLAPPER DRAIN VALVE ADJUSTING STRUCTURE - Disclosed is a flapper drain valve adjusting structure including at least two installation positions disposed at connecting positions of a flapper body and a swinging link rod, a rotating shaft with its axis perpendicular to an arrangement direction of at least two installation positions and a barrier block installed at the boundary of two adjacent installation positions to prevent the swinging link rod from moving horizontally between the adjacent installation positions, and a claw buckle installed on the swinging link rod and detachably and rotably latched onto the rotating shaft. This structure changes the conventional adjusting method and uses the fixed barrier block to separate the adjacent installation positions without the problem of worrying about the precision and structure and adopts the detachable claw buckle to provide a convenient way of replacing the claw buckle that may be damaged after a long time of use. | 02-27-2014 |
20140048157 | Water Supply Delaying Structure of Inlet Valve - Disclosed is a water supply delaying structure installed on an inlet valve body of an inlet valve, including an external buoy, a delay buoy, and internal and external screws. The external buoy includes an upwardly-open chamber, open slots formed on a sidewall of the external buoy, an opening formed at the bottom of the chamber, a check valve loosely installed at the bottom of the opening; an end of the internal screw is adjustably coupled to the external buoy, and the other end of the internal screw is rotably fixed onto the inlet valve body; the delay buoy is floatably installed in the chamber of the external buoy, and an end of the external screw is adjustably coupled to the delay buoy, and the other end of the external screw is rotably coupled to a swing rod of the inlet valve body. | 02-20-2014 |
20140041735 | WATER SUPPLEMENT REGULATING STRUCTURE OF INLET VALVE - A water supplement regulating structure of an inlet valve includes a regulating valve spool, a knob, and a water supplement hole formed on an inlet valve body and the regulating valve spool has a limber hole formed at the middle of the regulating valve spool and a conical plug disposed at a front end of the regulating valve spool, the conical plug is movably extended into the water supplement hole, and the regulating valve spool has an external thread and the knob has an internal thread and the knob and the regulating valve spool are screwed and coupled, so that the knob can be turned to drive the regulating valve spool to move back and forth axially with respect to the water supplement hole to adjust the gap between the conical plug and the water supplement hole so as to regulate the quantity of supplementary water. | 02-13-2014 |
20140001118 | FILTER CARTRIDGE STRUCTURE | 01-02-2014 |
20130285367 | PIPE QUICK RELEASE STRUCTURE - A pipe quick release structure includes a first pipe having at least one guiding element formed on an outer periphery of the first pipe, a second pipe having at least one axial trough defined to correspond to and movably and selectively receive therein the at least one guiding element of the first pipe and a joint securely received in the second pipe and having at least one axial ledge formed on an outer periphery thereof to be movably received in the at least one axial trough of the second pipe, at least one second axial trough defined to receive therein the at least one guiding element of the first pipe and at least one recess defined to communicate with the at least one second axial trough to selectively position the at least one guiding element of the first pipe so as to selectively secure connection of the first pipe to the second pipe. | 10-31-2013 |
20130153407 | METHOD OF PREPARING SANDWICH COMPOSITE COATING ON ENGINEERING PLASTIC SURFACE - A method of preparing a sandwich composite coating on an engineering plastic surface is provided to enhance the functions and quality of a plastic coated metal product, lowers the production cost, saves water (without requiring any water in the whole manufacturing process). The method includes the steps of dry cleaning and activating a plastic blank, placing the activated plastic blank into a PVD furnace, forming a metal basal film on the activated plastic blank, performing a plasma activation of the plastic blank with the metal basal film, sputtering an organic coating, and forming a metal coated film layer on the plastic blank placed into PVD furnace to produce a metalized engineering plastic product which is applicable for sanitary ware, electronics, electric appliances and in the automobile industry. | 06-20-2013 |
20130062805 | METHOD FOR PREPARATION OF IMITATION METAL ENGINEERING PLASTIC COMPOSITE MATERIAL - Plastic and metal are combined while maintaining the advantages of a method for preparation of an imitation metal engineering plastic composite material. The composition of the composite material comprises an engineering thermoplastic, a high-density filler, a mineral powder, a glass fiber, a toughener, a coupling agent, a lubricant and an antioxidant. The composite material features a high density, a high mechanical performance, an excellent thermal deformation temperature, and good plastic injection molding manufacturability. The method of combining the coupling agent and the optimal conditions of the particles are adopted to make the manufacturing simpler and easier, and a general twin-screw granulator can be used for producing granules, and a general plastic injection molding machine can be used in the plastic injection molding process. | 03-14-2013 |