Patent application number | Description | Published |
20140290714 | GLASS COATED WITH A HIGHLY REFLECTIVE FILM AND PROCESS FOR PREPARING THE SAME - The present invention discloses a glass coated with a highly reflective film and the process for preparing the same. The present invention provides a glass coated with a highly reflective film comprising a glass substrate and a highly reflective film formed thereon, wherein the highly reflective film comprises inorganic film-forming materials, adhesives and solvents. The present invention also provides a process for preparing a glass coated with a highly reflective film comprising the following steps: (1) preparing a coating solution; (2) coating the coating solution on a glass; and (3) curing the coated glass. The coated glass is white. Compared with conventional fluorine-containing back sheet materials, the coated glass of the present invention has excellent reflectivity, thermal conductivity, water resistance, mechanical properties and weatherability. Further, the manufacture of the present invention is simple, cost efficient and suitable for large-scale commercialization. | 10-02-2014 |
20150144188 | BLACK GLASS AND SOLAR CELL ASSEMBLY USING THE SAME - The subject invention is related to a black glass and a solar cell assembly comprising the same. The subject invention provides a black glass comprising a glass substrate; and a black coating formed on the glass substrate, wherein the black coating comprises an inorganic film-forming material, a black pigment and an adhesive. The subject invention also provides a solar cell assembly comprising: a front glass substrate; the aforementioned black glass; and a photovoltaic cell sealed between the front glass substrate and the black glass. The black glass of the subject invention has a good thermal conductivity, waterproof performance, mechanical properties and weather resistance such that the black glass is not only aesthetically pleasing but also useful as a backside protection material of a solar cell assembly for long-term outdoor use. | 05-28-2015 |
20150207001 | COLORED GLASS AND SOLAR CELL ASSEMBLY USING THE SAME - The subject invention is related to a colored glass and a solar cell assembly comprising the same. The subject invention provides a colored glass comprising a glass substrate; and a colored coating formed on the glass substrate, wherein the colored coating comprises an inorganic film-forming material, a pigment and an adhesive. The subject invention also provides a solar cell assembly comprising: a front glass substrate; the aforementioned colored glass; and a photovoltaic cell sealed between the front glass substrate and the colored glass. The colored glass of the subject invention has a good thermal conductivity, improved waterproof performance, mechanical properties and weather resistance such that the colored glass is not only aesthetically pleasing but also useful as a backside protection material of a solar cell assembly for long-term outdoor use. | 07-23-2015 |
Patent application number | Description | Published |
20150337970 | ENERGY-RECYCLING HYDRAULIC CONTROL MAIN VALVE - Disclosed is an energy-recycling hydraulic control main valve, which is provided with end covers, a valve core, a left one-way valve and a right one-way valve, the left one-way valve is composed of a left valve seat, a left cone valve core and a left spring; a conical surface of the left cone valve core is closely attached to a left conical surface of the valve core by the spring force; the right one-way valve is composed of a right valve seat, a right cone valve core and a right spring; and a conical surface of the right cone valve core is closely attached to a right conical surface of the valve core by spring force. The hydraulic main control valve can not only limit the falling speed of a piston, but use the potential energy generated by the gravity action on the piston, thereby achieving energy recycling. | 11-26-2015 |
20150345491 | PLUNGER PUMP POWER CONTROL DEVICE AND CONTROL METHOD THEREOF - A plunger pump power control device and a control method thereof. The device comprises a valve body, a valve core, a valve sleeve, a stop plug, a spring pre-loaded mechanism, a feedback mechanism and a slide valve. The slide valve is provided within one end of the valve core. The stop plug is provided at one end of the valve body, and the spring pre-loaded mechanism is provided at the other end of. The valve sleeve, the valve core, and the slide valve are provided between the stop plug and the spring pre-loaded mechanism, and the feedback mechanism is hinged on the valve body. The device enables the hydraulic plunger pump to control the output power, the pump power output is simulated by two broken lines, and the error is less. It is flexible to load variable by the valve core through the pressure of the C-cavity. | 12-03-2015 |
20150354173 | PRESSURE COMPENSATION VALVE - A pressure compensation valve comprises a valve body, a valve sleeve fixedly mounted on the valve body, and a spool disposed in a valve hole of the valve body and capable of moving. The pressure compensation valve can change the pressure compensation characteristic, that is, the pressure compensation valve can change the difficult degree of the pressurized oil liquid flowing by changing an effective pressure acting surface of the pressure compensation valve The structure is simple, requires low cost, and increases the utilization rate of a product. | 12-10-2015 |
Patent application number | Description | Published |
20140076108 | CABLE STRIPPER - A cable stripper having a stripper body having at least one hole and opposite first and second ends, a cable stripper guide having a connection part and a guiding part, the connection part engaging the first end of the cable stripper body, at least one marble located within the at least one hole in the cable stripper body, and at least one spring having first and second ends and being located within the at least one hole in the cable stripper body and engaging the at least one marble. | 03-20-2014 |
20140076109 | INTEGRATED ROTARY CABLE STRIPPER - An integrated rotary cable stripper that includes a substantially cylindrical body having an inner wall and two opposing ends, a cable jacket stripper received within in the inner wall of the body, an outer conductor stripper received within the inner wall of the body, an inner conductor cutter received within the inner wall of the body, and an inner conductor chamfer turning cutter received within the inner wall of the body, wherein the cable jacket stripper, outer conductor stripper, inner conductor cutter, and inner conductor chamfer turning cutter integrate the functions to strip a cable. | 03-20-2014 |
20140076114 | CABLE STRIPPER HANDLE ASSEMBLY - A cable stripper handle assembly including a handle, a handle sleeve coupled to the handle and having a first portion and a second portion, a handle sleeve connector surrounding the second portion of the handle sleeve, the handle sleeve connector having first and second holes, the second hole having two opposing ends and intersecting the first hole, a unidirectional bearing received in the first portion of the handle sleeve, at least one marble positioned inside the second hole adjacent to at least one of the opposing ends thereof, and at least one spring positioned inside the second hole and contacting the at least one marble. | 03-20-2014 |
Patent application number | Description | Published |
20100205613 | Method, Apparatus, and System for Applying Timed Operations to Non-Timed Functions - An encapsulation module encapsulates a function in a timed method adapter. A caller calls the timed method adapter in place of the function. The timed method adapter calls a set invoker. The set invoker saves an argument, calls an invoke thread, and returns to the timed method adapter. The invoke thread invokes the function and passes the function an object and the argument. The timed method adapter further waits for an execution result from the function and monitors for an expiration of a timeout. If the function returns the execution result before expiration of the timeout, the timed method adapter returns the execution result to the caller. If the timeout expires before the function returns the execution result, the timed method adapter directs the invoke thread to cancel the function and returns a timeout exception to the caller. | 08-12-2010 |
20120324478 | Applying Timed Operations to Non-Timed Functions - For applying timed operations to non-timed functions, a computer causes the computer to discover, by parsing source code, a caller calling a function. The function does not perform timed operations. The computer further encapsulates the function in a timed method adapter and calls the timed method adapter in place of the function from the caller, passing the timed method adapter an object and an argument for the function. The computer further calls an invoke thread from the set invoker and returns from the set invoker to the timed method adapter. The computer waits for an execution result from the function at the timed method adapter, monitoring for an expiration of a timeout, and invokes the function from the invoke thread, passing the function the object and the argument. | 12-20-2012 |