Patent application number | Description | Published |
20090230281 | MOLD WITH UNLOADING MECHANISM - A mold with unloading mechanism includes an upper insert embedded in an upper plate, a lower insert embedded in a lower plate and matching the upper insert to define a cavity therebetween for molding the product, a bottom clamping plate located under the lower plate via a padding plate, a pusher penetrating through the bottom clamping plate to push an ejector plate assembly movably received in the padding plate, two unloading pins, a stroke pin and an elastic element. The bottom of the unloading pin is fixed in the ejector plate assembly and the bottom of the stroke pin is movably configured in the ejector plate assembly. The top of the unloading pin and the stroke pin movably penetrates through the lower plate and the lower insert to push the product. The elastic element is against the bottom clamping plate and the bottom of the stroke pin. | 09-17-2009 |
20090238914 | FEED MECHANISM OF MOLD - A feed mechanism of mold includes a top plate, an injection body and two slides. The top plate defines a recess in the bottom for receiving the two slides. The injection body is disposed in the top of the top plate and defines a sprue at the top thereof, a first pouring runner and a second runner both connecting with the sprue. The bottom of the first pouring runner penetrates through the injection body. The slide has a mating surface. The two mating surfaces of the two slides match each other. A shaping recess is defined between the mating surfaces for receiving a core insert. An injection runner is defined between the mating surfaces and connects with the first pouring runner to define a first runner. Two molding cavities are defined among the slides, the core insert and the injection body and connect with the first runner and the second runner respectively. | 09-24-2009 |
20090263526 | POSITION MECHANISM - The present invention provides a position mechanism including a locating body. The locating body defines a locating cavity and a receiving chamber communicating with the locating cavity. A locating stopper is received in the receiving chamber of the locating body with an end thereof toward the locating cavity, and an elastic component is received in the receiving chamber of the locating body and resiliently biases the locating stopper into the locating cavity. | 10-22-2009 |
20090304845 | Demolding Mechanism of Mold - A demolding mechanism of mold includes a male mold, a swingable block and an elastic element. The male mold defines a receiving groove therein. The swingable block mounted in the receiving groove of the male mold has a pressing arm and a shaping arm connected with the pressing arm. The shaping arm defines a shaping portion for shaping a part of a product to be molded in the mold. The elastic element is resiliently disposed between the bottom of the pressing arm of the swingable block and the male mold for causing the swingable block to swing, which makes the product be disengaged from the shaping portion of the swingable block. | 12-10-2009 |
20090304849 | Injection Mold - An injection mold includes a stationary mold section, a movable mold section and an up-down sliding side core. The movable mold section and the stationary mold section define a molding cavity capable of receiving liquefied molding material for forming an article. The sliding side core is received between the stationary mold section and the movable mold section and adjacent to the molding cavity, a side of the sliding side core defines a fixing portion for engaging and further moving upwardly the expected product out of the molding cavity. The injection mold can mold the expected product and conveniently guide the product out of the mold, the injection mold is easy to be manufactured, the cost for manufacturing the injection mold is lower. | 12-10-2009 |
Patent application number | Description | Published |
20090279631 | SYSTEMS AND METHODS FOR MULTIPLE-INPUT MULTIPLE-OUTPUT COMMUNICATIONS SYSTEMS - In a multiple input multiple output (MIMO) wireless communication system, there is provided a method for error correction. The method includes receiving an original signal in an initial MIMO format, detecting an error in the original signal, and notifying a transmitter of the error detected in the original signal. The method also includes receiving a new retransmitted signal in a first retransmitted MIMO format, different from the initial MIMO format, the new retransmitted signal including at least a fraction of encoded bits of the original signal. The method also includes correcting the original signal by applying the new retransmitted signal to the original signal. | 11-12-2009 |
20110158189 | Methods and Apparatus for Multi-Transmitter Collaborative Communications Systems - Method and apparatus for reception of multi-input multi-output (MIMO) transmission in a wireless communication system including a plurality of base stations. The method includes receiving, by a receiving device, one or more media access control (MAC) messages including a plurality of identifiers of neighboring base stations, and receiving, by the receiving device, a bistream including a plurality of bits, each bit representing one base station of the plurality of base stations. The method also includes determining, by the receiving device, at least one of the plurality of identifiers of neighboring base stations included in the one or more received MAC messages based on the received bitmap. | 06-30-2011 |
20110304838 | EXPOSURE SYSTEM AND ADJUSTMENT METHOD THEREOF - An exposure system including a first laser light source, a second laser light source, a focusing module, an astigmatism generating element, and a photo detector, and an adjustment method thereof are provided. The first laser light source emits a first laser beam. The second laser light source emits a second laser beam. The focusing module includes a light converging unit disposed on transmission paths of the first laser beam and the second laser beam for projecting the first laser beam and the second laser beam onto a material. The material reflects at least a part of the first laser beam into a first reflective beam. The light converging unit and the astigmatism generating element are disposed on the transmission path of the first reflective beam. The photo detector is disposed on the transmission path of the first reflective beam from the astigmatism generating element. | 12-15-2011 |