Patent application number | Description | Published |
20140165339 | REVERSIBLE CABLE TIE - A reversible cable tie includes a belt, a guide portion and a constraint base. The belt includes a first end, a second end and a plurality of constraint structures. The guide portion and the constraint base are disposed on the first end and the second of the belt. The constraint base includes a hollow portion, an opening structure, a hook and a handle. The belt passes through the hollow portion. The opening structure is disposed on an external surface of the hollow portion. The hook is movably disposed inside the hollow portion and exposed via the opening structure. A first end of the hook is resiliently connected to a first wall of the opening structure. A second end of the hook buckles the constraint structure, so as to constrain a movement of the belt relative to the constraint base. The handle is disposed on the second end of the hook. | 06-19-2014 |
20150107778 | HOT MELT APPARATUS - A hot melt apparatus includes main body, exhaust pin, stopping and resilient members. The main body has hot melt surface, first and second exhaust openings. The first exhaust opening is located on hot melt surface. The main body has channel and chamber. The chamber has abutting surface. The channel is communicated with first exhaust opening and abutting surface. The chamber is communicated with second exhaust opening. The exhaust pin is disposed in channel, and has a pinhead protruding from first exhaust opening and a pintail protruding into chamber. Stopping member is accommodated in chamber and connected to pintail. When the stopping member abuts against the abutting surface, the pinhead open the first exhaust opening. When the pinhead closes the first exhaust opening, the stopping member leaves the abutting surface. The resilient member is accommodated in the chamber for pushing the stopping member toward the abutting surface. | 04-23-2015 |
Patent application number | Description | Published |
20140098510 | ELECTRONIC DEVICE AND FIXING STRUCTURE THEREOF - An electronic device includes a fixing structure and an electronic component. The fixing structure includes a base, a locking element, and a fixing element. The base has a first position-limiting portion, a second position-limiting portion, and an assembling portion. The locking element and the fixing element respectively have a first and a second locking portion. When the locking element is assembled to the assembling portion and the first locking portion faces the first position-limiting portion, the fixing element is limited on the first position-limiting portion to lock the second locking portion with the first locking portion. When the locking element is assembled to the assembling portion and the first locking portion faces the second position-limiting portion, the fixing element is limited on the second position-limiting portion to lock the second locking portion with the first locking portion. The electronic component is fixed to the base through the fixing element. | 04-10-2014 |
20140211381 | ELECTRONIC APPARATUS AND BASE STRUCTURE THEREOF - A base structure includes a main body, a cover, a rod and an operating element. The main body includes a hollow portion, a containing portion for placing a battery module and an electrical connecting portion. The cover is combined detachably with the main body to cover the hollow portion. The operating element passes through the main body to connect to the rod, and drives the rod to move relative to the main body. After the cover is combined with the main body, the rod in a first position locks the cover. When the rod is moved from the first position to a second position, the rod unlocks the cover and pushes the cover outwards from the main body, and the rod pushes the battery module to be electrically disconnected from the electrical connecting portion at the same time. | 07-31-2014 |
20140312628 | LOCKING MECHANISM AND PORTABLE ELECTRONIC APPARATUS - A locking mechanism includes a hooking component, an engagement structure, and an actuation component. The hooking component is disposed in a casing of a portable electronic apparatus. The engagement structure and the actuation component are disposed in another casing of the portable electronic apparatus. The actuation component is slidable relatively to the casing and includes a magnetic portion. When the magnetic portion approaches a hooking part of the hooking component, the hooking part is rotated out of the casing by a magnetic effect to hook the engagement structure; when the actuation component slides such that the magnetic portion is moved away from the hooking part, because a force generated by the magnetic effect to the hooking part decreases, a resilient part of the hooking component can drive the hooking part to disengaged from the engagement structure to rotate into the casing. | 10-23-2014 |
Patent application number | Description | Published |
20130165629 | BISPECIFIC T-CELL ACTIVATOR ANTIBODY - This invention relates to bispecific antibodies having combinations of linker and hinge sequences to create linker-hinge interface domains with biological significance. Such linker-hinge interface domains covalently join two molecules, maintain the biological activities of linked molecules (target binding), stabilize the biological characteristics of new molecule (solubility and 4° C. stability), maintain the chemical, biochemical and physical properties (cytotoxicity) of the linked molecules, and modulate the biological characteristics of the linked molecules (activating T-lymphocytes without significant sign of proliferations). Both linker (GGGGS) and hinge (CPPCP) sequences are required to establish functional linker-hinge interface domains as deletion of any of the component resulted in significant lost of T-lymphocyte mediated activity. | 06-27-2013 |
20150175710 | ALPHA-ENOLASE SPECIFIC ANTIBODIES AND METHOD OF USE IN IMMUNE DISEASES - A method for treating an inflammatory disease or an immune disorder includes administering to a subject in need of such treatment an antagonist against ENO1. The antagonist binds ENO1 and inhibits ENO1 plasminogen receptor activity. The antagonist may be an anti-human ENO1 antibody, or an scFv, Fab, or F(ab) | 06-25-2015 |
20150183884 | ALPHA-ENOLASE SPECIFIC ANTIBODIES AND METHODS OF USES IN CANCER THERAPY - The present invention discloses an anti-human alpha-enolase (ENO1) antibody, which can bind the peptides, comprising amino-acid sequence 296FD Q D D W G A W Q K F TA309 (SEQ ID: #9) and/or 326K R I A K A V N EK S336 (SEQ ID: #10) of human ENO1 protein (GenBank: AAH50642.1), has a favorable binding activity (the binding affinity is around 2.19×10-10 mol/L) and a remarkable capability to inhibit the cell invasion and tumor metastasis of a varied of tumors. The recognized peptides and antibody of the invention are useful for diagnosis, prognosis, and treatment of cancers that have been reported to express cell-surface ENO1 such as including lung, breast, pancreas, liver, colorectal, prostate cancers and solid tumors. | 07-02-2015 |
Patent application number | Description | Published |
20150377719 | METHOD FOR DETECTING PRELOAD RESIDUAL RATE - A method for detecting a preload residual rate involves: a. installing a temperature sensor on one of two preloaded elements; b. making the two preloaded elements to move with respect to each other, and recording a time-related temperature variation sensed by the temperature sensor, so as to obtain an initial temperature-rising curve; c. making the two preloaded elements to move with respect to each other, and recording a time-related temperature variation sensed by the temperature sensor, so as to obtain a detected temperature-rising curve; and d. comparing the initial and detected temperature-rising curves, so as to obtain the preload residual rate between the two preloaded elements of the step c to the step b. The method detects a preload residual rate applied to an object when the object is operating while being advantageous in terms of cost, service life, response and accuracy. | 12-31-2015 |
20150377726 | METHOD FOR INDENTIFYING FRICTION PARAMETER FOR LINEAR MODULE - A method for identifying friction parameters for a linear module is disclosed. Since an acting interval of a friction is determined by a relative velocity between two contacting surfaces, and when the relative velocity is much greater than a Stribeck velocity, there is only a Coulomb friction and a viscous friction exist between the contacting surfaces, it is possible to use a measured torque signal of this interval to identify a Coulomb friction torque, a the linear module's friction torque, and the linear module's equivalent inertia. When the relative velocity between the two contacting surfaces is smaller than the Stribeck velocity, it is possible to identify a maximum static friction torque and the Stribeck velocity by referring to the three known parameters. Thereby, all the friction parameters can be identified within one reciprocating movement of the linear module, making the method highly feasible in practice. | 12-31-2015 |