Patent application number | Description | Published |
20090009319 | Wireless Monitoring Device - An exemplary embodiment of a wireless monitoring device includes a sensitive patch with a sensor for sensing a body part and generating a signal. A wireless transmitter includes a first connection portion coupling to the sensitive patch for transmitting the signal. A mounting belt device is affixed to the wireless transmitter and securable in a closed loop configuration for coupling the wireless transmitter to an object. A wireless receiver is adapted for receiving the signal. The wireless receiver includes a display surface for displaying a value corresponding the signal and a supporting surface with a second connection portion. The wireless receiver and the wireless transmitter are detachably combined by coupling the first connection portion and the second connection portion, thereby keeping the wireless receiver and the wireless transmitter in an upright position. | 01-08-2009 |
20100116840 | Probe Cover Dispenser - An exemplary embodiment of a probe cover dispenser includes a bottom base. A slidable access member with a first opening for accessing probe covers is disposed on a first position of the bottom base. A storage member with a second opening thereunder for accommodating stacked probe covers is disposed on a second position of the bottom base. A retaining member holds one of the stacked probe covers. And a linking member connects the slidable access member to the retaining member. The linking member is induced for driving the retaining member to release the one of the stacked probe covers and cause it to fall into the first opening from the second opening and/or hold a further one of the stacked probe covers in the storage member, while the slidable access member is moved upwardly or downwardly. | 05-13-2010 |
20100133291 | Probe Cover Dispenser - An exemplary embodiment of a probe cover dispenser includes a storage member for accommodating stacked probe covers and a retaining unit with a pair of supporting arms for holding or releasing one of the stacked probe covers. A slide connects the retaining unit. A linking rod with a protrusion portion and a recess portion connects the slidable access member. The linking rod is moved upwardly or downwardly and the protrusion portion or the recess portion is moved to a position corresponding to the slide such that a force is applied to push or pull the supporting arms to release or hold the one of the stacked probe covers in the storage member, while the slidable access member is moved upwardly or downwardly. | 06-03-2010 |
20110222578 | Thermometer Without Power Switch - A thermometer without power switch is constituted by a body member without battery, battery cover or power switch and a tip member with a thermal contact surface secured to the body member. A thermal sensor mounted on the inside of the tip member is adapted for sensing a thermal contact surface and producing a temperature signal. A set of leas wires is coupled to the thermal sensor for transmission of the temperature signal. A tubular cylinder is disposed in the body member and a magnetic core is free to slide within the tubular cylinder. A coil of wire is wrapped around the tubular cylinder so that the magnetic core moves through the coil of wire when sliding through the tubular cylinder from one end to an opposite end. A capacitor is electrically connected to the coil of wire. A processor is electrically connected to the capacitor and the set of lead wires. | 09-15-2011 |
20110222579 | Motion Powered Thermometer - A motion powered thermometer is constituted by a body member and a tip member with a thermal contact surface secured to the body member. A thermal sensor mounted on the inside of the tip member is adapted for sensing a thermal contact surface and producing a temperature signal. A set of leas wires is coupled to the thermal sensor for transmission of the temperature signal. A tubular cylinder is disposed in the body member and a magnetic core is free to slide within the tubular cylinder. A coil of wire is wrapped around the tubular cylinder so that the magnetic core moves through the coil of wire when sliding through the tubular cylinder from one end to an opposite end. A capacitor is electrically connected to the coil of wire. A processor is electrically connected to the capacitor and the set of lead wires. | 09-15-2011 |
20110222580 | Thermometer Without Power Switch - A thermometer is constituted by a body member and a tip member secured to the body member. A thermal sensor is mounted on the inside of the tip member, adapted for sensing a temperature and producing a temperature signal. A set of leas wires is coupled to the thermal sensor for transmission of the temperature signal. A display unit is disposed on the body member and a processor is disposed to electrically connect the set of lead wires to receive the temperature signal and drive the display unit for display of a corresponding temperature reading. A rear cover is secured to the body member. A mechanical selector is disposed between the processor and the rear cover and the type of temperature scale displayed in the display unit is selected by pushing the mechanical selector from the rear cover. | 09-15-2011 |
20110224941 | Compact Motion Powered Thermometer - A compact motion powered thermometer includes a body member and a tip member with a thermal contact surface secured to the body member. A thermal sensor mounted on the inside of the tip member is adapted for sensing a thermal contact surface and producing a temperature signal. A set of lead wires is coupled to the thermal sensor for transmission of the temperature signal. A display module is disposed in the body member. A motion electric power generator supplies a power to a capacitor. A processor is electrically connected to both the capacitor to obtain electric power and the set of lead wires to receive the temperature signal such that it can drive the display module for display of a corresponding temperature reading. The display module, the processor and the capacitor are disposed on a substrate. The substrate, the tubular cylinder and the body member are parallel to each other. | 09-15-2011 |
20120128031 | Electronic Clinical Thermometer - A thermometer is constituted by a body member with a display portion and a tip member secured to the body member. The tip member has a hollow cavity and a thermal contact surface surrounding the hollow cavity. A thermal sensor is mounted on the inside of the tip member, adapted for sensing the thermal contact surface and producing a temperature signal. Lead wires are coupled to the thermal sensor for transmission of the temperature signal to the display portion. A hollow heat conductive structure is inserted into the hollow cavity of the tip member, including a film with a heat conductive surface which is directly contacted and against the inside of the thermal contact surface. The lead wires are integrated on the heat conductive surface of the film such that the lead wires and the heat conductive surface are coplanar to form a single piece. | 05-24-2012 |
20120147925 | Non-Mercury Non-Electronic Clinical Thermometer with a Protective Structure - A thermometer includes a protective structure and a tip member with a thermal contact surface secured to the protective structure. A heat conductive layer includes a sensing portion disposed in the tip member and a temperature indication portion disposed in the protective structure. A structure with temperature indication markings is laid out along the temperature indication portion. A reversible temperature-sensitive color changing layer is formed on the temperature indication portion to overlap the structure of the temperature indication markings, in which the sensing portion is adapted for sensing the thermal contact surface to conduct heat flow to the reversible temperature-sensitive color changing layer, producing a sensed temperature and a color changing zone of the reversible temperature-sensitive color changing layer in response to the sensed temperature thereby exhibiting a corresponding temperature value. | 06-14-2012 |
20120147926 | Heat Conductive Structure of a Non-Mercury Non-Electronic Clinical Thermometer - A heat conductive structure for a thermometer with a structure with temperature indication markings includes a probe structure with a thermal conductive surface. A temperature indication portion is disposed adjacent to the probe structure. A reversible temperature-sensitive color changing layer is formed on the temperature indication portion to overlap the structure of the temperature indication markings. The probe structure is adapted for sensing the thermal contact surface to conduct heat flow to the reversible temperature-sensitive color changing layer, producing a sensed temperature and a color changing zone of the reversible temperature-sensitive color changing layer in response to the sensed temperature thereby exhibiting a corresponding temperature value. | 06-14-2012 |
20120147927 | Temperature Indication Structure of a Non-Mercury Non-Electronic Clinical Thermometer - A temperature indication structure for a thermometer includes a temperature indication portion made of a heat conductive layer to receive a heat flow. A structure with temperature indication markings is disposed on or above the temperature indication portion. A reversible temperature-sensitive color changing layer is formed on the temperature indication portion to overlap the structure of the temperature indication markings. The heat conductive layer is adapted to conduct the heat flow to the reversible temperature-sensitive color changing layer, producing a sensed temperature and a color changing zone of the reversible temperature-sensitive color changing layer in response to the sensed temperature thereby exhibiting a corresponding temperature value. | 06-14-2012 |
20120150062 | Non-Mercury Non-Electronic Clinical Thermometer with a Support Structure - A thermometer includes a support structure and a heat conductive layer on an outer surface of the support structure. The heat conductive layer has a sensing portion and a temperature indication portion, and a structure with temperature indication markings is laid out along the temperature indication portion. A reversible temperature-sensitive color changing layer is formed on the temperature indication portion to overlap the structure of the temperature indication markings, in which the sensing portion is adapted for sensing a thermal contact surface of a user to conduct heat flow to the temperature-sensitive color changing layer, producing a sensed temperature and a color changing zone of the reversible temperature-sensitive color changing layer in response to the sensed temperature thereby exhibiting a corresponding temperature value. | 06-14-2012 |
Patent application number | Description | Published |
20090310341 | PORTABLE ELECTRONIC DEVICE AND BATTERY WITH LIGHTING FUNCTIONALITY - A portable electronic device includes a housing and battery. The housing is formed with a battery-receiving compartment that has positive and negative electrodes. The battery is mounted in the battery-receiving compartment, and includes: a casing having positive and negative electrodes that are electrically and respectively connected to the positive and negative electrodes of the housing; a power storage unit having positive and negative electrodes that are electrically and respectively connected to the positive and negative electrodes of the casing; a switch having one end electrically coupled to one of the electrodes of the power storage unit; and a light-emitting element having two ends coupled respectively with another end of the switch and the other electrode of the power storage unit. The power storage unit is controllable through the switch for supplying power to the light-emitting element. | 12-17-2009 |
20100033919 | FIXING MECHANISM FOR FIXING A REMOVABLE MODULE OF AN ELECTRONIC DEVICE - A fixing mechanism includes a housing whereon an opening and a first hole are formed. A first fixing component is disposed on the housing. The fixing mechanism further includes a frame installed inside the housing through the opening for fixing a removable module. A first wedging component is disposed on the frame for wedging with the first fixing component so as to fix the removable module inside the housing. The fixing mechanism further includes a releasing component installed inside the first hole for pressing the first wedging component so as to separate the first wedging component from the first fixing component. | 02-11-2010 |
20100035442 | KEYBOARD CONNECTING MECHANISM CAPABLE OF ASSEMBLING A KEYBOARD CONVENIENTLY - A keyboard connecting mechanism includes a frame, a cable, and a socket. The frame is connected to a keyboard. At least one first positioning structure is disposed on the frame. The cable is disposed on a side of the frame. The cable includes a plurality of pins, and at least one hole is formed on the cable. The socket includes a base. At least one second positioning structure is formed on a first side of the base for connecting with the first positioning structure so as to fix the frame and the cable. The socket further includes a plurality of fragments disposed on the first side of the base for applying elastic force to the plurality of pins of the cable. The socket further includes at least one elastic structure disposed on a lateral side of the base for fixing the frame elastically. | 02-11-2010 |
20100265666 | OPENING MECHANISM WITH AN EASY ASSEMBLY STRUCTURE AND RELATED ELECTRONIC DEVICE - An opening mechanism includes a base whereon an opening is disposed, and a covering including a main body for covering the opening. The covering further includes a hook connected to the main body for hooking the base. The covering further includes a buckling part connected to a side of the main body. The opening mechanism further includes a sliding component passing through the buckling part. An end of the sliding component is disposed on a breach of the main body. An engaging part is formed on a side of the sliding component for engaging with a fixing end. The opening mechanism further includes an elastic component installed on the side of the main body and disposed on a side of the sliding component for providing elastic force to the sliding component so as to drive the engaging part of the sliding component to engage with the fixing end. | 10-21-2010 |
Patent application number | Description | Published |
20090121821 | SAFETY SWITCH - A switch includes a body with a switch member on a top thereof, an extension extends from an underside of the switch member, and a substantially inverted L-shaped slot is defined through the extension. Two terminals extend through a bottom of the body, in which one of the terminals is fixed with a contact plate. The contact plate has a tongue with a free end, which contacts the other terminal when the circuit is ON, and is separated from the other terminal when the circuit is OFF. An operation member has a first end movably engaged with the slot and a second end connected with the contact plate. Under the current overload condition, the contact plate deforms, the first end of the operation member move downward along the vertical space of the slot, and the switch member is pivoted by a torsion spring to the OFF position. | 05-14-2009 |
20090127087 | Safety Switch - A switch includes a body with a switch member on a top thereof, an extension extends from an underside of the switch member, and a substantially inverted L-shaped slot is defined through the extension. Two terminals extend through a bottom of the body, in which one of the terminals is fixed with a contact plate. The contact plate has a tongue with a free end, which contacts the other terminal when the circuit is ON, and is separated from the other terminal when the circuit is OFF. An operation member has a first end movably engaged with the slot and a second end connected with the contact plate. A positioning member having a first end pivotally connected to an inside of the body and a second end biasing the first end of the operation member. Under the current overload condition, the switch member is pivoted by a torsion spring to the OFF position. | 05-21-2009 |
20100128405 | DUAL PROTECTION DEVICE FOR CIRCUIT - A dual protection device for a circuit includes a first protection unit and a second protection unit functioning independently. The first protection unit includes an elastic contact piece which has a first contact point. A first conductive member has a second contact point to contact with the first contact point. The elastic contact piece is deformed and bent toward an opposite direction to separate the first contact point from the second contact point when overloaded. A second protection unit has a second conductive member which is connected between the second terminal and the first conductive member. A fuse member and a biasing member are disposed at two opposite sides of the second conductive member. When the fuse member melts due to high temperature, the second conductive member is pushed by the biasing member to be separated from the second terminal. | 05-27-2010 |
20100142109 | Dual Protection Device For Circuit - A dual protection device for a circuit includes a first protection unit and a second protection unit functioning independently. The first protection unit includes an elastic contact piece having a first contact point and a first conductive member having a second contact point to contact with the first contact point. When overloaded, the elastic contact piece is deformed and bent toward an opposite direction to separate the first contact point from the second contact point, thereby protecting the circuit. The second protection unit has a flexible second conductive member disposed between the first conductive member and the second terminal. A fuse member forces a free end of the second conductive member to connect with the second terminal. When the fuse member melts due to high temperature, the free end of the second conductive member is separated from the second terminal, thereby protecting the circuit. | 06-10-2010 |
20100149714 | Dual Protection Device For Circuit - A dual protection device for a circuit includes a first protection unit and a second protection unit functioning independently. The first protection unit includes an elastic contact piece having a first contact point and a conductive member having a second contact point to contact with the first contact point. When overloaded, the elastic contact piece is deformed and bent toward an opposite direction to separate the first contact point from the second contact point, thereby protecting the circuit. The second protection unit has a fuse member and a second terminal. The fuse member is connected between the conductive member and the second terminal. If the first protection unit does not function as expected and the temperature climbs to a predetermined value, the fuse member melts. The conductive member is disconnected from the second terminal, thereby protecting the circuit. | 06-17-2010 |