A pressurization control method for blood pressure measurement is applied on a blood pressure measurement device, and includes connecting an airbag unit with a pump, a slow exhaust valve unit and a pressure sensor, wherein the slow exhaust valve unit has a nonlinear depressurization rate; controlling the pump to pressurize the airbag unit with a nonlinear inflation rate until pulses of a pressure signal outputted from the pressure sensor is interpreted to obtain a blood pressure measurement result, wherein the pump inflates the airbag unit with an inflation rate increasing nonlinearly upon a temporal sequence, and the slow exhaust valve unit depressurizes the airbag unit with a nonlinear depressurization rate upon the temporal sequence.
A61B 5/0225 - Measuring pressure in heart or blood vessels by applying pressure to close blood vessels, e.g. against the skinOphthaldynamometers the pressure being controlled by electric signals, e.g. derived from Korotkoff sounds
2.
Non-contact body temperature measuring device and method thereof
A non-contact body temperature measuring device includes a temperature measuring unit, a Doppler radar, a processing unit, and a display unit. The temperature measuring unit measures a temperature of a human body in a non-contact manner. The Doppler radar emits radar waves to the human body and receives reflected radar waves. The processing unit, which is electrically connected to the temperature measuring unit and the Doppler radar, determines measurement spots on the human body based on the reflected radar waves, controls the temperature measuring unit to measure temperatures of the measurement spots, and generates a body temperature measuring value based on the temperatures of the measurement spots. The display unit is electrically connected to the processing unit for displaying the body temperature measuring value.
A nasal mucus suction device includes an air pump and a head structure. The air pump has an intake tube and an outlet tube. The head structure is coupled to the intake tube and the outlet tube of the air pump, and defines a channel between a nasal mucus suction inlet and a gas outlet. The channel includes a first channel section in communication with the nasal mucus suction inlet, and a second channel section in communication with the gas outlet. The first channel section includes at least one mucus storage cavity, the second channel section is in communication with the intake tube and the outlet tube of the air pump. The first channel section has a maximized path length, and includes an anti-backflow channel structure. The second channel section includes a noise reduction space.
A61M 1/00 - Suction or pumping devices for medical purposesDevices for carrying-off, for treatment of, or for carrying-over, body-liquidsDrainage systems
A thermometer includes an input unit, a control unit, a temperature sensor and an output unit. In response to an input operation is applied on the input unit, the control unit starts to perform a temperature detecting procedure, wherein the control unit instructs the temperature sensor to periodically perform a plurality of temperature detecting operations to obtain a plurality of detected temperature values corresponding to the temperature detecting operations, and only records X largest valid temperature values among the obtained temperature values. In response to determining that the performed temperature to detecting procedure is completed, the control unit removes the largest one among the recorded valid temperature values and calculates an average value of the remaining one or more target temperature values as a temperature of a target object, so as to instruct the output unit display the temperature.
G01K 3/02 - Thermometers giving results other than momentary value of temperature giving mean valuesThermometers giving results other than momentary value of temperature giving integrated values
G01K 1/022 - Means for indicating or recording specially adapted for thermometers for recording
G01K 1/024 - Means for indicating or recording specially adapted for thermometers for remote indication
G01K 1/02 - Means for indicating or recording specially adapted for thermometers
5.
Blood pressure measurement device and calculation method thereof
A blood pressure measurement device and a calculation method thereof are disclosed. The blood pressure measurement device includes a pressurizing motor unit and an exhaust valve unit in communication with an airbag unit. The blood pressure calculation method includes steps of controlling the pressurizing motor unit to pressurize the airbag unit; measuring pressurized measurement data from the airbag unit in a pressurization process; controlling the pressurizing motor unit to stop pressurizing the airbag unit, and controlling the exhaust valve unit to depressurize the airbag unit; measuring depressurized measurement data from the airbag unit in a depressurization process; extracting blood pressure parameters from the pressurized measurement data and the depressurized measurement data; calculating an average of the blood pressure parameters extracted from the pressurized measurement data and the depressurized measurement data, to obtain a blood pressure measurement result.
A61B 5/021 - Measuring pressure in heart or blood vessels
A61B 5/022 - Measuring pressure in heart or blood vessels by applying pressure to close blood vessels, e.g. against the skinOphthaldynamometers
A61B 5/0225 - Measuring pressure in heart or blood vessels by applying pressure to close blood vessels, e.g. against the skinOphthaldynamometers the pressure being controlled by electric signals, e.g. derived from Korotkoff sounds
A temperature measuring device includes at least one first distance sensing unit and a second distance sensing unit for outputting first and second distance sensing signals, respectively; a temperature sensing unit for outputting a temperature sensing signal; a display unit for displaying the temperature measurement value; and a micro processing unit for receiving the first and the second distance sensing signals, and then determining, according to the first and the second distance sensing signals, whether the display unit displays the temperature measurement value calculated according to the temperature sensing signal. As a result, the at least two distance sensing units are used to prevent the temperature measuring device from executing the temperature measurement when the sensing unit of the thermometer obliquely points to a to-be-sensed part of a to-be-measured target to cause a large measurement angle.
The present disclosure illustrates a wearable body temperature monitoring device and a method thereof. The wearable body temperature monitoring device includes a hollow shell member and a circuit board. The hollow shell member includes a sensing surface and an outer surface opposite to each other, and the sensing surface is provided with hole. The circuit board is accommodated in the hollow shell member and includes a first side surface corresponding to the sensing surface and a second side surface corresponding to the outer surface. The circuit board is provided with a non-contact temperature sensor, a wireless transmission module, a processing unit, and a battery, and the non-contact temperature sensor is disposed at the first side surface and aligned with the hole of the sensing surface. The wearable body temperature monitoring device can respond the variation of the body temperature in real time when being attached on clothes.
The present disclosure illustrates a nasal aspiration and wash device which includes a shell member, a pump, a suction part and a spray part. The pump is disposed in the shell member. The suction part is disposed on the shell member and configured to flow external gas into the pump. The spray part is disposed in the shell member and configured to spray atomized liquid out. The suction part and the spray part are spaced apart from each other a distance. The nasal aspiration and wash device of the present disclosure is able to separately perform a nasal aspiration function and a nasal wash function without interfering with each other, and the user does not need to replace a functional assembly for using the two functions.
A61M 1/00 - Suction or pumping devices for medical purposesDevices for carrying-off, for treatment of, or for carrying-over, body-liquidsDrainage systems
A61H 35/04 - Baths for specific parts of the body, e.g. breast douches for the nose
A61M 11/00 - Sprayers or atomisers specially adapted for therapeutic purposes
9.
Temperature sensing device capable of automatically switching mode and method thereof
The present disclosure illustrates a temperature sensing device capable of automatically switching mode, and a method thereof. The temperature sensing device includes a control unit configured to determine that the temperature sensing device is to enter or leave from a first mode or a second mode; a power supply unit configured to provide power required by the temperature sensing device; a power circuit including the power supply unit and is electrically connected to the control unit for power supply. The power circuit includes a detection unit electrically connected to the power supply unit and the control unit, and the detection unit is configured to detect when the temperature sensing device is moved from a standing state, and enable the control unit to determine that the temperature sensing device is to leave from the first mode and enter the second mode.
The present disclosure illustrates a temperature sensing device capable of automatically switching mode, and a method thereof. The temperature sensing device includes a control unit configured to determine that the temperature sensing device is to enter or leave from a first mode or a second mode; a power supply unit configured to provide power required by the temperature sensing device; a power circuit including the power supply unit and is electrically connected to the control unit for power supply. The power circuit includes a detection unit electrically connected to the power supply unit and the control unit, and the detection unit is configured to detect when the temperature sensing device is moved from a standing state, and enable the control unit to determine that the temperature sensing device is to leave from the first mode and enter the second mode.
A measurement device and method for measuring psychology stress index and blood pressure is disclosed. When the measurement device is in the psychology stress measurement mode and a pressurizing motor unit is pressurizing an airbag unit with a variable speed, the micro-processor unit may control the pressurizing motor unit to stop pressurizing the airbag unit after the pressure signal is determined as a pulse signal, and the micro-processor unit may measure the pulse signal to determine the psychology stress index. The psychology stress index is a ratio of SDNN and RMSSD according to interval data of the pulse signal within a period of time.
The present disclosure illustrates a sensor-controlled nasal aspirator including a distance sensing unit, a micro processing unit and an air pump. The distance sensing unit is configured to sense a distance between a target object and the distance sensing unit. The micro processing unit is configured to store a preset distance, and receive and process the distance transmitted from the distance sensing unit, and transmit an action command signal when the distance is not higher than the preset distance. The air pump is configured to receive the action command signal and performs a target action according to the action command signal.
A61M 1/00 - Suction or pumping devices for medical purposesDevices for carrying-off, for treatment of, or for carrying-over, body-liquidsDrainage systems
H04L 29/08 - Transmission control procedure, e.g. data link level control procedure
A physiological status monitoring device includes a monitoring module and a fixing module. The monitoring module includes a first housing configured to be arranged at a first side of a flexible object, a monitoring unit arranged in the first housing for monitoring a physiological status of a human body, a first processing unit electrically connected to the monitoring unit for controlling operations of the monitoring unit, and a first magnetic fixing unit connected to the first housing. The fixing module includes a second housing configured to be arranged at a second side of the flexible object, and a second magnetic fixing unit connected to the second housing. Wherein, the first magnetic fixing unit and the second magnetic fixing unit are configured to hold the first housing and the second housing on the flexible object by magnetic force.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
The present disclosure illustrates a nasal aspirator with a lighting function. The nasal aspirator includes a main body, a power supply unit, a sucking unit, air extracting unit, and a lighting unit. The power supply unit is disposed in the main body. The sucking unit is coupled with and extended out of the main body and configured to insert into a nasal cavity. The air extracting unit is disposed in the main body and electrically coupled with the power supply unit, and configured to enable the sucking unit to generate suction. The lighting unit is disposed in the sucking unit, and the power supply unit is configured to drive the air extracting unit and the lighting unit.
A61M 1/00 - Suction or pumping devices for medical purposesDevices for carrying-off, for treatment of, or for carrying-over, body-liquidsDrainage systems
A multi-mode temperature measuring device includes a first case, a second case, an IR sensing element and a wave-collection element. The first case has a measuring portion and a bottom portion, which are located at opposite sides of the first case. The measuring portion has a first through hole. The second case is connected with the first case and is rotatable from a first position to a second position. The IR sensing element is disposed at the measuring portion and corresponding to the first through hole. The wave-collection element is disposed in the second case and has a second through hole. When the second case is located at the first position, the second through hole is disposed opposite to the first through hole. When the second case is located at the second position, the second case is fixed at the bottom portion of the first case.
A body temperature measuring device includes a main body, a probe, and a control mechanism. The main body includes a holding part, and an abutting surface arranged at a side of the holding part. The probe is affixed to the main body in a movable manner The probe includes a probe main body, and a fixing structure arranged on the probe main body for fixing a probe cover. The probe cover has a bottom edge. The control mechanism is coupled to the probe for controlling the probe moving between a first position and a second position. Wherein when the probe is at the first position, the probe cover is able to be fixed on the probe; and when the probe moves away from the first position, the abutting surface presses the bottom edge of the probe cover for detaching the probe cover from the probe.
The invention provides a temperature measuring device with manual power supply which is substantially composed of a casing, a rolling unit, an energy converting unit, an energy storing unit, a temperature measuring unit and a display unit. After rolling or rotating the rolling unit on a plane surface, kinetic energy of the rolling unit is generated and converted to electric power through the energy converting unit and then stored in the energy storing unit. The electric power supplies the needed power to the temperature measuring device and the display unit. Thus, the temperature measuring device with manual power supply of the present invention can be provided with sufficient power at any time.
B60L 11/12 - with additional electric power supply, e.g. accumulator
H02P 9/04 - Control effected upon non-electric prime mover and dependent upon electric output value of the generator
H02J 7/14 - Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from dynamo-electric generators driven at varying speed, e.g. on vehicle
G01K 13/00 - Thermometers specially adapted for specific purposes
A temperature measuring apparatus comprises a casing, an infrared sensor assembly, a probe, and a trigger device. The infrared sensor assembly is disposed in the casing. The trigger device is connected between the casing and the probe in such manner that when the probe moves toward the casing, the trigger device is activated by the probe to trigger the infrared sensor assembly to proceed sensing. The temperature measuring apparatus could be operated to measure without pressing any measuring button, so that the temperature measuring apparatus could have a stable operation in the measuring process. Hence, the error of the temperature measuring is reduced and the operation is more convenient.
A combined nasal spray and aspirator device includes an air pump disposed within a housing and comprises a spray and aspirator assembly. The air pump, at which an air suction connector and an air discharge connector are disposed, is driven by a driving component to perform air suction and discharge actions. The spray and aspirator assembly, mounted to the air suction connector and the air discharge connector, comprises a spray conduit and a first aspiration conduit; the spray conduit connects to an atomizer which is provided with liquids from a liquid storage container, and the first aspiration conduit connects to a mucus collector so that when some air carrying mucus enters the mucus collector, the mucus is left behind and the air enters the air pump through a second aspiration conduit. The device of the present invention integrates the operations of a nasal spray and a nasal aspirator, sucking the mucus away right after it sprays and liquefies the mucus, with said actions occurring almost simultaneously. The present invention is physically more favorable for users.
This invention provides a non-contact temperature-measuring device including a distance sensor unit, an alarm unit, a temperature sensor unit, a microprocessor unit and a display unit. The distance sensor unit measures the distance between the device and a target. The alarm unit gives an alarm when the distance sensor unit measures a predetermined distance value. The temperature sensor unit measures a temperature of the target after the alarm unit gives the alarm. The microprocessor unit stores data of the predetermined distance value and the temperature value measured by the temperature sensor unit; the microprocessor unit also processes a distance signal emitted by the distance sensor unit and a temperature signal emitted by the temperature sensor unit. When the target's distance value equals the predetermined distance value, the microprocessor unit will further send a command for the alarm unit to give an alarm. The display unit of the device displays the temperature value that is measured by the temperature sensor unit and processed by the microprocessor unit subsequently.
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