公开(公告)号：US20190011392A1

公开(公告)日：2019-01-10

申请号：US16012471

申请日：2018-06-19

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Ta-Wei HSUEH ,  Shih-Chang CHEN ,  Li-Pang MO ,  Chi-Feng HUANG ,  Yung-Lung HAN ,  Chang-Yen TSAI

IPC: G01N27/404 ,  G01N27/407 ,  G01N33/00 ,  G06F1/16 ,  H04R1/02

Abstract: An electronic device includes a casing, a speaker enclosure and an actuating and sensing module. The casing has an opening. The speaker enclosure is disposed within the casing to enclose a speaker, in communication with the opening of the casing and divided into a first speaker compartment and a second speaker compartment by a partition plate disposed corresponding to the opening, so that the opening of the casing is in communication with the first speaker compartment and the second speaker compartment. The actuating and sensing module is disposed within the first speaker compartment. The speaker is disposed within the second speaker compartment. The actuating and sensing module comprises a fluid transportation device and a sensor. The fluid transportation device is driven to transport a fluid from outside the casing into the first speaker compartment through the opening of the casing to make the fluid sensed by the sensor.

公开(公告)号：US20180291887A1

公开(公告)日：2018-10-11

申请号：US15943071

申请日：2018-04-02

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Ta-Wei HSUEH ,  Wei-Ming LEE ,  Chi-Feng HUANG ,  Yung-Lung HAN

IPC: F04B45/047 ,  F04B51/00 ,  F04B49/22 ,  F04B49/02 ,  G02C5/14 ,  G02C5/16 ,  G02C11/00

CPC classification number: F04B45/047 ,  F04B35/04 ,  F04B49/02 ,  F04B49/022 ,  F04B49/06 ,  F04B49/08 ,  F04B49/22 ,  F04B51/00 ,  F04B2205/05 ,  G02C5/143 ,  G02C5/16 ,  G02C11/10

Abstract: An eyeglass buffer protection device for using in a pair of glasses comprises a min body, which has a penetrating channel and comprises an inflatable cushion, an air pump, a switch element and a control unit. When the switch element is turned on, the switch element issues an enabling signal to the control unit and the control unit enables the air pump in response to the enabling signal. When the air pump is enabled, an ambient gas is transferred to the inflatable cushion, so that the inflatable cushion is inflated with the gas and the main body is expanded. By penetrating the at least one leg of the glasses into the penetrating channel of the main body, the at least one leg is protected, and the main body fits closely with the ear of the user.

公开(公告)号：US20250164137A1

公开(公告)日：2025-05-22

申请号：US18598346

申请日：2024-03-07

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Chin-Chuan WU ,  Chih-Kai CHEN ,  Yu-Chun KUO ,  Chi-Feng HUANG

IPC: F24F11/64 ,  F24F11/58 ,  F24F11/74 ,  F24F110/10 ,  F24F110/64 ,  F24F110/70

Abstract: An indoor air cleaning system with disconnection detecting and preventing mechanism includes a gas filtration device and a cloud computing server. The gas filtration device is disposed in an indoor field and including a fan, a filter element, a gas detector and a driving control element. The gas detector detects air pollution, outputs air pollution information. The cloud computing server receives the air pollution information via IOT communication, stores the air pollution information to form a big data database, performs an intelligence computing for comparison based on the big data database, and issues a control command to enable the fan. When IOT communication is judged as disconnected, the gas detector autonomously computes and compares the air pollution information and issues the control command to enable the fan, thereby reaching a gas state of the indoor field to a cleanroom class with a level of air pollution close to zero.

公开(公告)号：US20250129963A1

公开(公告)日：2025-04-24

申请号：US18388054

申请日：2023-11-08

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Chin-Chuan WU ,  Chi-Feng HUANG

IPC: F24F11/89 ,  F24F8/108 ,  F24F11/64 ,  F24F110/52 ,  F24F110/64

Abstract: An indoor air cleaning system, including: plural gas detectors which are disposed in indoor and outdoor fields for detecting air pollution information and outputting through IoT; a circulation back-flow channel; a circulation filter device disposed in the circulation back-flow channel; an air conditioning device disposed in indoor field for temperature and humidity adjustment; and a cloud computing server device receiving the air pollution information through IoT to form a database of the air pollution information, and receiving the temperature and humidity information outputted from the air conditioning device. The cloud computing server device compares the database and the temperature and humidity information, and outputs a control command to enable the circulation filter device. Internal circulation directional airflows are generated in the indoor field, the air pollution is guided to pass through the circulation filter device multiple times, and the ZAPClean Room 1˜9 of indoor field is achieved.

公开(公告)号：US20220065243A1

公开(公告)日：2022-03-03

申请号：US17386461

申请日：2021-07-27

Applicant: MICROJET TECHNOLOGY CO., LTD.

Inventor： Hao-Jan MOU ,  Chi-Feng HUANG ,  Yung-Lung HAN ,  Chang-Yen TSAI ,  Wei-Ming LEE ,  Tsung-I LIN ,  Yang KU

IPC: F04B53/20 ,  F04B43/04 ,  B01D46/00

Abstract: A filtration and purification processing method includes following steps: (1) providing a filtration and purification device; (2) performing a gas introduction, filtration, and detection procedure; (3) performing a detection and determination procedure to the purified gas; (4) performing a circulating filtration and detection procedure to the purified gas; and (5) repeating filtration and purification procedures to the purified gas several times and guiding out the purified gas.

公开(公告)号：US20190376877A1

公开(公告)日：2019-12-12

申请号：US16406634

申请日：2019-05-08

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Shih-Chang CHEN ,  Chiu-Lin LEE ,  Ching-Sung LIN ,  Chi-Feng HUANG ,  Yung-Lung HAN ,  Chun-Yi KUO

IPC: G01N1/14 ,  G01N33/00 ,  F04B43/04

Abstract: A portable gas detecting device includes at least one detecting chamber, at least one gas sensor and at least one actuator. The gas sensor is disposed in the detecting chamber and configured for monitoring gas inside the detecting chamber. The actuator is disposed in the detecting chamber and includes a piezoelectric actuator. When an actuating signal is applied to the piezoelectric actuator and the piezoelectric actuator generates a resonance effect, the gas outside the detecting chamber is introduced into the detecting chamber for sampling. The actuator is driven by an instantaneous sampling pulse to control a trace of gas to flow into the detecting chamber for forming a stable airflow environment. In the stable airflow environment, a gas molecule is dissolved in or bonded to a reaction material on a surface of the gas sensor for reacting.

公开(公告)号：US20190234851A1

公开(公告)日：2019-08-01

申请号：US16223896

申请日：2018-12-18

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Hung-Chun HU ,  Young-Chih KUO ,  Jui-Yuan CHU ,  Chien-Chih HUANG ,  Wen-Hsiung LIU ,  Yi-Cheng HUANG ,  Wei-Chen LIAO ,  Chi-Chiang HSIEH ,  Chi-Feng HUANG ,  Yung-Lung HAN

IPC: G01N15/02 ,  G01N15/06

CPC classification number: G01N15/0211 ,  G01N15/06 ,  G01N15/1436 ,  G01N15/1459 ,  G01N33/0029 ,  G01N33/0031 ,  G01N33/0036 ,  G01N2015/0046 ,  G01N2015/0693 ,  G01N2015/1486 ,  G01N2015/1493

Abstract: A gas detecting device includes a casing, an optical mechanism, a gas transporting actuator, a laser module, a particle detector and an external sensing module. The casing includes a chamber, an inlet, an outlet and a communication channel. The optical mechanism is disposed in the chamber. The optical mechanism includes an airflow channel and a light-beam channel. The airflow channel is in fluid communication with the at least one inlet and the outlet. The light-beam channel is in communication with the airflow channel. The gas transporting actuator is disposed on the optical mechanism. The laser module is disposed in the optical mechanism for emitting a light beam to the airflow channel. The particle detector detects sizes and a concentration of the suspended particles in the air. The external sensing module is installed in the communication channel to measure the air.

公开(公告)号：US20190128251A1

公开(公告)日：2019-05-02

申请号：US16124487

申请日：2018-09-07

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Shih-Chang CHEN ,  Jia-Yu LIAO ,  Hung-Hsin LIAO ,  Chi-Feng HUANG ,  Chang-Yen TSAI

IPC: F04B45/047 ,  F04B45/04

Abstract: A gas transportation device includes a gas outlet cover, plural flow-guiding pedestals and plural gas pumps. The gas outlet cover includes a gas outlet nozzle and a gas outlet cavity. The gas outlet nozzle and the gas outlet cavity are in communication with each other. Each flow-guiding pedestal includes a main plate, a protruding frame and a chamber frame. The main plate includes a recess and a communicating aperture in communication with the recess. The gas pumps are disposed inside the chamber frames of the flow-guiding pedestals, respectively. The gas outlet cover covers the flow-guiding pedestals and is connected to the protruding frames, whereby plural convergence chambers are defined and are in communication with the gas outlet cavity. Consequently, the gas is transported through the recesses, the communicating apertures, the convergence chambers and the gas outlet cavity sequentially, and finally is discharged out from the gas outlet nozzle.

公开(公告)号：US20190101939A1

公开(公告)日：2019-04-04

申请号：US16110204

申请日：2018-08-23

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Rong-Ho YU ,  Cheng-Ming CHANG ,  Hsien-Chung TAI ,  Wen-Hsiung LIAO ,  Chang-Yen TSAI

IPC: G05D7/06 ,  H01L41/09 ,  H01L41/318 ,  H01L41/04 ,  F04B43/04

Abstract: The present disclosure provides a control method of a fluid device. The control method includes the steps of (a) providing the fluid device, which includes a plurality of flow guiding units manufactured by a micro-electro-mechanical-system process; (b) dividing the flow guiding units into a plurality of groups, which are electrically connected to and controlled by a control module; and (c) generating a driving signal by the control module for a corresponding one of the groups, wherein the control module generates a high level signal to a specific one of the groups, so that the flow guiding units of the specific one of the groups are driven to transport fluid, and thereby controlling the fluid device to discharge a specific amount of fluid.

公开(公告)号：US20190101111A1

公开(公告)日：2019-04-04

申请号：US16110303

申请日：2018-08-23

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan MOU ,  Chi-Feng HUANG ,  Yung-Lung HAN ,  Hsuan-Kai CHEN

IPC: F04B43/04 ,  F16K99/00

Abstract: A fluid system includes a fluid actuating region, a fluid channel, a convergence chamber, a sensor and a plurality of valves. The fluid actuating region includes one or a plurality of fluid-guiding units. Each of the fluid-guiding units includes an inlet plate, a substrate, a resonance plate, an actuating plate, a piezoelectric member and an outlet plate, which are stacked sequentially. When the piezoelectric member drives the actuating plate to undergo a bending vibration in resonance, the fluid is transported into the fluid-guiding units and is pressurized to be discharged out. The fluid channel has a plurality of branch channels for splitting the fluid transported in the fluid actuating region. The convergence chamber is in communication with the fluid channel. The sensor is disposed in the fluid channel for measuring the fluid within the fluid channel.