公开(公告)号：US20250129962A1

公开(公告)日：2025-04-24

申请号：US18388022

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 calculation 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 calculation server device compares the database and the temperature and humidity information, and outputs a control command to enable the circulation filter device, so that 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 clean room ISO1˜9 of indoor field is achieved.

公开(公告)号：US12274815B2

公开(公告)日：2025-04-15

申请号：US17410637

申请日：2021-08-24

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Chin-Chuan Wu ,  Chi-Feng Huang ,  Yung-Lung Han ,  Tsung-I Lin ,  Chin-Wen Hsieh

IPC: A61L9/014 ,  A61L9/20 ,  A61L9/22

Abstract: A method of preventing and handling indoor air pollution is disclosed and includes: providing a portable gas detection device and plural gas exchangers allowed to inhale outdoor gas, purify and filter the inhaled gas, and introduce the inhaled gas into the indoor space, wherein an air pollutant in the gas within the indoor space is exported out to the outdoor for exchanging; disposing 1˜50 gas exchangers within the indoor space, wherein the gas exchangers have an exported airflow rate of 200˜1600 CADR, and the indoor space has a volume of 247.5˜1650 m3; and remotely controlling the gas exchangers to enable filtration, purification and gas exchange by the portable gas detection device when the portable gas detection device detects an air pollutant in the indoor space, to reduce the air pollutant in the indoor space to a safe detection value within 10 minutes, and achieve a clean, safe and breathable condition.

公开(公告)号：US20250067451A1

公开(公告)日：2025-02-27

申请号：US18243746

申请日：2023-09-08

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Chin-Chuan Wu ,  Chi-Feng Huang

IPC: F24F8/108 ,  F24F8/20 ,  F24F11/65 ,  F24F11/72

Abstract: An indoor air cleaning system is disclosed and includes at least one gas detector, at least one cleaning device and a cloud computing server. The gas detector is disposed in an indoor space for detecting air pollution and outputting. The cleaning device includes a fan, a filter and a sterilization component. The fan is controlled to guide airflow passing through the filter and the sterilization component. The fan has a specific CADR for generating a directional circular airflow. The cloud computing server receives the air pollution information, stores to database, and intelligently outputs a control command to the cleaning device according to the air pollution information, so that the fan generates the directional circular airflow to guide the air pollution to pass through the filter and the sterilization component multiple times for filtration and sterilization. Consequently, gas state in the indoor space reaches the cleanliness of the clean room classes.

公开(公告)号：US20250020355A1

公开(公告)日：2025-01-16

申请号：US18598813

申请日：2024-03-07

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Chin-Chuan Wu ,  Chi-Feng Huang

IPC: F24F11/79 ,  A61L9/20 ,  A61L9/22 ,  B01D46/00 ,  B01D46/42 ,  B01D46/44 ,  B01D46/46 ,  B01D53/32 ,  B01D53/86 ,  F24F8/108 ,  F24F8/15 ,  F24F8/167 ,  F24F8/22 ,  F24F8/30 ,  F24F11/58 ,  F24F11/63 ,  F24F110/52 ,  F24F110/65 ,  F24F110/66 ,  F24F110/70 ,  F24F110/72 ,  G01N1/24 ,  G01N21/53

Abstract: An indoor air pollution prevention system is disclosed and includes an indoor field unit, a gas detector, a filter screen, air guiding devices and a cloud computing service device. The gas detector, the filter and the air guiding devices are disposed in the indoor field unit. The gas detector detects a characteristic, a concentration and a location of an air pollution, and outputs an air pollution data. The air guiding devices guide the air including the air pollution to pass through the filter screen. The cloud computing service device receives and stores the air pollution data to a database, implementing an artificial intelligence calculation to determine the location of the air pollution, and issuing a control command to the air guiding devices for activation operations. Whereby, the air containing the air pollution is guided to the filter screen for filtering and removal to reach a gas state of complete purification.

公开(公告)号：US12171918B2

公开(公告)日：2024-12-24

申请号：US17577438

申请日：2022-01-18

Applicant: MICROJET TECHNOLOGY CO., LTD.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Yung-Lung Han ,  Chi-Feng Huang ,  Tsung-I Lin

IPC: A61M1/06 ,  A61M39/24

Abstract: A breast pump includes a main body, a breast milk suctioning shield, and one or more air pumps. The breast milk suctioning shield is assembled in an accommodation space of the main body and detachably connected to the main body. A front end of the breast milk suctioning shield has a breast shielding portion, and a nipple passage extends from a rear end of a center portion of the breast shielding portion. One or more deformable members and a non-deformable supporting member are assembled with an annular connection portion located between the breast shielding portion and the nipple passage. The air pump has an intake port and an exhaust port. The intake port is controlled by a first valve controller to suction the nipple passage and generate a negative pressure, and the exhaust port is controlled by a second valve controller to inflate or deflate the deformable member.

公开(公告)号：US12137756B2

公开(公告)日：2024-11-12

申请号：US17307233

申请日：2021-05-04

Applicant: MICROJET TECHNOLOGY CO., LTD.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Chih-Kai Chen ,  Chi-Feng Huang ,  Yung-Lung Han ,  Chin-Wen Hsieh

IPC: A41D1/00 ,  A41D13/002 ,  A41D27/28 ,  A61B5/00 ,  A61B5/0205 ,  A61B5/022 ,  A61B5/145 ,  A61B5/1455 ,  A61B5/332 ,  A61F7/00 ,  G01N15/06 ,  G01N15/075 ,  G01N15/14 ,  G01N33/00 ,  G16H20/30 ,  G16H40/67 ,  G16H50/20

Abstract: A smart cloth includes a cloth body, a control body, actuation air-permeable components, temperature sensing components, and a health-monitoring device. The health-monitoring device includes a bio-sensing module, a blood glucose sensor, a blood pressure measurement module, and a gas bag. The temperature information of the wearer is detected by the temperature sensing components and outputted to the microprocessor of the control body, so that the microprocessor controls the actuation air-permeable components to perform the gas-guiding operation to adjust an apparent temperature of the wearer for providing wearing comfortableness. The bio-sensing module, the blood glucose sensing module, and the blood pressure measurement module detect and provide the detection data information for the wearer anytime and in real-time to provide health-related information to the wearer. Furthermore, the smart cloth may include a gas detection module, allowing the wearer to obtain gas data information anytime and anywhere for alerting and notifying the wearer.

公开(公告)号：US20240344732A1

公开(公告)日：2024-10-17

申请号：US18582041

申请日：2024-02-20

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Chin-Chuan WU ,  Chi-Feng HUANG ,  Yung-Lung HAN

IPC: F24F11/56 ,  F24F8/108 ,  F24F11/72 ,  F24F110/66

CPC classification number: F24F11/56 ,  F24F8/108 ,  F24F11/72 ,  F24F2110/66

Abstract: An air purifier is disclosed and includes a main body, an air guiding fan, a filtering component, and a controller. The main body is configured to form an airflow path. The air guiding fan is disposed in the airflow path and is operated to guide an air convection with a clean air delivery rate (CADR) over 600 m3/h. The filtering component is disposed in the airflow path and filters an air pollution in the air convection guided by the air guiding fan. The networking controller receives a control command through wireless communication to perform an activation operation of the air guiding fan.

公开(公告)号：US20240328651A1

公开(公告)日：2024-10-03

申请号：US18198877

申请日：2023-05-18

Applicant: Microjet Technology Co., Ltd.

Inventor： Hao-Jan Mou ,  Chin-Chuan Wu ,  Yung-Lung Han ,  Chi-Feng Huang

IPC: F24F11/49 ,  F24F8/10

CPC classification number: F24F11/49 ,  F24F8/10 ,  F24F2110/52 ,  F24F2110/66 ,  F24F2110/70

Abstract: A method for purifying an air pollution in an indoor space to a level close to zero includes providing an indoor leaking detection for blocking an outdoor air from entering the indoor space; and providing an indoor monitoring system including plural gas detection devices, a central controlling monitor and plural air-exchanging filtration devices, wherein the gas detection devices detect the property and concentration of the air pollution and output outdoor/indoor air pollution data, the central controlling monitor receives the outdoor/indoor air pollution data, performs an intelligent computation to compare thereof and determine an air pollution location, and issues a control instruction, and the air-exchanging filtration devices receive the control instruction and perform an enabling and adjusting mechanism for guiding the air pollution to pass through the air-exchanging filtration devices for being purified to a level of zero or close to zero, thereby cleaning the air pollution to a breathable state.

公开(公告)号：USD1045066S1

公开(公告)日：2024-10-01

申请号：US29856508

申请日：2022-10-14

Applicant: Microjet Technology Co., Ltd.

Designer： Hao-Jan Mou ,  Ching-Sung Lin ,  Chih-Kai Chen ,  Wen-Yang Yang ,  Yung-Lung Han ,  Chi-Feng Huang

Abstract: FIG. 1 is a perspective view of a breast pump showing our new design;
FIG. 2 is another perspective view thereof;
FIG. 3 is another perspective view thereof;
FIG. 4 is a front elevational view thereof;
FIG. 5 is a rear elevational view thereof;
FIG. 6 is a left side elevational view thereof;
FIG. 7 is a right side elevational view thereof;
FIG. 8 is a top plan view thereof; and,
FIG. 9 is a bottom plan view thereof.
The broken lines in the drawings depict portions of the article and form no part of the claimed design.

公开(公告)号：US12085071B2

公开(公告)日：2024-09-10

申请号：US17943320

申请日：2022-09-13

Applicant: MICROJET TECHNOLOGY CO., LTD.

Inventor： Hao-Jan Mou ,  Ching-Sung Lin ,  Yung-Chang Chen ,  Yung-Lung Han ,  Chi-Feng Huang

IPC: F04B49/06 ,  F04B17/03 ,  H03K3/017

CPC classification number: F04B49/065 ,  F04B17/03 ,  H03K3/017 ,  F04B2203/0201 ,  F04B2203/0202

Abstract: A driving circuit of fluid pump module includes a microprocessor, a primary boost circuit, and a pump driving circuit is provided. The microprocessor receives an output signal with a large-width variable rectangular waveform, a driving voltage, a first detection current-feedback signal, and a second detection current-feedback signal. The primary boost circuit converts an inputted driving voltage into a direct current with a certain high voltage. The pump driving circuit receives the certain high voltage and is connected with the microprocessor to receive the voltage control signal and the pulse-width modulation (PWM) signal. The secondary boost circuit receives the certain high voltage to boost the certain high voltage into a working voltage for the fluid pump. The operation driving circuit receives the working voltage and provides the pulse-width modulation signal for the fluid pump through the second detection current-feedback signal.