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CN-224231012-U - Optical energy hygrothermograph based on indoor Internet of things

CN224231012UCN 224231012 UCN224231012 UCN 224231012UCN-224231012-U

Abstract

The utility model discloses an indoor Internet of things-based optical energy hygrothermograph, which belongs to the technical field of hygrothermographs and is characterized by comprising a broken code display screen, an energy collection module, a lithium battery, a control circuit module and a support frame on the back of a box body, wherein the control circuit module comprises a charging management module, a central controller module with Bluetooth micro-power consumption, a Bluetooth antenna module, a power management module, a temperature and humidity detection module and a segment code display screen display module, the energy collection module is connected with the indoor Internet of things through the Bluetooth antenna module, an energy collection circuit is manufactured by printing on the back paint of the back surface of a solar cell, the lithium battery is directly charged by an indoor solar cell, and meanwhile, the integrated solar cell charging management module is adopted, so that the structure is more compact and small, and the use is more convenient and reliable.

Inventors

  • LI JIARUI
  • XIAO YINGJIE
  • LIU YU

Assignees

  • 科睿智慧技术(深圳)有限公司
  • 深圳市创益新材料有限公司
  • 李嘉睿

Dates

Publication Date
20260512
Application Date
20250604

Claims (10)

  1. 1. An indoor Internet of things-based optical energy hygrothermograph is characterized in that a broken code display screen, an energy collecting module, an energy storage device, a control circuit module and a support frame on the back of the box body are placed in the box body formed by buckling a front frame and a rear cover through a buckle, the energy collecting module comprises a solar cell and an energy collecting chip, a resistor, an inductor and a capacitor which are integrated on the back of the solar cell, an opening window of the broken code display screen and an opening window of the solar cell are arranged on the front face of the front frame, a switch button is arranged on the front frame, the switch button corresponds to a touch switch on the control circuit module, a slot or a pasting groove is formed in the middle of the outer side of the rear cover and is connected with the support frame, a charging jack is formed in the rear cover and corresponds to a TYPE-C charging jack which is externally connected with a power supply on the control circuit module, the control circuit module and the energy storage device are located on the back side of the broken code display screen, the energy storage device is welded on the control circuit module, an airflow inlet and an airflow outlet are respectively formed in the front face of the front frame and the rear cover, and the temperature and humidity sensor on the control circuit module are correspondingly arranged.
  2. 2. The optical energy hygrothermograph based on the indoor Internet of things, as set forth in claim 1, wherein the energy collecting module is an energy collecting circuit printed on a back paint of a back surface of a solar cell, the energy collecting circuit is covered by a back protective layer and a welding window is left, and the energy collecting chip, the resistor, the inductor, the capacitor and the socket are directly attached to the control circuit or welded on the control circuit through the welding window to form a whole with the solar cell.
  3. 3. The optical energy hygrothermograph based on the indoor Internet of things of claim 1, wherein the energy collection module is characterized in that an energy collection chip, a resistor, an inductor, a capacitor and a socket are firstly adhered to an energy collection circuit board or welded on the energy collection circuit board, and then are integrated with a solar cell through a frame.
  4. 4. The optical energy hygrothermograph based on the indoor Internet of things according to claim 1, wherein inclined planes are arranged on the periphery of the outer side face of the opening window of the front frame, and the inclination angle of the inclined planes is 30-45 degrees.
  5. 5. The optical energy hygrothermograph based on the indoor Internet of things of claim 1, wherein a broken code display screen and a limit piece of a solar cell are arranged on the inner face of the front frame, and screw holes for fixing a control circuit module are further formed in the inner face.
  6. 6. The optical energy hygrothermograph based on the indoor Internet of things of claim 1, wherein the supporting frame is a folded sheet with an angle, and the angle ranges from 30 degrees to 60 degrees.
  7. 7. The optical energy hygrothermograph based on the indoor Internet of things of claim 1, wherein the back surfaces of the broken code display screen and the solar cell are provided with EVA cotton protective rubber pads.
  8. 8. The optical energy hygrothermograph based on the indoor Internet of things, as set forth in claim 1, wherein the inner surface of the back cover is provided with vertical ribs for pressing the solar cell back protection rubber pad and limiting pieces for limiting the energy storage device, the position of the supporting piece bonded on the outer surface of the back cover is concave, and the supporting piece is bonded with the back cover through a double-sided film.
  9. 9. The optical energy hygrothermograph based on the indoor Internet of things according to claim 1, wherein the solar cell is an amorphous silicon cell or a perovskite cell with a glass substrate, and the energy storage device is a lithium cell or a super capacitor.
  10. 10. The light energy hygrothermograph based on the indoor Internet of things of claim 1, wherein the control circuit module comprises a power management module, a Bluetooth micro-power consumption central controller module, a Bluetooth antenna module, a power management module, a temperature and humidity detection module and a Duan Mabing display module, the solar cell is directly connected with the energy storage device through the Bluetooth micro-power consumption central controller module by a plug socket, and the segment code display screen is connected with the Duan Mabing display module through a conductive adhesive tape.

Description

Optical energy hygrothermograph based on indoor Internet of things Technical Field The utility model relates to a hygrothermograph, in particular to an indoor internet of things-based optical energy hygrothermograph powered by a solar battery, and belongs to the technical field of hygrothermograph. Background Along with the development of science and technology, various electronic products and electrical appliances provide various comfortable life and workplaces for people, and further develop to intelligent interconnection each other, wherein the hygrothermograph is used as the sensor of control indoor temperature and humidity, and the transmission data is given to the high in the clouds and is adjusted indoor electrical appliance relevant temperature and humidity, reaches energy-conserving, environmental protection, comfortable looks unified indoor wisdom space. The bluetooth of indoor adoption low energy consumption is with high in the clouds networking, adopts lithium cell or super capacitor as energy storage device according to detection frequency and complete machine consumption, and the main external power source that mainly charges for energy storage device at present causes the inconvenient of charging. Disclosure of Invention The optical energy hygrothermograph is characterized in that a broken code display screen, an energy collecting module, an energy storage device, a control circuit module and the like are placed in a box body formed by buckling a front frame and a rear cover through a buckle, a support frame on the back of the box body, the energy collecting module (also called a photo-kinetic energy processor) comprises a solar cell (also called a photovoltaic cell) and an energy collecting chip, a resistor, an inductor and a capacitor which are integrated on the back of the solar cell, a broken code display screen and an opening window of the solar cell are arranged in front of the front frame, a switch button is arranged on the front frame, the switch button corresponds to a touch switch on the control circuit module, a slot or an adhesive groove is formed in the middle of the outer side of the rear cover and is connected with the support frame, a charging jack is formed in the rear cover and corresponds to a TYPE-C charging jack for externally connecting a power supply on the control circuit module, the control circuit module and the lithium battery are located on the rear side of the broken code display screen, the lithium battery is welded on the control circuit module, and the temperature and humidity sensor is arranged on the front side of the control circuit module and the rear cover and corresponds to an air flow inlet of the air flow sensor. The energy collecting module is characterized in that an energy collecting circuit is printed and manufactured on the back paint of the back surface of the solar cell, a back protective layer covers the energy collecting circuit and is provided with a welding window, an energy collecting chip, a resistor, an inductor, a capacitor, a plug seat and the like are directly attached to or welded on a control circuit through the welding window to form a whole with the solar cell, or the energy collecting chip, the resistor, the inductor, the capacitor, the plug seat and the like are attached to or welded on an energy collecting circuit board to integrate with the solar cell through a frame. The energy collection module comprises MPPT control, charging output and voltage stabilizing output. Inclined planes are arranged on the periphery of the outer side face of the opening window of the front frame, the inclined planes are inclined at 30-45 degrees, and the visual sense range is enlarged. The inner face of the front frame is provided with a broken code display screen and a solar cell limiting piece, which play a role in limiting and reinforcing, and the inner face is also provided with a screw hole for fixing the control circuit module. The support frame is the folded sheet that has certain angle, and the angle scope is 30 ~ 60. The back of breaking sign indicating number display screen and solar wafer is equipped with the protection cushion, prevents that fixed control circuit module and energy memory from directly pressing on breaking sign indicating number display screen, leads to breaking sign indicating number display screen damage. The inner surface of the rear cover is provided with a vertical rib for pressing the solar cell back protection rubber pad and a limiting piece for limiting the energy storage device. The position of the supporting sheet is concave and is adhered to the rear cover through a double-sided adhesive sheet. The solar cell is an amorphous silicon cell or perovskite cell with a glass substrate, the energy storage device is a lithium cell or a super capacitor, and the protective rubber mat is EVA cotton. The control circuit module comprises a power management module, a Bluetooth micro-power consumption central controller modul