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CN-122015046-A - Split type human body induction remote control night lamp equipment

CN122015046ACN 122015046 ACN122015046 ACN 122015046ACN-122015046-A

Abstract

The invention provides split type human body induction remote control night lamp equipment, which relates to the technical field of intelligent household illumination and comprises an inductor for detecting movement of a human body and sending wireless signals and an illumination mechanism in wireless connection with the inductor, wherein the illumination mechanism comprises an installation component for installing a base on a corresponding position, an illuminating lamp with a hemispherical structure at the bottom and adopting a magnetic material, a plurality of positioning magnets embedded in a circumferential array on the bottom wall of a rotating groove with the hemispherical structure on the top end face of the base, and a positioning component penetrating through the positioning holes and fixing the hemispherical structure of the illuminating lamp placed in the rotating groove, wherein the middle position of the bottom wall of the rotating groove is provided with a positioning hole communicated with the interior of the base. The invention realizes extremely flexible installation, lasting endurance and separation of sensing and control of the small night lamp and can flexibly adapt to different use scenes in a short time and a long time.

Inventors

  • PAN WENJUN
  • YI ZHOU
  • WEI LIANG
  • YIN CHUNYAN

Assignees

  • 协创数据技术股份有限公司

Dates

Publication Date
20260512
Application Date
20260324

Claims (10)

  1. 1. The split type human body induction remote control night lamp equipment comprises an inductor (3) for detecting movement of a human body and sending wireless signals and a lighting mechanism in wireless connection with the inductor (3), and is characterized in that the lighting mechanism comprises a mounting assembly for mounting a base (1) at a corresponding position, a lighting lamp (2) with a hemispherical bottom structure and made of magnetic materials, a plurality of positioning magnets (10) which are embedded in the end face of the top end of the base (1) in a circumferential array and are arranged on the bottom wall of a rotating groove (6) with the hemispherical structure, and a positioning assembly which penetrates through a positioning hole (7) and fixes the hemispherical structure of the lighting lamp (2) placed in the rotating groove (6); Wherein, the middle part of the bottom wall of the rotary groove (6) is provided with a positioning hole (7) communicated with the inside of the base (1).
  2. 2. The split type human body induction remote control night lamp equipment according to claim 1, wherein the positioning assembly comprises a positioning pipe (8) penetrating through the positioning hole (7), a silica gel ring arranged on the end face of the top end of the positioning pipe (8), a sealing disc (9) penetrating through the positioning pipe (8) in a sliding sealing manner, and a control piece arranged on the base (1) and used for controlling the sealing disc (9) to conduct lifting movement in the positioning pipe (8).
  3. 3. The split type human body induction remote control night lamp device according to claim 2, wherein the control piece comprises a lifting rod (19) penetrating through the positioning tube (8) and connected with the middle position of the end face of the bottom end face of the sealing disc (9) in a rotating mode, an adjusting rod (18) transversely penetrating through the positioning tube (8) and connected with the bottom end of the lifting rod (19) in a rotating mode, a threaded sleeve (17) arranged on one end, far away from the lifting rod (19), of the adjusting rod (18), an adjusting screw (16) penetrating through the threaded sleeve (17) in one end far away from the adjusting rod (18) in a threaded mode, and an adjusting knob (4) arranged on the side face of the base (1) and connected with the adjusting screw (16) through a connecting rod, and the adjusting screw (16) can be driven to rotate through rotation of the adjusting knob (4) in a controlling mode.
  4. 4. The split type human body induction remote control night lamp equipment according to claim 1, wherein the inductor (3) comprises a low-power consumption microcontroller, a passive infrared pyroelectric sensor matched with a Fresnel lens and a wireless radio frequency signal wireless transmitting module for transmitting encryption when triggered.
  5. 5. The apparatus of claim 4, wherein the sensor further comprises a disposable battery power module, and the disposable power module is a CR2032 button battery or a plurality of No. 7 batteries.
  6. 6. The split type human body induction remote control night lamp device according to claim 1, wherein the illuminating lamp (2) comprises a shell with a columnar structure, a plurality of warm white LEDs arranged on the top of the shell, a wireless receiving module arranged in the shell and used for receiving wireless signals from the sensor (3), and a main control unit arranged in the shell and used for analyzing the signals and controlling the LEDs to be turned on and off, and the bottom end of the shell is in a hemispherical structure.
  7. 7. The split human body induction remote control night light apparatus of claim 6 wherein the illuminating lamp (2) further comprises a multi-gear delay switch providing a plurality of gears for a user to select the illumination duration.
  8. 8. The apparatus of claim 1, wherein the mounting assembly comprises a self-adhesive structure or a screw mounting structure.
  9. 9. The split type human body induction remote control night lamp equipment according to claim 1, wherein the illuminating lamp (2) can rotate in the rotating groove (6) around the hemispherical structure so as to adjust the illumination direction.
  10. 10. The split type human body induction remote control night lamp equipment according to claim 1, wherein a photosensitive control module is further arranged in the inductor (3), and the photosensitive control module is used for automatically disabling an induction function in daytime.

Description

Split type human body induction remote control night lamp equipment Technical Field The invention relates to the technical field of intelligent home lighting, in particular to split human body induction remote control night lamp equipment. Background The induction night lamp commonly used in the market at present mainly has the following defects: 1. The induction module and the lamp are integrated together, the installation position is limited by a power socket or a charging position, the induction direction is bound with the illumination direction, and the induction area and the illumination area cannot be flexibly adjusted according to the layout of a room. For example, an integrated light fixture is difficult to achieve when it is desired to sense the door edge but illuminate deep in a corridor. 2. And part of high-performance induction lamps need to be connected with a household power supply, are inconvenient to install, and are required to be charged frequently when being used by built-in batteries, so that the user experience is poor, and the long-term use cost is high. 3. Most products have fixed lighting time, and cannot meet the requirements of different users (such as different lighting time required by the adult to walk fast and the old and children to walk slowly). Therefore, there is an urgent need for a small night light solution that is extremely flexible to install, durable to cruise, and capable of sensing and controlling separation and flexibly adjusting the direction of illumination. Disclosure of Invention In order to solve the problems, the invention provides split human body induction remote control night lamp equipment. The split type human body induction remote control night lamp equipment comprises an inductor for detecting movement of a human body and sending wireless signals, and a lighting mechanism connected with the inductor in a wireless mode, wherein the lighting mechanism comprises a mounting assembly for mounting a base on a corresponding position, a lighting lamp with a hemispherical bottom structure and made of magnetic materials, a plurality of positioning magnets embedded into the bottom wall of a rotating groove with the hemispherical top end face of the base in a circumferential array, and a positioning assembly penetrating through a positioning hole and fixing the hemispherical structure of the lighting lamp placed in the rotating groove; wherein, the locating hole that link up with the base is seted up to rotation groove diapire middle part position. Preferably, the positioning assembly comprises a positioning tube penetrating through the positioning hole, a silica gel ring arranged on the end face of the top end of the positioning tube, a sealing disc penetrating through the positioning tube in a sliding sealing manner, and a control piece arranged on the base and controlling the sealing disc to lift in the positioning tube. Preferably, the control piece is including wearing to locate in the locating tube and top rotation connection sealing plate bottom terminal surface middle part position lifter, transversely wear to locate in the locating tube and one end and lifter bottom rotation connection's regulation pole, set up the thread bush on keeping away from lifter one end in the regulation pole, one end wears to locate the thread bush through threaded connection and keeps away from the adjusting screw in the regulation pole one end, and set up on the base side and connect adjusting screw's adjust knob through the connecting rod, wherein rotate through control adjusting knob and can drive adjusting screw and rotate. Preferably, the sensor comprises a low-power consumption microcontroller, a passive infrared pyroelectric sensor matched with a Fresnel lens and a wireless transmitting module for transmitting encrypted wireless radio frequency signals when triggered. Preferably, the sensor further comprises a disposable battery power supply module, and the disposable power supply module adopts a CR button battery or a plurality of serial batteries. Preferably, the illuminating lamp comprises a shell with a columnar structure, a plurality of warm white LEDs arranged on the top of the shell, a wireless receiving module arranged in the shell and used for receiving wireless signals from the sensor, and a main control unit arranged in the shell and used for analyzing the signals and controlling the LEDs to be on and off, wherein the bottom end of the shell is of a hemispherical structure. Preferably, the lighting lamp further comprises a multi-gear delay switch, and a plurality of gears are provided for a user to select the lighting time. Preferably, the mounting assembly comprises a self-adhesive structure or a screw mounting structure. Preferably, the illumination lamp can rotate around the hemispherical structure in the rotating groove so as to adjust the illumination direction. Preferably, a photosensitive control module is further arranged in the sensor, and the photose