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CN-117387028-B - Deep sea seabed searching strobe lamp device and working method thereof

CN117387028BCN 117387028 BCN117387028 BCN 117387028BCN-117387028-B

Abstract

The invention belongs to the field of stroboscopic lamps, in particular to a deep sea submarine searching stroboscopic lamp device and a working method thereof, wherein a lamp bead fixing piece and a reflecting shade are respectively arranged in a glass ring cover, and lamp beads are arranged on the lamp bead fixing piece; the upper end of the light plate is embedded in the lamp bead fixing piece, the lower end of the light plate passes through the stainless steel groove and then is connected with the circuit board fixing piece, the photosensitive components are arranged on the light plate, the light plate is connected with the upper end cover through an electrode wire, the detection control plate and the battery pack are both arranged in the battery container cabin, the upper end of the detection control plate is connected with the circuit board fixing piece, the lower end of the detection control plate is connected with the positive electrode connecting part, the detection control plate is provided with the Hall components and the time timer, the positive electrode of the battery pack is connected with the positive electrode connecting part, the negative electrode of the battery pack is connected with the negative electrode connecting part, the lower end cover is provided with the negative electrode fixing block, and the negative electrode conductive block is arranged on the negative electrode fixing block. The invention has compact structure and strong corrosion resistance, and can be widely applied to ocean equipment to be found.

Inventors

  • LIAN CHAO
  • ZHANG XIN
  • LUAN ZHENDONG
  • Zhong Zhaoshan
  • LI CHAOLUN
  • WANG MINXIAO
  • CUI ZHENCHAO
  • ZHANG HUAN
  • CHEN HAO
  • CAO LEI
  • ZHOU LI
  • WANG HAO

Assignees

  • 中国科学院海洋研究所

Dates

Publication Date
20260512
Application Date
20231031

Claims (7)

  1. 1. A deep sea submarine search strobe lamp device is carried on underwater equipment and sunk to the seabed for use, and is characterized by comprising a shell, a light source detection component (23), a detection control board (13), a Hall element component (14), a battery pack (17) and a time timer (24), wherein the shell is formed by sequentially connecting an upper end cover (1), a glass ring cover (7), a stainless steel groove (11), a battery container cabin (15) and a lower end cover (22), a lamp bead fixing piece (8) and a reflecting cover (4) arranged on the upper end cover (1) are respectively arranged in the glass ring cover (7), the lamp bead fixing piece (8) is positioned below the reflecting cover (4), a lamp bead (6) is arranged on the lamp bead fixing piece (8), the light source detection component (23) comprises a photosensitive element (9) and a lamp light plate (10), the upper end of the lamp light plate (10) is embedded in the lamp bead fixing piece (8), the lower end of the lamp plate (10) penetrates through the stainless steel groove (11) and then is connected with a circuit element (10) positioned in the battery container cabin (15), the light panel (10) is connected with the upper end cover (1) through an electrode lead (5), the detection control panel (13) and the battery pack (17) are both placed in the battery container cabin (15), the upper end of the detection control panel (13) is connected with the circuit board fixing piece (12), the lower end of the detection control panel (13) is connected with the positive electrode connecting part (16), the detection control panel (13) is provided with the Hall element (14) and the time timer (24), the positive electrode of the battery pack (17) is connected with the positive electrode connecting part (16) and the negative electrode is connected with the negative electrode connecting part (18), the lower end cover (22) is provided with the negative electrode fixing block (20), the negative electrode conductive block (19) is installed on the negative electrode fixing block (20), the upper end of the negative electrode conductive block (19) is connected with the negative electrode connecting part (18), and the lower end of the negative electrode conductive block (19) is provided with the negative electrode fixing needle (21) inserted into the lower end cover (22); The bottom surface of the upper end cover (1) is provided with an upper end cover fixing needle (2), a glass fixing block (3) is arranged in a glass ring cover (7), the upper end of the glass fixing block (3) is spliced with the upper end cover fixing needle (2), the reflecting cover (4) is connected with the lower end of the glass fixing block (3), one end of an electrode wire (5) is connected with the upper end cover fixing needle (2), and the other end of the electrode wire (5) is connected to a light panel (10) after being penetrated out of the glass fixing block (3); The middle of the glass ring cover (7) is provided with a through hole, the upper end of the glass ring cover (7) is an arc surface, the lower end of the glass ring cover is cylindrical, the upper end of the glass ring cover (7) is fixedly bonded with the upper end cover (1), the lower end of the glass ring cover (7) is inserted into a groove of a stainless steel groove (11) and fixedly bonded with the stainless steel groove (11), the stainless steel groove (11) is in threaded connection with the upper end of a battery container cabin (15), and the lower end of the battery container cabin (15) is fixedly bonded with a lower end cover (22).
  2. 2. The deep sea bottom searching strobe light device as claimed in claim 1, wherein the top surface of the upper end cover (1) is a smooth curved surface, and the upper end cover fixing needle (2) is connected to the bottom surface of the upper end cover (1) or is of an integral structure with the upper end cover (1).
  3. 3. The deep sea bottom search strobe light apparatus as claimed in claim 1, wherein the reflector (4) has an arc-shaped structure.
  4. 4. A method of operating a deep sea floor search strobe apparatus as claimed in any one of claims 1 to 3, comprising the steps of The method comprises the steps that firstly, a magnet is used for approaching the position of a Hall element (14) on a shore base of the deep sea submarine search strobe light device, so that the deep sea submarine search strobe light device is in a stop working state; Binding the deep sea submarine search strobe device on a launching device, arranging the upper end cover (1), the glass ring cover (7) and the stainless steel groove (11) at the highest end of the launching device, taking off a magnet before launching, and working the deep sea submarine search strobe device; Step three, after the deep sea submarine search strobe device and the sewer equipment enter water, the water entering detection is completed, the light source detection component (23) works, the external brightness effect is judged, and when the brightness is higher than a threshold value, the device enters a waiting mode; step four, the countdown of the deep sea submarine search strobe lamp device is finished, and a strobe effect is emitted so as to facilitate searching; Step five, after the deep sea submarine search strobe device discharges water, detecting the water discharge, wherein the deep sea submarine search strobe device enters a waiting mode; And step six, after the deep sea submarine search strobe device is recovered, using a magnet to approach the position of the Hall element (14) so as to stop the deep sea submarine search strobe device.
  5. 5. The method of claim 4, wherein in the first step, when the external magnet approaches the Hall element (14), the Hall element (14) is closed, the detection control board (13) detects a signal and recognizes that the power is turned off, and when the external magnet is far away from the Hall element (14), the Hall element (14) is normally opened, and the detection control board (13) detects a signal and recognizes that the power is turned on.
  6. 6. The working method of claim 4, wherein the upper end cover (1), the electrode lead (5) and the detection control board (13) are used for realizing a water-in detection function, and when the upper end cover (1) is in water, a voltage detection unit of the upper end cover (1) linked detection control board (13) is in a conductive state to realize water-in detection, and the deep sea submarine search strobe lamp device enters a countdown mode.
  7. 7. The method of claim 4, wherein in the third step, the deep sea floor search strobe apparatus enters a low power consumption operation state when entering a countdown operation mode.

Description

Deep sea seabed searching strobe lamp device and working method thereof Technical Field The invention belongs to the field of strobe lights, and particularly relates to a deep sea submarine search strobe light device and a working method thereof. Background The lamplight is widely applied to marine equipment such as ocean ships, buoys and the like, mainly plays a role in warning, and facilitates observation of other ships or personnel. But underwater equipment search has been an unsolved problem, especially in deep sea (> 200 m) matt conditions. The existing strobe light is mainly embodied in the aspect of water surface searching, and the strobe light stops after entering water, so that the requirement of addressing of underwater equipment cannot be met. Disclosure of Invention Aiming at the problem that the existing strobe lamp cannot meet the requirement of underwater searching, the invention aims to provide a deep sea submarine searching strobe lamp device and a working method thereof. The aim of the invention is realized by the following technical scheme: the invention discloses a deep sea submarine search strobe lamp device which is carried on underwater equipment and is sunk to the seabed for use, and comprises a shell, a light source detection part, a detection control board, a Hall element device, a battery pack and a time timer, wherein the shell is formed by sequentially connecting an upper end cover, a glass ring cover, a stainless steel groove, a battery container cabin and a lower end cover, the light source detection part, the detection control board, the Hall element device, the battery pack and the time timer are arranged in the shell, a lamp bead fixing piece and a reflecting cover are respectively arranged in the glass ring cover, the lamp bead fixing piece is positioned below the reflecting cover, the lamp bead fixing piece is provided with a lamp bead, the light source detection part comprises a light sensing element device and a light plate, the upper end of the light source detection element is embedded in the lamp bead fixing piece, the lower end of the light plate penetrates through the stainless steel groove and is connected with the circuit board fixing piece positioned in the battery container cabin, the light sensing element device is arranged on the light sensing element device, the light sensing element is connected with the upper end cover through an electrode wire, the detection control board and the battery pack are respectively arranged in the battery container cabin, the upper end of the detection control board is connected with the circuit board fixing piece, the lower end of the detection control board is positioned below the reflecting plate, the reflecting plate is arranged on the lamp bead fixing piece, a cathode is connected with the circuit board, a cathode pin is connected with the cathode pin, a cathode pin is arranged at the cathode pin, a cathode pin is connected with a cathode pin, a cathode connector is arranged at the cathode connector, and a cathode connector is arranged at the cathode connector, a cathode connector is connected with the cathode connector. The bottom surface of the upper end cover is provided with an upper end cover fixing needle, a glass fixing block is arranged in the glass ring cover, the upper end of the glass fixing block is inserted into the upper end cover fixing needle, the reflecting cover is connected with the lower end of the glass fixing block, one end of the electrode wire is connected with the upper end cover fixing needle, and the other end of the electrode wire penetrates out of the glass fixing block and is connected to the light panel. The top surface of the upper end cover is a smooth curved surface, and the upper end cover fixing needle is connected to the bottom surface of the upper end cover or is of an integrated structure with the upper end cover. The middle of the glass ring cover is provided with a through hole, the upper end of the glass ring cover is an arc surface, the lower end of the glass ring cover is a cylinder, the upper end of the glass ring cover is fixedly bonded with the upper end cover, the lower end of the glass ring cover is inserted into a groove of a stainless steel groove and fixedly bonded with the stainless steel groove, the stainless steel groove is in threaded connection with the upper end of the battery container cabin, and the lower end of the battery container cabin is fixedly bonded with the lower end cover. The reflecting cover is of an arc-shaped structure. The working method of the deep sea submarine search strobe light device comprises the following steps: the method comprises the steps that firstly, a magnet is used for approaching the position of a Hall element on a shore base of the deep sea submarine search strobe lamp device, so that the deep sea submarine search strobe lamp device is in a stop working state; Binding the deep sea submarine search strobe light device on a launching