CN218782496U - Fish-finding night vision lamp - Google Patents

Abstract

The utility model discloses a fish-finding night vision lamp, which comprises a shell I and a shell II; the shell I is in threaded connection with the upper part of the shell II, and the shell I and the shell II are in a completely closed state after being in threaded connection; the shell I comprises a buoy I, a hanging ring, a mounting groove, a gasket, a baffle, a battery, a connector I, a PCB, an interface I, an interface II, a water molecule sensor touch chip and a magnetic control sensor switch component; the bottom of the buoy I is in threaded connection with the upper part of the buoy II; the gasket is arranged below the buoy I, and is positioned between the buoy I and the buoy II after the buoy I and the buoy II are screwed down; the PCB is arranged between the mounting groove and the baffle, a battery charging indicator lamp is arranged on the PCB, and an interface I and an interface II are arranged at the bottom of the PCB; and the shell II comprises a DC charging port, a buoy II, a supporting leg and a joint II. The utility model discloses protection overall structure that can be better when carrying out more comprehensive illumination to camera under water, increase of service life.

Description

Fish-finding night vision lamp

Technical Field

The utility model belongs to the technical field of fishing tackle equipment, in particular to visit fish night vision lamp.

Background

With the improvement of living standard, fishing has become a recreational entertainment mode for the public, and the fishing gear is a necessary tool for fishing enthusiasts. When fishing at night, an underwater camera can be used for observing the underwater fish condition, an infrared lamp is needed to be used for providing a light source for the camera under the condition of insufficient light, but some infrared lamps have contacts in water to corrode, so that the environment is polluted, the lighting direction is single, and the environment around the camera cannot be considered;

according to the retrieval, the underwater suspension infrared light supplement lamp with the application number of 202120372173.1 comprises a shell, wherein a floating ball is fixedly connected to the top end of the shell, a counterweight ball is fixedly embedded in the bottom of the shell, a reflecting cup lampshade is hinged to the bottom end of the shell through a rotating shaft, an infrared emission tube is embedded and installed in the center of the reflecting cup lampshade, a battery box is detachably connected to the middle of the shell, a button switch is installed on one side of the upper portion of the shell, a lead is hidden in the shell, and the infrared emission tube, the battery box and the button switch form a closed loop together; when the infrared transmitting tube and the battery box are exposed outside in the using process, the infrared transmitting tube and the battery box are easily damaged by the environment or other external factors.

Therefore, a fish-finding night vision lamp is needed, which can better protect the whole structure and prolong the service life while more comprehensively illuminating the underwater camera.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, provide a visit fish night vision lamp, the utility model discloses an overcome not enough among the prior art, provide a visit fish night vision lamp, the utility model discloses protection overall structure that can be better when carrying out more comprehensive illumination to the camera under water, increase of service life.

In order to realize the purpose, the utility model discloses a technical scheme be:

a fish-finding night vision lamp comprises a shell I and a shell II; the shell I is in threaded connection with the upper portion of the shell II, and the shell I and the shell II are in a completely closed state after being in threaded connection; the shell I comprises a buoy I, a hanging ring, a mounting groove, a gasket, a baffle, a battery, a connector I, a PCB, an interface I, an interface II, a water molecule sensor touch chip and a magnetic control sensor switch component; the bottom of the buoy I is in threaded connection with the upper part of the buoy II; the gasket is arranged below the buoy I, and is positioned between the buoy I and the buoy II after the buoy I and the buoy II are screwed down; the PCB is arranged between the mounting groove and the baffle, a battery charging indicator lamp is arranged on the PCB, an interface I and an interface II are arranged at the bottom of the PCB, a plurality of infrared light emitting tubes are arranged on the front side and the back side of the PCB, and a water molecule sensor touch chip and a magnetic control sensor switch assembly are arranged on the PCB; the model of the magnetic control sensor switch component is Hall MH248ESO, and the model of the water molecule sensor touch chip is VKD223EB; the infrared light emitting tube on the PCB is a 2835 type 830nm-850nm infrared light emitting tube which can emit infrared rays with the wavelength of 830nm-850 nm; the battery is a 3.7V lithium battery, the battery is arranged in the mounting groove, and a positive electrode port and a negative electrode port of the battery are fixedly connected to the bottom of the connector I through leads; the connector I is inserted into the interface I to enable the battery to be connected with the PCB.

The water molecule sensor touch chip and the magnetic control sensor switch component are electrically connected with the infrared light emitting tube on the PCB through a printed circuit layer on the PCB; in order to prevent the water molecule sensor touch chip from malfunctioning, the water molecule sensor touch chip needs to be reset by using the magnetic control sensor switch component; the font position on the outer side of the float I corresponds to the position of the baffle.

The shell II comprises a DC charging port, a buoy II, a supporting leg and a joint II; the buoy II is connected to the bottom of the buoy I through threads; one end of the DC charging port penetrates through the bottom of the buoy II to be fixedly connected with the buoy II, and the positive port and the negative port of the DC charging port are fixedly connected to the bottom of the joint II through leads; and the connector II is inserted into the interface II, so that the DC charging port is connected with the PCB.

Preferably, cursory I is moulded plastics by the integrative preparation of moulding plastics of PC material, and the link is moulded plastics at cursory I top by the integrative of PC material, and mounting groove and baffle are moulded plastics by the integrative inside cursory I of moulding plastics of PC material.

The buoy II is integrally made of a PC material through injection molding, and the supporting legs are integrally injection molded on the outer side of the buoy II through the PC material.

Compared with the prior art, the utility model beneficial effect shows:

1) After the buoy I and the buoy II are screwed down, the gasket is positioned between the buoy I and the buoy II, and the gasket plays a role in sealing protection and prevents water from entering the interior of the buoy I and the buoy II to cause damage to a battery and a PCB; the front side and the back side of the PCB are provided with a plurality of infrared light-emitting tubes, so that the illumination range is more comprehensive and wider, the infrared light-emitting tubes can emit infrared rays with the wavelength of 830nm-850nm, and the brightness of the lamp body is enhanced; the connector I is inserted into the interface I to connect the battery with the PCB, so that the battery provides power supply for the infrared light emitting tube on the PCB;

2) The water molecule sensor touch chip is matched with the magnetic control sensor switch component, a channel is formed after the water molecule sensor touch chip senses water, the infrared light emitting tubes on the PCB are lighted, the night fishing visual range is improved, the infrared light emitting tubes on the PCB are extinguished when the water molecule sensor touch chip cannot sense water, and the electric quantity is saved;

3) The position of the PCB can be found through the position of the font on the float I, the strong magnet is used for being close to the font on the outer side of the float I, the magnetic control sensor switch component outputs a level signal when meeting a magnetic field signal, the water molecule sensor touch chip is driven to be powered off, and the water molecule sensor touch chip is powered on for self-checking reset after the strong magnet is removed;

4) When the DC charging port is used for charging the battery, the battery charging indicator lamp on the PCB is turned on, the battery charging indicator lamp is turned off after the battery is fully charged, and the DC charging port is used for charging the battery, so that the cruising ability of the battery is prolonged.

Drawings

FIG. 1 is a schematic structural view of a fish-finding night vision lamp of the present invention;

FIG. 2 is a schematic sectional view of the outer shell II shown in FIG. 1;

FIG. 3 is a schematic sectional view of the housing I and the housing II shown in FIG. 1;

FIG. 4 is a schematic structural diagram of a housing I and a PCB in FIG. 1;

FIG. 5 is a schematic sectional view of the housing I shown in FIG. 1;

in the figure: 1. a shell I; 101. a float I; 1011. hanging a ring; 1012. mounting grooves; 1013. a gasket; 1014. a baffle plate; 102. a battery; 1021. a joint I; 103. a PCB board; 1031. an interface I; 1032. a connector II; 104. a water molecule sensor touch chip; 105. a magnetic sensor switch assembly; 2. a shell II; 201. a DC charging port; 202. a float II; 2021. supporting legs; 203. and a joint II.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further specifically described with reference to fig. 1 to 5.

A fish-finding night vision lamp comprises a shell I1 and a shell II 2; the shell I1 is in threaded connection with the upper portion of the shell II 2, and the shell I1 and the shell II 2 are in a completely closed state after being in threaded connection; the shell I1 comprises a buoy I101, a hanging ring 1011, a mounting groove 1012, a gasket 1013, a baffle 1014, a battery 102, a connector I1021, a PCB 103, an interface I1031, an interface II 1032, a water molecule sensor touch chip 104 and a magnetic control sensor switch component 105; the buoy I101 is made of a PC material through integral injection molding, the hanging ring 1011 is made of a PC material through integral injection molding at the top of the buoy I101, the mounting groove 1012 and the baffle 1014 are made of a PC material through integral injection molding inside the buoy I101, and the bottom of the buoy I101 is in threaded connection with the upper portion of the buoy II 202; the gasket 1013 is arranged below the float I101, after the float I101 and the float II 202 are screwed, the gasket 1013 is positioned between the float I101 and the float II 202, and the gasket 1013 plays a role in sealing protection and prevents water from entering the inside of the float I101 and the float II 202 to damage the battery 102 and the PCB 103; the PCB 103 is arranged between the mounting groove 1012 and the baffle plate 1014, the PCB 103 is provided with a battery 102 charging indicator lamp, the bottom of the PCB 103 is provided with an interface I1031 and an interface II 1032, the front and back of the PCB 103 are provided with a plurality of infrared light emitting tubes, so that the illumination range is more comprehensive and wider, and the PCB 103 is provided with a water molecule sensor touch chip 104 and a magnetic control sensor switch component 105; the model of the magnetic control sensor switch component 105 is Hall MH248ESO, and the model of the water molecule sensor touch chip 104 is VKD223EB; the infrared light emitting tubes on the PCB 103 are 2835 type infrared light emitting tubes with the wavelength of 830nm-850nm, and can emit infrared rays with the wavelength of 830nm-850nm, so that the brightness of the lamp body is enhanced; the battery 102 is a 3.7V lithium battery, the battery 102 is arranged in the mounting groove 1012, and a positive port and a negative port of the battery 102 are fixedly connected to the bottom of the connector I1021 through conducting wires; the connector I1021 is plugged in the interface I1031 to connect the battery 102 with the PCB 103, so that the battery 102 provides power supply for the infrared light emitting tube on the PCB 103.

The water molecule sensor touch chip 104 and the magnetic control sensor switch component 105 are electrically connected with the infrared light emitting tube on the PCB 103 through a circuit layer printed on the PCB 103; the water molecule sensor touch chip 104 is matched with the magnetic control sensor switch component 105, a channel is formed after the water molecule sensor touch chip 104 senses water, the infrared light emitting tube on the PCB 103 is lightened, the night fishing visual range is improved, the infrared light emitting tube on the PCB 103 is extinguished when the water molecule sensor touch chip 104 cannot sense water, and the electric quantity is saved; in order to prevent the water molecule sensor touch chip 104 from malfunctioning, the water molecule sensor touch chip 104 needs to be reset by the magnetic control sensor switch assembly 105; the typeface position in cursory I101 outside corresponds with baffle 1014 position, can find the position of PCB board 103 through the position of the typeface on the cursory I101, uses strong magnetism to press close to cursory I101 outside typeface department, and magnetic control sensor switch module 105 meets magnetic field signal output level signal, and drive hydrone sensor touch chip 104 disconnection power, magnetic field disappearance hydrone sensor touch chip 104 circular telegram self-checking resets after removing strong magnetism.

The shell II 2 comprises a DC charging port 201, a buoy II 202, a support leg 2021 and a connector II 203; the buoy II 202 is made of a PC material through integral injection molding, the supporting leg 2021 is made of a PC material through integral injection molding and is arranged on the outer side of the buoy II, and the buoy II 202 is in threaded connection with the bottom of the buoy I101; one end of the DC charging port 201 penetrates through the bottom of the float II 202 to be fixedly connected with the float II 202, and the positive port and the negative port of the DC charging port 201 are fixedly connected to the bottom of the joint II 203 through conducting wires; the connector II 203 is inserted into the interface II 1032 to connect the DC charging port 201 with the PCB 103, when the DC charging port 201 is used for charging the battery 102, the charging indicator lamp of the battery 102 on the PCB 103 is turned on, the charging indicator lamp of the battery 102 is turned off after the battery is fully charged, and the battery 102 is charged through the DC charging port 201, so that the cruising ability of the battery 102 is prolonged.

A fish-finding night vision lamp comprises the following working processes:

inserting the connector I into the interface I to connect the battery with the PCB; inserting a connector II into the interface II to connect the DC charging with the PCB, screwing the buoy I and the buoy II, and then charging the battery by using the DC charging port, wherein a battery charging indicator lamp on the PCB is turned on in the charging process, and the battery charging indicator lamp is turned off after the battery is fully charged; the buoy I and the buoy II are screwed and then placed into water, a water molecule sensor touch chip senses the water to form a passage, and an infrared light emitting tube on the PCB is lightened to improve the visible range of night fishing; when the water molecule sensor touch chip cannot sense water, the infrared light emitting tube on the PCB is turned off, and the electric quantity in the battery is saved; if float I and float II screw up put into aquatic back infrared emitting tube not bright or take out the back infrared emitting tube from the aquatic and do not go out, then need magnetic control sensor switch subassembly to reset hydrone sensor touch chip, use strong magnetism to press close to the typeface department in the I outside of float, magnetic control sensor switch subassembly meets magnetic field signal output level signal, drive hydrone sensor touch chip disconnect-type power, remove magnetic field behind the strong magnetism and disappear hydrone sensor touch chip circular telegram self-checking and reset.

The foregoing is illustrative and explanatory only of the structure of the present invention, and it is intended that those skilled in the art who have the structure described herein be able to make various modifications, additions or substitutions in the same manner as the above-described embodiments without departing from the structure of the present invention or exceeding the scope defined by the claims.

Claims (6)

1. A fish-finding night vision lamp comprises a shell I and a shell II; the device is characterized in that the shell I is in threaded connection above the shell II, and the shell I and the shell II are in a completely closed state after being in threaded connection;

the shell I comprises a buoy I, a hanging ring, a mounting groove, a gasket, a baffle, a battery, a connector I, a PCB, an interface I, an interface II, a water molecule sensor touch chip and a magnetic control sensor switch assembly; the bottom of the buoy I is in threaded connection with the upper part of the buoy II; the gasket is arranged below the buoy I, and is positioned between the buoy I and the buoy II after the buoy I and the buoy II are screwed tightly; the PCB is arranged between the mounting groove and the baffle, a battery charging indicator lamp is arranged on the PCB, an interface I and an interface II are arranged at the bottom of the PCB, a plurality of infrared light emitting tubes are arranged on the front side and the back side of the PCB, and a water molecule sensor touch chip and a magnetic control sensor switch assembly are arranged on the PCB; the battery is arranged in the mounting groove, and the positive electrode port and the negative electrode port of the battery are fixedly connected to the bottom of the joint I through leads; the connector I is inserted into the interface I to connect the battery with the PCB.

2. The fish-detecting night vision lamp as claimed in claim 1, wherein the water molecule sensor touch chip and the magnetic control sensor switch assembly are electrically connected with an infrared light emitting tube on the PCB through a printed circuit layer on the PCB; in order to prevent the water molecule sensor touch chip from malfunctioning, the water molecule sensor touch chip needs to be reset by using the magnetic control sensor switch component; the typeface position in I outside of cursory is corresponding with the baffle position, can find the position of PCB board through the position of the typeface on the cursory I, uses strong magnetism to press close to the typeface department in I outside of cursory, and magnetic control sensor switch subassembly meets magnetic field signal output level signal, drives hydrone sensor touch chip disconnection power supply, and magnetic field disappears hydrone sensor touch chip circular telegram self-checking after removing strong magnetism and resets.

3. The fish-detecting night vision lamp as claimed in claim 1, wherein the housing II comprises a DC charging port, a float II, a support leg and a connector II; the buoy II is in threaded connection with the bottom of the buoy I; one end of the DC charging port penetrates through the bottom of the buoy II to be fixedly connected with the buoy II, and the positive port and the negative port of the DC charging port are fixedly connected to the bottom of the joint II through leads; and the connector II is inserted in the interface II, so that the DC charging port is connected with the PCB.

4. The fish-finding night vision lamp as claimed in claim 1, wherein the float I is integrally injection molded from PC material, the suspension loop is integrally injection molded from PC material on top of the float I, and the mounting groove and the baffle are integrally injection molded from PC material inside the float I.

5. The fish-finding night vision lamp as claimed in claim 3, wherein the float II is integrally injection molded from PC material, and the support leg is integrally injection molded from PC material on the outer side of the float II.

6. The fish-finding night vision lamp as claimed in claim 1, wherein the magnetic control sensor switch assembly is hall MH248ESO, and the water molecule sensor touch chip is VKD223EB; the infrared light emitting tubes on the PCB are 2835 type infrared light emitting tubes with the wavelength of 830nm-850nm and can emit infrared rays with the wavelength of 830nm-850 nm; the battery adopts a 3.7V lithium battery.

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