CN215570157U - Safety induction lamp for mixed use of dry battery and lithium battery - Google Patents

Abstract

The utility model relates to the technical field of lighting lamps, in particular to a safety induction lamp with a dry battery and a lithium battery in a mixed mode, which comprises a mounting seat, a connecting support assembly, a PCBA mainboard, and a lamp holder assembly, an induction head assembly, a battery box set and a photovoltaic solar panel assembly which are respectively connected with the PCBA mainboard.

Description

Safety induction lamp for mixed use of dry battery and lithium battery

Technical Field

The utility model relates to the technical field of lighting lamps, in particular to a safety induction lamp powered by a dry battery and a lithium battery in a mixed mode.

Background

Safety sensitive lights are common as a safety lighting fixture in residential as well as yard and commercial environments. When a human body or a motion heat source body approaches, the motion sensor can illuminate a large-area dark space to improve life convenience and safety warning after detecting.

But the rechargeable battery is used as the only power supply system in most of the existing low-voltage safety lighting lamps, and when the environment of the photovoltaic solar panel is in low illumination, such as rainy days and the like, the photovoltaic solar panel cannot effectively charge the rechargeable battery, so that the safety induction lamp cannot effectively illuminate.

Therefore, there is a need to provide a safety sensing lamp powered by a combination of dry batteries and lithium batteries to better solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides the safety induction lamp powered by the mixed use of the dry battery and the lithium battery, which has the advantages of simple structure, reasonable design and convenient use.

The technical scheme adopted by the utility model is as follows:

the utility model provides a safety response lamp that dry battery and lithium cell were used thoughtlessly, including mount pad, linking bridge subassembly, PCBA mainboard and respectively with lamp holder subassembly, inductive head subassembly, battery box group and the photovoltaic solar panel subassembly that the PCBA mainboard is connected, the battery box group is equipped with dry battery and rechargeable battery, the PCBA mainboard has: the power supply switching module is used for switching a dry battery or a rechargeable battery to supply power; the illumination adjusting module is used for adjusting illumination time and illumination brightness of the lamp cap assembly; the induction adjusting module is used for adjusting the induction distance and the induction temperature of the induction head assembly; the environment temperature monitoring control module is used for adjusting the detection of the induction head assembly on the environment temperature; the remote control module is used for butting external control; the Bluetooth module is used for controlling the lamp at the front end of the mobile phone; the WIFI module is used for remotely controlling the lamp through the mobile phone APP; the linkage control module is used for linkage control among the plurality of safety induction lamps; and a control chip.

Furthermore, the multifunctional lamp also comprises a function switch and a function indicator light, wherein the function indicator light and the function switch are respectively connected with the illumination adjusting module and the induction adjusting module.

Further, the function switches comprise an ambient brightness adjusting switch, an induction distance adjusting switch, an illumination time adjusting switch, an illumination intensity switch and a test switch.

Further, the inductive head assembly is provided with a signal receiver, and the signal receiver is connected with the PCBA mainboard.

Furthermore, the connecting bracket component comprises a connecting plate and a movable arm, the connecting plate is rotatably connected with the mounting seat, one end of the movable arm is rotatably connected with the connecting plate, and the other end of the movable arm is rotatably connected with the lamp cap component.

Further, the lamp holder subassembly is equipped with casing, panel and a plurality of LED lamp pearl, the casing rear end is equipped with the connecting block, the connecting block with digging arm swing joint, the panel mounting in the casing front end, a plurality of LED lamp pearl array arrange install in the casing, and a plurality of the luminous direction orientation of LED lamp pearl the panel.

Further, the battery box group includes battery box and case lid, be equipped with rechargeable battery mounting groove and dry battery mounting groove in the battery box, the case lid with the joint can be dismantled to the battery box, the case lid with the position that the battery box is connected is equipped with the sealing washer.

Further, the photovoltaic solar panel component is provided with a base, a photovoltaic panel and a DC connection wire, the photovoltaic panel is movably connected with the base, the mounting seat is provided with a DC socket electrically connected with the PCBA main board, and the DC connection wire is connected with the DC socket.

Furthermore, the hanging plate is further included, and the hanging plate and the mounting seat are detachably clamped.

Furthermore, the hanging plate is provided with an elastic sheet, a concave connecting groove is formed in the elastic sheet, and a convex connecting block matched with the concave connecting groove is arranged on the mounting seat.

The utility model has the following beneficial effects:

the utility model relates to a safety induction lamp for mixed use of a dry battery and a lithium battery, which comprises a mounting seat, a connecting support assembly, a PCBA mainboard, and a lamp holder assembly, an induction head assembly, a battery box set and a photovoltaic solar panel assembly which are respectively connected with the PCBA mainboard.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the hanging plate of the present invention;

FIG. 3 is a schematic structural view of an unassembled hanging panel of the present invention;

FIG. 4 is a schematic view of the lid of the unassembled battery box assembly of FIG. 3;

FIG. 5 is a schematic view of a connection structure of a housing and an LED lamp bead of the lamp holder assembly of the present invention;

FIG. 6 is a schematic structural view of a photovoltaic solar module according to the present invention;

description of reference numerals: 1. the LED lamp comprises a mounting seat, 11, a DC socket, 12, a convex connection block, 2, a connection support assembly, 21, a connection plate, 22, a movable arm, 3, a lamp cap assembly, 31, a shell, 311, a connection block, 32, a panel, 33, an LED lamp bead, 4, an induction head assembly, 5, a battery box group, 51, a battery box, 511, a rechargeable battery installation groove, 512, a dry battery installation groove, 52, a box cover, 521, a sealing ring, 6, a photovoltaic solar panel assembly, 61, a base, 62, a photovoltaic panel, 63.DC wiring, 7, a function switch, 8, a function indicator light, 9, a hanging plate, 91, an elastic sheet and 911, a concave connection groove.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1-6, this embodiment the mixed safety induction lamp of dry battery and lithium cell, including mount pad 1, linking bridge subassembly 2, PCBA mainboard and respectively with lamp holder subassembly 3, inductive head subassembly 4, battery box group 5 and the photovoltaic solar panel subassembly 6 that the PCBA mainboard is connected, linking bridge subassembly 2 respectively with mount pad 1 with lamp holder subassembly 3 is connected, inductive head subassembly 4 can rotate install in the 1 outside of mount pad, battery box group 5 with the PCBA mainboard install in the 1 inboard of mount pad, battery box group 5 is equipped with dry battery and rechargeable battery, the PCBA mainboard has: the power supply switching module is used for switching a dry battery or a rechargeable battery to supply power; the illumination adjusting module is used for adjusting illumination time and illumination brightness of the lamp cap assembly; the induction adjusting module is used for adjusting the induction distance and the induction temperature of the induction head assembly; the environment temperature monitoring control module is used for adjusting the detection of the induction head assembly on the environment temperature; the remote control module is used for butting external control; the Bluetooth module is used for controlling the lamp at the front end of the mobile phone; the WIFI module is used for remotely controlling the lamp through the mobile phone APP; the linkage control module is used for linkage control among the plurality of safety induction lamps; and a control chip, in this embodiment, the lighting and functional use of the safety induction lamp are realized by the detection and triggering of the induction head assembly, the safety induction lamp is controlled by the PCBA mainboard to automatically select the rechargeable battery or the spare dry battery for power supply, and the PCBA mainboard controls and monitors the overcharge and overdischarge protection of the rechargeable battery, when the voltage of the rechargeable battery is too low, the spare dry battery starts to supply power and controls the photovoltaic solar panel to charge the rechargeable battery until the voltage of the rechargeable battery is greater than the low voltage protection value of the battery, and the power supply is converted into the power supply of the rechargeable battery, so as to reduce the electric quantity output of the spare dry battery, prolong the service life of the spare dry battery, avoid the overcharge or overdischarge of the rechargeable battery and prolong the service life of the rechargeable battery, the utility model is equivalent to two sets of power supply systems of the rechargeable battery and the dry battery, and can be controlled by the PCBA mainboard to perform power supply switching, the power supply is stable, meanwhile, the lighting condition (such as lighting time and lighting brightness), the induction condition (such as induction distance) and the environment monitoring (such as environment temperature and brightness) can be adjusted through the PCBA mainboard, and the control of the butt joint remote controller is realized through the remote control module; the Bluetooth module is used for controlling the lamp at the front end of the mobile phone; the WIFI module is used for remotely controlling the lamp through the mobile phone APP; through linkage control module, realize lamp and lamp interconnection control, with many desk lamps of single lamp control linkage or many lamps function synchro control, its reasonable in design, the practicality is strong.

Referring to fig. 1, on the basis of the above embodiment, the lighting device further includes a function switch 7 and a function indicator light 8, the function switch 7 and the function indicator light 8 are respectively connected to the lighting adjustment module and the induction adjustment module, specifically, the function switch 7 includes an ambient brightness adjustment switch, an induction distance adjustment switch, a lighting time adjustment switch, a lighting intensity switch and a test switch, in this embodiment, the function switch 7 is a light touch electronic switch, and when the lighting device is used, after the test switch is pressed down, flexible adjustment and setting of lighting and induction can be performed through each switch, so that the use is convenient.

The induction head assembly 4 is provided with a signal receiver, the signal receiver is connected with the PCBA mainboard, and the signal receiver is arranged, so that a remote controller can be conveniently configured, the switch and function selection operation can be carried out, and the use is convenient.

Referring to fig. 1, 3 and 4, the connection bracket assembly 2 includes a connection plate 21 and a movable arm 22, the connection plate 21 is rotatably connected to the mounting base 1, one end of the movable arm 22 is rotatably connected to the connection plate 21, the other end of the movable arm 22 is rotatably connected to the lamp head assembly 3, specifically, the lamp head assembly 3 includes a housing 31, a panel 32 and a plurality of LED beads 33, a connection block 311 is disposed at the rear end of the housing 31, the connection block 311 is movably connected to the movable arm 22, the panel 32 is mounted at the front end of the housing 31, the plurality of LED beads 33 are arranged in the housing 31 in an array, and the light emitting direction of the plurality of LED beads 33 faces the panel 32, more specifically, in this embodiment, the lamp head assembly 3 includes three movable arms 22, three movable arms 22 are correspondingly disposed, and the connection plate 21 is disposed at intervals, the safety induction lamp can realize multi-angle wide-area illumination through rotating the adjusting connecting plate 21 relative to the mounting base 1, the movable arm 22 relative to the connecting plate 21 and the lamp holder assembly 3 relative to the movable arm 22, has good illumination effect, can be adjusted to a small volume for storage through rotating the adjusting lamp holder assembly 3, and is convenient to use.

Referring to fig. 3 and 4, the battery box set 5 includes a battery box 51 and a box cover 52, a rechargeable battery installation groove 511 and a dry battery installation groove 512 are provided in the battery box 51, the box cover 52 is detachably clamped with the battery box 51, and a sealing ring 521 is provided at a position where the box cover 52 is connected with the battery box 51.

Referring to fig. 6, the photovoltaic solar panel assembly 6 is provided with a base 61, a photovoltaic panel 62 and a DC connection 63, the photovoltaic panel 62 is movably connected to the base 61, the mounting base 1 is provided with a DC socket 11 electrically connected to the PCBA motherboard, and the DC connection 63 is connected to the DC socket 11, in this embodiment, when in use, better sunlight collection can be achieved by adjusting the position of the photovoltaic panel 62 relative to the base 61, the DC connection 63 can be electrically connected to the DC socket 11 arranged on the mounting base 1, so that the DC connection is electrically connected to the PCBA assembly, and the PCBA motherboard controls the PCBA motherboard to charge the rechargeable battery.

Referring to fig. 2, the mounting structure further comprises a hanging plate 9, the hanging plate 9 is detachably clamped with the mounting base 1, specifically, the hanging plate 9 is provided with an elastic sheet 91, the elastic sheet 91 is provided with a concave connecting groove 912, and the mounting base 1 is provided with a convex connecting block 12 matched with the concave connecting groove 912.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a safety response lamp that dry battery and lithium cell were used thoughtlessly, including mount pad, linking bridge subassembly, PCBA mainboard, and respectively with lamp holder subassembly, response head subassembly, battery box group and the photovoltaic solar panel subassembly that PCBA mainboard electricity is connected, its characterized in that, battery box group is equipped with dry battery and rechargeable battery, the PCBA mainboard has: the power supply switching module is used for switching a dry battery or a rechargeable battery to supply power; the illumination adjusting module is used for adjusting illumination time and illumination brightness of the lamp cap assembly; the induction adjusting module is used for adjusting the induction distance and the induction temperature of the induction head assembly; the environment temperature monitoring control module is used for adjusting the detection of the induction head assembly on the environment temperature; the remote control module is used for butting external control; the Bluetooth module is used for controlling the lamp at the front end of the mobile phone; the WIFI module is used for remotely controlling the lamp through the mobile phone APP; the linkage control module is used for linkage control among the plurality of safety induction lamps; and a control chip.

2. The hybrid dry cell and lithium cell safety sensor light of claim 1 further comprising a function switch and a function indicator light, said function indicator light and said function switch being connected to said illumination adjustment module and said sensing adjustment module, respectively.

3. The hybrid dry battery and lithium battery safety sensor lamp as set forth in claim 2, wherein said function switches include an ambient brightness adjusting switch, a sensing distance adjusting switch, a lighting time adjusting switch, a lighting intensity switch and a test switch.

4. The hybrid dry cell and lithium cell safety sensor light of claim 1, wherein said sensor head assembly is provided with a signal receiver, said signal receiver being connected to said PCBA motherboard.

5. The hybrid dry cell and lithium cell safety sensor light of claim 1, wherein said connecting bracket assembly comprises a connecting plate and a movable arm, said connecting plate is rotatably connected to said mounting base, one end of said movable arm is rotatably connected to said connecting plate, and the other end of said movable arm is rotatably connected to said lamp head assembly.

6. The hybrid safety sensor lamp of claim 5, wherein said lamp holder assembly comprises a housing, a panel and a plurality of LED lamp beads, said housing has a connecting block at a rear end thereof, said connecting block is movably connected to said movable arm, said panel is mounted at a front end of said housing, a plurality of said LED lamp beads are arranged in said housing, and a light emitting direction of said plurality of LED lamp beads faces said panel.

7. The safety sensor lamp as claimed in claim 1, wherein the battery box set comprises a battery box and a box cover, the battery box is provided with a rechargeable battery mounting groove and a dry battery mounting groove, the box cover is detachably connected to the battery box in a clamping manner, and a sealing ring is arranged at a position where the box cover is connected to the battery box.

8. The hybrid safety sensor light of claim 1, wherein said photovoltaic solar panel assembly comprises a base, a photovoltaic panel movably connected to said base, and a DC connector electrically connected to said PCBA board, said mounting base comprising a DC socket electrically connected to said PCBA board, said DC connector being connected to said DC socket.

9. The safety sensor lamp as claimed in claim 1, further comprising a hanging plate, wherein the hanging plate is detachably connected to the mounting base in a clamping manner.

10. The hybrid safety sensor light of claim 9, wherein the hanging plate has a resilient plate with a recessed groove, and the mounting base has a male protrusion matching the recessed groove.

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