CN112856303A

CN112856303A - Charging lamp

Info

Publication number: CN112856303A
Application number: CN202011619343.8A
Authority: CN
Inventors: 马晓春; 艾丹
Original assignee: Guangzhou Aiyusen Lighting Technology Co ltd
Current assignee: Guangzhou Aiyusen Lighting Technology Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28

Abstract

The invention relates to the technical field of rechargeable lighting lamps, in particular to a rechargeable lamp, which comprises a concave clamping groove and a conductive contact, wherein the concave clamping groove and the conductive contact are arranged on a front cover of the rechargeable lamp, a relay switching module PCB, a 24V power supply, a charging module PCB and a rechargeable battery are arranged in the rechargeable lamp, a display screen main board module PCB and an LED lamp board are arranged in the rechargeable lamp, the conductive contact is electrically connected with the relay switching module PCB, the relay switching module PCB is electrically connected with the 24V power supply, the 24V power supply is electrically connected with the charging module PCB, the charging module PCB is electrically connected with the rechargeable battery, the conductive contact is used as a charging port, an external power supply is connected to convert and store the external power into the rechargeable battery through the relay switching module PCB, the 24V power supply. The invention also relates to a charging device which is matched with the charging lamps for use, and the inconvenience caused by charging each lamp through a charging wire is eliminated.

Description

Charging lamp

Technical Field

The invention relates to the technical field of rechargeable lighting lamps, in particular to a charging mode.

Background

Present large-scale rechargeable light, through being equipped with current input port, and be furnished with the charging wire, because on charging wire fixed connection to the light, can seriously influence the transport and the use of lamps and lanterns and bring inconvenience, most rechargeable large-scale light all is lamp and line separation for this reason, the charging wire only uses when charging, this causes another problem again, the charging wire is placed at will when idle and is often lost, and the charging wire is piled up the winding together when having more lamps, also cause unchangeably when the use.

Disclosure of Invention

The invention aims to solve the problem of inconvenient use caused by charging an illuminating lamp by configuring a charging wire, and provides a charging lamp which does not need the charging wire for charging.

In a first aspect, the present invention provides a rechargeable lamp, including a front cover, a conductive contact is disposed on the front cover, the conductive contact is electrically connected to a relay switching module PCB disposed inside the rechargeable lamp, the relay switching module PCB is electrically connected to a 24V power supply, the 24V power supply is electrically connected to a charging module PCB13, and the charging module PCB is electrically connected to a rechargeable battery. The conductive contact is used as an external power supply access port, is connected with an external power supply, and converts and stores external electric energy into a rechargeable battery through the relay switching module PCB, the 24V power supply and the charging module PCB to form a first charging loop.

Preferably, the 24V power supply is electrically connected to the power input socket, which may be connected to an external power supply. The power input socket 28, the 24V power supply 11, the charging module PCB, and the rechargeable battery form a second charging loop.

Preferably, the relay switching module PCB is configured to automatically recognize an operating state of the second charging circuit, disconnect the first charging circuit when the second charging circuit is in a charging connection operating state, connect the first charging circuit when the second charging circuit is in a charging connection operating state, prevent the conductive contact of the first charging circuit from generating current when the first charging circuit is not charged, and prevent the first charging circuit and the second charging circuit from being in an operating state at the same time.

Preferably, the rechargeable lamp further comprises a display screen main board module PCB and an LED lamp panel, the rechargeable battery is electrically connected with the display screen main board module PCB, and the display screen main board module PCB is electrically connected with the LED lamp panel.

Preferably, the rechargeable lamp further comprises toughened glass pressed by the front cover, front cover waterproof silica gel pressed by the toughened glass, the other side of the front cover waterproof silica gel is pressed by a silica gel pressing plate, the other side of the silica gel pressing plate is adjacent to a lens pressing plate, the lens pressing plate is coupled and connected with the lens, the two parts have corresponding structural designs, an infrared module PCB is arranged on the lens pressing plate and outside the coupling position with the lens, the lens is adjacent to an LED lamp plate, the LED lamp plate has a corresponding structural design, light emitted by the LED lamp plate is conveniently gathered through the lens, the lower part of the LED lamp plate is adjacent to radiator waterproof silica gel, the lower part of the radiator waterproof silica gel is adjacent to a radiator, the upper surface of the radiator can be fixedly connected with the front cover, the lower surface of the radiator can be closely connected with the rear cover, the outer surface of the radiator is provided with a connecting structure connected with a I-shaped cast, a display screen silica gel pressing plate adjacent to the display screen main board module PCB, display screen acrylic adjacent to the display screen silica gel pressing plate, display screen waterproof silica gel adjacent to the display screen acrylic and rear cover waterproof silica gel adjacent to the display screen waterproof silica gel are fixed between the rear cover and the display screen main board module PCB;

the front cover is provided with a plurality of concave clamping grooves and is made of an insulating material, and the rear cover is made of an aluminum alloy material.

Preferably, the rechargeable lamp further comprises a signal input seat, a wireless transmitter, a signal output seat, a ventilation valve and a power output seat which are connected with the rear cover, and the power output seat is electrically connected with the power input seat.

The invention provides a charging device, which comprises a shell, wherein a plurality of convex clamping grooves and holes are formed in the shell, two charging contact heads are arranged on the shell, one ends of the charging contact heads penetrate out of the holes, the other ends of the charging contact heads are relatively fixed by fixing pieces, so that the charging contact heads can only move up and down, a grid is arranged in the middle of the charging contact heads, an elastic element is arranged below the grid, the charging contact heads can reset when downward pressure applied to the charging contact heads disappears, a conducting plate is arranged at a certain distance under the charging contact heads and is electrically connected with a cable, the cable and the conducting plate are arranged on a bottom cover, one end of the conducting plate is tilted and elastic, the tilted end of the conducting plate is right opposite to the lower side of the charging contact heads, and.

Preferably, charging device can charge for the lamp that charges, is equipped with protruding position draw-in groove on the charging device, and protruding position draw-in groove corresponds the setting with the concave position draw-in groove of the lamp that charges, and both can automatic positioning and agree with, prevent relative rotation, make placing that the lamp that charges can stabilize charge on charging device, the contact that charges corresponds the setting with the conductive contact of the lamp that charges.

In a third aspect, the present invention provides a charging method for a charging lamp, comprising:

placing the charging lamp on a charging device, enabling the conductive contact to correspond to the charging contact head, pressing the charging contact head to stretch downwards to touch the conductive sheet by the conductive contact, and enabling the charging contact head to be in a charging state;

the cable of the charging device is connected with an external power supply, and leads current to a conductive contact of the charging lamp through a conductive sheet and a charging contact head, a first charging loop of the charging lamp is conducted, the current is switched to a charging battery through the conductive contact, a relay switching module PCB, a 24V power supply and the charging module PCB, and external electric energy is converted and stored in the charging battery;

the conducting lamp is taken away from the charging device, the conducting contact is separated from the contact with the charging contact head, the charging is stopped when the current is interrupted, the charging contact head is bounced to reset after losing the pressure of the conducting contact, the conducting contact head is separated from the contact with the conducting strip, and the charging contact head is in an idle state.

In a fourth aspect, the present invention provides a charging box set, wherein a plurality of charging devices are disposed inside the charging box set, cables of each charging device are combined into a port, the port is connected with an external power source, and each charging device can charge a charging lamp.

The invention has the advantages of

1. The charging device charges the charging lamp, so that various invariances caused by charging the charging lamp through the charging wire are solved;

2. the invention realizes circuit connection in a mode of pressing the charging contact head capable of automatically resetting by the conductive contact, and is simple and convenient.

3. The charging box group can conveniently charge the large-batch charging lamps, and troubles of messy pulling, interweaving and winding of the charging wires are avoided.

4. According to the invention, one of two charging loops can be selected for safe charging through the relay switching module PCB.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of a lighting lamp according to the present invention;

FIG. 2 is an exploded view of the illumination lamp of the present invention;

FIG. 3 is a front view of the light of the present invention;

FIG. 4 is a rear view of the light of the present invention;

FIG. 5 is a right side view of the light of the present invention;

FIG. 6 is a left side view of the illumination lamp of the present invention;

FIG. 7 is a bottom view of the illumination lamp of the present invention;

FIG. 8 is a top view of the illumination lamp of the present invention;

FIG. 9 is a planar view of the conductive contacts of the lamp of the present invention;

fig. 10 is an exploded view of the charging device of the present invention;

fig. 11 is a front view of the charging device of the present invention;

fig. 12 is a rear view of the charging device of the present invention;

fig. 13 is a right side view of the charging device of the present invention;

fig. 14 is a left side view of the charging device of the present invention;

fig. 15 is a bottom view of the charging device of the present invention;

fig. 16 is a top view of the charging device of the present invention;

FIG. 17 is a schematic view of a charging device of the present invention passing through a charging contact;

FIG. 18 is a first view illustrating the effect of the illumination device and the charging device of the present invention;

FIG. 19 is a second view illustrating the effect of the illumination lamp and the charging device of the present invention;

FIG. 20 is a schematic view of a charging box assembly according to the present invention;

fig. 21 is a planar view illustrating the effect of the charging box assembly of the present invention.

Reference numerals: 1. the LED display screen comprises a front cover, 2 parts of toughened glass, 3 parts of front cover waterproof silica gel, 4 parts of silica gel pressing plates, 5 parts of lens pressing plates, 6 parts of an infrared module PCB, 7 parts of lenses, 8 parts of an LED lamp panel, 9 parts of radiator waterproof silica gel, 10 parts of a radiator, 11.24V power supply, 12 parts of rechargeable battery, 13 parts of a rechargeable module PCB, 14 parts of a battery fixing plate, 15 parts of a relay switching module PCB, 16 parts of a wireless module PCB, 17 parts of a display screen main board module PCB, 18 parts of a display screen silica gel pressing plate, 19 parts of display screen acrylic, 20 parts of display screen waterproof silica gel, 21 parts of rear cover waterproof silica gel, 22 parts of rear cover, 23 parts of a signal input seat, 24 parts of a wireless transmitter, 25 parts of a signal output seat, 26 parts of a ventilation valve, 27 parts of a power output seat, 28 parts of a power input seat, 29 parts of a I-shaped cast aluminum knob, 30 parts of an inner handle, 31 parts of an outer handle, 32 parts of a shell, 36. The charging device comprises a conducting strip, 37 cables, 38 bottom covers, 39 charging box groups, 40 conducting contacts, 41 concave clamping grooves, 42 convex clamping grooves, 43 charging devices and 44 charging lamps.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The charging lamp shown in fig. 1 to 9 includes a concave slot 41 and a conductive contact 40 arranged on a front cover 1 of the charging lamp 44, a relay switching module PCB15, a 24V power supply 11, a charging module PCB13, a charging battery 12 arranged inside the charging lamp 44, a display screen main board module PCB17 and an LED lamp panel 8, wherein the conductive contact 40 is electrically connected with the relay switching module PCB15, the relay switching module PCB15 is electrically connected with the 24V power supply 11, the 24V power supply 11 is electrically connected with the charging module PCB13, and the charging module PCB13 is electrically connected with the charging battery 12. The conductive contact 40 is used as a charging port, and an external power supply is connected to convert and store external electric energy into the rechargeable battery 12 through the relay switching module PCB15, the 24V power supply 11 and the charging module PCB13, so as to form a first charging loop.

The 24V power supply 11 is also electrically connected to the power input socket 28, and the power input socket 28 can be connected to an external power supply. The power input socket 28, the 24V power supply 11, the charging module PCB13, and the rechargeable battery 12 form a second charging loop. The power input socket 28 can be directly connected to the power source through a charging wire for charging, and can also be connected to the power output socket of another charging lamp, so that a plurality of charging lamps can be connected, and after only the first charging lamp is connected to the power source, all the charging lamps can be in a charging state.

The relay switching module PCB15 is used for automatically recognizing the operating status of the second charging circuit, disconnecting the first charging circuit when the second charging circuit is in the charging connection operating status, preventing the conductive contact 40 from generating current when the first charging circuit is idle, and preventing the first charging circuit and the second charging circuit from being in the operating status at the same time.

Rechargeable battery 12 is connected with display screen mainboard module PCB17 electricity, and display screen mainboard module PCB17 is connected with LED lamp plate 8 electricity.

As shown in fig. 2, the charging lamp 44 further includes a tempered glass 2 pressed by the front cover 1, the tempered glass 2 presses the waterproof silica gel 3 of the front cover, the waterproof silica gel of the front cover presses the other side of the front cover to be pressed by the silica gel pressing plate 4, the waterproof silica gel of the front cover pressed by the two sides presses the front cover 3 to have a good waterproof effect, and when the tempered glass 2 is wetted by water, water can be prevented from permeating into the charging lamp from the edge gap between the tempered glass 2 and the front cover. The other side of the silica gel pressing plate 4 is close to the lens pressing plate 5, the lens pressing plate 5 is coupled with the lens 7, the lens pressing plate 5 and the lens 7 are correspondingly designed, and an infrared module PCB is arranged outside the coupling position of the lens pressing plate 5 and the lens 7. Lens 7 is close to LED lamp plate 8, has corresponding structural design with LED lamp plate 8, is convenient for gather the light that LED lamp plate 8 sent through lens.

8 below next-door neighbour radiators of LED lamp plate 9 waterproof silica gel 9, the waterproof silica gel 9 below next-door neighbour radiators 10 of radiator, radiator 10 upper surface can with protecgulum 1 fastening connection, the lower surface can with back lid 22 zonulae occludens, the surface is equipped with the connection structure who is connected with a word cast aluminium knob 29, inside is the cavity setting.

Further, display screen mainboard module PCB17 is fixed on back lid 22, and also fixed together between display screen mainboard module PCB17 is display screen silica gel clamp plate 18 next to display screen mainboard module PCB17, display screen yakeli 19 next to display screen silica gel clamp plate 18, display screen waterproof silica gel 20 next to display screen yakeli 19, back lid waterproof silica gel 21 next to display screen waterproof silica gel 20.

Further, the signal input seat 23, the wireless transmitter 24, the signal output seat 25, the ventilation valve 26, the power output seat 27 and the power input seat 28 are all connected with the rear cover 22. The power outlet socket 27 is electrically connected to the power inlet socket 28.

As shown in fig. 10 to 17, the charging device 43 includes a housing 32, a plurality of protruding slots 42 and holes for the charging contacts 33 to pass through are formed in the housing 32, one end of the charging contacts 33 passes through the holes, the other end of the charging contacts 33 is fixed by a fixing plate 35, so that the charging contacts 33 can only move up and down, a block is arranged in the middle of the charging contacts 33, an elastic element is arranged below the block, and the elastic element can be a spring, so that the charging contacts 33 can be reset when downward pressure applied to the charging contacts 33 disappears.

Further, a conducting strip 36 is arranged right below the charging contact head 33, the conducting strip 36 is electrically connected with the cable 37, the cable 37 and the conducting strip 36 are arranged on the bottom cover 38, one end of the conducting strip 36 is tilted and elastic, and the tilted end is opposite to the charging contact head 33. The cable 37 may be connected to an external power source.

As shown in fig. 18 and 19, when the charging lamp 44 is placed on the charging device 43 for charging, the conductive contact 40 on the charging lamp 44 faces the charging contact 33, and the charging contact 33 is pressed by the conductive contact 40 to move downward and contacts with the tilted end of the conductive sheet 36 to realize electrical connection, at this time, if the second charging circuit is not operated, the first charging circuit is in an operating state, and the charging lamp 44 is in a charging state.

Further, the concave slot 41 of the charging lamp 44 can be automatically positioned and matched with the convex slot 42 of the charging device 43, so as to prevent the two from rotating relatively.

When the charging lamp 44 moves out of the charging device 43, the pressure applied to the charging contact 33 disappears, the charging contact 33 resets and is separated from the contact with the conducting strip 36, and the charging contact 33 and the conducting strip 36 are electrically disconnected.

As shown in fig. 20 and 21, a plurality of charging devices 43 are provided in the charging box group 39, and the cable 37 of each charging device 43 is combined into 1 port and then connected to an external power supply. When the charging lamp 44 is placed on the charging device 43, the charging is conducted, and when the charging lamp 44 is not placed, the exposed charging contact on the shell 32 of the charging device 43 is free of electricity, so that the safety is ensured.

Further, the front cover 1 and the bottom cover 38 are made of an insulating material, and the rear cover 22 and the housing 32 are made of an aluminum alloy material.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Finally, it should be noted that the above-mentioned preferred embodiments of the present invention are provided merely to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The charging lamp comprises a front cover, wherein a conductive contact is arranged on the front cover and is electrically connected with a relay switching module PCB arranged in the charging lamp, the relay switching module PCB is electrically connected with a 24V power supply, the 24V power supply is electrically connected with a charging module PCB13, and the charging module PCB is electrically connected with a charging battery; the conductive contact is used as an external power supply access port, is connected with an external power supply, and converts and stores external electric energy into a rechargeable battery through the relay switching module PCB, the 24V power supply and the charging module PCB to form a first charging loop.

2. The charging lamp of claim 1, wherein the 24V power supply is electrically connected to a power input socket, and the power input socket is connectable to an external power supply; the power input seat 28, the 24V power supply 11, the charging module PCB, and the rechargeable battery form a second charging loop.

3. The charging lamp according to claim 2, wherein: the relay switching module PCB has the functions of automatically identifying the working state of the second charging circuit, disconnecting the first charging circuit when the second charging circuit is in the working state of connection charging, connecting the first charging circuit when the second charging circuit is in connection charging, preventing the conductive contact of the first charging circuit from generating current when the first charging circuit is not charged, and preventing the first charging circuit and the second charging circuit from being in the working state simultaneously.

4. A rechargeable lamp as claimed in claim 3, characterised in that: the rechargeable lamp further comprises a display screen main board module PCB and an LED lamp panel, the rechargeable battery is electrically connected with the display screen main board module PCB, and the display screen main board module PCB is electrically connected with the LED lamp panel.

5. The charging lamp according to any one of claims 1 to 4, wherein: the LED lamp panel comprises a front cover, a rear cover, a lens pressing plate, a toughened glass, a front cover waterproof silica gel, an infrared module PCB, a silica gel pressing plate, a lens pressing plate and a lens, wherein the toughened glass is arranged by pressing the front cover, the front cover waterproof silica gel is pressed by the toughened glass, the other side of the front cover waterproof silica gel is extruded by the silica gel pressing plate, the other side of the silica gel pressing plate is adjacent to the lens pressing plate, the lens pressing plate is coupled with the lens, the lens pressing plate and the lens are correspondingly structurally designed, the lens pressing plate and the lens are closely adjacent to each other, the lens is closely adjacent to the LED lamp panel, the LED lamp panel is conveniently used for gathering light emitted by the LED lamp panel through the lens, the LED lamp panel is closely adjacent to the radiator waterproof silica gel below the radiator, the radiator waterproof silica gel below is closely adjacent to the radiator, the upper surface of the radiator can be, a display screen silica gel pressing plate adjacent to the display screen main board module PCB, a display screen acrylic adjacent to the display screen silica gel pressing plate, a display screen waterproof silica gel adjacent to the display screen acrylic and a rear cover waterproof silica gel adjacent to the display screen waterproof silica gel are fixed between the rear cover and the display screen main board module PCB;

6. The charging lamp according to claim 5, wherein: the wireless transmitter is characterized by further comprising a signal input seat, a wireless transmitter, a signal output seat, a ventilation valve and a power output seat which are connected with the rear cover, wherein the power output seat is electrically connected with the power input seat.

7. Charging device, a serial communication port, which comprises an outer shell, be provided with a plurality of protruding position draw-in grooves and hole on the shell, two charging contact, charging contact one end is worn out from the hole, the other end is fixed relatively by the stationary blade, make charging contact can only be up-and-down motion, charging contact middle part is equipped with the check and keeps off, the check keeps off the below and is equipped with elastic element, can make charging contact reset when the decurrent pressure that charging contact received disappears, be provided with the conducting strip under the charging contact in certain distance department, the cable conductor is connected to the conducting strip electricity, cable conductor and conducting strip setting are on the bottom cover, conducting strip one end perk is flexible, the one end of perk is just to charging contact below, external power source can be connected to.

8. The charging device of claim 7, wherein the charging device is capable of charging the rechargeable lamp of claims 1-6, the male slot is configured to correspond to the female slot of the rechargeable lamp of claim 5, and the male slot and the female slot are capable of automatically positioning and engaging to prevent relative rotation, so that the rechargeable lamp can be stably placed on the charging device for charging, and the charging contact is configured to correspond to the conductive contact of the rechargeable lamp of any one of claims 1-6.

9. A method of charging a rechargeable lamp, comprising:

10. A charging box set, characterized in that a plurality of charging devices as claimed in claim 7 or 8 are provided inside, the cable of each charging device is combined into a port for connecting with an external power source, and each charging device can charge a charging lamp as claimed in claim 1-6.