CN107842727B - Microwave induction LED bulb - Google Patents

Abstract

The invention relates to a microwave induction LED bulb which comprises a lamp cap, a shell connected with the lamp cap, a driving power panel positioned in the shell, a wireless control module connected with the driving power panel, an LED lamp panel positioned on the shell and a lampshade connected with the shell, wherein the shell is connected with the lamp cap; the LED lamp panel comprises a substrate and a lamp bead positioned on the substrate, wherein a mounting hole is formed in the substrate, and the shape and the size of the mounting hole are matched with those of the wireless control module; the driving power supply board comprises a fixing hole and an electrode area positioned around the fixing hole; the wireless control module comprises pins and a conducting layer, and the conducting layer is matched with the number, size and position of the electrode areas. The microwave induction LED bulb provided by the invention is convenient and quick to install, is convenient for mechanical production, has high production efficiency and saves production cost compared with the traditional method that a driving power panel and a wireless control module need to be manually welded.

Description

Microwave induction LED bulb

Technical Field

The invention relates to the technical field of illumination, in particular to a microwave induction LED bulb.

Background

The LED light bulb is widely used due to its unique advantages, and the current commonly used LED light bulbs control the on-off state of the LED light bulb through a switch, however, for some public places, it is very inconvenient to control the on-off state thereof through a switch, and thus a microwave induction light bulb has been proposed.

The wireless control module of microwave response bulb on the existing market all sets up in the lamp plate bottom, and the lamp plate adopts aluminium base board to support usually, and during wireless control module transmission and received signal, need pierce through aluminium base board and just can realize the conveying of signal, and signal transmission's the degree of difficulty is big, and is unstable, has brought a great deal of inconvenient part for the use of bulb, consequently, is necessary to propose the stable LED bulb of signal transmission, solves above problem.

The invention provides a microwave induction LED bulb, a wireless control module is exposed out of a lamp panel, signal transmission is stable, and assembly is convenient.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a microwave induction LED bulb, wherein a wireless control module is exposed out of a lamp panel, the signal transmission is stable, and the assembly is convenient.

In order to solve the technical problem, the invention provides a microwave induction LED bulb which comprises a lamp cap, a shell connected with the lamp cap, a driving power panel positioned inside the shell, a wireless control module connected with the driving power panel, an LED lamp panel positioned on the shell and a lampshade connected with the shell, wherein the shell is provided with a plurality of LED lamp panels;

the LED lamp panel comprises a substrate and a lamp bead positioned on the substrate, wherein a mounting hole is formed in the substrate, and the shape and the size of the mounting hole are matched with those of the wireless control module;

the driving power supply board comprises a fixing hole and an electrode area positioned around the fixing hole; the wireless control module comprises pins and a conducting layer, and the conducting layer is matched with the number, size and position of the electrode areas.

Preferably, the fixing hole is a through hole arranged on the driving power supply board and is in a strip shape.

Preferably, a circuit is arranged on the driving power supply board, and the electrode area is electrically connected with the circuit arranged on the driving power supply board and is positioned on two sides of the strip-shaped fixing hole.

Preferably, a circuit is disposed on the wireless control module, and the conductive layer is electrically connected to an upper circuit of the wireless control module.

Preferably, the shape and size of the pin are matched with those of the fixing hole, and the pin extends into the fixing hole.

Preferably, the number of the pins is at least two, a gap is arranged between every two adjacent pins, and the conductive layer is located in the gap between every two adjacent pins.

Preferably, the conductive layer is a metal layer disposed inside a gap between adjacent pins.

Preferably, the conductive layer and the electrode region are soldered by a conductive material.

Preferably, the mounting hole is a through hole located on the substrate, and the wireless control module is exposed outside the LED lamp panel.

Preferably, a clamping position is arranged in the inner cavity of the shell, the shape and the size of the clamping position are matched with those of the driving power supply board, and the driving power supply board is embedded into the clamping position.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the microwave induction LED bulb, when the driving power panel and the wireless control module are connected, the pins are inserted into the fixing holes, the conducting layer is matched with the electrode area, and then the conducting layer and the electrode area are welded together through welding conducting materials, so that the driving power panel and the wireless control module are fixedly connected and electrically connected, the microwave induction LED bulb is convenient and quick to install and convenient to mechanically produce, and compared with the traditional method that the driving power panel and the wireless control module need to be welded manually, the microwave induction LED bulb is high in production efficiency and saves production cost.

2. According to the microwave induction LED bulb, the wireless control module is exposed outside the LED lamp panel, namely, the wireless control module only needs to penetrate through the lampshade to transmit and receive signals, the lampshade provided by the invention does not weaken the transmitting and receiving signals of the wireless control module, the base plate does not need to penetrate through, the stability of the transmitting and receiving signals of the wireless control module is ensured, and therefore the wireless control module can more sensitively control the on-off state of the LED lamp panel.

Drawings

FIG. 1 is an exploded view of a microwave-responsive LED bulb provided in accordance with the present invention;

FIG. 2 is a schematic structural view of a microwave-sensitive LED bulb provided by the present invention;

FIG. 3 is a schematic structural diagram of an outer shell of a microwave induction LED bulb provided by the present invention;

fig. 4 is a schematic structural view of a driving power board of the microwave induction LED bulb provided by the present invention;

fig. 5 is a schematic structural diagram of a wireless control module of the microwave induction LED bulb provided by the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1-5, a microwave induction LED bulb includes a lamp holder 1, a housing 2 connected to the lamp holder 1, a driving power board 3 located inside the housing 2, a wireless control module 4 connected to the driving power board 3, an LED lamp panel 5 located on the housing 2, and a lamp shade 6 connected to the housing 2;

the LED lamp panel 5 comprises a substrate 51 and a lamp bead 52 positioned on the substrate 51, wherein a mounting hole 511 is formed in the substrate 51, and the shape and the size of the mounting hole 511 are matched with those of the wireless control module 4;

the driving power panel 3 comprises a fixing hole 31 and an electrode area 32 positioned around the fixing hole 31; the wireless control module 4 comprises pins 41 and a conductive layer 42, the conductive layer 42 matching the number, size and position of the electrode areas 32.

The lamp holder 1 is used for realizing mechanical connection and electrical connection of the microwave induction LED bulb, can be a screw lamp holder and can also be a bayonet lamp holder, and different types of lamp holders are selected according to actual requirements.

The shell 2 with lamp holder 1 is connected for the protection and installation are located its inside drive power supply board 3, wireless control module 4 and LED lamp plate 5, for the convenience of drive power supply board 3's is fixed, be provided with screens 21 in the 2 inner chambers of shell, the shape and the size of screens 21 with the terminal shape of drive power supply board 3 and size phase-match, during the installation, the embedding of drive power supply board 3 inside the screens 21, realized the fixed mounting of drive power supply board 3.

The driving power supply board 3 is used for ensuring the LED lamp panel 5 reaches the wireless control module 4 normally works, and its part is embedded inside the screens 21, and quilt the screens 21 is fixed, its with 1 electricity connection of lamp holder is convenient for realize the electricity between driving power supply board 3 and the external power source is connected, be provided with the circuit on the driving power supply board 3, it includes fixed orifices 31 and is located electrode region 32 around the fixed orifices 31, fixed orifices 31 is for setting up in the through-hole on the driving power supply board 3, be used for realizing the driving power supply board 3 with the fixed connection of wireless control module 4, fixed orifices 31 are bar, circular or other regular or irregular shapes, in this embodiment, fixed orifices 31 is the bar.

The electrode regions 32 are metal layers located on the driving power panel 3, electrically connected with circuits arranged on the driving power panel 3, and arranged around the fixing holes 31, in this embodiment, the fixing holes 31 are strip-shaped, and the electrode regions 32 are located on two sides of the strip-shaped fixing holes, so that the driving power panel 3 is electrically connected with the wireless control module 4.

The wireless control module 4 controls the on-off state of the LED lamp panel 5 through transmitting and receiving signals, is mechanically and electrically connected with the driving power panel 3, and is internally provided with a circuit; specifically, the wireless control module 4 includes pins 41 and a conductive layer 42, the shape and size of the pins 41 match with the shape and size of the fixing holes 31, the pins extend into the fixing holes 31, and the fixing connection between the wireless control module 4 and the driving power supply board 3 is realized by welding, the number of the pins 41 is one or more, in this embodiment, the number of the pins 41 is at least two, and a gap is provided between adjacent pins 41.

The conductive layer 42 is located in the gap between two adjacent pins 41 and electrically connected to the internal circuit of the wireless control module 4, and the number, size and position of the conductive layer 42 and the electrode regions 32 are matched, so that the conductive layer is convenient to solder and realizes electrical connection and fixed connection. In this embodiment, the conductive layer 42 is a metal layer disposed in the gap between the adjacent pins 41, so as to electrically connect the wireless control module.

When the microwave induction LED bulb is connected with the driving power panel 3 and the wireless control module 4, the pins 41 are inserted into the fixing holes 31, the conducting layer 42 is matched with the electrode area 32, and then the conducting layer 42 is welded with the electrode area 32 by welding conducting materials, so that the driving power panel 3 and the wireless control module 4 are fixedly connected and electrically connected.

The LED lamp panel 5 is located in the housing 2 and comprises a substrate 51 and a lamp bead 52 located on the substrate 51, wherein a mounting hole 511 is formed in the substrate 51, the shape and the size of the mounting hole 511 are matched with those of the wireless control module 4, the mounting hole 511 is a through hole located on the substrate 51, so that the wireless control module 4 is exposed outside the LED lamp panel 5, namely, the wireless control module 4 only needs to penetrate through the lampshade 6 for transmitting and receiving signals, the lampshade 6 provided by the invention does not weaken the transmitting and receiving signals of the wireless control module 4 and does not need to penetrate through the substrate 51, the stability of the transmitting and receiving signals of the wireless control module 4 is ensured, and the on-off state of the LED lamp panel 5 controlled by the wireless control module 4 is more sensitive.

The lamp shade 6 with shell 2 is connected, and it is PC cover or other lamp shades to cover LED lamp plate 5 reaches wireless control module 4 is used for the protection LED lamp plate 5 and wireless control module 4, and will the light transmission that LED lamp plate 5 sent goes out, realizes the function of illumination.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the microwave induction LED bulb, when the driving power panel and the wireless control module are connected, the pins are inserted into the fixing holes, the conducting layer is matched with the electrode area, and then the conducting layer and the electrode area are welded together through welding conducting materials, so that the driving power panel and the wireless control module are fixedly connected and electrically connected, the microwave induction LED bulb is convenient and quick to install and convenient to mechanically produce, and compared with the traditional method that the driving power panel and the wireless control module need to be welded manually, the microwave induction LED bulb is high in production efficiency and saves production cost.

2. According to the microwave induction LED bulb, the wireless control module is exposed outside the LED lamp panel, namely, the wireless control module only needs to penetrate through the lampshade to transmit and receive signals, the lampshade provided by the invention does not weaken the transmitting and receiving signals of the wireless control module, the base plate does not need to penetrate through, the stability of the transmitting and receiving signals of the wireless control module is ensured, and therefore the wireless control module can more sensitively control the on-off state of the LED lamp panel.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (7)

1. A microwave induction LED bulb is characterized by comprising a lamp holder, a shell connected with the lamp holder, a driving power panel positioned in the shell, a wireless control module connected with the driving power panel, an LED lamp panel positioned on the shell and a lampshade connected with the shell;

the LED lamp panel comprises a substrate and a lamp bead positioned on the substrate, wherein a mounting hole is formed in the substrate, and the shape and the size of the mounting hole are matched with those of the wireless control module;

the driving power supply board comprises a fixing hole and an electrode area positioned around the fixing hole; the wireless control module comprises pins and a conducting layer, and the conducting layer is matched with the electrode area in number, size and position;

the shape and the size of the pin are matched with those of the fixing hole and extend into the fixing hole;

the conducting layer is welded with the electrode area through conducting materials;

the shell is characterized in that a clamping position is arranged in the inner cavity of the shell, the shape and the size of the clamping position are matched with those of the driving power panel, and the driving power panel is embedded into the clamping position.

2. The microwave induction LED bulb according to claim 1, wherein the fixing hole is a through hole provided on the driving power board, and has a bar shape.

3. The microwave induction LED bulb as claimed in claim 2, wherein the driving power board is provided with a circuit, and the electrode regions are electrically connected to the circuit provided on the driving power board and located at both sides of the bar-shaped fixing holes.

4. The microwave induction LED bulb of claim 1 wherein the wireless control module has circuitry disposed thereon, the conductive layer being electrically connected to the upper circuitry of the wireless control module.

5. The microwave induction LED bulb of claim 1, wherein the number of the pins is at least two, a gap is disposed between adjacent pins, and the conductive layer is located inside the gap between adjacent two of the pins.

6. The microwave induction LED bulb of claim 5, wherein the conductive layer is a metal layer disposed within a gap between adjacent ones of the leads.

7. The microwave induction LED bulb of claim 1, wherein the mounting hole is a through hole located on the substrate, and the wireless control module is exposed outside the LED lamp panel.

Images