The present disclosure relates to the field of lamps, in particular to a plug-in lamp.
Bulbs are a source of lighting that emits light and heat with electrical energy, and are invented by Henry Goebbels (Edison actually found right materials, that is, highly practical incandescent lamps were invented, while bulbs appeared as early as 1854). The most common function of bulbs is lighting. With the development of society, the use of bulbs has also undergone different changes. At first, the bulbs may be used to provide convenience for production and life. However, with the progress of society, there have also been obvious changes in the use of bulbs, and functional lamps of different purposes such as “automobiles, landscaping and decoration” have begun to appear.
During the production of existing bulbs, wires need to be connected to a lamp base by welding, and a light-emitting assembly is electrically connected to the lamp base spirally. Such a production process takes a long time and is low in production efficiency. In addition, the process of disassembly, assembly and replacement is also laborious since solder joints are difficult to disassemble during disassembly and assembly. Such a production process not only reduces the production efficiency of bulbs, but also is not conducive to the disassembly, assembly and maintenance of bulbs during later use.
In order to solve the above-mentioned problems, the present disclosure provides a plug-in lamp. The plug-in lamp of the present disclosure is simple and reasonable in structural design. Wires are quickly fixed on the top of a lamp base housing by using a lamp base cover, and electric energy of connecting wires is directly transmitted to a light-emitting LED assembly by means of connecting terminals, which greatly improves the production efficiency, and disassembly and assembly are facilitated at the same time, making it more convenient for people to use, replace and repair later.
In order to achieve the above-mentioned objects, the technical solution adopted in the present disclosure is a plug-in lamp. The plug-in lamp includes a lamp base and a light source assembly. The lamp base includes a lamp base housing and a lamp base cover, where two connecting terminals are arranged in the lamp base housing, a top end of each connecting terminal extends to an upper end of the lamp base housing, the lamp base cover is capped on the top of the lamp base housing, and connecting wires between the lamp base housing and the lamp base cover are contacted with ends of the connecting terminals to realize electrical connection. The light source assembly includes a lamp housing and a light-emitting LED assembly that is located inside the lamp housing. Two ends of the light-emitting LED assembly are respectively connected with plug-in male terminals, where two plug-in holes are defined in a bottom end of the lamp base housing, the bottom end of the lamp base housing is plugged into the lamp base housing, and the plug-in male terminals are respectively plugged into the two plug-in holes to realize electrical connection with the connecting terminals.
Further, the top of the lamp base housing is provided with a fitting part, and fitting holes are defined at four corners of the fitting part, respectively. Pins are arranged at four corners of the bottom of the lamp base cover, and the lamp base cover is clamped in the fitting holes by means of the pins to realize fitting with the lamp base housing.
Further, a positioning block is also protruded from the center of the surface of the fitting part, and the bottom of the lamp base cover is provided with a positioning groove adapted to the positioning block, where the positioning block is plugged into the positioning groove.
Further, front and rear end surfaces of the fitting part are symmetrically provided with two wire clamp notches respectively, where two ends of a same connecting wire are respectively clamped at two wire clamp notches on the same side at the front and rear ends, and an exposed metal part of the same connecting wire is in contact with the connecting terminals. Fastening blocks aligned with the wire clamp notches are protruded from the bottom of the lamp base cover, and the fastening blocks are clamped at the wire clamp notches and restrict the connecting wires within the wire clamp notches.
Further, an isolation block is protruded outwardly from the middle position of the front and rear end surfaces of the fitting part.
Further, two terminal slots that penetrate upper and lower ends of the lamp base housing are defined inside the lamp base housing, and the two plug-in holes are respectively communicated with the terminal slots. The surface of the fitting part is provided with two fitting slots in communication with the terminal slots, and the connecting terminals pass through the fitting slots and the terminal slots in turn to realize fitting with the lamp base housing.
Further, each connecting terminal includes a wire connecting part, a connecting piece and a tubular connecting part which are connected in sequence from top to bottom. The wire connecting portion is of an “M”-shaped structure, both sides of the fitting slots are provided with support protrusions with a shape adapted to that of the wire connecting part, and the support protrusions on both sides are supported on both sides of the bottom of the wire connecting part.
Further, the bottom of the lamp base cover is provided with pressing blocks facing the fitting slots, ends of the pressing blocks are of a convex curved structure, the pressing blocks are fitted in the fitting slots, and the convex curved structure compresses exposed metal parts of the connecting wires closely against the surface of the wire connecting part.
Further, the plug-in holes include first hole sites and second hole sites, which are communicated from top to bottom. The first hole sites are communicated with the terminal slots. The first hole sites are cylindrical holes and the second hole sites are tapered holes. The second hole sites have an aperture decreasing from a direction close to the first hole sites, and a minimum aperture of the second hole sites is consistent with the aperture of the first hole sites.
Further, the lamp housing includes a filament lampshade and a fitting hood that is located at an upper end of the filament lampshade. The light-emitting LED assembly is arranged inside the filament lampshade, and clamp holes are defined on both sides of the fitting hood. Bumps are arranged on both sides of the bottom of the lamp base housing, and the bumps are clamped in corresponding clamp holes.
Further, the light-emitting LED assembly includes a first current limit resistor R1, a second current limit resistor R2, a first rectifier diode D1, a second rectifier diode D2, a third rectifier diode D3, a fourth rectifier diode D4, a fifth light-emitting diode D5, a sixth light-emitting diode D6 and a seventh light-emitting diode D7. The first rectifier diode D1, the second rectifier diode D2, the third rectifier diode D3 and the fourth rectifier diode D4 constitute a rectifier bridge, and the rectifier bridge is provided with a direct-current positive output terminal, a direct-current negative output terminal, a power input terminal L and a power input terminal N. One of the plug-in male terminals is connected to the power input terminal L by means of the first current limit resistor R1, and the other plug-in male terminal is connected to the power input terminal N by means of the second current limit resistor R2, The direct-current positive output terminal is connected to a positive electrode of the fifth light-emitting diode D5, a negative electrode of the fifth light-emitting diode D5 is connected to a positive electrode of the sixth light-emitting diode D6, a negative electrode of the sixth light-emitting diode D6 is connected to a positive electrode of the seventh light-emitting diode D7, and a negative electrode of the seventh light-emitting diode D7 is connected to the direct-current negative output terminal.
The present disclosure has the following beneficial effects. In the present application, connecting wires are processed first (part of an insulating layer is peeled off to expose conducive metal parts), and the exposed metal parts of the connecting wires are placed above connecting terminals, where a lamp base cover is capped on the top of a lamp base housing, the connecting wires between the lamp base housing and the lamp base cover are contacted with ends of the connecting terminals to realize electrical connection, and a light-emitting LED assembly is plugged into plug-in holes by means of plug-in male terminals at both ends to realize electrical connection with the connecting terminals. The plug-in lamp of the present disclosure is simple and reasonable in structural design. Wires are quickly fixed on the top of the lamp base housing by using the lamp base cover, and electric energy of the connecting wires is directly transmitted to the light-emitting LED assembly by means of the connecting terminals, which greatly improves the production efficiency, and disassembly and assembly are facilitated at the same time, making it more convenient for people to use, replace and repair later.
Reference numerals: 1, Lamp Base Cover; 11, Pin; 12, Fastening Block; 13, Pressing Block; 131, Convex Curved Structure; 14, Positioning Groove; 2, Connecting Wire; 21, Metal Part; 3, Lamp Base Housing; 30, Fitting Part; 31, Fitting Hole; 32, Wire Clamp Notch; 33, Isolation Block; 34, Fitting Slot; 341, Support Protrusion; 35, Positioning Block; 36, Bump; 37, First Hole Site; 38, Second Hole Site; 39, Terminal Slot; 4, Lamp Housing; 41, Clamp Hole; 5, Connecting Terminal; 51, Wire Connecting Part; 52, Connecting Piece; 53, Tubular Connecting Part; and 61, Plug-in Male Terminal.
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In order to further stabilize the connection between the lamp base housing 3 and the lamp base cover 1, in the present specific embodiment, fitting is carried out using pins 11 and the fitting holes 31. Ends of the pins 11 are of a barb structure, which may adhere to the bottom of the fitting part 30, so as to play a role in preventing falling off. If it is necessary to separate the stable lamp base housing 3 from the lamp base cover 1, it is only necessary to push the pins 11 towards an orifice of the fitting holes 31 to allow the barb structure to return to the orifice of the fitting holes 31, and then pull out the pins 11.
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In this embodiment, the support protrusions 341 on both sides are supported on both sides of the bottom of the wire connecting part 51, so that the connecting terminals 5 can be prevented from falling into the terminal slots 39, and at the same time, the wire connecting part 51 can be located in the fitting slots 34 and in contact with the connecting wires 2. In addition, in this embodiment, ends of the pressing blocks 13 are of a convex curved structure 131, the pressing blocks 13 are fitted in the fitting slots 34, and the convex curved structure 131 compresses the exposed metal parts 21 of the connecting wires 2 closely against the surface of the wire connecting part 51 (the exposed metal parts 21 becomes an M-shaped structure under the extrusion of the convex curved structure 131), so that the contact area between the exposed metal parts 21 of the connecting wires 2 and the wire connecting part can be increased to ensure power transmission.
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Meanwhile, in the present application, the light-emitting LED assembly includes a first current limit resistor R1, a second current limit resistor R2, a first rectifier diode D1, a second rectifier diode D2, a third rectifier diode D3, a fourth rectifier diode D4, a fifth light-emitting diode D5, a sixth light-emitting diode D6 and a seventh light-emitting diode D7. The first rectifier diode D1, the second rectifier diode D2, the third rectifier diode D3 and the fourth rectifier diode D4 constitute a rectifier bridge. The rectifier bridge is provided with a direct-current positive output terminal, a direct-current negative output terminal, a power input terminal L and a power input terminal N. One of the plug-in male terminals 61 is connected to the power input terminal L by means of the first current limit resistor R1, and the other plug-in male terminal 61 is connected to the power input terminal N by means of the second current limit resistor R2. The direct-current positive output terminal is connected to a positive electrode of the fifth light-emitting diode D5, a negative electrode of the fifth light-emitting diode D5 is connected to a positive electrode of the sixth light-emitting diode D6, a negative electrode of the sixth light-emitting diode D6 is connected to a positive electrode of the seventh light-emitting diode D7, and a negative electrode of the seventh light-emitting diode D7 is connected to the direct-current negative output terminal. The first rectifier diode D1, the second rectifier diode D2, the third rectifier diode D3 and the fourth rectifier diode D4 constitute a rectifier bridge and convert, alternating current to direct current. At the same time, the plug-in male terminal 61 at one end is connected to the rectifier bridge by means of the current limit resistor R1, the other end of the rectifier bridge is connected to the other plug-in male terminal 61 by means of the current limit resistor R2, and the light-emitting diode D5, the light-emitting diode D6 and the light-emitting diode D7 are connected in series and arranged inside the rectifier bridge. Specific circuit connection structures may refer to
The above-mentioned embodiments are only to describe the preferred embodiments of the present disclosure, and are not intended to limit the scope of the present disclosure. Various modifications and improvements made to the technical solutions of the present disclosure by those having ordinary skill in the art without departing from the design spirit of the present disclosure should fall within the scope of protection defined by the claims of the present disclosure.
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6074073 | Huang | Jun 2000 | A |
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6305828 | Huang | Oct 2001 | B1 |
6328593 | Chang | Dec 2001 | B1 |
10718504 | Liang | Jul 2020 | B1 |
10900656 | Wang | Jan 2021 | B1 |
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20170159922 | Chen | Jun 2017 | A1 |
Number | Date | Country | |
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20220373169 A1 | Nov 2022 | US |