CN111614231B - Networking lamp and lamp networking system - Google Patents

Abstract

The application discloses a networking lamp and a lamp networking system, wherein the lamp comprises a power adapter, a load unit and a connecting line; the connecting line comprises an AC input end and at least two AC output ends; the power adapter comprises a conversion control board, at least one AC input interface, at least one DC output interface and at least two AC output interfaces; the conversion control board is used for converting the AC voltage into DC voltage; the AC input end is connected with the AC input interface, the DC output interface is connected with the load unit, and the two AC output interfaces are respectively connected with the two AC output ends which are mutually connected in parallel. The lamp can be quickly and simply combined, wire arrangement and use are reduced, the light utilization efficiency is improved, cost investment and light shielding are reduced, economic benefit is improved, and potential safety hazards caused by complicated circuits are reduced.

Description

Networking lamp and lamp networking system

Technical Field

The invention relates to the field of lamps, in particular to a networking lamp and a lamp networking system.

Background

The scheme of the current lamp arrangement basically adopts a multi-way power line to connect lamps in a serial and parallel mode, or each lamp is connected by a single pull line. When the lamp is dimmed and adopts a wired regulation mode, the problems of complex on-site wiring, messy and staggered wires, inconvenient installation and disassembly and the like are easily caused due to the fact that various connecting wires are numerous, and meanwhile, the irradiation area of the lamp can be shielded to a certain extent, so that the light waste is increased, the attractiveness is also influenced, and potential safety hazards exist.

Disclosure of Invention

Therefore, it is necessary to provide a lamp and a lamp networking system capable of networking, so as to solve the problems of complex connection line and potential safety hazard easily caused between the existing lamps.

In order to achieve the above purpose, the invention provides a networking lamp, which comprises a power adapter, a load unit and a connecting line;

the connecting line comprises an AC input end and at least two AC output ends;

The power adapter comprises a conversion control board, at least one AC input interface, at least one DC output interface and at least two AC output interfaces; the conversion control board is used for converting the AC voltage into DC voltage;

The AC input end is connected with the AC input interface, the DC output interface is connected with the load unit, and the two AC output interfaces are respectively connected with the two AC output ends which are mutually connected in parallel.

As an alternative embodiment, the device comprises a lamp body, the power adapter and the load unit are arranged in the lamp body, and the AC input end and the at least two AC output ends extend out of the lamp body.

As an optional embodiment, a control switch for controlling the load unit to be turned on or off is further provided on the lamp body.

As an alternative embodiment, the load unit is a light emitting diode.

As an alternative embodiment, the input voltage of the AC input is the same as the output voltages of the two AC outputs.

As an alternative embodiment, a safety device is also arranged between the AC input and the two AC outputs, respectively.

The inventor also provides a lamp networking system comprising at least three networkable luminaires as described above, wherein two AC outputs of one networkable luminaire are respectively connected to AC inputs of two other networkable luminaires.

As an alternative embodiment, the lamp networking system includes N groups of a plurality of networking lamps arranged transversely and M groups of networking lamps arranged longitudinally, where an AC input end of each networking lamp is connected to an AC output end of an adjacent networking lamp, and two AC output ends of each networking lamp are respectively connected to AC input ends of two adjacent networking lamps.

Different from the prior art, the networking lamp and the lamp networking system provided by the technical scheme comprise a power adapter, a load unit and a connecting circuit; the connecting line comprises an AC input end and at least two AC output ends; the power adapter comprises a conversion control board, at least one AC input interface, at least one DC output interface and at least two AC output interfaces; the conversion control board is used for converting the AC voltage into DC voltage; the AC input end is connected with the AC input interface, the DC output interface is connected with the load unit, and the two AC output interfaces are respectively connected with the two AC output ends which are mutually connected in parallel. The lamp networking system comprises at least three networking lamps as described above, wherein two AC output ends of one networking lamp are respectively connected with AC input ends of the other two networking lamps.

Through the scheme, the lamps can be quickly and simply combined, wire arrangement and use are reduced, the light utilization efficiency is improved, cost investment and light shielding are reduced, economic benefit is improved, and potential safety hazards caused by complicated circuits are reduced.

Drawings

Fig. 1 is a schematic circuit diagram of a networking lamp according to an embodiment of the present invention;

Fig. 2 is a schematic circuit diagram of a lamp networking system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a networkable lamp according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a networkable lamp according to another embodiment of the present invention;

FIG. 5 is a schematic diagram of a lamp networking system according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a lamp networking system according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a power adapter according to an embodiment of the present invention.

Reference numerals:

1. A lamp;

11. An AC input;

12. An AC output; 121. a first AC output; 122. a second AC output;

13. A lamp body;

2. A power adapter; 21. an AC input interface; 22. a DC output interface; 23. a first AC output interface; 24. a second AC output interface; 25. a transfer control board;

3. a main AC input line.

Detailed Description

In order to describe the technical content, constructional features, achieved objects and effects of the technical solution in detail, the following description is made in connection with the specific embodiments in conjunction with the accompanying drawings.

The invention can realize simpler connection of a plurality of lamps, simultaneously meets the requirements of different installation distances among different lamps, and realizes interconnection of regional lamps under the condition of not using a multi-pass line and a plurality of input lines.

As shown in fig. 3 and 7, the present invention provides a networkable lamp 1, which includes a power adapter, a load unit and a connection line;

The connection comprises one AC input 11 and at least two AC outputs. Taking fig. 3 and 4 as an example, the AC output 12 includes a first AC output 121 and a second AC output 122.

The power adapter 2 comprises a conversion control board 25, at least one AC input interface 21, at least one DC output interface 22 and at least two AC output interfaces; the conversion control board is used for converting the AC voltage into the DC voltage. Preferably, in the present embodiment, the number of AC output interfaces is two, and as in fig. 7, the AC output interfaces may include a first AC output interface 23 and a second AC output interface 24.

The AC input 11 is connected to the AC input interface 21 and the DC output interface 22 is connected to a load unit. The two AC output interfaces are respectively connected with two AC output ends which are mutually connected in parallel, and specifically comprise: the first AC output interface 23 is connected to a first AC output 121 and the second AC output interface 24 is connected to a second AC output 122.

In the practical application process, the AC input end of the power adapter is connected with the zero line and the live line, and the alternating current is converted into direct current through the power adapter, so that power supply to a load unit inside the lamp is realized. Meanwhile, the AC input end is divided into two after passing through the power adapter to form two other groups of AC output ends, and the two AC output ends are respectively connected with the AC input ends of the other two lamps connected with the current lamp, so that the AC input driving of the other two lamps is realized. Through the scheme, the lamps can be quickly and simply combined, wire arrangement and use are reduced, the light utilization efficiency is improved, cost investment and light shielding are reduced, economic benefit is improved, and potential safety hazards caused by complicated circuits are reduced.

In some embodiments, the device comprises a lamp body 13, the power adapter and the load unit are arranged in the lamp body, and the AC input end and the at least two AC output ends extend out of the lamp body. Therefore, all the connection on the circuits is completed in the lamp body, only the AC input end and the two AC output ends are reserved outside the lamp body, and a user only needs to connect the AC input ends and the AC output ends between different lamps, so that the interconnection operation between the lamps can be completed, the occupied space of wire arrangement is greatly reduced, and potential safety hazards possibly caused by a plurality of circuits are greatly reduced.

As shown in fig. 4, in the working process of the lamp 1, the AC input end 11 of the lamp 1 is connected with a main AC input line, a power adapter (shown in fig. 4) is disposed in the lamp body 13, the AC input end 11 is connected with the AC input interface of the power adapter in the lamp body, and is divided into two paths of outputs after passing through the power adapter, so as to form a first AC output end 121 and a second AC output end 122, and the first AC output end 121 and the second AC output end 122 are both electrified because the current lamp is in a working state, and the first AC output end 121 and the second AC output end are respectively connected with the AC input ends of the other two lamps, so that power supply of the other two lamps is realized. Through the arrangement mode, networking power supply of a plurality of lamps can be realized by only one main AC input line, and the complexity of networking wiring of the lamps is reduced.

In some embodiments, a control switch for controlling the load unit to be turned on or off is further provided on the lamp body. Preferably, the load unit is a light emitting diode, i.e. an LED module. Of course, the load unit may also be other light emitting elements. The switching on or off of the load unit can be realized rapidly through the control switch, and the conversion control board of the power adapter can convert the AC voltage into the DC voltage only when the load unit is in a working state, so as to supply power for the load unit.

In some embodiments, the input voltage at the AC input is the same as the output voltage at both AC outputs. The AC input voltage is the same as the AC output voltage, so that the voltage stability of each lamp during working can be ensured, and networking connection among lamps is facilitated.

In some embodiments, a safety device is also provided between the AC input and the two AC outputs, respectively. The safety device can ensure the safety of lamp operation, when the circuit fails, such as the overlarge alternating current, the fuse in the safety device can be fused, the power supply cooperation between the lamps is disconnected, and the overall safety of the lamp networking system is ensured.

As shown in fig. 5, the present invention further provides a lamp networking system, where the lamp networking system includes at least three networkable lamps as described above, and two AC output terminals of one networkable lamp are respectively connected to AC input terminals of two other networkable lamps.

When a plurality of lamps need to be connected in series, the AC output end of one lamp can be directly connected with the AC input end of the second lamp to supply power to the second lamp. Each lamp may also have 2 AC outputs, so that 2 lamps may be connected in series down. As shown in fig. 5, the AC input end of the lamp one at the upper left is connected to the main AC input line, and the two AC output ends of the lamp one are connected to the AC input ends of the lamp two at the upper right and the lamp three at the lower left respectively.

As shown in fig. 6, the lamp networking system includes N groups of networking lamps arranged transversely and M groups of networking lamps arranged longitudinally, wherein an AC input end of each networking lamp is connected with an AC output end of an adjacent networking lamp, and two AC output ends of each networking lamp are respectively connected with AC input ends of two adjacent networking lamps.

In fig. 6, each lamp has 2 AC output terminals, and the next lamp connected in series with each lamp can be arranged transversely or longitudinally, so that when a plurality of lamps are connected in series, the array arrangement and the multi-layer arrangement of the lamps can be realized. Each lamp may have an AC output. One lamp can supply power for the next lamp connected with the lamp after being electrified. In the practical application process, the multi-lamp ad hoc network function can be realized by only setting one main AC input line.

Fig. 1 is a schematic circuit diagram of a networking lamp according to an embodiment of the invention. In fig. 1, "Power" represents a Power adapter, L represents a live wire, N represents a zero wire, and one side of the Power adapter is connected to an AC input terminal, and the other side of the Power adapter is connected to an AC input terminal of the Power adapter corresponding to the next lamp through an AC output terminal.

Fig. 2 is a schematic circuit diagram of a lamp networking structure according to an embodiment of the invention. After the power supply is connected with the lamp body, an AC input line is reserved in the lamp body, the AC input line of the next lamp runs in the lamp body of the last lamp, the corresponding lamp body extends out of the AC output end of the last lamp, the mutual networking among the lamps can be realized only by connecting the AC input end of the last lamp with the AC input end extending out of the last lamp, the whole networking connection does not need an external additional auxiliary line, and the networking efficiency is improved.

The application realizes simplified connection of lamp interconnection, the lamp body of the lamp is internally provided with a connecting circuit of the next group of lamps, the lamps are respectively provided with an input interface and an output interface, and the lamps can be interconnected by matching a connecting wire according to the installation distance of the lamps. In the practical application process, the single-layer light distribution connection can be realized, and the light distribution connection between layers can be realized. The application can complete networking through the interconnection between lamps without additionally arranging a multi-pass wire or an independent pull wire, and can work only by one total input in the use process, and meanwhile, the drive connection circuit ensures that the lamps can not be mutually influenced. The total input wires with corresponding specification sizes can be selected according to the total number of the interconnected lamps, and extra wires are not used, so that the on-site wiring condition is simplified. Meanwhile, stable light output and light adjustment of the lamp can be provided through simple interconnection between the lamps, so that the on-site operation and maintenance are convenient, and the use of a large number of wires is reduced. Meanwhile, the high-precision tip technology is not used, the cost is low and controllable, and the economic benefit is obvious.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the statement "comprising … …" or "comprising … …" does not exclude the presence of additional elements in a process, method, article, or terminal device that includes the element. Further, herein, "greater than," "less than," "exceeding," and the like are understood to not include the present number; "above", "below", "within" and the like are understood to include this number.

While the embodiments have been described above, other variations and modifications will occur to those skilled in the art once the basic inventive concepts are known, and it is therefore intended that the foregoing description and drawings illustrate only embodiments of the invention and not limit the scope of the invention, and it is therefore intended that the invention not be limited to the specific embodiments described, but that the invention may be practiced with their equivalent structures or with their equivalent processes or with their use directly or indirectly in other related fields.

Claims (5)

1. The networking lamp is characterized by comprising a power adapter, a load unit and a connecting circuit;

the connecting line comprises an AC input end and at least two AC output ends;

The power adapter comprises at least one AC input interface, at least one DC output interface, at least two AC output interfaces and a conversion control board; the conversion control board is used for converting the AC voltage into DC voltage;

The AC input end is connected with the AC input interface, the DC output interface is connected with the load unit, and the two AC output interfaces are respectively connected with the two AC output ends which are mutually connected in parallel;

The device comprises a lamp body, wherein the power adapter and the load unit are arranged in the lamp body, and the AC input end and at least two AC output ends extend out of the lamp body;

the lamp body is also provided with a control switch for controlling the load unit to be turned on or off;

The input voltage at the AC input is the same as the output voltage at both AC outputs.

2. The netable luminaire of claim 1, wherein the load unit is a light emitting diode.

3. The networkable luminaire of claim 1, wherein a safety device is also provided between the AC input and AC output, respectively.

4. A lamp networking system, characterized in that it comprises at least three networkable luminaires according to any one of claims 1 to 3, wherein two AC outputs of one networkable luminaire are connected to AC inputs of two other networkable luminaires, respectively.

5. The lamp networking system is characterized by comprising N groups of networking lamps which are transversely arranged and M groups of networking lamps which are longitudinally arranged, wherein the AC input end of each networking lamp is connected with the AC output end of an adjacent networking lamp, and the two AC output ends of each networking lamp are respectively connected with the AC input ends of the adjacent networking lamps; a networkable luminaire as claimed in any one of claims 1 to 3.