CN212162154U - Branching device of lighting equipment - Google Patents

Abstract

The application provides a lighting apparatus's separated time device, including the casing be provided with a plurality of power separated time sockets and a plurality of signal separated time sockets on the casing side by side be provided with power input socket and signal input socket on the lateral wall of casing, power input socket through the mode of establishing ties respectively with every power separated time socket connects gradually, signal input socket through the mode of establishing ties respectively with every signal separated time socket connects gradually. The application realizes the branching function of the power supply and the signal source, greatly reduces the quantity, installation workload and space occupation of the power lines and the signal lines, reduces the cost of the lighting equipment, simplifies the circuit structure of the power supply and improves the safety factor of the engineering.

Description

Branching device of lighting equipment

Technical Field

The application relates to the technical field of electric appliances and communication, in particular to a wire distributing device of lighting equipment.

Background

At the performance site of a large-scale cultural entertainment place, a large amount of lighting equipment is often needed to ensure the lighting effect of the performance site, and the large amount of lighting equipment needs to perform a large amount of wiring work and laying work at the performance site.

SUMMERY OF THE UTILITY MODEL

The application aims to overcome the defects of the prior art and provide a wire distributing device of a lighting device.

In order to achieve the purpose, the following technical scheme is adopted in the application:

the utility model provides a separated time device of lighting apparatus, includes the casing be provided with a plurality of power separated time sockets and a plurality of signal separated time sockets on the casing side by side be provided with power input socket and signal input socket on the lateral wall of casing, power input socket passes through the mode of establishing ties respectively with every power separated time socket connects gradually, signal input socket pass through the mode of establishing ties respectively with every signal separated time socket connects gradually.

Optionally, each power distribution socket is arranged opposite to one signal distribution socket.

Optionally, the power distribution socket includes a power distribution socket and a protective cover, and the power distribution socket is arranged inside the protective cover, so as to be closed or exposed under the action of the protective cover;

the power input socket comprises a power input socket and a protective cover, wherein the power input socket is arranged in the protective cover, so that the protective cover is closed or exposed under the action of the protective cover.

Optionally, the signal distributing socket includes a signal distributing jack and a protective cover, and the signal distributing jack is arranged inside the protective cover, so as to be closed or exposed under the action of the protective cover;

the signal input socket comprises a signal input plug and a protective cover, wherein the signal input plug is arranged in the protective cover, so that the signal input plug is closed or exposed under the action of the protective cover.

Optionally, the protective cover includes a base and an upper cover, the base is installed on the housing and forms an opening structure, the upper cover is pivoted with the side wall of the base, and the upper cover is rotated relatively between the base to close or expose the opening structure.

Optionally, the branching device further includes a ground wire branching, a live wire branching and a zero line branching, a ground wire socket corresponding to the power input socket is connected to one end of the ground wire branching, and the other end of the ground wire branching is connected to a ground wire socket corresponding to each power branching socket in sequence;

the live wire socket corresponding to the power input socket is connected with one end of the live wire branching, and the other end of the live wire branching is sequentially connected with the live wire socket corresponding to each power branching socket;

and the other end of the zero line branching wire is connected with each zero line socket corresponding to the power supply branching wire socket in sequence.

Optionally, the branching device further includes a first signal branching unit, a second signal branching unit, and a third signal branching unit, where a first signal plug corresponding to the signal input plug is connected to one end of the first signal branching unit, and the other end of the first signal branching unit is sequentially connected to a first signal plug corresponding to each signal branching jack;

a second signal plug corresponding to the signal input plug is connected with one end of the second signal branching line, and the other end of the second signal branching line is sequentially connected with a second signal plug corresponding to each signal branching socket;

and a third signal plug corresponding to the signal input plug is connected with one end of a third signal branching line, and the other end of the third signal branching line is sequentially connected with a third signal plug corresponding to each signal branching socket.

This application forms a socket series connection group through the mode of establishing ties with a plurality of power separated time sockets and a plurality of signal separated time sockets to make through power input socket and signal input socket the socket series connection group is only through a power plug line or signal jack line, just can make whole power separated time sockets or signal separated time sockets access power or signal source, has realized the separated time function of power and signal source, and the quantity, the installation work volume and the space of very big reduction power cord and signal line occupy, have reduced lighting apparatus's cost and have simplified the power supply circuit structure and have improved the factor of safety of engineering.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic diagram of the overall structure from another perspective of an embodiment of the present application;

FIG. 3 is a schematic structural diagram of an embodiment of the present application in an operating mode;

FIG. 4 is a schematic structural diagram of an embodiment of the present application in another operating mode;

FIG. 5 is a schematic structural view of a shield according to an embodiment of the present application;

fig. 6 is a schematic diagram of a circuit connection mode according to an embodiment of the present application.

Reference numerals

1-housing, 21-power input socket, 22-signal input socket, 23-power input socket, 24-signal input plug, 211-ground wire branching, 212-live wire branching, 213-zero wire branching, 221-first signal branching, 222-second signal branching, 223-third signal branching, 3-power wire branching socket, 31-power wire branching socket, 4-signal branching socket, 41-signal wire branching socket, 5-protective cover, 51-base and 52-upper cover.

Detailed Description

The following description of specific embodiments of the present application refers to the accompanying drawings.

In this document, "upper", "lower", "front", "rear", "left", "right", and the like are used only to indicate relative positional relationships between relevant portions, and do not limit absolute positions of the relevant portions.

In this document, "first", "second", and the like are used only for distinguishing one from another, and do not indicate the degree and order of importance, the premise that each other exists, and the like.

In this context, "equal", "same", etc. are not strictly mathematical and/or geometric limitations, but also include tolerances as would be understood by a person skilled in the art and allowed for manufacturing or use, etc.

Unless otherwise indicated, numerical ranges herein include not only the entire range within its two endpoints, but also several sub-ranges subsumed therein.

The application provides a separated time device of lighting apparatus, as shown in fig. 1 and fig. 2, including casing 1 is last to be provided with a plurality of power separated time sockets 3 and a plurality of signal separated time sockets 4 side by side be provided with power input socket 21 and signal input socket 22 on casing 1's the lateral wall, power input socket 21 respectively with every through the mode of establishing ties power separated time socket 3 connects gradually to form a power socket series connection group, signal input socket 22 respectively with every through the mode of establishing ties signal separated time socket 4 connects gradually, thereby forms a signal socket series connection group.

In the above embodiment, the number of the power distribution sockets 3 is the same as that of the signal distribution sockets 4, and the number of the power distribution sockets 3 is generally three to more than three, for example, six, nine or eighteen, which is not specifically limited herein, but is preferably a multiple of three, each power distribution socket 3 is respectively arranged opposite to one signal distribution socket 4, so as to form a power-signal socket set, and each power-signal socket set respectively corresponds to a power source and a signal source of a lighting device, for example, a stage lamp or an illumination lamp, so as to implement power supply and signal control on the lighting device.

This application is through forming a socket series connection group with a plurality of power separated time sockets 3 and a plurality of signal separated time sockets 4 through the mode of establishing ties to make through power input socket 21 and signal input socket 22 socket series connection group is only through a power plug line or signal jack line, just can make whole power separated time sockets 3 or signal separated time sockets 4 access power or signal source, has realized the separated time function of power and signal source, and the quantity, the installation work volume and the space of very big reduction power cord and signal line occupy, have reduced lighting apparatus's cost and have simplified power supply circuit structure and improved the factor of safety of engineering.

In one embodiment of the present application, as shown in fig. 3, the power distribution socket 3 includes a power distribution socket 31 and a protective cover 5, and the power distribution socket 31 is disposed inside the protective cover 5, so as to be closed or exposed under the action of the protective cover 5. Similarly, the signal distributing socket 4 comprises a signal distributing jack 41 and a protective cover 5, wherein the signal distributing jack 41 is arranged inside the protective cover 5, so that the signal distributing jack is closed or exposed under the action of the protective cover 5.

In the above embodiment, as shown in fig. 4, the power input socket 21 includes a power input socket 23 and a protective cover 5, and the power input socket 23 is disposed inside the protective cover 5, so as to be closed or exposed by the protective cover 5. Similarly, the signal input socket 22 comprises a signal input plug 24 and a protective cover 5, and the signal input plug 24 is arranged inside the protective cover 5, so that the signal input plug is closed or exposed under the action of the protective cover 5.

Optionally, as shown in fig. 5, the protective cover 5 includes a base 51 and an upper cover 52, the base 51 is mounted on the housing 1 and forms an opening structure, the upper cover 52 is pivotally connected to a sidewall of the base 51, and the upper cover 52 is rotated relative to the base 51 to close or expose the opening structure.

In the embodiment of this application, as shown in fig. 6, the branching device still includes ground wire separated time 211, live wire separated time 212 and zero line separated time 213, power input socket 23 includes ground wire socket, live wire socket and the zero line socket that are connected with the ground wire, live wire and the zero line of power cord, the ground wire socket that power input socket 23 corresponds with the one end of ground wire separated time 211 is connected, the other end and every of ground wire separated time 211 the ground wire socket that power separated time socket 31 corresponds connects gradually, makes every the ground wire socket that power separated time socket 31 corresponds all passes through ground wire separated time 211 realize the series and with the ground wire socket that power input socket 23 corresponds is connected.

In the above embodiment, the live wire socket corresponding to the power input socket 23 is connected to one end of the live wire tap 212, and the other end of the live wire tap 212 is sequentially connected to the live wire socket corresponding to each power tap socket 31, so that the live wire socket corresponding to each power tap socket 31 is connected in series to the live wire socket corresponding to the power input socket 23 through the live wire tap 212.

In the above embodiment, the zero line socket corresponding to the power input socket 23 is connected to one end of the zero line branching socket 213, and the other end of the zero line branching socket 213 is connected to each of the zero line sockets corresponding to the power branching sockets 31 in sequence, so that each of the zero line sockets corresponding to the power branching sockets 31 is connected in series to the zero line socket corresponding to the power input socket 23 through the zero line branching socket 213.

In an embodiment of the present application, as shown in fig. 6, the branching device further includes a first signal branching 221, a second signal branching 222, and a third signal branching 223, the signal input plug 24 includes a first signal plug, a second signal plug, and a third signal plug connected to the signal lines, the first signal plug corresponding to the signal input plug 24 is connected to one end of the first signal branching 221, and the other end of the first signal branching 221 is sequentially connected to the first signal plug corresponding to each signal branching socket 41, so that the first signal plug corresponding to each signal branching socket 41 is connected in series to the first signal branching 221 and is connected to the first signal plug corresponding to the signal input plug 24.

In the above embodiment, as shown in fig. 6, the second signal plug corresponding to the signal input plug 24 is connected to one end of the second signal distribution line 222, and the other end of the second signal distribution line 222 is sequentially connected to the second signal plug corresponding to each signal distribution jack 41, so that the second signal plug corresponding to each signal distribution jack 41 is connected in series to the second signal plug corresponding to the signal input plug 24 through the second signal distribution line 222.

In the above embodiment, as shown in fig. 6, the third signal plug corresponding to the signal input plug 24 is connected to one end of the third signal distribution line 223, and the other end of the third signal distribution line 223 is sequentially connected to the third signal plug corresponding to each signal distribution jack 41, so that the third signal plug corresponding to each signal distribution jack 41 is connected in series to the third signal plug corresponding to the signal input plug 24 through the third signal distribution line 223.

This application carries out the separated time with power cord and signal line through a plurality of sockets, designs a row's of inserting formula separated time device with a plurality of sockets to increased the return circuit design of wire distribution box, can compensate the short slab of the single branch circuit of current lighting apparatus's power cord, realized the extensive wiring on the same equipment.

The preferred embodiments and examples of the present application have been described in detail with reference to the accompanying drawings, but the present application is not limited to the embodiments and examples described above, and various changes can be made within the knowledge of those skilled in the art without departing from the concept of the present application.

Claims (7)

1. The branching device of the lighting equipment is characterized by comprising a shell (1), wherein the shell (1) is provided with a plurality of power branching sockets (3) and a plurality of signal branching sockets (4) side by side, a power input socket (21) and a signal input socket (22) are arranged on the side wall of the shell (1), the power input socket (21) is connected with each power branching socket (3) in sequence in a serial mode, and the signal input socket (22) is connected with each signal branching socket (4) in sequence in a serial mode.

2. The distribution device of lighting equipment according to claim 1, wherein each of the power distribution sockets (3) is disposed opposite to one of the signal distribution sockets (4).

3. The distribution device of the lighting apparatus according to claim 1, wherein the power distribution socket (3) comprises a power distribution socket (31) and a protective cover (5), the power distribution socket (31) is arranged inside the protective cover (5) so as to be closed or exposed under the action of the protective cover (5);

the power input socket (21) comprises a power input socket (23) and a protective cover (5), wherein the power input socket (23) is arranged inside the protective cover (5), so that the power input socket is closed or exposed under the action of the protective cover (5).

4. The line splitting device of a lighting apparatus according to claim 1,

the signal input socket (22) comprises a signal input plug (24) and a protective cover (5), wherein the signal input plug (24) is arranged inside the protective cover (5) so as to be closed or exposed under the action of the protective cover (5);

the signal distributing socket (4) comprises a signal distributing socket (41) and a protective cover (5), wherein the signal distributing socket (41) is arranged inside the protective cover (5), so that the signal distributing socket is closed or exposed under the action of the protective cover (5).

5. The wire branching device of the lighting apparatus according to claim 3 or 4, wherein the protective cover (5) comprises a base (51) and an upper cover (52), the base (51) is mounted on the housing (1) and forms an opening structure, the upper cover (52) is pivoted with a side wall of the base (51), and the upper cover (52) closes or exposes the opening structure through relative rotation with the base (51).

6. The branching device for lighting equipment according to claim 3, wherein the branching device further comprises a ground wire branching (211), a live wire branching (212) and a neutral wire branching (213), a ground wire socket corresponding to the power input socket (23) is connected with one end of the ground wire branching (211), and the other end of the ground wire branching (211) is connected with a ground wire socket corresponding to each power branching socket (31) in sequence;

a live wire socket corresponding to the power input socket (23) is connected with one end of the live wire branching socket (212), and the other end of the live wire branching socket (212) is sequentially connected with a live wire socket corresponding to each power branching socket (31);

and a zero line socket corresponding to the power input socket (23) is connected with one end of a zero line branching socket (213), and the other end of the zero line branching socket (213) is connected with each zero line socket corresponding to the power branching socket (31) in sequence.

7. The branching device for lighting devices according to claim 4, further comprising a first signal branching line (221), a second signal branching line (222), and a third signal branching line (223), wherein a first signal plug corresponding to the signal input plug (24) is connected to one end of the first signal branching line (221), and the other end of the first signal branching line (221) is connected to a first signal plug corresponding to each signal branching socket (41) in turn;

a second signal plug corresponding to the signal input plug (24) is connected with one end of the second signal branching line (222), and the other end of the second signal branching line (222) is sequentially connected with a second signal plug corresponding to each signal branching socket (41);

and a third signal plug corresponding to the signal input plug (24) is connected with one end of the third signal distributing line (223), and the other end of the third signal distributing line (223) is sequentially connected with the third signal plug corresponding to each signal distributing line socket (41).

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