CN210225850U - Factory lighting system and intelligent lamp control device thereof - Google Patents

Abstract

The utility model relates to a factory lighting system and an intelligent lamp control device thereof, wherein the intelligent lamp control device comprises an input circuit and at least one group of lighting circuits; the lighting circuit comprises a non-contact switch control device which realizes the control of a circuit switch by a non-contact mode; the contactless switch control device comprises an input end electrically connected with the input circuit and at least one output end used for transmitting electric energy to the illuminating lamp. The power of a lamp for factory illumination is high, a lighting lamp circuit is controlled in a non-contact mode, high power can be controlled in a low power mode, and the power amplification factor is as high as hundreds of thousands of times; in addition, the reaction time of control is short, the reaction is extremely fast, and the on-off can be realized within microsecond level; because of the non-contact operation, no spark and no noise; can be used for a long time, and has high efficiency and low cost.

Description

Factory lighting system and intelligent lamp control device thereof

Technical Field

The utility model relates to a lighting of mill, more specifically say, relate to a lighting system and intelligent lamp accuse device thereof for mill.

Background

In the related art, a high-power illuminating lamp of a factory usually adopts a contact type control switch, when the high-power illuminating lamp is switched on or switched off, the on-off period is longer, sparks and noise are easy to generate, the service life is shorter, and the cost is increased.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in providing a lighting system and intelligent lamp accuse device thereof for mill.

The utility model provides a technical scheme that its technical problem adopted is: constructing an intelligent lamp control device, which comprises an input circuit and at least one group of lighting circuits;

the lighting circuit comprises a non-contact switch control device which realizes the control of a circuit switch in a non-contact way;

the contactless switch control device comprises an input end electrically connected with the input circuit and at least one output end used for transmitting electric energy to the illuminating lamp.

Preferably, the contactless switch control means comprises a solid state relay or thyristor.

Preferably, the output voltage range of the contactless switch control device is 110-230V, and the output current range is 15-25A.

Preferably, the contactless switch control means comprises a data port communicatively connected to the outside to send control commands to the contactless switch control means.

Preferably, the data port is an ethernet interface.

Preferably, the input line is a 380V three-phase line.

Preferably, each of said contactless switch control means comprises a plurality of outputs to power different illumination lamps.

The lighting system for the factory comprises at least one lighting lamp and the intelligent lamp control device, wherein the lighting lamp is electrically connected with one output end.

Preferably, the power of the illumination lamp ranges from 5kw to 50 kw.

Implement the utility model discloses a lighting system for mill and intelligent lamp accuse device thereof has following beneficial effect: the power of a lamp for factory illumination is high, a lighting lamp circuit is controlled in a non-contact mode, high power can be controlled in a low power mode, and the power amplification factor is as high as hundreds of thousands of times; in addition, the reaction time of control is short, the reaction is extremely fast, and the on-off can be realized within microsecond level; because of the non-contact operation, no spark and no noise; can be used for a long time, and has high efficiency and low cost.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic circuit diagram of a lighting system for a factory in an embodiment of the present invention.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the lighting system for factory in a preferred embodiment of the present invention includes a plurality of lighting lamps 1 and an intelligent light control device 2, the intelligent light control device 2 includes an input line 21 and a plurality of sets of lighting circuits 22, and in other embodiments, the lighting circuits 22 may include only one set.

The lighting circuit 22 includes a contactless switch control device 221 for realizing line switch control by means of a contactless manner; the contactless switch control device 221 includes an input terminal a electrically connected to the input line 21 and at least one output terminal B for transmitting electric energy to the illumination lamp 1, and each output terminal B supplies power to an illumination lamp 1.

The power of the lamp for factory illumination is large, the circuit of the illuminating lamp 1 is controlled in a non-contact mode, the high power can be controlled in a small power mode, and the power amplification factor is as high as hundreds of thousands of times; in addition, the reaction time of control is short, the reaction is extremely fast, and the on-off can be realized within microsecond level; because of the non-contact operation, no spark and no noise; can be used for a long time, and has high efficiency and low cost.

In some embodiments, the contactless switch control device 221 includes a solid state relay or thyristor to enable control of high power circuits with low power.

A Solid State Relay (SSR), which is a contactless switch composed of a microelectronic circuit, a discrete electronic device, and a power electronic power device. The isolation of the control end and the load end is realized by the isolation device. The data port C of the solid-state relay directly drives a heavy-current load by using a tiny control signal. The solid-state relay is a new type of contactless switch device composed of solid-state electronic components, and it utilizes the switching characteristics of electronic components (such as switching triode, bidirectional thyristor, etc.) to achieve the purpose of connecting and disconnecting circuit without contact and spark.

A Silicon Controlled Rectifier (SCR) is a high-power electrical component, also called a thyristor. It has the advantages of small volume, high efficiency, long service life, etc. In an automatic control system, the device can be used as a high-power driving device to realize the control of high-power equipment by using a low-power control. The unidirectional thyristor, that is, the conventional ordinary thyristor, is composed of four layers of semiconductor materials, and has three PN junctions and three external electrodes: the electrode led out by the first layer of the P-type semiconductor is called an anode A, the electrode led out by the third layer of the P-type semiconductor is called a control electrode G, and the electrode led out by the fourth layer of the N-type semiconductor is called a cathode K.

As can be seen from the circuit symbol of the thyristor, it is a one-way conducting device like a diode, and the key is to add a control electrode G, which makes it have completely different operating characteristics from a diode. In terms of performance, thyristors not only have unidirectional conductivity, but also have more expensive controllability than silicon rectifier elements (commonly called "dead silicon"), which have only two states of on and off.

In some embodiments, input line 21 is a 380V three-phase line, which provides the industrial voltage for powering contactless switch control device 221. The output voltage range of the non-contact switch control device 221 is 110-230V, and the output current range is 15-25A.

In order to control the contactless switch control device 221, the contactless switch control device 221 includes a data port C connected to an external communication device to send a control command to the contactless switch control device 221, where the data port C may be an ethernet interface (for example, using PROFINET or modbus RTU protocol). The Ethernet controls the switch of each path of lighting circuit 22 and has the functions of setting address and load power; and outputting the information of detecting the voltage of the direct current bus, the running state (on, off and fault), the open circuit and the overcurrent.

Further, each contactless switch control device 221 comprises several outputs B to supply different lamps 1. In this embodiment, each lighting circuit 22 includes six lighting lamps 1 electrically connected to the contactless switch control device 221.

The power range of the illuminating lamp 1 is 5kw to 50kw, the requirement of high-power illumination is met, and the power range is matched with the output voltage and the output current of the contactless switch control device 221.

It is to be understood that the above-described respective technical features may be used in any combination without limitation.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (9)

1. An intelligent lamp control device is characterized by comprising an input line (21) and at least one group of lighting circuits (22);

the lighting circuit (22) comprises a non-contact switch control device (221) which realizes circuit switch control by a non-contact mode;

the contactless switch control device (221) comprises an input end (A) electrically connected with the input line (21) and at least one output end (B) used for transmitting electric energy to the illuminating lamp (1).

2. The intelligent lamp control device according to claim 1, wherein the contactless switch control device (221) comprises a solid state relay or thyristor.

3. The intelligent lamp control device according to claim 1, wherein the output voltage range of the contactless switch control device (221) is 110-230V, and the output current range is 15A-25A.

4. An intelligent lamp control device according to claim 1, characterized in that the contactless switch control device (221) comprises a data port (C) communicatively connected to the outside for sending control commands to the contactless switch control device (221).

5. The intelligent light control device according to claim 4, wherein the data port (C) is an Ethernet interface.

6. The intelligent lamp control device according to any one of claims 1 to 5, wherein the input line (21) is a 380V three-phase line.

7. The intelligent lamp control device according to any one of claims 1 to 5, wherein each of the contactless switch control devices (221) comprises a plurality of outputs (B) to supply power to different illumination lamps (1).

8. A lighting system for industrial plants, comprising at least one lighting lamp (1) and an intelligent lamp control device (2) according to any one of claims 1 to 7, wherein the lighting lamp (1) is electrically connected to one of the output terminals (B).

9. The lighting system according to claim 8, characterized in that the power of the illumination lamp (1) ranges from 5kw to 50 kw.

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