CN210247117U - Hierarchical automatic control device of lighting system - Google Patents

Abstract

The utility model discloses an automatic grading control device of an illumination system, which is used for manual/automatic switching of factory illumination control; during automatic control, the two clock controllers respectively and automatically control static illumination and dynamic illumination in factory illumination through different parameter settings to realize hierarchical control; the control device is additionally provided with a rectifying module, an inversion module and a battery pack, when a power supply of a factory breaks down, the control device is automatically switched into an emergency lighting mode, power is supplied for emergency lighting in a centralized mode, and the control device has a function of preventing reverse power transmission when a lamp is shared by normal lighting and fault lighting. The utility model discloses when satisfying the illumination requirement of mill, reduce the power consumption, reduce intensity of labour.

Description

Hierarchical automatic control device of lighting system

Technical Field

The utility model relates to a lighting system automatic control device especially relates to a hierarchical automatic control device of lighting system, belongs to electrical control system technical field.

Background

The factory illumination is scientifically designed according to the illumination requirements needed by the operation environment, the comfort level and the safety of workers are guaranteed, and the working efficiency and the product quality are improved. Meanwhile, industrial lighting energy conservation is a way to reduce cost and is a development trend and social responsibility. When the lighting lamp with high lighting effect is introduced, the lighting effect is required to be improved by a control technology, and the energy consumption is reduced. Not only the brightness required by production is satisfied, but also the working environment is comfortable, thereby achieving the purposes of increasing the yield, reducing accidents, saving energy and reducing consumption.

The factory illumination not only needs enough working illumination, but also needs to create a comfortable visual environment to reduce light pollution. Factory lighting is generally classified into static lighting, dynamic lighting, and emergency lighting. At present, most of lighting control adopts a manual on-off lighting switch. The efficiency is low, and energy waste is easily caused. Therefore, a reasonable lighting scheme is selected, an advanced control system is configured, energy can be effectively saved, pilot lights are avoided, the operating cost of users is reduced, the factory management level is improved, and great economic significance and social benefits are achieved.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a hierarchical automatic control device of lighting system.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a grading automatic control device of an illumination system consists of a control loop and a main loop; the control loop comprises a control loop control switch, a static clock controller, a dynamic clock controller, a static intermediate relay, a dynamic intermediate relay, a static contactor and a dynamic contactor; the static intermediate relay is controlled by a static clock controller, the dynamic intermediate relay is controlled by a dynamic clock controller, and the static clock controller and the dynamic clock controller are connected in parallel and then connected with a control loop control switch in series at two ends of 220V voltage; the static contactor 10 is connected in series with a normally open contact of a static intermediate relay and then connected in parallel with two ends of a static clock controller; the dynamic contactor is connected with the normally open contact of the dynamic intermediate relay in series and then connected with the two ends of the dynamic clock controller in parallel; the main loop comprises a main loop control switch, a static illumination bus, a static contactor main contact, a dynamic illumination bus control switch, a dynamic illumination bus, a dynamic contactor main contact, a rectification module, a storage battery, an inversion module and an emergency illumination bus; one end of the static illumination bus control switch is connected with the upper-stage power supply bus through the main loop control switch, and the other end of the static illumination bus control switch is connected with the static illumination bus through the main contact of the static contactor; one end of the dynamic lighting bus control switch is connected with the upper-stage power supply bus through the main loop control switch, and the other end of the dynamic lighting bus control switch is connected with the dynamic lighting bus through the main contact of the dynamic contactor; the negative pole of the storage battery is connected with the upper-level power supply bus through the rectifier module and the main loop control switch in sequence, and the positive pole of the storage battery is connected to the emergency lighting bus through the inverter module.

The lighting system grading automatic control device also comprises a static lighting circuit manual/automatic selection change-over switch, a dynamic lighting circuit manual/automatic selection change-over switch, a static lighting circuit manual switch and a dynamic lighting circuit manual switch; the static lighting circuit manual/automatic selection change-over switch is composed of a static lighting circuit manual control link and a static lighting circuit automatic control link; the static illumination circuit manual control link is connected with the static intermediate relay 3 in series to serve as a static illumination circuit manual control branch, the static illumination circuit automatic control link is connected with the static illumination circuit manual switch in series to serve as a static illumination circuit automatic control branch, and the static illumination circuit manual control branch is connected with the static illumination circuit automatic control branch in parallel; the manual/automatic selection change-over switch of the dynamic and static illumination circuit consists of a dynamic illumination circuit manual control link and a dynamic illumination circuit automatic control link; the dynamic lighting circuit manual control link is connected with the dynamic intermediate relay in series to serve as a dynamic lighting circuit manual control branch; the dynamic lighting circuit automatic control link is connected with the dynamic lighting circuit manual switch in series to serve as a dynamic lighting circuit automatic control branch, and the dynamic lighting circuit manual control branch is connected with the dynamic lighting circuit automatic control branch in parallel.

The lighting system grading automatic control device also comprises a static lighting circuit first indicating circuit and a static lighting circuit second indicating circuit which are connected in parallel at two ends of the static clock controller and have the same structure, and a dynamic lighting circuit first indicating circuit and a dynamic lighting circuit second indicating circuit which are connected in parallel at two ends of the dynamic clock controller and have the same structure; the first indicating circuit of the static lighting circuit consists of a first indicating lamp and an auxiliary contact of a static intermediate relay which are connected in series; the first indicator circuit of the dynamic lighting circuit consists of a third indicator light and an auxiliary contact of the static intermediate relay which are connected in series.

The technical effect obtained by adopting the technical scheme is as follows: the utility model discloses when satisfying the illumination requirement of mill, reduce the power consumption, reduce intensity of labour.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a control loop of the present invention;

FIG. 2 is a main circuit of the present invention;

wherein: 1 control loop control switch, 2 static clock controller, 3 static intermediate relay, 3-1 normally open contact of static intermediate relay, 3-2 static intermediate relay auxiliary contact, 4 dynamic clock controller, 5 dynamic intermediate relay, 5-1 normally open contact of dynamic intermediate relay, 5-2 dynamic intermediate relay auxiliary contact, 6 static lighting circuit manual/automatic selection change-over switch, 7 dynamic lighting circuit manual/automatic selection change-over switch, 8 static lighting circuit manual switch, 9 dynamic lighting circuit manual switch, 10-static contactor, 10-1 static contactor main contact 11-dynamic contactor, 11-1 dynamic contactor main contact, 12 first indicator light, 13 second indicator light, 14 third indicator light, 15 fourth indicator light, 16 main loop control switch, 17 static lighting bus control switch, 18 dynamic lighting bus control switch, 19 rectifier module, 20 storage battery, 21 inverter module, 22 static lighting bus, 23 dynamic lighting bus, 24 emergency lighting bus, 25 first control switch, 26 second control switch, 27 third control switch, 28 fourth control switch, 29 fifth control switch and 30 sixth control switch.

Detailed Description

Example 1:

a grading automatic control device of an illumination system consists of a control loop and a main loop; the control loop comprises a control loop control switch 1, a static clock controller 2, a dynamic clock controller 4, a static intermediate relay 3, a dynamic intermediate relay 5, a static contactor 10 and a dynamic contactor 11; the static intermediate relay 3 is controlled by a static clock controller 2, the dynamic intermediate relay 5 is controlled by a dynamic clock controller 4, and the static clock controller 2 and the dynamic clock controller 4 are connected in parallel and then connected with a control loop control switch 1 in series at two ends of 220V voltage; the static contactor 10 is connected in series with the normally closed contact 3-1 of the static intermediate relay and then connected in parallel with two ends of the static clock controller 2; the dynamic contactor 11 is connected with the normally open contact 5-1 of the dynamic intermediate relay in series and then connected with two ends of the dynamic clock controller 4 in parallel; the main loop comprises a main loop control switch 16, a static illumination bus control switch 17, a static illumination bus 22, a static contactor main contact 10-1, a dynamic illumination bus control switch 18, a dynamic illumination bus 23, a dynamic contactor main contact 11-1 and an accident illumination bus 24; one end of a static illumination bus control switch 17 is connected with a previous-stage power supply bus through a main loop control switch 16, and the other end of the static illumination bus control switch is connected with a static illumination bus 22 through a static contactor main contact 10-1; one end of a dynamic lighting bus control switch 18 is connected with a previous-stage power supply bus through a main loop control switch 16, and the other end of the dynamic lighting bus control switch is connected with a dynamic lighting bus 23 through a dynamic contactor main contact 11-1; the storage battery 20 is connected with a previous-stage power supply bus through the rectifier module 19 and the main loop control switch 16 in sequence, and the storage battery 20 is connected to an emergency lighting bus 24 through the inverter module 21.

The lighting system grading automatic control device also comprises a static lighting circuit manual/automatic selection change-over switch 6, a dynamic lighting circuit manual/automatic selection change-over switch 7, a static lighting circuit manual switch 8 and a dynamic lighting circuit manual switch 9; the static lighting circuit manual/automatic selection change-over switch 6 is composed of a static lighting circuit manual control link and a static lighting circuit automatic control link; the static illumination circuit manual control link is connected with the static intermediate relay 3 in series to serve as a static illumination circuit manual control branch, the static illumination circuit automatic control link is connected with the static illumination circuit manual switch 8 in series to serve as a static illumination circuit automatic control branch, and the static illumination circuit manual control branch is connected with the static illumination circuit automatic control branch in parallel; the manual/automatic selection change-over switch 6 of the dynamic and static illumination circuit is composed of a dynamic illumination circuit manual control link and a dynamic illumination circuit automatic control link; the dynamic lighting circuit manual control link is connected in series with the dynamic intermediate relay 5 to serve as a dynamic lighting circuit manual control branch; the dynamic lighting circuit automatic control link is connected with the dynamic lighting circuit manual switch 9 in series to serve as a dynamic lighting circuit automatic control branch, and the dynamic lighting circuit manual control branch is connected with the dynamic lighting circuit automatic control branch in parallel.

The lighting system grading automatic control device also comprises a static lighting circuit first indicating circuit and a static lighting circuit second indicating circuit which are connected in parallel at two ends of the static clock controller 2 and have the same structure, and a dynamic lighting circuit first indicating circuit and a dynamic lighting circuit second indicating circuit which are connected in parallel at two ends of the dynamic clock controller 4 and have the same structure; the static lighting circuit first indicating circuit consists of a first indicator light 12 and an auxiliary contact 3-1 of a static intermediate relay 3 which are connected in series; the dynamic lighting circuit first indicator circuit consists of a third indicator light 14 and an auxiliary contact 5-1 of the static intermediate relay 5 connected in series.

Referring to fig. 1, a static contactor 10 and a dynamic contactor 11 are manually controlled by a static lighting circuit manual switch 8 and a dynamic lighting circuit manual switch 9; when automatic selection is performed, the static clock controller 2 and the dynamic clock controller 4 control the static intermediate relay 3 and the dynamic intermediate relay 5, and the static intermediate relay 3 and the dynamic intermediate relay 5 respectively control the static contactor 10 and the dynamic contactor 11. Meanwhile, the static intermediate relay 3 and the dynamic intermediate relay 5 of the intermediate relay control the first to fourth indicator lamps 12-15.

Referring to fig. 2, the static lighting bus 22 and the dynamic lighting bus 23 are controlled by the static contactor 10 and the dynamic contactor 11, respectively. And then the static illumination bus 22 and the dynamic illumination bus 23 are distributed to the field illumination lamp through the first to fourth control switches 25 to 28. The storage battery 20 is charged in real time by the rectifier module 19. The inverter module 21 is connected to the emergency lighting bus 24, and then distributed to the emergency lighting lamp through the fifth to sixth control switches 29 and 30.

The utility model provides static illumination and dynamic illumination grading control; and when the normal lighting fails, automatically switching to the emergency lighting mode.

Claims (3)

1. The grading automatic control device of the lighting system is characterized in that: consists of a control loop and a main loop; the control loop comprises a control loop control switch (1), a static clock controller (2), a dynamic clock controller (4), a static intermediate relay (3), a dynamic intermediate relay (5), a static contactor (10) and a dynamic contactor (11); the static intermediate relay (3) is controlled by the static clock controller (2), the dynamic intermediate relay (5) is controlled by the dynamic clock controller (4), and the static clock controller (2) and the dynamic clock controller (4) are connected in parallel and then connected with the control loop control switch (1) in series at two ends of 220V voltage; the static contactor (10) is connected with a normally open contact (3-1) of the static intermediate relay in series and then connected with two ends of the static clock controller (2) in parallel; the dynamic contactor (11) is connected with a normally open contact (5-1) of the dynamic intermediate relay in series and then connected with two ends of the dynamic clock controller (4) in parallel; the main loop comprises a main loop control switch (16), a static illumination bus control switch (17), a static illumination bus (22), a static contactor main contact (10-1), a dynamic illumination bus control switch (18), a dynamic illumination bus (23), a dynamic contactor main contact (11-1), a rectification module (19), a storage battery (20), an inversion module (21) and an emergency illumination bus (24); one end of a static illumination bus control switch (17) is connected with a previous-stage power supply bus through a main loop control switch (16), and the other end of the static illumination bus control switch is connected with a static illumination bus (22) through a static contactor main contact (10-1); one end of a dynamic lighting bus control switch (18) is connected with a previous-stage power supply bus through a main loop control switch (16), and the other end of the dynamic lighting bus control switch is connected with a dynamic lighting bus (23) through a dynamic contactor main contact (11-1); the storage battery (20) is connected with a previous-stage power supply bus through a rectification module (19) and a main loop control switch (16) in sequence, and the storage battery (20) is connected to an emergency lighting bus (24) through an inversion module (21).

2. The hierarchical automation control system for lighting systems according to claim 1, wherein: the grading automatic control device of the lighting system also comprises a static lighting circuit manual/automatic selection change-over switch (6), a dynamic lighting circuit manual/automatic selection change-over switch (7), a static lighting circuit manual switch (8) and a dynamic lighting circuit manual switch (9); the static lighting circuit manual/automatic selection change-over switch (6) is composed of a static lighting circuit manual control link and a static lighting circuit automatic control link; the static illumination circuit manual control link is connected with the static intermediate relay (3) in series to serve as a static illumination circuit manual control branch, the static illumination circuit automatic control link is connected with the static illumination circuit manual switch (8) in series to serve as a static illumination circuit automatic control branch, and the static illumination circuit manual control branch is connected with the static illumination circuit automatic control branch in parallel; the dynamic and static lighting circuit manual/automatic selection change-over switch (6) is composed of a dynamic lighting circuit manual control link and a dynamic lighting circuit automatic control link; the dynamic lighting circuit manual control link is connected in series with a dynamic intermediate relay (5) to serve as a dynamic lighting circuit manual control branch; the dynamic illumination circuit automatic control link is connected with a dynamic illumination circuit manual switch (9) in series to serve as a dynamic illumination circuit automatic control branch, and the dynamic illumination circuit manual control branch is connected with the dynamic illumination circuit automatic control branch in parallel.

3. The hierarchical automation control of lighting systems of claim 2, wherein: the lighting system grading automatic control device also comprises a static lighting circuit first indicating circuit and a static lighting circuit second indicating circuit which are connected in parallel at two ends of the static clock controller (2) and have the same structure, and a dynamic lighting circuit first indicating circuit and a dynamic lighting circuit second indicating circuit which are connected in parallel at two ends of the dynamic clock controller (4) and have the same structure; the static lighting circuit first indicating circuit consists of a first indicator lamp (12) and a static intermediate relay auxiliary contact (3-2) which are connected in series; the first indicator circuit of the dynamic lighting circuit consists of a third indicator lamp (14) and a static intermediate relay auxiliary contact (5-2) which are connected in series.

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