CN213368195U - Energy-saving lighting voltage-stabilizing control cabinet - Google Patents

Abstract

The energy-saving lighting voltage-stabilizing control cabinet comprises a cabinet body, wherein an upper clapboard and a lower clapboard are arranged in the cabinet body, the upper clapboard is provided with a multi-tap transformer, the lower clapboard is provided with a compensating transformer, a main control box is also arranged in the cabinet body, the intelligent outdoor high-voltage power supply comprises a KM1 contactor, a KM3 contactor, a KM4 contactor, a KM5 contactor and a main control board, wherein the main contact input end of the KM1 contactor is connected with an external power supply, the main contact output end of the KM1 contactor is connected with the main contact input end of the KM3 contactor and the public end of the input end of a compensation transformer, the main contact output end of the KM3 contactor is connected with an outdoor illuminating lamp through the KM5 contactor, the output end of the compensation transformer is connected with the main contact input end of the KM4 contactor, the main contact output end of the KM4 contactor is connected with the main contact input end of the KM5 contactor and an indoor illuminating lamp, the input end of.

Description

Energy-saving lighting voltage-stabilizing control cabinet

Technical Field

The utility model relates to an energy-conserving lighting control technical field, in particular to energy-conserving illumination steady voltage switch board.

Background

The lighting energy-saving control is an intelligent lighting energy-saving regulation and control device, which integrates a current magnetic technology, an intelligent control technology and a data control technology, and intelligently regulates in a controllable and gentle mode to ensure that the output voltage is stabilized between set rated value ranges, thereby realizing ideal combination of the working current and the brightness requirement of a lighting system and achieving the purposes of saving electricity and optimizing power supply. However, the existing lighting energy-saving control cabinet has a complex design structure, is inconvenient to operate, and has low safety and stability.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model provides an energy-conserving illumination steady voltage switch board that design simple structure, convenient operation, security and stability are high.

The technical scheme of the utility model is realized like this:

the utility model discloses an energy-conserving illumination steady voltage switch board, the intelligent cabinet temperature adjusting device comprises a cabinet body, the internal baffle and lower baffle of going up of cabinet, go up the fixed transformer that takes a percentage that is equipped with more on the baffle, the fixed compensator that is equipped with down on the baffle, the internal master control case that still is equipped with of cabinet, the master control case is including KM1 contactor, KM3 contactor, KM4 contactor, KM5 contactor and main control board, outside three-phase four-wire system power is connected to the main contact input end of KM1 contactor, the main contact output end of KM1 contactor connects the main contact input end of KM3 contactor and the public end of compensator's input end, the main contact light input end of KM3 contactor is connected to the main contact output end of KM3 contactor, outdoor light is connected to the main contact output end of KM5 contactor, the main contact input end of KM4 contactor is connected to the output end of compensator, the main contact output end of KM4 The input ends of the multi-tap transformers are connected with the main control board, and the output ends of the multi-tap transformers are connected with the control end of the compensation transformer. Further, the controller module comprises an IGBT converter, a main control board and a detection circuit, the detection circuit is used for collecting voltage and current signals at the output end of the voltage stabilizing contactor and transmitting the voltage and current signals to the main control board to be processed into control signals, and the control signals are transmitted to the IGBT converter to be used for adjusting and controlling the voltage output of the compensation transformer.

Further, the cabinet body is equipped with preceding cabinet door and back cabinet door, one side of preceding cabinet door and back cabinet door all is equipped with the pivot with cabinet body coupling, and its opposite side is equipped with the hasp, wherein, be equipped with liquid crystal display, status indication panel and control panel on the preceding cabinet door in proper order, liquid crystal display, status indication panel and control panel all with main control board electric connection.

Further, the main control board has a single chip and a driving control circuit connected with the single chip, the driving control circuit is electrically connected with the coils of the KM1 contactor, the KM3 contactor, the KM4 contactor and the KM5 contactor, and the model of the single chip is STM32F427 VI.

Further, the upper portion of the cabinet body is provided with a circuit breaker, the circuit breaker is arranged between a three-phase four-wire system power supply and the KM1 contactor, and the circuit breaker is used for breaking the power supply of the three-phase four-wire system power supply.

Furthermore, the status indication panel comprises a power indicator, a voltage stabilization output indicator, a full voltage output indicator, an energy saving indicator, a standby power switch-on indicator and a fault indicator.

Further, the control panel comprises a manual/automatic change-over switch, a full-voltage/voltage-stabilizing change-over switch and an emergency stop button.

Furthermore, the cabinet body is provided with a louver used for heat dissipation.

Furthermore, the four corners of the top end of the cabinet body are provided with hanging rings for hoisting.

Implement the utility model discloses an energy-conserving illumination steady voltage switch board has following profitable technological effect:

implement the utility model discloses an energy-conserving illumination steady voltage switch board simple structure, convenient operation, total pressure and steady voltage switching control, the good reliability, low in production cost is favorable to marketing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic front side view of the energy-saving lighting voltage-stabilizing control cabinet of the present invention;

fig. 2 is a rear schematic view of the energy-saving lighting voltage-stabilizing control cabinet of the present invention;

fig. 3 is a schematic view of the sectional structure of the energy-saving lighting voltage-stabilizing control cabinet of the present invention;

fig. 4 is a functional block diagram of the energy-saving lighting voltage-stabilizing control cabinet of the present invention;

fig. 5 is the chip structure diagram of the single chip in the energy-saving lighting voltage-stabilizing control cabinet of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, 2, 3, 4 and 5, an energy-saving lighting voltage-stabilizing control cabinet according to an embodiment of the present invention includes a cabinet body 1, an upper partition plate 2 and a lower partition plate 3 are disposed in the cabinet body 1, a multi-tap transformer 4 is fixedly disposed on the upper partition plate 2, a compensation transformer 5 is fixedly disposed on the lower partition plate 3, the compensation transformer 5 is a three-phase compensation transformer, a main control box 6 is further disposed in the cabinet body 1, the main control box 6 includes a KM1 contactor 61, a KM3 contactor 62, a KM4 contactor 63, a KM5 contactor 64 and a main control board 65, a main contact input end of the KM1 contactor 61 is connected to an external three-phase four-wire power source, a main contact output end of the KM1 contactor 61 is connected to a main contact input end of a KM3 contactor 62 and a common end of an input end of the compensation transformer 5, a main contact output end of the KM3 contactor 62 is connected to a main contact input end of a KM5 contactor, the main contact output end of the KM5 contactor 64 is connected with an outdoor illuminating lamp, the output end of the compensating transformer 5 is connected with the main contact input end of the KM4 contactor 63, the main contact output end of the KM4 contactor 63 is connected with the main contact input end of the KM5 contactor 64 and the indoor illuminating lamp, the input end of the multi-tap transformer 4 is connected with the main control board 65, and the output end of the multi-tap transformer 4 is connected with the control end of the compensating transformer 5.

According to one embodiment, the cabinet body 1 is provided with a front cabinet door 7 and a rear cabinet door 8, one side of each of the front cabinet door 7 and the rear cabinet door 8 is provided with a shaft pin connected with the cabinet body 1, the other side of each of the front cabinet door 7 and the rear cabinet door 8 is provided with a lock catch 9, the front cabinet door 7 is sequentially provided with a liquid crystal display screen 10, a state indicating panel 11 and a control panel 12, and the liquid crystal display screen 10, the state indicating panel 11 and the control panel 12 are electrically connected with a main control board 65.

According to one embodiment, the main control board 65 has a single chip (as shown in fig. 5) and a driving control circuit connected to the single chip, the driving control circuit is electrically connected to the coils of the KM1 contactor 61, the KM3 contactor 62, the KM4 contactor 63, and the KM5 contactor 64, and the model of the single chip is STM32F427 VI.

According to one embodiment, a breaker 13 is arranged at the upper part in the cabinet body 1, the breaker 13 is arranged between a three-phase four-wire power supply and the KM1 contactor 61, and the breaker 13 is used for cutting off the power supply of the three-phase four-wire power supply.

According to one embodiment, the status indication panel 11 includes a power indicator, a regulated output indicator, a full-voltage output indicator, an energy saving indicator, a standby power switch-on indicator, and a fault indicator.

According to one embodiment, the control panel 12 includes a manual/automatic switch, a full-pressure/steady-pressure switch, and an emergency stop button.

According to one embodiment, the cabinet 1 is provided with a louver 14 for dissipating heat.

According to one embodiment, the four corners of the top end of the cabinet body 1 are provided with hanging rings 15 for hoisting.

Further explanation is as follows:

the energy-saving lighting voltage-stabilizing control cabinet of the technical scheme is provided with two modes through a full-voltage/voltage-stabilizing change-over switch in a control panel: a full-voltage output mode and a regulated output mode. When the full-voltage/voltage-stabilizing change-over switch is switched to a full-voltage output mode, the main contact of a KM4 contactor (a contactor for voltage-stabilizing output) is disconnected, the main contact of a KM3 contactor (a contactor for full-voltage output) is closed, a three-phase four-wire power transmission main circuit supplies power to a plurality of paths of indoor lighting circuits after passing through the main contacts of a circuit breaker and a KM1 contactor (a contactor for emergency stop), and supplies power to a plurality of paths of outdoor lighting circuits after passing through the main contact of a KM5 contactor (a contactor for time and lighting control, namely, the contactor for time and lighting control is switched on to supply power to the lighting circuits at; when the full-voltage/voltage-stabilizing change-over switch is switched to a voltage-stabilizing output mode, a main contact of a KM3 contactor is disconnected, meanwhile, the main contact of a KM4 contactor is closed, a three-phase four-wire system power supply passes through a breaker and the main contact of a KM1 contactor and then is input to the input end of a compensation transformer, the main control board collects voltage and current signals of the output end of the KM4 contactor and transmits the voltage and current signals to the main control board to be processed into control signals, the control signals are transmitted to a multi-tap transformer to adjust and control voltage output of the compensation transformer, the compensation transformer outputs stable voltage to supply power for a plurality of paths of indoor lighting circuits, meanwhile, the KM5 contactor supplies power for a plurality of paths of outdoor lighting circuits, and the KM5 contactor is connected with the main control board. The emergency stop button is electrically connected with the KM1 contactor and is used for controlling the main contact of the KM1 contactor to be opened in an emergency so as to break a power supply main circuit.

Implement the utility model discloses an energy-conserving illumination steady voltage switch board has following profitable technological effect:

implement the utility model discloses an energy-conserving illumination steady voltage switch board simple structure, convenient operation presses and steady voltage switching control entirely, and signal output is stable, good reliability, and low in production cost is favorable to marketing.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides an energy-conserving illumination steady voltage switch board, includes the cabinet body, its characterized in that, the internal baffle and lower baffle of being equipped with of cabinet, go up the fixed transformer that takes a percentage that is equipped with on the baffle, the fixed compensator that is equipped with down on the baffle, the internal master control case that still is equipped with of cabinet, the master control case is including KM1 contactor, KM3 contactor, KM4 contactor, KM5 contactor and main control board, the main contact input end of KM1 contactor connects outside three-phase four-wire system power, the main contact output end of KM1 contactor connects the main contact input end of KM3 contactor and the public end of compensator's input end, the main contact output end of KM3 contactor connects the main contact input end of KM5 contactor, the main contact output end of KM5 contactor connects outdoor light, the main contact input end of compensator is connected to the output of compensator, the main contact output end of KM4 contactor with the main contact input end and indoor light of KM The input ends of the multi-tap transformers are connected with the main control board, and the output ends of the multi-tap transformers are connected with the control end of the compensation transformer.

2. The energy-saving lighting voltage-stabilizing control cabinet according to claim 1, wherein the cabinet body is provided with a front cabinet door and a rear cabinet door, one side of each of the front cabinet door and the rear cabinet door is provided with a shaft pin connected with the cabinet body, the other side of each of the front cabinet door and the rear cabinet door is provided with a lock catch, wherein the front cabinet door is provided with a liquid crystal display, a status indication panel and a control panel in sequence, and the liquid crystal display, the status indication panel and the control panel are electrically connected with the main control panel.

3. The cabinet according to claim 1, wherein the main control board has a single chip and a driving control circuit connected to the single chip, the driving control circuit is electrically connected to the coil of the KM1 contactor, the KM3 contactor, the KM4 contactor, and the KM5 contactor, and the model of the single chip is STM32F427 VI.

4. The energy-saving lighting voltage-stabilizing control cabinet according to claim 1, wherein a circuit breaker is arranged at the upper part in the cabinet body, the circuit breaker is arranged between a three-phase four-wire power supply and the KM1 contactor, and the circuit breaker is used for breaking the power supply of the three-phase four-wire power supply.

5. The cabinet according to claim 2, wherein the status indication panel comprises a power indicator, a regulated output indicator, a full-voltage output indicator, an energy-saving indicator, a standby power switch-on indicator and a fault indicator.

6. The cabinet according to claim 2, wherein the control panel comprises a manual/automatic switch, a full voltage/steady voltage switch and an emergency stop button.

7. The energy-saving lighting voltage-stabilizing control cabinet according to claim 1, wherein the cabinet body is provided with a shutter for heat dissipation.

8. The energy-saving lighting voltage-stabilizing control cabinet according to claim 1, wherein hanging rings for hoisting are arranged at four corners of the top end of the cabinet body.

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