CN221127124U - Sunlight room circuit system - Google Patents

Abstract

The utility model relates to the technical field of circuit systems, in particular to a sunlight room circuit system, which comprises a commercial power input line, a controller, an inverter, a storage battery, a solar panel, a strong current output load and a weak current output load, wherein the commercial power input line, the solar panel, the controller and the storage battery are all connected with the inverter, the inverter is used for carrying out DC/AC conversion on current input by the solar panel, the commercial power input line and the storage battery and then outputting the current to the controller and the strong current output load, the controller is connected with the weak current output load so as to convert the voltage input by the inverter and then supply power for the weak current output load, and an internal control circuit is arranged in the inverter so as to switch to the commercial power input line for supplying power when the storage battery supplies power and the solar panel supplies power under-voltage, thereby solving the problem of unreasonable power supply of the existing sunlight room circuit system.

Description

Sunlight room circuit system

Technical Field

The utility model belongs to the technical field of circuit systems, and particularly relates to a sunlight room circuit system.

Background

The sunlight house is used as an important home building for outdoor recreation and entertainment, is a building which is promoted by people pursuing nature and fashion at home and abroad, is designed and built according to the use demands of places and personal hobbies, and can be opened and closed generally so as to realize light transmission and ventilation.

Disclosure of utility model

In order to solve the technical problems, the utility model aims to provide the sunlight room circuit system, which solves the problem that the existing sunlight room circuit system is unreasonable in power supply.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a sunshine room circuit system, including commercial power input line, a controller, the DC-AC conversion is carried out to the electric current that solar panel, commercial power input line and battery input, the controller and battery all are connected with the DC-AC, the controller and the strong electric output load, the controller is connected with the weak electric output load, in order to carry out the conversion to the voltage of inverter input and supply power for weak electric output load, control circuit in the DC-AC built-in, in order to switch to commercial power input line power supply when battery power supply and solar panel power supply undervoltage.

Still further, sunshine room circuit system still includes detection module, and detection module is used for monitoring external environment to send the controller with detection data, controller is according to detection data drive weak current output load start-up.

Through adopting above-mentioned technical scheme, through the detection of detection module to sunshine room external environment, and then in the data transfer to the controller that detects, utilize the data that controller inside data and detection module collected to contrast, and then can control weak current output load start to open electrical components such as light, atomizer and electronic roller shutter, realize according to external environment information, intelligent opening sunshine room interior electrical equipment's demand, improved product intelligent degree and personnel's use experience greatly.

Still further, the detection module includes a rain sensor, an illumination intensity sensor, and a wind speed sensor disposed on the sunlight room.

Through adopting above-mentioned technical scheme, rainfall when rainfall sensor can detect sunshine room outward, and wind speed sensor can detect the amount of wind, and then utilizes the external information that above-mentioned sensor detected, through the electronic tripe canopy of controller control, plays rain-proof effect, and illumination intensity sensor can effectively monitor external sunshine intensity, when illumination intensity is too strong, also can intelligently close electronic roller shutter, plays the automatic sunshade purpose of sunshade.

Still further, sunshine room circuit system still includes well accuse screen, and well accuse screen adopts RS485 bus to be connected with controller, strong electric output load and weak electric output load to be used for showing strong electric output load and weak electric output load's operating condition, and regulate and control weak electric output load through the controller.

By adopting the technical scheme, the hollow screen is convenient for a user to intuitively regulate and control the operation condition of each electric appliance in the sunlight room, and can intuitively observe parameter information such as indoor temperature and the like, and close the intuitive regulation and control of each electric device.

Still further, the strong electric output load includes at least one of an air conditioner, a socket, a heater, and a fan provided in the sunlight room.

By adopting the technical scheme, different strong current output loads can meet different use requirements and daily personnel requirements.

Still further, the low current output load comprises at least one of an electrically powered roller blind, a lighting unit, an electrically powered louver, and an atomizer disposed on the sunlight room.

Through adopting above-mentioned technical scheme, electronic rolling slats conveniently shelter from sunshine room all around, play sunshade peep-proof's purpose, drive the tripe canopy then conveniently open sunshine room canopy top, realize printing opacity ventilation effect, the atomizer can realize the humidification purpose.

Still further, electronic tripe canopy is established at the roof in sunshine room to through the upset of tripe in the electronic tripe canopy to realize the ventilative opening or the closure of printing opacity of roof.

Through the technical scheme, the electric louver shed is convenient to open or close the top of the sunlight house shed, sunlight can be directly irradiated indoors when the sunlight is sunny, the use diversity of the sunlight house is enhanced, and meanwhile, the solar panel can be integrated on the louver shed, so that the purpose of adjusting the setting angle of the solar panel is achieved.

Compared with the prior art, the utility model has the advantages that:

1. According to the utility model, three power supply modes of the solar panel, the storage battery and the external mains supply input line are utilized, and the inverter is utilized to convert the voltages of the solar panel, the storage battery and the mains supply input line to be suitable for different power consumption loads.

2. According to the utility model, the control circuit arranged in the inverter can be switched to the mains supply input line in time when the power supply of the storage battery and the solar panel is under-voltage, so that the stability of the solar house in power supply is effectively ensured, and each power consumption load can stably output and operate.

Drawings

FIG. 1 is a schematic diagram of a solar house circuit system of the present utility model;

Fig. 2 is a circuit diagram of the solar house circuitry of the present utility model (detection module not shown).

In the figure:

100 inverters, 200 mains supply input lines, 300 solar panels, 400 storage batteries, 500 controllers, 600 strong current output loads, 700 weak current output loads and 800 detection modules.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

Referring to fig. 1 and 2, the solar house circuit system includes a utility power input line 200, a controller 500, an inverter 100, a storage battery 400, a solar panel 300, a strong current output load 600 and a weak current output load 700, wherein the utility power input line 200, the solar panel 300, the controller 500 and the storage battery 400 are all connected with the inverter 100, the voltage input by the utility power input line is 220v, the inverter 100 is used for DC/AC converting the current input by the solar panel 300, the utility power input line 200 and the storage battery 400 and outputting the converted current to the controller 500 and the strong current output load 600, and the controller 500 is connected with the weak current output load 700 to supply power to the weak current output load 700 after converting the output voltage of the inverter 100.

The control circuit built in the inverter can be switched to the mains supply input line 200 in time when the storage battery and the solar panel 300 supply power under-voltage, so that the stability of the solar house in power supply is effectively ensured, and each power consumption load can stably output and operate.

In this embodiment, the strong current output load 600 includes an electric device with voltage of 220V, such as an air conditioner, a socket, a fan, and a heater, which are installed in a sunlight room, and the weak current output load 700 generally has an operating voltage of 12V-24V, and includes an electric roller shutter installed around the sunlight room, an electric louver installed on the roof of the sunlight room, an illumination unit installed in the room, and some household appliances such as an atomizer for controlling humidity.

In this embodiment, referring to fig. 2, the electric shutter shed is generally configured such that a plurality of linearly arranged shutters are rotatably disposed on a beam of the roof, and then the plurality of shutters are driven to rotate around a shaft at an end portion thereof by a motor, so that a light-transmitting and air-permeable gap is formed between adjacent shutters, and further the electric shutter shed is opened, and whether the motor is started electrically by the controller 500.

In this embodiment, in order to improve the intelligent degree of the sunlight room, a detection module 800 is further disposed on the sunlight room, and the detection module is electrically connected with the controller 500, for monitoring a plurality of external environmental parameters such as an external wind speed of the sunlight room, whether there is rainfall, illumination intensity, and the like, then generating detection data to the controller 500, comparing the detection data with the built-in data by the controller 500 to obtain an operation result, and starting a corresponding electric device in the weak current output load 700 to act according to the operation result.

Specifically, detection module 800 includes illumination intensity sensor, rain sensor and air velocity transducer, when the external illumination intensity that illumination intensity sensor detected is too big, controller 500 can control electronic shutter to close, with reduce indoor illumination area, avoid sunshine room to appear insolating the condition, when illumination intensity is weak at the time, with can opening lighting unit through controller 500, realize the function of automatic turn-on at night, and wind speed sensor and rain sensor can detect external wind speed and whether there is the rainfall, when detecting external rainfall or wind-force too big, controller 500 can control electronic shutter canopy and close, and then avoid external rainwater to enter into in the sunshine room, the effectual intelligent degree that improves the product.

In this embodiment, the lighting unit includes a plurality of lamps such as a lighting led lamp, an atmosphere lamp, and a meteor lamp.

In this embodiment, the detection module 800 may also be a temperature and humidity sensor disposed in a room, and the temperature and humidity sensor is used to detect the indoor temperature and humidity, and then the controller 500 controls the air conditioner or the heater to dehumidify the indoor temperature, or the detection module 800 may also include an air quality sensor, which may be used to detect the dust concentration or the carbon dioxide concentration in the air, and when the corresponding concentration exceeds the standard, the fan is controlled to operate, so as to ventilate the indoor air.

Referring to fig. 1, in order to facilitate personnel to monitor and control the working states of different output loads, the circuit system is further provided with a central control screen connected with the controller 500, the central control screen is used for converting each power source into DC12V power by the inverter 100, and the central control screen is connected with the controller 500, the strong current output load 600 and the weak current output load 700 by adopting an RS485 bus.

In this embodiment, when solar energy is directly supplied, DC/AC conversion is performed on the inverter 100 by solar power generation, 220VAC is output to supply power to an air conditioner, a heater and a fan, meanwhile, DC/DC48V of the inverter 100 is output to the controller 500, and DC/DC24V of the controller 500 supplies power to the weak current output load 700.

When powered by the 48V battery pack, DC/AC conversion is performed by the inverter 100, converting DC48V to AC220V to power 220V appliances, while DC48V powers the controller 500 and DC24V converts DC/DC of the power supply of the controller 500 to power appliances in the weak output load 700.

When the AC220V is directly supplied by the mains supply access line, the AC220V electric appliance can be directly supplied, the AC220V is converted into DC48V by the inverter 100 to supply power to the controller 500, and then the DC24V power is converted by the power supply of the controller 500 to supply power to the electric appliance of the weak current output load 700.

While the preferred embodiments of the present utility model have been described in detail, it is to be clearly understood that the same may be varied in many ways by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The sunlight room circuit system is characterized by comprising a commercial power input line, a controller, an inverter, a storage battery, a solar panel, a strong current output load and a weak current output load, wherein the commercial power input line, the solar panel, the controller and the storage battery are all connected with the inverter, the inverter is used for carrying out DC/AC conversion on current input by the solar panel, the commercial power input line and the storage battery and then outputting the converted current to the controller and the strong current output load, the controller is connected with the weak current output load so as to convert voltage input by the inverter and then supply power for the weak current output load, and an internal control circuit is arranged in the inverter so as to switch to the commercial power input line for supplying power when the storage battery supplies power and the solar panel supplies power under-voltage.

2. The solar room circuit system of claim 1 further comprising a detection module for monitoring an external environment to send detection data to a controller, the controller driving a weak current output load to start based on the detection data.

3. A sunlight house circuitry according to claim 2, wherein the detection module comprises a rain sensor, an illumination intensity sensor and a wind speed sensor provided on the sunlight house.

4. The sunlight room circuit system according to claim 1, further comprising a central control screen, wherein the central control screen is connected with the controller, the strong current output load and the weak current output load by adopting an RS485 bus, is used for displaying working states of the strong current output load and the weak current output load, and regulates and controls the weak current output load through the controller.

5. The solar room circuit system of claim 1, wherein said high power output load comprises at least one of an air conditioner, a socket, a heater, and a fan disposed within the solar room.

6. The solar room circuitry of claim 1, wherein the low-current output load comprises at least one of a motorized roller shade, a lighting unit, a motorized louver, and an atomizer disposed on the solar room.

7. The sunlight room circuit system of claim 6, wherein the electric louver shed is arranged on a roof of the sunlight room, and light-transmitting and ventilation opening or closing of the roof is achieved through overturning of louvers in the electric louver shed.