CN111654964A

CN111654964A - Garden illumination monitoring system

Info

Publication number: CN111654964A
Application number: CN202010462667.9A
Authority: CN
Inventors: 钱宸浩; 钱飞; 王竞娴; 赵云; 王爱民; 王朝阳; 陈小云
Original assignee: Dongtai Qiannong Greening Engineering Co ltd
Current assignee: Dongtai Qiannong Greening Engineering Co ltd
Priority date: 2020-05-27
Filing date: 2020-05-27
Publication date: 2020-09-11

Abstract

The invention discloses a garden illumination monitoring system which comprises a garden illumination circuit, a detection device, a processor, a memory, a controller, an alarm device and a display. The input end of the detection device is connected with the garden area lighting circuit, the output end of the detection device is connected with the input end of the processor, the first input end of the first output end display of the processor is connected, the second output end of the processor is connected with the first input end of the controller, and the third output end of the processor is connected with the first input end of the memory. The output end of the controller is connected with the input end of the alarm device, and the output end of the alarm device is connected with the second input end of the display. The first output end of the display is connected with the second input end of the controller, and the second output end of the display is connected with the second input end of the memory. The manual itinerant inspection is replaced, a large amount of time is saved, the long inspection position can be found in a short time, and the working efficiency is improved.

Description

Garden illumination monitoring system

Technical Field

The invention relates to the technical field of garden landscape lighting, in particular to a garden lighting monitoring system.

Background

With the continuous development of science and technology, the application of the intelligent monitoring system is more and more extensive, and the intelligent monitoring system is applied to the field of landscape lighting.

The number of the lighting lamps needed in the garden landscape lighting is large, the types of the lighting lamps are multiple, and different types of lamps are needed according to different application occasions. In the long-term working process of the lighting lamp, the lighting lamp can break down due to various reasons such as self failure, short circuit, open circuit, wet water inlet of a circuit, artificial treading and the like. Lamps with faults are found out from a great variety and quantity of lighting lamps, and manual inspection and maintenance are needed.

In the prior art, through the people often inspection round, discover and take notes the position of trouble lamps and lanterns, arrange the maintenance finally, but the problem that exists is: to the very big gardens of area, just need invest a large amount of manpower inspections and discover trouble lamps and lanterns, need consume longer time to whole gardens inspection simultaneously, cause the troubleshooting to consume long time, work efficiency is low.

Disclosure of Invention

In view of the above technical problems, an object of the present invention is to provide a garden lighting monitoring system, which searches for a lighting lamp according to a change of current.

The technical scheme of the invention is realized by isomorphism in the following modes:

a garden lighting monitoring system comprises a garden area lighting circuit, a detection device, a processor, a memory, a controller, an alarm device and a display. The input end of the detection device is connected with the garden area lighting circuit, the output end of the detection device is connected with the input end of the processor, the first input end of the first output end display of the processor is connected, the second output end of the processor is connected with the first input end of the controller, and the third output end of the processor is connected with the first input end of the memory. The output end of the controller is connected with the input end of the alarm device, and the output end of the alarm device is connected with the second input end of the display. The first output end of the display is connected with the second input end of the controller, and the second output end of the display is connected with the second input end of the memory.

The detection device detects the current value of the lighting circuit in the garden area, converts the current value into data information and transmits the data information to the processor, and the processor compares, analyzes and judges the data information and preset information to form result information and transmits the result information to the display, the controller and the memory respectively. The controller reads the result information, and sends a control instruction to the alarm device to control the alarm device to alarm. The alarm device gives an alarm to form alarm information and transmits the alarm information to the display. The display presents result information and alarm information. The memory stores result information.

The preset information is a current threshold value of the garden area lighting circuit preset in the processor. The control instruction is an instruction for controlling the alarm device to alarm by the controller. The alarm information is flashing light and buzzing when the alarm device gives an alarm.

Compared with the prior art, the invention has the beneficial effects that: the current value of the garden area lighting circuit is detected through the detection device, the processor compares and analyzes the current value with a preset current threshold value, whether the current value detected instantly by the detection device is within the current threshold value range is judged, whether the lighting circuit breaks down is obtained, result information formed by the processor is transmitted to the display, the controller and the memory respectively, the specific position of the fault is found through the display, meanwhile, the controller controls the alarm device to give an alarm according to the result information, and a worker is reminded of timely troubleshooting. The manual itinerant inspection is replaced, a large amount of time is saved, the long inspection position can be found in a short time, and the working efficiency is improved.

The method is further optimized as follows: the garden area lighting circuit comprises a plant lighting circuit, a square lighting circuit, a water body lighting circuit, a building lighting circuit, a road lighting circuit and a mountain lighting circuit, wherein the plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit are connected in parallel.

By adopting the technical scheme, circuits laid in each landscape in the garden are unified and regular by utilizing the garden area circuits, and the garden area is monitored conveniently for orderly and efficiently.

The method is further optimized as follows: the detection device comprises a first current sensor, a second current sensor, a third current sensor, a fourth current sensor, a fifth current sensor and a sixth current sensor. The first current sensor is electrically connected with the plant lighting circuit, the second current sensor is electrically connected with the square lighting circuit, the third current sensor is electrically connected with the water lighting circuit, the fourth current sensor is electrically connected with the building lighting circuit, the fifth current sensor is electrically connected with the road lighting circuit, and the sixth current sensor is electrically connected with the mountain lighting circuit.

By adopting the technical scheme, the current change conditions in the circuits of the detection devices are detected, and the detected circuits can be obtained according to the ohm law, so that whether the detected circuits break down or not is facilitated to further investigate the position of the fault of the illuminating lamp.

The method is further optimized as follows: the current value is an instantaneous current value of at least one of a plant lighting circuit, a square lighting circuit, a water body lighting circuit, a building lighting circuit, a road lighting circuit and a mountain lighting circuit.

By adopting the technical scheme, the plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit all have a total current value during normal working, and whether the circuit breaks down or not can be obtained according to the comparison between the total current value detected instantly and the total current value during normal working.

The method is further optimized as follows: the current threshold value is the current range when at least one of the plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit works normally.

By adopting the technical scheme, the detected total instantaneous current value is compared with the current threshold value, and whether the detected total instantaneous current value is within the range of the current threshold value is judged so as to judge whether the circuit has faults or not.

The method is further optimized as follows: the display is used for reading the result information and searching the result information stored in the memory, and the display stores an operation instruction in the memory, wherein the operation instruction is that a preset key is operated on the display and the alarm is controlled by the controller to cancel the alarm instruction.

By adopting the technical scheme, the display and the second input end of the second output end memory are connected in a two-way mode, and mutual information transmission is realized.

The method is further optimized as follows: the display comprises a picture of a garden area lighting circuit schematic diagram, a garden area picture and an alarm device picture.

By adopting the technical scheme, the worker can conveniently know the real-time lighting condition in the garden in time.

The method is further optimized as follows: still include plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, mountain body illumination area and monitoring device, monitoring device respectively with plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, mountain body illumination area are connected, monitoring device is with the illumination information of at least one in control plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, the mountain body illumination area, illumination information is the switch of illumination lamp in plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area and the mountain body illumination area.

Adopt above-mentioned technical scheme, fall into the plant illumination area with the garden area, square illumination area, water illumination area, building illumination area, road illumination area, massif illumination area, convenient orderly management, to plant illumination area respectively through monitoring device, square illumination area, water illumination area, building illumination area, road illumination area, massif illumination area monitors, the realization is monitored and is targeted in place, save the trouble of manpower inspection of patrolling, simultaneously for providing the video foundation through the current value investigation trouble of detecting, make things convenient for staff's troubleshooting trouble, and the work efficiency is improved.

The method is further optimized as follows: the monitoring device comprises a plant illumination monitor, a square illumination monitor, a water body illumination monitor, a building illumination monitor, a road illumination monitor and a mountain body illumination monitor which are connected in parallel and electrically connected with the monitoring device.

Adopt above-mentioned technical scheme, monitor every region in gardens area respectively through plant illumination watch-dog, square illumination watch-dog, water illumination watch-dog, building illumination watch-dog, road lighting watch-dog and massif illumination watch-dog, realized real time monitoring gardens area, master the good effect of gardens area illumination condition at any time.

The method is further optimized as follows: the number of the plant lighting monitor, the square lighting monitor, the water body lighting monitor, the building lighting monitor, the road lighting monitor and the mountain lighting monitor is at least one.

By adopting the technical scheme, according to the size or the actual requirement of each area, the number of the plant illumination monitor, the square illumination monitor, the water body illumination monitor, the building illumination monitor, the road illumination monitor and the mountain body illumination monitor is set, the condition of effectively monitoring the illumination of the garden area is achieved, and the good effect of monitoring in place is ensured.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a schematic diagram of a garden lighting circuit according to the present embodiment;

FIG. 3 is a diagram illustrating a view of a garden area on the display according to the present embodiment;

FIG. 4 is a schematic diagram of a screen of an alarm device on a display according to the embodiment;

fig. 5 is a block diagram of the monitoring device according to the present embodiment.

Detailed Description

The technical solution of the present invention is further explained with reference to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5.

A garden illumination monitoring system is used for monitoring and troubleshooting garden illumination conditions, and comprises a garden illumination circuit, a detection device, a processor, a memory, a controller, an alarm device and a display, wherein the processor is used for processing garden illumination conditions. The input end of the detection device is connected with the garden area lighting circuit, the output end of the detection device is connected with the input end of the processor, the first input end of the first output end display of the processor is connected, the second output end of the processor is connected with the first input end of the controller, and the third output end of the processor is connected with the first input end of the memory. The output end of the controller is connected with the input end of the alarm device, and the output end of the alarm device is connected with the second input end of the display. The first output end of the display is connected with the second input end of the controller, and the second output end of the display is connected with the second input end of the memory.

As shown in fig. 2, the lighting circuit in the garden area includes a plant lighting circuit, a square lighting circuit, a water body lighting circuit, a building lighting circuit, a road lighting circuit and a mountain lighting circuit, and the plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit are connected in parallel. The circuits laid in each landscape in the garden are unified and regular by utilizing the garden area circuits, and the garden area monitoring system is convenient for monitoring the lighting condition of the garden area in an orderly and efficient manner.

The detection device comprises a first current sensor, a second current sensor, a third current sensor, a fourth current sensor, a fifth current sensor and a sixth current sensor. The first current sensor is electrically connected with the plant lighting circuit, the second current sensor is electrically connected with the square lighting circuit, the third current sensor is electrically connected with the water lighting circuit, the fourth current sensor is electrically connected with the building lighting circuit, the fifth current sensor is electrically connected with the road lighting circuit, and the sixth current sensor is electrically connected with the mountain lighting circuit. The first current sensor is used for detecting the change situation of the current value in the plant lighting circuit, the second current sensor is used for detecting the change situation of the current value in the square lighting circuit, the third current sensor is used for detecting the change situation of the current value in the water body lighting circuit, the fourth current sensor is used for detecting the change situation of the current value in the building lighting circuit, the fifth current sensor is used for detecting the change situation of the current value in the road lighting circuit, the sixth current sensor is used for detecting the change situation of the current value in the mountain lighting circuit, the current change situations in the circuits of the sixth current sensor are detected through the detection device, the detection device can obtain the change situation according to the ohm law, whether the detected circuit breaks down or not, and the.

The current value is an instantaneous current value of at least one of a plant lighting circuit, a square lighting circuit, a water body lighting circuit, a building lighting circuit, a road lighting circuit and a mountain lighting circuit. The plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit all have a total current value during normal work, and whether the circuit breaks down or not can be obtained according to the comparison between the total current value detected instantly and the total current value during normal work.

The current threshold value is the current range when at least one of the plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit works normally. And comparing the detected instantaneous current total value with a current threshold value to judge whether the current is in the range of the current threshold value, so as to judge whether the circuit has faults.

The display is used for reading the result information and searching the result information stored in the memory, and the display stores an operation instruction in the memory, wherein the operation instruction is that a preset key is operated on the display and the alarm is controlled by the controller to cancel the alarm instruction. And the display is connected with the second input end of the second output end memory in a bidirectional way, so that mutual transmission of information is realized.

The display includes gardens area lighting circuit schematic diagram picture, gardens area picture and alarm device picture, as shown in fig. 3, makes things convenient for the staff in time to know the real-time illumination condition in the gardens area. Still include plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, mountain body illumination area and monitoring device, as shown in fig. 4, monitoring device respectively with plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, mountain body illumination area are connected, monitoring device is with the illumination information of at least one in monitoring plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, the mountain body illumination area, illumination information is the switch of the illumination lamp in plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area and the mountain body illumination area. Divide into plant illumination area with the garden area, square illumination area, water illumination area, building illumination area, road illumination area, massif illumination area, convenient orderly management, through monitoring device respectively to plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, massif illumination area monitor, the realization is monitored and is targeted in place, save the trouble of manpower inspection of patrolling, simultaneously for providing the video foundation through detecting current value troubleshooting trouble, make things convenient for staff's troubleshooting trouble, and the work efficiency is improved.

As shown in fig. 5, the monitoring device includes a plant lighting monitor, a plaza lighting monitor, a water body lighting monitor, a building lighting monitor, a road lighting monitor and a mountain lighting monitor, and the plant lighting monitor, the plaza lighting monitor, the water body lighting monitor, the building lighting monitor, the road lighting monitor and the mountain lighting monitor are connected in parallel and electrically connected with the monitoring device. Through plant illumination watch-dog, square illumination watch-dog, water illumination watch-dog, building illumination watch-dog, road lighting watch-dog and massif illumination watch-dog every region to the garden monitors respectively, has realized real time monitoring garden, masters the good effect of garden lighting conditions at any time.

The number of the plant lighting monitor, the square lighting monitor, the water body lighting monitor, the building lighting monitor, the road lighting monitor and the mountain lighting monitor is at least one. According to the size or the actual need of every regional area, set up the quantity of plant illumination watch-dog, square illumination watch-dog, water body illumination watch-dog, building illumination watch-dog, road lighting watch-dog and massif illumination watch-dog, reach the condition of effectively monitoring the gardens illumination, ensure to monitor the good effect that targets in place.

The current value of the garden area lighting circuit is detected through the detection device, the processor compares and analyzes the current value with a preset current threshold value, whether the current value detected instantly by the detection device is within the current threshold value range is judged, whether the lighting circuit breaks down is obtained, result information formed by the processor is transmitted to the display, the controller and the memory respectively, the specific position of the fault is found through the display, meanwhile, the controller controls the alarm device to give an alarm according to the result information, and a worker is reminded of timely troubleshooting. The manual itinerant inspection is replaced, a large amount of time is saved, the long inspection position can be found in a short time, and the working efficiency is improved.

The present embodiment is only for explaining the invention, and it is not limited to the invention, and those skilled in the art can make modifications to the embodiment as necessary without inventive contribution after reading the present specification, but all of them are protected by the patent law within the scope of the present invention.

Claims

1. The utility model provides a gardens illumination monitored control system which characterized in that: the garden area illumination device comprises a garden area illumination circuit, a detection device, a processor, a memory, a controller, an alarm device and a display; the input end of the detection device is connected with the garden area lighting circuit, the output end of the detection device is connected with the input end of the processor, the first output end of the processor is connected with the first input end of the display, the second output end of the processor is connected with the first input end of the controller, and the third output end of the processor is connected with the first input end of the memory; the output end of the controller is connected with the input end of the alarm device, and the output end of the alarm device is connected with the second input end of the display; the first output end of the display is connected with the second input end of the controller, and the second output end of the display is connected with the second input end of the memory;

the detection device detects the current value of the garden area lighting circuit, converts the current value into data information and transmits the data information to the processor, the processor compares, analyzes and judges the data information and preset information to form result information, and the result information is respectively transmitted to the display, the controller and the memory; the controller reads the result information, sends a control instruction to the alarm device and controls the alarm device to alarm; the alarm device alarms to form alarm information and transmits the alarm information to the display; the display presents the result information and the alarm information; the memory stores the result information;

the preset information is a preset current threshold value of the garden area lighting circuit in the processor; the control instruction is an instruction for controlling the alarm device to alarm by the controller; the alarm information is flashing light and buzzing when the alarm device gives an alarm.

2. The garden lighting monitoring system of claim 1, wherein: the garden area lighting circuit includes plant lighting circuit, square lighting circuit, water lighting circuit, building lighting circuit, road lighting circuit and massif lighting circuit, plant lighting circuit square lighting circuit water lighting circuit building lighting circuit road lighting circuit and massif lighting circuit connect in parallel each other.

3. The garden lighting monitoring system of claim 2, wherein: the detection device comprises a first current sensor, a second current sensor, a third current sensor, a fourth current sensor, a fifth current sensor and a sixth current sensor; the first current sensor is electrically connected with the plant lighting circuit, the second current sensor is electrically connected with the square lighting circuit, the third current sensor is electrically connected with the water body lighting circuit, the fourth current sensor is electrically connected with the building lighting circuit, the fifth current sensor is electrically connected with the road lighting circuit, and the sixth current sensor is electrically connected with the mountain lighting circuit.

4. The garden lighting monitoring system of claim 2, wherein: the current value is an instantaneous current value of at least one of the plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit.

5. The garden lighting monitoring system of claim 2, wherein: the current threshold is the current range when at least one of the plant lighting circuit, the square lighting circuit, the water body lighting circuit, the building lighting circuit, the road lighting circuit and the mountain lighting circuit works normally.

6. The garden lighting monitoring system of claim 1, wherein: the display is used for reading the result information and searching the result information stored in the memory, and the display stores an operation instruction in the memory, wherein the operation instruction is that a preset key is operated on the display and the alarm is controlled by the controller to cancel an alarm instruction.

7. The garden lighting monitoring system of claim 1, wherein: the display comprises a picture of the garden area lighting circuit schematic diagram, a picture of the garden area and a picture of the alarm device.

8. The garden lighting monitoring system of claim 1, wherein: still include plant illumination area, square illumination area, water illumination area, building illumination area, road illumination area, mountain body illumination area and monitoring device, monitoring device respectively with plant illumination area the square illumination area the water illumination area the building illumination area the road illumination area the mountain body illumination area is connected, monitoring device is with the control plant illumination area the square illumination area the water illumination area the building illumination area the road illumination area the illumination information of at least one in the mountain body illumination area, illumination information is the plant illumination area the square illumination area the water illumination area the building illumination area the road illumination area the mountain body illumination area, illumination information is the switch of illumination lamp in the plant illumination area the square illumination area the water illumination area the building illumination area the road illumination area and the mountain body illumination area.

9. The garden lighting monitoring system of claim 8, wherein: the monitoring device comprises a plant lighting monitor, a square lighting monitor, a water body lighting monitor, a building lighting monitor, a road lighting monitor and a mountain body lighting monitor, wherein the plant lighting monitor, the square lighting monitor, the water body lighting monitor, the building lighting monitor, the road lighting monitor and the mountain body lighting monitor are connected in parallel and are electrically connected with the monitoring device.

10. The garden lighting monitoring system of claim 9, wherein: the number of the plant lighting monitor, the square lighting monitor, the water body lighting monitor, the building lighting monitor, the road lighting monitor and the mountain lighting monitor is at least one.