CN205878022U - Intelligence electricity generation street lamp watering device - Google Patents

Abstract

The utility model discloses an intelligence electricity generation street lamp watering device, including well hollow leg, lighting system, battery connection, singlechip, wind power generation system, rainwater power generation system, solar energy power generation system and blade, aerogenerator is connected with the battery, rainwater power generation system includes top rainwater bin, bottom rainwater bin, pressure sensor, a plurality of hydropower machine, the hydropower machine is connected with the battery, solar electric system includes curved solar energy baffle, install through axle and bearing frame at the both ends of solar energy baffle on the rainwater bin of top, the rainwater sprinkling system includes temperature sensor, a plurality of spraying nozzle and water pump, ambient temperature and the work of aridity information control pump that the singlechip sent according to temperature sensor. The utility model discloses follow the electricity generation and wind power generation combines together with rainwater electricity generation, solar energy, realizes that street lamp illumination and two kind clean functions, play the effect of optimizing the traffic.

Description

A kind of sprinkler device for intelligent hair circuit lamp

technical field

The utility model belongs to the field of energy technology, and in particular relates to a sprinkler device for an intelligent power generation circuit lamp.

Background technique

Nowadays, as far as the sprinkler is concerned, it takes a lot of manpower and material resources to clean the road, and wastes a lot of water resources, but it only plays the role of cleaning the road, which is a bit overkill and a waste of resources.

At present, solar street lights are more and more widely used, but the effect of power generation as street lights has not been fully reflected: on the one hand, solar street lights have not yet fully realized follow-up power generation, and on the other hand, solar street lights rely on weather conditions. disadvantages. The application of wind energy street lamps is relatively popular, and the technology is relatively mature, but the energy form is too single, and it is too dependent on a single energy source, which can be described as a major defect.

Utility model content

The purpose of this utility model is to provide an intelligent sprinkler device for circuit lamps, which combines rainwater power generation, solar power generation and wind power generation, and realizes two functions of street lamp lighting and cleaning. Monitoring can achieve the effect of intelligentization and multi-function of street lighting devices, which can liberate corresponding manpower and material resources, save water resources, and play a role in optimizing traffic.

The technical scheme that the utility model solves its technical problem adopts is:

An intelligent sprinkler device for circuit lights, the device includes a hollow pillar with a bent portion on the top, a lighting system is provided at the end of the bent portion of the hollow pillar, the lighting system is connected to a battery, and the device also includes A single-chip microcomputer, a wind power generation system, a rainwater power generation system, a solar power generation system and a rainwater spraying system arranged on the hollow pillar;

The wind power generation system includes a wind generator arranged on the top of the hollow pillar and blades installed on the wind generator, and the wind generator is connected to a storage battery;

The rainwater power generation system includes a top rainwater storage tank installed on the top of the hollow pillar, a bottom rainwater storage tank installed at the bottom of the hollow pillar, a pressure sensor set in the top rainwater storage tank, a pressure sensor set in the hollow A number of hydraulic generators in the pillar, the top rainwater storage tank is provided with a rainwater inlet and a rainwater outlet, and the rainwater outlet of the top rainwater storage tank is connected to the inlet of the bottom rainwater storage tank through a hollow pillar, and the hydraulic generator is connected to the bottom rainwater storage tank. The battery is connected, and the single-chip microcomputer controls the water conservancy generator to generate electricity through water according to the water pressure information sent by the pressure sensor;

The solar power generation system includes an arc-shaped solar partition connected to the storage battery, the two ends of the solar partition are installed on the top rainwater storage tank through a shaft and a bearing seat, and the solar partition is located on the top rainwater storage tank. There is an automatic water inlet door at the rainwater inlet of the storage tank;

The rainwater sprinkler system includes a temperature sensor, a plurality of sprinkler heads arranged in a half circle around the bottom rainwater storage tank, and a water pump connected to the sprinkler head, and the single-chip microcomputer controls the water pump according to the external temperature and dryness information sent by the temperature sensor Work.

According to the above technical solution, a baffle is installed at the rainwater outlet on the top rainwater storage tank, a second pressure sensor is arranged in the bottom rainwater storage tank, and the single-chip microcomputer controls the Bezel switch.

According to the above technical solution, the lighting system includes a lampshade and an LED lamp, and a photoresistor is arranged on the surface of the lampshade.

According to the above technical solution, the number of the sprinklers is three, and they are arranged on the bottom rainwater storage tank at an interval of 60 degrees.

According to the above technical solution, the solar power generation system further includes a rotating mechanism that rotates the solar partition around the axis, and the rotating mechanism includes a motor vertically arranged on the top rainwater storage tank and a worm gear connected to the motor Assemblies, under the control of the single-chip microcomputer, the motor transmits the torque to the shaft through the worm gear assembly, driving the solar partition to rotate by 180°.

The utility model has the following beneficial effects: the utility model optimizes a series of unreasonable conditions under the current traffic situation under the condition of greatly reducing costs and saving energy, and combines rainwater power generation, solar follow-up power generation and wind power generation to realize street light Lighting and cleaning are two functions in one, using mechanical transmission theory, multi-sensor and multi-single-chip real-time monitoring, to achieve the effect of intelligent and multi-functional street lighting devices, which can liberate the corresponding manpower and material resources, and realize functionally In order to replace the sprinkler, save water resources, rely on continuous street lights to achieve the effect of cleaning, cooling and protecting the road, rationally allocate resources, reduce the cost of maintaining the road, simplify the use process, and rationalize the traffic configuration , which helps to improve the nursing status of the current roads. It has the characteristics of compact structure, high energy utilization rate, good stability, strong versatility, flexible placement, and reasonable resource allocation. It has high economic value and energy-saving effect.

Description of drawings

The utility model will be further described below in conjunction with accompanying drawing and embodiment, in the accompanying drawing:

Fig. 1 is the three-dimensional figure of the utility model embodiment;

Fig. 2 is the side view of the utility model embodiment;

Fig. 3 is the top view of the utility model embodiment;

Fig. 4 is the front view of the utility model embodiment.

In the figure: 1-wind power generation system, 2-solar partition, 3-top rainwater storage tank, 4-hollow pillar, 5-LED lights, 6-bottom rainwater storage tank, 7-sprinkler nozzle, 8-axis, 9- Bearing block, 10-water inlet automatic door.

detailed description

In order to make the purpose, technical solution and advantages of the utility model clearer, the utility model will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the utility model, and are not intended to limit the utility model.

In a preferred embodiment of the present utility model, as shown in Fig. 1-Fig. 4, a sprinkler device for an intelligent electric circuit lamp, the device includes a hollow prop 4 with a bent part on the top, the hollow prop plays a supporting role, and the hollow prop The end of the bending part of 4 is provided with a lighting system, and the lighting system is connected to a storage battery. The device also includes a single-chip microcomputer arranged on the hollow pillar 4, a wind power generation system 1, a rainwater power generation system, a solar power generation system and a rainwater spraying system;

The wind power generation system 1 includes a wind generator installed on the top of the hollow pillar 4 and blades installed on the wind generator, the wind generator is connected to the storage battery, wherein the rear end of the blade part is provided with a rudder surface to realize the direction adjustment of the blade; wind power generation The machine has the advantages of quietness, low failure rate, stable power generation, etc., combined with the other two energy supply methods, to realize the concept of multi-energy power generation;

The rainwater power generation system includes a top rainwater storage tank 3 installed on the top of the hollow pillar 4, a bottom rainwater storage tank 6 installed at the bottom of the hollow pillar 4, a pressure sensor installed in the top rainwater storage tank, and a number of hydropower generators installed in the hollow pillar. The top rainwater storage tank is equipped with a rainwater inlet and a rainwater outlet. The rainwater outlet of the top rainwater storage tank is connected to the inlet of the bottom rainwater storage tank through a hollow pillar. The hydraulic generator is connected to the battery. Control the water conservancy generator to pass water to generate electricity. When the pressure of the rainwater storage tank on the top is greater than a certain preset value, the pressure sensor will inform the single-chip microcomputer to carry out water flow to generate electricity. The water conservancy generator is placed in the hollow pillar and uses the gravitational potential energy of water to generate electricity. Rainwater enters the bottom rainwater storage tank after passing through the hydroelectric generator;

The solar power generation system includes an arc-shaped solar partition 2 connected to the battery, which can realize solar power generation and rainwater collection. The two ends of the solar partition 2 are installed on the top rainwater storage tank 3 through the shaft 8 and the bearing seat 9. The solar energy The partition 2 is located at the rainwater inlet of the top rainwater storage tank 3 and is provided with an automatic water inlet door 10;

The rainwater sprinkler system includes a temperature sensor, a plurality of sprinkler nozzles 7 arranged in a half circle around the bottom rainwater storage tank, and a water pump connected to the sprinkler nozzle. The single-chip microcomputer controls the work of the water pump according to the external temperature and dryness information sent by the temperature sensor. After reaching a certain value, the single-chip microcomputer controls the water pump to work, and the nozzle sprays water for cleaning.

In a preferred embodiment of the present utility model, as shown in Figure 1, a baffle plate is installed at the rainwater outlet on the top rainwater storage tank 3, and a second pressure sensor is arranged in the bottom rainwater storage tank 6, and the single-chip microcomputer according to the second pressure sensor The sent pressure information controls the flapper switch. When the top rainwater storage tank is full, the second pressure sensor senses the pressure and sends the data to the single-chip microcomputer, and the single-chip microcomputer controls the baffle to close.

In a preferred embodiment of the present utility model, as shown in Fig. 1 and Fig. 2, the lighting system includes a lampshade and an LED lamp 5, and a photoresistor is provided on the surface of the lampshade to sense light in real time to control the brightness of the LED lamp.

In a preferred embodiment of the present invention, as shown in FIG. 1 , there are three sprinkler heads 7 arranged on the bottom rainwater storage tank 6 at intervals of 60 degrees.

In a preferred embodiment of the present utility model, as shown in Figure 1, the solar power generation system also includes a rotating mechanism that makes the solar panel 2 rotate around the axis 8, and the rotating mechanism includes a motor that is vertically arranged on the top rainwater storage tank and is connected with The worm gear assembly connected to the motor, under the control of the single-chip microcomputer, the motor transmits the torque to the shaft through the worm gear assembly, driving the solar partition to rotate 180°.

The solar partition is designed with arcs on both sides to ensure that the solar partition can fully absorb sunlight according to the optical principle. The solar partition is connected to the motor bearing seat through the two shafts installed on the web; the motor bearing is installed under the fixed bearing. There is a small motor, and the small motor transmits the torque to the shaft in the horizontal direction through the worm gear mechanism, so that the shaft can rotate 180 degrees with the motor. According to the relevant principles of the solar tracking system, the single-chip microcomputer can be used to control the motor to do 180-degree following movement. To achieve the effect of fully absorbing light energy.

The utility model utilizes a wind power generation system, a rainwater power generation system and a solar power generation system to convert wind energy, solar energy and water gravitational potential energy into electric energy, which is used for the working energy supply of LED lamps (photosensitive lamps); the excess energy generated will be Stored in accumulators inside the hollow pillars.

The top rainwater storage tank temporarily stores the rainwater collected by the solar panels, and transfers it to the bottom rainwater storage tank through the hollow pillar, during which the gravitational potential energy of water is converted into electrical energy. The temperature sensor on the sprinkler head senses the external temperature and dryness. When the temperature and dryness reach a certain value, the single-chip microcomputer works to control the water pump to transfer water from the bottom rainwater storage tank to the sprinkler head for cleaning.

The utility model can realize the multi-energy power generation function: the multi-energy power generation function is composed of a solar energy conversion device, a wind energy conversion device, a water gravity potential energy conversion device and a storage battery. The above-mentioned three kinds of energy are all clean energy, and the technology is relatively mature, and the all-weather work of the intelligent power generation circuit light sprinkler device is realized through three power generation methods. Road cleaning is to use rainwater to absorb rainwater in rainy days and store it after generating electricity. When the weather is hot or the road surface needs to be cleaned, the sprinkler works.

The utility model combines rainwater power generation, wind power generation and solar follow-up power generation, and can use a variety of intelligent sensors to sense changes in pressure, temperature and light and related mechanical knowledge, so as to realize the functions of intelligent power generation, intelligent sprinkling and intelligent lighting. The whole device achieves the effect of intelligent energy saving, and also enables it to work around the clock. At the same time, the utility model integrates the design of rainwater spraying, which can effectively improve the utilization rate of rainwater, and achieve the effects of rational utilization of resources, energy saving and emission reduction.

It should be understood that those skilled in the art can make improvements or changes based on the above description, and all these improvements and changes should belong to the protection scope of the appended claims of the present utility model.

Claims (5)

1. A sprinkler device for intelligent electric circuit lamps, the device comprises a hollow pillar with a bent portion at the top, and a lighting system is provided at the end of the bent portion of the hollow pillar, and the lighting system is connected with a storage battery, its features In that, the device also includes a single-chip microcomputer arranged on the hollow pillar, a wind power generation system, a rainwater power generation system, a solar power generation system and a rainwater spraying system; The wind power generation system includes a wind generator arranged on the top of the hollow pillar and blades installed on the wind generator, and the wind generator is connected to a storage battery; The rainwater power generation system includes a top rainwater storage tank installed on the top of the hollow pillar, a bottom rainwater storage tank installed at the bottom of the hollow pillar, a pressure sensor set in the top rainwater storage tank, a pressure sensor set in the hollow A number of hydraulic generators in the pillar, the top rainwater storage tank is provided with a rainwater inlet and a rainwater outlet, and the rainwater outlet of the top rainwater storage tank is connected to the inlet of the bottom rainwater storage tank through a hollow pillar, and the hydraulic generator is connected to the bottom rainwater storage tank. The battery is connected, and the single-chip microcomputer controls the water conservancy generator to generate electricity through water according to the water pressure information sent by the pressure sensor; The solar power generation system includes an arc-shaped solar partition connected to the storage battery, the two ends of the solar partition are installed on the top rainwater storage tank through a shaft and a bearing seat, and the solar partition is located on the top rainwater storage tank. There is an automatic water inlet door at the rainwater inlet of the storage tank; The rainwater sprinkler system includes a temperature sensor, a plurality of sprinkler heads arranged in a half circle around the bottom rainwater storage tank, and a water pump connected to the sprinkler head, and the single-chip microcomputer controls the water pump according to the external temperature and dryness information sent by the temperature sensor Work. 2. The device according to claim 1, characterized in that a baffle is installed at the rainwater outlet on the top rainwater storage tank, a second pressure sensor is arranged in the bottom rainwater storage tank, and the single-chip microcomputer according to the first The pressure information sent by the two pressure sensors controls the flapper switch. 3. The device according to claim 1, wherein the lighting system comprises a lampshade and an LED lamp, and a photoresistor is arranged on the surface of the lampshade. 4. The device according to claim 1, characterized in that, the number of the sprinklers is three, and they are arranged on the bottom rainwater storage tank at an interval of 60 degrees. 5. The device according to claim 1, wherein the solar power generation system further comprises a rotating mechanism to rotate the solar partition around the axis, and the rotating mechanism includes a vertically arranged on the top rainwater storage tank The motor and the worm gear assembly connected with the motor, under the control of the single-chip microcomputer, the motor transmits the torque to the shaft through the worm gear assembly to drive the solar partition to rotate by 180°.