CN216516553U - Automatic rainshelter based on solar power supply - Google Patents

Abstract

The utility model discloses an automatic rain shelter based on solar power supply, which comprises an extensible flexible canopy surface, two electric push rods, two fixers, a tail metal body with a cavity, a power supply module and a canopy opening module, wherein the power supply module is connected with the tail metal body; the same end on two electric putter is fixed connection respectively in the afterbody metal body to and the interval between the interval and the relative both sides limit each other on the flexible canopy face of can stretching suits between two electric putter, one end difference swing joint in afterbody metal body both ends on two fixers, power module and division canopy module are connected and are installed in the cavity of afterbody metal body, and power module supplies power for division canopy module, and division canopy module and two electric putter are connected for drive two electric putter synchronous telescope. The utility model improves the collection of energy sources by adopting solar power supply, adds a Wi-Fi module to realize remote control to open or close the rain shelter, and adds a canopy opening device controlled by a resistance-type humidity sensor to further upgrade the automatic canopy opening.

Description

Automatic rainshelter based on solar power supply

Technical Field

The utility model belongs to the field of automation equipment, and particularly relates to an automatic rain shelter based on solar power supply.

Background

The rain shelter is an essential object for the family life of people, and can be convenient for people to shield wind and rain for electronic products or clothes which are not dried and can not enter the room. People can go out with ease without worry. Along with the continuous improvement of the social science and technology level, the smart home has been continuously rushed into the life of people. Home automation has become an indispensable part of most human lives. Under the demand of corresponding people at this time, traditional rainshelter function is more single to it is not enough automatic. For example, if extreme weather occurs when people go out, clothes or electronic equipment in a house are stored outdoors, which easily causes the clothes or electronic equipment to be infected by rainwater, and causes great inconvenience to life of people.

However, most of the common rain shelters in the market are purely manual, so that the common rain shelters are inconvenient and not automatic enough. However, with the continuous progress and development of society, many patents and papers have been made on the technical field of rainshelters. For example, the utility model patent of utility model publication No. CN206737474U, "a flexible canopy of lining up of intelligent silver-colored pavilion", its adoption improves on the structure of canopy itself, makes it can improve the shortcoming that most existing canopy of lining up used can not stretch out and draw back, makes it can increase or reduce according to the demand. However, in terms of automation, the control can be only manually performed, and the control is not convenient enough. For another example, utility model patent of publication No. CN207892039U "a flexible rack of intelligence rainshelter", it improves on rainshelter's expansion bracket for the rainshelter can be opened through electric putter is automatic, opens the manual work and changes into automatic opening, very big improvement the automated performance, nevertheless in the aspect of the energy supply, adopt battery powered simply, the environmental protection is not enough in the power supply. And the canopy is also not intelligent enough, still needs the people to participate in it.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic rain shelter based on solar power supply to solve the existing timely problem. The resistance-type humidity sensor arranged in the rain shelter can monitor the change of humidity in the air after the rain shelter meets rainy weather, so that the rain shelter is automatically opened, and certain objects which are not rain-proof are prevented from being corroded by rainwater. Meanwhile, the open state of the rainshelter can be monitored according to the Wi-Fi module arranged inside, and the rainshelter can be remotely opened and closed through a mobile phone. The solar storage battery pack is arranged in the rain shelter in the aspect of energy utilization, and can continuously convert light energy into electric energy to be stored in the storage battery, so that the energy utilization rate is maximized, and the consumption of non-renewable energy is greatly reduced.

In order to solve the technical problem, the utility model provides an automatic rain shelter based on solar power supply, which comprises an extensible flexible canopy surface, two electric push rods, two fixers, a tail metal body with a cavity, a power supply module and a canopy opening module, wherein the power supply module is arranged at the tail of the canopy surface; the same ends of the two electric push rods are respectively and fixedly connected with the tail metal body, the connecting line of the ends of the two electric push rods is vertical to the straight line where each electric push rod is positioned, the distance between the two electric push rods is matched with the distance between two opposite side edges of the extensible flexible shed surface, and the two side edges of the extensible flexible shed surface are respectively connected with the two electric push rods 5; one end of each of the two fixing devices 7 is movably connected with two ends of the tail metal body, and the other end of each of the two fixing devices is connected with a fixed building at the position where the automatic rain shelter is arranged; the tail metal body rotates by taking a connecting line at two ends of the tail metal body as a shaft;

as a preferred technical scheme of the utility model, the power supply module comprises an interface power supply module, a lithium battery and a charging interface, the interface power supply module and the lithium battery are arranged in the tail metal body, the charging interface is arranged on the outer surface of the tail metal body, the interface power supply module, the charging interface and the lithium battery are sequentially connected, the charging interface is externally connected with a power supply to charge the lithium battery, and the interface power supply module supplies power to the shed opening module.

As a preferred technical scheme of the utility model, the power supply module comprises a solar power supply module, a solar storage battery pack and a solar generation module, wherein the solar power supply module and the solar storage battery pack are arranged in the tail metal body, and the solar generation module is arranged on the outer surface of the tail metal body; the solar energy generating module is used for carrying out photoelectric conversion and storing electric energy in the solar storage battery pack, and the solar power supply module is connected with the shed opening module and supplies power to the shed opening module.

As a preferred technical scheme of the utility model, the Wi-Fi module is positioned in the cavity of the tail metal body and is connected with the shed opening module.

As another preferable technical scheme of the utility model, the solar greenhouse further comprises a resistance-type humidity sensor, wherein the resistance-type humidity sensor is positioned on the surface of the tail metal body and is connected with the greenhouse opening module.

As a preferable technical scheme of the utility model, the manual button switch is positioned on the surface of the tail metal body and is connected with the power supply module and the shed opening module.

As a preferred technical scheme of the utility model, the stretchable flexible shed surface is a PU silver glue coating.

As a preferable technical solution of the present invention, the tail metal body is made of 420 stainless steel.

The method comprises the following steps of opening a greenhouse by the Wi-FI module, opening the greenhouse by the resistance type humidity sensor and manually opening the greenhouse. The power supply module comprises an interface power supply module and a solar power supply module. The solar storage battery pack, the solar energy generation module and the interface power supply module are arranged in a metal body cavity at the tail part of the rain shelter. In the sunny weather, when sunlight irradiates on a PN junction of the solar energy generation module, the generated light energy is converted into electric energy through a series of operations and stored in the solar storage battery pack, then the solar storage battery pack is converted into the electric energy through chemical energy, and the electric energy is supplied to the energy which needs to be consumed when the shed is opened through a lead. The core components of the equipment are stored in the metal body at the tail of the rain shelter, so the metal body is made of 420 stainless steel, has the advantages of ultrahigh wear resistance, corrosion resistance, strong hardness, low price and the like, and is suitable for being placed in outdoor working environment for a long time. The storage battery in the metal body consists of two batteries, wherein one battery is used as a solar storage battery pack 4 and is used as a solar power supply module. The other lithium battery is used for supplying power to the interface, and the external power supply is connected with the charging interface to obtain electric energy.

The resistance-type humidity sensor is opened, and the humidity sensor sensitively senses the change of the humidity in the air before raining. So that the resistance is reduced and the circuit is closed. The electric push rod is electrified and pushed out, and then the shed surface is unfolded.

The Wi-Fi module is opened, the rain shelter is connected with the network, people can see the opening state of the rain shelter from a mobile phone carried with the people, and can remotely open or close the rain shelter.

The outside of the metal body is provided with a total manual button switch, all power supplies of the rain shelter can be cut off by pressing the manual button switch upwards, the rain shelter is retracted, and the rain shelter can be opened manually by pressing downwards.

The whole cloth of the shed surface adopts a PU silver adhesive coating. In daily household life, the fabric has the advantages of high-quality ductility, high water pressure resistance, good waterproofness, firmness and the like while being relatively low in cost.

Compared with the prior art, the automatic canopy capable of converting light energy into electric energy is provided based on the solar power supply effect, the solar energy generation module is installed in the metal body at the tail of the canopy surface to form the light energy power generation device, and the solar storage battery pack is used for storing electric power. The tail metal body is also provided with a common lithium battery block and a charging interface, and can be directly powered by a power supply. The rightmost end of the tail metal body is provided with a resistance-type humidity sensor, and the rain shelter can be automatically opened when meeting the change of enough humidity in the air. And the opening and closing states of the rain shelter can be monitored through the portable electronic equipment through the Wi-Fi module arranged in the tail metal body, and remote operation can be carried out on the opening and closing states. The rainwater-proof protective cover effectively prevents people from being at home and protects some articles which are not corroded by rainwater if extreme weather occurs.

Drawings

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings

FIG. 1 is an overall design of the present invention;

FIG. 2 is a functional diagram of the present invention;

FIG. 3 is a block diagram of a solar power module of the present invention;

in the figure:

the solar intelligent greenhouse comprises a 1-resistance type humidity sensor, a 2-manual button switch, a 3-Wi-Fi module, a 4-solar storage battery pack, a 5-electric push rod, a 6-extensible flexible greenhouse surface, a 7-fixer, an 8-charging interface, a 9-lithium battery and a 10-tail metal body.

Detailed Description

The technical solution of the present invention is clearly and completely described by the following embodiments.

The overall design diagram of the automatic awning based on solar power supply designed by the utility model is shown in figure 1. Fig. 1 shows the portion of the overall system in which the various modules are located. The device comprises an extensible flexible shed surface 6, two electric push rods 5, two fixers 7, a tail metal body 10 containing a cavity, a power supply module and a shed opening module; the same ends of the two electric push rods 5 are respectively and fixedly connected to the tail metal body 10, the connecting line of the ends of the two electric push rods 5 is vertical to the straight line where each electric push rod 5 is located, the distance between the two electric push rods 5 is matched with the distance between two opposite side edges of the extensible flexible shed surface 6, and the two side edges of the extensible flexible shed surface 6 are respectively connected with the two electric push rods 5; one ends of the two fixing devices 7 are respectively and movably connected with two ends of the tail metal body 10, and the other ends of the two fixing devices 7 are respectively connected with a fixed building at the position where the automatic rain shelter is arranged; the tail metal body 10 rotates with the connecting line of the two ends as the shaft;

the PU silver paste coated ceiling 6 in FIG. 1 is connected to the upper metal body 10 by an electric push rod 5. The solar energy generation module is irradiated by solar energy, and the light energy is converted into electric energy and stored in the solar storage battery pack 4. The lithium battery 9 may be powered directly by the power supply via the interface 8. Through the storage batteries of the two different types, the Wi-Fi module 3 and the resistance-type humidity sensor 1 can be powered through the circuit. The electric circuit can be closed according to different conditions, so that the electric push rod 5 is electrified to lift up and open the shed. Because most important components are arranged in the tail metal body 10, 420 stainless steel is adopted, so that the umbrella has the characteristics of ultrahigh wear resistance, corrosion resistance and strong hardness, and important elements in the umbrella handle can be well protected. In order to prevent operation errors, the metal body is provided with a manual button switch 2 which can be manually opened and closed to the awning.

The power supply module comprises an interface power supply module, the lithium battery 9 is arranged in the interface power supply module, and the charging interface 8 is positioned on the outer surface of the interface power supply module.

The power supply module further comprises a solar power supply module, a PN junction on the solar generation module receives sunlight irradiation to realize photoelectric conversion, and the solar storage battery pack 4 converts chemical energy into electric energy to supply power to the shed opening module through a lead.

This automatic rainshelter based on solar energy power supply still includes Wi-Fi module 3, Wi-Fi module 3 is located the afterbody metal is internal to be connected with power module, but Wi-Fi module 3 process control opens or closes the rainshelter after connecting the network. And this automatic rainshelter based on solar energy power supply still includes resistance-type humidity transducer 1, humidity transducer 1 is located afterbody metal body 10 cavity to be connected with power module, humidity transducer 1 resistance value descends with closed circuit opening rainshelter along with air humidity increases.

This automatic rainshelter based on solar energy power supply is located the manual button switch 2 on afterbody metal object 10 surface, manual button switch 2 is connected with power module, and manual button switch 2 is steerable opens or closes the rainshelter. The canopy surface cloth of the canopy is a PU silver adhesive coating, and the tail metal body 10 is made of 420 stainless steel.

The functional diagram of the utility model is shown in fig. 2, and the electric energy of the lithium battery 9 is directly rushed into the lithium battery 9 through the interface power supply and the power supply for supplying power to the shed-opening module. The situation that power cannot be supplied to the shed opening module due to insufficient electric quantity of the lithium battery 9 is prevented. The solar energy generation module turns into the electric energy with light energy for opening the canopy module power supply, wherein open the canopy module and adopt Wi-Fi module 9 to open the canopy first kind, connect domestic network with the canopy, people can open the canopy through electronic equipment is long-range. The second type adopts resistance-type humidity transducer to open the canopy, meets certain humidity change that produces in the air, and the resistance value descends, and closed circuit circular telegram electric putter 5 opens the canopy. The third type is that the manual button switch 2 arranged on the rain shelter is pressed manually to close the loop to open the canopy electrically.

As shown in fig. 3, the solar power supply module irradiates the photodiode of the solar power generation module with sunlight, and the photodiode converts the sunlight energy into electric energy to generate electric current. And stores the current in the solar storage battery 4 for the user to use.

Aspects of the utility model are described herein with reference to the accompanying drawings, in which a number of illustrative embodiments are shown. Embodiments of the utility model are not limited to those shown in the drawings. It is to be understood that the utility model is capable of implementation in any of the numerous concepts and embodiments described hereinabove or described in the following detailed description, since the disclosed concepts and embodiments are not limited to any embodiment. In addition, some aspects of the present disclosure may be used alone, or in any suitable combination with other aspects of the present disclosure.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model. Therefore, the protection scope of the present invention should be determined by the appended claims.

Claims (8)

1. An automatic rain shelter based on solar power supply is characterized by comprising an extensible flexible canopy surface (6), two electric push rods (5), two fixers (7), a tail metal body (10) with a cavity, a power supply module and a canopy opening module;

the same ends of the two electric push rods (5) are respectively and fixedly connected to the tail metal body (10), the connecting line of the ends of the two electric push rods (5) is vertical to the straight line where each electric push rod (5) is located, the distance between the two electric push rods (5) is matched with the distance between two opposite side edges of the extensible flexible shed surface (6), and the two side edges of the extensible flexible shed surface (6) are respectively connected with the two electric push rods (5); one ends of the two fixing devices (7) are respectively and movably connected with two ends of the tail metal body (10), and the other ends of the two fixing devices (7) are respectively connected with a fixed building at the position where the automatic rain shelter is arranged; the tail metal body (10) rotates by taking connecting lines at two ends as a shaft;

the power supply module and the shed opening module are connected and installed in a cavity of the tail metal body, the power supply module supplies power for the shed opening module, and the shed opening module is connected with the two electric push rods (5) and used for driving the two electric push rods (5) to stretch out and draw back synchronously.

2. The automatic rainshelter based on solar power supply is characterized in that the power supply module comprises an interface power supply module, a lithium battery (9) and a charging interface, the interface power supply module and the lithium battery (9) are arranged in a tail metal body (10), the charging interface (8) is arranged on the outer surface of the tail metal body (10), the interface power supply module, the charging interface (8) and the lithium battery (9) are sequentially connected, an external power supply of the charging interface (8) charges the lithium battery (9), and the interface power supply module supplies power to an open shed module.

3. The automatic solar power supply-based rain shelter of claim 1 or 2, wherein the power supply module comprises a solar power supply module, a solar storage battery pack and a solar generation module,

the solar power supply module and the solar storage battery pack (4) are arranged in the tail metal body (10), and the solar generating module is arranged on the outer surface of the tail metal body (10); the solar energy generating module, the solar storage battery pack (4) and the solar power supply module are sequentially connected, the solar energy generating module performs photoelectric conversion, electric energy is stored in the solar storage battery pack (4), and the solar power supply module is connected with the shed opening module and supplies power to the shed opening module.

4. The automatic canopy based on solar power supply of any one of claims 1-3, further comprising a Wi-Fi module (3) connected to the canopy opening module, wherein the Wi-Fi module (3) is located in the cavity of the tail metal body and connected to the power supply module.

5. The automatic canopy based on solar power supply according to claim 4, further comprising a resistance type humidity sensor (1) connected with the canopy opening module, wherein the resistance type humidity sensor (1) is located on the surface of the tail metal body (10) and connected with the power supply module.

6. The automatic canopy based on solar power supply of claim 1, further comprising a manual button switch (2) located on the surface of the tail metal body (10), wherein the manual button switch (2) is connected with the power supply module.

7. An automated solar-powered canopy according to claim 1, wherein the extendable flexible canopy surface (6) is a PU-silver-glue coating.

8. The automated solar-powered rainshelter of claim 1 or 7, wherein the tail metal (10) is 420 stainless steel.

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