CN208046500U - A portable intelligent solar energy storage electric box - Google Patents

Abstract

The utility model discloses a portable intelligent solar energy storage electric box, which solves the problems of small photovoltaic panel area per unit volume of solar power generation, low power generation efficiency, single function and inconvenient carrying in the prior art. The utility model comprises a box body which is mainly composed of a box cover and a bottom shell. Both the box cover and the bottom shell are equipped with solar cell panel components, and the solar cell panel components are respectively connected with the box body through a pull-out component. battery, solar controller and inverter, the solar controller is connected to the solar panel assembly and the battery respectively, the inverter is connected to the battery, an intelligent controller and a fast charging interface are arranged outside the bottom case, and the intelligent controller is connected to the battery The solar controller is connected, and the fast charging interface is connected with the storage battery. The utility model can make a plurality of solar battery panels in a vertically overlapping state by using the pull-out assembly, thereby effectively expanding the photovoltaic receiving area of the equipment and increasing the power generation rate.

Description

A portable intelligent solar energy storage electric box

technical field

The utility model relates to the technical field of solar energy power supply, in particular to a portable intelligent solar energy storage electric box.

Background technique

How to obtain sufficient power in outdoor and wild environments has always been an urgent problem to be solved. As an inexhaustible renewable energy source for human beings, solar energy has the advantages of clean and pollution-free, wide distribution, sufficient resources and high economy. Based on this, solar power generation equipment has been widely developed.

However, the existing solar photovoltaic power generation equipment generally has the problems of small photovoltaic panel area per unit volume, low power generation efficiency and single function. In addition, most small solar power generation devices use solar panels and distribution boxes separately, resulting in the need to disassemble and assemble lines and equipment every time they are used, which increases the complexity of the operation, is extremely inconvenient to use, and is difficult to adapt to field mobile operators, The needs of field travelers, remote mountainous areas, schools, etc.

Utility model content

Aiming at the deficiencies in the above-mentioned background technology, the utility model proposes a portable intelligent solar energy storage electric box, which solves the problems of small photovoltaic panel area per unit volume of solar power generation, low power generation efficiency, single function and inconvenient carrying in the prior art.

The technical scheme of the utility model is achieved in the following way: a portable intelligent solar energy storage electric box, including a box body mainly composed of a box cover and a bottom shell, and a solar battery panel for generating electric energy is arranged in the box cover and the bottom shell Components, solar panel components are connected to the box through the pull-out components, the bottom shell is equipped with batteries, solar controllers and inverters, the solar controller is connected to the solar panel components and batteries, and the inverter is connected to the The storage battery is connected with each other, and an intelligent controller and a fast charging interface are arranged on the outside of the bottom case, the intelligent controller is connected with the solar controller, and the fast charging interface is connected with the storage battery.

The solar cell panel assembly includes five solar cell panels, and the five solar cell panels are respectively a first solar cell panel, a second solar cell panel, a third solar cell panel, a fourth solar cell panel and a fifth solar cell panel, The first solar cell panel and the second solar cell panel are all arranged in the inside of the case cover, and the first solar cell panel and the second solar cell panel are arranged in parallel up and down; the third solar cell panel, the fourth solar cell panel and the fifth solar cell panel The panels are all arranged inside the bottom case, and the third solar panel, the fourth solar panel and the fifth solar panel are arranged in parallel up and down.

The first solar cell panel is fixedly connected to the case cover, the second solar cell panel is slidably connected to the case cover through a pull-out assembly, and the second solar cell panel is located above the first solar cell panel; the third solar cell panel, the fourth solar cell panel The solar cell panel and the fifth solar cell panel are sequentially arranged inside the bottom case from top to bottom, the third solar cell panel is clamped with the bottom case, and the fourth solar cell panel and the fifth solar cell panel are respectively connected to the bottom case through the drawing assembly. connected.

The puller assembly includes slide grooves arranged on the side walls of the case cover and the side walls of the bottom case, slide rails are provided on both sides of the second solar cell panel, the fourth solar cell panel and the fifth solar cell panel, and the slide rails Located in and fitted to the chute.

The box cover is connected with one side of the bottom shell through a hinge, the other side of the bottom shell is provided with a handle, the bottom of the bottom shell is provided with a pull rod, and the bottom of the bottom shell is provided with casters.

The intelligent controller is provided with a wifi module for connecting with external mobile devices, and the intelligent controller is connected with the display screen arranged on the bottom case.

The utility model can make a plurality of solar cell panels overlap in the vertical direction by using the pull-out assembly, which can greatly reduce the size of the equipment; in the working state, the pull-out assembly can independently control the corresponding The solar panel is separated from the box in a certain form, so as to effectively expand the photovoltaic receiving area of the equipment and increase the power generation rate. The utility model can convert the direct current output from the storage battery into 220V, 50Hz sinusoidal alternating current for users by using the current conversion device, and can conveniently obtain the alternating current for small electrical appliances or emergency needs. The solar battery box, by adding an intelligent controller, can realize the display of the power consumption, current and voltage of the device, and can transmit these data to the mobile device connected to it through the built-in wifi module. Users can pass The mobile client monitors the operating status of the device in real time, and can control the status of the output switch through the mobile phone, which is convenient to use. The portable intelligent modular solar power storage box, by adding a fast charging interface, can realize the fast charging of the power storage device in the device with 220V AC, so as to realize the photoelectric complementarity of the device, various charging and discharging forms, and improve the utilization rate of the device.

Description of drawings

In order to illustrate the embodiment of the utility model more clearly, the accompanying drawings that need to be used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings in the following description are only some embodiments of the utility model. Those of ordinary skill in the art can also obtain other drawings based on these drawings without any creative effort.

Figure 1 is a schematic diagram of the overall structure of the utility model.

Fig. 2 is a schematic top view of the utility model.

Fig. 3 is a schematic front view of the utility model.

Fig. 4 is a schematic side view of the utility model.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

As shown in Figures 1-4, Embodiment 1, a portable intelligent solar energy storage electric box, includes a box body 16 mainly composed of a box cover 1 and a bottom shell 2, one side of the box cover 1 and the bottom shell 2 Connected by hinges 15 , a handle 19 is provided on the other side of the bottom case 2 , a pull rod 13 is provided at the bottom of the bottom case 2 , and casters 14 are provided at the bottom of the bottom case 2 . Both the box cover 1 and the bottom shell 2 are provided with a solar panel assembly 17 for generating electric energy. The solar panel assembly 17 is connected to the box body 16 through a drawer assembly 18 respectively. Combined, it is easy to carry while increasing the photovoltaic receiving area. Inside the bottom case 2 are provided a battery 8 , a solar controller 9 and an inverter 10 , the solar controller 9 is connected to the solar panel assembly 17 and the battery 8 respectively, and the inverter 10 is connected to the battery 8 . The role of the solar controller is to control the working state of the entire system, and to protect the battery from overcharging and overdischarging. In places with large temperature differences, qualified controllers should also have the function of temperature compensation. Other additional functions such as light control switch and time control switch should be optional options of the controller. An intelligent controller 11 and a fast charging interface 12 are arranged outside the bottom case 2 , the intelligent controller 11 is connected with the solar controller 9 , and the fast charging interface 12 is connected with the battery 8 . In the state of electric energy charging, use the fast charging interface 12 reserved on the bottom case 2 to use a charger matching the power storage device 8 to quickly charge the power storage device 8 through 220V 50Hz alternating current. When 12V direct current is needed, the output interface in the control device 9 is used to output electricity. When 220V 50Hz AC power is required, the 12V DC power provided by the power storage device 8 is converted into 220V 50Hz AC power after being processed by the inverter device 10 . When it is necessary to use 5V 2A USB direct current, the 12V direct current provided by the power storage device 8 is processed by the inverter device 10 and converted into 5V 2A USB direct current.

Further, the intelligent controller 11 is provided with a wifi module for connecting with external mobile devices, and the intelligent controller 11 is connected with the display screen 20 arranged on the bottom case 2 . When it is necessary to understand the operating conditions of the equipment, the wifi module in the intelligent controller 11 can be used to connect with the mobile terminal, and realize real-time display of status parameters such as voltage, current and accumulated power consumption of the equipment on the mobile phone through wifi, and The state of the switch can be output through the mobile phone control device to realize the start and stop of the remote control device.

Embodiment 2, a portable intelligent solar power storage box, the solar panel assembly 17 includes five solar panels, the five solar panels are respectively the first solar panel 3, the second solar panel 4, the second solar panel Three solar cell panels 5, the fourth solar cell panel 6 and the fifth solar cell panel 7, the first solar cell panel 3 and the second solar cell panel 4 are all arranged in the inside of the case cover 1, the first solar cell panel 3 and the second solar cell panel 4 The two solar panels 4 can move relatively to increase the photovoltaic receiving area. The first solar cell panel 3 and the second solar cell panel 4 are arranged in parallel up and down; the third solar cell panel 5, the fourth solar cell panel 6 and the fifth solar cell panel 7 are all arranged inside the bottom shell 2, and the third solar cell panel 5. The fourth solar panel 6 and the fifth solar panel 7 are arranged in parallel up and down. The third solar cell panel 5 , the fourth solar cell panel 6 and the fifth solar cell panel 7 can move relatively to increase the photovoltaic receiving area.

Further, the first solar cell panel 3 is fixedly connected to the case cover 1, the second solar cell panel 4 is slidably connected to the case cover 1 through the pull-out assembly 18, and the second solar cell panel 4 is located above the first solar cell panel 3 ; During use, the second solar cell panel is extracted from the case cover and positioned on one side of the first solar cell panel 3, at this moment, the first solar cell panel and the second solar cell panel both receive sunlight. The third solar cell panel 5, the fourth solar cell panel 6 and the fifth solar cell panel 7 are sequentially arranged inside the bottom case 2 from top to bottom, the third solar cell panel 5 is clamped with the bottom case 2, and the fourth solar cell panel 6 and the fifth solar cell panel 7 are respectively connected to the bottom case 2 through the drawer assembly 18 . During use, the fourth solar cell panel 6 and the fifth solar cell panel 7 are extracted from the two ends of the bottom case 2 respectively, and the third solar cell panel 5, the fourth solar cell panel 6 and the fifth solar cell panel can all receive sunlight Increase the light radiation area.

Further, the puller assembly 18 includes a slide groove 18-1 provided on the side wall of the case cover 1 and the side wall of the bottom case 2, the second solar cell panel 4, the fourth solar cell panel 6 and the fifth solar cell panel 7 Both sides of the slide rail 18-2 are provided, and the slide rail 18-2 is located in the chute 18-1 and matches with the chute 18-1; during use, the second solar cell panel 4, the fourth solar cell panel 6 And the fifth solar battery panel 7 realizes its folding through the movement of the slide rail in the chute, which is convenient to use.

Other structures are the same as in Embodiment 1.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present utility model shall be included in the Within the protection scope of the present utility model.

Claims (6)

1. a kind of Portable intelligent solar energy saves electronic box, it is characterised in that：Including mainly by case lid（1）And bottom case（2）Group At babinet（16）, case lid（1）And bottom case（2）Inside it is equipped with the solar cell panel assembly for producing electricl energy（17）, the sun It can battery panel components（17）Pass through pulling component respectively（18）With babinet（16）It is connected, bottom case（2）It is internally provided with accumulator （8）, solar controller（9）And inverter（10）, solar controller（9）Respectively with solar cell panel assembly（17）And storage Battery（8）It is connected, inverter（10）With accumulator（8）It is connected, bottom case（2）Outside be equipped with intelligent controller（11）With it is fast Fill interface（12）, intelligent controller（11）With solar controller（9）It is connected, fast charge interface（12）With accumulator（8）It is connected It connects.

2. Portable intelligent solar energy according to claim 1 saves electronic box, it is characterised in that：The solar cell Board group part（17）Including five solar panels, five solar panels are respectively the first solar panel（3）, second Solar panel（4）, third solar panel（5）, the 4th solar panel（6）With the 5th solar panel（7）, First solar panel（3）With the second solar panel（4）It is arranged at case lid（1）Inside, the first solar cell Plate（3）With the second solar panel（4）It is arranged in parallel up and down；Third solar panel（5）, the 4th solar panel （6）With the 5th solar panel（7）It is arranged at bottom case（2）Inside, third solar panel（5）, the 4th solar-electricity Pond plate（6）With the 5th solar panel（7）It is arranged in parallel up and down.

3. Portable intelligent solar energy according to claim 2 saves electronic box, it is characterised in that：First solar energy Solar panel（3）With case lid（1）It is fixedly connected, the second solar panel（4）Pass through pulling component（18）With case lid（1）Sliding connects It connects, the second solar panel（4）Positioned at the first solar panel（3）Top；Third solar panel（5）, the 4th Solar panel（6）With the 5th solar panel（7）It is successively set on bottom case from top to bottom（2）Inside, third solar energy Solar panel（5）With bottom case（2）Clamping, the 4th solar panel（6）With the 5th solar panel（7）Pass through pull group respectively Part（18）With bottom case（2）It is connected.

4. Portable intelligent solar energy according to claim 3 saves electronic box, it is characterised in that：The pulling component （18）Including being arranged in case lid（1）Side wall and bottom case（2）Sliding slot on side wall（18-1）, the second solar panel（4）, the 4th Solar panel（6）With the 5th solar panel（7）Both sides be equipped with sliding rail（18-2）, sliding rail（18-2）Positioned at sliding slot （18-1）In and and sliding slot（18-1）It matches.

5. Portable intelligent solar energy according to claim 1 saves electronic box, it is characterised in that：The case lid（1）With Bottom case（2）Side pass through articulation piece（15）It is connected, bottom case（2）The other side be equipped with handle（19）, bottom case（2）Lower part set There is pumping rod（13）, bottom case（2）Bottom be equipped with castor（14）.

6. saving electronic box according to claim 1 ~ 5 any one of them Portable intelligent solar energy, it is characterised in that：The intelligence It can controller（11）The interior wifi module being equipped with for being connected with external mobile device, intelligent controller（11）With setting the bottom of at Shell（2）On display screen（20）It is connected.