RU191693U1 - MOBILE, AUTONOMOUS STATION FOR THE COLLECTION AND STORAGE OF SOLAR AND ELECTRIC ENERGY - Google Patents

Abstract

The utility model relates to portable equipment for collecting and storing electric energy, for use in production or transport, or in the home. The claimed utility model is aimed at increasing the compactness of the device while maintaining the functional characteristics and the possibility of long normal operation. A mobile, autonomous station for collecting and storing electric energy, comprising a battery pack and solar panels. The battery pack comprises a housing made in the form of a parallelepiped with a beveled one corner forming a supporting face, to which solar panels are attached using a hinge, containing housing faces located at the edges of the solar panels. The station has the ability to transform between the transport position and the working position. In the operating position, the solar panels are perpendicular to the housing of the battery pack, and in the transport position, the battery pack is located inside the cavity formed by the folded solar panels.

Description

The utility model relates to portable equipment for collecting and storing solar and electric energy, for use in production or transport or in everyday life, for special and personal use, as well as for tourism, sports, recreation, hunting and camping and other fields. More specifically, a utility model relates to a device for collecting and storing, storing and converting energy into the most common voltage formats for charging and powering personal and personal devices.

Various variants of such devices are known in the art.

The closest set of essential features to the claimed utility model is the device disclosed in the information source RU 2256976 C2, published July 20, 2005.

From the closest analogue, an object of the same purpose is known, namely a portable solar photovoltaic station, including at least one solar battery and placed inside a case made in the form of a suitcase, a battery, a charge and battery protection controller, a control panel with connectors for connecting load. The solar battery is made folding with a rear moisture-proof casing, equipped with means for autonomous transfer. The case is made with a compartment for storing solar panels.

The disadvantage of the closest analogue is that the station is quite large and bulky in both working and folded positions. In addition, the design of this station is quite complex and not sufficiently reliable to use.

Thus, the objective of the claimed utility model is to eliminate the disadvantages of the prior art.

The claimed utility model is aimed at increasing the compactness of the device while maintaining the functional characteristics and the possibility of long normal operation.

The term “normal operation” means the operation of all installation systems in the operating mode without violating the operating parameters of each of the installation elements.

In addition, the claimed utility model also provides a reduction in time for transferring the installation from a position intended for transportation and storage to a working position.

A mobile, autonomous station for collecting and storing solar and electric energy, containing a battery pack and solar panels. The battery pack comprises a housing made in the form of a parallelepiped with a beveled one corner forming a support face, to which solar panels are attached using a hinge, containing housing faces located at the edges of the solar panels. The station has the ability to transform between the transport position and the working position. In the operating position, the solar panels are perpendicular to the housing of the battery pack, and in the transport position, the battery pack is located inside the cavity formed by the folded solar panels.

A transport handle is located on the battery case.

Electrical connectors are located on the battery case.

In the transport position, the solar panels and their housing faces do not cover the battery pack case from all sides. The sides / faces of the battery pack case on which the transport handle and electrical connectors are located in any of the station's positions remain accessible to the user.

The number of solar panels is a multiple of two and there may be more than two (4, 6, etc.).

Cooling elements are installed on the battery case.

A U-shaped air channel is made in the housing of the battery pack.

Contains a device for adjusting the angle of inclination of the surface of the solar panels to the axis of the housing of the battery pack.

Further, the claimed utility model is explained in more detail by drawings, in which:

Figure 1 - the claimed station in the transport position.

Figure 2 - the claimed station in operating position.

Figure 3 - the claimed station in the working position (side view).

Figure 4 - the claimed station in operating position (rear view) in which six solar panels are used.

A mobile, autonomous station for collecting and storing solar and electric energy is a single device, the elements of which are in constructive unity.

The claimed station is a transformer capable of transforming from a portable "case" into a T-shaped solar generator. The station includes a battery pack (1) and at least two solar panels (2). The battery pack includes a housing (3) and one or more batteries (accumulators) housed in the housing (3). The solar panels (2) are attached by hinges (6) to the housing (3) of the battery pack (1) and are configured to be moved from the transport position (inoperative position), in which they cover the battery pack (1), to the working position, in which they are perpendicular to the housing (3) of the battery pack (1) and at an angle of 45 degrees to the horizontal axis of the station with the ability to control this angle, controlled by an internal microcontroller with software located inside the housing (3). The solar panels (2) contain housing faces (4) on the sides, which in the inoperative position are connected with the formation of the case, and in the working position they serve as a support for installation on the supporting surface.

The housing (3) of the battery pack (1) is made in the form of a parallelepiped with a beveled one corner and with the formation of a support face (5), on which the station is installed in the working position, in which the battery pack (1) is used in the shade of solar panels (2 ) In addition, on the case (3) of the battery pack (1), heat-removing panels are installed on its outer walls (not shown in FIG.).

For the most efficient use of solar energy, solar panels (2) should be located perpendicular to the sun's rays. The effective angle of inclination of the solar panel (2) varies depending on the sunny day's location from 30 to 70 degrees to the horizon, which is achieved by automatic adjustment, however, when the installation is fixed in the preset position at an average angle of 45 degrees, the solar panels (2) will produce more energy than similar panels fixed at any other angle other than 45 degrees to the horizon. Horizontally, the angle of inclination is adjusted by changing the installation position of the entire structure and is necessary no more than 3-4 times a day, however, the station’s fixed position by solar panels (2) to the south will be most effective for the most efficient collection of solar energy on a sunny day. The claimed installation form allows to achieve the greatest efficiency in the collection and storage of solar energy.

Solar panels (2) in the open sun at high ambient temperatures have the ability to heat up to very high temperatures, while the battery systems, inverters and other electronics necessary for the operation of the installation and located inside the housing (3) emit heat during operation, and it is necessary to exclude their heating from direct sunlight and to ensure the removal and dissipation of heat from all components of the system and their continuous temperature control. For these purposes, the housing (3) in the working position is located in the shadow of the solar panels, and also in the housing (3) there is a U-shaped air channel for air circulation, which reduces the average temperature by 5-10 degrees, as well as to the walls of the housing ( 3) heat sink panels are installed that remove internal heat to the ventilated outer walls of the case, which reduces the average temperature by 10-15 degrees, thereby reducing the risk of overheating of the system of devices and batteries.

The claimed station is equipped with a microcontroller with specially designed software that allows using the light sensor to change the angle of the system to achieve maximum efficiency of the solar energy collection system. Thus, the station in the working position can, if necessary, change the angle of inclination of the solar panels (2). The operation of this installation is interconnected to achieve a sufficient and effective result.

Solar panels (2) are deployed according to the “accordion” principle and may contain at least two solar panels (2) or more, depending on the model. The station also contains a control display with a system for outputting and switching operation modes of the installation, an AC inverter, a protection controller, holders, wires, diodes, buttons, switches, connectors (output sockets and input connectors), and other devices possible for various versions of the main devices. There are also inputs for charging battery packs from the mains.

Options for the claimed station may be different. First of all, it is the energy security of a person and interconnected systems for use in smart manufacturing, smart transport and smart home. The station is also intended for special and personal use in places where there are no electric networks. It is also advisable to use this station for camping, tourist trips, country trips, country houses, hunting, fishing, outdoor activities and outdoor sports. This utility model includes stand-alone rechargeable power systems for areas that have unreliable or no power networks at all. A control circuit can also be used to switch solar panel and / or battery configurations to optimize system performance. The station can operate to power one or more consumers and / or external electronic devices at the same time, connected through the system to different power ports, or one by means of a splitter.

The claimed utility model is new, since the combination of its essential features is not known from the prior art, and, accordingly, meets the condition of patentability "novelty".

The claimed utility model meets the condition of patentability "industrial applicability", since it can be used in industry.

Although the present utility model has been disclosed with reference to preferred embodiments, it is not intended to limit the present utility model, specialists with general knowledge in the art of the present utility model can modify and implement it without departing from the idea and scope of the utility model, therefore , the scope of protection of the present utility model should be governed by the scope specified in the utility model formula.

Claims (7)

1. A mobile, autonomous station for collecting and storing solar and electric energy, comprising a battery pack and solar panels, characterized in that the battery pack comprises a box made in the form of a parallelepiped with a beveled one corner forming a support face to which by means of a hinge solar panels are attached, containing housing faces located at the edges of the solar panels, and the station has the ability to transform between the transport position and the working position Niemi, wherein in the operating position solar panels arranged perpendicular to the housing of the battery pack, and in the transport position the battery block located within the cavity formed by the folded solar panels. 2. The station under item 1, characterized in that on the housing of the battery pack is a transport handle. 3. The station under item 1, characterized in that on the housing of the battery pack are electrical connectors. 4. The station under item 1, characterized in that the number of solar panels is a multiple of two. 5. The station according to claim 1, characterized in that cooling elements are installed on the battery case. 6. The station under item 1, characterized in that in the housing of the battery pack is made U-shaped air channel. 7. The station under item 1, characterized in that it contains a device for adjusting the angle of inclination of the surface of the solar panels to the axis of the housing of the battery pack.

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