CN215300243U - Outdoor independent power module - Google Patents

Abstract

The utility model discloses an outdoor independent power supply module, which comprises an independent frame main body structure, a photovoltaic power storage mechanism, a current conversion control mechanism and a photovoltaic cell panel group; the photovoltaic cell panel group, the current conversion control mechanism and the photovoltaic power storage mechanism are sequentially communicated to form a loop, and the current conversion control mechanism is used for storing direct current generated by the photovoltaic cell panel group to the photovoltaic power storage mechanism; the photovoltaic power storage mechanism and the current conversion control mechanism are both arranged in the independent frame main body structure; the photovoltaic cell panel group is used for being erected on a roof of an outdoor electricity utilization building. The utility model generates electricity by utilizing solar energy, thereby reducing the energy consumption; meanwhile, the independent frame main body structure can be independently transported and put in, so that the independent frame main body structure can be conveniently transported to a remote place needing power, and the independently installed frame main body structure greatly improves the working stability and safety of the independent power module.

Description

Outdoor independent power module

Technical Field

The utility model relates to an outdoor power supply technical field, in particular to outdoor independent power module.

Background

At present, the outdoor independent power utilization on the market mainly adopts a gasoline and diesel generator, photovoltaic power generation and the like, the gasoline and diesel generator generates noise and air pollution in the power generation process, the photovoltaic storage battery is adopted for generating power at present and is a relatively environment-friendly power generation mode, and the following defects still exist:

1. the flexibility is poor, and the power supply equipment is difficult or impossible to move;

2. the modularization is poor, and the output of a large-scale power supply assembly cannot be realized;

3. the cost is high, and the conventional power generation equipment needs to be built on site and then installed in a building.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides an outdoor independent power module, but make independent power module convenient installation, promote the regional power consumption demand of the insufficient power supply.

In order to solve the technical problem, the utility model discloses a technical scheme be:

an outdoor independent power supply module comprises an independent frame main body structure, a photovoltaic power storage mechanism, a current conversion control mechanism and a photovoltaic cell panel group;

the photovoltaic cell panel group, the current conversion control mechanism and the photovoltaic power storage mechanism are sequentially communicated to form a loop, and the current conversion control mechanism is used for storing direct current generated by the photovoltaic cell panel group to the photovoltaic power storage mechanism;

the photovoltaic power storage mechanism and the current conversion control mechanism are both arranged in the independent frame main body structure;

the photovoltaic cell panel group is used for being erected on a roof of an outdoor electricity utilization building.

Further, still include the contravariant control mechanism in the independent frame major structure, contravariant control mechanism with photovoltaic power storage mechanism electricity is connected, contravariant control mechanism is used for with the direct current in the photovoltaic power storage mechanism converts the load power consumption in the alternating current for the outdoor power consumption building into.

Further, the photovoltaic power storage mechanism is a photovoltaic storage battery pack, and the inversion control mechanism is a square wave inverter.

Further, the independent frame main body structure further comprises an illuminating mechanism, and the illuminating mechanism is communicated with the photovoltaic power storage mechanism through a cable.

Furthermore, the lighting mechanism is arranged below the middle of the top of the independent frame main body structure, and the lighting mechanism is an LED lighting lamp group.

Furthermore, the independent frame main structure further comprises a ventilation mechanism, the ventilation mechanism is arranged on one side of the independent frame main structure, and the ventilation mechanism is communicated with the power storage mechanism through a cable.

Furthermore, the ventilation mechanism is a ventilation fan and a plastic steel anti-theft door with an air vent.

Furthermore, still include thermal-insulated mechanism in the independent frame major structure, thermal-insulated mechanism install in independent frame major structure is last.

Furthermore, the heat insulation mechanism is a composite sandwich board, and the composite sandwich board comprises polyurethane/rock wool with the thickness of [50mm,100mm ], a double-layer color steel plate with the thickness of [1mm,5mm ] and an ice-fire plate inner decoration panel with the thickness of [3mm,10mm ].

Further, a gap exists between the photovoltaic cell panel group and the roof top of the outdoor power utilization building.

The beneficial effects of the utility model reside in that: the utility model provides an outdoor independent power supply module, which is based on an independent frame main body structure, a photovoltaic power storage mechanism and a current conversion control mechanism are arranged in the independent frame main body structure, and a photovoltaic cell panel group is erected on the roof of an outdoor power utilization building, so that the utilization of solar energy is realized for power generation, and the energy consumption is greatly reduced; the current conversion control mechanism can prevent the photovoltaic power storage mechanism from being overcharged and overdischarged, and ensure the working stability and safety of the independent power supply module; independent frame major structure can independently transport and put in simultaneously, is convenient for transport the place of remote needs power consumption, realizes quick overall arrangement installation on the basis of not reforming transform original building, brings the input of photovoltaic energy for original building, and independent frame major structure of installing has simultaneously greatly improved independent power module job stabilization nature and security.

Drawings

Fig. 1 is a schematic structural diagram of an outdoor independent power module;

FIG. 2 is a schematic structural diagram of a heat insulation mechanism and a ventilation mechanism of an outdoor independent power module;

FIG. 3 is a schematic structural diagram of a photovoltaic cell panel assembly of an outdoor independent power module;

fig. 4 is a schematic diagram of an application of the independent power module in a baling chamber for classroom illumination.

Description of reference numerals:

1. an independent frame body structure; 2. a photovoltaic power storage mechanism; 3. a current conversion control mechanism; 4. an inversion control mechanism; 5. an illumination mechanism; 6. a ventilation mechanism; 7. a heat insulation mechanism; 71. color steel plates; 72. polyurethane/rock wool; 73. an ice-fire board inner decoration panel; 8. a photovoltaic cell panel set; 81. an adjustable mounting bracket; 9. load the consumer.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 4, an outdoor independent power module includes an independent frame main structure, a photovoltaic power storage mechanism, a current conversion control mechanism, and a photovoltaic cell panel group;

the photovoltaic cell panel group, the current conversion control mechanism and the photovoltaic power storage mechanism are sequentially communicated to form a loop, and the current conversion control mechanism is used for storing direct current generated by the photovoltaic cell panel group to the photovoltaic power storage mechanism;

the photovoltaic power storage mechanism and the current conversion control mechanism are both arranged in the independent frame main body structure;

the photovoltaic cell panel group is used for being erected on a roof of an outdoor electricity utilization building.

From the above description, the beneficial effects of the present invention are: the outdoor independent power supply module is characterized in that a photovoltaic power storage mechanism and a current conversion control mechanism are arranged in an independent frame main body structure by depending on the independent frame main body structure, and a photovoltaic cell panel group is erected on the roof of an outdoor electricity utilization building, so that the solar energy is utilized to generate electricity, and the energy consumption is greatly reduced; the current conversion control mechanism can prevent the photovoltaic power storage mechanism from being overcharged and overdischarged, and ensure the working stability and safety of the independent power supply module; independent frame major structure can independently transport and put in simultaneously, is convenient for transport to the place of remote needs power consumption, realizes quick overall arrangement installation on the basis of not reforming transform original building, brings the input of photovoltaic energy for original building, and the frame major structure of independent installation has greatly improved independent power module job stabilization nature and security.

Further, still include the contravariant control mechanism in the independent frame major structure, contravariant control mechanism with photovoltaic power storage mechanism electricity is connected, contravariant control mechanism is used for with the direct current in the photovoltaic power storage mechanism converts the load power consumption in the alternating current for the outdoor power consumption building into.

Further, the photovoltaic power storage mechanism is a photovoltaic storage battery pack, and the inversion control mechanism is a square wave inverter.

From the above description, the inverter controller converts the direct current in the photovoltaic power storage mechanism into the alternating current required by the electrical equipment, so as to be convenient for supplying electricity to the electrical equipment, the electrical equipment and the daily life.

Further, the independent frame main body structure further comprises an illuminating mechanism, and the illuminating mechanism is communicated with the photovoltaic power storage mechanism through a cable.

Furthermore, the lighting mechanism is arranged below the middle of the top of the independent frame main body structure, and the lighting mechanism is an LED lighting lamp group.

As can be seen from the above description, the lighting mechanism supplies power through the photovoltaic power storage mechanism, and lighting work in the independent frame main body structure is realized.

Furthermore, the independent frame main structure further comprises a ventilation mechanism, the ventilation mechanism is arranged on one side of the independent frame main structure, and the ventilation mechanism is communicated with the power storage mechanism through a cable.

Furthermore, the ventilation mechanism is a ventilation fan and a plastic steel anti-theft door with an air vent.

According to the above description, the ventilation mechanism supplies power through the photovoltaic power storage mechanism, ventilation inside the independent frame main body structure is achieved, normal work of the independent power supply module is guaranteed, and the material of the plastic steel anti-theft door greatly improves the working stability and safety of the independent power supply module.

Furthermore, still include thermal-insulated mechanism in the independent frame major structure, thermal-insulated mechanism install in independent frame major structure is last.

Furthermore, the heat insulation mechanism is a composite sandwich board, and the composite sandwich board comprises polyurethane/rock wool with the thickness of [50mm,100mm ], a double-layer color steel plate with the thickness of [1mm,5mm ] and an ice-fire plate inner decoration panel with the thickness of [3mm,10mm ].

According to the description, the independent frame main body structure is made of the composite sandwich board, so that the external equipment and the equipment in the independent frame main body structure are effectively isolated, the damage of mechanisms and parts in the independent frame main body structure caused by the high temperature of sun exposure is prevented, and the working stability and safety of the independent power supply module are ensured.

Further, a gap exists between the photovoltaic cell panel group and the roof top of the outdoor power utilization building.

According to the solar photovoltaic panel assembly, the photovoltaic panel is assembled on the roof of an outdoor electricity utilization building, so that the solar energy can be collected and utilized, the gap exists between the photovoltaic panel assembly and the roof of the building through the adjustable mounting support, the internal temperature of the building can be guaranteed not to be overheated, and the solar photovoltaic panel assembly plays a role in sun protection and heat insulation.

Referring to fig. 1 to 4, a first embodiment of the present invention is:

as shown in fig. 1 and 2, an outdoor independent power module includes an independent frame main body structure 1, a photovoltaic power storage mechanism 2, a current conversion control mechanism 3, an inverter control mechanism 4, a lighting mechanism 5, a ventilation mechanism 6, a heat insulation mechanism 7 and a photovoltaic cell panel group 8; the photovoltaic cell panel group 8, the current conversion control mechanism 3, the photovoltaic power storage mechanism 2 and the inversion control mechanism 4 are sequentially communicated to form a loop; the photovoltaic power storage mechanism 2, the current conversion control mechanism 3, the inversion control mechanism 4, the illumination mechanism 5 and the ventilation mechanism 6 are all arranged in the independent frame main body structure 1; the heat insulation mechanism 7 is arranged on the independent frame main body structure 1; the photovoltaic cell panel group 8 is used for being erected on a roof of an outdoor electric building.

In this embodiment, as shown in fig. 4, an independent power module for outdoor classroom power utilization is provided, wherein the independent frame main structure 1 is a container type packing box room and is installed outside the classroom. Install photovoltaic power storage mechanism 2, current conversion control mechanism 3, contravariant control mechanism 4, lighting mechanism 5 and ventilation mechanism 6 in the packing box room, the casing in packing box room is thermal-insulated mechanism 7, and the packing box room is outside to be connected with the photovoltaic cell board group 8 of erectting on the classroom roof through the cable, realizes generating electricity to the utilization of solar energy.

The photovoltaic power storage mechanism 2 is a photovoltaic storage battery pack, and the inversion control mechanism 4 is a square wave inverter; the current conversion control mechanism 3 is used for storing direct current generated by the photovoltaic cell panel group 8 into the photovoltaic power storage mechanism 2, and the inverter control mechanism 4 is used for converting the direct current in the photovoltaic power storage mechanism 2 into alternating current for the load electric equipment 9 in an outdoor building.

In this embodiment, erect photovoltaic cell panel group 8 on the classroom roof and the current conversion control mechanism 3, photovoltaic power storage mechanism 2 and the contravariant control mechanism 4 in the packing box room and connect gradually through the cable, realize turning into the electric equipment use in the alternating current for the classroom with solar energy.

As shown in fig. 1, the illumination mechanism 5 is installed at the bottom of the top right middle of the independent frame main body structure 1, as shown in fig. 2, the ventilation mechanism 6 is installed at one side of the independent frame main body structure 1, the illumination mechanism 5 and the ventilation mechanism 6 are both communicated with the photovoltaic power storage mechanism 2 through cables, and the photovoltaic power storage mechanism 2 provides power.

In this embodiment, the lighting mechanism 5 adopts an LED lamp set to provide lighting for the packing box room; the ventilation mechanism 6 adopts a ventilation fan and a plastic steel anti-theft door with an air vent for ventilation in the packing box room, and the plastic steel anti-theft door also ensures the safety of the packing box room.

As shown in fig. 2, the heat insulation mechanism 7 is a composite sandwich board, and the composite sandwich board comprises polyurethane/rock wool 72 with the thickness of [50mm,100mm ], a double-layer color steel plate 71 with the thickness of [1mm,5mm ], and an ice-fire plate inner decoration panel 73 with the thickness of [3mm,10mm ].

In this embodiment, the casing in packing box room adopts foretell compound battenboard preparation, is favorable to isolated packing box room inside and external temperature, prevents that outside sun insolate from leading to the damage of the mechanism and the part in the packing box room, has guaranteed the stability and the security of independent power module work.

In this embodiment, there is a gap between the photovoltaic cell panel group 8 and the roof top of the outdoor utility building. As shown in fig. 3 to 4, the photovoltaic cell panel group 8 is installed on the classroom roof through the adjustable installation bracket 81 with a gap, so that the temperature in the classroom is not overheated, and the functions of sun protection and heat insulation are achieved.

To sum up, the utility model provides an outdoor independent power supply module, relies on independent frame main structure, through setting up photovoltaic cell panel group at the roof of outdoor power consumption building to combine current conversion control mechanism, photovoltaic power storage mechanism and contravariant control mechanism in the independent frame main structure to realize the utilization to solar energy; combine thermal-insulated mechanism simultaneously, lighting mechanism and ventilation mechanism, form with independent frame major structure, thermal-insulated mechanism, photovoltaic power storage mechanism, current conversion control mechanism, contravariant control mechanism, lighting mechanism, the independent power module as an organic whole of ventilation mechanism, realize independent transportation and input, be convenient for transport the place of remote needs power consumption, realize quick overall arrangement installation on the basis of not reforming transform original building, generate electricity fast, lighting mechanism in the frame major structure and the structure of independent installation simultaneously, thermal-insulated mechanism and ventilation mechanism have greatly promoted the stability and the security of independent power module work.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. An outdoor independent power supply module is characterized by comprising an independent frame main body structure, a photovoltaic power storage mechanism, a current conversion control mechanism and a photovoltaic cell panel group;

the photovoltaic cell panel group, the current conversion control mechanism and the photovoltaic power storage mechanism are sequentially communicated to form a loop, and the current conversion control mechanism is used for storing direct current generated by the photovoltaic cell panel group to the photovoltaic power storage mechanism;

the photovoltaic power storage mechanism and the current conversion control mechanism are both arranged in the independent frame main body structure;

the photovoltaic cell panel group is used for being erected on a roof of an outdoor electricity utilization building.

2. The outdoor independent power supply module according to claim 1, further comprising an inverter control mechanism in the independent frame main body structure, wherein the inverter control mechanism is electrically connected with the photovoltaic power storage mechanism, and the inverter control mechanism is used for converting direct current in the photovoltaic power storage mechanism into alternating current for supplying power to loads in an outdoor power utilization building.

3. An outdoor independent power supply module according to claim 2, wherein the photovoltaic power storage mechanism is a photovoltaic storage battery pack, and the inversion control mechanism is a square wave inverter.

4. The outdoor independent power supply module according to claim 1, further comprising a lighting mechanism in the independent frame main body structure, wherein the lighting mechanism is communicated with the photovoltaic power storage mechanism through a cable.

5. The outdoor independent power supply module according to claim 4, wherein the lighting mechanism is mounted just below the top middle of the independent frame main body structure, and the lighting mechanism is an LED lighting lamp set.

6. The outdoor independent power supply module according to claim 1, further comprising a ventilation mechanism in the independent frame main structure, wherein the ventilation mechanism is mounted on one side of the independent frame main structure, and the ventilation mechanism is communicated with the power storage mechanism through a cable.

7. The outdoor independent power supply module according to claim 6, wherein the ventilation mechanism is a ventilation fan or a plastic steel anti-theft door with an air vent.

8. The outdoor stand-alone power module according to claim 1, further comprising a heat insulation mechanism disposed on the independent frame main body structure.

9. An outdoor independent power module according to claim 8, wherein the heat insulation mechanism is a composite sandwich board, and the composite sandwich board comprises polyurethane/rock wool with the thickness of [50mm,100mm ], a double-layer color steel plate with the thickness of [1mm,5mm ] and a ice-fire board inner decoration panel with the thickness of [3mm,10mm ].

10. An outdoor independent power module according to any one of claims 1 to 9, wherein a gap exists between the photovoltaic cell panel group and the roof of the outdoor power utility building.

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