Outdoor portable photovoltaic module package of dismouting combination formula
Technical Field
The utility model belongs to the technical field of solar photovoltaic panels, and particularly relates to a detachable combined outdoor portable photovoltaic module bag.
Background
The utility model discloses a portable solar photovoltaic panel, which is disclosed in the prior patent with publication number CN210724622U, and comprises a device main body … … and a portable and foldable solar photovoltaic panel disclosed in the prior patent with publication number CN210297624U, and comprises a limiting component, a solar panel body and a telescopic component … … and a portable solar photovoltaic panel disclosed in the prior patent with publication number CN217824869U, wherein the portable solar photovoltaic panel is convenient for an operator to carry the solar photovoltaic panel.
The prior art generally adopts an integrated folding type photovoltaic module bag, and the method of different power and different sizes is configured according to the use requirement. However, the production process of the integrated folding photovoltaic module bag is complex, so that the production cost is high, and secondly, the integrated folding photovoltaic module is generally manufactured by adopting a PET process in order to lighten the weight, so that the service life is short, the process is complex, the light transmittance is low, hidden cracks are easy to occur in the use process, and when one of the folding sheets is hidden, the whole equipment is often influenced, so that the overall use efficiency is greatly reduced or the integral folding photovoltaic module bag cannot be used.
Disclosure of Invention
The utility model aims to solve the technical problem of providing a detachable combined type outdoor portable photovoltaic module bag which is convenient to detach and assemble and can freely combine different numbers of photovoltaic panels.
The technical scheme for solving the technical problems is as follows:
the utility model provides an outdoor portable photovoltaic module package of dismouting combination formula, includes photovoltaic module, still includes adapting unit, be equipped with two sets of symmetrical arrangement's connector link on the adapting unit, photovoltaic module includes two piece limit photovoltaic boards at least, the back of limit photovoltaic board is equipped with a set of at least one side edge connector link assorted splice, two sets of the connector link respectively with two the fixed concatenation of splice of limit photovoltaic board.
Specifically, the photovoltaic module is still including at least one well photovoltaic board, well photovoltaic board splices in the intermediate position department of two limit photovoltaic boards, the opposite both sides edge in back of well photovoltaic board all is equipped with the splice, well photovoltaic board passes through adapting unit with the fixed concatenation of limit photovoltaic board.
Specifically, the connecting part is made of wear-resistant flexible materials, and the photovoltaic assembly adopts photovoltaic toughened glass as a main body power generation plate.
Preferably, the connecting buckle and the splicing piece are snap buckles mutually buckled.
Specifically, the side photovoltaic board with the back department in the middle of the well photovoltaic board still is equipped with and is used for supporting photovoltaic module is the support of standing the state to one side, the support with photovoltaic module's back articulates.
Preferably, the back of the at least one side photovoltaic panel is provided with a storage bag.
Preferably, the back of each side photovoltaic panel is symmetrically provided with a magic tape, and the magic tapes are used for fixing the folded photovoltaic modules.
Specifically, the photovoltaic module is provided with serial and/or parallel interfaces for mutually communicating the side photovoltaic plates and the middle photovoltaic plate and a power supply port for supplying power to the outside.
The utility model has the following beneficial effects: the integrated folding photovoltaic module bag is designed in a disassembling and assembling mode, the integrated folding photovoltaic module bag can be achieved after being spliced, meanwhile, the integrated folding photovoltaic module bag is not required to be designed according to different power and different sizes, only single photovoltaic panels with the same size and the same power are required to be designed, corresponding splicing pieces are added in a matched mode, and general connecting buckles are produced, so that proper sizes and power can be matched correspondingly according to actual requirements, and production of products and use of users according to requirements are facilitated.
Drawings
Fig. 1 is a schematic diagram of a combined structure according to an embodiment of the present utility model.
Fig. 2 is a schematic structural view of a connecting component according to an embodiment of the present utility model.
Fig. 3 is a schematic view of a back side structure of an edge photovoltaic panel according to an embodiment of the present utility model.
Fig. 4 is a schematic view of the back structure of a photovoltaic panel according to an embodiment of the present utility model.
The meaning of each number in the drawings is as follows:
1 side photovoltaic board, 2 middle photovoltaic board, 3 adapting unit, 4 connector link, 5 splice, 6 support, 7 collecting bags, 8 magic subsides.
Detailed Description
The present utility model will be described in detail with reference to the accompanying drawings.
Examples:
the outdoor portable photovoltaic module bag comprises a photovoltaic module and a connecting part 3, wherein the connecting part 3 is provided with two groups of connecting buckles 4 which are symmetrically arranged, the photovoltaic module at least comprises two side photovoltaic plates 1, at least one edge of the back surface of each side photovoltaic plate 1 is provided with a splicing piece 5 matched with one group of connecting buckles 4, and the two groups of connecting buckles 4 are fixedly spliced with the splicing pieces 5 of the two side photovoltaic plates 1 respectively. Specifically, the photovoltaic module further comprises at least one middle photovoltaic plate 2, the middle photovoltaic plate 2 is spliced at the middle position of the two side photovoltaic plates 1, the splicing pieces 5 are arranged at the two opposite side edges of the back of the middle photovoltaic plate 2, and the middle photovoltaic plate 2 is fixedly spliced with the side photovoltaic plates 1 through the connecting parts 3. The photovoltaic panels 1 are spliced by the connecting component 3, so that the free superposition or reduction of the power modules can be realized, the charging requirements of different devices with small power and high power can be realized, and the charging maximization corresponding to different charging devices can be easily realized.
Specifically, the connecting part 3 is made of wear-resistant flexible materials, and the photovoltaic component adopts photovoltaic toughened glass as a main body power generation plate. The connecting part 3 made of flexible materials can be directly folded when the photovoltaic module is not required to be disassembled after being used, so that the photovoltaic module with corresponding power is assembled in advance according to the power consumption requirement, and the photovoltaic module is integrally carried and applied, and the same convenience as an integrated photovoltaic module package is achieved.
Preferably, the connecting buckle 4 and the splicing piece 5 are snap buckles mutually buckled. The two can be spliced conveniently by adopting the mode of the snap fastener, the production mode is simpler, the letter fastener is only needed to be correspondingly embedded at the back edge of the photovoltaic panel and on the connecting part 3, the connection can be realized by adopting the splicing modes of a zipper, a buckling chute and the like, and the snap fastener is only the preferred embodiment of the utility model.
Specifically, the middle of the back surfaces of the side photovoltaic panels 1 and the middle photovoltaic panel 2 is also provided with a bracket 6 for supporting the photovoltaic module in an inclined state, and the bracket 6 is hinged with the back surface of the photovoltaic module. The support 6 is used for enabling the photovoltaic module to adjust the angle to face sunlight, and improving the power generation efficiency.
Preferably, the back surface of the at least one side photovoltaic panel 1 is provided with a storage bag 7. The storage bag 7 is used for storing accessories such as the connecting part 3 and is convenient to carry uniformly.
Preferably, two the back of limit photovoltaic board 1 is gone up the symmetry and is equipped with the magic subsides 8, the magic subsides 8 are used for fixing the photovoltaic module that the folding was accomodate. The magic tape 8 can be matched with an external binding belt, so that the photovoltaic modules matched with different photovoltaic panels can be bound more flexibly, and the portable photovoltaic module is convenient to carry.
Specifically, the photovoltaic module is provided with a serial and/or parallel interface (not shown in the figure) for interconnecting the side photovoltaic panel 1 and the middle photovoltaic panel 2, and a power supply port (not shown in the figure) for supplying power to the outside. The free serial-parallel function of the circuit is realized through the arrangement of serial and/or parallel interfaces, and the high-voltage requirements can be spliced into a serial mode, so that the high-voltage charging is realized; the low voltage is connected in parallel, so that high-current quick charging is realized, and the charging requirements of different devices are well met.
According to the detachable combined type outdoor portable photovoltaic module bag, each photovoltaic panel can be conveniently replaced or independently used, and if one photovoltaic panel is abnormal or damaged in the use process, the photovoltaic panel can be directly taken down, and the rest photovoltaic panels can be used for recombination, so that the photovoltaic module bag can be continuously and normally used, and higher portability is provided for outdoor use.
The foregoing is a further detailed description of the utility model in connection with the preferred embodiments, and it is not intended that the utility model be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.