CN220156456U - Photovoltaic system of movable energy storage cabinet - Google Patents

Abstract

The utility model relates to a photovoltaic system of a movable energy storage cabinet, which comprises a fixed base of a detachable device in a movable energy storage cabinet equipment bin, wherein a multi-section telescopic rod arranged along the X axis is arranged on the fixed base, the tail end of the multi-section telescopic rod is arranged on the fixed base, and the telescopic end is arranged towards the outside of the movable energy storage cabinet; the multi-section type telescopic rod is provided with a photovoltaic panel group which can be folded and unfolded along with the telescopic rod. The utility model can effectively solve the problems of inflexible fixed installation and movement, long construction period, complicated operation and high labor cost of the existing photovoltaic panel of the movable energy storage cabinet by adopting a mode of on-site construction fixing support and then assembly and installation.

Description

Photovoltaic system of movable energy storage cabinet

Technical Field

The utility model relates to the field of photovoltaic systems for mobile energy storage cabinets, in particular to a photovoltaic system for a mobile energy storage cabinet.

Background

At present, the movable energy storage cabinet adopts a photovoltaic panel to supplement green energy. When the photovoltaic panel is installed, a fixed support is required to be built on the flat ground through on-site investigation, then a piece of photovoltaic panel is fixedly assembled on the fixed support, then wiring is conducted, finally the photovoltaic system of the movable energy storage cabinet is installed, and the whole installation is required to be carried out on site.

The existing fixed bracket is adopted for assembly, and the following problems mainly exist:

1. the labor is consumed to survey the construction site, and the flatness requirement on the construction ground is high.

2. The construction of the on-site fixed support is needed, the construction period is long, and the labor cost is high.

3. The photovoltaic panel and wiring are required to be installed and fixed on site in one piece, and the installation is inconvenient in environments such as rainy and snowy weather, summer heat and the like.

4. When the fixed support needs to be moved or retracted, a large amount of manpower is required to remove the fixed support, and the operation is complicated.

In summary, the existing photovoltaic panel of the movable energy storage cabinet adopts a mode of on-site construction of a fixed support and then assembly and installation, and has the problems of inflexible fixed installation and movement, long construction period, complicated operation and high labor cost.

Disclosure of Invention

The utility model aims to provide a photovoltaic system of a movable energy storage cabinet, which can solve the problems of inflexible fixed installation and movement, long construction period, complicated operation and high labor cost of the existing photovoltaic plate of the movable energy storage cabinet by adopting a field construction fixed bracket and then performing an assembly installation mode.

The technical scheme adopted for solving the technical problems is as follows: the photovoltaic system of the movable energy storage cabinet comprises a fixing base of a detachable device in a device bin of the movable energy storage cabinet, wherein a multi-section type telescopic rod arranged along the X axial direction is arranged on the fixing base, and the tail end of the multi-section type telescopic rod is arranged on the fixing base, and the telescopic end of the multi-section type telescopic rod is arranged towards the outside of the movable energy storage cabinet; the multi-section type telescopic rod is provided with a photovoltaic panel group which can be folded and unfolded along with the telescopic rod; the photovoltaic panel group comprises a rear hinging seat arranged at the tail end of the multi-section type telescopic rod, a front hinging seat arranged at the top end of the multi-section type telescopic rod, and a middle hinging seat arranged in the middle of the multi-section type telescopic rod, wherein the middle hinging seat can move along the X axial direction along with the expansion of the multi-section type telescopic rod; the rear photovoltaic plate, the left photovoltaic plate, the right photovoltaic plate and the front photovoltaic plate are hinged end to end in sequence.

Further, a folding telescopic bracket is hinged between the bottoms of the same outer sides of the rear photovoltaic panel and the front photovoltaic panel.

Further, the middle hinging seats are provided with a plurality of left photovoltaic plates and right photovoltaic plates, and the front photovoltaic plates of the rear photovoltaic plates, the left photovoltaic plates, the right photovoltaic plates, the left photovoltaic plates and the right photovoltaic plates … … are sequentially hinged from the tail ends of the multi-section telescopic rods to the top ends of the multi-section telescopic rods in an end-to-end mode; the left photovoltaic plate and the right photovoltaic plate which are positioned on the same middle hinging seat are simultaneously hinged on the middle hinging seat.

Further, a plurality of multi-section telescopic rods which are arranged in the same direction are arranged on the fixed seat, and each multi-section telescopic rod is provided with a photovoltaic panel group; a folding telescopic bracket is arranged between adjacent sides of two adjacent photovoltaic panel groups, and the head and the tail of the folding telescopic bracket are simultaneously hinged to the two adjacent photovoltaic panel groups.

Further, the fixed base comprises a lower base of the detachable device in the equipment bin of the movable energy storage cabinet and a lifting support seat arranged on the lower base, the lifting support seat can lift relative to the lower base, and the multi-section telescopic rod is arranged on the lifting support seat and can lift along with the lifting support seat; the fixed base also comprises a lifting position locking structure matched with the lifting support seat.

Further, the folding telescopic bracket is a cross folding telescopic bracket; the front photovoltaic device comprises a rear upper folding rod and a rear lower folding rod which are hinged on a rear photovoltaic panel, a front upper folding rod and a front lower folding rod which are hinged on a front photovoltaic panel, and a group of X cross rod groups are hinged among the rear upper folding rod, the rear lower folding rod, the front upper folding rod and the front lower folding rod, wherein each X cross rod group comprises two cross rods with middle parts which are hinged in a crossing mode.

The utility model has the beneficial effects that: the telescopic and unfolding of the photovoltaic panel group can be realized through the multi-section telescopic rod, the problems of inflexible fixed installation and movement, long construction period, complicated operation and high labor cost existing in the existing photovoltaic panel of the movable energy storage cabinet can be effectively solved by adopting a field construction fixed support and then installing the movable energy storage cabinet in an assembling mode.

The utility model will be described in more detail below with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic perspective view of the present utility model, which includes both an unfolded state and an unfolded state of the photovoltaic panel assembly.

Fig. 2 is a schematic side view of the photovoltaic panel of the present utility model, which includes both the unfolded state and the unfolded state of the photovoltaic panel assembly.

Fig. 3 is an enlarged partial schematic view of the portion a in fig. 2.

Wherein, 1, a movable energy storage cabinet equipment bin, 2, a fixed base, 3, a multi-section telescopic rod, 4, a photovoltaic panel group, 5, a rear hinging seat, 6, a middle hinging seat, 7, front articulated seat, 8, rear photovoltaic board, 9, front photovoltaic board, 10, left photovoltaic board, 11, right photovoltaic board, 12, folding telescopic bracket.

Detailed Description

The embodiment is that a photovoltaic system of a mobile energy storage cabinet is shown in fig. 1 to 3, and the photovoltaic system comprises a fixed base 2 of a detachable device in a mobile energy storage cabinet equipment bin 1, wherein a multi-section telescopic rod 3 arranged along the X axial direction is arranged on the fixed base 2, the tail end of the multi-section telescopic rod 3 is arranged on the fixed base 2, and the telescopic end is arranged towards the outside of the mobile energy storage cabinet; the multi-section type telescopic rod 3 is provided with a photovoltaic panel group 4 which can be folded and unfolded along with the telescopic rod; the photovoltaic panel set 4 comprises a rear hinging seat 5 arranged at the tail end of the multi-section telescopic rod 3, a front hinging seat 7 arranged at the top end of the multi-section telescopic rod 3, and a middle hinging seat 6 arranged in the middle of the multi-section telescopic rod 3, wherein the middle hinging seat 6 can move along the X axial direction along with the expansion and contraction of the multi-section telescopic rod 3; the rear hinging seat 5 is hinged with a rear photovoltaic panel 8, the front hinging seat 7 is provided with a front photovoltaic panel 9, the middle hinging seat 6 is hinged with a left photovoltaic panel 10 and a right photovoltaic panel 11, and the rear photovoltaic panel 8, the left photovoltaic panel 10, the right photovoltaic panel 11 and the front photovoltaic panel 9 are sequentially hinged end to end; a folding telescopic bracket 12 is hinged between the bottoms of the same outer sides of the rear photovoltaic panel 8 and the front photovoltaic panel 9.

The middle hinging seats 6 are provided with a plurality of middle hinging seats 6, each middle hinging seat 6 is hinged with a left photovoltaic plate 10 and a right photovoltaic plate 11, and the sequence from the tail end of the multi-section type telescopic rod 3 to the top end of the multi-section type telescopic rod 3 is sequentially hinged from head to tail according to the sequence from the rear photovoltaic plate 8, the left photovoltaic plate 10, the right photovoltaic plate 11 and … … (the left photovoltaic plate 10, the right photovoltaic plate 11, the last and the front photovoltaic plate 9 are hinged when the middle hinging seats 6 are provided) to the front photovoltaic plate 9; the left photovoltaic panel 10 and the right photovoltaic panel 11 positioned on the same middle hinging seat 6 are simultaneously hinged on the middle hinging seat 6. The method comprises the following steps: the tail part of the rear photovoltaic panel 8 is hinged on the rear hinging seat 5, the head part is hinged with the tail part of the left photovoltaic panel 10 on the middle hinging seat 6 adjacent to the tail part, and the head part of the left photovoltaic panel 10 is hinged on the middle hinging seat 6; meanwhile, the tail of the right photovoltaic panel 11 of the middle hinging seat 6 is hinged on the middle hinging seat 6, the head is hinged with the tail of the left photovoltaic panel 10 of the adjacent middle hinging seat 6, and the head of the right photovoltaic panel 11 of the middle hinging seat 6 adjacent to the front hinging seat 7 is hinged with the tail of the front photovoltaic panel 9 by analogy.

The middle hinging seat 6 can be provided with one, and at the moment, the photovoltaic panels have four blocks in total. The middle hinging seat 6 is arranged on one section of the middle part of the multi-section type telescopic rod 3, and the section of the middle part of the multi-section type telescopic rod 3 is specifically arranged to be adapted and adjusted according to the telescopic condition of the multi-section type telescopic rod 3 and the size of the photovoltaic panel.

The fixing seat is provided with a plurality of multi-section telescopic rods 3 which are arranged in the same direction, and each multi-section telescopic rod 3 is provided with a photovoltaic panel group 4; a folding telescopic bracket 12 is arranged between adjacent sides of two adjacent photovoltaic panel groups 4, and the head and the tail of the folding telescopic bracket 12 are simultaneously hinged on the two adjacent photovoltaic panel groups 4. Two adjacent photovoltaic panel groups 4 share a folding telescopic bracket 12. At this time, two photovoltaic panel groups 4 can be simultaneously and synchronously adjusted by one folding telescopic bracket 12.

Of course, each photovoltaic panel group 4 can be independently provided with a folding telescopic bracket 12, so that independent adjustment and control of the inclination angles of the photovoltaic panels of each photovoltaic panel group 4 can be realized.

The fixed base 2 comprises a lower base of the detachable device in the equipment bin 1 of the movable energy storage cabinet and a lifting support seat arranged on the lower base, wherein the lifting support seat can lift relative to the lower base, and the multi-section telescopic rod 3 is arranged on the lifting support seat and can lift along with the lifting support seat; the fixed base 2 further comprises a lifting position locking structure matched with the lifting supporting seat.

The folding telescopic bracket 12 is a cross folding telescopic bracket; the front photovoltaic device comprises a rear upper folding rod and a rear lower folding rod which are hinged on a rear photovoltaic panel 8, a front upper folding rod and a front lower folding rod which are hinged on a front photovoltaic panel, a group of X cross rod groups are hinged among the rear upper folding rod, the rear lower folding rod, the front upper folding rod and the front lower folding rod, and each X cross rod group comprises two cross rods with middle parts which are hinged in a crossing mode.

Working principle: the photovoltaic panel group is driven to move through the folding telescopic support, and the multi-section telescopic rod is matched with the movement of the photovoltaic panel to stretch. Or the telescopic rods of the multi-section telescopic rods are used for driving each photovoltaic plate in the photovoltaic plate group to shrink and expand, and meanwhile, the telescopic supports are folded to adjust and control the shrinkage and expansion degree of each crown plate, so that the inclination angle of each photovoltaic plate is adjusted.

In the description of the present utility model, it should be understood that the terms "center," "lateral," "upper," "lower," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more. In addition, the term "include" and any variations thereof are intended to cover a non-exclusive inclusion.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used herein, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

The utility model is described above by way of example with reference to the accompanying drawings. It will be clear that the utility model is not limited to the embodiments described above. As long as various insubstantial improvements are made using the method concepts and technical solutions of the present utility model; or the utility model is not improved, and the conception and the technical scheme are directly applied to other occasions and are all within the protection scope of the utility model.

Claims (6)

1. A photovoltaic system of mobile energy storage cabinet, its characterized in that: the movable energy storage cabinet comprises a fixing base of a movable energy storage cabinet equipment bin of a detachable device, wherein a multi-section type telescopic rod arranged along the X axial direction is arranged on the fixing base, the tail end of the multi-section type telescopic rod is arranged on the fixing base, and a telescopic end is arranged towards the outside of the movable energy storage cabinet; the multi-section type telescopic rod is provided with a photovoltaic panel group which can be folded and unfolded along with the telescopic rod; the photovoltaic panel group comprises a rear hinging seat arranged at the tail end of the multi-section type telescopic rod, a front hinging seat arranged at the top end of the multi-section type telescopic rod, and a middle hinging seat arranged in the middle of the multi-section type telescopic rod, wherein the middle hinging seat can move along the X axial direction along with the expansion of the multi-section type telescopic rod; the rear photovoltaic plate, the left photovoltaic plate, the right photovoltaic plate and the front photovoltaic plate are hinged end to end in sequence.

2. The photovoltaic system of a mobile energy storage cabinet of claim 1, wherein: a folding telescopic bracket is hinged between the tail part of one outer side of the rear photovoltaic panel and the head part of the same outer side of the front photovoltaic panel.

3. The photovoltaic system of a mobile energy storage cabinet of claim 1, wherein: the middle hinging seats are provided with a plurality of left photovoltaic plates and right photovoltaic plates, and the left photovoltaic plates, the right photovoltaic plates, the left photovoltaic plates and the right photovoltaic plates … … are hinged from the tail ends of the multi-section telescopic rods to the top ends of the multi-section telescopic rods in sequence; the left photovoltaic plate and the right photovoltaic plate which are positioned on the same middle hinging seat are simultaneously hinged on the middle hinging seat.

4. The photovoltaic system of a mobile energy storage cabinet of claim 1, wherein: the fixing seat is provided with a plurality of multi-section telescopic rods which are arranged in the same direction, and each multi-section telescopic rod is provided with a photovoltaic panel group; a folding telescopic bracket is arranged between adjacent sides of two adjacent photovoltaic panel groups, and the head and the tail of the folding telescopic bracket are simultaneously hinged to the two adjacent photovoltaic panel groups.

5. The photovoltaic system of a mobile energy storage cabinet of claim 1, wherein: the fixed base comprises a lower base of the detachable device in the equipment bin of the movable energy storage cabinet and a lifting support seat arranged on the lower base, the lifting support seat can lift relative to the lower base, and the multi-section telescopic rod is arranged on the lifting support seat and can lift along with the lifting support seat; the fixed base also comprises a lifting position locking structure matched with the lifting support seat.

6. The photovoltaic system of a mobile energy storage cabinet of claim 1, wherein: the folding telescopic bracket is a cross folding telescopic bracket; the front photovoltaic device comprises a rear upper folding rod and a rear lower folding rod which are hinged on a rear photovoltaic panel, a front upper folding rod and a front lower folding rod which are hinged on a front photovoltaic panel, and a group of X cross rod groups are hinged among the rear upper folding rod, the rear lower folding rod, the front upper folding rod and the front lower folding rod, wherein each X cross rod group comprises two cross rods with middle parts which are hinged in a crossing mode.