CN218199600U - Portable photovoltaic power plant's containing box - Google Patents

Abstract

The application discloses containing box of portable photovoltaic power plant, it includes base, first lateral wall and second lateral wall all are provided with at least one, first lateral wall and the equal demountable installation of second lateral wall are on the base, first lateral wall and second lateral wall enclose to form the containing box that is used for loading photovoltaic power plant spare part. This application has the effect that the spare part of avoiding portable photovoltaic power plant is shifting the easy emergence of colliding with the containing box tank wall of in-process in the containing box.

Description

Portable photovoltaic power plant's containing box

Technical Field

The application relates to the field of photovoltaic power stations, in particular to a storage box of a portable photovoltaic power station.

Background

With the progress of science and technology and the push of the concept of sustainable development, people pay more attention to environmental protection, new energy is developed, and solar energy is used as new energy, starts to permeate into various industries and gradually enters the daily life of people.

In recent years, with the development of new energy technologies, the product types of solar photovoltaic power stations are gradually enriched, and particularly portable photovoltaic power stations are mostly suitable for use in daily life and can be transferred along with the movement of families. In the transfer process, for avoiding losing the damage of portable photovoltaic power plant's spare part, place portable photovoltaic power plant's spare part in the containing box alone usually, nevertheless portable photovoltaic power plant's spare part is shifting the in-process in the containing box and easily takes place to collide with the containing box tank wall.

SUMMERY OF THE UTILITY MODEL

To the correlation technique among the above-mentioned, in order to avoid portable photovoltaic power plant's spare part to shift to the in-process in the containing box easily and the containing box tank wall takes place to collide with, this application provides a portable photovoltaic power plant's containing box.

The application provides a pair of portable photovoltaic power plant's containing box adopts following technical scheme:

the utility model provides a containing box of portable photovoltaic power plant, includes base, first lateral wall and second lateral wall all are provided with at least one, first lateral wall and second lateral wall all can be dismantled and install on the base, first lateral wall and second lateral wall enclose and form the containing box that is used for loading photovoltaic power plant spare part.

Through adopting above-mentioned technical scheme, when using the containing box, can dismantle first lateral wall and second lateral wall from the base, shift photovoltaic power plant's spare part to the base on, can effectively avoid each spare part and first lateral wall and second lateral wall to take place to collide with, lead to the spare part to damage.

Preferably, the first side wall comprises a plurality of first box wall pieces, each of the first box wall pieces being stacked to form a first side wall, and the second side wall comprises a plurality of second box wall pieces, each of the second box wall pieces being stacked to form a second side wall.

Through adopting above-mentioned technical scheme, pile up through first tank wall spare and form first lateral wall, second tank wall spare piles up and forms the second lateral wall, changes whole lateral wall and be each spare part, can be more convenient laborsaving dismantle first lateral wall and second lateral wall.

Preferably, the base further comprises a plurality of upright columns, each upright column is vertically arranged at an end corner of the base, a first sliding groove and a second sliding groove are respectively arranged on each upright column along the axis direction of the upright column, two sides of the first side wall are respectively inserted into the first sliding grooves of two adjacent upright columns, and the second side wall is respectively inserted into the second sliding grooves of two adjacent upright columns.

Through adopting above-mentioned technical scheme, the stand can form the frame of installation first lateral wall and second lateral wall with the base, and the mode of plug connection makes first lateral wall and second lateral wall easily assemble also easily take off from the stand on the stand, and the equipment is consuming time short.

Preferably, the first sliding groove and the second sliding groove are both in a T-shaped structure, first protruding blocks are arranged on two sides of the first box wall part, and two first protruding blocks located on the same first box wall part are respectively installed in two oppositely distributed first sliding grooves; and second convex blocks are arranged on two sides of the second box wall part, and two second convex blocks positioned on the same second box wall part are respectively arranged in two oppositely distributed second sliding grooves.

Through adopting above-mentioned technical scheme, "T" type spout on each stand can also play certain positioning action to first case wall spare and second case wall spare, is difficult to the accuracy during the prevention installation and installs first case wall spare and second case wall spare to assigned position, makes the connection between first lateral wall and stand, second lateral wall and the stand inseparabler, more stable through the restriction of "T" shape structure moreover.

Preferably, be provided with anti-skidding sand grip and equipment sand grip on the first case wall spare, anti-skidding sand grip and equipment sand grip are equallyd divide and are do not provided with at least one, two anti-skidding sand grip and two sets of equipment sand grip are located the both ends of first case wall spare respectively, and the equipment sand grip of two adjacent first case wall spares pastes with two anti-skidding sand grips mutually.

Through adopting above-mentioned technical scheme, double-phase adjacent first tank wall spare passes through anti-skidding sand grip and equipment sand grip, the equipment sand grip is pegged graft in anti-skidding sand grip, the connection stability between the double-phase adjacent first tank wall spare has been increased, and anti-skidding sand grip can further prevent that first tank wall spare from taking place the ascending displacement of horizontal direction, when first lateral wall receives the striking, can disperse the power to adjacent first tank wall spare through anti-skidding sand grip and equipment sand grip on, improve the shock resistance of first lateral wall.

Preferably, still be provided with spacing on the first case wall spare, spacing is located the lateral wall of first case wall spare and is located the upper end of first case wall spare, and the antiskid sand grip that is located on the first case wall spare of top offsets with the spacing on the first case wall spare that is located the below.

Through adopting above-mentioned technical scheme, spacing can play certain supporting role to anti-skidding sand grip, also can prevent that anti-skidding sand grip from taking place to sideslip under receiving exogenic action, avoids taking place the dislocation and damage the structure of anti-skidding sand grip even because of sideslip the adjacent first tank wall spare that leads to.

Preferably, the first box wall part is further provided with at least two reinforcing ribs, and the two reinforcing ribs are oppositely distributed on two sides of the first side wall.

Through adopting above-mentioned technical scheme, the strengthening rib distributes in the both sides and the direction level of first lateral wall, can strengthen the intensity of first lateral wall.

Preferably, the second box wall member is provided with a first assembling strip and a second assembling strip, at least one of the first assembling strip and the second assembling strip is arranged, the first assembling strip and the second assembling strip are respectively arranged at two ends of the second box wall member, and the second assembling strips of the two adjacent second box wall members are attached to the first assembling strip.

Through adopting above-mentioned technical scheme, connect through first equipment strip and second equipment strip between each second tank wall spare, strengthened the joint strength between the two adjacent second tank wall spares, further strengthened the stability of second lateral wall.

Preferably, the second box wall part is provided with a first oblique cutting block and a second oblique cutting block, the first oblique cutting block and the second oblique cutting block are respectively located at two ends of the second box wall part, and oblique cutting surfaces of the first oblique cutting block and the second oblique cutting block on two adjacent second box wall parts are abutted.

Through adopting above-mentioned technical scheme, the scarf of the piece of beveling of two adjacent second case wall spare offsets for two adjacent second case wall spare are connected more closely, and when the second lateral wall received the striking, on the power can disperse each second case wall spare that constitutes the second lateral wall, can improve the shock resistance of second lateral wall.

Preferably, still include the top cap, the top cap lid is located on the containing box that first lateral wall and second lateral wall enclose and close the formation.

Through adopting above-mentioned technical scheme, when using the containing box, the top cap is opened article and external separation in the containing box, plays certain guard action to article in the containing box, and after article take out in the containing box, the containing box also can regard as the desk to use, and smooth horizontal panel also can regard as the desktop of desk to use.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the storage box is used for storage, each side wall can be detached, so that collision caused by collision between parts of the photovoltaic power station and the side wall of the storage box in the storage process is avoided;

2. each side wall is formed by combining each first box wall piece or each second box wall piece, so that each side wall can be disassembled conveniently;

3. each first case wall spare and each second case wall spare are installed through "T" type mounting structure with the stand, but convenient and fast with each first case wall spare and each second case wall spare installation to the correct position.

Drawings

FIG. 1 is a schematic view of the overall structure of a storage box of a portable photovoltaic power station;

FIG. 2 is a schematic structural view of a column of a storage box of a portable photovoltaic power plant;

FIG. 3 is an enlarged partial schematic view of portion A of FIG. 1;

FIG. 4 is a schematic structural view of a first box wall member of a storage box of the portable photovoltaic power plant;

fig. 5 is a schematic structural view of a second box wall member of the storage box of the portable photovoltaic power station.

Description of reference numerals:

1. a base; 2. a column; 21. a first chute; 22. a second chute; 3. a universal wheel; 4. a first side wall; 41. a first box wall member; 411. a wide tube wall; 412. a narrow tube wall; 413. reinforcing ribs; 414. a limiting strip; 415. anti-skid convex strips; 416. assembling the convex strips; 417. a first bump; 418. a first limiting chute; 5. a second side wall; 51. a second box wall member; 511. a second bump; 512. a second limiting chute; 513. a first assembly strip; 514. a second assembly strip; 515. a first bevel cutting block; 516. a second bevel block; 6. and a top cover.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses containing box of portable photovoltaic power plant. Referring to fig. 1, the storage box of the portable photovoltaic power station includes a base 1, a first sidewall 4, a second sidewall 5, a column 2, a universal wheel 3, and a top cover 6.

The base 1 is a rectangular flat plate, mainly plays a bearing role, and the base 1 is positioned in the horizontal direction when in use. The universal wheel 3 has four fixed mounting in the base 1 one side that is close to the bottom surface, and each universal wheel 3 is located four angles of base 1 respectively, and all is provided with the locking structure on each universal wheel 3. When all parts of the photovoltaic power station are placed in the containing box or the containing box is placed on a vehicle to transfer the whole containing box, the universal wheels 3 are locked through the locking structures, so that the containing box can be prevented from moving in the containing process or the transferring process; when the containing box needs to be moved, the universal wheels 3 are opened through the locking structures, and the containing box can be pushed to be transferred.

Referring to fig. 1 and 2, four upright columns 2 are vertically arranged above the base 1, each upright column 2 is respectively located at an end corner of the base 1, and each upright column 2 is fixedly connected with the base 1 in a welding or splicing manner.

Each stand 2 is hollow three-dimensional column, is provided with the first spout 21 and the second spout 22 unanimous with 2 length direction on the vertical face of wherein two adjacent of stand 2 respectively, and the first spout 21 of two adjacent stands 2 is distributed and the notch is relative oppositely, and the second spout 22 on two adjacent stands 2 is distributed and the notch is relative oppositely.

First spout 21 and second spout 22 all can set to "T" word shape, and first lateral wall 4 and second lateral wall 5 are all through pegging graft the equipment of accomplishing first lateral wall 4 and second lateral wall 5 on first spout 21 and second spout 22, and first lateral wall 4 and second lateral wall 5 enclose with stand 2 after the equipment and close the main part that forms this containing box.

Referring to fig. 1, the top cover 6 covers the top of each upright post 2, and the upper plane of the top cover 6 is a smooth horizontal plane, so that the storage box can be used for placing articles and can be used as a table.

Referring to fig. 1 and 3, the first side wall 4 includes a plurality of first box wall parts 41, and the second side wall 5 includes a plurality of second box wall parts 51, and the first box wall parts 41 and the second box wall parts 51 are all set up to the hollow pipe body of aluminum alloy material in this application, can alleviate the dead weight, still have intensity good, corrosion resistance is good and the advantage that the handling property is good simultaneously.

Referring to fig. 4, the first box wall member 41 is composed of two wide tube walls 411 and two narrow tube walls 412, the wide tube walls 411 and the narrow tube walls 412 are rectangular plates, the two wide tube walls 411 are oppositely distributed, the two narrow tube walls 412 are oppositely distributed, the two wide tube walls 411 and the two narrow tube walls 412 enclose to form a main body part of the first box wall member 41, and the adjacent wide tube walls 411 and the narrow tube walls 412 are perpendicular to each other.

The two wide pipe walls 411 of the first box wall part 41 are provided with the reinforcing ribs 413 at opposite sides, and the length direction of the reinforcing ribs 413 is the same as the axial direction of the first box wall part 41, so that the strength of the first box wall part 41 can be enhanced.

Two assembling convex strips 416 protruding out of the plane of the narrow tube wall 412 are arranged on one narrow tube wall 412 of the first box wall part 41, and the length directions of the two assembling convex strips 416 are the same as the length direction of the first box wall part 41.

Two anti-slip ribs 415 protruding from the plane of the narrow tube wall 412 are disposed on the other narrow tube wall 412 of the first box wall member 41 away from the assembling ribs 416, the length direction of the two anti-slip ribs 415 is the same as the length direction of the first box wall member 41, and the two anti-slip ribs 415 and the two assembling ribs 416 correspond in position. When two adjacent first wall members 41 are stacked, the two assembling ribs 416 of one of the first wall members 41 are inserted between the two anti-slip ribs 415 of the other first wall member 41, and the anti-slip ribs 415 and the assembling ribs 416 are attached to each other, so that the two first wall members 41 are assembled, and the first sidewall 4 with stable structure is obtained.

In other embodiments, the number and shape of the assembly ribs 416 and the anti-slip ribs 415 may be increased or decreased according to actual requirements; the positions of the assembling ribs 416 and the anti-slip ribs 415 on the narrow tube wall 412 can also be adjusted according to actual requirements; the relative position between the assembly rib 416 and the anti-slip rib 415 can also be adjusted according to actual requirements. All the ways of ensuring a stable connection between the two first tank wall parts 41 are possible.

A limiting strip 414 is arranged on one of the narrow tube walls 412 of the first box wall part 41, two limiting strips 414 are arranged and are respectively located on two sides of the narrow tube wall 412, the length direction of the limiting strip 414 is the same as that of the first box wall part 41, and the width of the narrow tube wall 412 is widened due to the arrangement of the limiting strip 414. When the two adjacent first case wall members 41 are assembled, the anti-slip convex strip 415 on one of the first case wall members 41 abuts against the other first case wall member 41, so that the anti-slip convex strip 415 does not sideslip due to pressure during the assembly, and the strength of the first case wall member 41 can be further enhanced.

The two ends of each first box wall part 41 are provided with first limiting clamping grooves, any one end of each first box wall part 41 is provided with two first limiting clamping grooves which are distributed in an opposite mode, and the first limiting clamping grooves enable the end portions of the first box wall parts 41 to form first protruding blocks 417. The notches of the first limiting clamping grooves are uniformly distributed on the wide pipe wall 411, two ends of a limiting strip 414 positioned on the wide pipe wall 411 are respectively connected with two first limiting clamping grooves positioned on the same wide pipe wall 411, and the first bumps 417 at two ends of the first box wall part 41 can be embedded in the first sliding grooves 21 positioned on the upright posts 2.

When the storage box is assembled, the first protrusions 417 at two ends of each first box wall 41 are slidably connected to the first sliding grooves 21 of the two adjacent columns 2, and the first protrusions 417 and the first sliding grooves 21 are matched with each other to prevent the first box wall 41 from sliding in the horizontal direction after the assembly is completed. The first box wall parts 41 with proper quantity are selected according to the height of the upright posts 2 and are arranged between the two adjacent upright posts 2, the first box wall parts 41 positioned on the same surface can form one side wall of the containing box, and the first box wall parts 41 can be detached or installed conveniently and laborsavingly when the containing box is used.

Referring to fig. 5, the second box wall 51 is in a three-dimensional column shape, the end portions of the two ends of the second box wall 51 are respectively provided with a second bump 511, the shape of the second bump 511 fits with the shape of the T-shaped second sliding groove 22, a second limiting sliding groove 512 is formed at the joint of the second bump 511 and the second box wall 51, the second bumps 511 at the two ends of the second box wall 51 can be installed in the two oppositely distributed T-shaped second sliding grooves 22, and the second bump 511 can slide up and down along the sliding groove of the T-shaped second sliding groove 22. The use of the "T" shaped structure for mounting the second box wall member 51 can increase the stability of the connection, avoiding the second box wall member 51 from slipping in the horizontal direction after the mounting is completed.

A first assembling strip 513 protruding out of the plane of the second box wall member 51 is arranged on one of the outer side walls of the second box wall member 51, and the length direction of the first assembling strip 513 is consistent with the length direction of the second box wall member 51; a second assembling strip 514 protruding out of the plane of the second box wall member 51 is arranged on the other outer side wall of the second box wall member 51, the length direction of the second assembling strip 514 is consistent with the length direction of the second box wall member 51, and the first assembling strip 513 and the second assembling strip 514 are respectively distributed on two opposite surfaces of the second box wall member 51.

When two adjacent second box wall members 51 are overlapped, the first assembly strip 513 on one second box wall member 51 is abutted against the second assembly strip 514 on the other second box wall member 51, the cross section of the second assembly strip 514 is arranged in a 7-shaped manner, the first assembly strip 513 is distributed and embedded in the concave part of the second assembly strip 514, the first assembly strip 513 and the second assembly strip 514 are matched well, and the sliding of the two adjacent second box wall members 51 in the horizontal direction can be prevented.

A first oblique cutting block 515 and a second oblique cutting block 516 are further arranged on the second box wall member 51, the first oblique cutting block 515 and the second oblique cutting block 516 are respectively arranged on one side face, provided with the first assembly strip 513, of the second box wall member 51 and one side face, provided with the second assembly strip 514, of the second box wall member 51, the first oblique cutting block 515 and the second oblique cutting block 516 are both arranged on the same side edge of the second box wall member 51, and oblique cutting planes of the first oblique cutting block 515 and the second oblique cutting block 516 are parallel to each other. When two adjacent second box wall members 51 are stacked, the chamfered surfaces of the first chamfered block 515 of one second box wall member 51 and the second chamfered block 516 of the other second box wall member 51 are abutted, and the planes of the first chamfered block 515 and the second chamfered block 516 are connected and form the side of the second sidewall 5.

When the tank wall of containing box received the striking, the transmission of first slash piece 515 of accessible and second slash piece 516 disperses the striking power to adjacent second case wall spare 51, reaches the effect that increases impact resistance for connect more stable non-deformable between each second case wall spare 51.

The implementation principle of the containing box of the embodiment of the application is as follows: when the photovoltaic power station needs to be transferred, all parts of the photovoltaic power station are transferred to the base 1, and then all the first box wall parts 41 and the second box wall parts 51 are installed on the upright post 2, so that four box walls of the containing box can be formed, the parts of the photovoltaic power station can be loaded and moved, the assembly is convenient and rapid, and the collision phenomenon between the parts of the photovoltaic power station and the containing box is not easy to occur in the assembly process; when needs equipment photovoltaic power plant, dismantle first lateral wall 4 or second lateral wall 5 from the containing box earlier, take out other spare parts of photovoltaic power plant from the containing box again and assemble photovoltaic power plant, top cap 6 covers and establishes to retrieve and contain the roof portion, and this containing box can regard as the desk to use this moment, and inner space can be used to placing object article.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a containing box of portable photovoltaic power plant, its characterized in that includes base (1), first lateral wall (4) and second lateral wall (5) all are provided with at least one, first lateral wall (4) and second lateral wall (5) all can be dismantled and install on base (1), first lateral wall (4) and second lateral wall (5) enclose to close and form the containing box that is used for loading photovoltaic power plant spare part.

2. The storage box of a portable photovoltaic power plant of claim 1, characterized in that: the novel vertical column structure is characterized by further comprising a plurality of vertical columns (2), wherein each vertical column (2) is vertically arranged at an end corner of the base (1), a first sliding groove (21) and a second sliding groove (22) are respectively formed in each vertical column (2) along the axis direction of the vertical column, two sides of each first side wall (4) are respectively inserted into the first sliding grooves (21) of two adjacent vertical columns (2), and the second side walls (5) are respectively inserted into the second sliding grooves (22) of two adjacent vertical columns (2).

3. The containing box of portable photovoltaic power plant of claim 2, characterized in that: the first sliding chute (21) and the second sliding chute (22) are both in a T-shaped structure, first convex blocks (417) are arranged on two sides of the first side wall (4), and two first convex blocks (417) positioned on the same first side wall (4) are respectively installed in the two first sliding chutes (21) which are distributed in a mutually opposite mode; and second convex blocks (511) are arranged on two sides of the second side wall (5), and the two second convex blocks (511) positioned on the same second side wall (5) are respectively arranged in two oppositely distributed second sliding grooves (22).

4. The containing box of portable photovoltaic power plant of claim 1, characterized in that: the first side wall (4) comprises a plurality of first box wall members (41), each first box wall member (41) is stacked to form the first side wall (4), the second side wall (5) comprises a plurality of second box wall members (51), and each second box wall member (51) is stacked to form the second side wall (5).

5. The containing box of portable photovoltaic power plant of claim 4 characterized in that: be provided with anti-skidding sand grip (415) and equipment sand grip (416) on first case wall spare (41), anti-skidding sand grip (415) and equipment sand grip (416) are equallyd divide and are provided with at least one respectively, two anti-skidding sand grip (415) and two sets of equipment sand grip (416) are located the both ends of first case wall spare (41) respectively, and just equipment sand grip (416) and two anti-skidding sand grip (415) of two adjacent first case wall spare (41) paste mutually.

6. The containing box of portable photovoltaic power plant of claim 5, characterized in that: still be provided with spacing strip (414) on first case wall spare (41), spacing strip (414) are located the lateral wall of first case wall spare (41) and are located the upper end of first case wall spare (41), and anti-skidding sand grip (415) on the first case wall spare (41) that is located the top offset with spacing strip (414) on the first case wall spare (41) that is located the below.

7. The containing box of portable photovoltaic power plant of claim 4 characterized in that: the first box wall piece (41) is provided with at least two reinforcing ribs (413), and the two reinforcing ribs (413) are oppositely distributed on two sides of the first side wall (4).

8. The storage box of a portable photovoltaic power plant of claim 4, characterized in that: the second box wall component (51) is provided with a first assembly strip (513) and a second assembly strip (514), at least one of the first assembly strip (513) and the second assembly strip (514) is arranged, the first assembly strip (513) and the second assembly strip (514) are respectively arranged at two ends of the second box wall component (51), and the second assembly strips (514) of the second box wall component (51) are attached to the first assembly strip (513).

9. The containing box of a portable photovoltaic power plant according to any one of claims 4 or 8, characterized in that: the second box wall part (51) is provided with a first oblique cutting block (515) and a second oblique cutting block (516), the first oblique cutting block (515) and the second oblique cutting block (516) are respectively located at two ends of the second box wall part (51), and oblique cutting faces of the first oblique cutting block (515) and the second oblique cutting block (516) on two adjacent second box wall parts (51) are abutted.

10. The containing box of portable photovoltaic power plant of claim 1, characterized in that: still include top cap (6), top cap (6) lid is located first lateral wall (4) and second lateral wall (5) and is enclosed on closing the containing box that forms.

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