CN115091423A

CN115091423A - Solar cell workshop strorage device

Info

Publication number: CN115091423A
Application number: CN202211037845.9A
Authority: CN
Inventors: 丁玉安; 李杏祥; 胡志军; 吴建荣
Original assignee: Jiangsu Ruineng Technology Co ltd
Current assignee: Jiangsu Ruineng Technology Co ltd
Priority date: 2022-08-29
Filing date: 2022-08-29
Publication date: 2022-09-23
Anticipated expiration: 2042-08-29
Also published as: CN115091423B

Abstract

The application relates to the field of solar cells, in particular to a solar cell workshop storage device which comprises a storage device body and a solar cell panel, wherein the storage device body comprises a frame body and a placing table, the placing table is arranged in multiple rows along the height direction of the frame body, and the placing table in the same row comprises at least three placing pipes which are arranged in parallel along the width direction of the frame body; the solar cell panels are sequentially arranged on the two adjacent placing pipes in an overlapping mode, and the solar cell panels are adjacent to each other in an overlapping mode. This application has the effect that makes solar cell workshop strorage device be difficult for causing wearing and tearing to solar cell panel, improves solar cell's production quality.

Description

Solar cell workshop strorage device

Technical Field

The application relates to the field of solar cells, in particular to a storage device for a solar cell workshop.

Background

The solar cell is in a plate shape, the solar cell panel is a device which directly or indirectly converts solar radiation energy into electric energy through a photoelectric effect or a photochemical effect by absorbing sunlight, most of the solar cell panels are made of silicon, but the manufacturing cost is high, so that the solar cell panel has certain limitation in common use, and compared with a common cell and a recyclable rechargeable cell, the solar cell is an energy-saving and environment-friendly green product.

The solar cell workshop storage device is a special support designed for placing, installing and fixing a solar cell panel, and is generally made of aluminum alloy and stainless steel. After the solar cell is produced, the solar cell needs to be stored in a workshop through a solar cell workshop storage device. In the related technology, the solar cell workshop storage device comprises a frame body and a plurality of layers of partition plates arranged along the height direction of the frame body, and solar cell panels are placed on the partition plates in parallel one by one to realize storage of solar cells.

In view of the above-mentioned related technologies, the inventor believes that the contact surface between the partition plate of the solar cell workshop storage device and the solar cell panel is large, which easily causes abrasion to the solar cell panel, resulting in reduction of the production quality of the solar cell.

Disclosure of Invention

In order to make solar cell workshop strorage device be difficult for causing wearing and tearing to solar cell panel, improve solar cell's production quality, this application provides a solar cell workshop strorage device.

The application provides a solar cell workshop strorage device adopts following technical scheme:

a solar cell workshop storage device comprises a storage device body and a solar cell panel, wherein the storage device body comprises a frame body and a placing table, the placing table is arranged in multiple rows along the height direction of the frame body, and the placing table in the same row comprises at least three placing pipes which are arranged in parallel along the width direction of the frame body;

the solar cell panels are sequentially arranged on the two adjacent placing pipes in an overlapping mode, and the solar cell panels are adjacent to each other in an overlapping mode.

Through adopting above-mentioned technical scheme, can place solar cell panel successive layer in proper order on placing the pipe, the area of contact between solar cell panel and the strorage device body can be reduced to the setting of placing the pipe to reduce the wearing and tearing between strorage device body and the solar cell panel. In addition, adjacent solar cell panel overlap joint each other, can improve the stability that solar cell panel deposited under the less condition of area of contact between with the strorage device body.

Optionally, both sides of the solar cell panel in the thickness direction are provided with protective films, and the protective films cover the panel surface of the solar cell panel.

Through adopting above-mentioned technical scheme, the protection film can further reduce wear to can play dustproof effect, and be used for separating two solar cell panel, prevent to contact each other and generate electricity and cause energy loss.

Optionally, the placing pipe is arranged in a telescopic manner, and comprises an inner pipe and an outer pipe sleeved at two ends of the inner pipe;

the fixed shell fragment that is provided with of position department in the inside of inner tube and be close to its both ends, the spacing post of fixedly connected with on the shell fragment, the one end that the shell fragment was kept away from to spacing post is the arc setting, spacing post runs through the lateral wall of inner tube, the outer tube has seted up spacing hole on being close to the week lateral wall at self both ends, spacing hole is used for supplying spacing post to wear to establish.

Through adopting above-mentioned technical scheme, the accessible promotes the outer tube, makes spacing post remove to the direction towards inner tube central line to make the shell fragment compression, realize that the outer tube slides along the inner tube lateral wall, then realize placing the shrink of pipe, be convenient for accomodate, the strorage device body when transporting and need not using. When the storage device body needs to be used, the placing tube is extended, and the solar cell panel can be stably placed on the placing tube through the outer tubes at the two ends of the inner tube.

Optionally, still include many synchronizing bars, synchronizing bar and every row put the corresponding setting of pipe, synchronizing bar is connected simultaneously with the one end of putting the pipe and keeping away from the support body that corresponds one row.

Through adopting above-mentioned technical scheme, the setting up of synchronizing bar can realize that many with many of one row place the synchronous flexible of pipe, the operation of being convenient for.

Optionally, the frame body comprises an underframe, a middle frame and a top frame, and two sides of the middle frame are respectively hinged with the underframe and the top frame;

the frame body comprises a use state and a folded state, and a fixing assembly is arranged on the frame body; the top frame and the bottom frame can rotate to a use state relative to the middle frame, and the top frame and the bottom frame can also rotate to a folded state relative to the middle frame;

when the top frame, the bottom frame and the middle frame are in a use state, the top frame, the bottom frame and the middle frame are vertically arranged in parallel and are fixed through fixing components; when the top frame, the bottom frame and the middle frame are in folded states, the fixing assembly releases the fixing of the top frame, the bottom frame and the middle frame, and the top frame and the bottom frame are located on two sides of the middle frame in the width direction respectively.

Through adopting above-mentioned technical scheme, when the strorage device body need not use, remove fixed subassembly and remove the fixed of roof-rack, chassis and intermediate frame, also rotate roof-rack and chassis to fold condition department for intermediate frame, save the ascending occupation space of vertical side, further be convenient for accomodate, transport. When the strorage device body needs to use, rotate roof-rack and chassis to user state department for middle frame to fix through fixed subassembly, can normal use.

Optionally, the fixing assembly is arranged on two sides of the frame body in the width direction, the fixing assembly comprises a main rod, and a first limiting rod, a second limiting rod and a third limiting rod which are connected to the main rod, and elastic pads are fixedly arranged on the first limiting rod, the second limiting rod and the third limiting rod;

the top frame is provided with a first limiting through hole for the first limiting rod to pass through, the middle frame is provided with a second limiting through hole for the second limiting rod to pass through, and the bottom frame is provided with a third limiting through hole for the third limiting rod to pass through.

Through adopting above-mentioned technical scheme, the staff can hold the mobile jib, passes first spacing through-hole with first gag lever post, passes second spacing through-hole with the second gag lever post, the third spacing through-hole that passes the third gag lever post to through the cushion, realize the relatively fixed of roof-rack, chassis and intermediate strut.

Optionally, the fixing assembly further comprises a non-return rod, the non-return rod is hinged to the frame body through a torsion spring, non-return through grooves for the non-return rod to penetrate through are formed in the first limiting rod, the second limiting rod and the third limiting rod, and the non-return through grooves penetrate through one side of the first limiting rod, the second limiting rod and the third limiting rod in the width direction.

By adopting the technical scheme, when the first limiting rod passes through the first limiting through hole, the second limiting rod passes through the second limiting through hole and the third limiting through hole which is passed by the third limiting rod, the non-return rod is rotated to the position without interference. After the first limiting rod penetrates through the first limiting through hole, the second limiting rod penetrates through the second limiting through hole and the third limiting through hole, the check rod automatically rotates to penetrate through the check through groove under the action of the torsion spring to limit the first limiting rod, the second limiting rod and the third limiting rod, and therefore the top frame, the bottom frame and the middle frame are further fixed.

Optionally, when the placing pipe is contracted, one ends, close to each other, of the two outer pipes of the same placing pipe are abutted;

the rack body is provided with a plurality of mounting through holes, the placing pipe is arranged in the mounting through holes in a sliding manner, a first limiting assembly is arranged in each mounting through hole, and when the rack body is in a use state, the first limiting assembly is used for fixing the placing pipe;

when the shelf body is in a folded state, each row of placing pipes on the top shelf are horizontally arranged corresponding to the placing pipes on the bottom shelf; the diameter of an outer pipe of the placing pipe on the top frame is smaller than that of an inner pipe on the bottom frame, and the placing pipe on the top frame can slide into the corresponding placing pipe penetrating through the bottom frame;

and a second limiting assembly is arranged in the inner pipe on the bottom frame and is used for fixedly sliding to the placing pipe penetrating through the inner pipe of the bottom frame.

Through adopting above-mentioned technical scheme, when the strorage device body needs to be folded, will place the pipe shrink earlier with each, then with roof-rack, intermediate frame and chassis relative rotation to fold condition, then with placing the pipe on the chassis and promote to the direction towards the roof-rack to place the pipe on the roof-rack and promote towards the direction of chassis, and place on the messenger roof-rack and wear to locate in the inner tube of placing the pipe on the chassis, and fix through the spacing subassembly of second, realize the further folding of strorage device body. And the diameter of the outer pipe for placing the pipe on the top frame is smaller than that of the inner pipe on the bottom frame, so that the quality of placing the pipe on the bottom frame is larger than that of placing the pipe on the top frame, the stability of the placing frame structure is improved, and the solar cell panel can be placed stably.

Optionally, an installation groove is formed in the inner wall of the installation through hole, and the first limiting assembly is arranged in the installation groove; the first limiting assembly comprises a first telescopic spring, a first telescopic rod and a first wedge-shaped block, one end of the first telescopic rod is connected with the bottom wall of the mounting groove, and the other end of the first telescopic rod is connected with the first wedge-shaped block;

the first telescopic spring is sleeved on the first telescopic rod, one end of the first telescopic spring is abutted with the bottom wall of the mounting groove, and the other end of the first telescopic spring is abutted with the first wedge-shaped block; the one end that first expanding spring was kept away from to first wedge is provided with first use wedge and first folding wedge, set up the spacing groove that supplies first wedge to inlay to establish on the week lateral wall of the one end that the synchronizing bar was kept away from to the outer tube, the elasticity of shell fragment is less than first expanding spring's elasticity.

Through adopting above-mentioned technical scheme, when the strorage device body was in the user state, first wedge inlayed and locates the spacing inslot, placed the pipe this moment and be in the extension state, and solar cell panel places on placing the pipe. When the storage device body needs to be folded, the synchronizing rods on the top frame and the bottom frame are pushed firstly, so that the placing pipes on the top frame and the bottom frame are in a contraction state.

Then rotate roof-rack and chassis to fold condition for the intermediate bay, promote the synchronizing bar on chassis and the roof-rack again, first wedge produces the extrusion to first folding wedge face this moment, along with the continuation promotion of synchronizing bar, first wedge roll-off from the spacing groove, first expanding spring shrink, then make on chassis and the roof-rack corresponding place the pipe orientation and slide towards the direction that is close to each other, and make place on the roof-rack in the pipe wears to locate the inner tube of placing the pipe on the chassis, and fix through the spacing subassembly of second, realize further folding, thereby further save the space that the strorage device body occupy.

Optionally, the second limiting assembly comprises a second expansion spring, a second expansion rod and a second wedge-shaped block, one end of the second expansion rod is connected with the inner wall of the outer tube on the chassis, and the other end of the second expansion rod is connected with the second wedge-shaped block;

the second telescopic spring is sleeved on the second telescopic rod, one end of the second telescopic spring is abutted against the inner wall of the outer pipe on the underframe, and the other end of the second telescopic spring is abutted against the second wedge-shaped block; one end of the second wedge block, which is far away from the second telescopic spring, is provided with a second use wedge surface and a second folding wedge surface, and when the frame body is in a folding state, the second wedge block is embedded in a limiting groove of the outer tube on the top frame.

Through adopting above-mentioned technical scheme, when placing the pipe on the roof-rack and wear to locate in placing the inner tube of pipe on the chassis, the second wedge can wear to locate in the spacing inslot of outer tube on the roof-rack, places the relatively fixed of pipe on roof-rack and the chassis when realizing to folding state. The spacing groove of roof-rack outer tube can be spacing the pipe of placing on the support body when using state and fold condition respectively, has simplified the structure.

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

1. the solar cell panels can be sequentially placed on the placing pipes layer by layer through the arrangement of the storage device body and the solar cell panels, and the arrangement of the placing pipes can reduce the contact area between the solar cell panels and the storage device body, so that the abrasion between the storage device body and the solar cell panels is reduced; in addition, the adjacent solar panels are mutually overlapped, so that the storage stability of the solar panels can be improved under the condition that the contact area between the solar panels and the storage device body is small, the protective film can further reduce abrasion and play a dustproof role, and the protective film is used for separating the two solar panels to prevent energy loss caused by mutual contact and power generation;

2. through the telescopic arrangement of the placing pipe and the arrangement of the synchronizing rods, the plurality of outer pipes can be pushed by the synchronizing rods at the same time, so that the limiting columns move towards the direction of the central line of the inner pipe, the elastic pieces are compressed, the outer pipes slide along the outer side wall of the inner pipe, the contraction of the placing pipe is realized, and the storage device body is convenient to store and transport when the storage device body is not required to be used; when the storage device body needs to be used, the placing pipe is stretched, and the solar cell panel can be stably placed on the placing pipe through the outer pipes at the two ends of the inner pipe;

3. through the arrangement of the bottom frame, the top frame and the middle frame, when the storage device body does not need to be used, the fixing assembly is removed to remove the fixing of the top frame, the bottom frame and the middle frame, and the top frame and the bottom frame are also rotated to the folded state relative to the middle frame, so that the occupied space in the vertical direction is saved, and the storage device is further convenient to store and transport; when the strorage device body needs to use, rotate roof-rack and chassis to user state department for middle frame to fix through fixed subassembly, can normal use.

4. When the storage device body needs to be folded, the placing pipes are contracted, the top frame, the middle frame and the bottom frame are rotated relatively to be folded, then the placing pipes on the bottom frame are pushed towards the top frame, the placing pipes on the top frame are pushed towards the bottom frame, the placing pipes on the top frame are inserted into the inner pipes of the placing pipes on the bottom frame, and the placing pipes are fixed through the second limiting assembly, so that the storage device body is further folded; and the diameter of the outer pipe for placing the pipe on the top frame is smaller than that of the inner pipe on the bottom frame, so that the quality of placing the pipe on the bottom frame is larger than that of placing the pipe on the top frame, the stability of the placing frame structure is improved, and the solar cell panel can be placed stably.

Drawings

Fig. 1 is a schematic view of the overall structure of a solar cell workshop storage device in an embodiment of the present application when a rack is in a use state.

Fig. 2 is a schematic structural diagram for showing a solar panel in the embodiment of the present application.

Fig. 3 is a schematic structural view for showing the bottom row of placing tubes in the embodiment of the present application.

Fig. 4 is a schematic diagram for showing the internal structure of the tube in the embodiment of the present application.

Fig. 5 is a schematic structural diagram for showing a fixing assembly in the embodiment of the present application.

Fig. 6 is an enlarged view at a in fig. 1.

Fig. 7 is a schematic structural diagram for showing a mounting through hole in the embodiment of the present application.

Fig. 8 is an enlarged view at B in fig. 7.

Fig. 9 is a schematic structural view for showing the first telescopic rod in the embodiment of the present application.

Fig. 10 is a schematic view of the overall structure of the solar cell shop storage apparatus in the folded state of the racks according to the embodiment of the present application.

Fig. 11 is a schematic structural view illustrating the top frame with the placing tube inserted in the placing tube of the bottom frame when the display shelf body is folded according to the embodiment of the present application.

Fig. 12 is a schematic structural diagram for showing a part of an outer tube hiding a placing tube on a bottom frame when the placing tube on the top frame is inserted into the placing tube on the bottom frame in the embodiment of the application.

Fig. 13 is an enlarged view at C in fig. 12.

Fig. 14 is a schematic structural view for showing the second telescopic rod in the embodiment of the present application.

Description of reference numerals: 1. a storage device body; 11. a frame body; 111. a universal wheel; 112. a chassis; 1121. a third limiting through hole; 113. a middle frame; 1131. a second limiting through hole; 1132. a handle; 114. a top frame; 1141. a first limit through hole; 12. a placing table; 13. a synchronization lever; 2. a solar panel; 21. a protective film; 3. placing a tube; 31. an inner tube; 32. an outer tube; 321. a limiting hole; 322. a limiting groove; 33. a spring plate; 34. a limiting column; 4. a fixing assembly; 41. a main rod; 42. a first limit rod; 43. a second limiting rod; 44. a third limiting rod; 45. a non-return lever; 46. an elastic pad; 47. a non-return through groove; 5. mounting a through hole; 51. mounting grooves; 6. a first limit component; 61. a first extension spring; 62. a first telescopic rod; 621. a first outer cylinder; 622. a first slider; 623. a first inner cylinder; 624. a first chute; 63. a first wedge block; 631. a first use wedge-facet; 632. a first folded wedge-shaped face; 7. a second limiting component; 71. a second extension spring; 72. a second telescopic rod; 721. a second outer cylinder; 722. a second slider; 723. a second inner barrel; 724. a second chute; 73. a second wedge block; 731. a second use wedge-face; 732. a second folded wedge face.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-14.

The embodiment of the application discloses storage device for solar cell workshops. Referring to fig. 1 and 2, the solar cell workshop storage device comprises a storage device body 1 and a solar cell panel 2, wherein the storage device body 1 comprises a support body 11 and a placing table 12, a plurality of universal wheels 111 are fixedly mounted at the bottom of the support body 11, and the storage device body 1 is convenient to move. The placing tables 12 are arranged in a plurality of rows along the height direction of the rack 11, and the same placing table 12 includes at least three placing pipes 3 arranged in parallel along the width direction of the rack 11, and in this embodiment, five placing pipes 3 are arranged on the same placing table 12. Every solar cell panel 2 of placing on the platform 12 has three and sets up in proper order on two adjacent pipes 3 of placing, and adjacent solar cell panel 2 is overlap joint each other. Both sides of 2 thickness directions of solar cell panel all paste and have covered protection film 21, and the size of protection film 21 is greater than the face size of solar cell panel 2 to cover solar cell panel 2's face, reduce strorage device body 1 to solar cell panel 2's wearing and tearing, and play dustproof effect, and be used for separating two solar cell panel 2, in case contact power generation between each other causes energy loss.

When depositing solar cell panel 2, can place solar cell panel 2 successive layer in proper order on placing pipe 3, the area of contact between solar cell panel 2 and the strorage device body 1 can be reduced in the setting of placing pipe 3 to reduce the wearing and tearing between strorage device body 1 and solar cell panel 2. In addition, the adjacent solar cell panels 2 are mutually overlapped, so that the storage stability of the solar cell panels 2 can be improved under the condition that the contact area between the solar cell panels and the storage device body 1 is small.

Referring to fig. 1 and 3, the row of placing pipes 3 located at the bottom end is a square pipe, and the rest of placing pipes 3 are round pipes. Place pipe 3 and all stretch out and draw back the setting, install many synchronizing rod 13 on the strorage device body 1, synchronizing rod 13 with every discharge put pipe 3 and correspond the setting, synchronizing rod 13 with correspond one row place pipe 3 keep away from the one end fixed connection simultaneously of support body 11, synchronizing rod 13 is used for driving with one row many place pipe 3 and stretch out and draw back in step. When the storage rack is not needed to be used, the placing pipe 3 can be contracted through the synchronizing rod 13, and the storage device body 1 is convenient to store and transport when not needed to be used. When the storage device body 1 is to be used, the storage tube 3 is extended.

Referring to fig. 3 and 4, the placing tube 3 includes an inner tube 31 and outer tubes 32 sleeved at both ends of the inner tube 31, the solar cell panel 2 can be stably placed on the placing tube 3 through the outer tubes 32 at both ends of the inner tube 31, and when the placing tube 3 contracts, one ends of the two outer tubes 32 of the same placing tube 3, which are close to each other, are abutted. The shell fragment 33 of the inside of inner tube 31 and the position department fixedly connected with "V" type that is close to its both ends, the spacing post 34 of both sides fixedly connected with of shell fragment 33, the one end that shell fragment 33 was kept away from to spacing post 34 is the arc setting, spacing post 34 runs through the lateral wall of inner tube 31, outer tube 32 is close to the relative division on the week lateral wall at self both ends and is equipped with two spacing holes 321, every spacing post 34 corresponds with a spacing hole 321, spacing hole 321 is used for supplying corresponding spacing post 34 to wear to establish.

Through promoting synchronizing bar 13, promote outer tube 32 then, make spacing post 34 to the direction removal towards inner tube 31 central line to make shell fragment 33 compress, realize that outer tube 32 slides along inner tube 31 lateral wall, then realize placing the shrink of pipe 3, be convenient for accomodate, transport strorage device body 1 when not needing the use. When strorage device body 1 needs to use, pulling synchronizing bar 13 make place the pipe 3 extension can, through the outer tube 32 at inner tube 31 both ends, can make solar cell panel 2 place steadily on placing pipe 3.

Referring to fig. 1, the frame body 11 includes a bottom frame 112, an intermediate frame 113 and a top frame 114, two sides of the intermediate frame 113 are respectively hinged to the bottom frame 112 and the top frame 114 through hinges, the frame body 11 includes a use state and a folded state, the fixing assembly 4 is installed on the frame body 11, and the fixing assembly 4 is installed on two sides of the frame body 11 in the width direction. The top frame 114 and the bottom frame 112 can rotate to a use state relative to the middle frame 113, the top frame 114 and the bottom frame 112 can also rotate to a folded state relative to the middle frame 113, and when the top frame 114, the bottom frame 112 and the middle frame 113 are in the use state, the top frame 114, the bottom frame 112 and the middle frame 113 are vertically arranged in parallel and fixed through the fixing assembly 4; when the top frame 114, the bottom frame 112 and the intermediate frame 113 are in the folded state, the fixing assembly 4 releases the fixing of the top frame 114, the bottom frame 112 and the intermediate frame 113, the top frame 114 and the bottom frame 112 are respectively positioned at two sides of the intermediate frame 113 in the width direction, and the top frame 114 and the bottom frame 112 are positioned below the intermediate frame 113.

When the storage device body 1 is not needed to be used, the fixing component 4 is removed to remove the fixing of the top frame 114, the bottom frame 112 and the middle frame 113, the top frame 114 and the bottom frame 112 are also rotated to the folded state relative to the middle frame 113, the occupied space in the vertical direction is saved, and the storage device is further convenient to store and transport. When the storage device body 1 needs to be used, the top frame 114 and the bottom frame 112 are rotated to the use state relative to the middle frame 113 and are fixed through the fixing assembly 4, and then the storage device can be normally used.

Referring to fig. 1, 5 and 6, the fixing assembly 4 includes a main rod 41, a first limiting rod 42, a second limiting rod 43, a third limiting rod 44 and a check rod 45, the main rod 41 is vertically disposed, the first limiting rod 42, the second limiting rod 43 and the third limiting rod 44 are fixedly connected to one side surface of the main rod 41 on the same side, and the first limiting rod 42, the second limiting rod 43 and the third limiting rod 44 are all fixedly connected to an elastic pad 46. The first limiting rod 42 and the third limiting rod 44 are respectively provided with one, the first limiting rod 42 and the third limiting rod 44 are respectively close to two ends of the main rod 41 in the length direction, and the second limiting rod 43 is positioned between the first limiting rod 42 and the third limiting rod 44 and is provided with two limiting rods. The top frame 114 is provided with a first limiting through hole 1141 for the first limiting rod 42 to pass through, the middle frame 113 is provided with a second limiting through hole 1131 for the second limiting rod 43 to pass through, and the bottom frame 112 is provided with a third limiting through hole 1121 for the third limiting rod 44 to pass through. A handle 1132 is fixedly connected to the left side of the intermediate frame 113, so that the storage device body 1 can be pulled conveniently.

Referring to fig. 5 and 6, the stopping rod 45 is hinged to the frame body 11 through a torsion spring, the stopping rod 45 has two pieces, the first limiting rod 42, the second limiting rod 43 and the third limiting rod 44 are all provided with stopping through grooves 47 for the stopping rod 45 to penetrate through, and the stopping through grooves 47 penetrate through one side of the first limiting rod 42, the second limiting rod 43 and the third limiting rod 44 in the width direction. One of the stopping rods 45 is inserted into the stopping through grooves 47 of the first and second limiting

rods

42 and 43, and the other stopping rod 45 is inserted into the stopping through grooves 47 of the third and second limiting

rods

44 and 43.

When the frame body 11 is in a use state, the check rod 45 is rotated to a non-interference position, the main rod 41 is held, the first limiting rod 42 penetrates through the first limiting through hole 1141, the second limiting rod 43 penetrates through the second limiting through hole 1131, the third limiting through hole 1121 through which the third limiting rod 44 penetrates is further penetrated, the elastic pad 46 is further passed, and the check rod 45 automatically rotates to penetrate through the check through groove 47 under the action of the torsion spring, so that the first limiting rod 42, the second limiting rod 43 and the third limiting rod 44 are limited, and the top frame 114, the bottom frame 112 and the middle frame 113 are fixed.

Referring to fig. 1, 7, 8 and 9, a plurality of installation through holes 5 have been seted up on the support body 11, for placing of pipe 3 slidable mounting in installation through hole 5, all install first spacing subassembly 6 in the installation through hole 5, when support body 11 was in user state, first spacing subassembly 6 was used for the fixed pipe 3 of placing. The inner wall of the installation through hole 5 is provided with an installation groove 51, and the first limiting component 6 is installed in the installation groove 51. The first limiting assembly 6 comprises a first telescopic spring 61, a first telescopic rod 62 and a first wedge-shaped block 63. The first telescopic rod 62 includes a first outer cylinder 621 and a first inner cylinder 623 slidably connected in the first outer cylinder 621 through a first sliding block 622, and a first sliding slot 624 for the first sliding block 622 to slide is opened on an inner wall of the first outer cylinder 621. One end of the first outer cylinder 621 far away from the first inner cylinder 623 is fixedly connected with the bottom wall of the mounting groove 51, and one end of the first inner cylinder 623 far away from the first outer cylinder 621 is fixedly connected with the first wedge block 63.

Referring to fig. 8, the first extension spring 61 is sleeved on the first extension rod 62, one end of the first extension spring 61 abuts against the bottom wall of the mounting groove 51, and the other end of the first extension spring 61 abuts against the first wedge block 63. One end of the first wedge-shaped block 63, which is far away from the first extension spring 61, is provided with a first using wedge-shaped surface 631 and a first folding wedge-shaped surface 632, a circumferential side wall of one end of the outer tube 32, which is far away from the synchronizing rod 13, is provided with a limiting groove 322 for the first wedge-shaped block 63 to be embedded, and the elastic force of the elastic sheet 33 is smaller than the elastic force of the first extension spring 61. When the storage device body 1 is in a use state, the first wedge-shaped block 63 is embedded in the limiting groove 322, the placing pipe 3 is in an extension state at the moment, and the solar cell panel 2 is placed on the placing pipe 3.

Referring to fig. 10, 11 and 12, when the rack 11 is in the folded state, each row of the placing tubes 3 on the top frame 114 has the placing tubes 3 on the bottom frame 112 horizontally disposed corresponding thereto. The diameter of the outer pipe 32 of the placing pipe 3 on the top frame 114 is smaller than that of the inner pipe 31 on the bottom frame 112, and the placing pipe 3 on the top frame 114 can slide into the corresponding placing pipe 3 arranged on the bottom frame 112 in a penetrating way. The inner tube 31 on the bottom frame 112 is provided with a second limiting component 7, and the second limiting component 7 is used for fixing and sliding the placing tube 3 which is arranged in the inner tube 31 of the bottom frame 112 in a penetrating way.

Referring to fig. 13 and 14, the second limit assembly 7 includes a second extension spring 71, a second extension rod 72, and a second wedge 73. The second telescopic rod 72 includes a second outer cylinder 721 and a second inner cylinder 723 slidably connected to the second outer cylinder 721 through a second sliding block 722, and a second sliding slot 724 for the second sliding block 722 to slide is disposed on an inner wall of the second outer cylinder 721. One end of the second outer cylinder 721 far away from the second inner cylinder 723 is fixedly connected with the inner wall of the outer tube 32 on the chassis 112, and one end of the second inner cylinder 723 far away from the second outer cylinder 721 is fixedly connected with the second wedge block 73.

Referring to fig. 12 and 13, the second extension spring 71 is sleeved on the second extension rod 72, one end of the second extension spring 71 abuts against the inner wall of the outer tube 32 on the bottom frame 112, and the other end of the second extension spring 71 abuts against the second wedge 73. One end of the second wedge block 73 away from the second extension spring 71 is provided with a second using wedge surface 731 and a second folding wedge surface 732, and when the frame body 11 is in the folded state, the second wedge block 73 is embedded in the limiting groove 322 of the outer tube 32 on the top frame 114.

When the storage device body 1 needs to be folded, the synchronizing rods 13 on the top frame 114 and the bottom frame 112 are pushed first, so that the placing pipes 3 on the top frame 114 and the bottom frame 112 are in a contracted state. Then, the top frame 114 and the bottom frame 112 are rotated to a folded state relative to the middle frame 113, and the synchronizing rods 13 on the bottom frame 112 and the top frame 114 are pushed, at this time, the first wedge-shaped blocks 63 extrude the first folding wedge-shaped surfaces 632, and along with the continuous pushing of the synchronizing rods 13, the first wedge-shaped blocks 63 slide out of the limiting grooves 322, the first expansion springs 61 contract, so that the corresponding placing pipes 3 on the bottom frame 112 and the top frame 114 slide towards the direction in which the placing pipes 3 are close to each other, the placing pipes 3 on the top frame 114 are arranged in the inner pipes 31 of the placing pipes 3 on the bottom frame 112 in a penetrating mode, the second wedge-shaped blocks 73 can be arranged in the limiting grooves 322 of the outer pipes 32 on the top frame 114 in a penetrating mode, and the relative fixing of the placing pipes 3 on the top frame 114 and the bottom frame 112 in a folding state is achieved. Further folding is achieved, thereby further saving the space occupied by the storage device body 1. The limiting groove 322 of the outer tube 32 of the top frame 114 can limit the placing tube 3 on the frame body 11 in the using state and the folding state respectively, and the structure is simplified.

The implementation principle of the solar cell workshop storage device in the embodiment of the application is as follows: when the storage device body 1 is in a use state, the first wedge-shaped block 63 is embedded in the limiting groove 322, the placing pipe 3 is in an extension state at the moment, the placing pipe 3 is in the extension state, and the solar cell panel 2 is placed on the outer pipe 32 at two ends of the placing pipe 3.

When the storage device body 1 needs to be folded, the fixing components 4 are firstly released from fixing the top frame 114, the bottom frame 112 and the middle frame 113 relatively, and the synchronizing rods 13 on the top frame 114 and the bottom frame 112 are pushed, so that the placing pipes 3 on the top frame 114 and the bottom frame 112 are in a contraction state.

Then, the top frame 114 and the bottom frame 112 are rotated to a folded state relative to the middle frame 113, and the synchronizing rods 13 on the bottom frame 112 and the top frame 114 are pushed, at the moment, the first wedge-shaped blocks 63 extrude the first folding wedge-shaped surfaces 632, along with the continuous pushing of the synchronizing rods 13, the first wedge-shaped blocks 63 slide out of the limiting grooves 322, the first telescopic springs 61 are contracted, so that the corresponding placing pipes 3 on the bottom frame 112 and the top frame 114 slide towards the directions close to each other, the placing pipes 3 on the top frame 114 penetrate through the inner pipes 31 of the placing pipes 3 on the bottom frame 112, and are fixed through the second limiting assembly 7, so that the further folding is realized, and the space occupied by the storage device body 1 is further saved.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, 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

1. The utility model provides a solar cell workshop strorage device which characterized in that: the solar storage device comprises a storage device body (1) and a solar cell panel (2), wherein the storage device body (1) comprises a frame body (11) and a placing table (12), the placing table (12) is arranged in multiple rows along the height direction of the frame body (11), and the placing table (12) in the same row comprises at least three placing pipes (3) which are arranged in parallel along the width direction of the frame body (11);

the solar cell panels (2) are sequentially arranged on the two adjacent placing pipes (3) in an overlapping mode, and the solar cell panels (2) are adjacent to each other in an overlapping mode.

2. The solar cell plant storage apparatus of claim 1, wherein: both sides of solar cell panel (2) thickness direction all are provided with protection film (21), protection film (21) cover the face of solar cell panel (2).

3. The solar cell plant storage apparatus of claim 1, wherein: the placing pipe (3) is arranged in a telescopic mode, and the placing pipe (3) comprises an inner pipe (31) and an outer pipe (32) sleeved at two ends of the inner pipe (31);

the fixed shell fragment (33) that is provided with in the inside of inner tube (31) and the position department that is close to its both ends, spacing post (34) of fixedly connected with on shell fragment (33), the one end that shell fragment (33) were kept away from in spacing post (34) is the arc setting, spacing post (34) run through the lateral wall of inner tube (31), spacing hole (321) have been seted up on outer tube (32) the week lateral wall that is close to self both ends, spacing hole (321) are used for supplying spacing post (34) to wear to establish.

4. A solar cell plant storage apparatus as defined in claim 3, wherein: still include many synchronizing bars (13), synchronizing bar (13) and every row place pipe (3) and correspond the setting, synchronizing bar (13) are connected simultaneously with the one end of keeping away from support body (11) of placing pipe (3) that corresponds one row.

5. The solar cell plant storage apparatus of claim 4, wherein: the rack body (11) comprises an underframe (112), a middle rack (113) and a top rack (114), wherein two sides of the middle rack (113) are respectively hinged with the underframe (112) and the top rack (114);

the frame body (11) comprises a using state and a folding state, and the frame body (11) is provided with a fixing assembly (4); the top frame (114) and the bottom frame (112) can rotate to a use state relative to the middle frame (113), and the top frame (114) and the bottom frame (112) can also rotate to a folded state relative to the middle frame (113);

when the top frame (114), the bottom frame (112) and the middle frame (113) are in a use state, the top frame (114), the bottom frame (112) and the middle frame (113) are vertically arranged in parallel and are fixed through the fixing assembly (4); when the top frame (114), the bottom frame (112) and the middle frame (113) are in folded states, the fixing assembly (4) releases the fixing of the top frame (114), the bottom frame (112) and the middle frame (113), and the top frame (114) and the bottom frame (112) are respectively located on two sides of the middle frame (113) in the width direction.

6. The solar cell shop storage apparatus according to claim 5, wherein: the fixing assembly (4) is arranged on two sides of the frame body (11) in the width direction, the fixing assembly (4) comprises a main rod (41) and a first limiting rod (42), a second limiting rod (43) and a third limiting rod (44) which are connected to the main rod (41), and elastic pads (46) are fixedly arranged on the first limiting rod (42), the second limiting rod (43) and the third limiting rod (44);

the top frame (114) is provided with a first limiting through hole (1141) for a first limiting rod (42) to pass through, the middle frame (113) is provided with a second limiting through hole (1131) for a second limiting rod (43) to pass through, and the bottom frame (112) is provided with a third limiting through hole (1121) for a third limiting rod (44) to pass through.

7. The solar cell plant storage apparatus of claim 6, wherein: the fixed component (4) further comprises a non-return rod (45), the non-return rod (45) is hinged to the frame body (11) through a torsion spring, non-return through grooves (47) for the non-return rod (45) to penetrate are formed in the first limiting rod (42), the second limiting rod (43) and the third limiting rod (44), and the non-return through grooves (47) penetrate through one side of the width direction of the first limiting rod (42), the second limiting rod (43) and the third limiting rod (44).

8. The solar cell shop storage apparatus according to claim 5, wherein: when the placing pipe (3) is contracted, one ends, close to each other, of the two outer pipes (32) of the same placing pipe (3) are abutted;

the rack body (11) is provided with a plurality of mounting through holes (5), the placing pipe (3) is arranged in the mounting through holes (5) in a sliding manner, a first limiting assembly (6) is arranged in the mounting through holes (5), and when the rack body (11) is in a use state, the first limiting assembly (6) is used for fixing the placing pipe (3);

when the shelf body (11) is in a folded state, the placing pipes (3) on the bottom frame (112) of each row of placing pipes (3) on the top frame (114) are horizontally arranged correspondingly; the diameter of an outer pipe (32) of the placing pipe (3) on the top frame (114) is smaller than that of an inner pipe (31) on the bottom frame (112), and the placing pipe (3) on the top frame (114) can slide into the corresponding placing pipe (3) arranged on the bottom frame (112) in a penetrating manner;

a second limiting component (7) is arranged in the inner pipe (31) on the bottom frame (112), and the second limiting component (7) is used for fixedly sliding to the placing pipe (3) penetrating through the inner pipe (31) of the bottom frame (112).

9. The solar cell plant storage apparatus of claim 8, wherein: an installation groove (51) is formed in the inner wall of the installation through hole (5), and the first limiting component (6) is arranged in the installation groove (51); the first limiting assembly (6) comprises a first telescopic spring (61), a first telescopic rod (62) and a first wedge-shaped block (63), one end of the first telescopic rod (62) is connected with the bottom wall of the mounting groove (51), and the other end of the first telescopic rod (62) is connected with the first wedge-shaped block (63);

the first telescopic spring (61) is sleeved on the first telescopic rod (62), one end of the first telescopic spring (61) is abutted with the bottom wall of the mounting groove (51), and the other end of the first telescopic spring (61) is abutted with the first wedge-shaped block (63); the one end that first expanding spring (61) was kept away from in first wedge (63) is provided with first use wedge face (631) and first folding wedge face (632), offer on the week lateral wall of the one end of synchronizing bar (13) is kept away from in outer tube (32) and supply first wedge (63) to inlay spacing groove (322) of establishing, the elasticity of shell fragment (33) is less than the elasticity of first expanding spring (61).

10. The solar cell plant storage apparatus of claim 9, wherein: the second limiting assembly (7) comprises a second telescopic spring (71), a second telescopic rod (72) and a second wedge-shaped block (73), one end of the second telescopic rod (72) is connected with the inner wall of the outer tube (32) on the underframe (112), and the other end of the second telescopic rod (72) is connected with the second wedge-shaped block (73);

the second telescopic spring (71) is sleeved on the second telescopic rod (72), one end of the second telescopic spring (71) is abutted against the inner wall of the outer pipe (32) on the bottom frame (112), and the other end of the second telescopic spring (71) is abutted against the second wedge-shaped block (73); one end, far away from the second telescopic spring (71), of the second wedge block (73) is provided with a second using wedge surface (731) and a second folding wedge surface (732), and when the rack body (11) is in a folding state, the second wedge block (73) is embedded in a limiting groove (322) of the outer pipe (32) on the top rack (114).