CN207791661U - Photovoltaic module transfer device - Google Patents

Abstract

The utility model is related to a kind of photovoltaic module transfer devices, major design main points are, including shell, shell is cuboid, the top of shell is arranged to opening, for placing photovoltaic module in the shell, photovoltaic module is horizontal positioned to be apart arranged between multilayer and each layer, it is useful for holding in the palm the outrigger of photovoltaic module under every layer of photovoltaic module, the side of outrigger is fixed with supporting rod, fixed block on the shell is provided with above the supporting rod, the outrigger lower section is provided with supporting block close to the side of block.There is the utility model horizontal partition to ship photovoltaic module, reduce the damage advantage in photovoltaic module transportational process.

Description

Photovoltaic module transfer device

Technical field

The utility model is related to photovoltaic module transport field, more particularly to a kind of photovoltaic module transfer device.

Background technology

Photovoltaic module in the prior art uses more and more extensive, the transhipment for photovoltaic module, since photovoltaic module exists When being not installed on corresponding holder, photovoltaic module carries out being easy to collide in transportational process, to cause photovoltaic module Damage.

The packaging of general photovoltaic module makes the plate face of photovoltaic module be placed perpendicular to ground using traditional partition board, such Transporting mode, photovoltaic module can the bending under the gravity of itself, to cause photovoltaic module to damage.

Utility model content

The purpose of this utility model is to provide a kind of photovoltaic module transfer devices, and there is horizontal partition to ship photovoltaic Component reduces the damage advantage in photovoltaic module transportational process.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of photovoltaic module transfer device, including shell, shell are cuboid, and the top of shell is arranged to be open , for placing photovoltaic module in the shell, photovoltaic module is horizontal positioned to be apart arranged between multilayer and each layer, every layer of institute State the outrigger for being useful for holding in the palm photovoltaic module under photovoltaic module, the side of outrigger is fixed with supporting rod, the supporting rod it is upper Side is provided with fixed block on the shell, and the outrigger lower section is provided with supporting block close to the side of block.

By using above-mentioned technical proposal, in use, outrigger is provided with below the side of supporting rod is fixed on shell On supporting block, fix photovoltaic module on outrigger, position of the outrigger with supporting rod be inserted between supporting block and block, propping up Strut is stuck in below block, and the one end of outrigger far from supporting rod makes the side with supporting rod be upturned under the effect of gravity, Outrigger is set to keep horizontal position by the blocking of block, when taking out photovoltaic module to installation site, by far from supporting rod one Side tilts outrigger, so that supporting rod is detached from block post-tensioning and goes out outrigger, to first outrigger and photovoltaic module simultaneously from enclosure It takes out, it is another to act the installation site for being transported to photovoltaic module, photovoltaic module is finally being removed from outrigger, to photovoltaic module It is fixed inside the shell with the spaced horizontal formula of outrigger, to reduce the damaged in collision of photovoltaic module.

The utility model is further arranged to：The block is the hook formation that Open Side Down, and supporting rod may be stuck in block Hook in.

By using above-mentioned technical proposal, block is hook-shaped when Open Side Down, and supporting rod snaps into hook-shaped, further makes branch The fixing ability of strut improves, and to improve the stability of outrigger, prevents from falling in transportational process.

The utility model is further arranged to：It is provided on the outrigger fixed for photovoltaic module to be fixed on outrigger Device.

By using above-mentioned technical proposal, photovoltaic module is fixed on outrigger by fixing device, reduces photovoltaic module It beats in transportational process, and after outrigger takes out out of shell, photovoltaic module remains fixed on outrigger, to make photovoltaic group The safety higher of part transport.

The utility model is further arranged to：The fixing device includes snap-gauge, and snap-gauge is rotatably installed in outrigger vertically Side, snap-gauge can turn to the top of photovoltaic module, and there is snap-gauge elasticity, snap-gauge to be elastically against the upper surface of photovoltaic module.

By using above-mentioned technical proposal, fixing device is arranged to snap-gauge, the upper surface for being elastically against photovoltaic panel of snap-gauge For press photovoltaic module, the damage that on the one hand can prevent larger extruding force from causing snap-gauge to photovoltaic module, another party Face snap-gauge is rotated around trunnion axis, so that snap-gauge is fixed manner of comparison simple and fast.

The utility model is further arranged to：Spring carrier arm is hung on the supporting rod, spring carrier arm one end is hooked in support On bar, the other end fix inside the shell, and spring carrier arm act on supporting rod pulling force it is upward.

By using above-mentioned technical proposal, the spring tension of spring carrier arm acts on supporting rod, due to its direction of pull Keep supporting rod upward, so when under supporting rod is stuck in block, supporting rod is made outrigger by the pulling force of then spring carrier arm Fixation is more secured.

The utility model is further arranged to：The lower part of the shell is provided with multiple wheels for being used to support shell, and Wheel can be accommodated in the accommodating cavity that outer casing underpart opens up.

By using above-mentioned technical proposal, when multiple wheels being used to support are arranged in outer casing underpart, shell is manually push When transport, wheel keeps its transport more convenient, when wheel is by income to accommodating cavity, since shell is in direct contact relative movement Face prevent shell from moving to increasing friction force.

The utility model is further arranged to：Suspension is provided between the wheel and shell, suspension lower part is for installing Wheel, upper end are rotated relative to shell, connecting rod are provided in the middle part of the suspension, connecting rod one end is rotatablely connected with suspension, another End is rotatably connected to sliding block, and the sliding slot coordinated with sliding block is offered on the shell, and sliding block slides in sliding slot, and multiple sliding blocks are solid It is scheduled on together, screw rod is threaded on the shell, screw rod direction is identical as sliding block glide direction and screw rod stretches into shell One end be against on sliding block.

By using above-mentioned technical proposal, the multiple sliding blocks being connect with multiple link rotatables are wholely set, when making its movement, Multiple connecting rods can be driven to move together simultaneously, and suspension is made to open, wheel is stretched out together from accommodating intracavitary, prevents single wheel Housing tilt caused by when stretching.

The utility model is further arranged to：The screw rod far from stretch into one end in shell the outside in shell and Handwheel is installed.

By using above-mentioned technical proposal, handwheel is equipped with by one end of screw rod, one end far from handwheel is inserted into outer In shell, and its end, for being against sliding block, the length direction of screw rod is identical as the glide direction of sliding block, and rotation hand wheel can make Screw rod rotates, and screw rod is made to push slide block movement, keeps the rotation of screw rod more convenient after installing handwheel.

The utility model is further arranged to：The side of the separate block of the shell is arranged to opening, the shell On be rotatably connected to L-shaped lid, lid rotates down the opening for covering portion on the shell and side.

By using above-mentioned technical proposal, L-shaped cover cap on the shell, is used for the opening of closure, to prevent Photovoltaic module in shell is by external influence, in addition in the side mouth of shell, when the photovoltaic module in shell being made to take out It is more convenient.

In conclusion the utility model has the advantages that：

1. in use, outrigger is provided with the supporting block of fixation on the shell below the side of supporting rod, consolidate on outrigger Determine photovoltaic module, position of the outrigger with supporting rod is inserted between supporting block and block, supporting rod is stuck in below block, outside The one end of frame far from supporting rod makes the side with supporting rod be upturned under the effect of gravity, is made outrigger by the blocking of block Horizontal position is kept, when taking out photovoltaic module to installation site, by the way that outrigger is tilted far from supporting rod side, makes supporting rod It is detached from block post-tensioning and goes out outrigger, to which first outrigger and photovoltaic module are taken out from enclosure simultaneously, another rise is transported to photovoltaic The installation site of component is finally removing photovoltaic module from outrigger, to which photovoltaic module is fixed with the spaced horizontal formula of outrigger Inside the shell, to reduce the damaged in collision of photovoltaic module；

2. multiple wheels being used to support are arranged in outer casing underpart, for shell when manually push transport, wheel makes its transport It is more convenient, when wheel is by income to accommodating cavity, since shell is in direct contact the face of relative movement, to increase friction Power prevents shell from moving；

3. L-shaped cover cap is on the shell, be used for the opening of closure, to prevent the photovoltaic module in shell by It is more convenient when the photovoltaic module in shell being made to take out in addition in the side mouth of shell to external influence.

Description of the drawings

Fig. 1 is the stereogram of photovoltaic module transfer device；

Fig. 2 is the sectional view in the directions Figure 1A-A；

Fig. 3 is the stereogram that shell is splitted to show the photovoltaic module that is done of connection structure of outrigger with transfer device；

Fig. 4 is the portions the B enlarged drawing of Fig. 1；

Fig. 5 is the portions the C enlarged drawing of Fig. 4.

In figure, 1, photovoltaic module；2, shell；21, block；22, supporting block；3, outrigger；31, supporting rod；4, snap-gauge；5, bullet Spring is linked up with；6, wheel；7, suspension；8, connecting rod；9, sliding block；10, screw rod；11, handwheel；12, lid；13, accommodating cavity；14, sliding slot.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.The identical attached drawing of wherein identical parts Label indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "up" and "down" refer to It is the direction in attached drawing 1, word " bottom surface " and " top surface ", "inner" and "outside" are referred respectively to towards or away from particular elements geometry The direction at center.

A kind of photovoltaic module transfer device, with reference to figure 1, including shell 2, shell 2 is the structure of cuboid, top With a sidewall opening, lid 12 is installed above shell 2, and lid 12 is L-shaped, a side of lid 12 is hinged on On shell 2, lid 12 is rotated down the top for covering shell 2 and the opening of side wall.In the vessel formed inside shell 2 For placing photovoltaic module 1, after lid 12 covers, the infiltration of the rainwater in transportational process can be prevented.

With reference to figure 2, the lower part of shell 2 is provided with multiple wheels 6 for being used to support shell 2, right with wheel 6 on shell 2 Accommodating cavity 13 is offered at the position answered, each wheel 6 is connect using a suspension 7 with shell 2, and wheel 6 is mounted on suspension 7 On, upper end and the shell 2 of suspension 7 are rotatablely connected, and there are one connecting rod 8, one end of connecting rod 8 is rotatablely connected for the middle part installation of suspension 7 On suspension 7, the other end is rotatably connected to sliding block 9, has sliding slot 14 to be opened in inside shell 2 with what sliding block 9 coordinated.

When sliding block 9 slides to the right along sliding slot 14, connecting rod 8 can be made to haul the rotation of suspension 7, to which wheel 6 is accommodated in It is opened in the accommodating cavity 13 of 2 bottom of shell.

With reference to figure 2, the multiple sliding blocks 9 being rotatablely connected with multiple connecting rods 8 are wholely set, when making its movement, can drive simultaneously Multiple connecting rods 8 move together, and suspension 7 is made to open, and wheel 6 is stretched out together out of accommodating cavity 13, prevent single wheel 6 from stretching out When caused by shell 2 tilt, and stretch out when it is more convenient, on shell 2 be threadedly coupled a screw rod 10, one end of screw rod 10 Handwheel 11 is installed, one end far from handwheel 11 is inserted into shell 2, and its end is for being against sliding block 9, the length of screw rod 10 It is identical as the glide direction of sliding block 9 to spend direction.

It when screw rod 10 moves downward, is slided to the left against sliding block 9, so that wheel 6 is stretched out out of accommodating cavity 13, screw rod 10 is to the right When movement, wheel 6 can push sliding block 9 and move right, and wheel 6 is made to be received into accommodating cavity 13, can be in entrucking transportational process Increase the frictional force that bottom is subject to, to prevent shell 2 from moving.

With reference to figure 3 and Fig. 5, the layering of photovoltaic module 1 inside shell 2 is kept flat, and apart setting between two neighboring layer It sets, prevents from mutually colliding between two layers in transportational process, every layer of photovoltaic module 1 is mounted on outrigger 3, and outrigger 3 is in photovoltaic group Photovoltaic module 1 is held in the palm in the lower section of part 1, coordinates Fig. 4, the side of outrigger 3 is provided with multiple snap-gauges 4,4 one end of snap-gauge rotates vertically On outrigger 3, the other end can be rotated around vertical axes, and there is snap-gauge 4 elasticity, the free end of snap-gauge 4 to rotate to photovoltaic When the upper surface of component 1, snap-gauge 4 is against on photovoltaic module 1, to fixed photovoltaic module 1, photovoltaic module 1 is prevented to be detached from outrigger 3。

With reference to figure 5, a side of outrigger 3 is fixed with supporting rod 31, and the corresponding position of installation supporting rod 31 is provided with admittedly The block 21 being scheduled on shell 2, block 21 are arranged to that hook-shaped and its is opening down, and outrigger 3 is below the side of supporting rod 31 It is provided with the supporting block 22 being fixed on shell 2, after being fixed with photovoltaic module 1 on outrigger 3, outrigger 3 with supporting rod 31 Position is inserted between supporting block 22 and block 21, supporting rod 31 is stuck in 21 hook openings of block, outrigger 3 is far from supporting rod 31 One end so that the side with supporting rod 31 is upturned under the effect of gravity, so that outrigger 3 is kept water by the blocking of block 21 Prosposition is set, and when taking out photovoltaic module 1 to installation site, by the way that outrigger 3 is tilted far from 31 side of supporting rod, makes supporting rod 31 It is detached from 21 post-tensioning of block and goes out outrigger 3, to which first outrigger 3 and photovoltaic module 1 are taken out from 2 inside of shell simultaneously, another rise is transported To the installation site of photovoltaic module 1, photovoltaic module 1 is finally being removed from outrigger 3, to further increase transport photovoltaic module 1 safety.

With reference to figure 5, hang with spring carrier arm 5 on supporting rod 31, it is upward that spring carrier arm 5 acts on direction on supporting rod 31 One end of power, spring carrier arm 5 is hooked on supporting rod 31, and the other end is fixed in shell 2, is stuck in further increase outrigger 3 Fastness on block 21 prevents from making outrigger 3 be detached from from block 21 because jolting in transportational process.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (9)

1. a kind of photovoltaic module transfer device, it is characterised in that：Including shell (2), shell (2) is cuboid, shell (2) Top be arranged to opening, for placing photovoltaic module (1) in the shell (2), photovoltaic module (1) be horizontally arranged multilayer and At a distance of being arranged between each layer, it is useful for holding in the palm the outrigger (3) of photovoltaic module (1), outrigger under every layer of photovoltaic module (1) (3) side is fixed with supporting rod (31), and the block being fixed on shell (2) is provided with above the supporting rod (31) (21), the side of block (21) is provided with supporting block (22) below the outrigger (3).

2. photovoltaic module transfer device according to claim 1, it is characterised in that：The block (21) is that Open Side Down Hook formation, supporting rod (31) may be stuck in the hook of block (21).

3. photovoltaic module transfer device according to claim 1, it is characterised in that：It is arranged on the outrigger (3) useful In photovoltaic module (1) is fixed on fixing device on outrigger (3).

4. photovoltaic module transfer device according to claim 3, it is characterised in that：The fixing device includes snap-gauge (4), snap-gauge (4) is rotatably installed in the side of outrigger (3) vertically, and snap-gauge (4) can turn to the top of photovoltaic module (1), and blocks There is plate (4) elasticity, snap-gauge (4) to be elastically against the upper surface of photovoltaic module (1).

5. photovoltaic module transfer device according to claim 1, it is characterised in that：Bullet is hung on the supporting rod (31) Spring links up with (5), and spring carrier arm (5) one end is hooked on supporting rod (31), and the other end is fixed in shell (2), and spring carrier arm (5) The pulling force for acting on supporting rod (31) is upward.

6. photovoltaic module transfer device according to claim 1, it is characterised in that：The lower part of the shell (2) is arranged There are multiple wheels (6) for being used to support shell (2), and wheel (6) can be accommodated in the accommodating cavity (13) that shell (2) lower part opens up It is interior.

7. photovoltaic module transfer device according to claim 6, it is characterised in that：The wheel (6) and shell (2) it Between be provided with suspension (7), suspension (7) lower part is rotated for installing wheel (6), upper end relative to shell (2), the suspension (7) Middle part be provided with connecting rod (8), connecting rod (8) one end is rotatablely connected with suspension (7), and the other end is rotatably connected to sliding block (9), described The sliding slot (14) with sliding block (9) cooperation is offered on shell (2), sliding block (9) sliding in sliding slot (14), multiple sliding blocks (9) are admittedly Be scheduled on together, be threaded with screw rod (10) on the shell (2), screw rod (10) direction it is identical as sliding block (9) glide direction and One end that screw rod (10) stretches into shell (2) is against on sliding block (9).

8. photovoltaic module transfer device according to claim 7, it is characterised in that：The screw rod (10) is outer far from stretching into The outside in shell (2) of one end in shell (2) and handwheel (11) is installed.

9. photovoltaic module transfer device according to claim 1, it is characterised in that：The separate block of the shell (2) (21) side is arranged to opening, L-shaped lid (12) is rotatably connected on the shell (2), lid (12) rotates down For covering the opening on shell (2) top and side.