CN104944002B - Double-glass solar energy assembly packing crates and packing method thereof - Google Patents

Abstract

The present invention relates to a kind of double-glass solar energy assembly packing crates, it is characterized in that it includes base (1), first framework (2) and the second framework (3), wherein the first framework (2) is fixing with base (1) is connected, second framework (3) removably connects with the first framework (2), the end face of described base (1) is provided with base positive stop strip (1.2), the right side of described first framework (2) arranges the first framework positive stop strip (2.5), the left side of described second framework (3) is provided with the second framework positive stop strip (3.5), the top of described second framework (3) is provided with upper limit bar (3.6).The present invention has a simple in construction, can fast and easy effectively carry out double-glass solar energy assembly packaging, the advantage transporting and devan.

Description

Double-glass solar energy assembly packing crates and packing method thereof

Technical field

The present invention relates to a kind of double-glass solar energy assembly packing crates and packing method thereof, be mainly used in the packaging of double-glass solar energy assembly, it is ensured that the safety during packing, transport or devaning, well meet double-glass solar energy assembly and pack demand the most easily.

Background technology

Owing to conventional double-glass solar energy assembly is without aluminum border structure, assembly itself is the thinnest, frangible and more conventional assembly weight, and double-glass solar energy assembly cannot the same with there being aluminum border component closely sort packaging in packaging process；Traditional Concha Arcae paper packaging box needs to consider that environmental factors is more, and crushing resistance is poor, resistance to water moisture resistant ability, and double-glass solar energy assembly itself is heavier, uses traditional paper packaging box easily to topple over, and operation exists certain potential safety hazard；The board-like structure packing box of Traditional Wood, holistic cost is higher, body structure is the heaviest, double-glass solar energy assembly packaging, transport or process of devaning comparatively laborious be difficult to operation.Therefore seek a kind of simple in construction, fast and easy can effectively carry out the packaging of double-glass solar energy assembly, transport and double-glass solar energy assembly packing crates and the packing method thereof devaned are particularly important.

Summary of the invention

It is an object of the invention to overcome above-mentioned deficiency, it is provided that a kind of simple in construction, fast and easy can effectively carry out the packaging of double-glass solar energy assembly, transport and the double-glass solar energy assembly packing crates devaned and packing method thereof.

The object of the present invention is achieved like this:

nullA kind of double-glass solar energy assembly packing crates，It includes base、First framework and the second framework，Wherein the first framework is fixing with base is connected，Second framework and the first framework removably connect，The end face of described base is provided with base positive stop strip，The base embedding slot of left and right directions it is provided with on base positive stop strip，The right side of described first framework arranges the first framework positive stop strip，The left surface of the first framework positive stop strip is provided with the first framework embedding slot of above-below direction，The left side of described second framework is provided with the second framework positive stop strip，The right flank of the second framework positive stop strip is provided with the second framework embedding slot of above-below direction，The top of described second framework is provided with upper limit bar，The bottom surface of upper limit bar is provided with the top embedding slot of left and right directions，The corner, bottom of described second framework is held on the first frame roof corner，Second framework is connected by the connection seat of framework connecting piece and the first frame roof corner.

Described base includes base plate, base positive stop strip, stiffener and supports the end.

Base plate is formed by three pieces of base plate sectionally smooth joins from left to right, the support bar of three lateral arrangement is included from front to back at the bottom of described support, the end face of every support bar is evenly arranged with five cushion blocks from left to right, the bottom surface of base plate is held on the top of cushion block, described stiffener is provided with eight be longitudinally arranged, eight stiffeners are arranged at the bottom of base plate, and eight stiffeners cushion block that staggers is arranged.

The corner of base plate offers breach, and breach is avoided the cushion block of corner and arranged.

Described first framework includes the first support column, the first bottom beam, beam, the first roof beam, the first framework positive stop strip and connect seat in the middle part of first.

Described first support column has four, first support column includes the first angle bar of being vertically arranged in the gripper shoe of bottom and gripper shoe, described first bottom beam has four, four first bottom beam are connected between the bottom of the first angle bar respectively at four sides all around, in the middle part of in the of described first, beam has one, this in the middle part of first beam be connected between the middle part of two first angle bar of right, described first roof beam has three, three first roof beam are connected between the top of the first angle bar respectively at the rightest three sides, described first framework positive stop strip has two, the left surface of two first framework positive stop strip beams in the middle part of first roof beam and first on right side is arranged.

Described second framework includes the second framework support column, the second bottom beam, the second roof beam, top end compression beam, the second framework positive stop strip and upper limit bar.

Described second framework support column has four, second bottom beam has one, this second bottom beam is connected between the bottom of two second framework support columns of left, second roof beam has four, four second roof beam are connected between the top of the second framework support column respectively at four sides all around, described top end compression beam is connected to by former and later two top link between the middle part of before and after's the second roof beam, second framework positive stop strip has one, this the second framework positive stop strip is arranged in the right flank of the second bottom beam, upper limit bar has one, this upper limit bar is arranged in the bottom surface of top end compression beam.

The step of the packing method of double-glass solar energy assembly packing crates is as follows:

Step one, multi-disc double-glass solar energy assembly is vertically positioned in the first framework, wherein long limit, the downside of double-glass solar energy assembly is embedded in the base embedding slot of base positive stop strip, and the right short of double-glass solar energy assembly is embedded in the first framework embedding slot of the first framework positive stop strip；

Step 2, the second framework is held on the first framework so that the left side minor face of double-glass solar energy assembly is embedded in the second framework embedding slot of the second framework positive stop strip, and the long limit, upside of double-glass solar energy assembly is embedded in the top embedding slot of upper limit bar；

Step 3, the second framework support column of the second framework and the connection seat of the first framework are locked by framework connecting piece.

Compared with prior art, the invention has the beneficial effects as follows:

Double-glass solar energy assembly packing crates of the present invention is by being respectively provided with base positive stop strip, the first framework positive stop strip, the second framework positive stop strip and upper limit bar on base, the first framework and the second framework, can and each positive stop strip between be asymmetric arrangement, make limit effect preferable, other first framework and the second framework are for removably connecting, and instant packed box is dismantled.Double-glass solar energy assembly packing crates the most of the present invention and packing method thereof have a simple in construction, can fast and easy effectively carry out double-glass solar energy assembly packaging, the advantage transporting and devan.

Accompanying drawing explanation

Fig. 1 is the structural representation of double-glass solar energy assembly packing crates of the present invention.

Fig. 2 is the explosive view of Fig. 1.

Fig. 3 is the explosive view of base in Fig. 2.

Fig. 4 is the explosive view of the first framework in Fig. 2.

Fig. 5 is the explosive view of the second framework in Fig. 2.

Wherein:

Base 1, base plate 1.1, base plate segmentation 1.1.1, base positive stop strip 1.2, stiffener 1.3, the support end 1.4, support bar 1.4.1, cushion block 1.4.2

Beam the 2.3, first roof beam the 2.4, first framework positive stop strip 2.5, connection seat 2.6 in the middle part of first framework the 2, first support column the 2.1, first bottom beam 2.2, first

Second framework the 3, second framework support column the 3.1, second bottom beam the 3.2, second roof beam 3.3, top end compression beam the 3.4, second framework positive stop strip 3.5, upper limit bar 3.6, top link 3.7.

Detailed description of the invention

Seeing Fig. 1 ~ Fig. 5, a kind of double-glass solar energy assembly packing crates that the present invention relates to, it includes base the 1, first framework 2 and the second framework 3, and wherein the first framework 2 is fixing with base 1 is connected, and the second framework 3 removably connects with the first framework 2.

nullDescribed base 1 includes base plate 1.1、Base positive stop strip 1.2、Stiffener 1.3 and the support end 1.4，Base plate 1.1 is spliced by three pieces of base plate segmentation 1.1.1 from left to right，Described base positive stop strip 1.2 has two，Two foundation seat positive stop strips 1.2 are longitudinally disposed between adjacent two pieces of base plate segmentation 1.1.1，The base embedding slot of left and right directions it is provided with on base positive stop strip 1.2，The height of the base embedding slot height higher than base plate segmentation 1.1.1，At the bottom of described support, 1.4 include the support bar 1.4.1 of three lateral arrangement from front to back，The end face of every support bar 1.4.1 is evenly arranged with five cushion block 1.4.2 from left to right，The bottom surface of base plate 1.1 is held on the top of cushion block 1.4.2，Described stiffener 1.3 is provided with eight be longitudinally arranged，Eight stiffeners 1.3 are arranged at the bottom of base plate 1.1，Eight stiffeners 1.3 cushion block 1.4.2 that staggers arranges.The corner of base plate 1.1 offers breach, and the size of breach arranges with the cushion block 1.4.2 avoiding corner and is as the criterion.

nullDescribed first framework 2 includes the first support column 2.1、First bottom beam 2.2、Beam 2.3 in the middle part of in the of first、First roof beam 2.4、First framework positive stop strip 2.5 and connection seat 2.6，Described first support column 2.1 has four，First support column 2.1 includes the first angle bar of being vertically arranged in the gripper shoe of bottom and gripper shoe，The gripper shoe of four first support columns 2.1 is held on the cushion block 1.4.2 of base 1 four jiaos respectively，Described first bottom beam 2.2 has four，Four first bottom beam 2.2 are connected between the bottom of the first angle bar respectively at four sides all around，In the middle part of in the of described first, beam 2.3 has one，This in the middle part of first beam 2.3 be connected between the middle part of two first angle bar of right，Described first roof beam 2.4 has three，Three first roof beam 2.4 are connected between the top of the first angle bar respectively at the rightest three sides，Described first framework positive stop strip 2.5 has two，The left surface of two first framework positive stop strip 2.5 beams 2.3 in the middle part of first roof beam 2.4 and first on right side is arranged.The left surface of the first framework positive stop strip 2.5 is provided with the first framework embedding slot of above-below direction, described connection seat 2.6 has four, four connect seat 2.6 and are respectively fixedly connected with in the top of four first support columns 2.1, connecting seat 2.6 is connecting angle iron, and connecting angle iron is upwards arranged in the top outer limit of the first angle bar.

Described second framework 3 includes second framework support column the 3.1, second bottom beam the 3.2, second roof beam 3.3, top end compression beam the 3.4, second framework positive stop strip 3.5 and upper limit bar 3.6.Described second framework support column 3.1 has four, second framework support column 3.1 is the second angle bar, four second framework support columns 3.1 are held on the top of four first support columns 2.1 of the first framework 2, carry out spacing and fixing by the seat 2.6 that connects on the first support column 2.1 by the bottom of the second framework support column 3.1.nullSecond bottom beam 3.2 has one，This second bottom beam 3.2 is connected between the bottom of two second framework support columns 3.1 of left，Second roof beam 3.3 has four，Four second roof beam 3.3 are connected between the top of the second framework support column 3.1 respectively at four sides all around，Described top end compression beam 3.4 is connected to by former and later two top link 3.7 between the middle part of before and after's the second roof beam 3.3，Second framework positive stop strip 3.5 has one，This second framework positive stop strip 3.5 is arranged in the right flank of the second bottom beam 3.2，The right flank of the second framework positive stop strip 3.5 is provided with the second framework embedding slot of above-below direction，Upper limit bar 3.6 has one，This upper limit bar 3.6 is arranged in the bottom surface of top end compression beam 3.4，The bottom surface of upper limit bar 3.6 is provided with the top embedding slot of left and right directions.

The use material of above-mentioned all parts is respectively as follows:

Base plate 1.1 selects plywood, and its top arranges one layer of PE Foam, and base positive stop strip 1.2 selects EVA material, stiffener 1.3 to select batten, and support bar 1.4.1 selects plywood, and cushion block 1.4.2 selects wooden unit.

First support column 2.1 selects angle bar and metallic plate, and in the middle part of the first bottom beam 2.2, first, beam 2.3 and the first roof beam 2.4 select plywood, and the first framework positive stop strip 2.5 selects EVA material, connects seat 2.6 and selects angle bar.

Second framework support column 3.1 selects angle bar, and second bottom beam the 3.2, second roof beam 3.3 and top end compression beam 3.4 select plywood, and the second framework positive stop strip 3.5 selects EVA material, upper limit bar 3.6 to select EVA material, top link 3.7 to select galvanized iron sheet.

Framework connecting piece selects PET material.

The packing method using this double-glass solar energy assembly packing crates is as follows:

Step one, multi-disc double-glass solar energy assembly is vertically positioned in the first framework, wherein long limit, the downside of double-glass solar energy assembly is embedded in the base embedding slot of base positive stop strip, and the right short of double-glass solar energy assembly is embedded in the first framework embedding slot of the first framework positive stop strip；

Step 2, the second framework is held on the first framework so that the left side minor face of double-glass solar energy assembly is embedded in the second framework embedding slot of the second framework positive stop strip, and the long limit, upside of double-glass solar energy assembly is embedded in the top embedding slot of upper limit bar；

Step 3, the connection seat of the second framework support column of the second framework and the first framework is locked by framework connecting piece (can use bolt, screw or fastener).

After using this double-glass solar energy assembly packing crates that double-glass solar energy assembly is packed, in being embedded at the top embedding slot of upper limit bar respectively due to long limit, the upside of double-glass solar energy assembly and long limit, downside and in the base embedding slot of base positive stop strip so that double-glass solar energy assembly has vertical and longitudinal spacing；And in being embedded at the second framework embedding slot of the second framework positive stop strip respectively due to left side minor face and the right short of double-glass solar energy assembly and in the first framework embedding slot of the first framework positive stop strip so that double-glass solar energy assembly has horizontal and vertical spacing.When using this double-glass solar energy assembly packing crates that double-glass solar energy assembly is packed, owing to the second framework positive stop strip is higher than the first framework positive stop strip, at the second framework when mounted, the second framework positive stop strip is made to award the oblique bottom-right active force of double-glass solar energy assembly one, time in making double-glass solar energy assembly be embedded at the base embedding slot of base positive stop strip and in the first framework embedding slot of the first framework positive stop strip more firm, it is to avoid occur to loosen.

After double-glass solar energy assembly is packed and is transported, when needing double-glass solar energy assembly is devaned, only need to unclamp the second framework support column of the second framework and the framework connecting piece connected between seat of the first framework, then take off the second framework, can easily take out each double-glass solar energy assembly.

Claims (7)

1. null1. a double-glass solar energy assembly packing crates，It is characterized in that it includes base (1)、First framework (2) and the second framework (3)，Wherein the first framework (2) is fixing with base (1) is connected，Second framework (3) removably connects with the first framework (2)，The end face of described base (1) is provided with base positive stop strip (1.2)，The base embedding slot of left and right directions it is provided with on base positive stop strip (1.2)，The right side of described first framework (2) arranges the first framework positive stop strip (2.5)，The left surface of the first framework positive stop strip (2.5) is provided with the first framework embedding slot of above-below direction，The left side of described second framework (3) is provided with the second framework positive stop strip (3.5)，The right flank of the second framework positive stop strip (3.5) is provided with the second framework embedding slot of above-below direction，The top of described second framework (3) is provided with upper limit bar (3.6)，The bottom surface of upper limit bar (3.6) is provided with the top embedding slot of left and right directions，The corner, bottom of described second framework (3) is held on the first framework (2) corner, top，Second framework (3) is connected by the connection seat (2.6) of framework connecting piece and the first framework (2) corner, top；

   Described base (1) includes base plate (1.1), base positive stop strip (1.2), stiffener (1.3) and supports the end (1.4)；

   Base plate (1.1) is spliced by three pieces of base plate segmentations (1.1.1) from left to right, (1.4) at the bottom of described support include the support bar (1.4.1) of three lateral arrangement from front to back, the end face of every support bar (1.4.1) is evenly arranged with five cushion blocks (1.4.2) from left to right, the bottom surface of base plate (1.1) is held on the top of cushion block (1.4.2), described stiffener (1.3) is provided with eight be longitudinally arranged, eight stiffeners (1.3) are arranged at the bottom of base plate (1.1), and eight stiffeners (1.3) cushion block (1.4.2) that staggers is arranged.
2. A kind of double-glass solar energy assembly packing crates the most according to claim 1, it is characterised in that the corner of base plate (1.1) offers breach, breach is avoided the cushion block (1.4.2) of corner and is arranged.
3. A kind of double-glass solar energy assembly packing crates the most according to claim 1, it is characterised in that described first framework (2) includes the first support column (2.1), the first bottom beam (2.2), beam (2.3), the first roof beam (2.4), the first framework positive stop strip (2.5) and connect seat (2.6) in the middle part of first.
4. nullA kind of double-glass solar energy assembly packing crates the most according to claim 3，It is characterized in that described first support column (2.1) has four，First support column (2.1) includes the first angle bar of being vertically arranged in the gripper shoe of bottom and gripper shoe，Described first bottom beam (2.2) has four，Four first bottom beam (2.2) are connected between the bottom of the first angle bar respectively at four sides all around，In the middle part of in the of described first, beam (2.3) has one，This in the middle part of first beam (2.3) be connected between the middle part of two first angle bar of right，Described first roof beam (2.4) has three，Three first roof beam (2.4) are connected between the top of the first angle bar respectively at the rightest three sides，Described first framework positive stop strip (2.5) has two，The left surface of two first framework positive stop strip (2.5) beams (2.3) in the middle part of first roof beam (2.4) and first on right side is arranged.
5. A kind of double-glass solar energy assembly packing crates the most according to claim 1, it is characterised in that described second framework (3) includes the second framework support column (3.1), the second bottom beam (3.2), the second roof beam (3.3), top end compression beam (3.4), the second framework positive stop strip (3.5) and upper limit bar (3.6).
6. nullA kind of double-glass solar energy assembly packing crates the most according to claim 5，It is characterized in that described second framework support column (3.1) has four，Second bottom beam (3.2) has one，This second bottom beam (3.2) is connected between the bottom of two second framework support columns (3.1) of left，Second roof beam (3.3) has four，Four second roof beam (3.3) are connected between the top of the second framework support column (3.1) respectively at four sides all around，Described top end compression beam (3.4) is connected to by former and later two top link (3.7) between the middle part of before and after's the second roof beam (3.3)，Second framework positive stop strip (3.5) has one，This second framework positive stop strip (3.5) is arranged in the right flank of the second bottom beam (3.2)，Upper limit bar (3.6) has one，This upper limit bar (3.6) is arranged in the bottom surface at top end compression beam (3.4).
7. 7. the packing method of a double-glass solar energy assembly packing crates as claimed in claim 1, it is characterised in that the step of packing method is as follows:

   Step one, multi-disc double-glass solar energy assembly is vertically positioned in the first framework, wherein long limit, the downside of double-glass solar energy assembly is embedded in the base embedding slot of base positive stop strip, and the right short of double-glass solar energy assembly is embedded in the first framework embedding slot of the first framework positive stop strip；

   Step 2, the second framework is held on the first framework so that the left side minor face of double-glass solar energy assembly is embedded in the second framework embedding slot of the second framework positive stop strip, and the long limit, upside of double-glass solar energy assembly is embedded in the top embedding slot of upper limit bar；

   Step 3, the second framework support column of the second framework and the connection seat of the first framework are locked by framework connecting piece.