CN218113142U

CN218113142U - Positive and negative crisscross vanning structure of solar mirror subassembly

Info

Publication number: CN218113142U
Application number: CN202222500916.6U
Authority: CN
Inventors: 吴桂香; 叶磊
Original assignee: Wuhan Sunnpo Solar Technology Co ltd
Current assignee: Wu Guixiang
Priority date: 2022-09-21
Filing date: 2022-09-21
Publication date: 2022-12-23
Anticipated expiration: 2032-09-21

Abstract

The utility model discloses a positive and negative crisscross vanning structure of solar mirror subassembly. The novel mirror assembly comprises two mirror assemblies, wherein the two mirror assemblies are in a group, the back paint surfaces of the two mirror assemblies face to back paint surfaces, the accessories which are pasted and installed on the back paint surfaces of the mirror assemblies are staggered, and the mirror surfaces of the two mirror assemblies face to mirror surfaces. The utility model discloses safe and reliable has promoted the packing quantity and the packing density of product, has greatly reduced the packing cost of transportation of speculum.

Description

Positive and negative crisscross vanning structure of solar mirror subassembly

Technical Field

The utility model belongs to the technical field of the solar mirror, concretely relates to positive and negative crisscross vanning structure of solar mirror subassembly.

Background

The solar reflector is an extremely important product with extremely high quality requirement in the photo-thermal solar industry, and is made of glass, so that the solar reflector is extremely easy to damage due to improper packaging. For the mirror assemblies with accessories adhered to the back paint surface, the prior art uses a packing mode with the same forward direction, namely the mirror assemblies are sequentially arranged in the forward direction. However, the thickness of the reflector component after the attachment is adhered is greatly increased, the number of single boxes is small, the packaging cost is increased, and on the other hand, the packing density is low in a forward consistent mode, so that the shortage of tons in truck transportation is caused, and the transportation cost is further increased. The problem of high cost of reflector packaging and transportation needs to be solved urgently.

Disclosure of Invention

The utility model aims at solving the defects existing in the prior art and providing a positive and negative staggered boxing structure of a solar reflector component.

The utility model adopts the technical proposal that: the utility model provides a positive and negative crisscross vanning structure of solar mirror subassembly, includes the reflector subassembly, two pieces of a set of reflector subassembly, the back of the body lacquer surface is to the back of the body lacquer face between two reflector subassemblies, and the annex of pasting the installation staggers on the reflector subassembly back of the body lacquer surface, is the mirror surface between two sets of reflector subassemblies to the mirror surface.

In a further preferable structure, the front and the rear reflector assemblies in the same group are staggered by a certain distance in the left-right direction, so that accessories which are pasted and installed on the back paint surfaces of the reflector assemblies are staggered and do not interfere with each other.

In a further preferred structure, the two mirror assemblies in the same group are separated by a shock-absorbing spacer.

In a further preferred structure, the two groups of reflecting mirror assemblies are separated by mildew-proof paper or a spacer, so that the mirror surface is prevented from being scratched.

In a further preferred arrangement, the attachment member comprises a plurality of circular formations and is arranged in parallel rows on the mirror assembly.

In a further preferred configuration, the attachment comprises a plurality of strip-like structures, and the strip-like structures are arranged transversely and parallel to each other on the mirror assembly.

In a further preferred configuration, the attachment comprises a plurality of strip-like structures arranged longitudinally and parallel to each other on the mirror assembly.

The utility model discloses can guarantee the product security, can not produce and collide with each other and the scraping between the product, can also promote the packing quantity of the reflector assembly in the packing box simultaneously to reduce the barrier material between the speculum, practiced thrift packaging cost, safe and reliable. In addition, the positive and negative crisscross vanning mode of solar mirror subassembly has promoted the vanning density of product, has solved freight transportation "insufficient ton"'s problem, has greatly reduced the packing cost of transportation of speculum.

Drawings

FIG. 1 is a schematic front view of the packing of example 1;

FIG. 2 is a schematic top view of the packaging in example 1;

FIG. 3 is a schematic front view of the packing in example 2;

FIG. 4 is a schematic side view of the packing in example 2;

FIG. 5 is a schematic front view of the packing in example 3;

FIG. 6 is a schematic top view of the packing in example 3.

In the figure, 1-a first reflector component, 2-a second reflector component, 3-a shock-absorbing spacer, 4-an accessory and 5-a mildew-proof paper.

Detailed Description

The invention will be further described in detail with reference to the drawings and the following detailed description, which are provided for the purpose of clearly understanding the invention and are not intended to limit the invention.

Example 1: as shown in fig. 1 and 2, the mirror assembly is packaged in a front-back staggered manner by dividing the mirror assembly into two pieces, namely a first mirror assembly 1 and a second mirror assembly 2, and the accessory 4 comprises a plurality of circular structures and is arranged in a plurality of parallel rows on the mirror assembly. When the box is packed, the second mirror assembly 2 is turned for 180 degrees back and forth, the back paint surfaces of the first mirror assembly 1 and the second mirror assembly 2 are packed into a box on the back paint surface, the two mirror assemblies are staggered for a certain distance, so that the attached 4 pieces which are pasted and installed on the back paint surface cannot interfere with each other, and the two mirror assemblies in the same group are separated by a shock absorption spacer 3. In addition, a mirror surface is arranged between the two groups of reflecting mirror assemblies, and for the plane reflecting mirror assembly, the middle part is separated by mildew-proof paper 5 or a spacer, so that the mirror surface is prevented from being scratched; for cambered reflector assemblies, the mirrors are isolated from each other by spacers.

Example 2: as shown in fig. 3 and 4, the mirror assembly forward and reverse staggered casing is to divide the mirror assembly into two pieces, a first mirror assembly 1 and a second mirror assembly 2, and the accessory 4 includes a plurality of strip-shaped structures, which are arranged transversely and parallel to each other on the mirror assembly. When the box is packed, the second reflector component 2 is turned over by 180 degrees up and down, the back paint surfaces of the first reflector component 1 and the second reflector component 2 are packed into a box on the back paint surface, the accessories 4 which are pasted and installed on the back paint surface are staggered, and the two reflector components in the same group are separated by the shock absorption spacer 3. In addition, the two groups of reflecting mirror assemblies are arranged in a mirror-surface-to-mirror manner, and for a plane reflecting mirror assembly, the middle part is separated by mildew-proof paper 5 to prevent the mirror surface from being scratched; for cambered reflector assemblies, the mirrors are isolated from each other by spacers.

Example 3: as shown in fig. 5 and 6, the mirror assembly is packaged in a positive and negative staggered manner by dividing the mirror assembly into two pieces, namely a first mirror assembly 1 and a second mirror assembly 2, and the accessory 4 comprises a plurality of strip-shaped structures which are longitudinally arranged on the mirror assembly and are parallel to each other. When boxing, the second reflector component 2 is turned by 180 degrees front and back, the back paint surfaces of the first reflector component 1 and the second reflector component 2 are boxed on the back paint surface, the two reflector components are staggered by a certain distance, so that the accessories 4 which are pasted and installed on the back paint surface cannot interfere with each other, and the two reflector components in the same group are separated by the shock absorption spacer 3. In addition, the two groups of reflecting mirror assemblies are arranged in a mirror-surface-to-mirror manner, and for a plane reflecting mirror assembly, the middle part is separated by mildew-proof paper 5 to prevent the mirror surface from being scratched; for the cambered surface reflector component, the mirror surfaces are isolated by spacers.

Those not described in detail in this specification are within the skill of the art.

Claims

1. The utility model provides a positive and negative crisscross vanning structure of solar mirror subassembly which characterized in that: including the reflector assembly, two a set of reflector assembly, the back paint surface is to the back paint surface between two reflector assemblies, and the accessory of pasting the installation on the reflector assembly back paint surface staggers, is the mirror surface between two sets of reflector assemblies to the mirror surface.

2. The solar mirror assembly front-back staggered boxing structure according to claim 1, characterized in that: the front and the back reflector components in the same group are staggered for a certain distance in the left-right direction, so that the accessories stuck on the back paint surfaces of the reflector components are staggered.

3. The positive and negative staggering encasement structure for a solar mirror assembly of claim 2, wherein: the two reflecting mirror assemblies in the same group are separated by a shock absorption spacer.

4. The positive and negative staggering encasement structure for a solar mirror assembly of claim 2, wherein: the two groups of reflector components are separated by mildew-proof paper or a spacer.

5. The positive and negative staggering encasement structure for a solar mirror assembly of claim 2, wherein: the accessory comprises a plurality of circular structures, and the reflector components are arranged in a plurality of parallel rows.

6. The positive and negative staggering encasement structure for a solar mirror assembly of claim 2, wherein: the accessory comprises a plurality of strip-shaped structures, and the strip-shaped structures are transversely arranged on the reflector component and are mutually parallel.

7. The positive and negative staggering encasement structure for a solar mirror assembly of claim 2, wherein: the accessory comprises a plurality of strip-shaped structures, and the strip-shaped structures are longitudinally arranged on the reflector component and are mutually parallel.