CN203726976U - Wire mesh - Google Patents

Abstract

The utility model discloses a wire mesh which comprises a first gridding area, a second gridding area and a middle pattern area. The middle pattern area comprises pattern gridding areas and a pattern grid line area, the first gridding area, the second gridding area and the pattern gridding areas are of gridding structures formed by connecting polygonal gridding arrays, the pattern grid line area is composed of line segment arrays for connecting the two adjacent pattern gridding areas, areas of the polygons for forming the first gridding area are larger than the areas of the polygons for forming the second gridding area, the middle pattern area, the second gridding area and the first gridding area are sequentially arranged from the center of the wire mesh to the edge of the wire mesh, the wire mesh is of an integrally-molded structure, and knitting-type longitude and latitude nodes do not exist. The line diameter sizes of line segments of the line segment arrays of the pattern grid line area are small, the blocking effect of the line segments of the pattern grid line area on sizing agents can be reduced, the line diameter of grid lines of the second gridding area and the pattern gridding area are relatively large, and the service life of the metal mesh can be prolonged.

Description

A kind of woven wire

Technical field

The utility model relates to a kind of woven wire, in particular to a kind of woven wire of printing solar cell positive electrode.

Background technology

That solar energy has is harmless, the energy is huge (arrives every year the lip-deep solar radiant energy of the earth and is approximately equivalent to 130,000,000,000,000 tons of coals, its total amount belongs to the maximum energy that can develop in the world now), the advantage such as can utilize for a long time, in addition earth energy shortage, the storage capacity of the non-renewable resources such as coal and oil reduces day by day, and solar energy becomes one of energy that people extensively utilize in recent years.Solar cell is one of core representative of Application of Solar Energy.

Printing solar cell positive electrode need to be used mask plate, traditional masks plate is to apply or overlay on the surface of the silk screen such as woven wire or polyester webs of Weaving type the composite mask plate that one deck emulsion forms, but the composite mask plate that this type of Weaving type silk screen forms has the node of Weaving type, when printing, can cause lower slurry uneven, thereby affect the transformation efficiency of solar cell.

In addition, woven wire be by glue by direct or indirect edge being fixed on housing, the hydropexic stability of glue has a strong impact on the life-span of final solar energy half tone, should this require industry need to design the better woven wire of combination property.

The utility model is mainly to propose a kind of silk screen for above problem, solves preferably the above problem.

Utility model content

In view of this, need to overcome at least one in above-mentioned prior art defect.

The utility model provides a kind of woven wire, comprises first grid area, the second grid regions and center pattern district, and described center pattern district comprises pattern grid regions and pattern grid line district, it is characterized in that:

Described first grid area, described the second grid regions and described pattern grid regions are to interconnect by polygonal mesh array the network forming, described pattern grid line district is made up of the array of line segments that connects adjacent two described pattern grid regions, form the polygonal area of described first grid area and be greater than described the second polygonal area in grid regions of formation, described center pattern district, described the second grid regions, described first grid area is set gradually by mind-set edge in described woven wire, the described woven wire structure that is formed in one, without the longitude and latitude node of Weaving type, can overcome the defect that traditional screen knitting type longitude and latitude node brings.

Described in prior art in this patent background technology, the mask plate of tradition use is to apply or overlay on the surface of the silk screen such as woven wire or polyester webs of Weaving type the composite mask plate that one deck emulsion forms, but the composite mask plate that this type of Weaving type silk screen forms has the node of Weaving type, when printing, can cause lower slurry uneven, thereby affect the transformation efficiency of battery.The woven wire that the utility model provides has integrated structure, without the longitude and latitude node of Weaving type, can overcome the defect that traditional screen knitting type longitude and latitude node brings, the wire diameter size of the pattern grid line district array of line segments of woven wire is less than the wire diameter size of pattern grid regions and the second grid regions grid lines, can reduce pattern grid line district line segment stopping slurry, improve printing quality, the polygonal area of first grid area is greater than described the second polygonal area in grid regions of formation, improve the aperture opening ratio of first grid area, make glue well woven wire is fixed on to housing, thereby improve the life-span of solar energy half tone.

In addition, also there is following additional technical feature according to the disclosed woven wire of the utility model:

Further, described polygon is rectangle or regular hexagon.

Further, the polygon that forms described grid array is rectangle, the length dimension d3 scope of rectangle described in the rectangular mesh array of described the second grid regions and described pattern grid regions is 40 μ m≤d3≤100 μ m, and the width dimensions d4 scope of described rectangle is 30 μ m≤d4≤90 μ m.

Further, described first grid area comprises horizontal and vertical two groups of grid arrays, the rectangle length size that wherein forms described transverse grid array equates with the rectangle length size that forms described the second grid regions, and the rectangle width dimensions d5 scope that forms described transverse grid array is 60 μ m≤d5≤180 μ m; The rectangle length size d6 scope that wherein forms described longitudinal grid array is 80 μ m≤d6≤200 μ m, and the rectangle width dimensions that forms described longitudinal grid array equates with the rectangle width dimensions that forms described the second grid regions; The length dimension and the width dimensions that form the rectangle of the grid array of described horizontal and vertical two groups of grid array crossover regions are respectively d6, d5.

Further, the rectangle length size d6 scope that forms described first grid area is 80 μ m≤d6≤200 μ m, and rectangle width dimensions d5 scope is 60 μ m≤d5≤180 μ m.

Further, described woven wire also comprises outside, and described outside is the non-grid regions that is arranged on described first grid area periphery.

Further, the width of described outside is 0.04mm ~ 2mm, described outside play reinforce the second grid regions, prevent that even fracture phenomena from appearring being out of shape in the periphery of the second grid regions, described outside and described first grid area are one-body molded, and have identical material with described first grid area.

Because silk screen is very thin, its thickness is generally in 10 μ m ~ 30 μ m scopes, even breaks so the silk screen of moulding is easy to distortion, can prevent well that silk screen distortion from even breaking behind the periphery design outside of silk screen first grid area.

Alternatively, described outside is the entity structure (being one deck nickel or nickel-base alloy) with first grid area with identical thickness.

Further, the wire diameter size r1 three's of the line segment of the wire diameter size r3 of described the second grid regions grid lines, the wire diameter size r2 of described pattern grid regions grid lines, described pattern grid line district array of line segments relation and size range are: 8 μ m≤r1≤r2≤r3≤35 μ m.

Preferably, the wire diameter size r1 scope of the line segment of described pattern grid line district array of line segments is 8 μ m≤r1≤25 μ m; The wire diameter size r2 scope of described pattern grid regions grid lines is 12 μ m≤r2≤30 μ m; The wire diameter size r3 scope of described the second grid regions grid lines is 15 μ m≤r3≤35 μ m.

Further, the spacing d1 scope between the adjacent segments of described pattern grid line district array of line segments is 40 μ m≤d1≤100 μ m; The line segment length size d2 scope of described pattern grid line district array of line segments is 60 μ m≤d2≤180 μ m.

Further, described woven wire is for forming by electroforming process or etch process.

The wire diameter size of the line segment of pattern grid line district array of line segments is less than or equal to the wire diameter size of pattern grid regions grid lines, its objective is the barrier effect of the line segment that reduces pattern grid line district to printing slurry, to reach good lower slurry effect; The wire diameter size of the second grid regions and pattern grid regions grid lines is relatively large, can improve the mechanical strength of woven wire, thereby improves the life-span of woven wire; The polygonal area of first grid area polygonal mesh array is greater than polygonal area in the second grid regions and pattern grid regions grid array, can improve the glue throughput of first grid area, woven wire is fixed on housing well, thereby improves the service life of solar energy half tone.

The aspect that the utility model is additional and advantage in the following description part provide, and part will become obviously from the following description, or recognize by practice of the present utility model.

Brief description of the drawings

Above-mentioned and/or additional aspect of the present utility model and advantage will become obviously and easily from the following description of the accompanying drawings of embodiments to be understood, wherein:

Figure 1 shows that a kind of woven wire overall structure schematic diagram;

Figure 2 shows that 14 part structure for amplifying schematic diagrames in Fig. 1;

Figure 3 shows that 15 part structure for amplifying schematic diagrames in Fig. 1;

Figure 4 shows that 31 part structure for amplifying schematic diagrames in Fig. 3;

Figure 5 shows that 17 part structure for amplifying schematic diagrames in Fig. 1;

Figure 6 shows that the another kind of structure for amplifying schematic diagram of 17 parts in Fig. 1;

Fig. 7 ~ Figure 8 shows that 15 part structure for amplifying schematic diagrames in Fig. 1;

Figure 9 shows that the local structure for amplifying schematic diagram of solar energy half tone.

In Fig. 1,11 is first grid area, and 12 is the second grid regions, and 13 is pattern grid line district, and 14,15,17 amplify observation part for waiting, 16 is outside;

In Fig. 2,21 is pattern grid regions;

In Fig. 3,31 for waiting to amplify observation part;

In Fig. 4,41 is the line segment in pattern grid line district, 42 is the grid lines of pattern grid regions, 43 is the grid lines of the second grid regions, r1 is the wire diameter size of pattern grid line district line segment 41, r2 is the wire diameter size of pattern grid regions grid lines 42, r3 is the wire diameter size of the second grid regions grid lines 43, d1 is the spacing between adjacent segments 41, d2 is the length dimension of line segment 41, d3 is the length dimension of rectangle in the second grid regions and pattern grid regions rectangular mesh array, and d4 is the width dimensions of rectangle in the second grid regions and pattern grid regions rectangular mesh array;

In Fig. 5,111 is longitudinal network array, and 112 is transverse grid array, and 110 is horizontal and vertical two groups of grid array crossover regions (being the crossover region of longitudinal grid array 111 and transverse grid array 112);

In Fig. 9,91 is thin grid line pattern area, and 92 is main grid line pattern district.

Detailed description of the invention

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of identical or similar functions from start to finish.Be exemplary below by the embodiment being described with reference to the drawings, only for explaining the utility model, and can not be interpreted as restriction of the present utility model.

Describe below with reference to accompanying drawings the woven wire of printing use of the present utility model, wherein Figure 1 shows that a kind of woven wire overall structure schematic diagram, Fig. 2 ~ Figure 8 shows that partial structurtes enlarged diagram of woven wire.

According to embodiment of the present utility model, as shown in Fig. 1 ~ Fig. 5, the utility model provides a kind of woven wire, comprise first grid area 11, the second grid regions 12 and center pattern district, center pattern district comprises pattern grid regions 21 and pattern grid line district 13, first grid area 11, the second grid regions 12 and pattern grid regions 21 are to interconnect by polygonal mesh array the network forming, pattern grid line district 13 is made up of the array of line segments that connects adjacent two pattern grid regions 21, form the polygonal area of first grid area 11 and be greater than formation the second polygonal area in grid regions 12 (as shown in Figure 6, the area that forms first grid area 11 rectangles is greater than the area that forms the second king district 12 rectangles), center pattern district, the second grid regions 12, first grid area 11 is set gradually by mind-set edge in described woven wire, the woven wire structure that is formed in one, without the longitude and latitude node of Weaving type.

In addition, also there is following additional technical feature according to the disclosed woven wire of the utility model:

According to embodiment of the present utility model, polygon is rectangle (as shown in Fig. 2 ~ Fig. 8) or regular hexagon (not shown).

According to embodiment more of the present utility model, as shown in Figure 4, the polygon that forms grid array is rectangle, in the rectangular mesh array of the second grid regions 12 and pattern grid regions 21, the length dimension d3 scope of rectangle is 40 μ m≤d3≤100 μ m, and the width dimensions d4 scope of rectangle is 30 μ m≤d4≤90 μ m.

According to embodiment more of the present utility model, as Fig. 1, shown in Fig. 5, the polygon that forms grid array is rectangle, first grid area 11 comprises that horizontal and vertical two groups of grid arrays are (shown in Fig. 1 in position, the upper and lower fringe region of woven wire is transverse grid array along one group of grid array of directions X, woven wire left and right edges region is longitudinal grid array along one group of grid array of Y-direction), the rectangle length size that wherein forms transverse grid array 112 equates with the rectangle length size that forms the second grid regions 12, the rectangle width dimensions d5 scope that forms transverse grid array 112 is 60 μ m≤d5≤180 μ m, the rectangle length size d6 scope that wherein forms longitudinal grid array 11 is 80 μ m≤d6≤200 μ m, and the rectangle width dimensions that forms longitudinal grid array 111 equates with the rectangle width dimensions that forms the second grid regions 12, the rectangle length size and the width dimensions that form the grid array of horizontal and vertical two groups of grid array crossover regions 110 are respectively d6, d5, the rectangle length size that forms crossover region 110 grid arrays equates with the rectangle length size that forms longitudinal grid array 111, and the rectangle width dimensions that forms crossover region 110 grid arrays equates with the rectangle width dimensions of formation transverse grid array 112.

According to embodiment of the present utility model, as shown in Figure 6, the rectangle length size d6 scope that forms first grid area 11 is 80 μ m≤d6≤200 μ m, and rectangle width dimensions d5 scope is 60 μ m≤d5≤180 μ m.

According to embodiment of the present utility model, as shown in Figure 1, woven wire also comprises outside 16, and outside 16 is for being arranged on the non-grid regions of first grid area 11 peripheries.

According to embodiment more of the present utility model, as shown in Figure 1, the width of outside is 0.04mm ~ 2mm, and outside 16 is played and prevented that even fracture phenomena from appearring being out of shape in the periphery of first grid area 11, outside 16 is one-body molded with first grid area 11, and has identical material with first grid area.

Because silk screen is very thin, its thickness is generally in 10 μ m～30 μ m scopes, so being easy to distortion, the silk screen of moulding even breaks, behind the periphery design outside 16 of first grid area 11, can prevent well that woven wire distortion from even breaking, outside 16 (is one deck nickel or nickel-base alloy, as shown in Figure 1) for the entity structure that has identical thickness with the second grid regions 11.

According to embodiment more of the present utility model, as shown in Figure 4, the wire diameter size r1 three's of the line segment 41 of the wire diameter size r2 of the wire diameter size r3 of the second grid regions 12 grid lines 43, pattern grid regions 42 grid lines, pattern grid line district 13 array of line segments relation and size range are: 8 μ m≤r1≤r2≤r3≤35 μ m.

Preferably, the wire diameter size r1 scope of the line segment 41 of pattern grid line district 13 array of line segments is 8 μ m≤r1≤25 μ m; The wire diameter size r2 scope of pattern grid regions 21 grid lines 42 is 12 μ m≤r2≤30 μ m; The wire diameter size r3 scope of the second grid regions 12 grid lines 43 is 15 μ m≤r3≤35 μ m.

According to embodiment more of the present utility model, as shown in Figure 4, the spacing d1 scope between the adjacent segments 41 of pattern grid line district 13 array of line segments is 40 μ m≤d1≤100 μ m; The line segment 41 length dimension d2 scopes of pattern grid line district 13 array of line segments are 60 μ m≤d2≤180 μ m.

According to embodiment more of the present utility model, woven wire is for forming by electroforming process or etch process.

According to an embodiment of the present utility model, as shown in Figure 5, the wire diameter size r1 of the line segment 41 of pattern grid line district 13 array of line segments, the wire diameter size r2 of pattern grid regions 21 grid lines 42, the wire diameter size r3 of the second grid regions 14 grid lines 43, spacing d1 between the adjacent segments 41 of pattern grid line district 11 array of line segments, the line segment 41 length dimension d2 of pattern grid line district 11 array of line segments, the rectangle length size d3 of the rectangular mesh array of the second grid regions 12 and pattern grid regions 21, the width dimensions d4 of rectangle in the rectangular mesh array of the second grid regions 12 and pattern grid regions 21, the width dimensions d5 of rectangle in the rectangular mesh array in longitudinal grid district 111, in the rectangular mesh array in transverse grid district 112, the width dimensions d6 of rectangle is respectively: r1=15 μ m, r2=20 μ m, r3=25 μ m, d1=d3=80 μ m, d2=2d4=130 μ m, d5=130 μ m, d6=160 μ m.

According to an embodiment of the present utility model, above-mentioned size is respectively: r1=10 μ m, r2=r3=20 μ m, d1=d3=70 μ m, d2=2d4=120 μ m, d5=120 μ m, d6=140 μ m.

The wire diameter size of the wire diameter size of the grid lines of first grid area 11 and the netting twine of the second grid regions 12 is close.

Preferably, the wire diameter size of the grid lines of first grid area 11 and the wire diameter size of the netting twine of the second grid regions 12 equate.

Fig. 7 ~ Figure 8 shows that structure for amplifying schematic diagram of 13 regional areas in Fig. 1.

As shown in Figure 7, the length dimension of the line segment 41 in pattern grid line district 13 array of line segments is relatively large, so can ensure the lower slurry amount in electrode of solar battery printing process.

As shown in Figure 8, the spacing in the array of line segments in pattern grid line district 13 between adjacent segments is relatively wide, so can more effectively reduce line segment the stopping slurry in pattern grid line district 13.

Before printing solar cell electrode, also comprise the fixing step of woven wire and apply emulsion step and exposure imaging step, concrete steps are as follows:

Fixing step: woven wire is directly fixed on to housing with glue or is indirectly fixed on housing by polyester webs;

Apply emulsion step: after fixing step, woven wire surface is applied to one deck emulsion;

Exposure imaging step: by exposure technology and developing process processing, make the metal grill of the pattern grid line district 13 of woven wire and other predeterminable area (corresponding to regions such as the main grid lines of traditional solar energy web plate) out exposed the woven wire that is coated with emulsion.In the time that printed silver is starched, silver slurry can be bitten on semi-conductor silicon chip surface by pattern grid line district 13, forms electrode of solar battery.

As shown in Figure 9, for 14 parts in Fig. 1 apply emulsion and carry out the structure for amplifying schematic diagram after exposure imaging step, the width R1 scope of thin grid line pattern area 91 is 30～80 μ m, and the width in main grid line pattern district 92 is 1～2mm, and in Fig. 9, shadow region is the emulsion that first movie queen continues to retain.

Form the polygonal area of first grid area 11 and be greater than formation the second polygonal area in grid regions 12, it is the aperture opening ratio that the aperture opening ratio of first grid area is greater than the second grid regions, so can make the glue of bonding use well by first grid area, thereby well silk screen is fixed on to the polyester webs of screen frame.

Woven wire provided by the present invention can overcome the defect that traditional screen knitting type longitude and latitude node brings.The wire diameter size r1 of the line segment of the array of line segments in pattern grid line district 13 is relatively little, can effectively reduce the barrier effect of grid line to slurry; The relatively large intensity that can strengthen woven wire of wire diameter size of the grid lines of the second grid regions 12 and pattern grid regions 21, is difficult for breaking afterwards and in printing process at the net that stretches tight, thereby improves the life-span of woven wire; In first grid area 11 grid arrays, polygonal area is greater than the area of the second grid regions 12 and pattern grid regions 21, can improve glue throughput, makes silk screen well be fixed on housing, thereby improves the service life of woven wire.

Although detailed description of the invention of the present utility model is described in detail with reference to multiple illustrative examples of the present utility model, but it must be understood that, those skilled in the art can design multiple other improvement and embodiment, these improve and embodiment by within dropping on the spirit and scope of the utility model principle.Particularly, within the scope of aforementioned open, accompanying drawing and claim, can aspect the layout of parts and/or subordinate composite configuration, make rational modification and improvement, and can not depart from spirit of the present utility model.Except modification and the improvement of parts and/or layout aspect, its scope is limited by claims and equivalent thereof.

Claims (10)

1. a woven wire, comprises first grid area, the second grid regions and center pattern district, and described center pattern district comprises pattern grid regions and pattern grid line district, it is characterized in that:

Described first grid area, described the second grid regions and described pattern grid regions are to interconnect by polygonal mesh array the network forming, described pattern grid line district is made up of the array of line segments that connects adjacent two described pattern grid regions, form the polygonal area of described first grid area and be greater than described the second polygonal area in grid regions of formation, described center pattern district, described the second grid regions, described first grid area are set gradually by mind-set edge in described woven wire, the described woven wire structure that is formed in one.

2. woven wire according to claim 1, is characterized in that, described polygon is rectangle or regular hexagon.

3. woven wire according to claim 2, it is characterized in that, the polygon that forms described grid array is rectangle, the length dimension d3 scope of rectangle described in the rectangular mesh array of described the second grid regions and described pattern grid regions is 40 μ m≤d3≤100 μ m, and the width dimensions d4 scope of described rectangle is 30 μ m≤d4≤90 μ m.

4. woven wire according to claim 3, it is characterized in that, described first grid area comprises horizontal and vertical two groups of grid arrays, the rectangle length size that wherein forms described transverse grid array equates with the rectangle length size that forms described the second grid regions, and the rectangle width dimensions d5 scope that forms described transverse grid array is 60 μ m≤d5≤180 μ m; The rectangle length size d6 scope that wherein forms described longitudinal grid array is 80 μ m≤d6≤200 μ m, and the rectangle width dimensions that forms described longitudinal grid array equates with the rectangle width dimensions that forms described the second grid regions; The length dimension and the width dimensions that form the rectangle of the grid array of described horizontal and vertical two groups of grid array crossover regions are respectively d6, d5.

5. woven wire according to claim 3, is characterized in that, the rectangle length size d6 scope that forms described first grid area is 80 μ m≤d6≤200 μ m, and rectangle width dimensions d5 scope is 60 μ m≤d5≤180 μ m.

6. woven wire according to claim 1, is characterized in that, described woven wire also comprises outside, and described outside is the non-grid regions that is arranged on described first grid area periphery.

7. woven wire according to claim 6, is characterized in that, the width of described outside is 0.04mm ~ 2mm.

8. woven wire according to claim 1, it is characterized in that, the wire diameter size r1 three's of the line segment of the wire diameter size r3 of described the second grid regions grid lines, the wire diameter size r2 of described pattern grid regions grid lines, described pattern grid line district array of line segments relation and size range are: 8 μ m≤r1≤r2≤r3≤35 μ m.

9. woven wire according to claim 1, is characterized in that, the spacing d1 scope between the adjacent segments of described pattern grid line district array of line segments is 40 μ m≤d1≤100 μ m; The line segment length size d2 scope of described pattern grid line district array of line segments is 60 μ m≤d2≤180 μ m.

10. woven wire according to claim 1, is characterized in that, described woven wire is for forming by electroforming process or etch process.