CN204894749U - Grenadine - Google Patents

Abstract

The utility model discloses a grenadine, crisscross capable being formed by connecting of the capable and thin bars of support that sets up of parallel, thin bars line width degree is greater than support line width degree. The utility model discloses thin bars line width degree is greater than support line width degree, and the design of the thin inrow no node of bars has been guaranteed the infiltration of printing ink to have realized good printing precision and plumpness.

Description

A kind of grenadine

Technical field

The utility model relates to serigraphy field, particularly, relates to a kind of grenadine.

Background technology

Current serigraphy is mainly by material based on polyester grenadine or stainless steel grenadine, and because accurate grenadine is from Japan, limits throughput, is limited by Japan factory; Outsourcing grenadine is expensive, and production cost is high.And need to guarantee that screen frame and grenadine possess certain angle of inclination when making half tone, grenadine consumption increases, and adds because grenadine has alternate nodes, oozes, also can affect printing precision and plumpness when printing under stopping ink.These all govern the development of the domestic industry.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of grenadine, and its thin grid line width is greater than support line width, oozes, achieve good printing precision and plumpness in thin grid are capable without the design of node under ensure that ink.

For solving the problem, the technical scheme that the utility model adopts is as follows:

A kind of grenadine, be formed by connecting by the parallel support be crisscross arranged is capable and thin grid are capable, described thin grid line width is greater than support line width.

Preferably, the capable and thin grid capable employing electrochemistry casting technique of described support is made.、

Preferably, described grenadine is planar structure.

Preferably, the capable multiple regular hexagon anatomical connectivity formed by yarn of described support form

Preferably, the capable multiple hexagonal structures formed by yarn of described thin grid are formed by connecting, and the regular hexagon structure that the hexagonal structure that described thin grid are capable is capable with support is staggered to be coordinated.

Preferably, the capable regular hexagon length of side of described support is 10-100 μm.

Preferably, described thin grid line width d 10-50 μm longer than the regular hexagon length of side.

Preferably, described yarn string diameter is 10-60 μm.

Preferably, adjacent two thin grid capable in wire spacing D be 0.5-2.5mm.

Compared to existing technology, the beneficial effects of the utility model are:

Its thin grid line width of the utility model is greater than support line width, oozes, achieve good printing precision and plumpness in thin grid are capable without the design of node under ensure that ink; Be made by electrochemistry casting technique, yarn is all positioned at same plane, non-woven mode, and print surface is more smooth; And support capable employing regular hexagon structure is more stable; Do not need time grenadine is controlled deliberately to do angle, save the use of grenadine; When screen painting, permeability has lifting, effectively prevent the stop of intertexture node to slurry; When equal grenadine string diameter, aperture opening ratio promotes.

Accompanying drawing explanation

Fig. 1 is the utility model grenadine structural representation;

Wherein, 1 is yarn, and 2 is that support is capable, and 3 is that thin grid are capable, and d is thin grid line width, D be adjacent two thin grid capable in wire spacing.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

As shown in Figure 1, a kind of grenadine, is formed by connecting by the parallel support be crisscross arranged capable 2 and thin grid capable 3, and capable 3 width of thin grid are greater than capable 2 width of support.

Embodiment 1

A kind of grenadine, be planar structure, be formed by connecting by the parallel support be crisscross arranged capable 2 and thin grid capable 3, support capable 2 and thin grid capable 3 adopt electrochemistry casting technique to be made; Multiple regular hexagon anatomical connectivity that support capable 2 is formed by yarn 1 form; Multiple hexagonal structures that thin grid capable 3 are formed by yarn 1 are formed by connecting, and the hexagonal structure of thin grid capable 3 coordinates with the regular hexagon structure of support capable 2 is staggered; The capable 2 regular hexagon length of sides (i.e. support line width) of support are 10 μm, and the capable 3 width d of thin grid are longer than the regular hexagon length of side 20 μm, and yarn 1 string diameter is 10 μm, and in adjacent two thin grid capable 3, wire spacing D is 0.5mm.

Embodiment 2

A kind of grenadine, be planar structure, be formed by connecting by the parallel support be crisscross arranged capable 2 and thin grid capable 3, support capable 2 and thin grid capable 3 adopt electrochemistry casting technique to be made; Multiple regular hexagon anatomical connectivity that support capable 2 is formed by yarn 1 form; Multiple hexagonal structures that thin grid capable 3 are formed by yarn 1 are formed by connecting, and the hexagonal structure of thin grid capable 3 coordinates with the regular hexagon structure of support capable 2 is staggered; The capable 2 regular hexagon length of sides (i.e. support line width) of support are 50 μm, and the capable 3 width d of thin grid are longer than the regular hexagon length of side 10 μm, and yarn 1 string diameter is 10 μm, and in adjacent two thin grid capable 3, wire spacing D is 1.5mm.

Embodiment 3

A kind of grenadine, be planar structure, be formed by connecting by the parallel support be crisscross arranged capable 2 and thin grid capable 3, support capable 2 and thin grid capable 3 adopt electrochemistry casting technique to be made; Multiple regular hexagon anatomical connectivity that support capable 2 is formed by yarn 1 form; Multiple hexagonal structures that thin grid capable 3 are formed by yarn 1 are formed by connecting, and the hexagonal structure of thin grid capable 3 coordinates with the regular hexagon structure of support capable 2 is staggered; The capable 2 regular hexagon length of sides (i.e. support line width) of support are 100 μm, and the capable 3 width d of thin grid are longer than the regular hexagon length of side 50 μm, and yarn 1 string diameter is 60 μm, and in adjacent two thin grid capable 3, wire spacing D is 2.5mm.

To one skilled in the art, according to technical scheme described above and design, other various corresponding change and deformation can be made, and all these change and deformation all should belong within the protection domain of the utility model claim.

Claims (9)

1. a grenadine, is characterized in that, is formed by connecting by the parallel support be crisscross arranged is capable and thin grid are capable, and described thin grid line width is greater than support line width.

2. grenadine as claimed in claim 1, is characterized in that, the capable and thin grid capable employing electrochemistry casting technique of described support is made.

3. grenadine as claimed in claim 2, it is characterized in that, described grenadine is planar structure.

4. grenadine as claimed in claim 1, it is characterized in that, the capable multiple regular hexagon anatomical connectivity formed by yarn of described support form.

5. grenadine as claimed in claim 4, it is characterized in that, the capable multiple hexagonal structures formed by yarn of described thin grid are formed by connecting, and the regular hexagon structure that the hexagonal structure that described thin grid are capable is capable with support is staggered to be coordinated.

6. grenadine as claimed in claim 4, it is characterized in that, the capable regular hexagon length of side of described support is 10-100 μm.

7. grenadine as claimed in claim 6, is characterized in that, described thin grid line width d 10-50 μm longer than the regular hexagon length of side.

8. the grenadine as described in any one of claim 1-7, is characterized in that, described yarn string diameter is 10-60 μm.

9. grenadine as claimed in claim 8, it is characterized in that, during adjacent two thin grid are capable, wire spacing D is 0.5-2.5mm.