CN205223513U - Divide strip disconnected check mesh grid - Google Patents

Abstract

The utility model relates to a mesh grid technical field. The utility model specifically discloses a divide strip disconnected check mesh grid, a serial communication port, include: it distinguishes and the crossover district to separate weaving of setting up each other, weave the district, its network structure for alternately weaving by warp and weft, and the crossover district, it sets up weave between the district for two, the crossover district includes to be postponed for linking up by the warp who weaves the district weaves the district from beginning to end, and the different is that the crossover district does not have weft to be interweaved, wherein, the radial length of weaving any the unit net in the district with the proportion of the net length in crossover district is 1: 2.5 -3. The utility model discloses the structure is simpler, solved often meet in actual production life to the mesh grid inconvenient problem of use that the operation brought of buckling, satisfied different use occasions to the needs of the mesh grid of different shapes, convenient and practical.

Description

Itemize breaks lattice mesh grid

Technical field

The utility model relates to mesh grid technical field.More particularly, the utility model relates to and a kind of to break lattice mesh grid for itemize.

Background technology

Existing traditional mesh grid as shown in Figure 1, in Fig. 1, interlaced between warp " 1 " and the every rhizoid of parallel " 2 ", be organized into numerous intertwined point and form netted braided fabric, wherein, the evident characteristic of intertwined point is: the warp of four intertwined points that the warp at each intertwined point place and the distributing position of parallel are adjacent is contrary with the distributing position of parallel, to form interaction force between intertwined point, keep the Stability Analysis of Structures of mesh grid, each intertwined point is equal with the distance of adjacent four intertwined points simultaneously.

In actual production life, often need the setting that mesh grid is bent, with satisfied different use occasion to the needs of difform mesh grid, when there is bending in common mesh grid, because the distance between adjacent warp or parallel is larger, the structure of mesh grid can not be affected because bending occurs for parallel or warp, also can not make adjacent parallel or the overlapped function affecting mesh grid of warp; But, intensive mesh grid, if when there is bending, be bent the warp at position or parallel due to hypotelorism each other, can occur mutually overlapping or mutually extrude, the partial structurtes of mesh grid are deformed, affect the working effect of its application, sometimes even can cause fracture warp or parallel, this will have a strong impact on the serviceability of mesh grid.

Utility model content

An object of the present utility model solves at least the problems referred to above, and provide the advantage will illustrated at least below.

The utility model also has an object to be to provide a kind of itemize to break lattice mesh grid, it is a kind of intensive metal net of strip shape, the length direction of mesh grid is divided into multiple connected knitting zone and crossover district, owing to there being the existence in crossover district, the shape that mesh grid is bent into needs by bending operation can be carried out in crossover district, and, owing to there is no the distribution of parallel herein, parallel and warp can not be there is mutually extrude and cause mesh grid local deformation, situation about even fractureing occurs, and can not affect the serviceability of mesh grid.

In order to realize according to these objects of the present utility model and other advantage, provide a kind of itemize and to break lattice mesh grid, comprising:

The knitting zone of spaced setting and crossover district, described knitting zone, it is the network structure become with parallel interlacing by warp; And described crossover district, it is arranged between described two knitting zone, and described crossover district comprises is postponed between two in opposite directions by the warp of knitting zone, and head and the tail are connected knitting zone, front and back mutually;

Wherein, the radical length of any one unit grid in described knitting zone and the ratio of described crossover district Gridding length are 1:2.5-3.

In such scheme, described crossover district, it is arranged between described two knitting zone, and the effect being connected knitting zone, front and back is played in described crossover district, and crossover district does not have parallel to form.

Preferably, wherein, the radical length of any one unit grid in described knitting zone is 0.998mm, and described crossover district Gridding length is 2.495-2.994mm.

Preferably, wherein, the radical length of a described knitting zone is 176.5-178.5mm.

Preferably, wherein, the radical length of a described knitting zone is 176.5mm.

Preferably, wherein, the silk warp of described warp, parallel is 0.63mm.

Preferably, wherein, the radial order number of a described knitting zone is the radial order number in 15.6, described crossover district is 8.1.

Preferably, wherein, the material of described warp and parallel is stainless steel.

Preferably, wherein, the material of described warp and parallel is 304 or 304L stainless steel wire.

The utility model at least comprises following beneficial effect:

The utility model is a kind of intensive metal net of strip shape, the length direction of mesh grid is divided into multiple connected knitting zone and crossover district, owing to there being the existence in crossover district, the shape that mesh grid is bent into needs by bending operation can be carried out in crossover district, further, owing to there is no the distribution of parallel herein, parallel and warp can not be there is and mutually extrude and cause mesh grid local deformation, situation about even fractureing occurs, and can not affect the serviceability of mesh grid.

In sum, the utility model structure is comparatively simple, solve often run in actual production life the use inconvenience problem that bending operation brings is carried out to mesh grid, meet the needs of different use occasion to difform mesh grid, convenient and practical.

Part is embodied by explanation below by other advantage of the present utility model, target and feature, part also will by research and practice of the present utility model by those skilled in the art is understood.

Accompanying drawing explanation

Fig. 1 is traditional woven mesh structure schematic diagram;

Fig. 2 is traditional mesh grid partial enlargement structural representation;

Fig. 3 is that itemize described in the utility model breaks the structural representation of lattice mesh grid;

Fig. 4 is the partial enlargement structural representation that itemize described in the utility model breaks in an embodiment of lattice mesh grid.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail, can implements according to this with reference to description word to make those skilled in the art.

Should be appreciated that used hereinly such as " to have ", other element one or more do not allotted in " comprising " and " comprising " term or the existence of its combination or interpolation.

As shown in Figure 3, the utility model provides a kind of itemize to break lattice mesh grid, comprising:

The knitting zone 13 of spaced setting and crossover district 14, described knitting zone, it is the network structure become with parallel interlacing by warp; And described crossover district, it is arranged between described two knitting zone, and described crossover district comprises is postponed between two in opposite directions by the warp of knitting zone, and head and the tail are connected knitting zone, front and back mutually;

Wherein, the ratio of the radical length of any one unit grid in described knitting zone and the length in described crossover district is 1:2.5-3.

In such scheme, described crossover district, it is arranged between described two knitting zone, the Rectangular grid that described crossover district surrounds for upper and lower both sides knitting zone parallel and crossover district warp.

In one embodiment, the radical length of any one unit grid in described knitting zone is 0.998mm, and the length in described crossover district is 2.495-2.994mm.

In one embodiment, the radical length of a described knitting zone is 176.5-178.5mm.

In one embodiment, the radical length of a described knitting zone is 176.5mm.

In one embodiment, the silk warp of described warp, parallel and connecting line is 0.63mm.

In one embodiment, the radial order number of a described knitting zone is the radial order number in 15.6, described crossover district is 8.1.

In one embodiment, the material of described warp, parallel and connecting line is stainless steel.

In one embodiment, the material of described warp, parallel and connecting line is 304 or 304L stainless steel wire.

Fig. 1 is shown in traditional mesh grid, in diagram, interlaced between warp (organizine) " 1 " and parallel (tram) " 2 " every rhizoid, is organized into numerous intertwined point and forms netted braided fabric.The evident characteristic of intertwined point is; Occupying of each intertwined point, all contrary with equal direction, adjacent four intertwined points, in fig. 2, intertwined point " 3 " is parallel covering warp, the intertwined point " 4 " be adjacent, " 5 ", " 6 ", " 7 " are then by parallel is covered by warp, the feature of mesh grid that Here it is, has the existence of this feature, illustrates that product is in arm's length standard braiding scope.

Itemize of the present utility model is disconnected every mesh grid, after broadwise normally enrolls " n " root parallel by regulation density, wire side can skip a space automatically, form the radial clearance of a certain amount of distance, refer to Fig. 3, in the example shown, parallel just has the generation of a space (bonding pad) after normally enrolling wire side " n " root, define radial clearance A, after continuing to enroll " n " root parallel by specified standard density thereupon, wire side can be repeated to insert the space of same size again, again produces the radial clearance of a certain amount of distance, and circulation is analogized successively.

Key of the present utility model is, after normally enrolling " n " root parallel, wire side generates a certain amount of warp spacers automatically, wire side still continues to insert parallel according to the density value of regulation subsequently, regeneration fixed interval (FI), circulate successively, and now mesh knitted lines does not affect by gap, space, intertwined point longitude and latitude covers all to be existed by normal rule wherein, refer to Fig. 4, intertwined point " 8 " in diagram in the A of space is warp covering parallel, and the intertwined point be adjacent " 9 ", " 10 ", " 11 ", " 12 " are then covered by parallel for warp, to weave lines identical with Standard screen.The key point of the technical solution of the utility model that Here it is.In figure 3, mesh size is △=25.4/M-D, unit mm.Gap, space A and B is setting value, and the length t=(n+1) (△+D) in A > B " n " root parallel and a space, wherein △---mesh size, M is per inch mesh knitted order number, D is string diameter, unit: mm.

According to above-mentioned formula, in a preferred embodiment n=109, M=0.998, D=0.63)

Although embodiment of the present utility model is open as above, but it is not restricted to listed in description and embodiment utilization, it can be applied to various applicable field of the present utility model completely, for those skilled in the art, can easily realize other amendment, therefore do not deviating under the universal that claim and equivalency range limit, the utility model is not limited to specific details and illustrates here and the legend described.

Claims (8)

1. itemize breaks a lattice mesh grid, it is characterized in that, comprising: the knitting zone of spaced setting and crossover district,

Described knitting zone, it is the network structure become with parallel interlacing by warp; And

Described crossover district, it is arranged between described two knitting zone, and described crossover district comprises is postponed between two in opposite directions by the warp of knitting zone, and head and the tail are connected knitting zone, front and back mutually;

Wherein, the radical length of any one unit grid in described knitting zone and the ratio of described crossover district Gridding length are 1:2.5-3.

2. itemize as claimed in claim 1 breaks lattice mesh grid, and it is characterized in that, the radical length of any one unit grid in described knitting zone is 0.998mm, and described crossover district grid total length is: 2.495-2.994mm.

3. itemize as claimed in claim 1 breaks lattice mesh grid, and it is characterized in that, the radical length of a described knitting zone is 176.5-178.5mm.

4. itemize as claimed in claim 3 breaks lattice mesh grid, and it is characterized in that, the radical length of a described knitting zone is 176.5mm.

5. itemize as claimed in claim 2 breaks lattice mesh grid, and it is characterized in that, the radial order number of a described knitting zone is 15.6/ per inch, and the radial order number in a described crossover district is 8.1/ per inch.

6. the itemize according to any one of claim 1-5 breaks lattice mesh grid, it is characterized in that, the line of described warp and parallel is through being 0.63mm.

7. the itemize according to any one of claim 1-5 breaks lattice mesh grid, and it is characterized in that, the material of described warp and parallel is stainless steel.

8. itemize as claimed in claim 7 breaks lattice mesh grid, it is characterized in that, the material of described warp and parallel is 304 or 304L stainless steel wire.