CN107627743A

CN107627743A - A kind of application of technical fabric

Info

Publication number: CN107627743A
Application number: CN201710925874.1A
Authority: CN
Inventors: 袁凌俊; 谢鹏; 陈富军; 陈小雷; 袁杏染
Original assignee: Anping County Xin Peng Guipure Co Ltd
Current assignee: Anping County Xin Peng Guipure Co Ltd
Priority date: 2017-10-05
Filing date: 2017-10-05
Publication date: 2018-01-26

Abstract

The invention provides a kind of application of technical fabric, it is related to printer technology field.Described technical fabric is：It is the net made of monofilament material warp and the braiding of the parallel of monofilament material, it is double-decker through cable architecture or texture：Top layer warp yams interweave in upper strata and parallel, and lower floor's warp interweaves in lower floor and parallel, and top layer warp yams do not intersect with lower floor warp；One warp elementary cell includes 4 subdivisions, and 2 subdivisions are on upper strata, and another 2 subdivisions are in lower floor；For described net to there is end net, the color of net is logical black；Described application is the application as printer guipure.The present invention solve the problems, such as spiral net conveyer belt size can not be controlled accurately in the prior art, stability is poor, fitting not consolidation, high speed, high-resolution, high quality printing can not be completed, having conveyer belt size, easily accurately control, good operation stability, print media are bonded consolidation with guipure, can complete the characteristics of high speed, high-resolution, high quality print.

Description

A kind of application of technical fabric

Technical field

The present invention relates to printer technology field.

Background technology

Guide belt printer, the ultra-wide printer of in the market, it is common to use traditional spiral net conveyer belt, this net Band is limited to the design feature of spiral net, and size can not be controlled accurately, often occur that catercorner length is inconsistent, i.e. guipure Into the situation of parallelogram, the stability of operation is had influence on；In addition this relatively small (contact surface of belt surface contact surface Product is 30%-40%), and air permeability is larger, and the vacuum suction component compressed air consumption in guipure is high, and print media with The fitting of guipure not consolidation.In summary, traditional spiral mesh-belt can not complete the printing times of high speed, high-resolution, high quality Business.

Therefore the size of guipure how is accurately controlled, guarantee guipure is positive rectangle, improves operation stability, improves printing Speed and quality turn into this area technical problem urgently to be resolved hurrily.

The content of the invention

The technical problem underlying that the present invention solves is the problem of presence for prior art, there is provided a kind of technical fabric Application, the technical fabric is applied to the printer guipure very high to conveyer belt required precision, can solve the problem that existing printer Spiral net conveyer belt size can not be controlled accurately in technology, the stability run is poor, print media and being bonded for guipure be not tight In fact, the problem of print out task of high speed, high-resolution, high quality can not be completed, there is conveyer belt size can accurately control, transport The characteristics of row stability is good, print media is bonded consolidation with guipure, can complete high speed, the printing of high-resolution, high quality.

A kind of application of technical fabric of the present invention, it is characterised in that：Described technical fabric is：It is to be passed through with monofilament material Net made of line and the braiding of the parallel of monofilament material, it is double-decker through cable architecture or texture：Top layer warp yams are on upper strata and latitude Line interweaves, and lower floor's warp interweaves in lower floor and parallel, and top layer warp yams do not intersect with lower floor warp；One warp is basic Unit includes 4 subdivisions, and 2 subdivisions are on upper strata, and another 2 subdivisions are in lower floor；Levels warp closes for vertically stacked System, wherein at least has 2 units to contain 2 narrow warps arranged side by side；Described warp has flat-shaped cross section；Above with Face or front are identical with the texture structure of back side warp or simultaneously identical with another side after rotation 180 degree；It is described Net to there is end net；And the color of described net is logical black；The application of described above-mentioned technical fabric is to be used as to beat The application of print machine guipure.

Further, described printer is guide belt printer or ultra-wide printer.

Further, the described interface structure for having end to net is lock ring interface or spiral ring interface.

Further, cutting-out method is taken to mesh grid guipure during application, when cutting, in the direction of the width, by finished size Cut along a warp is elongated, to ensure that the warp radical on guipure width is completely the same, i.e., width is consistent；It is long Spend on direction, reasonable computation grafting sector width controls the length of final guipure in finished size error with tearing barrier length open In the range of.

Further, described double-decker is：One unit of top layer warp yams is 1 wide warp, and another unit is 2 The narrow warp of root；One unit of lower floor's warp is 2 narrow warps, and another unit is 1 wide warp；1 wide warp on upper strata with 2 narrow warps of lower floor are vertically stacked relation, and the width of wide warp is 2 narrow 0.6--1.5 times through line width summation；On 2 narrow warps of layer and 1 wide warp of lower floor are vertically stacked relation, and the width of wide warp is 2 narrow through line width summation 0.6--1.5 times.

Further, described double-decker is：1, upper strata unit is 2 narrow warps arranged side by side, and another unit is also 2 Root narrow warp arranged side by side；1 unit of lower floor is 2 narrow warps arranged side by side, and another unit is 2 narrow warps arranged side by side；Upper strata is single The narrow warp arranged side by side of 2 of member is respectively vertically stacked relation with 2 narrow warps arranged side by side of lower unit.

Further, described double-decker is：One unit of top layer warp yams is 1 wide warp, and another unit is 2 The narrow warp of root；One unit of lower floor's warp is 2 narrow warps, and another unit is 1 wide warp；1 wide warp on upper strata with 1 wide warp of lower floor is vertically stacked relation；2 narrow warps on upper strata and 2 narrow warps of lower floor close for vertically stacked System.

Further, described double-decker is：The cross section of net has following distributing order：In warp unit Top layer warp yams are 2 wide, 4 narrow, and corresponding lower floor is 4 narrow, 2 wide；Or top layer warp yams be it is 3 wide, 6 narrow, corresponding lower floor be it is 6 narrow, 3 It is wide.

Further, described monofilament material be monofilament polyester, polyphenylene thioether PPS monofilament, polyether-ether-ketone PEEK monofilament and Polyamide nylon monofilament, one of which or several.

The positive effect of the present invention is：Contrasted with prior art, solve that prior art is long-standing to ask well Topic.The technical fabric is applied to the printer guipure very high to conveyer belt required precision, can solve the problem that existing printer technology Middle spiral net conveyer belt size can not control accurately, run stability is poor, print media is bonded not consolidation, nothing with guipure Method completes the problem of print out task of high speed, high-resolution, high quality, and there is conveyer belt size can accurately control, be stable Property good, print media be bonded with guipure consolidation, can complete high speed, high-resolution, high quality printing the characteristics of.

The present invention can accurately control length and width dimensions, and guarantee conveyer belt is positive rectangle, improve operation stability；There is provided higher Contact area (contact area 40-55%), lower air permeability (can as little as 60CFM), ensure the good patch of print media Close, reduce the compressed air loss of vacuum suction component.

When cutting mesh grid guipure, on width, cut by finished size along a warp is elongated, it is ensured that Warp radical on guipure width is completely the same, i.e., width is consistent.It is wide by reasonable computation inserted area on length direction Spend and tear barrier length open, the length of final guipure can be controlled in the range of finished size ± 10mm.Due to woven mesh structure Stability, the diagonal error of finished net band just can be controlled within 5mm (for the guipure of the wide * 3.3m length of 2.9m) easily. The color of guipure is entire body black, and the guipure of black has the special ability for absorbing UV (ultraviolet), can farthest reduced The reflection of UV light, there is good protective effect to printer head.The structure of guipure, interface etc. and patent No. ZL 2,015 1 The fabric described in a kind of technical fabric in 0265257.4 (B of CN 1048198642) is identical.

With reference to embodiments and accompanying drawing is described further, but not as a limitation of the invention.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, embodiment or prior art will be retouched below The required accompanying drawing used is briefly described in stating, it should be apparent that, drawings in the following description are only the one of the present invention A little embodiments, for those of ordinary skill in the art, without having to pay creative labor, can also basis These accompanying drawings obtain other accompanying drawings.

Fig. 1 is a kind of structural representation of the embodiment of technical fabric of the present invention (net front)；

Fig. 2 is Fig. 1 rearview (the net back side)；

Fig. 3 is Fig. 1 A-A profiles；

Fig. 4 is Fig. 1 B-B profiles；

Fig. 5 is the structural representation of the interface of embodiment 1；

Fig. 6 is Fig. 5 rearview；

Fig. 7 is Fig. 6 C-C profiles；

Fig. 8 is the structural representation (net front) of embodiments of the invention 2；

Fig. 9 is Fig. 8 rearview (the net back side)；

Figure 10 is Fig. 8 D-D profiles；

Figure 11 is Fig. 8 E-E profiles；

Figure 12 is the structural representation of the interface of embodiment 2；

Figure 13 is Figure 12 rearview；

Figure 14 is Figure 13 F-F profiles；

Figure 15 is application example schematic diagram of the present invention.

For sake of clarity, identical element has used identical numeral or alpha code in each figure.L with the arrow in figure Represent the left side and right side of fabric respectively with R, the corresponding relation in the identification figure that is only used for helping reader.

Embodiment

In order that technical problems, technical solutions and advantages to be solved are more clearly understood, tie below Drawings and Examples are closed, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only Only to explain the present invention, it is not intended to limit the present invention.

Further, described printer is guide belt printer or ultra-wide printer.

A kind of heretofore described technical fabric and the (CN 1048198642 of patent No. ZL 2,015 1 0265257.4 B a kind of fabric described in technical fabric and structure in) are identical, but are logical black.

The technical fabric embodiment 1：

Double-decker is：One unit of top layer warp yams is 1 wide warp, and another unit is 2 narrow warps；Lower floor passes through One unit of line is 2 narrow warps, and another unit is 1 wide warp；1 wide warp on upper strata and 2 narrow warps of lower floor For vertically stacked relation, the width of wide warp is 2 narrow 0.6--1.5 times through line width summation；2 narrow warps on upper strata with 1 wide warp of lower floor is vertically stacked relation, and the width of wide warp is 2 narrow 0.6--1.5 times through line width summation.

That is, 1, upper strata unit is the wide warp 4t in 1 square-section, and another unit is 2 narrow warps in square-section arranged side by side Line 1t and 2t；1 unit of lower floor is the narrow warp 5b and 6b in 2 square-sections arranged side by side, and another unit is that 1 square-section is wide Warp 3b.The warp of 4 units interweaves with forming dry meshi fabric according to the texture maps in table 1, and is alternately arranged in the dry net of view picture. The color of described net is logical black.

Table 1

Fig. 1 and Fig. 2 is that the 3D of the positive 3D figures of dry meshi fabric and the back side in table 1 schemes.As shown in 3D pictures, 2 just The narrow warp 1t+2t in face width is substantially equal to the wide warp 3b in back side width；Similarly, the wide warp 4t width in front is substantially etc. In back side warp 5b+6b width.Such as：1t and 2t sectional dimension is 0.36x 0.53x 2mm cutting equal to 3b or 4t Face size 0.36x 1.06x 1mm.

It can also be seen that the dry reticulate pattern reason at positive dry reticulate pattern reason and the back side rotates complete phase after 180 degree from Fig. 1 and Fig. 2 Together, the design different compared to traditional front and back texture, stress difference caused by effectively eliminating front and back texture difference, significantly The uniformity of dictyosome texture is improved, obtains more smooth, smooth dictyosome surface.1t, 2t and 4t warp in Fig. 1 in white box The back side of line is exactly warp 3b, 5b and the 6b in white box in Fig. 2；Similarly, parallel 2w and 4w it can also be seen that.

Fig. 3 is the A-A profiles of the dry net in Fig. 1.Simply warp 1t, 2t and 3b and the parallel that this 3D picture is shown Texture structure between 1w, 2w, 3w and 4w.It can be clearly seen that 1w and 3w line footpath are thicker from figure；2w and 4w line footpath It is thinner.On 3 under 1, i.e., top layer warp yams unit 1t and 2t trend are：On 1w, 2w and 3w, and under 4w.Lower floor's warp Unit 3b is the wide line, is moved towards as under on 1 time 12, i.e.,：Under 1w, on 2w and under 3w, 4w.Above-mentioned latitude and longitude circulate past It is multiple, form first group of longitude and latitude institutional framework.

Fig. 4 is the B-B profiles of the dry net in Fig. 1.Simply warp 4t, 5b and 6b and the parallel that this 3D picture is shown Texture structure between 1w, 2w, 3 and 4w.It can also be seen that identical 1w and 3w parallel is thicker equally from figure, 2w and 4w latitudes Line is thinner.On 1 on 1 time and 2, i.e., top layer warp yams unit 4t trend is：On 1w, under 2w and on 3w and 4w；Lower floor On 3 times 1, i.e., warp unit 5b and 6b trend are：Under 1w, 2w and 3w and on 4w.Above-mentioned latitude and longitude structured loop is reciprocal, Form second of different longitude and latitude institutional framework and be collectively forming complete braiding texture with first group of institutional framework, through dry Whole dictyosomes of net.

Fig. 5 schemes for dry network interface front 3D.As illustrated, the 4t in warp is reserved enough when the left side of dry net is returned and inserted The warp of length carries out back inserting and being formed the interface rings 4t-loops of dry net left end later as interface rings；Similarly, warp In 1t and 2t the warp of sufficient length is reserved when returning slotting together after return the right side interface rings 1t/2t- for inserting and being formed dry net end loops.1t and 2t returns to return to insert against parallel 3w when inserting on the left of dry net forms back slotting ring 1t/2t-return, and reserves 1t and 2t interface rings of the room to dry net right side；Parallel 1w must be abutted when the 4t on the right side of net returns slotting by, which similarly doing, returns slotting formed back Slotting ring 4t-return, and leave room to the 4t interface rings on the left of dry net.

Fig. 6 schemes for dry network interface back side 3D.As illustrated, dry net left side against parallel 3w return slotting 1t and 2t warps with 3b is docked；Warp 4t is docked after forming interface rings with 5b and 6b；Returned after the right side 1t and 2t of dry net form interface rings insert with 3b is docked, 4t returns against parallel 1w insert after docked with 5b and 6b.All times slotting warps must all exist according to dry net texture structure The warp formed in process flex back to it is slotting, return interpolating unit position interface area except dock breakpoint in addition to dry reticulate pattern reason knot Structure is consistent.Because upper and lower structures are separate, upper and lower layer warp never intersects, and grafting joint is protected all the time Hold in machine face, dictyosome will not be penetrated and reach paster face and damage page.

Fig. 7 is the C-C profiles of the dry network interfaces of Fig. 6.Worn after the interface rings engagement docking of the left and right sides by one or more Silk (being PIN in figure) connection, makes dry net form the annular of a closing.Meanwhile 2 suitable dimensions are inserted in interface rings 1p fills silk, and can effectively reduce the space of interface area on the premise of ensureing that online is simple and efficient, reduce and avoid paper industry from printing The appearance of trace.Due to the flexibility of such a reticulate structure, interface pattern is not limited to the type shown in Fig. 6, Fig. 7, can be with 2 narrow warps are selected to do interface rings from left side, right side also selects 2 narrow warps to do interface rings；Or select 1 wide warp from left side Line does interface rings, and right side also selects 1 wide warp to do interface rings.When interface rings are all done in left and right using narrow line, spiral shell can also be made Revolve ring interface.

Embodiment 2：

Double-decker is：1, upper strata unit is 2 narrow warps arranged side by side, and another unit is also 2 narrow warps arranged side by side； 1 unit of lower floor is 2 narrow warps arranged side by side, and another unit is 2 narrow warps arranged side by side；2 narrow warps of upper unit point It is vertically stacked relation not with 2 narrow warps of lower unit.

That is, 1, upper strata unit is the narrow warp 11t and 12t in 2 square-sections arranged side by side, and another unit is also arranged side by side for 2 The narrow warp 13t and 14t in square-section；1 unit of lower floor is the narrow warp 15b in 2 square-sections arranged side by side and 16b, Ling Yidan Member is the narrow warp 17b and 18b in 2 square-sections arranged side by side.4 warp units interweave with forming dry net according to the texture maps in table 2 Fabric, and be alternately arranged in the dry net of view picture.The color of described net is logical black.

Fig. 8 and Fig. 9 is that the 3D of the positive 3D figures of dry meshi fabric and the back side in table 2 schemes.As shown in 3D pictures, upper strata The width of warp in warp unit and warp in lower floor warp unit is basically identical, and is passed through in every layer in different warp units The width of line is also basically identical.For example, 11t and 12t sizes are all 0.36x 0.53mm, 13t and 14t sizes are all 0.36x 0.53mm, 15b and 16b size are all that 0.36x 0.53 mm, 17b and 18b sizes are all 0.36x 0.53mm.

Table 2

It can also be seen that positive dry reticulate pattern reason is identical with the dry reticulate pattern reason at the back side from Fig. 8 and Fig. 9, compared to tradition The different design of front and back texture, stress difference caused by effectively eliminating front and back texture difference, significantly improves dictyosome texture Uniformity, obtain more smooth, smooth dictyosome surface.11t, 12t and 13t in Fig. 8 in white box, the back of the body of 14t warps Face is exactly warp 15b, 16b and the 17b in white box, 18b in Fig. 9；Similarly, parallel 12w can also mutually should be seen that with 14w.

Figure 10 is the dry net D-D profiles in Fig. 8.Simply warp 11t, 12t and the 15b that this 3D picture is shown, 16b With parallel 11w, 12w, the texture structure between 13w and 14w.It can be clearly seen that 11w and 13w line footpath are thicker from figure； 12w and 14w line footpath is thinner.Top layer warp yams unit 11t and 12t trend are on 3 under 1, i.e., on 11w, 12w and 13w, Under 14w.On 1 time 1 under 2, i.e., lower floor warp unit 15b and 16b trend are：Under 11w, on 12w and 13w, Under 14w.Above-mentioned latitude and longitude move in circles, and form first group of longitude and latitude institutional framework.

Figure 11 is the E-E profiles of the dry net in Fig. 8.Simply warp 13t, 14t and the 17b that this 3D picture is shown, Texture structure between 18b and parallel 11w, 12w, 13 and 14w.It can also be seen that identical 11w and 13w latitude equally from figure Line is thicker, 12w and 14w parallels are thinner.Top layer warp yams unit 13t, 14t trend are on 1 on 1 time and 2, i.e., on 11w, Under 12w and on 13w, 14w；Lower floor warp unit 17b and 18b trend on 3 time 1, i.e., under 11w, 12w, 13w with On 14w.Above-mentioned latitude and longitude structured loop is reciprocal, formed second of different longitude and latitude institutional framework, and with first group of knot of tissue Structure is collectively forming complete braiding texture, through whole dictyosomes of dry net.

Figure 12 schemes for dry network interface front 3D.As illustrated, left side warp 12t and 14t are returned reserves sufficient length when inserting Warp carries out back inserting and being formed the interface rings 12t-loops and 14t-loops of dry net left end later as interface rings；Together Manage and return slotting after right side warp 11t and 13t return the warp that sufficient length is reserved when inserting and form the interface rings of dry net right-hand end 11t-loops and 13t-loops.11t and 13t in the warp of left side are returned and are formed back slotting ring 11t- against parallel 11w when inserting Return and 13t-return, the interface rings formed to right side 11t and 13t of leaving room；12t and 14t in the warp of right side are returned Slotting ring 12t-return and 14t-return are formed back against parallel 13w when inserting, leaves room what is formed to left side 12t and 14t Interface rings.Interface rings are formed and against the room that parallel is formed by the left and right sides, interface is just able to connecting, and by Threading is penetrated in interface rings dictyosome is connected into a ring-type.

Figure 13 schemes for dry network interface back side 3D.As illustrated, dry net left side against parallel 11w return slotting warp 11t and 13t docks with the back side warp 15b and 17b respectively, warp 12t and 14t formed interface rings after respectively with back side warp 16b and 18b is docked；The right side of dry net is returned slotting warp 12t and 14t against parallel 13w and docked respectively with the back side warp 16b and 18b, passes through Line 11t and 13t dock with the back side warp 15b and 17b respectively after forming interface rings.All times slotting warps all must be according to The warp that dry net texture structure is formed in process flex back to it is slotting, return interpolating unit position interface area except docking breakpoint with It is consistent outside with dry net texture structure.Because upper and lower structures are separate, upper and lower layer warp never intersects, Grafting joint remains at machine face, will not penetrate dictyosome and reach paster face and damage page.

Figure 14 is the F-F profiles of the dry network interfaces of Fig. 7.By one or more after the interface rings engagement docking of the left and right sides Silk (being PIN in figure) connection is worn, dry net is formed the annular of a closing.Due to the crash consistency of reticulate structure, can be used Any layer in upper strata or lower floor does interface rings, and two warps arranged side by side also can do interface rings by any of which root.Because two Root, the interface rings that compared to traditional the wide line make smaller through line width arranged side by side, its interface space formed is compared to 2 times of width Want narrow half in the space that wide warp is formed.Meanwhile the 11p that 2 suitable dimensions are inserted in interface rings fills silk, and can ensure Surf the Net it is simple and efficient on the premise of, the more effective space for reducing interface area, reduce and avoid the appearance of paper industry impression.

Embodiment 3：

The embodiment of the present invention 3 is that 1, upper strata unit is 1 wide warp in square-section, and another unit is 2 squares arranged side by side The narrow warp of tee section；1 unit of lower floor is 2 narrow warps in square-section arranged side by side, and another unit is 1 wide warp in square-section Line.1 wide warp of its 1 wide warp and lower floor at the middle and upper levels is vertically stacked relation, and the width of upper and lower slice width warp It is essentially identical.2 narrow warps on upper strata and 2 narrow warps of lower floor are vertically stacked relation, and the width of the 2 narrow warps in upper strata The width summation for spending 2 narrow warps of summation and lower floor is essentially identical.The color of described net is logical black.

Embodiment 4：Described double-decker is that the cross section of net has following distributing order：It is upper in warp unit Layer warp is 2 wide, 4 narrow, and corresponding lower floor is 4 narrow, 2 wide (figure omits).The color of described net is logical black.

Embodiment 5：Described double-decker is that the cross section of net has following distributing order：It is upper in warp unit Layer warp is 3 wide, 6 narrow, and corresponding lower floor is 6 narrow, 3 wide (figure omits).The color of described net is logical black.

Application Example：By a kind of technical fabric described in any one of above example 1-6, it is for printer Guide belt printer or ultra-wide printer, as printer guipure.The interface structure of end net for lock ring interface or Spiral ring interface；Using when cutting-out method is taken to mesh grid guipure, when cutting, in the direction of the width, by finished size along one Warp is elongated to be cut, and to ensure that the warp radical on guipure width is completely the same, i.e., width is consistent；Length direction On, reasonable computation grafting sector width can control the length of final guipure the scope in finished size error with tearing barrier length open It is interior.The stability solve spiral net conveyer belt size in the prior art and can not accurately control, running is poor, print media and net Band fitting not consolidation, the problem of print out task of high speed, high-resolution, high quality can not be completed, there is conveyer belt size Can accurately it control, good operation stability, print media are bonded consolidation with guipure, can complete high speed, high-resolution, high quality beats The characteristics of print.Length and width dimensions can be accurately controlled, guarantee conveyer belt is positive rectangle, improves operation stability；Higher contact is provided Area (contact area 40-55%), lower air permeability (can as little as 60CFM), ensure the good fit of print media, drop The compressed air loss of low vacuum getter assembly.The length of final guipure can be controlled in the range of finished size ± 10mm. Due to the stability of woven mesh structure, the diagonal error of finished net band is just can be controlled within 5mm easily (is directed to the wide * of 2.9m The guipure of 3.3m length).The color of guipure is entire body black, and the guipure of black has the special ability for absorbing UV (ultraviolet), The reflection of UV light can be farthest reduced, there is good protective effect to printer head.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement made within refreshing and principle etc., should be included in the scope of the protection.

Claims

A kind of 1. application of technical fabric, it is characterised in that：Described technical fabric is：It is to use monofilament material warp and monofilament material Net made of the parallel braiding of material, it is double-decker through cable architecture or texture：Top layer warp yams interweave on upper strata and parallel, lower floor Warp interweaves in lower floor and parallel, and top layer warp yams do not intersect with lower floor warp；One warp elementary cell includes 4 points Unit, 2 subdivisions are on upper strata, and another 2 subdivisions are in lower floor；Levels warp is vertically stacked relation, wherein at least there is 2 Unit contains 2 narrow warps arranged side by side；Described warp has flat-shaped cross section；Passed through above with the following or positive and back side The texture structure of line is identical or simultaneously identical with another side after rotation 180 degree；Described net is to have end net；And institute The color for the net stated is logical black；The application of described above-mentioned technical fabric is the application as printer guipure.
A kind of 2. application of technical fabric according to claim 1, it is characterised in that：Described printer is beaten for guide belt Print machine or ultra-wide printer.
A kind of 3. application of technical fabric according to claim 1, it is characterised in that：Described has the interface structure that end is netted For lock ring interface or spiral ring interface.
A kind of 4. application of technical fabric according to claim 1, it is characterised in that：Using when mesh grid guipure is taken Cutting-out method, when cutting, in the direction of the width, cut by finished size along a warp is elongated, to ensure guipure width side Upward warp radical is completely the same, i.e., width is consistent；On length direction, reasonable computation grafting sector width and barrier length is torn open, The length of final guipure is controlled in the range of finished size error.
5. the application of a kind of technical fabric according to claim 1, it is characterised in that described double-decker is：Upper strata passes through One unit of line is 1 wide warp, and another unit is 2 narrow warps；One unit of lower floor's warp is 2 narrow warps, another Individual unit is 1 wide warp；1 wide warp on upper strata and 2 narrow warps of lower floor are vertically stacked relation, the width of wide warp For 2 narrow 0.6--1.5 times through line width summation；2 narrow warps on upper strata and 1 wide warp of lower floor close for vertically stacked System, the width of wide warp are 2 narrow 0.6--1.5 times through line width summation.
6. the application of a kind of technical fabric according to claim 1, it is characterised in that described double-decker is：Upper strata 1 Individual unit is 2 narrow warps arranged side by side, and another unit is also 2 narrow warps arranged side by side；1 unit of lower floor is 2 arranged side by side narrow Warp, another unit are 2 narrow warps arranged side by side；2 of upper unit narrow warps arranged side by side respectively with 2 of lower unit simultaneously The narrow warp of row is vertically stacked relation.
7. the application of a kind of technical fabric according to claim 1, it is characterised in that described double-decker is：Upper strata passes through One unit of line is 1 wide warp, and another unit is 2 narrow warps；One unit of lower floor's warp is 2 narrow warps, another Individual unit is 1 wide warp；1 wide warp on upper strata and 1 wide warp of lower floor are vertically stacked relation；2 of upper strata are narrow Warp and 2 narrow warps of lower floor are vertically stacked relation.
8. the application of a kind of technical fabric according to claim 1, it is characterised in that described double-decker is：The horizontal stroke of net Section has following distributing order：To be 2 wide, 4 narrow, corresponding lower floor is 4 narrow, 2 wide for top layer warp yams in warp unit；On or Layer warp is 3 wide, 6 narrow, and corresponding lower floor is 6 narrow, 3 wide.
A kind of 9. application of technical fabric according to any one of claim 1-8, it is characterised in that described monofilament material Expect for monofilament polyester, polyphenylene thioether PPS monofilament, polyether-ether-ketone PEEK monofilament and polyamide nylon monofilament, one of which or several.