CN107530761B - Edge suitable for net processes - Google Patents

Abstract

The edge processing for being suitable for net formed and making adjacent wire plait interlock, each plait is formed in a manner of zigzag, edge processing includes the ring of two interconnection, wherein the first ring is formed at the first plait of adjacent plait and the second ring is formed at the second plait of adjacent plait；Wherein the first ring and the second ring are interlocked in together in the intersection of the first plait and the second plait by the first ring end and the second ring end.

Description

Edge suitable for net processes

The statement of related application

The application is the 708418 SProvisional Patent specifications submitted in New Zealand, the new zealand patent based on number of patent application The full content of application is incorporated herein by reference.

Technical field

The present invention relates to the methods of the edge processing and the processing of formation edge that are suitable for net.Especially, edge processing is related to using May have in the wire mesh of aquaculture and the use that forms its method, but be adapted for the edge processing of net and largely answer With so restrictive using being not considered as in aquaculture.

Background technique

It the use of wire mesh is generally existing.Some examples of its purposes include forming barrier, fence (including safety Property fence), cage (including for contain animal and meanwhile mustn't other animals and people enter interior cage) etc..

Wire mesh, which usually passes through, makes the wire twisted wire of referred to as plait (picket) interlock to be formed.Plait by Shape is suitable for the required pattern of net to be formed.Common patterns are argyle designs, are interlocked by a pair of of plait to be formed, wherein often A plait is formed as zigzag (zig-zag) configuration.The end of net in each plait in the edge of net usually by leaving Each plait is cut after this pattern to be formed.The part of cutting is commonly known as plait tail portion.Plait tail portion is logical It is often edge that is sharp and protruding from net.It is not only does this create safety problem, but also one can be come to the marginal belt for unlocking net It is a little to hinder.Therefore, to edge is completed by edge processing, there are demands always.

Past common edge processing method is as shown in Figure 1, reverse two plaits in the end of staggered plait Tail portion.Although it be effective that this, which may keep integrality aspect of net in edge, because the end of torsion it is not only hard but also Sharp its still forms great safety problem.This method of edge processing is no longer permitted for some answer in some countries With.

Another method of the prior art include by each plait tail portion around be bent each other and return to plait so as to Single strand section processing (knuckle finishing) is formed, as shown in Figure 2.It is single although more safer than torsion processing A strand section connector can lack the intensity of the integrality to keep net in edge, and if apply enough power (such as By being pushed by larger animal) so single strand section connector can be opened.

The cage in particular to formed using wire mesh suitable for aquaculture of the invention.In many places in the world Fish when growth is contained in using net more and more.Netcom is often formed to increase net in water by the wire of specially treated Service life in raw environment, and limit or prevent aquatic substance in accumulation (thus reducing the cleaning frequency of net) on the net.It can prolong These cylinder moulds for reaching water (such as ocean, river or lake) bottom usually have about 130 meters of perimeter.Cylinder mould needs enough It is solid and it is hard so as to guarantee inside by the safety for the fish raised and mustn't grazing eclipse fish come in.

The edge processing of cylinder mould suitable for aquaculture therefore need to have enough intensity overcome the weight of net to It is maintained around the integrality of the net on periphery and keeps safe operation.The strand section processing of Fig. 2 is too weak for the purpose, and schemes 1 torsion processing is too dangerous and cannot operate.

The solution proposed in order to solve these problems is multiple twin section arrangement as shown in Figure 3.The arrangement A pair of of plait is bent to U-shaped by the intersection being related on the edge of net, main body of its open end against direction net, U Morpheme is in plane identical with net.Processing can by plait tail portion is formed around adjacent plait bending twist section and It completes.When completing above-mentioned for each pair of plait (and plait tail portion), result as shown in Figure 3 is referred to as multiple twin section, Because each ring includes two strand sections.Multiple twin section edge is safer than torsion processing, but if anything is hooked in exposure Plait tail portion on, multiple twin section edge still can be dangerous.

In addition, the defect that the arrangement can have is to connect the configuration of U-loop and finally twist the mode that section is formed to enable to The multiple twin section is formed by machine to be difficult.This form of multiple twin section is usually by manually forming, with many defects, including It is processed with this kind of multiple twin section to produce dramatically increasing for the labour of net, time and cost.In addition, save because twisting by manually forming, So around net edge strand section in scrambling may be present, can lead to net deformation and load on the edge of net not Uniform distribution, can lead to the high abrasion/destruction at overload edge.

However more important question is that preformed plait length (between the knee i.e. in plait away from From) and the length of plait end can be not enough to when completing the first knee completely to folding on adjacent plait and meeting It is not enough to be formed strand section.This can lead to adjacent plait and is drawn to closer to the plait being folded, between them Opening clearance, as shown in Figure 3.When strand section is completed, which is locked in interior.Test has shown that each gap can be extremely 8 millimeters are up to for 2 millimeters and in many examples less.Accumulative effect around whole gaps of rim circumference (~130 meters) It can reach the edge compared with net central part and shorten at least 11 meters.The main problem as caused by the edge shortened is to need additionally Plait meet the given specification suitable for certain length net.Additional plait suitable for given length net increase manufacture at Originally every meter of weight for and also increasing net, needs to provide other float to netting cage.Edge shortening can result in net The loss of tension in center portion point can lead to plait in the increased friction of each intersection again, therefore increase abrasion, and Remove any surface preparation (such as antifouling process) of wire.In addition, the loss of tension can cause a kind of situation, it is medium-and-large-sized Predator can impact in the non-tensioned section of net, and the fish of the inside may make to lose consciousness or kill fish.

As previously described, it should be understood that application of the invention is many and can change, therefore about aquaculture Discuss the exemplary embodiment for being only to aid in understanding.

It is an object of the present invention to solve the above problems or at least the public provides useful option.

All referring to any patent for being included in the description reference or patent application are from there through being incorporated by this Text.Do not recognize that any reference constitutes the prior art.The content that their author of the discussion statement of reference advocates, and applicant protects Stay the right of the query to the accuracy and correlation of cited document.It must be clearly understood that although herein with reference to being permitted More prior arts disclose, but refer to not constitute and recognize that any of these documents are formed in New Zealand or in any other country A part of common sense well known in the art.

Unless the context clearly require that otherwise in entire specification and claims, word " including (comprise or comprising) " etc. is to be interpreted as being inclusive meaning, with exclusiveness or exhaustive meaning phase Instead, that is to say, that be interpreted meaning " including but not limited to ".

Other aspects and advantage of the invention will be provided only by way of example in the following description and become bright It is aobvious.

Summary of the invention

According to the first aspect of the invention, provide by make adjacent wire plait interlock and formed be suitable for net Edge processing, each plait are formed in a manner of zigzag.

Edge processing includes the ring of two interconnection, wherein the first ring is at the terminal of the first plait of adjacent plait It is formed and the second ring is formed at the terminal of the second plait of adjacent plait, wherein the first ring and the second ring are first The intersection of plait and the second plait is interlocked in together by the first ring end and the second ring end.

Such edge processing can have several advantages better than prior art processing comprising: for being applied to Any power to be pulled open or destroyed it in processing provides bigger resistance；The safety is improved, because by plait Exposed end is formed without the ring of pointed projections；The stability and rockiness of processing improve, because of locked ring phase Net is held in place；And by ring lock together the result is that the adjacent twisted wire of the first plait and the second plait can also It is held in place in.

In a preferred embodiment, the first ring end and the second ring end are to basically prevent the ring of interconnection relative to that The mode of this movement is interlocked in together.

In the context of the present invention, term " interlocking " refers to wherein that the first ring end and the second ring end be between each other It passes through or is mutually interconnected by mutual, so that they are linked together with being substantially opposite the relationship being locked to each other.

In a preferred embodiment, the longitudinal axis of each ring is substantially with plait by its net pattern formed The longitudinal axis of adjacent part is parallel.

In a preferred embodiment, the plane of each ring is orthogonal to the plane of net.

In a preferred embodiment, adjacent to the shape and size of the net pattern of the plait of the ring of interconnection substantially with The shape and size of the net pattern of the remainder of plait are identical.

The advantage arranged as described above is there was only the deformation of seldom net near edge processing or does not have net Deformation, especially when net is under tension, may only have in the spacing between adjacent plait seldom reduction or Person does not reduce.This can overcome the problems, such as that the prior art is processed, wherein processing in prior art processing causes at the edge of net The intersection for being in plait forms gap.

In a preferred embodiment, the free end (it is formed as ring end) of each plait can be located at the plait Ring plane in.The advantage of the arrangement can increase safety in process operation, because by usually sharp plait tail portion It allowably folds into inside the smooth surface of ring.

In a preferred embodiment, edge processed and applied is in multiple adjacent plaits.

Preferably, edge processed and applied is in the end of shape whole plaits into the net.

In a preferred embodiment, when tension is applied to net, there is the substantially straight channel by ring.

In a preferred embodiment, channel is configured to receive the wire or rope of support.This may make the gold of support Belong to silk perhaps restrict (or the like) pass through ring thus all of which keep together without generate process or net times What is deformed.Such support can be used for keeping the shape of net, if so as to net it is under water etc. will in net attachment to column or On frame or for being attached flotation gear.

In a preferred embodiment, net is the net of argyle design.

In a preferred embodiment, what edge processed is at least partly formed using machine.Who knows that bending has 4 millis for those The people of rice wire can be appreciated that it requires sizable power that plait is formed as ring.This to manually form edge processing As difficult and laborious work, when especially when edge, processing is become more sophisticated.Suitable machine can form bending, therefore in shape At edge process in save labour, time and cost.Machine also can produce edge processing, with consistent rather than adjoint manual The edge processing of formation can changed standard.

According to another aspect of the present invention, there is edge processing substantially as discussed above, wherein machine forms edge processing.

According to another aspect of the present invention, exist to be formed and be suitable for the net including multiple adjacent staggered zigzag plaits Edge method, edge formed argyle design adjacent (first and second) plait terminal at formed, this method The following steps are included:

By the crimp (zag side) of the zigzag of the first plait to returning the zigzag for bending to first plait The over top of flanging (zig side)；

By the first plait tail portion relative to the zigzag of the first plait bent edge part align；

Flanging by the first plait tail portion partly aligned further around the zigzag of the second plait is bent, directly It is located at the lower section of the flanging of the zigzag of the second plait to it；

Reverse the first plait tail portion, until it have it is identical with the flanging of the zigzag of the first plait orientation so as to Form the first ring；

By the crimp of the zigzag of the second plait to return bend to the second plait zigzag flanging lower section；

By the second plait tail portion relative to the zigzag of the second plait bent edge part align；

Flanging by the second plait tail portion partly aligned further around the zigzag of the second plait is bent, directly It is located at the top of the flanging of zigzag to it；

The second plait tail portion is reversed by the first ring and in the top of the first plait tail portion, until it have with The identical orientation of the flanging of the zigzag of second plait is to form the second ring；

Two plait tail portions are reversed simultaneously, so that the crimp phase of the second plait tail portion and the zigzag of the second plait It meets, and the first plait tail portion and the crimp of the zigzag of the first plait is met, to be formed the first ring and second Ring interlocking first ring end and the second ring end.

Method substantially as discussed above, wherein the plane of the first ring is orthogonal to the plane of net.

Method substantially as discussed above, wherein the plane of the second ring is orthogonal to the plane of net.

The method for being suitable for the edge of net of the zigzag plait including multiple interleaved adjacents is formed, edge is forming diamond shape It is formed at the terminal of a pair of pattern adjacent the first plait and the second plait, method includes the following steps:

- the first ring and the second ring are separately formed on a pair of of plait, on the adjacent plait of each of this pair, Near the terminal of each plait；

The first ring end is formed on the first plait；And

The second ring end, the second ring end and the first ring end on the first plait are formed on the second plait Interlocking.

Substantially as discussed above method include the steps that adjusting if necessary between the first ring and the second ring apart from, with Corresponding to the maximum transversal distance between plait when box lunch is tensioned.

Method substantially as discussed above, wherein at least one of step is completed by machine.

Detailed description of the invention

Each aspect of the present invention only by way of example and the following description that is given with reference to the accompanying drawings will be apparent, In:

Fig. 1 shows the edge processing of one embodiment according to prior art；

Fig. 2 shows the processing of the edge of another embodiment according to prior art；

Fig. 3 shows the edge processing of another embodiment according to prior art；

Fig. 4 shows the view of a part of the net including processing according to a preferred embodiment of the present invention；

Fig. 5 shows another view of edge processing shown in Fig. 4；

Fig. 6 shows the initial configuration in the processing being used to form in embodiment shown in Fig. 4；

Fig. 7 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Fig. 8 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Fig. 9 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Figure 10 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Figure 11 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Figure 12 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Figure 13 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Figure 14 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；

Figure 15 shows the step in the method for the processing being used to form in embodiment shown in earlier drawings；And

Figure 16 shows the component of the machine for completing edge processing.

Specific embodiment

Arrow is usually used in edge processing according to the preferred embodiment of the invention for argyle design wire mesh in Fig. 4 1 instruction.Net using argyle design (its as argyle design parallel edges spacer portion) formed.Netcom, which is crossed, makes pairs of adjacent friendship Knit line (2-6) staggeredly and is formed, wherein each plait be bend at a prescribed interval zigzag configure wire it is elongated The form of twisted wire (for example, see the adjacent edge (intertexture portion tip length) 7 and 8 of plait 3).

Edge processing include two interconnection rings, usually the left side of Fig. 4 with arrow 9 and 10 instruction, wherein the first ring 9 from First plait 2 is formed and the second ring 10 is formed from the second plait 3 (it is adjacent with plait 2).First ring 9 and the second ring 10 are interlocked in together at the crosspoint 11 of the first plait 2 and the second plait 3.

It is real that interlocking ring 9 and ring 10 form respective ring end 60,61 by the end of bending plait 2,3 It is existing, respective ring end 60,61 be interconnected in together so as to by the first ring 9 and the second ring 10 near crosspoint 11 it is effectively tight Tightly it is interlocked.The arrangement, which prevents the ring 9 of interconnection and ring 10 from moving far from crosspoint, (prevents ring from being locked relative to them Fixed crosspoint transverse movement).Specifically, which can prevent or at least minimize appointing for net week side (network edge of processing) What shortens, and thus overcomes the problems, such as that at least some prior art processing have.

But those skilled in the art will be understood that presence can be in other sides of intersection lock into place in wherein ring Formula, including be not limited to and depend on for shape wire into the net type, with other metal wire, rope or the like by it Weld, be brazed, brazing and bonding it is in place.

As shown in Figure 4, ring 9 and actually each ring, in the plane for being orthogonal to network plane.Thus, for example, such as Fruit net laying is set on flat horizontal surface, then network plane is horizontal plane.In the orientation process, the plane (limit of each ring It is set to the ring-containing plane of packet) it is vertical plane.

In addition, ring 9 and ring 10 are formed and are interlocked, so that the orientation (dotted line 12 of such as ring 9 of the longitudinal axis of ring It is shown) it is substantially parallel with the longitudinal axis on side 8 of plait 3.There are similar arrangements for ring 10.With such side Formula can keep the symmetry generally of net by processing.It in other words, can adjacent to the shape and size of the plait of interconnected ring It is substantially identical as the shape and size of the remainder of net.As can be seen in Fig. 4, the end of each plait tail portion End is not only twisted together, but also the plait tail portion 13 and 14 of plait 2 and plait 3 shape in ring 9 and ring 10 respectively At the ring end 60,61 of interconnection.The arrangement can reduce or eliminate the appearance by damaging caused by contact plait tail portion, from And dramatically increase the safety to operation network edge processing.

Another pair ring 15 and 16 is also shown in Fig. 4, is formed by the staggered plait 4 of adjacent pair and plait 5, wherein Plait 4 also interlocks with plait 3.In this arrangement, ring 15 and ring 10 interconnect.When edge processed and applied is in whole plaits When end, the result is that a series of rings are linked along perimeter, wherein adjacent each pair of ring is locked to shape plait into the net Crosspoint.It is turned up in ring by the plait tail portion of each plait, the result is that along a series of smooth surfaces of network edge.

As can be seen in Fig. 5, when checking from side, the edge processing for the net being tensioned is flat when being arranged to Comprising the substantially straight channel 30 by ring when smooth, wire or cable or other types of supporting member can pass through institute State channel 30.This can be completed in the following manner, and the ring of support member support edge processing comes without applying any power so that ring Arrangement deformation (distorting or shorten adjacent the distance between ring).Supporting member can be used to (protect to edge offer shape Hold its straight perhaps forming curves) and provide and net is attached to support portion (such as column or frame) and by other objects The method of (such as flotation gear) attachment on the net.

Fig. 6 shows the initial configuration of the plait before forming edge processing.

The method for forming edge processing will be described with reference to plait 6, (processed by edge on side with plait 5 Cross) and ring 16 interlock, and interlock on another side with plait 17.

There is the first flanging (zig side) 18 and the second adjacent crimp (zag in the diamond shape of the net of edge Side) (the two is by same friendship for 19 (the two is formed by same plait 17) and third flanging 20 and the 4th adjacent crimp 21 Knit the formation of line 6).

First plait tail portion 22 extends from the second crimp 19 and terminates at the cut-off place of plait 17.Second hands over Line tail portion 23 is knitted to extend from the 4th crimp 21 and terminate at the cut-off place of plait 6.

The first step of method is related to the crimp 19 of the first plait 17 to returning the flanging 18 for bending to plait 17 Over top；The completion of the step is shown in FIG. 7.

The second step of method is related to relative to crimp 19 partly aligning the first plait tail portion 22；Show in fig. 8 The completion of the step out.

The third step of method is related to for being bent further around flanging 20 the plait tail portion 22 of part aligning, until It is located at the lower section of flanging 20；The completion of the step is shown in FIG. 9.

The four steps of method is related to reversing the first plait tail portion 22, until it has orientation identical with flanging 18 To form the first ring 24；The completion of the step is shown in Figure 10.

5th step of method be related to by the crimp 21 of plait 6 to return bend to plait 6 flanging 20 lower section； The completion of the step is shown in Figure 11.

6th step of method is related to relative to crimp 21 partly aligning the second plait tail portion 23；Show in Figure 12 The completion of the step out.

7th step of method is related to for being bent further around flanging 18 the second plait tail portion 23 of part aligning, Until it is located at the top of flanging 18；The completion of the step is shown in Figure 13.

8th step of method is related to reversing the second plait tail portion 23 by the first ring 24 and in the first plait The top of tail portion 22, until it forms the second ring 25 with orientation identical with flanging 20；The step is shown in Figure 14 It completes.

9th step of method is related to reversing two plait tail portions simultaneously, to make 23 to meet with 21, and makes 22 meet with 19, and to form the first ring end 50 and the second ring end 51, the first ring end 50 and the second ring end 51 are by One ring and the interlocking of the second ring；The completion of the step is shown in Figure 15.

It is shown in FIG. 16 for completing the machine part of edge processing.Machine be used to adjust a pair of of interconnection locking ring it Between angle and interval, so as to net end pattern (side of the plait i.e. below the crosspoint of locking) be in be suitable for diamond shape Under the correct position of pattern net.This potentially contributes to ensure that the length at the processing edge netted is not shortened, or at least any contracting It is short to be minimized.

Machine includes two sections, and the first section usually with the instruction of arrow 26 is configured to that the twisted wire of net can be kept Adjacent edges and the second section in their correct argyle design are configured to usually with the instruction of arrow 27 by power It is applied on the outer edge of ring.First section includes a series of pieces of 28-31 in Figure 16, and plait is maintained at in-between Position.Block can be configured to can ensure that plait is kept securely with argyle design again.Second section includes moveable block 32, It has the slot (rebate) 33 on leading edge, and the slot is configured to receive the outer edge of the locking ring of interconnection.

Ring is exerted a force to and the block by the second section 27 of machine towards the first section moves.Initial motion forces The end of ring enters in the opposite side of slot 33, changes the angle between plane of a loop, can remove the friendship in pairs of plait Any residual gap at crunode.Further movement then can be dynamic towards net to pushing back by ring, thus against net so that edge Processing partly flattens smooth.The movement can lead to the plait at network edge be slightly detached from it is parallel with the axis of adjacent ring, And it is fastened on the bent wire of the intersection formation locking mechanism of plait.

In whole applications, patent and the disclosed complete disclosure (if any) quoted above and below by drawing With being incorporated herein.

It is not to the reference of any prior art in this specification and should not be considered as the prior art in the world On it is any country in endeavour in field formed common knowledge a part any form for recognizing or implying.

The present invention can also be by broadly at part, element or the spy to refer to or indicate in the description of the present application Sign is constituted, and individually or is totally made of two or more any or whole combinations of the part, element and feature.

In the foregoing description in the case where the component by reference to entirety or with its known equivalents, those entirety are by simultaneously Enter herein, as by illustrating respectively.

It should be noted that the variations and modifications for presently preferred embodiments described herein in the art Those of will be apparent for technical staff.It is not departing from the spirit and scope of the present invention and is not reducing its adjoint advantage In the case of can make such change and modification.Thus, it is intended that such change and modification are included in the present invention.

Each aspect of the present invention has only been described by way of example and it is to be understood that appended not departing from Scope of the claims in the case where can it be modified and be added.

Claims (37)

1. a kind of edge processing, suitable for the net formed and making adjacent wire plait interlock, each plait is with Z-shaped The mode of shape is formed；

Edge processing includes the rings of two interconnection, wherein the first ring by from the first plait of adjacent plait be bent its One plait tail portion is formed, thus another part of adjacent first plait of the first end of the first plait；And second ring it is logical It crosses and is bent its second plait tail portion from the second plait of adjacent plait and is formed, so that the second end of the second plait is adjacent Connect another part of the second plait；

It is characterized in that the first ring and the second ring pass through the first ring end in the intersection of the first plait and the second plait It is interlocked in together in a manner of preventing the ring of interconnection from moving laterally relative to each other with the second ring end.

2. edge processing according to claim 1, it is characterised in that the first ring end of the first ring and the second ring and second Second ring end of ring all interlocks；And second first ring end of ring end and the first ring and the first ring all interlock.

3. edge according to claim 1 processing, it is characterised in that the longitudinal axis of each ring with formed by plait The longitudinal axis of the adjacent part of net pattern is parallel.

4. edge processing according to claim 1, it is characterised in that the plane of each ring is orthogonal to the plane of the net.

5. edge according to claim 1 processing, it is characterised in that adjacent to the net pattern of the plait of the ring of interconnection Shape and size are identical as the shape and size of net pattern of the remainder of plait.

6. edge processing according to claim 1, it is characterised in that the free end of each plait is located in the ring of ring Portion is simultaneously located in the plane of ring of the plait.

7. edge processing according to claim 1, it is characterised in that edge processed and applied is in multiple adjacent plaits.

8. edge according to claim 7 processing, it is characterised in that be flat and tension is applied when the screen cloth is set to When being added to adjacent plait, there is the straight channel formed by ring.

9. edge processing according to claim 8, it is characterised in that channel is configured to receive the wire or rope of support.

10. edge processing according to claim 7, it is characterised in that adjacent plait forms the net of argyle design.

11. edge according to claim 2 processing, it is characterised in that the longitudinal axis of each ring with formed by plait The longitudinal axis of the adjacent part of net pattern is parallel.

12. edge according to claim 2 processing, it is characterised in that adjacent to the net pattern of the plait of the ring of interconnection Shape and size are identical as the shape and size of net pattern of the remainder of plait.

13. edge according to claim 3 processing, it is characterised in that adjacent to the net pattern of the plait of the ring of interconnection Shape and size are identical as the shape and size of net pattern of the remainder of plait.

14. edge processing according to claim 2, it is characterised in that the free end of each plait is located in the ring of ring Portion is simultaneously located in the plane of ring of the plait.

15. edge processing according to claim 4, it is characterised in that the free end of each plait is located in the ring of ring Portion is simultaneously located in the plane of ring of the plait.

16. edge processing according to claim 8, it is characterised in that adjacent plait forms the net of argyle design.

17. edge processing according to claim 2, it is characterised in that edge processed and applied is in multiple adjacent plaits.

18. edge according to claim 17 processing, it is characterised in that be flat and tension when the screen cloth is set to When being applied to adjacent plait, there is the straight channel formed by ring.

19. edge processing according to claim 3, it is characterised in that edge processed and applied is in multiple adjacent plaits.

20. edge processing according to claim 19, it is characterised in that adjacent plait forms the net of argyle design.

21. edge processing according to claim 4, it is characterised in that edge processed and applied is in multiple adjacent plaits.

22. edge according to claim 21 processing, it is characterised in that be flat and tension when the screen cloth is set to When being applied to adjacent plait, there is the straight channel formed by ring.

23. edge processing according to claim 21, it is characterised in that adjacent plait forms the net of argyle design.

24. edge processing according to claim 5, it is characterised in that edge processed and applied is in multiple adjacent plaits.

25. edge processing according to claim 24, it is characterised in that adjacent plait forms the net of argyle design.

26. edge processing according to claim 6, it is characterised in that edge processed and applied is in multiple adjacent plaits.

27. edge according to claim 26 processing, it is characterised in that be flat and tension when the screen cloth is set to When being applied to adjacent plait, there is the straight channel formed by ring.

28. a kind of form the method for being suitable for the edge of net of the zigzag plait including multiple interleaved adjacents, edge is forming water chestnut It is formed at the terminal of the first and second adjacent plaits of shape pattern, method includes the following steps:

By the crimp of the first plait to return bend to first plait flanging over top；

By the first plait tail portion relative to the first plait bent edge part align；

Flanging by the first plait tail portion partly aligned further around the second plait is bent, until it is located at the The lower section of the flanging of two plaits；

The first plait tail portion is reversed, until it forms the first ring with orientation identical with the flanging of the first plait；

The crimp of second plait is bent to the lower section of the flanging of the second plait；

By the second plait tail portion relative to the second plait bent edge part align；

Flanging by the second plait tail portion partly aligned further around the second plait is bent, until it is located at folding The top on side；

The second plait tail portion is reversed by the first ring and in the top of the first plait tail portion, until it has and second The identical direction of the flanging of plait is to form the second ring；

Two plait tail portions are reversed simultaneously, so that the second plait tail portion and the crimp of the second plait meet, and are made First plait tail portion and the crimp of the first plait meet, to be formed the first ring and the second ring interlocking first ring end With the second ring end, wherein the first ring is formed by being bent the first plait tail portion of the first plait of adjacent plait, To another part of adjacent first plait of the first end of the first plait；And second ring by being bent adjacent intertexture Second plait tail portion of the second plait of line is formed, so that adjacent second plait of the second end of the second plait is another Part.

29. according to the method for claim 28, it is characterised in that the plane of the first ring is orthogonal to the plane of net.

30. according to the method for claim 29, it is characterised in that the plane of the second ring is orthogonal to the plane of net.

31. according to the method for claim 28, it is characterised in that including adjust ring interlocking outer end at first The step of the distance between ring and the second ring, so as to when being tensioned corresponding to the maximum transversal distance between plait.

32. according to the method for claim 28, it is characterised in that at least one of step is executed by machine.

33. according to the method for claim 29, it is characterised in that including adjust ring interlocking outer end at first The step of the distance between ring and the second ring, so as to when being tensioned corresponding to the maximum transversal distance between plait.

34. according to the method for claim 30, it is characterised in that including adjust ring interlocking outer end at first The step of the distance between ring and the second ring, so as to when being tensioned corresponding to the maximum transversal distance between plait.

35. according to the method for claim 29, it is characterised in that at least one of step is executed by machine.

36. according to the method for claim 30, it is characterised in that at least one of step is executed by machine.

37. according to the method for claim 31, it is characterised in that at least one of step is executed by machine.