CN1282804C - Net body, method and equipment for producing the same net body and cage using the same net - Google Patents

Abstract

This invention provides a net body, the manufacture method and production facility thereof, and the cage body using it. The manufacture method for the structure of the net body comprises the following steps of: weaving and erecting multiple mount wires between two opposite supporting cords which are separated at a proper interval space, and winding small rings shaped by overlapping the bending parts of the mount wires to each other to form small and big meshes which are parallel, vertical, or slope with an expected angle to each other. There are wires weaving through the small meshes, which are vertical or slope with an expected angle to the big meshes, mentioned above to construct a net body to be assembled as a cage body.

Description

The cage body of the manufacture method of dictyosome, this dictyosome and equipment and this dictyosome of use

Technical field

The cage body that the present invention relates to constitute that assembling is put in the river, the manufacture method of the dictyosome of the cage body of splendid attire rubble, this dictyosome and production equipment and this dictyosome assembling of use forms.

Background technology

Shown in Figure 27 (1), put in the river, be used for the cage body of splendid attire rubble, constitute by diamond mesh (perhaps tortoise plastron shape wire lath) 70.This diamond mesh 70 is interweaved by each bend 72 of chevron silk 71 and constitutes the identical mesh 73 of size, but can not be made of the mesh that varies in size.Form this dictyosome, need the sizable strength of cost, and the equipment that involves great expense must be arranged with the mesh that varies in size.Therefore, shown in Figure 27 (2), the cage body 74 that is made of diamond mesh (perhaps tortoise plastron shape wire lath) 70 can only the identical rubble 75 of splendid attire size, and exists when it is put in the river, because of the level and smooth easy problem of slip of its upper surface.

In addition, when this cage body 74 is mentioned, also exist, make mesh place stress concentrate and the problem of generation fracture because messenger wire tangles mesh.

Summary of the invention

The present invention carries out in view of the above problems, its purpose be to provide dictyosome with the mesh that varies in size, this dictyosome simple manufacturing method and production equipment thereof, upper surface is difficult for skidding and the messenger wire hook needn't tangle the cage body that mesh just can be sling it.

In order to finish above-mentioned problem, dictyosome of the present invention has following feature: be separated with between two opposed supporting-lines of appropriate intervals, many chevron silks have been set up in braiding, twist around the overlapped little ring that forms of each bend of this chevron silk, constitute fine mesh and large-mesh, this fine mesh is level, state vertical or that tilt with the angle of appointment with respect to large-mesh, in addition its feature also be included in described be vertical or the fine mesh with the angle heeling condition of appointment in have the wire rod parallel to pass with supporting-line.

As mentioned above, with the fine mesh of large-mesh on same horizontal plane, be formed on the large mesh position that interweaves, and form dictyosome by the mesh that these vary in size.

In addition, be vertical with respect to large-mesh or, convex to form the dictyosome of tortoise plastron apperance to the two sides of dictyosome with the skewed morphogenetic fine mesh of specified angle.

Also have, be vertically or the wire rod parallel that passes in the fine mesh with the specified angle heeling condition, in two large-mesh with supporting-line.

In addition, in order to finish above-mentioned problem, the manufacture method of dictyosome of the present invention has following feature: be separated with between two opposed supporting-lines of appropriate intervals, two chevron silks are set up in braiding, after the big ring of the overlapped formation of each bend and little ring of this chevron silk, twist around this little ring and form fine mesh and large-mesh, the bend of chevron silk of other that braiding between this large mesh bend and supporting-line is set up is overlapped, form after the other big ring and little ring, twist around this little ring and form fine mesh and large-mesh, in addition its feature also comprise with twist around rod insert in the little ring and with its twist around.

As mentioned above, the little ring of the overlapped formation of each bend of two chevron silks is twisted around fine mesh and large-mesh are staggered to form simultaneously.Next, the little ring of the overlapped formation of bend of the chevron silk of other that braiding between this large mesh bend and supporting-line is set up twist around, form fine mesh at each large mesh position that interweaves, repeat such operation successively, form fine mesh at each large mesh position that interweaves, carry out the production of dictyosome.

In addition, twist when the rod revolution is twisted around little ring making, the formation fine mesh, meanwhile large-mesh has also just formed.

In addition, in order to finish above-mentioned problem, the production equipment of dictyosome of the present invention has for producing the production equipment of above-mentioned dictyosome, it is characterized by:

Mounting table is arranged at the sliding panel of base station with being separated with appropriate intervals;

Finger plate is arranged at the both sides of base station;

Horizontal members of frame, cross-over connection between the top of finger plate 20, and can easy on and off motion;

Twist around rod,, be arranged at aforesaid horizontal members of frame with being separated with appropriate intervals with being sagging shape,

Wherein the distolateral setting in the front and back of aforesaid mounting table is provided with and has contact with pin with what the chevron silk tangled, and this has contact with pin and has at least a side pin to be free to slide.

Aforesaid mounting table is used for mounting chevron silk, make the distolateral thereafter bend that pin tangles first chevron silk that has contact with, make the bend that pin tangles second chevron silk that has contact with of its front simultaneously, each bend is overlapped, is forming big ring on the mounting table, forms little ring between mounting table.Next, will be sagging shape and be arranged at twisting of horizontal members of frame and insert little ring and make its revolution around rod, this little ring is twisted around, while and is staggered to form fine mesh and large-mesh.Afterwards, what make the leading portion side has contact with pin to large mesh inner slide, large-mesh can be taken off from having contact with pin.

In addition, in order to finish above-mentioned problem, cage body of the present invention has following feature: be separated with between two opposed supporting-lines of appropriate intervals, many chevron silks have been set up in braiding, twist around the overlapped little ring that forms of each bend of this chevron silk, constitute fine mesh and large-mesh, this fine mesh is level with respect to large-mesh, vertical or form dictyosome with the state that the angle of appointment tilts, this dictyosome is assembled into the case shape, make it to become the cage body, in addition its feature also be included in described be vertical or the fine mesh with the angle heeling condition of appointment in have the wire rod parallel to pass with supporting-line.

As mentioned above, be vertical or protrude from the upper surface of cage body, become the projection of anti-skidding usefulness with the skewed morphogenetic fine mesh of specified angle with respect to large-mesh.In addition, the fine mesh of upper surface that protrudes from the cage body can be bitten the cage body of upper strata or lower floor when the cage body stacks, become the projection of the dislocation usefulness that prevents between the cage body.Moreover, can prevent the rubble displacement to the fine mesh of the inner bulge of cage body.

In addition, when the cage body was sling, messenger wire tangled the wire rod parallel with supporting-line that passes fine mesh, the stress that concentrates on the mesh place evenly can be disperseed.

In addition, in order to finish above-mentioned problem, cage body of the present invention has following feature: be separated with between two opposed supporting-lines of appropriate intervals, many chevron silks have been set up in braiding, twist around the overlapped little ring that forms of each bend of this chevron silk, constitute fine mesh and large-mesh, this fine mesh is level with respect to large-mesh, vertical or form dictyosome with the state that the angle of appointment tilts, along the direction vertical this dictyosome is converted into cylindrical shell with the position that interweaves of fine mesh at large-mesh with supporting-line, form two sides of this cylindrical shell again with other dictyosome, make it to become the cage body, its feature also be included in described be vertical or the fine mesh with the angle heeling condition of appointment in have the wire rod parallel to pass with supporting-line.

As mentioned above, the side of the cylindrical shell that the dictyosome bending is formed along the direction vertical with supporting-line at the position that interweaves of large-mesh and fine mesh in opened condition.Like this, this cylindrical shell is put when the river, be open shape two sides by the side of other cylindrical shell (face that bending forms) sealing, form the cage body that four limits all are closed.

In addition, the wire rod parallel with supporting-line that passes fine mesh is divided into two parts with large-mesh, forms the cage body with the mesh that varies in size.

Description of drawings

Fig. 1 is the stereogram of the dictyosome of first embodiment of the present invention.

Fig. 2 is the stereogram of the dictyosome of second embodiment of the present invention.

Fig. 3 is the stereogram of the dictyosome of the 3rd embodiment of the present invention.

Fig. 4 is the stereogram of the dictyosome of the 4th embodiment of the present invention.

Fig. 5 is the front view of the production equipment of dictyosome.

Fig. 6 is the vertical view of mounting table.

Fig. 7 is the lateral view of mounting table.

Fig. 8 (1) is the vertical view that is equipped with the mounting table of chevron silk.

Fig. 8 (2) is the stereogram of Fig. 8 (1).

Fig. 9 (1) is the lateral view of mounting table that is positioned at the both ends place of sliding panel.

Fig. 9 (2) is the vertical view of Fig. 9 (1).

Figure 10 be dictyosome production equipment want portion's expanded view.

Figure 11 (1) is the vertical view that is equipped with the mounting table of chevron silk.

Figure 11 (2) is the lateral view of twisting the mounting table when rod turns round.

Figure 12 (1) is the vertical view that is formed with the twine of large-mesh and fine mesh.

Figure 12 (2) is the vertical view that has contact with the mounting table after pin is shifted of front.

Figure 13 (1) moves to the front view of twisting the mounting table under rod.

Figure 13 (2) is that hook is in the vertical view of fine mesh with the twine that has contact with pin.

Figure 14 (1) is the overlapping vertical view that other chevron silk is arranged on twine.

Figure 14 (2) is the vertical view of the dictyosome of first embodiment.

Figure 15 (1) is the vertical view of the dictyosome of second embodiment.

Figure 15 (2) is Figure 15 (1) stereogram.

Figure 16 (1) is the vertical view of the twine of the vertical formation with large-mesh of fine mesh.

Figure 16 (2) is the vertical view that fine mesh is inserted into the twine in the jack of mounting table.

Figure 17 is the stereogram that fine mesh is inserted into the twine in the jack of mounting table.

Figure 18 represents the cage body of first embodiment, and (1) is stereogram, and (2) are vertical views.

Figure 19 represents the cage body of second embodiment, and (1) is stereogram, and (2) are vertical views, and (3) are the A-A face sectional drawings of figure (2), and (4) are the B-B face sectional drawings of figure (2).

Figure 20 (1) is the stereogram of the cage body of stacked second embodiment.

Figure 20 (2) is the sectional drawing of Figure 20 (1).

Figure 21 (1) is the stereogram of the cage body of stacked the 3rd embodiment.

Figure 21 (2) is the sectional drawing of Figure 21 (1).

Figure 22 (1) is the stereogram of assemble method of the cage body of expression the 3rd embodiment.

Figure 22 (2) is the sectional drawing of Figure 22 (1).

Figure 23 represents the cage body of the 4th embodiment, and (1) is stereogram, and (2) are vertical views, and (3) are the C-C face sectional drawings of figure (2), and (4) are the D-D face sectional drawings of figure (2).

Figure 24 is the stereogram of assemble method of the cage body of expression the 5th embodiment.

Figure 25 represents the assemble method of the cage body of the 5th embodiment, and (1) is the vertical view of dictyosome, and (2) are sectional drawings.

Figure 26 represents the method for putting of the cage body of the 4th embodiment, and (1) is the stereogram of the cage body of tiling, and (2) are the vertical views that method is put in expression.

Figure 27 is the example of existing dictyosome, cage body, and (1) is the vertical view of dictyosome, and (2) are the stereograms of cage body.

The specific embodiment

Below, based on accompanying drawing, the manufacture method of dictyosome of the present invention, dictyosome, the production equipment of dictyosome and the specific embodiment of cage body are elaborated.The embodiment of dictyosome at first is described, the method that next illustrates the production equipment of dictyosome and uses this device fabrication dictyosome, the embodiment of the cage body of above-mentioned dictyosome is used in explanation at last.In each embodiment, identical structure is used the prosign explanation, and different structures is given different symbols and described.

Fig. 1 represents the dictyosome 1 of first embodiment.As shown in the figure, this dictyosome 1 is a tortoise plastron shape wire lath, sets up many chevron silks 3 by braiding between two opposed supporting-lines 2 and forms.The two ends of these chevron silks 3 are wound in supporting-line 2, and each is interleaved adjacent bend 4 and forms large-mesh 5, is formed with the fine mesh 7 of rhombus at the portion that interweaves 6 places of this large-mesh 5.

This fine mesh 7 forms by the pair of curved portion 4 overlapped tetragonal rings that form of adjacent chevron silk 3 are twisted winding number, with large-mesh 5 identical being the level of state.In addition, in the large-mesh 5 of the two side ends that does not form fine mesh 7, there is side line 10 to pass.

In the dictyosome 1 that forms like this, the large mesh portion 6 that interweaves that forms fine mesh 7 has the effect of hinge, and therefore, this dictyosome can bend on the direction vertical with supporting-line 2.

Fig. 2 represents the dictyosome 11 of second embodiment.As shown in the figure, the fine mesh 7 of this dictyosome 11 links to each other for bigger rhombus and with adjacent fine mesh 7 large-mesh 5 is divided into two, and in addition, the structure of the dictyosome 1 among this dictyosome and Fig. 1 is identical.

Fig. 3 represents the dictyosome 12 of the 3rd embodiment.As shown in the figure, the fine mesh 7 of this dictyosome 12 is vertical with respect to large-mesh 5 or heeling condition (inclined degree is benchmark for the wire rod that the back will be illustrated passes), and like this, the two sides of bend 8 is convex, in addition, the structure of the dictyosome 1 among this dictyosome and Fig. 1 is identical.The random conversion of the height of projection of bend 8 can be answered in the angle of inclination of this fine mesh 7.For example, under the lower situation of height of projection, can make the angle of inclination, on the contrary, under the height of projection condition with higher, can make the angle of inclination be vertical or subvertical state near level.

Fig. 4 represents the dictyosome 13 of the 4th embodiment.As shown in the figure, in this dictyosome 13, have the wire rod 14 parallel with supporting-line 2 to pass in fine mesh 7, restraint in side line 10 at its two ends, and in addition, the structure of the dictyosome 1 among this dictyosome and Fig. 1 is identical.So wire rod 14 is passed fine mesh 7 can be divided into large-mesh 5 two less meshes 15.

Above-mentioned dictyosome 1,11,12 and 13 is made by production equipment shown in Figure 5 16.As shown in the figure, the production equipment 16 of this dictyosome is by constituting as the lower part: mounting table 19, finger plate 20, horizontal members of frame 21 and stubborn around rod 22, wherein said mounting table 19 is arranged at the sliding panel 18 of base station 17 with being separated by appropriate intervals, described finger plate 20 is arranged at the both sides of base station 17 opposed to each other, described horizontal members of frame 21 cross-over connections are between the top of finger plate 20, and can move by easy on and off, described twisting around rod 22, is arranged at horizontal members of frame 21 with whenever being separated by appropriate intervals with being sagging shape.

As Figure 6 and Figure 7, by means of the linear bearings parts 25 that constitute by rail plate 23 and slide-and-guide parts 24, sliding panel 18 is set in the length range of base station 17, the cylinder 26 that is connected in one of this sliding panel 18 end enables to slide.On this sliding panel 18, be provided with a support 27 every proper spacing, be fixed in this top board 28 above support 27 and constitute mounting table 19.Like this, be separated by on sliding panel 18 is provided with a plurality of mounting tables 19 very closely-spacedly, and cylinder 26 can make it in horizontal slip.

In addition, the front and back on the top board 28 of mounting table 19 are distolateral, erect respectively to be provided with and have contact with pin 29,30, and the pin 29 that has contact with of front is arranged on the anterior of cylinder 26 and can slides along slotted hole 31.Like this, as shown in Figure 8, what make that the bend 33 of first chevron silk 32 tangles rear end side has contact with pin 30, what make that the bend 35 of second chevron silk 34 tangles rear end side has contact with pin 29, this encircles 36 to bend 33,35 overlapped formation greatly on each mounting table 19, and forms little ring 37 between each mounting table 19.In addition, at the central part of top board 28, offer jack 39, fine mesh protrudes from top board 28 herein with having contact with pin 40.

Fig. 9 represents to be arranged at the mounting table 19 of both end sides, and the crank folder 41 of top board 28 is hold down gags that the end that is hung in the chevron silk 32,34 on the mounting table 19 is pushed down.Therefore, with lever 42 upwards (direction of arrow) mention, pressing plate 43 promptly can rotate to the direction of leaving top board 28, in contrast, lever 42 is rotated, pressing plate 43 is pressed towards top board 28, thereby the end of chevron silk 32,34 is pushed down.

The finger plate 20 that is arranged at the both sides of base station 17 is driven by CD-ROM drive motor 45, can be center steering (with reference to Fig. 5) with axle 46.In addition as shown in figure 10, by means of the linear bearings parts 25 that are made of rail plate 23 and slide-and-guide parts 24, horizontal members of frame 21 cross-over connections are between the top of finger plate 20.The slide-and-guide parts 24 of these linear bearings parts 25 link the binding parts 47 that link to each other with an end of horizontal members of frame 21, and the leading section of these binding parts 47 and the cylinder 26 that is arranged at finger plate 20 is connected.Therefore, this horizontal members of frame 21 both can have been driven by cylinder 26 and move up and down, and can be driven by finger plate 20 again and do gyration.

In addition, as shown in figure 10, will twist around rod 22 be separated by appropriate intervals ground, be arranged on the horizontal members of frame 21 with being sagging shape, and make its leading section between mounting table 38.Like this, this twist around rod 22 also can drive by cylinder 26 move up and down in, drive, be that gyration is done at the center by finger plate 20 with its leading section.And, twisted around rod 22 before chevron silk 32,34 tangles mounting table 19, be the lifting shape, and after chevron silk 32,34 tangles mounting table 19, be and fall shape and its leading section inserts little ring 37.

Below, use above-mentioned production equipment 16 to make the method for dictyosome based on Fig. 5 and Figure 11-17 explanation.At first as shown in Figure 5, upwards boost twist around rod 22 and with it from 38 extracting out between the mounting table.Secondly, shown in Figure 11 (1), first chevron silk 32 placed mounting table 19, and make that its bend 33 tangles rear end side have contact with pin 30.Then, second chevron silk 34 placed mounting table 19, and its bend 35 is tangled have contact with pin 29, like this, the big ring 36 of bend 33,35 overlapped formation is positioned on the mounting table 19, little ring 37 38 places between mounting table.Next, shown in Figure 11 (2), make horizontal members of frame 21 fall and make the leading section of twisting to insert little ring 37 around rod 22.Then, drive horizontal members of frame 21 revolutions by finger plate 20, twisting around rod 22 is that center steering is also twisted around little ring 37 with its leading section.Twist after 180 ° of rod 22 revolutions, cylinder 21 falls horizontal members of frame 21, and the leading section of twisting around rod 22 is extracted out from little ring 37, simultaneously, makes finger plate 20 reversed turnings and returns its initial position (upside).

Then, twist around rod 22, make its leading section insert little ring 37, simultaneously, make its revolution with method same as described above with method operation same as described above.Repeat such operation, little ring is twisted around 2-3 time, shown in Figure 12 (1), just can make large- mesh 5 and 7 whiles of fine mesh and be staggered to form and make netting twine 48.The stubborn method that large-mesh 5 and fine mesh 7 is formed around little ring 37 like this make the tension force of large-mesh 5 become big, thereby netting twine 48 can not take off from having contact with pin 29,30.At this moment, shown in Figure 12 (2), cylinder 29 makes pin 29 slips of having contact with of front make netting twine 48 to take off from having contact with pin 29,30 with this tension force that weakens large-mesh 5.In addition, except forming the method for large-meshes 5 and fine mesh 7 to twist around little ring 37, also can with clamping plate clamp little ring 37 and with its twist around.

Next, shown in Figure 13 (1), cylinder 26 promotes horizontal members of frame 21, will twist around rod 22 from 38 extractions between the mounting table.Then, the crank folder 41 on the mounting table 19 of loose ends portion, the netting twine 48 that will be formed with large-mesh 5 and fine mesh 7 takes off from having contact with pin 29,30, and simultaneously, cylinder 26 moves to mounting table 19 and twists under rod 22, that is forms the position of fine mesh 7.And, shown in Figure 13 (2), make fine mesh 7 tangle fine mesh with having contact with pin 40, make large-mesh 5 38 places between mounting table.

Below, cylinder 26 makes mounting table 19 move to its initial position, that is twists the position around rod 22 38 places between mounting table.Then, shown in Figure 14 (1), the 3rd chevron silk 49 placed mounting table 19, and make that its bend 50 tangles front have contact with pin 29, the bend of large mesh bend 51 and chevron silk 50 overlapped and between mounting table 38 places form little ring 37.And this little ring 37 forms to twist around fine mesh 7 with aforementioned same method.Repeat such operation successively, the dictyosome 1 shown in Figure 14 (2) is formed.This dictyosome 1 is the dictyosome that is formed with fine mesh 7 at the portion that interweaves 6 places of large-mesh 5, has the mesh 5 and 7 that varies in size.

Figure 15 shows that the dictyosome of fine mesh 7 perpendicular to large-mesh 5, that is, the dictyosome 12 among Fig. 3.This dictyosome 12 with above-mentioned method manufacturing much at one.Figure 16 represents its manufacture method, shown in Figure 16 (1), make twist around the revolution amount of rod 22 more than or be less than above-mentioned revolution amount, form vertical fine mesh 7.Then, shown in Figure 16 (2),, vertical fine mesh 7 is inserted jacks 39 will place mounting table 19 from having contact with the netting twine 48 that pin 29,30 takes off with above-mentioned same method.Identical with Figure 14, the 3rd chevron silk 49 placed mounting table 19, form big ring 36 and little ring 37, twist around this little ring 37 and make it to form and the perpendicular fine mesh 7 (not shown) of the large-mesh 5 of level.Repeat such operation successively, shop drawings 3 or dictyosome 12 shown in Figure 15.

Figure 18 represents the cage body 52 of first embodiment.This cage body 52 is that dictyosome shown in Figure 11 is assembled into cuboid, and with helix 53 its harness is formed, and has a mesh 5 and 7 that varies in size.

Figure 19 represents the cage body 54 of second embodiment.This cage body 54 is that dictyosome shown in Figure 3 12 is assembled into cuboid, and with helix 53 its harness is formed, and the bend 8 of its fine mesh protrudes from its surface or inner surface.

As shown in figure 20, this cage body 54 is being stacked and is putting in the river etc. when locating, the bend that protrudes from its upper surface 8 of its upper strata cage body 55 becomes the projection of anti-skidding usefulness, and the bend that protrudes from its upper and lower surface 8 of stage casing cage body 56 is bitten upper and lower section cage body 55,57 and become the projection of the usefulness that prevents to misplace.

As shown in figure 21, when the part of the loam cake of the spacer screen of upper strata cage body and its lower floor's cage body is overlapping, because at loam cake 58,59 places of lower floor's cage body 56,57, bend 8 is bitten the spacer screen of upper strata cage body, therefore, needn't use helix 53 again with loam cake 58,59 and spacer screen harness.

Figure 22 represents the cage body 60 of the 3rd embodiment.This cage body 60 is made by the dictyosome among Fig. 3 12, is specially, and as shown in the figure, makes have a hinge effect large mesh interweave portion 6 along the direction bending vertical with supporting-line 2, forms square tube 61, again at the identical dictyosome 12 of this two side package assemblies.Can bend owing to form the large mesh portion 6 that interweaves of fine mesh 7, can form cage body 60 by simple assembling.

Figure 23 represents the cage body 62 of the 4th embodiment.This cage body 62 is made by the dictyosome among Fig. 4 13, owing to can hang the messenger wire hook of using when slinging on the wire rod 14 of its side, can be scatter equably so concentrate on the stress at its large-mesh 5 places.Because this cage body 62 is formed with large and small different mesh, can the large and small rubble of while splendid attire.In addition, wire rod 14 can pass all fine meshes 7, but passes or only pass the fine mesh 7 (not shown) of both end sides every a fine mesh.

Figure 24 represents the cage body 63 of the 5th embodiment.This cage body 63 and Figure 22 similarly make have a hinge effect large mesh interweave portion 6 along the direction bending vertical with supporting-line 2, form square tube 61, and two sides that again will this tube use the identical dictyosome of structure 13 to seal.In this case, shown in Figure 25 (1), because the kink 64 of wire rod 14 plays hinged effect, dictyosome can bend simply.Stack this cage body 63 like that according to Figure 20 or 21 in addition, can obtain same effect.

Figure 26 is the cylindrical shell that 13 bendings of the dictyosome among Fig. 4 are formed, that is, two sides are the cylindrical shell 61 of opening shape, the cage body 65 that tiling is formed by connecting.Aforesaid cylindrical shell 61 is put when the river, be open shape two sides by the side 66 of other cylindrical shell 61 (face that bending forms) sealing, this side 66 becomes the side of aforesaid cylindrical shell 61, thereby can form the cage body 65 that four limits all are closed.So only just can form flush system cage body 65 simply by a kind of cylindrical shell 61.

The present invention can provide the dictyosome with large and small different meshes,, is formed with the dictyosome of fine mesh in the large mesh portion of interweaving that is.

In addition, the present invention can provide to make simply has large and small different mesh,, is formed with the method and the production equipment of the dictyosome of fine mesh in the large mesh portion of interweaving that is.

In addition, the present invention can also provide upper surface to be difficult for skidding, and slings and needn't hang over the cage body that just it can be sling on the mesh with messenger wire hook.

Claims (7)

1. dictyosome, it is characterized by: be separated with between two opposed supporting-lines of appropriate intervals, many chevron silks have been set up in braiding, twist around the overlapped little ring that forms of each bend of this chevron silk, constitute fine mesh and large-mesh, this fine mesh is level, state vertical or that tilt with the angle of appointment with respect to large-mesh.

2. dictyosome as claimed in claim 1 is characterized by: described be vertical or fine mesh with the angle heeling condition of appointment in have the wire rod parallel to pass with supporting-line.

3. the manufacture method of a dictyosome, it is characterized by: be separated with between two opposed supporting-lines of appropriate intervals, two chevron silks are set up in braiding, after the big ring of the overlapped formation of each bend and little ring of this chevron silk, twist around this little ring and form fine mesh and large-mesh, the bend overlaid of chevron silk of other that braiding between this large mesh bend and supporting-line is set up forms after the other big ring and little ring, twists around this little ring formation fine mesh and large-mesh.

4. the manufacture method of dictyosome as claimed in claim 3 is characterized by: twist around rod insert in the little ring it is twisted around.

5. production equipment of making the described dictyosome of claim 1 is characterized by and has:

Mounting table is arranged at the sliding panel of base station with being separated with appropriate intervals;

Finger plate is arranged at the both sides of base station;

Horizontal members of frame, cross-over connection between the top of finger plate (20), and can easy on and off motion;

Twist around rod,, be arranged at aforesaid horizontal members of frame with being separated with appropriate intervals with being sagging shape,

Wherein the distolateral setting in the front and back of aforesaid mounting table is provided with and has contact with pin with what the chevron silk tangled, and this has contact with pin and has at least a side pin to be free to slide.

6. cage body is characterized by: form by claim 1 or 2 described dictyosomes are assembled into the case shape.

7. cage body is characterized by: claim 1 or 2 described dictyosomes at the position that its large-mesh and fine mesh interweave, are bent to form cylindrical shell along the direction vertical with its supporting-line, form two sides of this cylindrical shell again with other dictyosome.

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