CN1425820A - Air jet nozzle, drying machine, guide device thereof and method for dry fabric - Google Patents

Abstract

The present invention provides improved designs for an air nozzles for a fabric drying machine, improved fabric drying machines and methods of use thereof.

Description

The method of air nozzle, dry machine, used guiding device and dry fabric

Technical field

The present invention relates to handle fabric, special, not only relate to the processing textile fabric.

Background technology

Common textile fabric (cloth) dry technology comprises substantially supports that a fabric is distributed on the transmission net, and this cloth is reached between the following nozzle on one, the nozzle ejection warm air, and this causes the liquid evaporation in the fabric cloth.Yet, descend the air flow of nozzle ejection that the local sections of one of fabric cloth is risen certainly, and this local sections of fabric often stumbles between above-listed adjacent nozzle.Though fabric stumbles in herein, fabric is still constantly presented and is entered in the dry machine, and can clog.

And, in common dry run, from the air of each nozzle ejection be can linear distribution on the whole width of nozzle.So, Yi Bian fabric cloth from moving to another side (substantially perpendicular to direction of travel), causes cloth to tangle and uneven drying is even.

And, owing to the impulsive force (comparing) of air that nozzle sprays under the existence of transmission net reduces between nozzle and fabric cloth down, so common dry technology often presents inhomogeneous drying effect with the air that top nozzle is sprayed.

Summary of the invention

The purpose of the preferred embodiments of the present invention is to provide a kind of improving one's methods and installing of fabric of handling.

According to first aspect, the invention provides the air nozzle that a kind of fabric drying machine is used, have a fin in the one outlet, the fin arrangement is in order in use to change the direction that air flows through outlet.

Fin is suitable for being arranged to one of nozzle adjacent wall at angle.Fin is suitable for arranging to wall after the nozzle at angle.Fin is suitable for being arranged to air from the normal direction (when not existing as fin) of nozzle outflow at angle.

Fin is suitable for being arranged in guiding air angle one of in required direction.When dry machine in use the time, fin should be arranged in order to the guiding air roughly on fabric cloth is divided a word with a hyphen at the end of a line direction by this machine.Fin is suitable for being at least 10 ° to the angle of this adjacent rear wall inclination of nozzle, should be at least 12 °, and should be at least 16 °.Fin is suitable for less than 30 ° this adjacent rear wall angle of inclination of nozzle, should be less than 25 °, and the most suitable less than 20 °.Fin should be about 18 ° in the angle of inclination.

Nozzle can comprise a plurality of fins.The extensible only part of crossing air outlet slit of fin.Fin should extend the roughly whole width that crosses air outlet slit.

Fin can be provided by any device that is suitable for making in use the air flow deflection of leaving nozzle.For example, fin can be provided by a flange that stretches out from one of air outlet slit edge.Flange can be provided by the extension of one of nozzle wall.Or and, flange can comprise a separate elements that is loaded on the nozzle.Flange can be planar shaped.Flange can have one or more protuberances and be approximately perpendicular to its surface and extend in the air outlet slit, leaves outlet with further guiding air flow.

Fin can comprise the strip sheet with groove structure.Strip sheet is suitable for extending the whole width that crosses outlet.The groove strip sheet can be subjected to prop up and be held on the flange.The groove strip sheet can have any suitable transverse shape.Groove should have rectangle or square cross-section shape.

When being used for dry machine, in the air outlet slit that is present in nozzle of fin the guiding air fabric cloth divide a word with a hyphen at the end of a line by the direction of machine in mass flowing nozzle, thereby and impel fabric cloth to keep contacting, thereby and encourage fabric cloth to divide a word with a hyphen at the end of a line by this machine with roughly identical speed with transmission net with the transmission net of supporting fabric cloth.So reduce the generation of stopping up in the dry machine.

According to second aspect, the invention provides a kind of dry machine, comprise row first air nozzle and row second air nozzle, wherein, the first row nozzle is relative with the secondary series nozzle to be arranged, in use, in the time of between a cloth material is by the first row air nozzle and secondary series air nozzle, this cloth material waviness is moved.

First air nozzle is suitable for being separated from each other.Second air nozzle is suitable for being separated from each other.This row first air nozzle is suitable for separating and relative arrangement with these row second air nozzle.First and second air nozzle is suitable for facing with the air outlet slit of first nozzle air outlet slit arrangement of second nozzle.

This row first nozzle this row second nozzle of should arranging directly not align.In other words, first nozzle departs from second nozzle.

In a preferred embodiment, this row first nozzle departs from half the distance that this row second nozzle is substantially equal to nozzle width.

When in use, this arrangement of first and second row nozzle in the dry machine causes fabric cloth by this machine and between this row first nozzle and this row second nozzle, divides a word with a hyphen at the end of a line by this machine in the waveform pathway.In when dry run, the waveform of fabric cloth moves the pulling force that helps reducing in the fabric.

And the space between adjacent first and second nozzle provides ventilation, when dry run in, evaporated liquid can be passed through this discharging.

According to the third aspect, the invention provides a kind of dry machine, comprise relatively and be separated from each other row first nozzle and row second nozzle of arrangement, the air outlet slit of first nozzle is in the face of the air outlet slit of second nozzle, and this row second nozzle is crossed in the extension of one first transmission net, and the air outlet slit of contiguous second nozzle, in when fabric cloth passes through dry machine, support this fabric cloth, reach a net extension and cross this row first nozzle, and the air outlet slit of contiguous first nozzle.

This net can be provided by any suitable material.This net is suitable for being arranged to and prevents that roughly fabric cloth from entering in the space between adjacent first air nozzle.This net can be provided by one second transmission net.

The dry machine of the third aspect can comprise a pulling force control device in addition, in order to adjust the pulling force in this net.Can use any suitable pulling force control device.The pulling force control device is suitable in order to a sections convergence that moves this net or from first transmission net far away, thereby and adjusts pulling force in this net.The pulling force control device is suitable for comprising a bar, and the whole width of this net is crossed in its extension, the removable convergence of this bar or from first transmission net far away.The pulling force control device can comprise actuating device, to carry out moving of this bar.Actuating device comprises an arm and extends to this bar from a control device, and wherein, arm mobile causes moving of this bar.

According to fourth aspect, the invention provides a kind of air nozzle of dry machine, comprise a cabinet, an air intake, and an air outlet slit, wherein, cabinet reduces gradually from air intake to the tank wall relative with air intake.

Nozzle is suitable for having roughly quadrangle cross section, has three pairs of relative walls.First pair of relative wall is suitable for roughly being parallel to each other.Second pair of relative wall is suitable for convergent contour.The first pair of wall respectively is suitable for being approximately perpendicular to each in second pair of wall, but is not orthogonal to second pair of wall another.The 3rd pair of wall is suitable for roughly being parallel to each other, but the height of first wall of the 3rd pair of wall is greater than second height of the 3rd pair of wall.

The first wall of the 3rd pair of wall is suitable for greater than 200mm, should be greater than 300mm, and should be about 360mm.Highly being suitable for less than 350mm of second wall of the 3rd pair of wall should be less than 250mm, and be the most suitable less than 200mm, and should be about 190mm.

Difference in height between first and second wall of the 3rd pair of wall is suitable for greater than 2%, should be greater than 10%, should be greater than 25%, and the most suitable greater than 40%.

Difference in height between first and second wall of the 3rd pair of wall is suitable for less than 75%, should be less than 60%, and the most suitable less than 50%.

In the use of dry machine nozzle, first pair of wall is suitable for providing before the nozzle and the back, and second pair of relative wall is suitable for providing the top and the bottom surface of nozzle, reaches the end wall that the 3rd pair of wall provides nozzle.

Because end wall is a differing heights, so nozzle has the taper of convergence, second limit that is provided of the three pairs of walls in the limit to that first provided of the 3rd pair of wall reduces gradually.

Top and diapire are suitable for restraining from rear wall to the antetheca of nozzle.

The air flow that the tapered profiles of nozzle slows down and comes at the air intake place, thus and be convenient to more even distribution air on the whole width of air outlet slit.

Air intake should place the sidewall of nozzle, and relative tank wall places another side-walls of nozzle.Air intake is suitable for extending the roughly whole height that crosses nozzle.Air intake is suitable for extending the roughly entire depth that crosses nozzle.Second of the 3rd pair of wall can roughly be provided by air intake.

Air outlet slit is suitable for being approximately perpendicular to air intake and extends.Air outlet slit is suitable for extending the whole width that crosses nozzle.Air outlet slit is suitable for being provided with along a junction between one of one of first pair of wall and second pair of wall.When arrangement and use, air outlet slit is suitable for being provided with along the rear wall of nozzle and the junction between diapire.

According to the 5th aspect, the invention provides a kind of dry machine, comprise one first nozzle and one second nozzle, nozzle respectively has an air intake and an air outlet slit, the two air intake of one public air source arrangement supply air to the first nozzle and second nozzle, and a guiding device flows between the air intake of the air intake of first nozzle and second nozzle in order to separate out air, wherein, guiding device comprises in the air flow that a main body extends into between the air intake of the air intake of first nozzle and second nozzle.

Main body is suitable for having the essentially rectangular cross section, has a shaped form flange and simultaneously stretches out from it.

This face that the shaped form flange of main body is suitable for autonomous agent stretches out, and this is the air intake end of first and second air nozzle.The shaped form flange is suitable for gradually being decreased to a bit.In the air flow that this point of flange is suitable for extending into into.

The radius of curvature of the shaped form flange of guiding leaf is suitable for being at least 200mm, should be at least 250mm, and should be about 300mm.

Guiding device is suitable for extending the roughly whole width that crosses air intake.

Guiding device is suitable for that the air intake from each nozzle stretches out 200mm at least on the direction of the air intake that is approximately perpendicular to first and second nozzle, 300mm at least, and should be about 360mm.Guiding device puts in air distribution ratio between first and second nozzle of this distance affects in the air flow from first and second nozzle.

The shaped form profile increase of main body enters the ratio of the laminar air stream (lamina air flow) in first and second nozzle.And this flange separates the air flow of coming in more equably between first and second nozzle.

First nozzle is suitable for being arranged in the downstream part of second nozzle.Guiding device can comprise the party upstream that a guiding leaf places the air intake of second nozzle in addition.The guiding leaf is suitable for having square contour substantially, has the shaped form end face, and is parallel to this air intake.

According to the 6th aspect, the invention provides a kind of guiding device of dry machine, comprising a main body can flow between one first air intake and one second air intake in order to separate out air, and main body has square cross section substantially, has curved flange and simultaneously stretches out from it.

The shaped form flange should gradually be decreased to a bit.

According to the 7th aspect, the invention provides a kind of guiding leaf of dry machine, have square contour substantially, have a shaped form face and in use be arranged in the end, and be roughly parallel to the air intake of an air nozzle.

According to eight aspect, the invention provides a kind of method of dry fabric cloth, comprise and support that fabric is distributed on one first transmission net, by first transmission net between row first nozzle and row second nozzle, first nozzle and second nozzle are arranged relatively, from the air that nozzle outlet is sent make fabric be distributed in by nozzle between the time waviness move.

This method comprises first transmission net that moves away by a net restriction fabric cloth in addition.This net is suitable for arranging to be roughly parallel to first transmission net.

During this method can be included in when the dry run in addition, discharging was from the gas of fabric evaporation.Gas is suitable for discharging the space that is provided by between adjacent first nozzle and/or adjacent second nozzle.

The method of a sixth aspect of the present invention can comprise by public air source supply air to the first nozzle and second nozzle.Air supply is suitable for comprising that separate out air is between first nozzle and second nozzle.The program of separate out air is suitable for comprising by the guiding device separate out air in the air flow that extends into into and flows.

This method is suitable for comprising that even distribution air is on the air outlet slit of each nozzle.

Arbitrary characteristic of either side of the present invention can merge with any characteristic of any other aspect of the present invention.

Description of drawings

Now by example also with reference to the accompanying drawings, be described in more detail the present invention, in the accompanying drawings:

The summary sectional drawing that Fig. 1 is looked by one of self-desiccation device end;

Fig. 2 A is the summary cross-section side view along the line I-I of Fig. 1, and

Fig. 2 B is the summary side view, the nozzle of more detailed demonstration Fig. 2 A; And

Fig. 3 is the isometric drawing of the nozzle of Fig. 1 device, and part B amplifies demonstration.

DETAILED DESCRIPTION OF THE PREFERRED

Fig. 1 and 2 drying device 1 comprise one first a row nozzle 2 and a secondary series nozzle 4.In use, first nozzle 2 is suitable as top nozzle, and second nozzle 4 is fit to effect nozzle down.

In the embodiment shown, first and second nozzle 2,4 respectively has roughly the same shape and size.Each nozzle comprises an air intake 6 and an air outlet slit 8.As from Fig. 1 as seen, air outlet slit 8 roughly extends the whole width that crosses nozzle 2,4., indicate in order to the air flow of guiding along the fin 10 that separates mutually on the length of air outlet slit 8 by arrow C from nozzle 2,4 emissions.As seen as the easiest from Fig. 2, fin 10 is arranged to pass through machine in order to the guiding air flow on the moving direction of fabric cloth 12, and this moving direction is indicated by arrow D.

The arrangement of the fin 10 in the more detailed demonstration air outlet slit 8 of Fig. 3.In the present embodiment, Fig. 3 shows that fin 10 is provided by a strip sheet 34, has general rectangular (being roughly square in this example) corrugated profiles, forms passage 36, and air passes through wherein.Strip sheet 34 is to be suitable for guiding the angular arrangement of air on required direction.In this example, the strip sheet 34 arrangement longitudinal axis that makes passage 36 becomes 18 ° to the adjacent rear surface of nozzle.

As being shown in Fig. 1, the end 14 to nozzle 2,4 is decrescence little from air intake 6 for each nozzle 2,4.

The highly different institutes of this decrescence little end wall by nozzle 2,4 cause.The end wall at place, air intake 6 place has height 360mm, and relative end wall then has height 190mm.

Air outlet slit 8 reduces from air intake 6 to end 14 gradually apart from the distance of the relative side 16 of nozzle 2,4.

And the face 18 of the nozzle at place, air outlet slit 8 place is arranged to the adjacent surface of nozzle 2,4 is become greater than 45 ° and less than one of 180 ° angles.

As the most clearly visible from Fig. 2, this row first nozzle 2 is arranged to and departs from this row second nozzle 4.

In the present embodiment, first nozzle 2 departs from half the distance of width that second nozzle 4 equals about nozzle 2,4.This is more clearly visible from Fig. 2 B, and wherein, distance X 1 and X2 and in the present embodiment, should equal about 140mm about equally.

In every row nozzle 2,4, adjacent nozzle 2,4 is separated from each other, to provide a space between adjacent nozzle 2,4.

Drying device 1 comprises 20 extensions of one first transmission net, 20, the first transmission nets in addition and crosses this row second nozzle 4, and places the air outlet slit 10 of second nozzle 4 contiguous.Device 1 comprises 22 extensions of one second transmission net, 22, the second transmission nets in addition and crosses this row first nozzle 2, and places the air outlet slit 10 of first nozzle 2 contiguous.

Fig. 2 also shows that drying device 1 comprises a pulling force control device 24, and in the present embodiment, it comprises a bar 26 and extends the whole width that crosses second transmission net 22, and an arm 28 can be in order to laterally to move this bar 26, to change the pulling force of second transmission net 22.

Fig. 1 shows the layout of air feed in the air intake 6 of nozzle 2,4 of nozzle 2,4.In the embodiment shown, use a public air source (not shown), with supply air to the first nozzle 2 and second nozzle 4 the two.Air flow to air intake 6 from air source and is represented by arrow A.As from Fig. 1 as seen, the air of coming in is divided between first and second nozzle 2,4.Drying device 1 comprises an air separate pieces 30, and this air separate pieces places between first and second nozzle 2,4, with separate out air between first and second nozzle 2,4.

Air separate pieces 30 has the general square shape profile, has a shaped form flange 38 and stretches out from the surface of the separate pieces 30 of air intake 6 ends.Air separate pieces 30 is extended the whole width that crosses air intake 6.The radius of curvature R of shaped form flange is 300mm.Flange 38 gradually be decreased to air separate pieces 30 main body the end more.Air separate pieces 30 is arranged in the device 1, the air flow of the tip surface of this shaped form flange 38 to coming in.The shaped form profile increase laminar air stream of air separate pieces 30 enters the ratio in the nozzle 2,4.

Air separate pieces 30 is approximately perpendicular to air intake 6 and extends a distance X.In the present embodiment, distance X is 360mm.

Device 1 also comprises a guiding leaf 32, and this guiding leaf 32 is placed under the air intake 6 of second nozzle 4 just.The guiding leaf has square contour substantially, has the shaped form profile in the end, and is parallel to air intake 6.

In the use of Fig. 1-3 shown device, fabric cloth 12 is supported on first transmission net 20.The rotation of transmission net 20 causes fabric cloth 12 to be fed by installing 1.Air is fed to first and second nozzle 2,4 from the air source (not shown), and this air is substantially on the temperature that raises.Air is separated by air separate pieces 30, thereby and roughly is uniformly distributed between first and second nozzle 2,4.

The decrescence little shaped form flange 38 of air separate pieces 30 can flow in the air intake 6 air smoothly.And guiding leaf 32 also with so that air flows in the air intake 6 of second nozzle 4 smoothly, reduces at inlet 6 places and forms vortex to minimum level.

The convenient more even distribution air of the decrescence low profile of nozzle 2,4 crosses the whole width of nozzle 2,4, thereby and reduces fabric cloth 12 and laterally moving (shown in the arrow E among Fig. 1) in when the drying device 1.

Fin 10 guiding of bending moves through on the direction of machine 1 in fabric cloth 12 from the air flow of nozzle 2,4, thereby towards first transmission net, 20 guiding fabrics, and encourage fabric cloth to move through machine 1 with the roughly the same speed of first transmission net 20.

Departing from of this row first nozzle 2 and this row second nozzle 4 arranged to cause fabric cloth to move through machine 1 (as being shown in Fig. 2) in the waveform pathway.Fabric cloth this waveform in when dry run moves the pulling force that helps reducing in the fabric.

Air, the especially air on the temperature that raises are blowed causes liquid from wherein evaporation on fabric.Every ventilation is provided, the liquid of evaporation can escape into the exhaust outlet (not shown) through this between adjacent first nozzle and between 4 at adjacent second nozzle.

Second transmission net 22 provides a device, the crest that moves in order to the waveform of control fabric during by machine 1.Second transmission net 22 is restrained fabric cloth 12, and prevents in its space that enters 2 at adjacent first nozzle.The arm 28 of pulling force control device 24 is in order to carriage release lever 26 convergences or from first transmission net 20 far away, thereby and changes the pulling force of second transmission net 22.

Second transmission net 22 has additional advantage, makes first nozzle 2 and second nozzle 4 provide air (hot-fluid) with amount on fabric cloth 12, need pass through transmission net 20,22 because leave the two the air of outlet 8 of first and second nozzle 2,4.So, cause the drying of fabric cloth 12 more even.

Though the relevant air that uses of above-mentioned system comes dry fabric cloth, the personage who is skillful in this skill obviously knows can use any other suitable gas or admixture of gas, with replacement or as air.

Claims (79)

1. the air nozzle that the fabric drying machine is used has a fin in its outlet, and the fin arrangement is in order in use to change the direction of the air that flows through outlet.

2. air nozzle as claimed in claim 1 is characterized in that fin is arranged to one of nozzle wall at angle.

3. air nozzle as claimed in claim 2 is characterized in that, when nozzle in use the time, fin is arranged to wall after the nozzle at angle.

4. as claim 1,2 or 3 described air nozzles, it is characterized in that, in being used in the fabric drying machine, the fin arrangement in order to the guiding air roughly on fabric cloth is divided a word with a hyphen at the end of a line direction by this machine.

5. as claim 2,3 or 4 described air nozzles, it is characterized in that at least 10 ° of the angles that fin tilts to this wall of nozzle.

6. as claim 2,3,4 or 5 described air nozzles, it is characterized in that the angle that fin tilts to this wall of nozzle is less than 30 °.

7. as claim 2,3,4,5 or 6 described air nozzles, it is characterized in that about 18 ° of the angle that fin tilts to this wall of nozzle.

8. the described air nozzle of each claim as described above comprises a plurality of fins.

9. the described air nozzle of each claim as described above is characterized in that, one or more fins extend an only part of crossing air outlet slit.

10. as each described air nozzle of claim 1 to 9, it is characterized in that one or more fins extend the roughly whole width that crosses air outlet slit.

11. the described air nozzle of each claim is characterized in that as described above, fin comprises a flange that stretches out from one of air outlet slit edge.

12. air nozzle as claimed in claim 11 is characterized in that, flange is the extension of one of nozzle wall.

13. air nozzle as claimed in claim 11 is characterized in that, flange is for one of being loaded on the nozzle separate elements.

14., it is characterized in that flange comprises the strip sheet with groove structure as claim 11,12 or 13 described air nozzles.

15. air nozzle as claimed in claim 14 is characterized in that, groove has square or square cross-section.

16. a dry machine comprises row first air nozzle and row second air nozzle, wherein, the first row nozzle is relative with the secondary series nozzle to be arranged, in use, in the time of between a cloth material is by the first row air nozzle and secondary series air nozzle, this cloth material waviness is moved.

17. dry machine as claimed in claim 16 is characterized in that first air nozzle is separated from each other.

18., it is characterized in that second air nozzle is separated from each other as claim 16 or 17 described dry machines.

19., it is characterized in that this row first air nozzle separates and relative arrangement with this row second air nozzle as claim 16,17 or 18 described dry machines.

20., it is characterized in that first air nozzle and the second air nozzle arrangement are so that the air outlet slit of first nozzle is faced the air outlet slit of second nozzle as each described dry machine of claim 16 to 19.

21., it is characterized in that this row first nozzle departs from this row second nozzle as each described dry machine of claim 16 to 20.

22. dry machine as claimed in claim 21 is characterized in that, this row first nozzle departs from half the distance that this row second nozzle is substantially equal to the width of nozzle.

23. as each described dry machine of claim 16 to 22, it is characterized in that, in use, evaporated liquid can drain in adjacent first or adjacent second air nozzle between.

24. dry machine, comprise row first nozzle and row second nozzle, first row and secondary series nozzle are relatively and be separated from each other arrangement, the air outlet slit of first nozzle is in the face of the air outlet slit of second nozzle, and this row second nozzle is crossed in the extension of one first transmission net, the air outlet slit of contiguous second nozzle, in order to when a fabric cloth passes through dry machine, support this fabric cloth, reach a net extension and cross this row first nozzle, and the air outlet slit of contiguous first nozzle.

25. dry machine as claimed in claim 24 is characterized in that first nozzle is separated from each other.

26., it is characterized in that second nozzle is separated from each other as claim 24 or 25 described dry machines.

27., it is characterized in that this net is arranged in order to when in use as claim 24,25 or 26 described dry machines, prevent that fabric cloth from entering in the space between adjacent first air nozzle.

28., it is characterized in that this net comprises one second transmission net as each described dry machine of claim 24 to 27.

29., it is characterized in that other comprises a pulling force control device, in order to adjust the pulling force of this net as each described dry machine of claim 24 to 28.

30. dry machine as claimed in claim 29 is characterized in that, the pulling force control device can be in order to one of mobile this net sections convergence or from first transmission net far away.

31. as claim 29 or 30 described dry machines, it is characterized in that the pulling force control device comprises a bar, this net is crossed in this bar extension.

32. dry machine as claimed in claim 31 is characterized in that, this bar extends the whole width that roughly crosses this net.

33., it is characterized in that the pulling force control device comprises one and activates device as each described dry machine of claim 31 to 32.

34. dry machine as claimed in claim 33 is characterized in that, actuating device comprises an arm and extends to this bar from a control device, wherein, and the moving of the moving influence bar of arm.

35. the air nozzle of a dry machine comprises a cabinet, an air intake and an air outlet slit, and wherein, cabinet reduces gradually from air intake to a cabinet wall relative with air intake.

36. air nozzle as claimed in claim 35 is characterized in that, nozzle has roughly quadrangle cross section, has three pairs of relative walls.

37. air nozzle as claimed in claim 36 is characterized in that, first pair of relative wall roughly is parallel to each other.

38., it is characterized in that second pair of wall is convergent contour as claim 36 or 37 described air nozzles.

39. as claim 36,37 or 38 described air nozzles, it is characterized in that, first pair of each roughly vertical second pair of wall that changes in first of wall, first pair of wall respectively is not orthogonal to second pair of wall of second.

40., it is characterized in that the 3rd pair of wall roughly is parallel to each other as each described air nozzle of claim 36 to 39, the height of first the 3rd pair of wall is greater than second the 3rd pair of wall height.

41., it is characterized in that in the use of nozzle, first pair of wall provides the before and after face of nozzle as each described air nozzle of claim 36 to 40.

42., it is characterized in that in the use of nozzle, second pair of wall provides the top and the bottom surface of nozzle as each described air nozzle of claim 36 to 41.

43., it is characterized in that in the use of nozzle, the 3rd pair of wall provides the end wall of nozzle as each described air nozzle of claim 36 to 42.

44. air nozzle as claimed in claim 43 is characterized in that, nozzle is the taper of convergence from the 3rd pair of wall of first the 3rd pair of wall to the second.

45., it is characterized in that top and diapire are restrained from rear end to the front end of nozzle of nozzle as claim 42,43 or 44 described air nozzles.

46., it is characterized in that air intake places a sidewall of nozzle as each described air nozzle of claim 35 to 45.

47. air nozzle as claimed in claim 46 is characterized in that, air intake extends the roughly whole height that crosses nozzle.

48., it is characterized in that air intake extends the roughly entire depth that crosses nozzle as claim 46 or 47 described air nozzles.

49., it is characterized in that second the 3rd pair of wall roughly provided by air intake as claim 46,47 or 48 described air nozzles.

50., it is characterized in that the air outlet slit extension is approximately perpendicular to air intake as each described air nozzle of claim 35 to 49.

51., it is characterized in that air outlet slit extends the roughly whole width that crosses nozzle as each described air nozzle of claim 36 to 50.

52., it is characterized in that air outlet slit is arranged at along one of one of them of one of them of first pair of wall and second pair of wall junction as each described air nozzle of claim 36 to 51.

53. air nozzle as claimed in claim 52 is characterized in that, when arrangement and use, air outlet slit is arranged at along the rear wall of nozzle and the junction between diapire.

54. dry machine, comprise one first nozzle and one second nozzle, nozzle respectively has an air intake and an air outlet slit, one public air source arrangement is in order to the two air intake of supply air to the first nozzle and second nozzle, and a guiding device flows between the air intake of the air intake of first nozzle and second nozzle in order to separate out air, wherein, guiding device comprises in the air flow that a main body extends into between the air intake of the air intake of first nozzle and second nozzle.

55. dry machine as claimed in claim 54 is characterized in that main body has the general square shape cross section, has a shaped form flange and simultaneously stretches out from it.

56. dry machine as claimed in claim 55 is characterized in that, this face of the shaped form flange autonomous agent of main body stretches out, and this is the air intake end of first and second air nozzle.

57., it is characterized in that the shaped form flange gradually is decreased to a bit as claim 55 or 56 described dry machines.

58. dry machine as claimed in claim 57 is characterized in that, when dry machine in use the time, in the air flow that this point of flange extends into into.

59., it is characterized in that the air intake of first nozzle is arranged in the downstream part of the air intake of second nozzle as each described dry machine of claim 54 to 58.

60. dry machine as claimed in claim 59 is characterized in that, comprises the upstream end that a guiding leaf places the air intake of second nozzle.

61. dry machine as claimed in claim 60 is characterized in that, the guiding leaf has square contour substantially, has the shaped form face endways, and is parallel to the air intake of second air nozzle.

62. the guiding device of a dry machine, comprising a main body can flow between one first air intake and one second air intake in order to separate out air, and main body has square cross section substantially, has the shaped form flange and simultaneously stretches out from it.

63. guiding device as claimed in claim 62 is characterized in that, the shaped form flange gradually is decreased to a bit.

64. the guiding leaf of a dry machine has square contour substantially, has a shaped form face and in use is arranged in end, and be roughly parallel to the air intake of an air nozzle.

65. the method for a dry fabric cloth, comprise and support that fabric is distributed on one first transmission net, by first transmission net between row first nozzle and row second nozzle, first nozzle and second nozzle are arranged relatively, from the air that nozzle sends make fabric be distributed in by nozzle between the time waviness move.

66., it is characterized in that first transmission net that moves away of fabric cloth is limited by a net as the described method of claim 65.

67., it is characterized in that this net is arranged to and is roughly parallel to first transmission net as the described method of claim 66.

68. as each described method of claim 65 to 67, also be included in dry run during in, emission gases and from the fabric evaporated liquid.

69. gas and the space of evaporated liquid discharging by being provided between adjacent first nozzle and/or adjacent second nozzle as the described method of claim 68, are provided.

70., comprise by public air source supply air to the first nozzle and second nozzle as each described method of claim 65 to 69.

71., it is characterized in that air supply is divided between first nozzle and second nozzle as the described method of claim 70.

72., it is characterized in that the air supply approximate equality separately between first nozzle and second nozzle as the described method of claim 71.

73., it is characterized in that even air is allocated on the air outlet slit of each nozzle as each described method of claim 65 to 72.

74. an air nozzle is basically as above-mentioned, and with reference to accompanying drawing.

75. a dry machine is basically as above-mentioned, and with reference to accompanying drawing.

76. the air nozzle of a dry machine is basically as above-mentioned, and with reference to accompanying drawing.

77. a guiding device is basically as above-mentioned, and with reference to accompanying drawing.

78. a guiding leaf is basically as above-mentioned, and with reference to accompanying drawing.

79. the method for a dry fabric cloth is basically as above-mentioned, and with reference to accompanying drawing.

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