EP0765961B9 - Nozzle for transporting material in rope form and device for treating textile in endless rope form - Google Patents

Description

The invention relates to a nozzle for transporting a strand according to the preamble of claim 1 and a device for treating textile goods in the form of at least one endless strand according to the preamble of claim 7.

Such nozzles are preferably used in the treatment of Textile used in strand form. They are used for transportation of an endless strand within a treatment tank or the transport of a strand between different Treatment tanks.

It is known from EP 0 172 406 A1 for wet treatment of textile goods in strand form for transporting the strand in addition to a transport reel, one with a treatment liquor to use the propellant. Such Driving nozzle consists of a nozzle body with a central one Passage channel for the textile goods and with an inside of the nozzle body opening into its passage Ring slot for feeding the treatment liquor.

The hydraulic loading of the textile goods by the Treatment liquor supplied with relatively high pressure can with these driving nozzles, especially with sensitive tissues, lead to impairments. Reduced to protect of the textile goods the pressure of the treatment liquor, so the wrinkling in the nozzle worsens. to This problem is proposed in EP 0 172 406 A1, Add inert gas to the treatment liquor.

A nozzle also charged with liquor, the additional to a transporting roller for transporting a Goods strand used in a device for wet treatment is known from DE 32 45 921 C2. This as Ring nozzle trained nozzle is part of a transport system, which also has a horizontally swiveling introduction device for depositing the strand in the form of a loop in a treatment store having. The loop-shaped shelf of the Stranges is called blackboard. Even with this nozzle a stress on the textile goods by the treatment fleet not be ruled out.

A gentle transport of a strand is characterized by a the DE 41 19 152 C2 (preamble of independent claims 1 and 7) known, generic pressurized air nozzle allows. This nozzle is used as the sole means of transportation a strand in a generic device for wet treatment used by textile goods. To the ring nozzle with circular Cross section closes a horizontally pivotable Infeed device with rectangular, towards the store wider cross section. This nozzle enables a gentle transport of the strand, you need it however, a relatively large amount of electrical energy for the connected one Fan. The high energy consumption is due to Flow losses in the housing of the nozzle and at the transition from the round nozzle to the rectangular introducer and caused by the shape of the nozzle itself.

The flow known from FR 26 19 834 A1, Generic nozzle, which is also acted upon by air is a textile strand without the support of a reel in one or between several treatment devices transported.

This nozzle has a housing with an opening for connecting a fan first section protruding into the housing and a second, in the direction of transport arranged behind the first section in the interior of the housing. Both between the end of the first section and the beginning of the second Section as well as between the end of the second section and the housing is formed a peripheral gap through which the transport air onto the strand arrives. Only a baffle is provided as an aid to stacking. The The construction of this nozzle is very complex. So z. B. the first section in in a first section a round, constant cross section and in a second Section a rectangular, decreasing in the vertical direction and in horizontal direction increasing cross section.

More streamlined nozzles are from CH-A-367371 and from DE-A-2149343 known for suction of filaments or fiber cables.

CH-A 367371 describes a nozzle referred to as an ejector which is used for Avoiding winding formation after a roller unit to promote a Fiber cable is arranged. Furthermore, a storage trunk with decreasing Cross section that deposits the conveyed fiber cable on a belt, known. there can the ejector between the storage trunk and the conveyor rollers of the Roller unit attached or at the lower opening of the storage trunk be mounted. This ejector for fiber cables is in addition to the actual one Conveyor unit used and is suitable for a fiber cable without voltage weiterzufördern. It is for the gentle acceleration of a textile strand not suitable due to its size alone. A direct transition is from Storage trunk to the ejector provided, a transition from the ejector to the storage trunk is not provided, however.

The object of the invention is to provide a nozzle for transporting a strand according to the Develop the preamble of claim 1, by which a gentle, energy-efficient transport of a strand is made possible. The nozzle should be there can be produced with the least possible constructional effort. Furthermore, one should Device for treating textile goods in the form of at least one endless Strand according to claim 7 with a corresponding nozzle for transporting a Stranges are developed.

The object is by the characterizing features of claim 1 and Claim 7 solved.

A nozzle for transporting a strand points according to the preamble of Claim 1 is a housing with an opening for connecting a blower is provided, a first, tubular, projecting into the housing and a second, tubular, behind the first section in the direction of transport arranged section with a first Section with a decreasing cross-section and with one behind it arranged section with a constant cross-section. The first and second section form a central passage for the strand. The first section envelops a second section of the second section first section and ends with or behind this, so that between the first and the second section on the circumference or several columns are formed, which form an airspace of the Connect the housing to the inside of the second section.

The cross sections of the sections can be round or rectangular his. For round cross sections of the last section of the first section and the first section of the second Part is a, extending over the entire circumference Gap formed. For rectangular cross sections can also be one that extends over the entire circumference Gap can be formed, for example with equal widths of the sections, an upper and a lower gap may be formed.

Through this gap or this column the transport air from the housing into the interior of the second section that the strand is guided. Because of the narrowing the flow cross section of the transport air through the or the column accelerates the transport air. Thereby, that the first section of the second section with the last section or after it ends the greatest narrowing of the flow cross section at Encounter between transport air and line or behind it. At this point the pressure is the least and the flow rate greatest.

The first section of the first section with a decreasing cross-section Providing facilitates the introduction of the strand into the nozzle. The inclination of the Wall surface or the wall surfaces supports the supply of the transport air to the Gap or to the columns.

In the second section after the section with a decreasing cross-section, one Providing a section with a constant cross section improves the flow to the Transport air at a flat angle and thus promotes the acceleration of the Transport air. A further acceleration of the transport air arises Expansion of the strand. As a result, the strand itself narrows existing low pressure the flow cross-section, which leads to a further Acceleration of the transport air leads. This characteristic leads to one Energy-efficient transport of the strand through the nozzle with little construction Expenditure.

According to the invention, a last section of the second section is a diffuser trained and formed by the initiator.

To form the last section of the second section as a diffuser Wall surface or are the wall surfaces with a small angle, in particular an angle of less than 10 ° or of the order of 10 ° to the direction of transport inclined.

The section designed as a diffuser with increasing cross section of the second Part as a swiveling introduction device for depositing the strand train integrates the introducer into the nozzle.

Since the introduction device is integrated in the nozzle, flow losses are caused by the transition from a nozzle to a separate introduction device, and flutter of the strand due to pressure waves at the transition, as shown in DE 41 19 162 known device occur avoided. It becomes essential gentler treatment of the strand and thus the transport more sensitive Goods enabled. In comparison to that described in FR 26 19 834 A1 Device is the stacking of the strand by the pivotable Introducer significantly improved. The features of the invention lead by avoiding flow obstacles at the transition to Introductory device to further reduce the energy requirement, they set good stacking safely and only require simple constructive means.

A nozzle according to the invention enables energy-efficient transport. The Energy savings of this nozzle compared to known nozzles, for example nozzle described in DE 41 19 152 C2 is about 50%.

A nozzle according to the invention is also suitable, sheet-like or plate-shaped Material, e.g. Paper or metal foils, with the appropriate design also Wooden panels, transport.

Forming the second section according to claim 2 by the housing and introduction device further improves the flow guidance. Turbulence that can occur between a second section and the housing, as well as deposits that can occur in such a pressure chamber, are thereby avoided.
In addition, the construction has been significantly simplified by the design of the second section as a housing.

In addition to the last end section designed as a diffuser, the Introducer have an initial section with a constant cross section. The second section of the second section is thereby a second, itself the first section adjoining section formed by the housing and the initial portion of the introducer. The envelops Initial section of the housing section partially and is rotatable thereon stored. With rectangular or square nozzles, only a small one becomes Movement gap between the second section of the second section and the needed first portion of the introducer, i.e. it just gets a little Cross-sectional jump in the area of high flow velocity required.

In a nozzle according to the invention, the two sections preferably have rectangular cross-sections according to claim 3, and except for the last section of the second section and thus the introduction device, according to the same widths Claim 4 on.

According to claim 3, the two sections of the nozzle with rectangular cross sections to provide simplifies the construction of the nozzle. Instead of elaborately shaped To use pipe sections, flat sheet metal plates can be joined together become.

The first and the second section according to claim 4 with the same widths form, so that an upper and a lower gap between the circumference first and the second section, further simplifies the construction of the Jet. Equal widths of the two sections also improve the web guidance of the Strand. The transport air is fed through the upper and lower gap.

By forming the last section of the first section according to claim 5 with a constant cross-section and thus parallel to the direction of transport running wall surfaces is a flat flow angle of the transport air on the Strand and into the section designed as a diffuser with increasing Cross section of the second section allows.

A shallow angle of attack favors that by narrowing the Flow cross-section through the acceleration or the acceleration caused the transport air. The transport of the Stranges in the event of turbulence and therefore without major loss of energy through friction.

The contact between the gap and the transport air is gentle, so that too sensitive goods can be transported.

This essentially tangential flow against the strand also has the advantage that the strand is not inflated and thus a nozzle clogging the nozzle Ballooning is prevented. Tubular goods can also be transported with this nozzle become.

It is also advantageous that in this nozzle with a flat angle of attack Transport air only a little transport air exits the inlet opening of the nozzle.

Achieving a flat angle of attack through a last section of the The first section with a constant cross section is a very simple construction Measure that is suitable for both round and rectangular cross-sections. The The flow angle of the transport air through the gaps should be 5 ° to 20 ° be. There is an inclination of the wall surface or wall surfaces of the first Section of the second section provided from an angle of 10 to 40.

A flat approach angle could also be achieved if both sections, i.e. the last section of the first section and the first section of the second Partial, decreasing cross-sections with inclination of the wall surfaces from 5 to 20 ° exhibit. In particular, the wall surfaces of the first and the second Part of this area run parallel. Compared to one The structure of the nozzle according to the invention is fluid and structural advantages. For example, the transport air is in the or the tapering gaps between the first and second section aerodynamically guided. The construction according to the invention is, as already mentioned, constructively very simple.

The formation of an upper and a lower gap also enables Arrangement of baffles according to claim 6, each of a quarter circle of a lateral opening of the housing to the two columns and between the first section and the parts of the Housing and the second section are arranged. Through the baffles the transport air from the opening to which a line piece to the blower is connected, led in an arc of 90 ° to the columns. The baffles reduce flow losses through, for example, a pressure chamber occurring conversion from dynamic to static pressure and thus lead to a further energy saving.

In a device for using a nozzle according to claim 1 and Treating textile goods in the form of at least one endless strand in accordance with Claim 7 enables a nozzle with the features of claim 1 favorable flow control a gentle, energy-efficient transport of the Strands with a structurally simple structure of the nozzle.

The invention is illustrated schematically in the drawing Examples explained further.

In Figure 1 is a first example of a nozzle with aerodynamic, but without the characteristic features based on a vertical section through the middle shown the nozzle and outlined the spread of the strand in operation.

Figures 2 and 3 show a second example of a nozzle with alternative aerodynamically favorable and characteristic features, wherein the figure 2 a Side view and Figure 3 is a top view.

FIG. 4 shows an apparatus according to the invention for treating textile goods in Form at least one endless strand.

A nozzle of the first example shown in FIG. 1 for transporting a Strand 1 has a housing 2, a first section 3 and a second section 4 on. The first and the second section 3, 4 form a central one for the strand 1 Passage channel through the nozzle. The housing 2 is cuboid, for example and, as shown in Figure 1, on its ceiling with an opening 5 for connection of a blower. The first tubular section 4 projects into the housing 2 and points one behind the other in the direction of transport indicated by arrows 6 arranged a section 7 with decreasing cross-section and as the last Section a section a section 8 with a constant cross section. there are wall surfaces of section 7 inclined to the transport direction and run on the wall surfaces of section 8 parallel to the direction of transport.

The second section 4 is behind the first section 3 in the transport direction arranged. It has a first section 9 with a decreasing cross section, one second section 10 with constant cross section and a third, designed as a diffuser section 11 with increasing Cross section on, wherein the first section 9 inside the Housing 2 the last section 8 of the first section 3 envelops, begins with and ends after this. Thereby is between the first and the second section 3, 4 on the circumference one or more column 12 that an air space 13 of the housing 2 with the interior of the second section 4 connect, formed.

The inclination of wall surfaces of the first section 9 of the second section 4 is 10 to 40 ° to the direction of transport, Wall surfaces of the second section 10 of the second Section 4 run parallel to the transport direction and Wall surfaces of the third and last section 11 of the second section 4 have a Spread angle of less than 10 ° or of the order of magnitude 10 ° to the direction of transport.

The following are exemplary proportions of the Parts of the nozzle indicated:

The gap width perpendicular to the transport direction of the or the column 12 is approximately as large as the distance of the end the last section 8 of the first section 3 at the beginning of the second section 10 of the second section 4. The Cross section of the second section of the second section 4 is about twice the size of the last section 8 of the first section 3. The cross section of the third section 11 of the second section 4 increases in Course of section 11 to 2 to 10 times, for example to 3 times. The length of the last section 8 of the first section 3 is about a quarter the length of section 7 of the first section 3 and approximately half the length of the first section 9 of the second Section 4.

The length of the nozzle from the first section 7 of the first Section 3 to the end of the first section 9 of the second section 4 is approximately as large as the length of the second section 10 of the second section 4 and is about a third of the length of the third section 11 of the second section 4.

In this example of the nozzle, the first section 9 of the second section 4 out of the housing 2 so that the second section 4 also with its second section 10 and its third section 11 outside the housing 2 located.

The cross section of the sections 3, 4 can be round or rectangular his. For round cross-sections of the last section 8 of the first section 3 and the first section 9 of second section 4 is a, over the entire circumference extending gap 12 formed. For rectangular cross sections can also be used to cover the entire scope extending gap 12 may be formed or, for example with equal widths of the sections, an upper and a lower gap 12 may be formed.

The nozzle can be arranged horizontally and vertically. at The transport direction of the strand is horizontal 1 through the nozzle 11 horizontally and in a vertical arrangement perpendicular.

In operation, the transport air from the air space 13 of the Housing 2 through the column or columns 12 at a flow angle from 5 to 20 ° into the interior of the second section 4 funded. There the transport air meets it flat inflow angle on the strand 1. The strand 1 is through the central passageway through the first section 3 and second section 4 is formed, guided.

The successive narrowing of the flow cross-section the transport air through the column or columns 12, due to the further decrease in cross-section of the first section 9 of the second section 4 after the meeting of transport air and strand 1 and by narrowing the cross section in second section 10 of the second section 4 by expansion of strand 1 cause continued acceleration the transport air. The speed of the accelerated Transport air is 100 m / s up to the speed of sound, for example 140 m / s.

The almost tangentially flowing, accelerated transport air transports strand 1 with minimal turbulence and minimal backflow through the inlet of the Section 7 of the first section 3 through the nozzle.

In the third section 11 of the second section 4, the speed of the Transport air reduced so that the strand 1 without Disorders, e.g. B. by pressure waves, at the exit from the third section 11, the nozzle leaves.

A second example of a nozzle according to the invention shown in FIGS. 2 and 3 corresponds to the first example except for the features described below.

The nozzle of the second example is also horizontal arranged. The cross sections of their sections 3 and 4 rectangular. The widths of sections 7, 8, 9 and 10, d. H. all sections 7, 8, 9, 10 of the two sections 3, 4 up to section 11 with increasing cross section, are the same size and 2 to 4 times larger than that Heights of sections 7, 8, 9, 10. By the same Widths of the last section 8 of the first section 3 and the first section 9 of the second section 4 an upper and a lower gap 14, 15 are formed on the circumference.

The slope of the top and bottom walls of the first section 9 of the second section 4 is 20 ° to the transport direction.

Width and height of the third and last section 11 of the second section 4 increase in the direction of transport, the height is slight and the width about Increase factor 1.5. The slope of the side walls of the Section 11 is approximately 9 ° to the direction of transport. The Cross section of section 11 increases to 3-fold. For fluidic reasons, the length should be of section 11 as large as possible and the inclination of the side wall be chosen as low as possible.

In contrast to the first example, the second example According to the invention, the second section 4 through the housing 2 and through an introduction device for stacking the strand 1 is formed.

The housing 2 extends above section 7 of the first section 3 and forms the first section 9 and a part of the second section 10 of the second section 4. Its height corresponds to the total height of the initial cross section of the first section 9 of the second section 4 and its width the width of the two sections 3, 4 (to to the third section 11 of the second section 4).

There is also an opening 16 for connection to a blower on one of the two sides, here on the one in the transport direction seen, left side of the housing 2, attached. It extends over the entire height of the housing 2 and over the length of section 7 of the first section Third

The housing 2 forms the second section 10 of the second Section 4 over a length of about 60%.

The subsequent part of the second section 10 of the second section 4 is by a rear part of a Initial section 17 and the third section 11 of the second section 4 through an end portion 18 of the Introducer formed. A front part of the Initial section 17 projects over the housing 2 in the area of section 10 and is thereon about an axis of rotation 19 pivoted.

The cross section of the initial section 17 of the introducer is only slightly larger than that of the housing 2 in Section 10, so section 10 also in this example is essentially a constant cross section. The The height of the initial cross section 18 is only that much larger, that the pivoting of the introduction device is ensured and the width is 20 to form a movement gap about 10 to 20% larger than that of the housing 2 in the section 10th

Starting from opening 16 of the housing 2 each run top and bottom quarter-circular baffles 21 to the two columns 14, 15. In this example there are three Baffles 21 arranged. They extend between the first section 3 and the housing 2.

In front of the opening 16 to which a line is operated during the operation of the nozzle is connected to a blower, a wedge 22 for Transport air guidance arranged. The wedge 22 extends with its broadside over the side wall of the section 7 of the first section 3 and runs on the transport level ending, perpendicular to the direction of transport sharp outside.

The section 7 of the first section 3 can also with a Inlet funnel 23 may be provided.

The nozzle can be composed of polished stainless steel sheets his; their edges, especially those of the third Section 11 of the second section 4, can be rounded his.

In operation it transports at an angle of around 10 ° accelerated transport air impinging on strand 1 the strand 1 also gently and with low energy consumption. In the end portion 18 of the introducer, i.e. H. in the third section 11 of the second section 4 of the nozzle, the speed of the Transport air reduced and at the same time by swiveling movements the introductory device of strand 1.

Characterized in that the portion 11 formed as a diffuser Direction of transport becomes wider, strand 1 at Leaving section 11 spread out. This leads to Redistribution of wrinkles in strand 1 and thus one better wrinkle laying.

An example of an inventive, shown in Figure 4 Device for using a nozzle according to claim 1 and for treating textile goods in the form of at least one endless strand 1 has a closable container 24, for each strand 1 with one in the upper third of the Container 24 arranged filling opening 25, with a Strand 1 in loops receiving goods store 26, with an arranged above it, circulating the strand 1 Transport system and with feed devices 27 is provided for treatment liquor, and a circulation system 28 for treatment fleet. The device can, as in the DE 41 19 152 C2 or described in DE 195 17 298, be constructed.

The transport system points in the upper third of the container 24 arranged one behind the other in the transport direction of the strand 1 one, for example described in DE 41 20 738 C2, Guide ring 29, a deflection roller 30 and one Nozzle of the second example with a housing 2 and with an introduction device pivotable about an axis of rotation 19 with a start section 17 and an end section 18 and a blower 31. Here is the as Radial fan designed fan 31 in the zenith of Container 24. Its suction opening 32 can inside the Container 24 protrude or connected to an air circulation system his and his exhaust opening is over one Line 33 connected to the nozzle. The guide ring 29 and the deflection roller 30 are one above the other, above an outlet opening 34 of the goods store 26. The nozzle and the deflecting roller 30 are arranged so that the deflected Line 1 directed to the transport level of the nozzle becomes.

The end section 18 formed as a diffuser Injector of the nozzle extends up to one Inlet opening 35 of the goods store 26. The line 33 from the fan 31 is at a side opening of the housing 31 connected.

During operation, the endless strand 1 circulated through the nozzle and for example to Dyeing brought into contact with circulating treatment liquor. In addition to dyeing, there are other wet treatments, such as an enzyme treatment, or dry treatments of the Stranges 1, e.g. B. tumbling or, with appropriate accessories, Drying, feasible. With a one according to the invention Device having a nozzle can be the strand 1 at low construction effort through the nozzle low energy be transported.

Claims (7)

1. Die for transporting a textile skein (1),

   having a housing (2) which is provided with an opening (5) for attaching a blower (31),

   having a first tubular part (3) which projects into the housing (2) and has a portion (7) of diminishing cross-section,

   having a second tubular part (4) which is arranged behind the first part (3) in the direction of transport and projects from the housing, with a first portion (9) of diminishing cross-section and a second portion (10) of constant cross-section,
   the first portion (9) of the second part (4) enveloping a final portion (8) of the first part (3) and terminating with or behind said final portion (8), with the result that
   formed between the first and second parts (3, 4) is at least one gap (12, 14, 15) which connects the air chamber of the housing (2) with the interior of the second part (4), and

   having a swivelling introducing device (17, 18) for depositing loops of the skein (1) with a portion (18) of increasing cross-section,

   characterised in that the swivelling leader device (17, 18) is integrated into the die, and is constituted by a portion (17) of constant cross-section and by the final portion (18) of the second part (4),
   said final portion (18) being constructed in the form of a diffuser.
2. Die according to claim 1, characterised in that the second part (4) is constituted by the housing (2) and the leader device (17, 18).
3. Die according to claim 1 or 2, characterised in that the two parts (3, 4) have rectangular cross-sections.
4. Die according to any one of claims 1 to 3, characterised in that the first part (3) and the second part (4), with the exception of the latter's final portion (18), are of identical widths with increasing cross-section, thereby forming an upper and a lower gap (14, 15) between the two parts (3,4) at the circumference.
5. Die according to any one of claims 1 to 4, characterised in that the first part (3) incorporates a portion (8) of constant cross-section as the final portion.
6. Die according to either of claims 4 and 5, characterised by baffles (21) which in each case run in a quarter-circle from an opening (16) in the housing (2) to the two gaps (14, 15), and
   are arranged between the first part (3) and those elements of the housing (2) and of the second part (4) that envelop the first part (3).
7. Apparatus for treating textile material in the form of at least one continuous skein (1),
   having a sealable container (24) which for each skein (1) has

   a silo (26) which receives the skein (1) in loops,

   arranged above the silo (26) a die transport system which sets the skein (1) in circulation, and

   feeder devices for a treatment bath, and
   having a circulating system for the treatment bath, characterised by a die in accordance with any one

   of claims 1 to 6.

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