WO2016041773A1 - Method and device for producing a nonwoven material - Google Patents

Abstract

The invention relates to a method for producing a nonwoven material. A nonwoven is formed in a former, and the nonwoven material web produced from the nonwoven is then consolidated. In the process, the nonwoven is formed in the former at least partly using a wet process, and the nonwoven material web produced from the nonwoven is consolidated using at least one consolidating device which operates according to the water jet entanglement method. At least one part of the processing water accumulated during the formation of the nonwoven using the wet process is combined with at least one part of the processing water accumulated during the water jet entanglement process, fibers recovered from the resulting processing water are fed back to the production process, and the remaining resulting processing water is at least partly used for the water jet entanglement process. The invention also relates to a corresponding device for carrying out the method.

Description

 METHOD AND DEVICE FOR PRODUCING A

 FLEECE SUBSTANCE

The present invention relates to a method and an apparatus for producing a nonwoven fabric. A nonwoven fabric is a fabric made of fibers that has been solidified in different ways.

Known processes for the production of nonwovens generally include nonwoven formation, nonwoven bonding, and then further dewatering. Different methods of web formation are described, for example, in WO 2007/018960 A2. In this case, the nonwoven can be formed in particular by a dry process, a wet process and / or an extrusion process. The subsequent nonwoven bonding can be effected, for example, by the so-called hydroentangling process, also known as "spunlacing" or "hydroentanglement." In this process, the nonwoven fabric formed is solidified by entanglement of the fibers, the entangling being effected by swirling, in particular by the effect of focused high-pressure water jets on the nonwoven It may in this case in particular a A series of fine, non-divergent jets are directed onto the nonwoven web supported by a carrier system, which carrier system may comprise, for example, a circulating screen or a porous roller. The number, dimension and pressure level of the hydroentangling nozzles will depend on the type of fibers being processed and the extent of hydroentanglement.

Most conventional products are provided at basis weights in the range of 25 g / m ² to 100 g / m ² . Substances that are lighter than 25 g / m ² are generally not useful because too little fiber mass is available for solidification. On the other hand, fabrics with a basis weight greater than 100 g / m ² are generally not available, as it is difficult to pass the high pressure water jet through the fiber web. Some of the newer technologies use pressures up to 248.21 bar (2600 psig). This nonwovens with a basis weight over 500 g / m ² are solidified by the hydroentanglement process.

Underneath the needling substrate, separate vacuum slots are usually provided for the respective nozzle fittings for discharging the water passing through the fiber structure. Insufficient drainage of water at any stage of the hydroentangling process can result in "flooding" and a loss of solidification efficiency. Additional water can be removed via a vacuum exhaust system to reduce the amount of water still to be removed in the dryers.

A hydroentanglement system requires a certain amount of water. Typically, the required amount is in a range of 10 m ³ / h to 300 m ³ / h. This water is recycled and usually needs to be treated to remove impurities, fiber finish and bacteria from reuse to prevent clogging of the fine water nozzles. The type of water treatment required depends on the starting material used. Fabrics containing wood pulp, cotton, other natural fibers or melt-blown fibers present more fine fiber scrap than fabrics made from synthetic short fibers and therefore require a more complicated filtration system. Water treatment systems may include any combination of the following, depending on the type of fibers used and the level of contamination: air separators, clarifiers or flash flotation systems, sand filters, belt filters, pre-filters, filter cartridges, bag filters, deionization units, heat exchangers, and bacterial treatment systems.

The loss of fibers typically ranges between 3 to 10%. Depending on the capacity of the installation in question, this loss may amount to a total of up to 300 kg / h. Synthetic fibers are relatively expensive. The cost of such fibers is currently in the range between 2 and 3 € / kg.

In hydroentanglement, also called spunlacing, water volumes are usually conducted in very closed circuits. It is therefore hitherto either a chemical and / or in addition to the mechanical cleaning / filtration a biological treatment of the wastewater in question or a strong dilution or refreshment required that reduces the salting and the accumulation with bacteria. Theoretically, this could also be achieved with fresh water. However, this does not make sense either ecologically or economically. In addition, the volume of wastewater would increase to the same extent in the balance sheet and increase the negative effect in both respects.

The invention has for its object to provide a method and an apparatus of the type mentioned, in which both fibers from the accumulating in the web formation process water and fibers can be reused, which are contained in the process water, which in a subsequent the hydroentanglement of the nonwoven web formed from the web is obtained. At the same time, the water treatment for the recirculated water jet hardening water is to be at least kept as low as possible fresh water use at least.

According to the invention this object is achieved by a method having the features of claim 1 and a device having the features of claim 10. Preferred embodiments of the method according to the invention and preferred embodiments of the device according to the invention are contained in the subclaims, the subsequent description and the drawing.

The method according to the invention for producing a nonwoven fabric is characterized in that a nonwoven is formed in a former and the resulting nonwoven material web is subsequently solidified, the nonwoven being at least partially formed in the form by a wet process consisting of the nonwoven resulting nonwoven material web is solidified by means of at least one working according to the hydroentanglement solidification, at least a portion of the resulting in the web formation by the wet process water is combined with at least a portion of the incurred in the water jet solidification process water, recovered from the resulting process water fibers again be fed to the manufacturing process and the remaining resulting process water is at least partially reused for hydroentanglement. For the purposes of the present invention, nonwoven is understood to mean a nonwoven fabric of low consistency obtained directly by the formation, whereas a nonwoven fabric is to be understood as meaning a nonwoven already having a certain or relatively higher consistency. For the purposes of the present invention, the wet process, in accordance with the customary use of this term, is understood to mean a process in which in particular, the fibers are suspended in water and deposited on a water-permeable support.

Due to the embodiment of the method according to the invention, not only fibers from the process water resulting from the web formation but also fibers which are contained in the process water which is obtained in the subsequent hydroentanglement of the nonwoven web formed from the web can be reused. Here, the mixing of the fibers, which are recovered from the obtained in the hydroentanglement process water, with the recovered fibers from the web formation by the wet process, also called wet-laid process, of particular advantage since the recovered from the web formation by the wet process fibers frequently in a better condition, and in particular, the fibers of hydroentanglement today typically can not be recycled. The common guidance of the return water for reuse in the hydroentanglement brings with it the particular advantage that the risk of salting and enrichment with bacteria is reduced to a minimum by mixing with the significantly larger proportion of process water produced during the web formation by the wet process becomes. The hitherto required chemical and biological treatment of the return water from the hydroentanglement can be at least minimized, or it can be completely dispensed with. In accordance with the method according to the invention, the process water arising during the hydroentanglement is diluted or refreshed by the process water obtained during the web formation by the wet process. The process water cycle in question thus contains in particular up to 10 times larger quantities of water than with the usual hydroentanglement (spunlacing). The combined water supply also results in correspondingly lower investment costs and a smaller space requirement. Preference is given to the process water resulting from the combination of the process water obtained during the web formation by the wet process with the process water obtained by the wet-strength process. resulting process water resulting process water at least partially for the recovery of fibers of a flotation, in particular a Druckentspannungsflotation supplied. The flotation or pressure-release flotation is a physical-chemical separation process which serves to separate the solid from the liquid phase, in which substances dispersed or suspended in the water are transported to the water surface by adhering gas bubbles and removed therefrom. In this case, the resulting process water for the recovery of fibers is preferably supplied to a microflotation. In such a microflotation is a special form of Druckentspannungsflotation, are used in the comparatively small air bubbles, namely air bubbles with a diameter between about 30 and about 50 μιτι. In certain cases, it is also advantageous if the remaining resulting process water intended for reuse for hydroentanglement is previously treated.

In particular, it is also advantageous if the fibers recovered from the resulting process water are thickened before being returned to the production process.

The fibers recovered from the resulting process water can advantageously be recycled to the production process at least partially immediately after the stock preparation or at least partially entered into a separate fiber strand at the beginning of the production process. However, it is also conceivable, for example, to at least partially reintroduce the fibers recovered from the resulting process water into the beginning of the production process by feeding already dried recycled fibers. The treatment of the remaining resulting process water intended for reuse for hydroentanglement preferably comprises filtering, in particular filtering by means of a police filter, a sand filter, a belt filter, a belt filter with integrated flotation, a sand filter with integrated flotation and / or a fine filter.

As already mentioned, however, in certain cases it is entirely possible to dispense with such treatment of the residual process water intended for reuse for hydroentanglement.

The device according to the invention for producing a nonwoven fabric accordingly comprises a former for forming a nonwoven fabric and at least one device for subsequent solidification of the nonwoven material web formed from the formed nonwoven, wherein the former comprises a hydroformer in which the nonwoven is at least partially formed by a wet process in that the solidification device comprises at least one hydroentanglement device in which the web of nonwoven material resulting from the web is solidified by the hydroentanglement process, means are provided for at least part of the process water resulting from web formation by at least part of the process water Merging of water jet solidification resulting process water means are provided for recovering fibers from the process water resulting from the combined process water, means are provided to the again recovered fibers are returned to the manufacturing process, and means are provided to at least partially return the residual resulting process water to the hydroentanglement device.

In this case, the process water resulting from the combination of the process water arising during the web formation by the wet process with the process water resulting from the hydroentanglement is preferably at least partly for the recovery of fibers of a flotation device, in particular particular a Druckentspannungsflotationseinrichtung supplied. In this case, the flotation device preferably comprises a microflotation device.

In certain cases, means may also be provided for the treatment of the remaining resulting process water intended for reuse for hydroentanglement.

According to a further preferred embodiment of the device according to the invention, means are provided for thickening the fibers recovered from the resulting process water.

The apparatus preferably comprises means for recycling the fibers recovered from the resulting process water, at least partially immediately after the stock preparation, and / or for introducing the fibers recovered from the resulting process water at least partially into a separate fiber strand at the beginning of the production process. Alternatively or additionally, however, the device may also comprise means for at least partially reintroducing the fibers recovered from the resulting process water into the beginning of the production process by feeding already dried recycled fibers.

The means for treating the remaining resulting process water intended for reuse for hydroentanglement optionally optionally comprise filter media, in particular at least one police filter, at least one sand filter, at least one belt filter at least one sand filter with integrated flotation and / or at least one fine filter. As already mentioned, however, in certain cases it is entirely possible to dispense with the preparation of this residual water of process which is intended for reuse for hydroentanglement. The invention will be explained in more detail below with reference to exemplary embodiments with reference to the drawing; in this show:

1 is a schematic partial representation of an exemplary embodiment of a device according to the invention for producing a nonwoven fabric and

FIG. 2 shows a schematic partial representation of the hydroentanglement apparatus of another exemplary embodiment of an apparatus according to the invention for producing a nonwoven fabric.

1 shows, in a schematic partial representation, an exemplary embodiment of a device 10 according to the invention for producing a nonwoven fabric.

The apparatus 10 comprises a former 12 for forming a nonwoven fabric and a device 14 for subsequently solidifying the nonwoven material web formed from the formed nonwoven fabric. The former 12 comprises a hydroformer, in particular a Schrägsiebformer in which the web is formed by a wet process. The solidification device 14 comprises a hydroentanglement device in which the nonwoven web of material resulting from the web is solidified by the hydroentanglement process. In this case, this hydroentanglement device 14 can have a pre-consolidation section and a post-consolidation section or can be provided as a uniform solidification device.

In addition, the device 10 comprises means 16 for combining at least part of the process water produced by the wet process in the web formation with at least part of the process water resulting from the hydroentanglement, means 18 for the recovery of fibers from the of Merging process water resulting process water, means 20 to recycle the recovered fibers back to the manufacturing process, and means 22, at least partially return the remaining resulting process water to the hydroentanglement device 14.

The process water 28 resulting from the combination of the process water 24 resulting from the nonwoven formation by the wet process with the process water 26 resulting from hydroentanglement is partially supplied to a flotation device 30 for recovering fibers, which in the present case comprises, for example, a microflotation device.

Moreover, the device 10 comprises means 32 for the treatment of the remaining resulting process water 34 intended for reuse for hydroentanglement.

In addition, the device 10 may in particular also comprise means 36 for the impregnation of the fibers recovered from the resulting process water 28. In addition, the device 10 may be provided with means to at least partially recycle the fibers recovered from the resulting process water 28 into the manufacturing process immediately after stock preparation, to at least partially input the recovered fibers from the resulting process water 28 into a separate fiber strand at the beginning of the manufacturing process, and / or at least partially reintroducing the fibers recovered from the resulting process water 28 back into the beginning of the manufacturing process by feeding already dried recycled fibers.

The means 32 for the treatment of the remaining process water 34 intended for reuse for the water-jet consolidation may include, inter alia Filtering means, in particular a police filter 38, a sand filter 40, a band filter, a sand filter with integrated flotation and / or a fine filter 42 include.

In the present embodiment, the conditioning means 32 further comprises a clarifying water tank 44 disposed between the flotation device 30 and the police filter 38, a buffer tank 46 connected between the police filter 38 and the sand filter 40, a container 48 connected between the sand filter 40 and the fine filter 42, the non-filtered one Fresh water 50 can be supplied to the fine filter 42 downstream water tank 52 and a water tank 52 downstream low pressure pump 54. Moreover, in the present illustration of FIG. 1 between the sewage tank 44 and the police filter 38 provided process water pumps 56 and between the container 48 and see the fine filter 42 arranged sewage pumps 58 and the like.

The hydroentanglement device 14 comprises nozzle heads 62 acted upon by high-pressure pumps 60, police filters 86 arranged between the high-pressure pumps 60 and the nozzle heads 24 and suction means 88 located opposite the nozzle heads 24.

The process water from the former 12 first passes into a container 64 (white water I). The overflow from this container 64 is guided into a further container 66, in which the process water 24, 26 are brought together. In this case, the process water 26 from the hydroentanglement initially passes into a suction water container 68, which is connected upstream of the container 66, or it can be guided directly into the container 66. A portion of the collected water in the container 64 is returned via a vane pump 70 to the former. The overflow from the container 66 (white water II) passes into a further container 72 (white water III), the additional white water from the thickening 36 can be supplied. The process water from the container 72 is finally fed to the flotation device 30. The fiber recovery means 18 comprises a couch broke 74 upstream of the thickening means 36 to which process water from the flotation means 30 is supplied. The thickening means 36 is followed by a wet broke ehest 76, from which the recovered fibers are removed and, in particular, fed to a machine chest 78. The process water 26 can for example also be pressed directly into the flotation device 30. 2 shows, in a schematic partial representation, the hydroentanglement device 14 of a further exemplary embodiment of a device according to the invention for producing a nonwoven fabric. In this case, this Wasserstrahlverfestigungseinrichtung 14 comprises a first portion 14 ', in which the nonwoven material web 80 is guided horizontally, a portion 14 "in which the nonwoven material web 80 is guided around a first roller 82 and another portion 14"', in the nonwoven material web 80 is guided around a further roller 84. In each of the three sections 14 'to 14 "' of the hydroentanglement device 14, the nonwoven material web 80 is acted upon in each case by means of a plurality of nozzle heads 62. The suction means 88 located opposite the nozzle heads 62 encompass the respective roller 82 in sections 14 'and 14" or 84 associated suction means, wherein the rollers 82, 84 may be designed in particular in each case as a suction roller.

Incidentally, the device in question may be embodied, at least substantially, in particular, again as described with reference to FIG. 1. LIST OF REFERENCE NUMBERS

10 device

 12 shaper

 14 hydroentanglement device

 14 'section of the hydroentanglement device

14 "section of the hydroentanglement device

14 "'section of the hydroentanglement device

16 Means for combining process water

18 means for fiber recovery

 20 means for recycling the recovered fibers

22 Means for recycling process water

 24 process water from the formation

 26 Process water from hydroentanglement

28 resulting process water

 30 flotation device

 32 treatment agent

 34 remaining process water resulting

 36 thickener

 38 police filters

 40 sand filters

 42 fine filters

 44 sewage tank

 46 buffer tank

 48 containers

 50 fresh water

 52 water tank

 54 low pressure pump

 56 process water pump

 58 wastewater pump

60 high pressure pump 62 nozzle head

 64 containers (white water I)

66 containers (white water ΙΓ

68 suction water tank

70 wing pump

 72 containers (white water III

74 Gautschbruchbehälter

76 Wet rejection chest

78 machine chest

 80 nonwoven material web

82 roller

 84 roller

 86 police filters

 88 suction agent

Claims

claims

1 . A process for the production of a nonwoven fabric in which a nonwoven fabric is formed in a former (12) and the nonwoven material web (80) resulting therefrom is subsequently solidified, the nonwoven being formed in the former (12) at least partially by a wet process consisting of at least part of the process water obtained by the wet process during web formation is combined with at least part of the process water (26) obtained in the hydroentanglement process in that fibers recovered from the resulting process water (28) are returned to the production process and the remaining resulting process water (34) is at least partially reused for hydroentanglement.

2. The method according to claim 1,

 This means that the process water (28) resulting from the combination of the process water (24) produced during the web formation with the process water (26) resulting from the hydroentanglement is at least partially supplied for the recovery of fibers of a flotation, in particular a pressure-release flotation.

Method according to claim 2,

in that the resulting process water (28) is recycled to microflot for fiber recovery.

Method according to at least one of the preceding claims,

By doing so, the remaining resulting process water (34) for reuse for hydroentanglement is reprocessed beforehand.

Method according to at least one of the preceding claims,

By doing so, the fibers recovered from the resulting process water (28) are thickened before being returned to the manufacturing process.

Method according to at least one of the preceding claims,

In this way, the fibers recovered from the resulting process water (28) are at least partially returned to the production process immediately after stock preparation.

Method according to at least one of the preceding claims,

Thereby, the fibers recovered from the resulting process water (28) are at least partially input to a separate fiber strand at the beginning of the manufacturing process.

Method according to at least one of the preceding claims,

characterized in that the recovered from the resulting process water (28) fibers under supply of already recycled recycled fibers are at least partially reintroduced into the beginning of the manufacturing process.

Method according to at least one of the preceding claims,

characterized in that the treatment of the remaining resulting process water (34) intended for reuse for water jet consolidation comprises filtering, in particular filtering by means of a police filter (38), a sand filter (40), a belt filter, a belt filter with integrated flotation, a sand filter with integrated filter Flotation and / or a fine filter (42).

Apparatus (10) for producing a nonwoven fabric, in particular for carrying out the method according to at least one of the preceding claims, comprising a former (12) for forming a nonwoven fabric and at least one device (14) for subsequent solidification of the nonwoven fabric web resulting from the formed nonwoven fabric wherein the former (12) comprises a hydroformer in which the web is at least partially formed by a wet process, the consolidation device (14) comprises at least one hydroentanglement device in which the nonwoven web (80) resulting from the web solidifies by the hydroentanglement process is provided, means (16) are provided to merge at least a portion of the incurred in the web formation by the wet process water (24) with at least a portion of the incurred in the hydroentanglement process water (26), means (18) for recovering fibers from the from the combined Process water (28) are provided, means (20) are provided to return the recovered fibers to the manufacturing process, and means (22) are provided for at least partially recycling the remaining resulting process water (34) Hydroentangling (14) due.

11. The device according to claim 10,

 characterized in that the process water (24) resulting from the merging of the process water (24) obtained during the web formation with the process water (26) resulting from the hydroentanglement is at least partially for recovering fibers of a flotation device (30), in particular a Druckentspannungsflotationseinrichtung is supplied.

12. Device according to claim 11,

 Thereby, the flotation device (30) comprises a microflotation device.

13. Device according to one of claims 10 to 12,

 in that means (32) are provided for conditioning the remaining resulting process water (34) intended for reuse for hydroentanglement.

14. Device according to claims 10 to 13,

 in that means (36) are provided to confine the fibers recovered from the resulting process water (28).

15. Device according to claims 10 to 14,

characterized in that means are provided to supply the recovered from the resulting process water (28) fibers to the manufacturing process at least partially immediately after the stock preparation again.

16. Device according to one of claims 10 to 15,

 Thereby, means are provided to at least partially input the recovered fibers from the resulting process water (28) into a separate fiber strand at the beginning of the manufacturing process.

17. Device according to one of claims 10 to 16,

 in that means are provided for at least partially reintroducing the fibers recovered from the resulting process water (28) at least partially back into the beginning of the production process by feeding already dried recycled fibers.

18. Device according to one of claims 10 to 17,

 in that the means (32) for processing the remaining resulting process water (34) intended for reuse for water jet hardening comprises filter means, in particular a police filter (38), a sand filter (40) and / or a fine filter (42).