EP4222310A1

EP4222310A1 - Air-laying device

Info

Publication number: EP4222310A1
Application number: EP21782701.3A
Authority: EP
Inventors: Tobias HENLE; Alexander GLONING; Christian Kneißle
Original assignee: Voith Patent GmbH
Current assignee: Voith Patent GmbH
Priority date: 2020-09-29
Filing date: 2021-09-22
Publication date: 2023-08-09
Also published as: DE102020125404A1; US20230235493A1; WO2022069305A1; CN116324087A

Abstract

The invention relates to an air-laying device (1) for producing a fibre mat at least partially from wood pulp fibres and/or cellulose fibres, comprising an annular distributor (2) having a fibre feed (10), an annular channel with an outlet element (3) forming a portion of the annular channel, this portion being arranged inside a calming channel (4) extending downwards in the direction towards a forming fabric (5), and the outlet element (3) having openings through which the fibres fed by the fibre feed (10) exit from the annular channel into the calming channel (4) and can move to the forming fabric in order to form the fibre mat on the forming fabric (5).

Description

air laying device

The invention relates to an air-laying device for producing a fiber mat at least partially from wood pulp fibers and/or cellulose fibers.

Devices of this type are known. First, individual fibers or fiber agglomerates are produced and distributed evenly onto a screen by an air stream to form a fiber mat. Air laying units for laboratory use are operated in batch mode. Individual fiber mats, so-called fiber mat sheets, are produced one after the other for further investigation in the laboratory with regard to properties, for example mechanical properties. Such devices work very slowly and have to be filled by hand. The provision of individual fibers due to the breaking up of fiber agglomerates is particularly complex.

Air-laying devices are also known which produce webs of fiber mats in continuous operation. Here, too, the provision of individual fibers is complex due to the breaking up of fiber agglomerates.

The known devices also have the disadvantage that aggregates, such as powder, can only be mixed evenly with the fibers in the air flow with difficulty. On the other hand, it is difficult to process fibers with a wide range of fiber lengths.

The object of the invention is therefore to specify an air-laying device which improves the known devices with regard to the disadvantages described.

The object is solved by features of claim 1. An air-laying device for producing a fiber mat from at least partially wood pulp fibers and/or cellulose fibers is proposed, with a ring distributor having a fiber feed, an annular channel with an outlet element forming a section of the annular channel, wherein this section is arranged within a calming channel extending downwards in the direction of a forming fabric and the outlet element has openings through which the fibers supplied by the fiber feed can exit from the annular channel into the calming channel and move up to the forming fabric in order to form the fiber mat on the forming fabric to build.

The ring channel of the ring distributor is expediently designed in such a way that the fibers and optionally the fiber agglomerates and additives move in a ring flow generated by an air stream. Some of the fibers and, if present, some of the additives leave the annular channel via the outlet element and go directly into the calming channel and then onto the forming fabric to form a fiber mat or a fiber mat web. In the annular flow, the fiber agglomerates are broken up into individual fibers. Before the fibers leave the ring channel, they are preferably transported several times through the ring flow in a circle. The multiple circulations improve the dissolution of fiber agglomerates on the one hand and on the other hand a homogeneous mixture of the solids in the air flow is achieved.

Wood pulp fibers and/or cellulose fibers and/or additives are expediently supplied in the air stream by the fiber feed.

In the area of the fiber feed, an air nozzle can be used as a propulsion jet nozzle in order to generate a negative pressure in the fiber feed.

In an advantageous embodiment, several air nozzles flow into the ring channel to generate an air flow and to break up fiber agglomerates. This maintains and drives the ring flow and the air jets from the air nozzles generate pressure pulses on the fiber agglomerates so that they are broken up. In one possible development of the invention, cleaning nozzles are arranged outside the ring channel for cleaning the openings of the outlet element. These are preferably also designed as air nozzles.

The air nozzles and/or cleaning nozzles can be supplied with a pulsating or oscillating air flow.

The air nozzles and/or the cleaning nozzles can be fixed or movable. This allows the drive effect of the annular flow to be set on the one hand and the cleaning effect on the other. The movably mounted nozzles can be designed for an oscillating movement.

The calming channel can seal off with the forming fabric or be at a distance from the forming fabric.

The calming channel can be subjected to an overpressure.

A suction device can be assigned to the forming fabric. This supports fiber placement and a more compact fiber mat can be produced.

The openings of the outlet element can have a maximum width of 10 mm.

The openings can be slit-shaped or round.

In a possible development, the ring channel can contain mixed particles for mixing the fibers and for breaking up fiber agglomerates.

The air-laying device can be designed as suitable for laboratory use and the forming fabric can be arranged statically. In this case, the feed can be designed to be closable. Thus, the production of a fiber mat can be carried out in batch mode. The air-laying device can also be designed to be suitable for the continuous production of fiber mat webs and the forming fabric can be movable in one running direction. It is preferably designed as a circulating belt guided over a number of rollers.

Further features and advantages of the invention result from the following description of preferred exemplary embodiments with reference to the drawings.

Show it

FIG. 1 shows an embodiment of a device according to the invention with a ring distributor in a simplified, schematic representation;

FIG. 2 shows a side view of the embodiment according to FIG. 1 in a simplified, schematic representation;

FIG. 1 shows an embodiment of a device according to the invention with a ring distributor 2 in a simplified, schematic representation. The air-laying device 1 is used to produce a fiber mat from at least partially wood pulp fibers and/or cellulose fibers. It has a ring distributor 2 with a ring channel and a fiber feed 10 . The annular channel has a section which is formed by an outlet element 3 with openings through which the fibers fed through the fiber feeder 10 can exit from the annular channel into the stilling channel 4 and move up to the forming fabric 5 in order to form the fiber mat on the forming fabric 5. In this example, the outlet element 3 has slit-shaped openings, the dimensions of which are less than 10 mm in width and greater than 10 mm in length. The section with the outlet element 3 is arranged in a calming channel 4 extending downward in the direction of a forming fabric 5 . The ring channel of the ring distributor 2 is suitably designed so that the fibers and, if necessary move the fiber agglomerates and aggregates in an annular flow generated by an air current. Some of the fibers and, if present, some of the additives leave the annular channel via the outlet element 3 and go directly into the calming channel 4 and then onto the forming fabric 5 to form a fiber mat in batch operation or a fiber mat web in continuous operation. In the annular flow, the fiber agglomerates are broken up into individual fibers. Before the fibers leave the ring channel, they are preferably transported several times in a circle by the ring flow. The multiple circulations improve the dissolution of fiber agglomerates on the one hand and on the other hand a homogeneous mixture of the solids in the air flow is achieved. In the area of the fiber feed 10, an air nozzle 6 is used as a propulsion jet nozzle in order to generate a negative pressure in the fiber feed 10 in order to facilitate the feeding of wood pulp fibers and/or cellulose fibers and/or additives into the annular flow of the annular channel. Several air nozzles 6 flow along the ring channel of the ring distributor 2 to generate an air flow and to break up fiber agglomerates these are resolved into individual fibers. In this example, this effect is further supported by mixed particles 8 for mixing the fibers and for breaking up fiber agglomerates. The calming channel 4 is arranged at a small distance from the forming fabric 5 . A suction device 11 is assigned to the forming fabric. As a result, fiber placement is supported and a more compact fiber mat or a more compact fiber mat web can be achieved.

FIG. 2 shows a side view of the embodiment according to FIG. 1 in a simplified, schematic representation. The cleaning nozzles 7 acted upon by compressed air or air from a blower for cleaning the outlet element 3 are shown here. To improve the cleaning effect, these can be arranged in a circular oscillating manner about an imaginary axis perpendicular to the plane of the drawing. It is also conceivable that they are set up to oscillate in an elliptical manner. In addition, it is possible for the oscillating movement to be combined with a translatory movement. The air-laying device 1 can be designed as suitable for laboratory use and the forming fabric can be arranged statically. The air-laying device 1 shown is designed to be suitable for the continuous production of fiber mat webs. In this case, the forming fabric 5 can be moved in a running direction 9 . It is preferably designed as a circulating belt guided over a number of rollers.

Corresponding elements in the figures are provided with the same reference symbols. The functions of such elements in the individual figures correspond to one another unless otherwise described and it does not lead to contradictions. A repeated description is therefore omitted.

Reference List

air laying device

ring distributor

outlet element

calming channel

forming fabric

air nozzle

cleaning nozzle

mixed particles

running direction

fiber feeding

suction device

Claims

8th

Air-laying device (1) for producing a fiber mat at least partially from wood pulp fibers and/or cellulose fibers, with a ring distributor having a fiber feed (10), an annular channel with an outlet element (3) forming a section of the annular channel

(2), this section being arranged within a calming channel (4) extending downwards in the direction of a forming fabric (5) and the outlet element

(3) has openings through which the fibers fed through the fiber feed (10) from the ring channel into the calming channel

(4) leak and move up to the forming fabric to on the forming fabric

(5) to form the batt. Air-laying device according to Claim 1, characterized in that wood pulp fibers and/or cellulose fibers and/or additives are supplied in the air stream through the fiber feed (10). Air-laying device according to Claim 1 or 2, characterized in that a plurality of air nozzles (6) open into the annular channel in order to generate an air flow and to break up fiber agglomerates. Air laying device according to one of the preceding claims, characterized in that cleaning nozzles (7) are arranged outside the ring channel for cleaning the openings of the outlet element (3). Air laying device according to one of Claims 2 to 4, characterized in that the air nozzles (6) and/or cleaning nozzles (7) are supplied with a pulsating or oscillating air stream. 9

6. Air laying device according to one of claims 2 to 5, characterized in that the air nozzles (6) and / or cleaning nozzles (7) are fixed or movably mounted.

7. Air laying device according to one of the preceding claims, characterized in that the calming channel (3) seals off with the forming fabric (5) or is at a distance from the forming fabric (5).

8. Air laying device according to one of the preceding claims, characterized in that the forming fabric (5) is associated with a suction device (11).

9. Air laying device according to one of the preceding claims, characterized in that the openings have a maximum width of 10 mm.

10. Air laying device according to one of the preceding claims, characterized in that the openings are slot-shaped or round.

11. Air laying device according to one of the preceding claims, characterized in that the annular channel contains mixed particles (8) for mixing the fibers and for breaking up fiber agglomerates.

12. Device according to one of the preceding claims, characterized in that the air laying device (1) is suitable for laboratory use and the forming fabric (5) is arranged statically.

13. Device according to one of claims 1 to 12, characterized in that the air-laying device (1) is suitable for producing continuous webs of fiber mats and the forming fabric can be moved in one running direction and preferably forms an endless loop.