EP1506822A1 - Method and apparatus for making an ordered packing - Google Patents

Abstract

The plate (1,3) is given a corrugation extending at angles to its edges, with a constant angle of slope. At least one plate edge section is subjected to a forming process using a die-shaped forming tool (6), which is alternately placed on/removed from the section. A similar forming tool (2) or one or more profiled rollers are used to form the corrugations. Within the edge section, the corrugations are formed to have an angle of inclination which is larger towards the edge (4) next to the section, than the constant corrugation angle before forming.

Description

The invention relates to a method for producing a profiled film, wherein the Film is provided with a corrugation, which runs obliquely to the edges of the film and has a substantially constant inclination angle, and wherein at least an edge region of the corrugated foil is formed. Further refers the invention relates to a method for producing an ordered packing, wherein at least one edge region of a foil provided with a corrugation is formed and a plurality of thus formed foils are arranged in parallel with each other. In addition, the invention relates to a corresponding device for producing a profiled foil with a first forming unit to the film with a corrugation to provided, and with a second forming unit for forming at least one Edge area of the film.

In separation columns become the mass and / or heat exchange of two fluids frequently ordered packs used. Such packages have several perpendicular arranged packing sheets, at least partially obliquely from above to have undulating curvature below. Under corrugation is in the following any the Packing sheet embossed structure understood that for a liquid on the Pack is abandoned, forming flow channels. Such flow channels can be created by folding, bending, bending or other structuring of the sheets become. The individual packing sheets are so within the pack juxtaposed, that the oblique flow channels Cross adjacent packing sheets.

It is known that the throughput of such ordered packages through an improvement of the liquid drainage in the area of the lower edge of the packing plate increase significantly.

If several packages are arranged one above the other, these will be added to the Distribute liquid more uniformly in the column, usually oriented so that whose flow channels are each rotated by 90 ° to each other. This has however the disadvantage that the flow resistance for the flowing through the pack Gas at the junction of two superimposed packs particularly high is because the flowing from the lower pack gas flowing in the direction new folding direction must change to in the flow channels of the upper pack too reach.

At the same time, the hydraulic cross section at the joint is significantly reduced. By the interaction with the downflowing liquid accumulates on the Lower edge of the upper packing liquid on which the hydraulic cross section narrows.

Various methods are known to reduce these problems and the Increase capacity of an orderly pack. Thus, in EP 0 707 885 A1 proposed to use the lower or upper edge region of the packing sheets to provide vertical channels. At the junction of two superimposed Arranged packs then have to be the gas flowing upwards Flow direction less or not change at all, so that the Flow resistance is significantly reduced.

EP 1 044 787 B1 describes a process for producing such a package described with vertical course of the channels on the pack edge. A planner Film strip is conveyed to a forming unit and pleated, with edges arise, which has a constant angle of inclination to the edges of the film strip have. In a further shaping unit are in peripheral zones of the Film strip by means of a pair of rollers, the edges by plastic deformation eliminated and simultaneously replaced by curved edges, the angle of inclination of the Center zone continuously increase to the edges of the film strip.

However, with the proposed method, only one two immediately adjacent edges are reshaped. Once at the Forming edge formed an adjacent edge of the original Folienstreifens crosses, another forming step is necessary. By the multiple Reshaping the edge area makes it difficult to get the original clock speed to keep the production line.

From US 2002/0112811 A1 is also a process for the preparation of Packungsblechen known which have a channel structure in which the channels in the upper and lower edge area of the packing plate vertically and in between run obliquely to the upper and lower Packungsrändem. In this process a flat packing sheet is gradually moved through two relative to each other oscillating moving stamp, each of the desired modification of the Reproduce packing plates, reshaped.

As with this method, the packing sheet at one time across its entire width In a forming step, only a few channels can be transformed Packing be embossed. Otherwise, excessive deformations of the Packing sheet occur. There are therefore a large number of forming steps necessary to provide the entire plate with the channel structure.

Object of the present invention is therefore to show a method which it allowed, corrugated packing sheets with a modified edge region and such Packing sheets having packings produce almost as fast as usual packing sheets or usual packages without modifications. Furthermore, a device suitable for this purpose should be made available.

This object is achieved by a method of the type mentioned solved, wherein the edge region by means of a punch-shaped forming tool is deformed, which alternately brought into contact with the edge region and is removed from the edge area.

In order to produce an ordered packing, according to the invention, at least one Edge region of a corrugated foil by means of a stamp-shaped Forming tool formed, which alternately with the edge area in Contact and removed from the edge region, and a variety of such Formed films are arranged parallel to each other.

In this case, it may be favorable to first of all the edge region of the film according to the invention reshape and then adjust the film according to the size of the desired To divide packing element into individual sections. It has also been called proved advantageous, only the desired portions of the corrugated foil cut to length and then reshape the edge region according to the invention. For example, the deformation of the edge region immediately before stacking the cuts are made.

The separation of the section is preferably carried out simultaneously with the deformation of the Border area of another piece of film. While the stamp-shaped Forming tool acts on a specific edge region of the film is at the same time another part of the film cut off. Because of that Forming of the border area simultaneously with the necessary cutting anyway a portion of the film happens, that is for the production of the invention time not needed or only slightly larger than that for the production of a film time required without reshaped edge area.

An inventively suitable device for producing a profiled film has a first forming unit to provide the film with a corrugation, as well a second forming unit for forming at least one edge region of the film. According to the invention, the second forming unit is a stamp-shaped forming tool formed, which alternately brought into contact with the edge region and of the edge area is removed.

Under border area becomes a strip-shaped, parallel to an edge of the film extending part of the film understood. The size of the border area can vary, However, this preferably takes at most 10%, preferably at most 5% of the film one. The area of the film between the two border areas or, if only one Edge area to be reshaped, the area between this edge area and the opposite edge of the film is referred to as the main area.

The terms "top" and "bottom" refer to the following Flow direction of the liquid through the pack after their Proper installation in, for example, a mass transfer column. Of the upper edge region thus extends along the packing sheet edge over which the Liquid enters the flow channels formed by the sheets, and the lower Edge area accordingly along the edge of the sheet over which the liquid Leaves flow channels again.

The invention is particularly suitable for producing structured films of metal. For this reason, in the following the terms "foil" and "packing sheet" partly used synonymously. This formulation is not intended to limit the Invention on the structuring of metal foils represent. The invention Method is also suitable to films made of other materials, for example Plastic, reshape.

According to the invention, a profiled film, in particular a packing sheet for a ordered packing, provided with a corrugation, oblique to the edges of the film runs and a substantially constant angle of inclination to the edges has. Preferably, the corrugation continues into the edge regions of the film. It But it is also possible to provide only the main area of the film with the corrugation and not to structure the edge regions in this process step.

At least one edge region of the corrugated foil is by means of a formed stamp-shaped forming tool. The forming tool is as a kind Executed stamp and gives the desired modification of the edge region of the film again. The forming tool is pressed onto the foil, whereby the structure of the Film in the edge region is changed by the mechanical force. Subsequently, the forming tool is lifted off the film again and the Forming tool and the film are moved in the film plane relative to each other, so that another part of the film can be modified with the help of the forming tool can.

The invention produced, corrugated foils with modified edge region are arranged to produce an ordered package in parallel and usually linked together. The individual foils or packing sheets then have a main area with formed by the applied corrugation Flow channels and one or two edge areas in which the structure of the Film that deviates from the main area.

Preferably, the corrugation in the main area, which is a substantially has constant angle of inclination, by means of a punch-shaped forming tool produced. But instead of a stamp-shaped forming tool can do this also, analogously to the method mentioned in EP 1 044 787 B1, an or Several profiled rollers are used, over which as starting material used film are rolled while the profile located on the rollers on transfer the main area of the film.

Of the different ways to modify the border area to the To reduce flow resistance for the gas entering a packing layer, In particular, a modification of the angle of inclination of the corrugation has proven itself. Preferably, the edge region is reshaped so that in the edge region of the Inclination angle of the corrugation to the edge of the edge bounding film edge greater than the constant angle of inclination of the corrugation before forming. Preferably, the angle of inclination of the corrugation in the edge region is more than 80 °, more preferably about 90 °.

As mentioned above, in a rectification column often more Packing layers arranged one above the other, where it is at the junction of two Packing layers to increased gas flow resistance comes. It is therefore particularly favorable in terms of flow technology if both adjoining edge regions of the packing sheets of two packing layers be transformed according to the invention. By suitable transformation of the edge areas may be the resistance for that from the through the corrugation in the bottom Packing layer formed channels escaping gas and into the channels of it above lying gas layer occurring gas layer can be significantly reduced.

Manufacturing technology, however, it is often cheaper if only one edge of the Foil is transformed according to the invention. It has been shown that the flow technical advantages can be achieved even if largely of two adjoining edge regions of two packing layers only one, preferably the lower, is transformed according to the invention.

Of advantage, the film before forming the edge region with a perforation and / or a fine profile provided to the efficiency of the film to increase the size of the pack produced.

According to the invention, the film or the packing sheet is structured in two steps. First, the entire width of the film or at least the main area the film applied a corrugation with obliquely extending to the edge of the film channels. In a second step, at least one of the two edge regions, the upper one and / or the lower edge region, by means of a stamp-shaped forming tool modified.

The invention uses the possibility of using a stamp-shaped Forming tool to reshape a larger portion of the film at once can. Theoretically, with a single stamping process can take any length Edge areas are reshaped. In practice, stamps are preferred used to reshape the edge area over a length between 0.5 m and 1.5 m can.

The risk that the film deforms too much unintentionally, is thereby countered that the film is not over its entire width, but only in a border area is transformed. The invention thus enables a defined Structuring of the film, in particular a defined transformation of at least one Edge of the film, with high cycle speed.

Advantageously, the film passes through a first forming unit, in which the film with the Curl, and immediately thereafter become the or Edge areas transformed according to the invention. The production speed is in the Comparison to the production of a pack without modified edge area not or only slightly reduced.

Figur 1

die Draufsicht auf eine Anlage zur erfindungsgemäßen Herstellung eines Packungsblechs und

Figur 2

den Ablauf eines alternativen Herstellungsverfahrens gemäß der Erfindung.

The invention and further details of the invention are explained in more detail below with reference to the exemplary embodiments illustrated in the drawings. This shows

FIG. 1

the top view of a plant for the manufacture of a packing sheet according to the invention and

FIG. 2

the course of an alternative manufacturing method according to the invention.

FIG. 1 shows a system for producing packing sheets. to Producing an ordered packing will be a variety of such packing sheets arranged according to their structuring parallel to each other.

The starting material used is a perforated aluminum sheet 1. The Aluminum sheet 1 is unrolled from a roll and a first forming unit. 2 fed. In the forming unit 2, the aluminum sheet with an example triangular or sinusoidal corrugation. The corrugation of the sheet 1 can either by a punch-shaped forming tool or by means of a Rolling done.

In the first method, the sheet 1 is gradually fed to the forming unit 2, then, by means of the punch-shaped forming tool, the sheet is corrugated imprinted and then the sheet is transported a piece, so that the just waved section leaves the forming unit and a still unconverted Section enters the forming unit.

The sheet metal 3 leaving the forming unit 2 has a substantially lower one constant angle of, for example, 45 ° or 60 ° obliquely to the edge of the sheet 4 running channels on. The corrugation extends over the entire width of the Sheet 3, that is from the sheet edge 4 to the opposite sheet edge. 5

According to the invention, the aluminum sheet 1 is deformed in two steps. The first Forming unit 2 is therefore a forming tool 6 downstream to the structure of the already corrugated sheet 3 to modify. The corrugated sheet 3 is this in a narrow edge region along the sheet edge 4, which is about 1 to 5% of Total width of the sheet 1, 3 makes up, processed with the forming tool 6.

The forming tool 6 is formed as a kind of stamp on the sheet. 3 is pressed and modified the already existing structure of the sheet 3. By the Forming tool 6, the edge region along the edge 4 is modified so that the angle of inclination of the channels of z. B. about 45 ° or 60 ° gradually, that is with a technically feasible radius, at an angle of about 90 ° to Sheet edge 4 passes.

After leaving the forming unit 6 is a structured sheet 7, which over most of its width a corrugation with a constant angle of inclination from 45 ° or 60 ° to the sheet edge 4 has, in an edge strip along the edge 4 but modified so that the angle of inclination of the channels gradually into the Vertical passes.

With the help of the cutting blade 8 are then of the sheet 7 accordingly cut the desired packing sheet size cuts 9. Preferably the cutting of a section 9 takes place simultaneously with the pressing of the Stamp 6 on the plate 3. In this way, the clock speed of Packing sheet production by the additional modification according to the invention not affected. A packing sheet, which according to the invention in two steps has been reshaped, is thus just as quickly finished as a conventional one Packing sheet, which was structured only in a single forming step.

It is also possible not only the strip along the edge 4, but both Form edge areas along the sheet edges 4 and 5. In this case, the Forming unit 6 downstream of another forming unit or connected in parallel be to reshape the adjacent to the film edge 5 edge region. Preferably, in this case, the forming unit 6 and the other act Forming unit at the same time on the film to the clock speed of Do not reduce production. Generally, it is convenient if all are not continuous working devices as possible on the film simultaneously - usually on different sections or sections of the film - act.

To produce an ordered package several sections 9 are parallel arranged to each other, wherein, optionally apart from or from the Edge regions, the channels of adjacent packing sheets 9 intersect. such For example, packs are used for material and heat exchange in one Rectification column of a cryogenic air separation plant used.

Figure 2 shows an alternative method of making an ordered package. Like reference numerals refer to like elements in both figures. The Output sheet 1 is in turn by means of a forming unit 2 with an oblique Provided corrugation. According to the desired package size then from the corrugated sheet 3 with a cutting tool 8 sections 9th separated.

In the next method step, every second section 9b is turned so that the Undulations of successive sections 9a, 9b run opposite. One Stamp formed forming tool 6 forms the lower edge region. 4 each section 9, 9a, 9b so that the corrugations in the edge region in Aligned substantially perpendicular to the lower edge 4 of the section 9, 9a, 9b. Finally, the sheets 9, 9a, 9b formed according to the invention become alternating stacked on each other, so that the corrugations of adjacent sheets 9a, 9b cross.

Claims (14)

A method of producing a profiled sheet, wherein the sheet is provided with a corrugation extending obliquely to the edges of the sheet and having a substantially constant angle of inclination, and wherein at least one edge portion of the corrugated sheet is reshaped, characterized in that the edge region is reshaped by means of a stamp-shaped forming tool (6), which is alternately brought into contact with the edge region and removed from the edge region. A method according to claim 1, characterized in that the film (1) by means of a punch-shaped forming tool (2) with the corrugation (3) is provided. A method according to claim 1, characterized in that the film (1) by means of one or more profiled rollers with the corrugation (3) is provided. Method according to one of claims 1 to 3, characterized in that the corrugation in the edge region is reshaped so that the angle of inclination to the edge region bounding the film edge (4) is greater than the constant inclination angle of the corrugation (3) before forming. A method according to claim 4, characterized in that the angle of inclination of the corrugation in the edge region is more than 80 °, preferably about 90 °. Method according to one of claims 1 to 5, characterized in that two opposite edge regions of the film are formed. A method according to claim any one of claims 1 to 5, characterized in that only one edge region of the film (3) is formed. Method according to one of claims 1 to 7, characterized in that the film is provided prior to the deformation of the edge region with a perforation and / or a fine profile. Method according to one of claims 1 to 8, characterized in that after the deformation of the edge region of the film, a portion is cut off, wherein the cutting of the portion takes place simultaneously with the deformation of an edge region. A method for producing an ordered package, wherein at least one edge region of a corrugated foil is reshaped and a plurality of such reshaped films are arranged parallel to each other, characterized in that the edge region by means of a punch-shaped forming tool (6) is transformed, which alternately with the Border area brought into contact and removed from the edge region. A method according to claim 10, characterized in that first the edge region of the film (3) formed, then cut off pieces (9) of the film and then the sections are arranged parallel to each other. A method according to claim 10, characterized in that first portions (9) are cut from the film, then the edge region of the sections (9, 9a, 9b) is formed and then the sections (9, 9a, 9b) are stacked. Device for producing a profiled film with a first forming unit in order to provide the film with a corrugation, and with a second forming unit for reshaping at least one edge region of the film, characterized in that the second forming unit (6) is designed as a stamp-shaped forming tool which alternately brought into contact with the edge region and removed from the edge region. Apparatus according to claim 13, characterized in that a third formed as a stamp-shaped forming tool forming unit is provided for forming the edge portion opposite the second forming unit with the second forming unit.

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