Method for producing a honeycomb structure

Abstract

A method for producing a honeycomb structure having at least one at least partially structured metal foil, such that, in subregions of the honeycomb structure, a portion of the at least one metal foil is arranged spaced apart from an adjacently arranged portion of the at least one metal foil so as to be electrically insulated by an air gap therebetween, includes: providing the at least one metal foil; providing a forming plate having a bearing surface and having at least one first web structure extending from the bearing surface in an axial direction, the first web structure extending in a plane parallel to the bearing surface and defining the air gap to be produced in the honeycomb structure; and arranging the at least one metal foil on the bearing surface in the first web structure.

Claims

1. A method for producing a honeycomb structure (1) having at least one at least partially structured metal foil (2), such that, in subregions (3) of the honeycomb structure (1), a portion of the at least one metal foil (2) is arranged spaced apart from an adjacently arranged portion of the at least one metal foil (2) so as to be electrically insulated by an air gap (4) therebetween, the method comprising: providing the at least one metal foil (2); providing a forming plate (5) having a bearing surface (6) and having at least one first web structure (8) extending from the bearing surface (6) in an axial direction (7), the first web structure (8) extending in a plane (9) parallel to the bearing surface (6) and defining the air gap (4) to be produced in the honeycomb structure (1); and arranging the at least one metal foil (2) on the bearing surface (6) in the first web structure (8).

2. The method as claimed in claim 1, further comprising: connecting the forming plate (5) to the at least one metal foil (2), so as to interconnect the at least one metal foil (2) for permanent formation of the honeycomb structure (1); and then removing the forming plate (5) having the first web structure (8) from the honeycomb structure (1).

3. The method as claimed in claim 2, wherein the connecting step comprises soldering.

4. The method as claimed in claim 1, wherein the forming plate (5) has a plurality of first openings (10) extending through the forming plate (5) in the axial direction (7), wherein a support pin (11) is passable through at least one of the first openings (10) to as to arrange the honeycomb structure (1) according to the arranging step.

5. The method as claimed in claim 1, wherein, in the arranging step, use is additionally made of a winding spiral (12) having a spiral-shaped second web structure (13) that corresponds to the first web structure (8), wherein the second web structure (13) terminates in a flush manner in the axial direction (7) at a first end side (14) facing the forming plate (5), wherein the second web structure (13) has a pitch (16) at the second end side (15), wherein, proceeding from a center (17) of the second web structure (13), the second end side (15) continuously approaches the first end side (14) along the spiral-shaped windings (18), and wherein the winding spiral (12) has at least two pins (19), which extend further along the axial direction (7) proceeding from the center (17), the arranging step further comprising: receiving the at least one metal foil (2) between the at least two pins (19); continuously receiving, by rotation of the winding spiral (12), the at least one metal foil (2) into the second web structure (13); and then transferring the at least one metal foil (2) into the first web structure (8).

6. The method as claimed in claim 5, wherein the winding spiral (12) has driving pins (20) extending from the second web structure (13) at the first end side (14), the driving pins (20) extending into second openings (21) in the first web structure (8) and/or in the forming plate (5) and/or into first openings (10) in the forming plate (5).

7. The method as claimed in claim 6, wherein, in the arranging step, use is also made of a winding plate (22) having a slot (23) extending in a spiral-shaped manner and corresponding to the second web structure (13), wherein, during the rotation of the winding spiral (12), the winding spiral (12) sinks into the slot (23) with the second web structure (13) and starting with the center (17), and thus the at least one metal foil (2), arranged between the winding plate (22) and the winding spiral (12), is, along the axial direction (7), gradually introduced into the winding spiral (12) and then transferred into the first web structure (8).

8. The method as claimed in claim 1, wherein, prior to being arranged in the first web structure (8), the at least one at least partially structured metal foil (2) forms a multi-layered stack (24).

9. A winding device (25) for implementing the method as claimed in claim 1, comprising: the forming plate (5) having the first web structure (8).

10. The winding device (25) as claimed in claim 9, wherein the winding device (25) further comprises: at least one winding spiral (12) having a second web structure (13), and a winding plate (22).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention and the technical field will be explained in more detail below on the basis of the figures. It should be pointed out that the figures show particularly preferred embodiment variants of the invention, to which the invention is however not restricted. Here, identical components in the figures are denoted by the same reference signs. In the figures, in each case schematically:

(2) FIG. 1 shows a stack of metal foils in a perspective view;

(3) FIG. 2 shows a forming plate in a perspective view;

(4) FIG. 3 shows a honeycomb structure and a forming plate in a perspective view;

(5) FIG. 4 shows a honeycomb structure in the finished state with an air gap in a perspective view;

(6) FIG. 5 shows a second forming plate in a perspective view; and

(7) FIG. 6 shows a winding device in an exploded illustration and perspective view.

DETAILED DESCRIPTION OP THE PRESENTLY PREFERRED EMBODIMENTS

(8) FIG. 1 shows a stack 24 of metal foils 2 in a perspective view, and the method step a.

(9) FIG. 2 shows a forming plate 5 in a perspective view, and the method step b. The forming plate 5 has a first web structure 8. The first web structure 8 forms in the honeycomb structure 1 in the finished state (that is to say also for example which has undergone connection by way of a soldering process) the air gap 4 to be produced (see FIG. 4). To this end, the first web structure 8 has, proceeding from the bearing surface 6 of the forming plate 5, a height in the axial direction 7 such that the metal foils 2 to be arranged in the first web structure 8 are able to sink into the first web structure 8 far enough so chat a fixed air gap 4 is able to be produced with constant width along the axial direction 7 (see FIG. 3). The first web structure 8 extends in a plane S parallel to the bearing surface 6, that is to say transverse to the axial direction 7. The first web structure 8 thus allows a current path to be predefined in the honeycomb structure 1. The forming plate 5 furthermore has a plurality of first openings 10, which extend through the forming plate 5 in the axial direction 7, wherein a support pin 11 is able to be passed through at least one of the first openings 10 for the purpose of arrangement in the honeycomb structure 1 according to step c.

(10) FIG. 3 shows a forming plate 5 and a honeycomb structure 1 arranged thereon in a perspective view, and method step c. Here, the first web structure 8 extends in the axial direction 7 with constant height. Here, the first honeycomb structure 1 comprises a plurality of at least partially structured metal foils 2, wherein, in subregions 3 of the honeycomb structure 1, individual metal foils 2 are arranged spaced apart from an adjacently arranged metal foil 2 so as to be electrically insulated by an air gap 4.

(11) In this state, in a further step d., the forming plate 5 is sent, together with the at least one metal foil 2, to a connection step in which interconnection of the at least one metal foil 2 is realized for the permanent formation of the honeycomb structure 2.

(12) FIG. 4 shows a honeycomb structure 1 in the finished state with an air gap 4 in a perspective view. In step e., the forming plate 5 with the first web structure 8 has been removed from the honeycomb structure 1.

(13) FIG. 5 shows a second forming plate 5 in a perspective view. The statements made regarding FIG. 2 apply correspondingly. Provided here likewise is a plurality of first openings 10, which extend through the forming place 5 in the axial direction 7. The first web structure 8 comprises multiple windings 18 and furthermore has second openings 21 into which driving pins 20 of the winding spiral 12 can extend (see FIG. 6).

(14) FIG. 6 shows a winding device 25 in an exploded illustration and perspective view. The winding device 25 shown here is used in step c. of the method. The winding device 25 comprises a receiving part 26 drivable at least in one circumferential direction 27. The winding device 25 further comprises a forming plate 5, a winding spiral 12 and a winding plate 22.

(15) The winding spiral 12 has a spiral-shaped second web structure 13, which corresponds to the first web structure 8 on the forming plate 5, wherein the second woo structure 13 terminates in a flush manner in the axial direction 7 at a first end side 14 facing the forming plate 5, wherein the second web structure 13 has a pitch 16 at the second end side 15. Proceeding from a center 17 of the second web structure 13, the second end side 15 continuously approaches the first end side 13 along the spiral-shaped windings 18, wherein the winding spiral 12 has at least two pins 19, which extend further along the axial direction 7 proceeding from the center 17. The stack 24 of metal foils 2 is received between the two pins 19 and, by rotation of the winding spiral 12, continuously received into the second web structure 13 and then transferred into the first web structure 8.

(16) The winding spiral 12 thus allows automated arrangement of the at least one metal foil 2 in the first web structure 8. Proceeding from a first end side 14 of the winding spiral 12, which aide faces the forming plate 5 and the first web structure 8 arranged thereon, a second web structure 13 extends in a spiral-shaped manner, on the one hand along a circumferential direction 27 and in a radial direction 28 from the outside inward, and on the other hand with each winding 18 in the axial direction 7 too. Here, the complete second web structure 13 terminates in a flush manner at the first end side 14, wherein the second web structure 13 extends with a pitch 16 progressively along the axial direction 7 at the second end side 15, with the result that a center 17 at the second end side 15 of the second web structure is arranged at a maximum distance from the first end side 14. The pitch 16 of the spiral second web structure 13 makes it possible that, during rotation of the winding spiral 12, the one metal foil 2 (or the stack 24 of metal foils 2) is gradually wound in a spiral proceeding from the center 17, and an increasing number of windings 18 (proceeding from an innermost winding 18 at the center 17 to an outermost winding 18) are received in the second web structure 13.

(17) In this case, the second web structure 13 likewise forms the predetermined air gaps 4 in the honeycomb structure 1. The second web structure 13 corresponds at least substantially to the form of the first web structure 8 (in a plane 9 transverse to the axial direction 7). Consequently, the at least one metal foil 2 can be transferred from the winding spiral 12 into the first web structure 8 of the forming plate 5 along the axial direction 7, and the winding spiral 12 can continue to be used for the next winding process.

(18) Here, the winding spiral 12 has driving pins 20 which extend from the second web structure 13 at the first end side 14 in the axial direction 7 and which extend into second openings 21 in the first web structure 8 and/or in the forming place 5 and/or into first openings 10 in the forming plate 5.

(19) The driving pins 20 ensure an aligned arrangement of the first web structure 8 and the second web structure 13. Furthermore, it is thus possible to couple the rotational movement of the receiving part 26, forming plate 5 and winding spiral 12 for winding the at least one metal foil 2.

(20) Also shown here is a winding plate 22 which has a slot 23 that extends in a spiral-shaped manner and corresponds to the second web structure 13. During the rotation of the winding spiral 12, the winding spiral 12 sinks into the slot 23 with the second web structure 13 and starting with the center 17, and thus gradually transfers, along the axial direction 7, the at least one metal foil 2, arranged between the winding plate 22 and the winding spiral 12, into the winding spiral 12 and, finally, into the first web structure 8.

(21) The winding plate 22 is of planar form here, with the result that the at least one metal foil 2 is guided substantially in its entire extent along the axial direction 7.

(22) Thus, while there have been shown and described and pointed out fundamental novel features of the invention as applied to a preferred embodiment thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices illustrated, and in their operation, may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.