WO2019070156A1

WO2019070156A1 - Method for fabricating a blank of an acoustic structure

Info

Publication number: WO2019070156A1
Application number: PCT/RU2018/000640
Authority: WO
Inventors: Алексей Александрович АЛЕКСЕНЦЕВ; Валерий Алексеевич КУЗНЕЦОВ; Михаил Анатольевич ГРИНЕВ; Кристина Анатольевна МАЗУРЕНКО; Руслан Вячеславович БУРДАКОВ; Александр Васильевич ТРУХТАНОВ; Вячеслав Валерьевич АРТЕМЬЕВ; Алексей Борисович ПОСПЕЛОВ
Original assignee: Акционерное общество "Объединенная двигателестроительная корпорация" (АО "ОДК")
Priority date: 2017-10-05
Filing date: 2018-10-03
Publication date: 2019-04-11
Also published as: RU2017135487A; RU2699298C2; RU2017135487A3

Abstract

The invention relates to a sound-absorbing structure for an aircraft engine nacelle. In the fabrication of an acoustic structure, a honeycomb element is prepared, having a first edge and a second edge and a row of walls therebetween which delimit a row of cells. Septum caps are produced, formed by a sheet of an elastic material that is sufficiently resilient in order for it to be folded and inserted in the cells to form septum caps comprising a resonator portion and a flange portion. The resonator portion extends transversely relative to the cells and has an outer edge located at the walls, and the flange portion extends parallel to the walls and comprises an anchoring surface that is in frictional contact with the walls. Prior to production of the septum caps, the sheets of elastic material are treated by being passed through a calender, and the flange portion of the septum caps is subjected to perforation. Next, 3 or 6 incisions are made in the flange portion of the septum cap cutouts, as far as the outer edge of the resonator portion, and the septum caps are placed in the cells and fastened in place simply by means of frictional locking with the walls. The invention allows more effective reduction of acoustic noises.

Description

A method of manufacturing a billet acoustic structure

The present invention relates to acoustic systems, and can be used to fill the sound-absorbing structure of an aircraft engine nacelle used to reduce acoustic noise.

In the field of aircraft engine building there is a problem associated with the need to create an acoustic structure with broad sound absorption characteristics.

Closest to the claimed method of manufacturing acoustic

15 of the structure is a method for producing a preform of an acoustic structure in which a honeycomb element is provided comprising a first and a second edge, wherein said honeycomb element further comprises a row of walls located between said first and second edges, and the walls define a row of cells in which indicated

20, the cell has a cross-sectional area perpendicular to said walls and a depth limited by the distance between said first and second edges; membrane covers are formed by a sheet of elastic material having a thickness and an outer border, wherein said sheet

25 of elastic material is sufficiently elastic so that it can be rolled up and inserted into the said cells with the formation of the mentioned membrane caps containing a resonator part, which runs transversely relative to the said cells and has an outer edge located at the said walls, and a flange part extending from parallel to the said walls and containing a stopping surface that is in frictional contact with said walls, wherein said stopping surface has a width, wherein she ins locking surface and the ability of the elastic material to restore its original shape enough to provide friction clutch membrane covers with cell walls, place membrane covers in cells so that membrane covers are fixed in place only by friction clutch membrane covers with walls, before performing membrane covers from a sheet of elastic material, the said sheet of elastic material is processed, and the flange part mentioned membrane caps are subjected to perforations (Patent RU 2606454, IPC: G10K11 / 172, publ. 10.01.2017).

The disadvantage of this method is the possibility of displacement and loss of the patterns of membrane covers from the cells of the honeycomb element to the stage of applying adhesive due to insufficient frictional closure of the patterns of membrane covers with the walls of the cells of the honeycomb element. The consequence of which is the presentation of high requirements for the stability of the geometry of the honeycomb core.

The technical objective of the claimed invention is to increase the effectiveness of reducing acoustic noise and reducing the number of scrap in the blanks of the acoustic structure.

The task with the achievement of the technical result of the claimed invention is solved by the fact that in the method of manufacturing a workpiece acoustic structure, which provides a honeycomb element containing the first and second edges, with the specified honeycomb element further comprises a number of walls located between the specified first and second edges, with Thereby, said walls limit a series of cells, in which each indicated cell has a cross-sectional area located perpendicular to said walls, and depths y, limited by the distance between said first and second edges, membrane covers are formed, formed by a sheet of elastic material having a thickness and an outer border, wherein said sheet of elastic material is sufficiently elastic so that it can be rolled up and 5 to insert into the said cells with the formation of the mentioned membrane caps containing a resonator part that extends transversely relative to the said cells and has an outer edge located at said walls and a flange part extending parallel to the said walls and containing a stopping surface located in frictional contact with these walls, with the specified locking surface has a width, with the width of the locking surface and the ability of an elastic material to restore the original This shape is sufficient to ensure frictional adhesion of membrane caps with cell walls,

15 place the membrane covers in the cells so that the membrane covers are locked in place only by frictional adhesion of the membrane covers to the walls, before the membrane covers are made of an elastic material sheet, the said elastic material is processed, and

20, the flange part of the mentioned membrane caps is subjected to perforation, characterized in that the processing of a sheet of elastic material is carried out by passing through a calender, and before placing the membrane caps, incisions are made in the flange portion of the diaphragm cap patterns to the outer edge of the resonator portion.

25 In addition, the number of cuts in the flange part of the pattern of membrane covers is 3 or 6. Passing a sheet of elastic material through a calender can increase the effectiveness of reducing acoustic noise, adjust the amount of acoustic resistance of membrane covers, and reduce acoustic noise. The length of the incisions and the zoo direction are adjusted for each of the cells according to an algorithm that ensures optimal intersection of the patterns of the membrane caps in the corners of the cells of the honeycomb element without wrinkling the material. This gives a reduction in the requirements for the accuracy of manufacture of the honeycomb element, and allows for a reduction in the number of scrap in the blanks 5 acoustic structure due to the more dense junction of the patterns of membrane covers to the walls of the honeycomb element in the process of their placement in the cells of the honeycomb element.

A single set of essential features with common known provides a solution to the problem with the achievement of technical result and characterizes the proposed technical solution significant differences compared with the prior art and allows to increase the effectiveness of reducing acoustic noise and reduce the number of defects in the blanks of the acoustic structure.

The invention is illustrated by drawings, where:

15 in FIG. 1 is a cross-sectional view of an exemplary blank of a sound-absorbing structure, in which a set of membrane caps is located inside the cells of a honeycomb element;

in fig. 2 shows a cross-sectional view of an exemplary membrane cap;

20 in FIG. 3 is a perspective view of exemplary diaphragm cap patterns.

A method of manufacturing a billet acoustic structure is as follows, in the manufacture of the billet acoustic structure 1, perform the steps that provide honeycomb element 2, which

25 comprises a first edge 3, located closest to the noise source, and a second edge 4. Cellular element 2 further comprises a row of walls 5 located between two edges 3 and 4 to form a row of cells 6. Each of the cells 6 has a cross-sectional area located perpendicular to the cell walls, and the depth bounded by the distance z0 between the first and second edges. Ensure the implementation of membrane covers 7 from a sheet of elastic acoustic material for the subsequent location inside the cells 6 of the honeycomb element 2. As a sign of the present method of manufacturing a preform of the acoustic structure, the sheet of elastic acoustic material is processed, passing through at least two rolls of a calender whereby calendering is carried out. The advantage of this procedure is that calendering allows you to adjust the amount of acoustic resistance of the membrane covers 7. The membrane covers 7 are formed from a sheet of elastic acoustic material by folding the patterns of the membrane covers 8. The patterns of the membrane covers 8 include the resonator part 9, which runs in the transverse plane section relative to the cells 6 of the honeycomb element 2 and has an outer edge 10 located at the walls 5, and a flange portion 11, extending parallel to the walls 5 and containing the locking surface 12, which is in frictional contact with the walls 5. Making patterns of membrane caps 8 is provided by cutting a sheet of elastic acoustic material. Pre-placement and fixation in the cells 6, the flange part 11 of the membrane cover patterns 8 is perforated and notched to the outer edge of the resonator part 10. Pre-perforation of the patterns before bending in the form of a membrane provides channels into which glue can penetrate to enhance the connection of the membrane covers 7 and the cell element 2. Cut to the outer edge of the resonator part 10 provides a reduction in the number of scrap in the blanks of the acoustic structure, due to more dense junction of the membrane roof patterns 8 to the walls 5 of the honeycomb element 2 in the process of their placement in the cells 6. The step of folding and inserting into the cells 6 of the honeycomb element 2 of the patterns of the membrane covers 8 is performed together using the punch so that the membrane covers 7 are fixed in place only by means of friction clutch locking the surface 12 with the walls 5 of the honeycomb element 2. The frictional adhesion is ensured by the size of the locking surface, the ability of the elastic material to restore its original shape, and the absence in the corners of the cells 6 with element 2 folds of the material of the membrane caps 7. The stage of applying the binder on The mounting surface of the membrane covers 7 is performed by any procedure for applying an adhesive substance with the condition of selective application in such a way that only the flange parts of the 11 membrane covers 7 are involved.

Thus, the invention used for the engine nacelle of an aircraft engine improves the efficiency of reducing acoustic noise and reduces the number of scrap in the blanks of the acoustic structure.

Claims

5 claims

1. A method of manufacturing a billet acoustic structure, in which provide a honeycomb element containing the first and second edges, with the specified honeycomb element further comprises a series of walls located between the specified first and second edges, while these walls limit the number of cells in which each the specified cell has a cross-sectional area located perpendicular to the specified walls, and a depth limited by the distance between the specified first and second edges, perform

15 membrane covers formed by a sheet of elastic material having a thickness and an outer border, wherein said sheet of elastic material is sufficiently elastic so that it can be rolled up and inserted into said cells with the formation of said membrane covers containing a resonator portion 0 which passes transversely with respect to the said cells and has an outer edge located at said walls, and a flange portion extending parallel to said walls and containing a stopping surface, being in frictional contact with the indicated walls, the specified locking surface is wide, with this width of the locking surface and the ability of the elastic material to restore the original shape sufficiently to ensure friction adhesion of the membrane covers to the cell walls, the membrane covers are placed in the cells so that the membrane the covers were locked in place only by means of 0 frictional adhesion of the membrane covers to the walls, before making the membrane covers from an elastic sheet material, the said sheet of elastic material is processed, and the flange part of the said membrane caps is perforated, characterized in that the processing of the sheet of elastic material 5 of the material is carried out by passing through a calender, and before placing the membrane caps, incisions are made in the flange portion of the patterns of the membrane caps to the outer edge of the resonator portion.

2. A method of manufacturing a blank acoustic structure according to claim 1, characterized in that the number of cuts in the flange portion of the patterns

Yu membrane caps equal to 3.

3. A method of manufacturing a billet acoustic structure according to claim 1, characterized in that the number of cuts in the flange part of the patterns of membrane caps is 6.

15