US2923902A - Flexible wave guide - Google Patents

Flexible wave guide Download PDF

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US2923902A
US2923902A US2923902DA US2923902A US 2923902 A US2923902 A US 2923902A US 2923902D A US2923902D A US 2923902DA US 2923902 A US2923902 A US 2923902A
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wave guide
sheets
block
honeycomb
chamber
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01PWAVEGUIDES; RESONATORS, LINES, OR OTHER DEVICES OF THE WAVEGUIDE TYPE
    • H01P3/00Waveguides; Transmission lines of the waveguide type
    • H01P3/12Hollow waveguides
    • H01P3/14Hollow waveguides flexible

Definitions

  • a principal object of this invention is to provide a novel wave guide structure adapted to have a great amount of flexibility.
  • the novel wave guide is formed of unexpended metal honeycomb core of the type described in U.S. Patents 2,756,496 to K. M. Holland and 2,734,843 to R. C. Steele, et al. and is arranged to obtain flexibility upon the honeycomb being partially expanded.
  • a feature and advantage of this invention is that the wave guide structure of this invention may be fabricated with great economy by forming the guides from the waste or end pieces cut from larger sheets of honeycomb. Such scraps or waste pieces are frequently in abundance where honeycomb is manufactured.
  • Another object of this invention is to provide a wave guide formed of a plurality of sheets of material lying face to face and with the longitudinal axis of the wave guide chamber formed at right angles to the faces of the sheet material forming the structure.
  • each of the sheets are attached one to the other along parallel spaced lines so the sheets may be bent or deformed between the attaching lines without the necessity of providing an exterior structural support, such as a flexible sheath or sleeve to hold the various sheets of metal together.
  • Another object of this invention is to provide a simple and economical wave guide structure having the characteristic of being readily deformed by twisting, bending or stretching so that the effective length of the wave guide may be increased and the two opposite ends can be positioned at substantially different angles and planes without substantially changing the transmission characteristics of the wave guide.
  • Fig. 1 is a perspective view of the novel wave guide forming a link between two pieces of electronic gear.
  • a portion of the wave guide is cut awayto show the inner structure thereof.
  • Fig. 2 is an enlarged partial section of Fig. 1.
  • Wave guide A comprises a main body formed of a block 14 ofmetal sheets 16 joined together to form uuexpanded honeycomb material and two mounting brackets 21 and 22 on each end of the block to provide means to mountthe guide on appropriate electronic equipment.
  • Brackets 21 and 22 are mounted on the outer of sheets 16 as indicated at 23 and24 respectively.
  • Each bracket comprises ,a neck 25 formed with acollar 26 integral one end of the neck which is attached to block 14 and a collar 27 integral theoppositeend of the neck to mount the bracket onelectronic equipment.
  • Block.,14 is formed with arectangular tuned chamber 15 withfthe longitudinal axis of the chamber disposed normal to thebroad faces of the individual sheets [6 which form the honeycomb material.
  • Necks 25 are similarly fornied with tuned wave guide throats 28 axially aligned with chamber'lS.
  • chamber 15 is formed by first cutting the chamber slightly larger than necessary to meet dimension necessary for the desired tuned range and thereafter a rectangular helical coil of wire as indicated at 30 is mounted on the walls of chamber 15. The thickness of the wire is thereby arranged to form the walls of chamber 15 with the proper dimension for desired resonance. Wire 30 provides regular walls for wave guide when the block is bent, twisted or stretched and thereby functions to minimize loss during operation.
  • the dimension of the opening forming the wave guide is determined by the frequency range that is to be transmitted through the guide.
  • the chamber would be .4 in. high and .9 in. in width.
  • appropriate changes in dimension are indicated.
  • the honeycomb cellular structure forming block 14 may be made as described in U.S. Letters Patent No. 2,756,496 and No. 2,734,843.
  • the cellular structure is generally formed by applying to opposite sides of an elongated web or sheet of material alternately spaced or staggered glue lines, then superposing and adheringto one another layers of said web into an unexpanded stock or block of honeycomb.
  • a stack thus formed may be sliced transversely to the glue lines to form one or more smaller slices or sections of uuexpanded honeycomb.
  • the various sheets 16, illustrated by single lines in the drawings for convenience of illustration are glued together along adhesive lines indicated at 32.
  • the areas of the sheets between the glue lines, as indicated at 33, are bendable so the structure is adaptable to be deformed by bending, axial twisting and/or expansion of the uuexpanded or partially expanded section.
  • honeycomb shall mean that type of material as described in US. Patent No. 2,756,496 and No. 2,734,843. However, it is also to be understood that this does not limit the honeycomb material as precisely described in the aforesaid patent references but rather indicates the general type core material in which various sheets of metal material are bonded togetheito form a cellular structure when expanded.
  • a wave guide comprising an unexpanded honeycomb blo'ck' formed of flexible sheets of conductive material bonded together so the sheets deform to form a cellular structure in the expanded condition, said block being formed with a chamber of substantially rectangular configuration in cross-section formed'to be tuned for the transmission of energy'of a predetermined'wave length therethrough, and the longitudinal axis of said chamber being normal to the broad faces of" the sheets forming the honeycomb material whereby upon partially expanding the block the block may be longitudinally lengthened,
  • a wave guide comprising an unexpanded honeycomb block formed of flexible sheets or conductive material bonded together so as to deform to form a cellular, structure in the expanded, condition, said block being By this means the end group of sheets,
  • bracket means mounted on the two outside sheets of material forming the block, and said bracket means formed with tuned throats axially aligned with the chamber formed in said block.
  • a device wherein a plurality of sheets of material forming the honeycomb block adjacent at least one of the two outside sheets are bonded together to prevent expansion thereof.
  • a device wherein a plurality of sheets of material forming the honeycomb y, block adjacent at least one of the two outside sheets are apertured, and glue in the apertures to bond the ape'rturedsheets together and prevent expansion thereof.
  • a wave guide comprising a block formed of condiictivesheets joinedtogether by an adhesive material along s'pacedlines wherein the lines on opposite sides configuration in cross-section formed to be tuned for the transmission of energy of a predetermined wave length therethrough; the longitudinal axis of said chamher being normal to 'the broad faces of the sheetsfform' ing theblock'.

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  • Shielding Devices Or Components To Electric Or Magnetic Fields (AREA)

Description

' Feb. 2, 1960 T. P. PAJAK FLEXIBLE WAVE GUIDE Flled Sept 26 1957 l llllll s\,
INVENTOR. Theodore P. POjCIk [mm fax 2,923,902 Patented Feb. 2, 1960 Unimd tates Patg fifo FLEXIBLE WAVE GUIDE Theodore P. Pajak, Bel Air, Md., assignor to Hexcel fProducts Inc., Oakland, Calif., a corporation of Caliorma Application September 26, 1957, Serial No. 686,481
6 Claims. (Cl. 333-95) with great efliciency. In that the conventional wave guide structure is formed of solid metal such as aluminum, it is usually necessary to preform each wave guide structure to rather precise mechanical dimensions in order to provide the mechanical connections of the wave guide between two pieces of electronic gear. There isanother form of wave guide known in a prior art that employs a conduit formed of overlapping layers of sheet metal, each layer being slidably disposed with respect to the other so as to impart to the wave guide structure a certain amount of flexibility. ln'such structure the outside is encased in a flexible material such as rubber or plastic so that the various layers of sheet metal are held together by the outside resilient or flexible coating. This form of wave guide is costly and is limited in the degree of angle it may be flexed.
A principal object of this invention is to provide a novel wave guide structure adapted to have a great amount of flexibility. The novel wave guide is formed of unexpended metal honeycomb core of the type described in U.S. Patents 2,756,496 to K. M. Holland and 2,734,843 to R. C. Steele, et al. and is arranged to obtain flexibility upon the honeycomb being partially expanded.
A feature and advantage of this invention is that the wave guide structure of this invention may be fabricated with great economy by forming the guides from the waste or end pieces cut from larger sheets of honeycomb. Such scraps or waste pieces are frequently in abundance where honeycomb is manufactured.
Another object of this invention is to provide a wave guide formed of a plurality of sheets of material lying face to face and with the longitudinal axis of the wave guide chamber formed at right angles to the faces of the sheet material forming the structure. In this structure each of the sheets are attached one to the other along parallel spaced lines so the sheets may be bent or deformed between the attaching lines without the necessity of providing an exterior structural support, such as a flexible sheath or sleeve to hold the various sheets of metal together.
Another object of this invention is to provide a simple and economical wave guide structure having the characteristic of being readily deformed by twisting, bending or stretching so that the effective length of the wave guide may be increased and the two opposite ends can be positioned at substantially different angles and planes without substantially changing the transmission characteristics of the wave guide.
Other objects of the present invention will become apparent upon reading the following specification re- I 2 ferring to the accompanying drawings in which similar characters of reference represent corresponding parts in each of the several views.
In the drawings: Fig. 1 'is a perspective view of the novel wave guide forming a link between two pieces of electronic gear.
A portion of the wave guide is cut awayto show the inner structure thereof.
Fig. 2 is an enlarged partial section of Fig. 1.
In Figs. 1 and 2 the wave guide of this invention is generally indicated at A and is shown connected to two pieces of electronic equipment B and C to provide a tuned path'between the two pieces of equipment for high efliciency transmission of electromagnetic waves of a predetermined frequency. band. Wave guide A comprises a main body formed of a block 14 ofmetal sheets 16 joined together to form uuexpanded honeycomb material and two mounting brackets 21 and 22 on each end of the block to provide means to mountthe guide on appropriate electronic equipment.
Brackets 21 and 22 are mounted on the outer of sheets 16 as indicated at 23 and24 respectively. Each bracket comprises ,a neck 25 formed with acollar 26 integral one end of the neck which is attached to block 14 and a collar 27 integral theoppositeend of the neck to mount the bracket onelectronic equipment.
Block.,14 is formed with arectangular tuned chamber 15 withfthe longitudinal axis of the chamber disposed normal to thebroad faces of the individual sheets [6 which form the honeycomb material. Necks 25 are similarly fornied with tuned wave guide throats 28 axially aligned with chamber'lS.
In the preferred embodiment of the invention chamber 15 is formed by first cutting the chamber slightly larger than necessary to meet dimension necessary for the desired tuned range and thereafter a rectangular helical coil of wire as indicated at 30 is mounted on the walls of chamber 15. The thickness of the wire is thereby arranged to form the walls of chamber 15 with the proper dimension for desired resonance. Wire 30 provides regular walls for wave guide when the block is bent, twisted or stretched and thereby functions to minimize loss during operation.
The dimension of the opening forming the wave guide is determined by the frequency range that is to be transmitted through the guide. For example, for the X band, otherwise known at RG 59 (Armed Service designation), which is in the frequency range of 8.2 to 12.4 kilomcgacycles, the chamber would be .4 in. high and .9 in. in width. For the other frequency ranges appropriate changes in dimension are indicated.
The honeycomb cellular structure forming block 14 may be made as described in U.S. Letters Patent No. 2,756,496 and No. 2,734,843. The cellular structure is generally formed by applying to opposite sides of an elongated web or sheet of material alternately spaced or staggered glue lines, then superposing and adheringto one another layers of said web into an unexpanded stock or block of honeycomb. A stack thus formed may be sliced transversely to the glue lines to form one or more smaller slices or sections of uuexpanded honeycomb. As viewed in Fig. 2 the various sheets 16, illustrated by single lines in the drawings for convenience of illustration, are glued together along adhesive lines indicated at 32. The areas of the sheets between the glue lines, as indicated at 33, are bendable so the structure is adaptable to be deformed by bending, axial twisting and/or expansion of the uuexpanded or partially expanded section.
It has been found desirable to bond several sheets 16 adjacent the respective two end sheets 23 and 24 to gether to form a stronger bond between the brackets and purposes ofvclarity and of understanding, it is understood that certain changes and modifications may be practiced within the spirit of the invention as limited only by the scope of the claims. It is to be further understood that the term unexpanded honeycomb shall mean that type of material as described in US. Patent No. 2,756,496 and No. 2,734,843. However, it is also to be understood that this does not limit the honeycomb material as precisely described in the aforesaid patent references but rather indicates the general type core material in which various sheets of metal material are bonded togetheito form a cellular structure when expanded.
What is claimed is:
1. A wave guide comprising an unexpanded honeycomb blo'ck' formed of flexible sheets of conductive material bonded together so the sheets deform to form a cellular structure in the expanded condition, said block being formed with a chamber of substantially rectangular configuration in cross-section formed'to be tuned for the transmission of energy'of a predetermined'wave length therethrough, and the longitudinal axis of said chamber being normal to the broad faces of" the sheets forming the honeycomb material whereby upon partially expanding the block the block may be longitudinally lengthened,
axiallytwisted. and bent transversely to the longitudinal axis of the block,
2. A wave guide comprising an unexpanded honeycomb block formed of flexible sheets or conductive material bonded together so as to deform to form a cellular, structure in the expanded, condition, said block being By this means the end group of sheets,
formed with a chamber of substantially rectangular configuration in cross-section formed to be tuned for'th'e' transmission of energy of a predetermined wave length therethrough, the longitudinalaxis of said chamber being normal to the broad faces of the sheets forming the honeycomb material, bracket means mounted on the two outside sheets of material forming the block, and said bracket means formed with tuned throats axially aligned with the chamber formed in said block.
3; A device according. to claim 2 and wherein the" chamber formed in said block is lined with a helical wire.
4. A device according to claim 2 and wherein a plurality of sheets of material forming the honeycomb block adjacent at least one of the two outside sheets are bonded together to prevent expansion thereof.
5. A device according to claim 2 and wherein a plurality of sheets of material forming the honeycomb y, block adjacent at least one of the two outside sheets are apertured, and glue in the apertures to bond the ape'rturedsheets together and prevent expansion thereof.
6. A wave guide comprising a block formed of condiictivesheets joinedtogether by an adhesive material along s'pacedlines wherein the lines on opposite sides configuration in cross-section formed to be tuned for the transmission of energy of a predetermined wave length therethrough; the longitudinal axis of said chamher being normal to 'the broad faces of the sheetsfform' ing theblock'.
References Cited in the fil'eof this patent UNITED STATES PATENTS OTHER REFERENCES Publication: Electronics, vol. 29, No. 12, December 1956 (Markus) pages 228 and 230.
Holland July 31, 1956,
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3048913A (en) * 1958-10-10 1962-08-14 Jr Arthur G Ball Method of precisely joining waveguide cross-sections
US3210695A (en) * 1960-12-05 1965-10-05 Gen Bronze Corp Waveguide assembled from four thin sheets and strengthened by external reinforcement, and its method of manufacture
US3234489A (en) * 1962-06-16 1966-02-08 Felten & Guilleaume Carlswerk Rectangular waveguide

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2756496A (en) * 1952-10-21 1956-07-31 Hexcel Products Inc Method of expanding expandable metal foil honeycomb

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2756496A (en) * 1952-10-21 1956-07-31 Hexcel Products Inc Method of expanding expandable metal foil honeycomb

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3048913A (en) * 1958-10-10 1962-08-14 Jr Arthur G Ball Method of precisely joining waveguide cross-sections
US3210695A (en) * 1960-12-05 1965-10-05 Gen Bronze Corp Waveguide assembled from four thin sheets and strengthened by external reinforcement, and its method of manufacture
US3234489A (en) * 1962-06-16 1966-02-08 Felten & Guilleaume Carlswerk Rectangular waveguide

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