US1201271A

US1201271A - Oscillating audion.

Info

Publication number: US1201271A
Application number: US4133315A
Authority: US
Inventors: Lee De Forest
Original assignee: FOREST RADIO TELEPHONE AND TELEGRAPH Co DE
Current assignee: DE FOREST RADIO TELEPHONE AND TELEGRAPH Co; FOREST RADIO TELEPHONE AND TELEGRAPH Co DE
Priority date: 1915-07-22
Filing date: 1915-07-22
Publication date: 1916-10-17
Anticipated expiration: 1933-10-17
Also published as: GB100959A

Description

Patented -Oct 17, 1916.

L. DE FG'r'ST.

USCILLATI AMUCAHON mi NG AUDION.

D JULY 22.1915.

cordance with my invention.

UNITED STATES PATENT OFFICE, f

LEE DE FORST, OF NEW YORK, N. Y., ASSIGNOR, TO DE IEORESI` RADIO TELEPHONE AND TELEGRAIH COMPANY, OF NEW YORK, N. Y., A. CORPORATION 9F DELAWARE.

OSCILLATING AUDION.

To all whom t may concern: Be it known that I, LEE DE FOREST, ac1t1- zen of the United States, residing at New York, county of Bronx, State of New York, have made a certain new and useful Invention in Oscillating Audions, of which the following is a specification.

This invention relates to oscillating audions. l

The` object of the invention is 'to provide an audion which is simple in construction, economical of manufacture, and highly eilicient in operation.

A further object of the invention is tok provide an audion whc may be used as a, generator of high power .oscillatmg enerfr t further object of the invention is to provide an audion which will successfully withstand the excessive amount of heat generated in use without danger of breaking, or becoming inoperative.

Other objects of the invention will appear more fully hereinafter.

The invention consists substantially in the construction, combination, location and relative arrangement of parts, all as will he more fully hereinafter set forth, as shown by the accompanying drawing, and finally pointed out in the appended claims.

Referring to the accompanying drawing, Figure 1 is a view in vertical section, -showing one form of audion constructed in ac- Fig. 2 is a view in section taken on the line 2, 2, Fig. 1, and looking in the direction of the arrows. Fig. 3 is a top plan View of the form of my invention shown in Fig. 1. Figs. 4 and 5 are sectional views of audions embodying my invention. y

The same reference numeral designates the same parts wherever they occur throughout the several views.

In the construction, operation and maintenance of electric oscillation generators, such as shown and described in my Letters Patent No. 943,969, issued to me on December 2l, 1909, and in the various otherforms of oscillation generators employed 1n the Specification of Letters Patent.

art, great difficulties have been met in attempting to secure considerable power output therefrom due to the liability of crack- 1ng or damaging the evacuated glass containlng vessel through heatoriginating from the hot electrode-or .from the corpuscular bombardment within the evacuated vessel.

To the present time it has proven impractical to obtain much more than one-half kilowatt of oscillating energy from a single audion without great danger of breakage or air leakage. Inasmuch as larger amounts of power have been desired or found necessary, it has been necessary to use two or more such audions connected in parallel.

It isamong the special purposes'of my present invention to provide an audion which may be capable'of any'size of construction and of any degree of out-put power.

In the forms of my invention shown, I have illustrated types of metal vessels or containers of such constructions fas to permit the maintenance therein of the highest attainable degree of vacuum and for a definite length of time. It is well known that pracl` tically all metals, `except platinum, are more or less porous to gases, and will therefore in time, no matter with what degree of care is taken in construction, admit sufficient external air to reduce the vacuum within to Patented Oct. 17, 1916.

Application-filed July 22, 1915. Serial N o. 41,333.

a point below that where the oscillating device can operate effectively'as a generator of high frequency currents. lVhile platinum forms the exception, the cost of that metal is prohibitive for the purposes herein described. It is well known, however, that if tight and properly constructed joints or valves in connection with high vacuum apparatus be sealed with a suitable liquid, such as mercury, such joint or seal will successfully withstand the greatest external air pressure-s indefinitely.

In the accompanying drawing,l I show means for constructing audions under the foregoing principles, and a system of constructing and locating the electrodes of the audion so that the same may be first inserted in the vessel or container, and sealed therein,

and the vessel or container then exhausted of air and sealed oif in a fashion which shall be permanent until such time as it may be desired to reopen the same for the purpose of renewing the filament or heated cathode element.

In Fig. 1 I show oneform of my invention wherein 6 and 7 indica-te respectively the outer and inner walls-of the container, which are of metal, preferably of drawn steel tubing of flask or bottle Shape. It' is desirable to have the space between the walls 6 and 7 equivalent at all points, and this is secured by the respective sizes of the 'two vessels 6 and 7, and the length of the seat 8 upon which the inner vessel seats. I fi'nd it advantageous to make the space between the two vessels from between one sixteenth to one quarter of an inch, but'it is obvious that this is a detail to which my application is not to be limited. 9 designates the stopper or cover, preferably of glass, as shown, or other suitable insulating material, through which extend tubes, preferably of glass, 10, 1l, and 12. The tube 10 as shown, forms a horse shoe support for the grid electrode 14 which extends down therethrough to the point 15 where it passes out of the tube 10 and is wound around the horse shoe portion of the tube lO and around, though not in contact with the filament 13 which passes through the tube 11 and,` in this instance, is shown as being in the form of three hair-pins or loops in series secured to the base of the horse shoe portion of the tube l0 as indicated at 16, in any well known or suitable manner. The stopper 9 is provided with flange portions which seat smoothly on the flange 17 of the inner metal vessel 7, both the stopper and yflanged portion of the vessel being preferably circular at this point. Mercury, or other suitable heat conducting, air sealing liquid as indicated at 35 is then poured into the vessel 6, sufficient in quantity to fill the space between the vessels 6 and 7, and to allow a level above the level of the stopper or cover 9. Thus it will be seen that-I have provided lan interior chamber 17 1 completely air sealed, which may be exhausted of air through any well known evacuating means such as an air pump, not shown, the exterior end of the tube being sealed off by the glass blowers flame in the well known manner, when the desired degree of vacuum is obtained in the chamber 17 a. While thus far I have shown and described the vessels G and 7 as being of metal, it will be under stood that any liquid containing material may be used, such for instance, as glass, and my invention therefore is not to be limited to the specific arrangement or material shown. Where metal is employed, however, the vessel 6 may serve as the wing or plate electrode, and I have shown a terminal post 18 suitably secured thereto to allow the necessary connection thereof to the source of electro-motive force.

As hereinbefore explained, in oscillating audions, it is very necessary to conduct away the heat generated in the interior 17 a of the oscillator as completely as possible. The containers or vessels 6 and 7, and the seal ing liquid between them serve as an excellent heat conductor from the interior of the vessel. If desired, and as shown, a fan 19 may be employed to dissipate the heat thus transferred to the external containers, but it is obvious that any cooling device, such as a water cooling arrangement, refrigerating pipes or the like may equally well be employed without departing from the broad scope of my invention.

In Fig. 4 I show a modified form of my invention wherein the inner vessel 7 is corrugated to increase the length of the vessel between the neck of the same and its lower part, that portion corrugated being the portion which is subjected to the maximum of heat, and at the same time being in contact with the outer vessel 6 as at 20, to more readily conduct the heat to the exterior of the audion,` and also to reduce as much as possible the strain upon the air seal between the cap and the vessel due to the unequal expansion and contraction therebetween. In this form of my invention, the ends of the inner vessel 7 are bent downwardly as at 21 to form the seat for the cover or stopper 9.

In Fig. 5 I show an arrangement wherein instead of a surrounding space filled with liquid I employ an evacuated envelop 24C with a sealing-olf tube 23 leading into said envelop, the inner wall of the envelop, being part of the outer wall and corrugated t-hroughoutto secure proper conductivity of heat by contact of the corrugations thereof as hereinbefore described. Any desired proportion of vacuum may be maintained in the envelop 17a and I have shown one simple and convenient arrangement for sealing the envelop after the vacuum has been secured. l form the tube 23 into substantially a U-t-ube trap in the base of which I place lump solder 25. After the desired vacuum has been obtained, the solder is melted b v externally applied heat, and upon the cooling thereof an effective air seal is secured.

It is well known that an evacuated enveloping space surrounding an inner vessel is a very complete heat insulator, therefore special means must be provided in this arrangement to dispose of the l1eat`ge11erated within the space 17. The vacuum of the envelop can not, of course, be as high as that in the inner vessel, but the air pressure in the envelop 24, in the arrangement shown, and 1n practice, is too small to allow leakage into the space 17.

In4 lace of a surrounding space filled with liquid or an exhausted envelop, many other arrangements may be employed, such as coating the exterior or interior of the containing vessel with a suitable heat-resisting enamel Having now set forth the objects and na-` ture of my invention, and having shown and described various embodiments thereof, what I claim as new and useful and of my own invention and desire to secure by Letters Patent, is,-

l. An oscillating audion comprising an outer vessel and an inner evacuated vessel,

the electrodes of said audion being located in said evacuated vessel and extending out of both of said vessels, and means interposed between said vessels for making said inner vessel air tight.

2. An 'oscillating audion comprising an outer metallic vessel and an inner evacuated metallic vessel the outer vessel forming one electrode of said audion and means for makingsaid inner vessel air tight.

3. An oscillating audion comprising an outer metallic vessel and an inner evacuated metallic vessel and means interposed between said vessels for making said inner vessel air tight.

4. .An oscillating audion comprising an outer and an inner vessel, the electrodes of said audion being located in said evacuated vessel and extending out of both of said vessels, and an air sealing liquid interposed between said vessels.

5. An oscillating audion'comprising an -outer and an inner vessel, the electrodes of said audion being located in said evacuated vessel and extending out of both of said vessels, and a current conducting liquid interposed between said vessels.

6.v An oscillating audion comprising an outer and an inner vessel, the electrodes of said audion being located in said evacuated vessel and extending out of both of said vessels, and an air sealing heat conducting liquid interposed between said vessels.

7. An oscillating audion comprising an outer vessel .inclosing an inner vessel, the electrodes of said audion 'being located in said evacuated vessel and extending out of both of said vessels, and mercury interposed lbetween said vessels.

said stopper to renderthe same impervious to air leakage and hot and cold electrodes contained in said vessel, said hot electrode being insulated from said cold electrodes.

9. An evacuated vessel having an opening, 'a stopper for said opening and a liquid inclosing said stopper and sealing said vessel and said stopper to render the same impervious to air leakage and hot and cold electrodes contained in said Vessel, said hot electrode being insulated from said cold electrodes.

10. An evacuated vessel havingan opening, a stopper for said opening and a heat conducting liquid inclosing said stopper and sealing saidvessel and said stopper to render the same impervious to air leakage and hot and cold electrodes contained in -said vessel,

said hot electrode being insulated from said cold electrodes.

11. An evacuated vessel having an' opening, a stopper for said opening, and means inclosing said stopper and sealing said vessel and said stopper to render the same impervious to air leakage and hot and cold elec-l .trodes contained in said vessel, said hot electrode being insulated from said Vcold electrodes, a container for said vessel, and means for transmitting the heat generated Within the evacuated vessel to theexterior of said container.

12. An evacuated vesselhaving an opening, a stopper for said opening and a liquid inclosingsaid stopper and sealing said vessel and said stopper to render the same impervious to air leakage, and hot and cold electrodes contained in said vessel, said hot electrode being insulated from said-cold electrodes, a'container for said vessel, and means for transmitting the heat generated within the-evacuated vessel to the exterior of said container.

13. An evacuated vessel having an openl ing, ya stopper f or said' opening and a heat conductlng liquid inclosing said stopper and sealing said vessel and said stop- .per to render the same impervious to air electrode contained in said vessel but insulated therefrom, said container forming a third electrode.

15. An oscillating audion comprising an evacuated vessel provided with an insulating stopper, a grid and a filament electrode pass ing through said stopper into said vessel, a

metallic container for said vessel, an air sealing liquid interposed between said vessel and sald container, and over said stopper.

16. An oscillating audion comprising an evacuated vessel provided with an insulating stopper, a grid and a filament electrode passing through said stopper into said vessel, a

metallic container for said vessel, an air sealing liquid interposed between said vessel and said container, and over said stopper, l@ said `container forming the wing electrode.

In testimony whereof l have hereunto set my hand this 19th day of July, A.. D. 1915.

LEE DE FOREST.