TORNADO DEVICE
United States Patent 3589044
Air moving apparatus arranged and operated as disclosed herein is capable of creating a visible tornadolike phenomenon for display, observation and study.
US Patent References:
/1221494.html
Wiley - April 1971 - 1221494
/1676984.html
Fales - July 1928 - 1676984
/1221494.html
Wiley - April 1971 - 1221494
/1676984.html
Fales - July 1928 - 1676984
Inventors:
Morrison, William E. (Indianapolis, IN)
Laybold, Carl T. (Indianapolis, IN)
Laybold, Carl T. (Indianapolis, IN)
Application Number:
04/790958
Publication Date:
06/29/1971
Filing Date:
01/14/1969
View Patent Images:
Export Citation:
Assignee:
Jenn-Air Corporation (Indianapolis, IN)
Primary Class:
Other Classes:
434/217, 428/13
International Classes:
G09B23/12; G09F19/10; G09B23/00; G09F19/00; G09F13/24
Field of Search:
40/126,106.21,106.22 35/10,49 73/147
Primary Examiner:
Michell, Robert W.
Assistant Examiner:
Contreras, Wenceslao J.
Claims:
We claim
1. Apparatus for creating a contained visible tornado comprising:
2. The claims subject matter of claim 1 wherein said exhaust opening is located on the top of said chamber and said inlet opening is located on a side of said chamber.
3. The claimed subject matter of claim 2 wherein said axis is generally vertically disposed.
4. The claimed subject matter of claim 3 wherein the inlet opening may be varied.
5. Apparatus for creating a contained visible tornado comprising:
6. Apparatus for creating a contained visible simulated tornado comprising:
7. The claimed subject matter of claim 6 further defined by said sidewall opening so located in the sidewall that a portion of the sidewall defines a surface for guiding entering air into cyclonic motion about said axis.
1. Apparatus for creating a contained visible tornado comprising:
2. The claims subject matter of claim 1 wherein said exhaust opening is located on the top of said chamber and said inlet opening is located on a side of said chamber.
3. The claimed subject matter of claim 2 wherein said axis is generally vertically disposed.
4. The claimed subject matter of claim 3 wherein the inlet opening may be varied.
5. Apparatus for creating a contained visible tornado comprising:
6. Apparatus for creating a contained visible simulated tornado comprising:
7. The claimed subject matter of claim 6 further defined by said sidewall opening so located in the sidewall that a portion of the sidewall defines a surface for guiding entering air into cyclonic motion about said axis.
Description:
In the drawings:
FIG. 1 is a perspective view of a "tornado" created according to our discovery or invention.
FIG. 2 is a perspective view of the chamber only in which the "tornado" is created.
FIG. 3 is a vertical section of an exhaust fan and the chamber shown in FIG. 2, with the door indicated in phantom.
FIG. 4 is a cross-sectional view taken along line 4-4 of FIG. 3 and showing counterclockwise flow of air.
FIG. 5 is a cross-sectional view similar to that of FIG. 4 but showing clockwise flow of air.
FIG. 6 is a view similar to that of FIGS. 4 and 5 except that consistent and continuous airflow pattern are not established.
FIG. 7 shows an arrow representing airflow relative to a vertical axis.
The term "tornado" as used herein means the phenomenon created by applicants' arrangement of a spiral helix formation or vortex column of rising air which is made visible to the human eye when a substance visible in air is introduced into the airstream. The tornado created hereby has use for academic scientific study of similar phenomenon occurring in nature, of which knowledge is quite limited. It has further use as an attractive and educational demonstration.
FIG. 1 is a pictorial representation of the tornado showing a visible vortex 10 or helical-spiral column rising from floor level 11 toward an opening 12 in ceiling or top wall 14. A source for emitting a substance visible in air used herein is a shallow pan 16 containing hot water into which is placed dry ice 18. Obviously other substance such as smoke could be introduced at or near floor level with similar results.
Within a closed chamber as defined by floor 11, ceiling 14 and walls 20, dry ice in a pan of warm water readily produces a layer of clouds sinking to the floor level and stacking upwardly. When air is exhausted through opening 12 by a power fan 21 (not shown in FIG. 1) and air is admitted into the chamber at prescribed openings, the phenomenon of FIG. 1 is visible.
FIG. 2 shows the chamber only in which a tornado may be created. It is defined by walls 20, ceiling 14 and a bottom wall or floor 11. The chamber used in applicants' discovery or invention is generally cuboid of 8 to 10 feet on an edge. However exact dimension, shape or relationship is not controlling to establish the phenomenon herein. An air inlet such as the rectangular opening 22 may be provided with a hinged or sliding door 23 to vary inlet characteristics. As shown in cross-sectional FIG. 3, an exhaust fan 21 is positioned on top wall 14 over opening 12 for removing air from the chamber. This fan is of any common type power driven roof exhauster which is capable of handling a substantial volume of air at relatively low static pressure. Air is permitted to enter the chamber through opening 22 in one wall as shown so as to continuously replenish the air drawn therefrom by the power exhauster.
FIG. 3 is the cross-sectional view of FIG. 2 but additionally shows an exhaust fan 21 in position and vortex 10 created thereby. Shallow pan 16 is located on floor 11 beneath exhaust port 12 and generally in line with normally vertical axis 24. Vortex 10, made visible by a substance such as smoke, is created by air entering the chamber through opening 22 and tangentially of axis 24. Air is drawn into spiral motion and terminates in a helical-spiral column of air rising generally along axis 24. This vortex revolves at 50--300 r.p.m. and rises vertically at 100--500 feet per minute. By the apparatus disclosed, a vortex in the range of 6 to 8 inches in diameter is created. An eye (not shown in drawings) in the range of 11/2 to 3 inches in diameter is visible along the center of the column or vortex.
FIGS. 4, 5 and 6 are cross-sectional views of FIG. 3 taken along line 4-4, but showing different air inlet arrangements. Walls 20 define an enclosure having an opening 22 tangentially directed with respect to axis 24. The size of opening 22 in one of the walls is variable as for example by a sliding or hinged door 23. As shown in FIG. 4, air enters the chamber tangentially generally along one wall and is drawn into counterclockwise rotation and into a tight swirling vortex 10 moving upwardly out through opening 12 by power exhaust fan 21. As shown in FIG. 4, entering air flows counterclockwise. Door 23' is shown completely closing opening 22'.
FIG. 5 shows the chamber of FIG. 4 but with door 23 closing opening or port 22, and with door 23' exposing opening 22'. Air entering in FIG. 5 is drawn into clockwise rotation as shown by the arrows. As before a vortex 10 is created but in a different rotational direction.
In FIG. 6, door 23 closed port 22. Door 23' is shifted so as to expose opening 22' directed generally toward axis 24 (not tangentially thereof as in FIGS. 4 and 5). When the entrance to the chamber is other than tangential, a directional pattern of airflow is not easily established, airflow this is indicated by the arrows shown in FIG. 6.
Airflow in the chamber is clockwise or counterclockwise depending upon established tangential entrance. This can be controlled by the physical arrangement. The direction of rotation of the impeller in exhaust fan 21 is not controlling on clockwise or counterclockwise rotation of vortex 10. It is anticipated that means other than a power exhaust fan may be used to create a low pressure through exhaust port 12.
FIG. 7 indicates airflow with respect to axis 24. In all of the arrangements wherein clockwise or counterclockwise airflow is established and terminates in a vortex, tangential entry or the equivalent is established. Airflow into a chamber is indicated by symbols 26 in FIG. 7 to be away from the viewer and into the paper. The air currents as indicated by symbolic arrow 28 are drawn into movements about axis 24 and finally into a tight upwardly moving spiral-helix or vortex 10. By an airflow passing in the general direction 26 with respect to axis 24, a tangential relationship is established.
The entire column or vortex 10 may drift somewhat over pan 16 but returns and remains within the general area. The vortex has an eye, and this drifts with the column. The vortex may partially fade for an instance at its base or along its height, but will reform just as quickly.
Obviously it is within the limits of our invention or discovery to define the chamber in shapes varying from what we have disclosed. For example, the chamber could be cylindrical or round, or of any number of shapes all of which would establish tangential entry of air. Likewise, the exhaust means may be varied without departing from the principle disclosed. The intake and exhaust port may be varied in size and location somewhat and remain within the spirit of our disclosure.
The present invention may be embodied in other specific forms without departing from the spirit of our invention. We wish the breadth of the invention to be measured only by the claims herein:
FIG. 1 is a perspective view of a "tornado" created according to our discovery or invention.
FIG. 2 is a perspective view of the chamber only in which the "tornado" is created.
FIG. 3 is a vertical section of an exhaust fan and the chamber shown in FIG. 2, with the door indicated in phantom.
FIG. 4 is a cross-sectional view taken along line 4-4 of FIG. 3 and showing counterclockwise flow of air.
FIG. 5 is a cross-sectional view similar to that of FIG. 4 but showing clockwise flow of air.
FIG. 6 is a view similar to that of FIGS. 4 and 5 except that consistent and continuous airflow pattern are not established.
FIG. 7 shows an arrow representing airflow relative to a vertical axis.
The term "tornado" as used herein means the phenomenon created by applicants' arrangement of a spiral helix formation or vortex column of rising air which is made visible to the human eye when a substance visible in air is introduced into the airstream. The tornado created hereby has use for academic scientific study of similar phenomenon occurring in nature, of which knowledge is quite limited. It has further use as an attractive and educational demonstration.
FIG. 1 is a pictorial representation of the tornado showing a visible vortex 10 or helical-spiral column rising from floor level 11 toward an opening 12 in ceiling or top wall 14. A source for emitting a substance visible in air used herein is a shallow pan 16 containing hot water into which is placed dry ice 18. Obviously other substance such as smoke could be introduced at or near floor level with similar results.
Within a closed chamber as defined by floor 11, ceiling 14 and walls 20, dry ice in a pan of warm water readily produces a layer of clouds sinking to the floor level and stacking upwardly. When air is exhausted through opening 12 by a power fan 21 (not shown in FIG. 1) and air is admitted into the chamber at prescribed openings, the phenomenon of FIG. 1 is visible.
FIG. 2 shows the chamber only in which a tornado may be created. It is defined by walls 20, ceiling 14 and a bottom wall or floor 11. The chamber used in applicants' discovery or invention is generally cuboid of 8 to 10 feet on an edge. However exact dimension, shape or relationship is not controlling to establish the phenomenon herein. An air inlet such as the rectangular opening 22 may be provided with a hinged or sliding door 23 to vary inlet characteristics. As shown in cross-sectional FIG. 3, an exhaust fan 21 is positioned on top wall 14 over opening 12 for removing air from the chamber. This fan is of any common type power driven roof exhauster which is capable of handling a substantial volume of air at relatively low static pressure. Air is permitted to enter the chamber through opening 22 in one wall as shown so as to continuously replenish the air drawn therefrom by the power exhauster.
FIG. 3 is the cross-sectional view of FIG. 2 but additionally shows an exhaust fan 21 in position and vortex 10 created thereby. Shallow pan 16 is located on floor 11 beneath exhaust port 12 and generally in line with normally vertical axis 24. Vortex 10, made visible by a substance such as smoke, is created by air entering the chamber through opening 22 and tangentially of axis 24. Air is drawn into spiral motion and terminates in a helical-spiral column of air rising generally along axis 24. This vortex revolves at 50--300 r.p.m. and rises vertically at 100--500 feet per minute. By the apparatus disclosed, a vortex in the range of 6 to 8 inches in diameter is created. An eye (not shown in drawings) in the range of 11/2 to 3 inches in diameter is visible along the center of the column or vortex.
FIGS. 4, 5 and 6 are cross-sectional views of FIG. 3 taken along line 4-4, but showing different air inlet arrangements. Walls 20 define an enclosure having an opening 22 tangentially directed with respect to axis 24. The size of opening 22 in one of the walls is variable as for example by a sliding or hinged door 23. As shown in FIG. 4, air enters the chamber tangentially generally along one wall and is drawn into counterclockwise rotation and into a tight swirling vortex 10 moving upwardly out through opening 12 by power exhaust fan 21. As shown in FIG. 4, entering air flows counterclockwise. Door 23' is shown completely closing opening 22'.
FIG. 5 shows the chamber of FIG. 4 but with door 23 closing opening or port 22, and with door 23' exposing opening 22'. Air entering in FIG. 5 is drawn into clockwise rotation as shown by the arrows. As before a vortex 10 is created but in a different rotational direction.
In FIG. 6, door 23 closed port 22. Door 23' is shifted so as to expose opening 22' directed generally toward axis 24 (not tangentially thereof as in FIGS. 4 and 5). When the entrance to the chamber is other than tangential, a directional pattern of airflow is not easily established, airflow this is indicated by the arrows shown in FIG. 6.
Airflow in the chamber is clockwise or counterclockwise depending upon established tangential entrance. This can be controlled by the physical arrangement. The direction of rotation of the impeller in exhaust fan 21 is not controlling on clockwise or counterclockwise rotation of vortex 10. It is anticipated that means other than a power exhaust fan may be used to create a low pressure through exhaust port 12.
FIG. 7 indicates airflow with respect to axis 24. In all of the arrangements wherein clockwise or counterclockwise airflow is established and terminates in a vortex, tangential entry or the equivalent is established. Airflow into a chamber is indicated by symbols 26 in FIG. 7 to be away from the viewer and into the paper. The air currents as indicated by symbolic arrow 28 are drawn into movements about axis 24 and finally into a tight upwardly moving spiral-helix or vortex 10. By an airflow passing in the general direction 26 with respect to axis 24, a tangential relationship is established.
The entire column or vortex 10 may drift somewhat over pan 16 but returns and remains within the general area. The vortex has an eye, and this drifts with the column. The vortex may partially fade for an instance at its base or along its height, but will reform just as quickly.
Obviously it is within the limits of our invention or discovery to define the chamber in shapes varying from what we have disclosed. For example, the chamber could be cylindrical or round, or of any number of shapes all of which would establish tangential entry of air. Likewise, the exhaust means may be varied without departing from the principle disclosed. The intake and exhaust port may be varied in size and location somewhat and remain within the spirit of our disclosure.
The present invention may be embodied in other specific forms without departing from the spirit of our invention. We wish the breadth of the invention to be measured only by the claims herein: