Claims
- 1. A ventilation inlet for a livestock confinement building, comprising:
- a housing having an air inlet aperture and an air outlet aperture;
- a baffle located adjacent the air outlet aperture, the baffle being supported for movement between a closed position and an open position; and
- biasing means connected to said baffle, the biasing means having a sufficient spring constant and positioned such that air flow exiting the air outlet has a velocity which is automatically maintained substantially in the range of one hundred inches per second to three hundred and twenty inches per second.
- 2. The ventilation inlet of claim 1 wherein the housing is cylindrical.
- 3. The ventilation inlet of claim 1 further comprising a flange formed integrally with the air outlet aperture.
- 4. The ventilation inlet of claim 1 wherein the outlet aperture is formed with a smooth transitional radius.
- 5. The ventilation inlet of claim 3 wherein the flange extends outwardly from the air outlet aperture.
- 6. The ventilation inlet of claim 3 wherein the baffle contacts the flange when the baffle is in the closed position.
- 7. The ventilation inlet of claim 1 wherein the baffle includes a hinged portion supported for movement between a first position, whereby the baffle substantially covers the air outlet aperture, and a second position, whereby airflow is substantially unrestricted by the baffle.
- 8. The ventilation inlet of claim 1 wherein the baffle includes a baffle shaft having one end connected to the biasing means.
- 9. The ventilation inlet of claim 1 wherein the baffle includes a parabolic center to promote laminar air directional change within housing.
- 10. The ventilation inlet of claim 8 further comprising means for limiting movement of the baffle shaft to a substantially linear path.
- 11. The ventilation inlet of claim 10 wherein the means for limiting movement is positioned substantially normal to the shaft.
- 12. The ventilation inlet of claim 1 wherein the biasing means is selected after specifying air inlet velocity, air exit velocity, inlet opening diameter, exit opening diameter, baffle deflection, and standard air density, and after selection of minimum and maximum exit air velocities desired.
- 13. A ventilation inlet for a livestock confinement building, comprising:
- a housing having an air inlet aperture and an air outlet aperture;
- an air regulating means including a baffle having sufficient size and shape to cover the air outlet and a baffle shaft connected to the baffle supported for linear movement in a substantially vertical direction, the air regulating means capable of movement between an open position and a closed position;
- biasing means for providing force to the air regulating means in a direction which would move the air regulating means toward the closed position, the biasing means including a bracket connected to the housing, a cantilever bar supported for pivotal movement about a pivot point by the bracket, a spring connected at one end to the cantilever bar and at the other end to the housing, and a baffle connector connected at one portion to the baffle shaft and at another portion to the cantilever bar.
- 14. The ventilation inlet of claim 13 wherein the baffle moves from the closed position to the open position responsive to air pressure within the housing such that air flow exiting the housing is maintained at a speed in the range of approximately 500 to 1600 feet/min.
- 15. The ventilation inlet of claim 14 wherein the spring has a proportionality constant sufficient to maintain the airflow speed exiting the air outlet aperture at approximately 1000 feet/min.
- 16. A ventilation inlet for a livestock confinement building, comprising:
- a housing having an air inlet aperture and an air outlet aperture;
- a baffle located adjacent the air outlet aperture, the baffle being supported for movement between a closed position and an open position;
- biasing means connected to said baffle for providing force on the baffle in a direction to move the baffle from the open position to the closed position, the biasing means comprising a bracket connected to the housing, a member connected to the bracket and supported for pivotal movement about a pivot point, the member also being connected to the baffle, and a spring connected at one end to one of the housing and bracket and at another end to the member.
- 17. The ventilation inlet of claim 16 wherein the pivot point for the member is at a prescribed position for correct mechanical advantage between a first connection point located where the member is coupled to the baffle and a second connection point located where the member is coupled to the spring.
- 18. The ventilation inlet of claim 16 wherein the pivot point for the member is at the location of connection of the member to the bracket and the spring is connected to the member at a prescribed position for correct mechanical advantage between the pivot point and where the member is coupled to the baffle.
- 19. The ventilation inlet of claim 17 wherein the member is a lever arm.
- 20. The ventilation inlet of claim 18 wherein the member is a cantilever arm.
- 21. A method for optimizing a ventilation inlet for use in a livestock confinement building having a housing with an air inlet and an air outlet and a baffle located adjacent the air outlet, the baffle being supported for movement between a closed position and an open position, the method comprising the steps of:
- determining air inlet diameter, D.sub.i ;
- determining air outlet diameter, D.sub.e ;
- determining standard air density, .rho..sub.a ;
- determining force on the baffle in the closed position, F.sub.C ;
- determining force on the baffle in the open position, F.sub.o ;
- determining deflection of the baffle in the closed position, d.sub.C ;
- determining deflection of the baffle in the open position, d.sub.o ;
- selecting a desired minimum and maximum exit air velocity, V.sub.min and V.sub.max ;
- selecting a biasing means for attachment to the baffle based on the values determined in previous steps, the biasing means selected and positioned such that a proportionality constant, K.sub.C, defined by the equation (F.sub.o -F.sub.C)/d.sub.o -d.sub.C), remains substantially in a range between 0 and 1/2 .rho..sub.a .pi. (D.sub.e.sup.3 /D.sub.i.sup.2) (V.sub.max.sup.2 -V.sub.min.sup.2) so that air exiting the air outlet will have an automatically maintained velocity substantially in a range between the minimum selected exit air velocity, V.sub.min, to the maximum selected exit air velocity, V.sub.max.
- 22. The method for optimixing a ventilation inlet of claim 21 maximum baffle deflection, d.sub.max, is determined by the equation d.sub.max =(D.sub.i.sup.2)/(4*D.sub.e).
- 23. The method of optimizing a ventilation inlet of claim 21 further comprising the step of determining the proportionality constant at point A, K.sub.A, by using the equation
- K.sub.A =(X.sub.C /X.sub.A).sup.2 * K.sub.C
- wherein X.sub.A represents distance between a pivot point and point A, and X.sub.C represents distance between the pivot point and point C.
- 24. The method for optimizing a ventilation inlet of claim 21 wherein V.sub.min is 500 feet per minute or more and V.sub.max is 1600 feet per minute or less.
Parent Case Info
This is a continuation of application Ser. No. 08/485,726 filed on Jun. 7, 1995 abandoned.
US Referenced Citations (7)
Foreign Referenced Citations (4)
Number |
Date |
Country |
63630 |
Mar 1983 |
FIX |
21 05 077 |
Aug 1972 |
DEX |
60-155846 |
Aug 1986 |
JPX |
8401615 |
Apr 1984 |
WOX |
Non-Patent Literature Citations (3)
Entry |
"Air Mix & Recirculation", Brochure, The Better Air System with various models pictured. |
Brochure on Schaefer "Automatic Fresh-Air Hallway Intake" with various models pictured, pp. 11-15. |
Brochure on RAYDOT ventilation systems with various models pictured, pp. 3-5. |
Continuations (1)
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Number |
Date |
Country |
Parent |
485726 |
Jun 1995 |
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