Elbow fitting with step feature for pneumatic transport system

US 7,300,074 B1
Filed: 04/29/2005
Issued: 11/27/2007
Est. Priority Date: 12/22/2003
Status: Active Grant

First Claim

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1. An elbow fitting for use in effecting directional changes from an inlet pipe to an outlet pipe in a pneumatic product conveying system, comprising:

a circular inlet portion connectable to said inlet pipe to receive a flow of product particles therefrom;

an inlet transition portion connected to said inlet portion and expanding from a generally circular cross-section into an expanded non-circular cross-section having an outer side width dimension that is greater than a diameter dimension of said inlet portion;

a curved expanded portion connected to said inlet transition portion and carrying said expanded non-circular cross-section through an angular deflection, said curved expanded portion expanding in depth into a radially outward side of said elbow fitting from said inlet transition portion through a step in said radially outward side of said elbow fitting, said curved expanded portion maintaining a radially inward side of said elbow fitting in a linear relationship with respect to said inlet transition portion and said inlet pipe;

an outlet transitional portion connected to said curved expanded portion to reduce said expanded non-circular cross-section to said generally circular cross-section; and

an outlet portion having said circular cross-section and being connected to said outlet transitional portion, said outlet portion also being connectable to said outlet pipe to convey said flow of product particles into said outlet pipe.

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Abstract

An elbow fitting is used in a pneumatic product conveying system in which the fitting expands from the inlet pipe along the outer side of the elbow fitting to enable a layer of accumulated product particles to be formed so as to move at a lower velocity than the velocity of the incoming product stream while establishing a moving contact surface for deflecting incoming product particles toward the outlet pipe with a minimum of pressure resistance and product attrition. The accumulated product particles are discharged from the elbow fitting by incorporating a step in the outer surface of the elbow fitting to create a Bernoulli effect causing the accumulated product particles to enter the air flow after the incoming flow of product particles has ceased. The particles in the accumulated layer are replenished from the incoming flow during operation of the elbow fitting.

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14 Claims

1. An elbow fitting for use in effecting directional changes from an inlet pipe to an outlet pipe in a pneumatic product conveying system, comprising:
- a circular inlet portion connectable to said inlet pipe to receive a flow of product particles therefrom;
  
  an inlet transition portion connected to said inlet portion and expanding from a generally circular cross-section into an expanded non-circular cross-section having an outer side width dimension that is greater than a diameter dimension of said inlet portion;
  
  a curved expanded portion connected to said inlet transition portion and carrying said expanded non-circular cross-section through an angular deflection, said curved expanded portion expanding in depth into a radially outward side of said elbow fitting from said inlet transition portion through a step in said radially outward side of said elbow fitting, said curved expanded portion maintaining a radially inward side of said elbow fitting in a linear relationship with respect to said inlet transition portion and said inlet pipe;
  
  an outlet transitional portion connected to said curved expanded portion to reduce said expanded non-circular cross-section to said generally circular cross-section; and
  
  an outlet portion having said circular cross-section and being connected to said outlet transitional portion, said outlet portion also being connectable to said outlet pipe to convey said flow of product particles into said outlet pipe.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The elbow fitting of claim 1 wherein said step defines a sharp drop in said radially outward side of said elbow fitting defined by a slope angle substantially greater than a corresponding slope angle of said inlet transition portion and of said curved expanded portion.
  - 3. The elbow fitting of claim 2 wherein said outlet transitional portion has a ramp portion providing a smooth transition in said radially outward side of said elbow fitting from said curved expanded portion to said outlet portion defined by a slope angle that is less than the corresponding slope angle of said step.
  - 4. The elbow fitting of claim 3 wherein said radially inward side of said elbow fitting defines a smooth circular bend from said inlet portion to said outlet portion.
  - 5. The elbow fitting of claim 3 wherein said step provides a Bernoulli effect within said inlet transition portion to affect a pressure differential within said curved expanded portion to cause particles accumulated along said radially outward side of said elbow fitting within said curved expanded portion to be discharged from said elbow fitting when said flow of product particles through said elbow fitting ceases.

6. A method of affecting a directional change in a flow path of product particles flowing in a dilute phase through a pneumatic product conveying system having an inlet pipe, an outlet pipe and an elbow fitting interconnecting said inlet and outlet pipes to provide structure for effecting said directional change, comprising the steps of:
- providing said elbow fitting with an expansion in dimension toward an outer side of said elbow fitting, said expansion of dimension including an increase in depth measured from an inner side of said fitting and an increase in effective width with respect to said inner side, said increase in depth being accomplished through a step defining a slope angle greater than a corresponding slope angle in said elbow fitting on opposing upstream and downstream sides of said step;
  
  establishing a layer of accumulated product particles in a dense phase along an inner surface of said outer side of said elbow fitting, said layer of accumulated product particles moving toward said outlet pipe at a velocity slower than a velocity of incoming product particles moving from said inlet pipe into said elbow fitting;
  
  deflecting said incoming product particles off said layer of accumulated product particles to affect a change of direction of said incoming product particles toward said outlet pipe;
  
  discharging said product particles through said outlet pipe in a dilute phase; and
  
  affecting a clean-out of said elbow fitting when said incoming flow of product particles ceases by utilizing pressure differentials caused by said step to urge said accumulated particles into an air flow path through said elbow fitting.
- View Dependent Claims (7, 8, 9)
- - 7. The method of claim 6 wherein said step creates a Bernoulli effect to cause said accumulated particles in said dense phase along said inner surface of said outer side of said elbow fitting to re-enter said air flow path through said elbow fitting after said incoming flow of product particles ceases.
  - 8. The method of claim 7 wherein said affecting step is accomplished only when said incoming flow of product particles ceases causing said accumulated product particles in said dense phase during said establishing step to be discharged from said elbow fitting.
  - 9. The method of claim 7 wherein said layer of accumulated product particles in said dense phase replenishes from said incoming flow of product particles as product particles from said accumulated layer enters the air flow through said elbow fitting near said outlet pipe.

10. A method of affecting a clean-out of product particles in an elbow fitting affecting a directional change in a flow path of product particles flowing in a dilute phase through a pneumatic product conveying system having an inlet pipe, an outlet pipe with said elbow fitting interconnecting said inlet and outlet pipes to provide structure for effecting said directional change, said elbow fitting having an expansion in dimension toward an outer side of said elbow fitting to permit an accumulation of a layer of product particles in a dense phase along an inner surface of said outer side of said elbow fitting such that said layer of accumulated product particles moves toward said outlet pipe at a velocity slower than a velocity of incoming product particles moving from said inlet pipe into said elbow fitting, comprising the steps of:
- forming said elbow fitting with a step establishing said expansion in dimension toward an outer side of said elbow fitting, said step defining a slope angle greater than a corresponding slope angle in said elbow fitting on opposing upstream and downstream sides of said step; and
  
  utilizing a Bernoulli effect created by said step to affect a clean-out of said elbow fitting when said incoming flow of product particles ceases through pressure differentials caused by air flow passing over said step to urge said accumulated particles into said air flow path through said elbow fitting.
- View Dependent Claims (11, 12, 13, 14)
- - 11. The method of claim 10 wherein said affecting step is accomplished only when said incoming flow of product particles ceases causing said accumulated product particles in said dense phase during said establishing step to be discharged from said elbow fitting.
  - 12. The method of claim 11 wherein said elbow fitting deflects said incoming product particles off said layer of accumulated product particles to affect a change of direction of said incoming product particles toward said outlet pipe.
  - 13. The method of claim 12 wherein said elbow fitting discharges said product particles through said outlet pipe in a dilute phase after being deflected off said layer of accumulated product particles.
  - 14. The method of claim 13 wherein said layer of accumulated product particles in said dense phase replenishes from said incoming flow of product particles as product particles from said accumulated layer enters the air flow through said elbow fitting near said outlet pipe.

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Current Assignee
Pelletron Corporation (Sewickley Capital, Inc.)
Original Assignee
Pelletron Corporation (Sewickley Capital, Inc.)
Inventors
Paulson, Jerome I.
Primary Examiner(s)
Hewitt; James M.

Application Number

US11/117,980
Time in Patent Office

942 Days
Field of Search

285/179, 406/193, 406/195
US Class Current

285/179
CPC Class Codes

B65G 53/523 Wear protection

F16L 43/001 made of metal

Elbow fitting with step feature for pneumatic transport system

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

56 Citations

14 Claims

Specification

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Elbow fitting with step feature for pneumatic transport system

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

56 Citations

14 Claims

Specification

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Use Cases

Quick Links

Others