Oval filter cage and vacuum cleaner

US 7,971,314 B2
Filed: 01/26/2007
Issued: 07/05/2011
Est. Priority Date: 11/30/2006
Status: Active Grant

First Claim

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1. A filter cage for use with a wet and dry vacuum cleaner, the filter cage comprising:

an open top and a spaced-apart, substantially parallel cage bottom;

a plurality of lateral rings surrounding a longitudinal axis of the cage, the rings having a first cross-sectional dimension and a second cross-sectional dimension, the second cross-sectional dimension being measured at a right angle to the first cross-sectional dimension, wherein the first and second cross-sectional dimensions define an inside cross-sectional area of the filter cage;

one or more longitudinal supports coupled to the plurality of rings to form a plurality of open spaces between the rings and supports; and

a closed float container coupled to the rings, supports, bottom of the cage, or a combination thereof, the closed float container having an open top, a longitudinal length substantially parallel to the longitudinal axis of the filter cage, and an external periphery, the external periphery of the float container defining an outside float container cross-sectional area,the outside float container cross-sectional area being smaller than the inside cross-sectional area of the filter cage to allow a first flow path between the cross-sectional area formed between the inside surfaces of the lateral rings and the outside surface of the closed float container,wherein a second flow path is formed above the length of the float container that can flow through the zone of open spaces formed above the length of the float container and into a flow zone that includes substantially the inside cross-sectional area of the filter cage without the float container, andwherein the rings are oval-shaped, such that the cage is oval-shaped.

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Abstract

The present disclosure provides a filter cage having an improved flow path suitable even for restricted flow regions of a float container in the cage. The filter cage departs from generally accepted structural considerations and provides flow paths to one or more sides of the cage outside the restricted flow regions of the float container, but within the cross-sectional area of the cage structure. In one exemplary embodiment, the cage is oval-shaped with a cross-sectional area defined by a major and minor axis. A restricted flow region, such as the float container, encompasses a cross-sectional area corresponding in size to a cross-sectional area defined by the minor axis of the oval-shaped cage. The remaining portion of the cage cross-sectional areas provides one or more flow paths outward from the float container in the direction of the major axis of the cage.

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14 Claims

1. A filter cage for use with a wet and dry vacuum cleaner, the filter cage comprising:
- an open top and a spaced-apart, substantially parallel cage bottom;
  
  a plurality of lateral rings surrounding a longitudinal axis of the cage, the rings having a first cross-sectional dimension and a second cross-sectional dimension, the second cross-sectional dimension being measured at a right angle to the first cross-sectional dimension, wherein the first and second cross-sectional dimensions define an inside cross-sectional area of the filter cage;
  
  one or more longitudinal supports coupled to the plurality of rings to form a plurality of open spaces between the rings and supports; and
  
  a closed float container coupled to the rings, supports, bottom of the cage, or a combination thereof, the closed float container having an open top, a longitudinal length substantially parallel to the longitudinal axis of the filter cage, and an external periphery, the external periphery of the float container defining an outside float container cross-sectional area,the outside float container cross-sectional area being smaller than the inside cross-sectional area of the filter cage to allow a first flow path between the cross-sectional area formed between the inside surfaces of the lateral rings and the outside surface of the closed float container,wherein a second flow path is formed above the length of the float container that can flow through the zone of open spaces formed above the length of the float container and into a flow zone that includes substantially the inside cross-sectional area of the filter cage without the float container, andwherein the rings are oval-shaped, such that the cage is oval-shaped.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The cage of claim 1, wherein the first cross-sectional dimension has a different dimension in length than the second cross-sectional dimension.
  - 3. The cage of claim 2, wherein the first flow path comprises a first partial flow path between the float container and the rings on a first side of the cage and a second partial flow path between the float container and the rings on a second side of the cage distal from the first side.
  - 4. The cage of claim 2, wherein the first flow path is symmetrically disposed between the float container and a first side of the rings and the float container and a second side of the rings distal from the first side.
  - 5. The cage of claim 1, wherein the external periphery of the float container is circular, and wherein the first cross-sectional dimension of the rings of the cage is shorter than the second cross-sectional dimension.
  - 6. The cage of claim 5, wherein the first cross-sectional dimension is shorter than the second cross-sectional dimension and wherein the external periphery of the float container is adjacent the rings at the first cross-sectional dimension.
  - 7. The cage of claim 1, further comprising an additional flow path through one or more open spaces between the rings and the longitudinal supports of the filter cage, the additional flow path being open to an air flow zone of the cage having a greater cross-sectional area than the first flow path.
  - 8. The cage of claim 1, wherein the cage comprises an open top and a closed bottom, the cage defining an overall first length, and the float container defining a second length shorter than the first length, the float container being coupled to the bottom of the cage.
  - 9. A system for vacuuming materials, comprising:
    - a vacuum cleaner; and
      
      the cage of claim 1.

10. A system for vacuuming materials, the system comprising:
- a wet and dry vacuum cleaner; and
  
  a filter cage to support a filter, the filter cage coupled to the vacuum cleaner and comprising;
  
  a plurality of oval-shaped rings surrounding a longitudinal axis of the cage, the rings having a first cross-sectional dimension and a second cross-sectional dimension measured at a right angle to the first cross-sectional dimension, the first cross-sectional dimension being shorter than the second cross-sectional dimension, wherein the first and second cross-sectional dimensions defining an inside cross-sectional area of the filter cage;
  
  one or more longitudinal supports coupled to the plurality of rings to form a plurality of open spaces between the rings and supports; and
  
  a circular closed float container coupled to the rings, supports, or a combination thereof, the closed float container having an open top, a longitudinal length substantially parallel to the longitudinal axis of the filter cage, and an external periphery, the external periphery of the float container defining an outside float container cross-sectional area,wherein the coupling of the float container to the rings, supports, or a combination thereof defines a first partial flow path between the float container and the rings on a first side of the cage and a second partial flow path between the float container and the rings on a second side of the cage distal from the first side.
- View Dependent Claims (11, 12, 13, 14)
- - 11. The cage of claim 10, wherein the first flow path is symmetrically disposed between the float container and a first side of the rings and the float container and a second side of the rings distal from the first side.
  - 12. The cage of claim 10, further comprising a second flow path through one or more open spaces between the rings and the longitudinal supports, the second flow path being open to an air flow zone of the cage having a smaller cross-sectional area than the closed float container.
  - 13. The cage of claim 10, wherein the cage comprises an open top and a closed bottom, the cage defining an overall first length, and the float container defining a second length shorter than the first length, the float container being further coupled to the bottom of the cage.
  - 14. The cage of claim 10, further comprising a flow path formed above the length of the float container that flows through the zone of open spaces formed above the length of the float container and into a flow zone that includes substantially the inside cross-sectional area of the filter cage without the float container.

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Current Assignee
Emerson Electric Company
Original Assignee
Emerson Electric Company
Inventors
Hollis, Robert
Primary Examiner(s)
Nguyen; Dung Van

Application Number

US11/627,467
Publication Number

US 20080127449A1
Time in Patent Office

1,621 Days
Field of Search

153/53, 153/272, 153/273, 153/276
US Class Current

15/353
CPC Class Codes

A47L 5/365 of the vertical type, e.g. ...

A47L 9/18 Liquid filters

Oval filter cage and vacuum cleaner

First Claim

1 Assignment

0 Petitions

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Abstract

15 Citations

14 Claims

Specification

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Oval filter cage and vacuum cleaner

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

15 Citations

14 Claims

Specification

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Solutions

Use Cases

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