US 20050189283 A1
A manifold assembly (12) for a medical waste collection device (10) is provided. The manifold assembly (12) comprises a housing (14) and a cap (16) connected to the housing (14) by a snap-fit connection (18). The housing (14) includes a bottom (20) and a wall (24) extending upwardly therefrom about an axis (26). A support structure (22) is disposed on the bottom (20) of the housing (14) to support a plurality of filters (60, 62). An intake port (58) is disposed on the cap (16) at a tangential position relative to the wall (24) such that the fluid and material entering the manifold assembly (12) is directed along the wall (24) to better separate the material from the fluid and increase the life of the filters (60, 62).
29. A manifold assembly for use with a medical waste collection device to direct fluid into the medical waste collection device while separating material from the fluid, said assembly comprising:
a manifold defining a chamber and having a bottom and a wall with a curved section extending upwardly from said bottom about a first axis;
a first filter disposed in said chamber and spaced radially inwardly from said curved section to define a material collection space;
an intake port in fluid communication with said chamber and tangentially disposed relative to said curved section such that the fluid and material entering said chamber from said intake port move along a curved path in a centrifugal motion to separate the material from the fluid in said material collection space; and
an outlet port in fluid communication with said chamber for directing the fluid from said chamber to the medical waste collection device.
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The subject invention relates generally to medical waste collection devices and, more particularly, to an assembly for filtering bodily fluids prior to being collected into the device.
During many surgical procedures, waste materials are generated which must be captured and disposed of. Such waste materials include bodily fluids which have been drained from a patient or by-products that are produced, such as smoke from a cauterizing procedure.
Typically, a medical waste collection device having an intake manifold assembly in conjunction with a vacuum source is utilized to capture the waste materials, thereby reducing or eliminating the handling of such materials by employees and, in turn, reducing exposure of the employees to hazardous waste materials.
Each assembly generally includes a housing for storing the waste material, a lid having a vacuum port connected to the vacuum source, and a conduit extending between the patient and the manifold assembly through which the waste material travels. In operation, the vacuum source applies a negative pressure to the interior of the housing in order to pull the waste material from the patient through the conduit and into the intake manifold. Furthermore, a filter may be disposed in the assembly to prefilter the fluids or by-products prior to disposal.
Conventionally, such assemblies comprise many pieces, have a complex design, and are costly to manufacture and use. Such costs are passed on to the patient, thereby contributing to the high costs of health care.
The present invention is aimed at solving one or more of these disadvantages.
The subject invention provides a manifold assembly for use in a medical waste collection device. The assembly includes a manifold housing including a bottom with a support structure disposed thereon and a wall extending upwardly from the bottom about an axis to define an open periphery. The assembly further includes a manifold cap for disposition on the manifold housing for defining a chamber therebetween and a connection for connecting and retaining the housing and cap together. A support structure having a filter support surface is disposed above the bottom for defining a plurality of open spaces therein.
The manifold assembly of the present invention collects and filters waste materials produced during surgical procedures. The assembly is easily removed, disposed of, and replaced with another assembly, thereby reducing labor and cost. In addition, the assembly is easily manufactured and produced at a fraction of the cost of conventional manifold assemblies, in part due to the elimination of separate welding requirements.
Other advantages of the present invention will be readily appreciated as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings wherein:
Referring to the Figures, wherein like numerals indicate like or corresponding parts throughout the several views, a medical waste collection device is generally shown at 10 and includes a manifold assembly generally indicated at 12.
The manifold assembly 12 includes a manifold housing generally, indicated at 14, a manifold cap, generally indicated at 16, and a connection, generally indicated at 18. As shown in
The manifold housing 14 includes a bottom 20 with a support structure, generally indicated at 22, disposed thereon. A wall 24 extends upwardly from the bottom 20 about an axis 26 to define an open periphery 28. As shown in
The filter support surface 30 includes an inner ring 38 and an outer ring 40. The inner ring 38 is disposed about and spaced from the axis 26. The outer ring 40 is spaced radially inwardly from the wall 24 to define a groove 42 between the outer ring 40 and the wall 24.
A plurality of outer spokes 44 extend radially between the inner and outer rings 38, 40 to define a plurality of open spaces 46 between adjacent spokes 44. Additionally, a plurality of inner spokes 52 extend radially between the axis 26 and the inner ring 38. The inner spokes 52 are diametrically aligned in pairs to define a cross 54 intersecting at the axis 26. Each of the pairs is aligned diametrically with a pair of the outer spokes 44.
As shown in
The manifold cap 16 is disposed on the manifold housing 14 for defining a chamber 56 therebetween into which the passageway 36 extends. The cap 16 includes a top 64 and a skirt 66 extending from the top 64 to a lower edge 68. The cap 16 further includes an intake port 58 disposed on the cap 16 for receiving waste materials generated during a surgical procedure which proceed into the chamber 56, through the passageway 36 and into the device 10. As shown in
A primary filter 60 is disposed in the chamber 56 and is supported on the support structure 22 for filtering the waste materials and allowing waste to flow through the open spaces 46 defined by the spokes 44, 52 and out through the outlet port 34. A secondary filter 62 is disposed in the chamber 56 over the primary filter 60. The filters 60, 62 maintain their position over the support structure 22 as they fit inside of and are secured in place by the manifold cap 16. This configuration insures that the waste materials passing through the manifold assembly 12 also pass through the filters 60, 62.
In one embodiment, the bottom 20 is conical and is disposed below the support surface 30. In addition, the wall 24 of the housing 14 and the skirt 66 are annular. The outer spokes 44 each include a polygonal web 48. Each web 48 extends axially downwardly from the filter support surface 30 to the conical bottom 20. Each web 48 further extends radially between the outer ring 40 and the passageway 36 and radially outwardly to the outer ring 40 and have radially inner edges 50 aligned with the passageway 36.
The lower edge 68 of the skirt 66 extends downwardly and is received in the groove 42. A plurality (three) of axially extending alignment ribs 70 are disposed on the exterior of the skirt 66 for engaging the interior of the wall 24 of the housing 14 and aligning the housing 14 and the cap 16 together. The alignment ribs 70 insure that the cap 16 is received properly within the housing 14 so that the lower edge 68 of the skirt 66 is correctly aligned with the groove 42 to compress the perimeter of each filter and secure the filters 60, 62 in place.
Additionally, a plurality (thirty-three) of axially extending sealing ribs 72 are disposed on the exterior of the skirt 66 for engaging the interior of the wall 24 of the housing 14 to provide a wedge fit. The brim 74 extends over and in spaced relationship to the ribs 70, 72, and the sealing ribs 72 seal the cap 16 within the housing 14 so that the manifold assembly 12 is water tight and remains water tight.
In another embodiment, as shown in
The intake port 58 is disposed on the cap 16 tangent to the wall 24 for receiving waste and forcing the waste against a first inner surface 75A of the housing 14 and a second inner surface 75B of the cap 16. The waste enters the chamber 56 and swirls inside the housing 14, thereby forcing the waste against the inner surfaces 75A, 75B to keep the filters 70, 72 clean longer.
An annular rib 76 is disposed in the groove 42 and spaced radially between the wall 24 and the outer ring 40 to define an inner groove 78 for receiving an end 80 of the primary filter 70. A plurality of engagement ribs 82 are disposed on an inner surface 84 of the cap 16 and extend outwardly therefrom into the chamber 56 for engaging the filters 70, 72. The engagement ribs 82 press the filters 70, 72 against the bottom 20 of the housing 14 to seal the filters 70, 72 within the annular rib 76 and prevent waste from passing beneath the filters 70, 72 and traveling to the outlet port 34.
The foregoing detailed description shows the preferred embodiments of the present invention are well suited to fulfill the objectives of the invention. It is recognized that those skilled in the art may make various modifications or additions to the preferred embodiments chosen herein to illustrate the present invention, without departing from the spirit of the present invention. Accordingly, it is to be understood that the subject matter sought to be afforded protection should be deemed to extend to the subject matter defined in the appended claims, including all equivalents thereof.