Internal gear pump having a shaft seal

Rotary expansible chamber devices – With mechanical sealing

Reexamination Certificate

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Reexamination Certificate

active

06352419

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to internal gear pumps and, more specifically, to an improved head plate or cover plate for internal gear pumps, an improved shaft and seal assembly design as well as improved methods of assembling internal gear pumps.
BACKGROUND OF THE INVENTION
Internal gear pumps are known and have long been used for the pumping of thin liquids at relatively high speeds. The typical internal gear pump design includes a rotor mounted to a drive shaft. The rotor includes a plurality of circumferentially disposed and spaced apart rotor teeth that extend axially toward an open end of the pump casing. The open end of the pump casing is typically covered by a head plate or cover plate which, in turn, is connected to an idler. The idler is eccentrically mounted to the head plate with respect to the rotor teeth. The idler also includes a plurality of spaced apart idler teeth disposed between alternating idler roots. The idler teeth are tapered as they extend radially outward and each idler tooth is received between two adjacent rotor teeth. The rotor teeth, in contrast, are tapered as they extend radially inward. A crescent or sealing wall is disposed below the idler and within the rotor teeth. The crescent provides a seal to prevent the loss of fluid disposed between the idler teeth as the idler teeth rotate. The rotor teeth extend below the crescent before rotating around to receive an idler tooth between two adjacent rotor teeth.
The input and output ports for internal gear pumps are disposed on opposing sides of the rotor. The fluid being pumped is primarily carried from the input port to the output port to the space or roots disposed between adjacent idler teeth. This space may be loaded in two ways: radially and axially. The space is loaded radially when fluid passes between adjacent rotor teeth before being received in a root disposed between adjacent idler teeth. Further, there is typically a gap between the distal ends of the rotor teeth and the head plate or casing cover which permits migration of fluid from the inlet port to an area disposed between the head plate and the idler. After migrating into this area, the fluid can be sucked into the area or root disposed between adjacent idler teeth during rotation of the idler and rotor.
However, it has been found that it is very difficult to ensure a complete loading of the innermost area between the idler teeth or the root disposed between adjacent idler teeth. The failure to provide a complete loading of this area results in an inefficiency of the pump. Therefore, there is a need for a way to improve the loading of the idler roots or the loading of internal gear pumps as a means for improving efficiencies.
Another problem commonly associated with internal gear pumps is the difficulty in assembling these pumps. Specifically, a seal is needed between the rotor and the bearing assembly or the outboard end of the drive shaft. Because the rotor is typically fixedly connected to the drive shaft, the drive shaft must be passed through the pump chamber and casing during an initial installation step. Then, from an opposing end of the casing, a seal assembly must be inserted over the outboard end of the drive shaft and pushed into place in the casing between the motor housing and the pump chamber. Because the shaft is already in place, the seal assembly must be installed blindly or without being able to view the seal assembly or the section of shaft upon which it is installed during installation thereof. As a result, the installation of the seal assembly is time consuming and the seal assembly can often be damaged during installation. Further, the seal assemblies are susceptible to being installed incorrectly, which is not detected until the pump is tested.
Therefore, there is a need for an improved internal gear pump design which facilitates the assembly of the pump and, more specifically, the installation of the seal assemblies over the drive shafts.
SUMMARY OF THE INVENTION
The present invention satisfies the aforenoted needs by providing an improved internal gear pump that includes an improved head plate design which features a groove disposed on the inside surface of the head plate for providing an improved axial feed to the idler root. The gear pump of the present invention also includes a step shaft design whereby a first segment of the drive shaft that passes through the seal assembly has a first diameter and is disposed immediately adjacent to a second step segment having a second larger diameter. The second step segment is disposed between the first segment and the rotor and, preferably, is disposed immediately adjacent to the rotor. The section of the casing through which the first and second segments of the drive shaft pass includes two recessed sections. A first recess section through which the first segment passes defines a chamber for housing the seal assembly. A second recessed section through which the second segment of the drive shaft passes includes a slightly wider recess for accommodating a bushing. The second step segment of the drive shaft rotates within this bushing.
Therefore, a seal assembly chamber is defined at one end by an annular seal plate, at an opposing end by the second segment of the drive shaft and the diameter of the seal chamber is defined by the first recessed section of the casing. Further, the bushing is sized so that the seal assembly can be mounted onto the first segment of the drive shaft and passed through the bushing thereby eliminating any blind installation of the seal assembly after the drive shaft is in place.
In an embodiment, the present invention provides an internal gear pump that comprises a casing comprising a pump chamber, an open end and an inlet. The pump further comprises a shaft connected to a rotor. The shaft passes through the casing and the rotor is disposed in the pump chamber. The rotor comprises a plurality of circumferentially disposed and spaced apart rotor teeth that extend axially towards the open end of the casing. The open end of the casing is connected to a head plate. The head plate comprises an inside surface that faces the rotor. The inside surface of the head plate comprises a crescent disposed vertically above at least a portion of the rotor teeth. The inside surface of the head plate further comprises an idler feed groove disposed vertically above the crescent. The inside surface of the head plate is also connected to an idler. The idler comprises a plurality of radially outwardly extending idler teeth disposed between a plurality of roots. The crescent is disposed between a portion of the rotor teeth and a portion of the idler teeth. Each of the idler teeth are received between two of the rotor teeth. The idler feed groove provides communication between the inlet and the idler roots.
In an embodiment, each idler root comprises a radially inwardly disposed surface. The idler feed groove provides communication between the inlet and the radially inwardly disposed surfaces of the idler roots.
In an embodiment, the idler is connected to the inside surface of the head plate with an idler pin. The idler feed groove is disposed between the idler pin and the crescent.
In an embodiment, the present invention provides an improved internal gear pump that includes a rotor and an idler disposed inside a pump chamber defined by a casing having an open end covered by a head plate. The casing has an inlet. The idler includes a plurality of teeth alternatingly disposed between a plurality of roots. The improvement comprises an idler feed groove disposed in the head plate which provides enhanced fluid communication between the inlet and the roots of the idler.
In an embodiment, the head plate further includes a crescent disposed vertically below the idler and wherein the idler feed groove is disposed vertically above the crescent.
In an embodiment, the present invention provides a pump that includes a casing that defines a pump chamber. A shaft passes through the casing and is connected to a rotor disposed in the pump chamber

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