Title of Invention	"AN ASSEMBLY FOR SUPPORTING ONE END OF A ROTATABLE SHAFT MEMBER OF A COMPRESSOR DRIVER BY AN ELECTRIC MOTOR"
Abstract	An assembly for supporting one end of a rotatable shaft member of a compressor driven by an electric motor, said assembly comprising: a bearing support member having a outwardly projecting annular projecting portion secured to a housing for such electric motor, said bearing support member disposed substantially perpendicular to a longitudinal axis of such rotatable shaft member of such compressor, said bearing support member including an annular projecting portion; and a bearing member carried by said annular projecting portion of said bearing support member and engageable with such one end of such rotatable shaft member of such compressor for supporting such rotatable shaft member in a manner to thereby reduce extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely, said bearing member is connected to such one end of such rotatable shaft member that is opposite an end of such rotatable shaft member connected to a hub and wheel of a cooling fan of such air compressor, characterized in that said bearing support member forms one end of said housing of such electric motor, and the annular projecting portion is formed to enclose said bearing member in said housing.

Title of Invention

"AN ASSEMBLY FOR SUPPORTING ONE END OF A ROTATABLE SHAFT MEMBER OF A COMPRESSOR DRIVER BY AN ELECTRIC MOTOR"

Abstract

An assembly for supporting one end of a rotatable shaft member of a compressor driven by an electric motor, said assembly comprising: a bearing support member having a outwardly projecting annular projecting portion secured to a housing for such electric motor, said bearing support member disposed substantially perpendicular to a longitudinal axis of such rotatable shaft member of such compressor, said bearing support member including an annular projecting portion; and a bearing member carried by said annular projecting portion of said bearing support member and engageable with such one end of such rotatable shaft member of such compressor for supporting such rotatable shaft member in a manner to thereby reduce extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely, said bearing member is connected to such one end of such rotatable shaft member that is opposite an end of such rotatable shaft member connected to a hub and wheel of a cooling fan of such air compressor, characterized in that said bearing support member forms one end of said housing of such electric motor, and the annular projecting portion is formed to enclose said bearing member in said housing.

Full Text	LOCOMOTIVE AIR COMPRESSOR WITH AN ELECTRIC MOTOR SUPPORTED BY AN EXTERNAL BEARING CROSS REFERENCE TO RELATED APPLICATIONS This application is a continuation-in-part of co-pending patent application Serial No. 09/593,558 filed June 14, 2000, now abandoned. The invention taught in this patent application is losely related to the invention taught in the following co-pending patent application, LOCOMOTIVE AIR COMPRESSOR WITH MOTOR SUPPORTED OUTSIDE BEARING, Serial No. 09/593,559 filed June 14, 2000. These patent applications are assigned to the same assignee and the teachings therein are incorporated into this application by reference thereto. FIELD OF INVENTION The present invention relates, in general, to an air-cooled multi-cylinder, two-stage air compressor and motor combination for i railway locomotive and, more particularly, the present invention elates to a crankshaft of such air compressor driven by an electric motor being supported by an external bearing. BACKGROUND OF THE INVENTION It is well known that multi-cylinder air compressors are used n freight and passenger locomotives to supply compressed air to the operating and control equipment of a railway air brake system. Many of these prior art air compressors have a pair of low- pressure cylinders and a high-pressure cylinder mounted on and supported by a crankcase in the usual manner and contain pistons which are actuated by connecting rods driven by a rotary "ankshaft. One end of the crankshaft is coupled with and driven by a suitable rotatable prime mover, such as an electric motor. he other end of the crankshaft is keyed and thread ably attached by a locknut to the hub and wheel of a cooling fan assembly. There are advantages of having the compressor directly driving the cooling fan. When the demand and speed of the air compressor increase, the speed and cooling capacity of the fan is proportionally increased. The fan can only stop turning when the compressor stops working or ceases to rotate. It has been found that the use of a separate electric motor for driving the cooling fan is unreliable since failure of the motor would result in the loss of the cooling effect and could allow the temperature of the rotating compressor to rise to dangerously high levels which could cause deterioration of the lubricating oil and could result in seizure of the air compressor. The crankshaft driven by the electric motor does not, in prior art, have any support on the motor end of the shaft. This is the opposite end of the shaft from the fan. As the shaft rotates, in time, it may tend to vibrate and may possibly wobble. Any movement at the shaft, other than the rotatable movement which it is designed to have, may cause problems with the motor. Proper operation requires that there be a space between the stator and the rotating portion of the motor. This space must be "taintained. If the rotor contacts or rubs against the stator, problems with the motor may occur. On the other hand it is also important to keep the space between the stator and rotor to a a minimum because as the space increases there is a loss of efficiency and of the power of the motor. Thus, the space is necessary but it must be kept as small as possible. When the shaft librates or wobbles it may cause the rotor to rub against the stator and, thus, adversely affect the motor. SUMMARY OF THE INVENTION The present invention provides an external mount assembly for supporting a rotatable shaft member driven by an electric motor, the external mount assembly comprises an annularly projected rearing support member being disposed in a substantially vertical olane and a bearing member secured on the bearing support member, such bearing member is aligned with one end of a rotatable shaft member that is the opposite end of a rotatable shaft member connected to the hub and wheel of a cooling fan of such air compressor. Wherein the bearing member is used .for supporting such relatable shaft member thereby reducing extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely. A second embodiment of the invention provides that in combination with a multi-cylinder two-stage air compressor in which an electric motor is used to drive a rotatable shaft member of said an compressor, there is an external mount for supporting the rotatable shaft member of the air compressor. Such external mount comprises an annularly projected bearing support member disposed in - substantially vertical plane and a bearing member secured on the Hearing support member. Such bearing member is aligned with one and of a rotatable shaft member that is the opposite end of a rotatable shaft member connected to the hub and wheel of a cooling an of such air compressor. Wherein the bearing member is used for securing the rotatable shaft member thereby reducing extraneous vertical and horizontal movement of the rotatable shaft member while permitting such rotatable shaft member to rotate freely. OBJECTS OF THE INVENTION It is, therefore, one of the primary objects of the present invention to provide a support for the crankshaft external to the motor housing in an air compressor/electric motor combination so as to reduce any vibration of the shaft. It is also an object of the present invention to provide an outside support for the crankshaft in an air compressor/electric motor combination so as to reduce the possibility of the rotor ubbing against the stator. An additional object of the present invention is to provide a support for the crankshaft in an air compressor/electric motor combination that is mounted on the housing of the electric motor. These and various other objects and advantages of this invention will become apparent after a full reading of the following detailed description, particularly, when read in conjunction with the attached drawings as described below and the appended claims. Accordingly the present invention relates to an assembly for supporting one end of a rotatable shaft member of a compressor driven by an electric motor, said assembly comprising: a bearing support member having a outwardly projecting annular projecting portion secured to a housing for such electric motor, said bearing support member disposed substantially perpendicular to a longitudinal axis of such rotatable shaft member of such compressor, said bearing support member including an annular projecting portion; and a bearing member carried by said annular projecting portion of said bearing support member and engageable with such one end of such rotatable shaft member of such compressor for supporting such rotatable shaft member in a manner to thereby reduce extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely, said bearing member is connected to such one end of such rotatable shaft member that is opposite an end of such rotatable shaft member connected to a hub and wheel of a cooling fan of such air compressor, characterized in that said bearing support member forms one end of said housing of such electric motor, and the annular projecting portion is formed to enclose said bearing member in said housing. BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS Figure 1 is an axonometric prior art drawing of a multi-cylinder, two-stage air compressor. Figure 2 is a block schematic diagram of an embodiment of the invention in combination with an inwardly projecting annular bearing support member, a multi-cylinder, and two-stage air compressor of the type shown in Figure 1. Figure 3 is a block schematic diagram of an embodiment of the invention in combination with an outwardly projecting annular Pearing support member, a multi-cylinder, and two-stage air compressor of the type shown in Figure 1. Figure 4 is an axonometric drawing of a split type bearing according to an embodiment of the invention. BRIEF DESCRIPTION OF THE PRESENTLY PREFERRED AND ALTERNATE EMBODIMENTS OF THE INVENTION Prior to proceeding with the more detailed description of the present invention it should be noted that, for the sake of clarity, identical components, which have identical functions have been designated by identical reference numerals throughout the several views illustrated in the drawings. Reference is now made to Figures 2 and 3. Illustrated therein is a block diagram of the present invention in combination with a Multi-cylinder, two stage air compressor, generally designated As 10, coupled with a predetermined electric motor, generally esignated as 20. Such multi-cylinder, two-stage air Compressor 10 contains pistons which are actuated by connecting ods driven by a rotary crankshaft 2. One end of the crankshaft 2 is to the hub and wheel of a cooling fan assembly 16. The other and of the crankshaft 2 is driven by a predetermined electric Motor 20. Over a period of time the crankshaft 2 as it rotates may tend to vibrate or wobble. Any movement of the crankshaft 2 other Than the rotatable movement which it is designed to have can create problems. Proper operation of the motor requires that there be a space between the stator 4 and the rotor 6, which is the rotating portion '£ the motor. This space must be maintained. If rotor 6 comes into contact with or rubs against the stator 4, problems with the motor 20 may occur. It is also important that this space be kept TO a minimum because as the space increases there is a loss of efficiency and of the power of the motor. As is clearly evident Figure 2 includes an inwardly projected annular bearing support member 12, which supports the bearing member 14. Also as is clearly evident, Figure 3 includes an outwardly projected annular bearing support member 18, which supports the bearing member 14. As demonstrated in Figures 2 and 3, annular projecting bearing support members may be either inwardly or outwardly projected; however, it is presently preferred that such annular projection portions are inward. Further, it is either that either of the annular projected bearing support members 12 or 18 have an aperture formed in them so as to permit such crankshaft 2 to protrude in case an extension is desired or. 'he end of such crankshaft 2. This is true whether the bearing support member is a modified cover portion or a replacement part to replace the present cover. Such an aperture is disposed closely adjacent to a midpoint in the annularly projected bearing support members 12 and 18. The present invention provides an external support, generally designated 30, to support the crankshaft 2 and thus prevent or at least minimize any extraneous vertical or horizontal movement of the crankshaft 2. There is an upright bearing support member 12. A bearing member 14 is mounted on such upright annular projected bearing supports 12 or 18. Such bearing member 14 is connectable with the end of the crankshaft 2 that is .opposite the end of the crankshaft that is connected to a hub and wheel of a cooling fan of such air compressor 10. Such bearing member 14 and such upright annular projected bearing support numbers 12 or 18 support the crankshaft thereby minimizing any extraneous movement of the crankshaft 2. Since the bearing member 14 freely rotates it does not impede any rotatable movement of the crankshaft 2. In an embodiment of the invention such bearing member 14 is a split bearing. It is also an embodiment of the invention that such bearing member 14 is connected to an outer end of such crankshaft 2. The upright annular projected bearing support members 12 or 18 are connected to the motor housing that is presently used to enclose such motor 20. The connection may be made by modifying the over portion of such housing such that the bearing member 14 can some in contact with and secure the crankshaft 2. However, it is within the scope of the invention that such upright annular projected bearing support members 12 or 18 may replace the present over portion of the motor housing of such predetermined electric motor 20. Such external mount 30 may be included in new compressor assemblies and it may be retrofitted into air compressor units that fire presently in use. While both the presently preferred and a number of alternative embodiments of the present invention have been described in detail above it should be understood that various other adaptations and modifications of the present invention can be envisioned by those persons who are skilled in the relevant art of air compressorsystems without departing from either the spirit of the invention or the scope of the appended claims. WE CLAIM:- An assembly for supporting one end of a rotatable shaft member of a compressor [10] driven by an electric motor [20] , said assembly comprising: a) a bearing support member [12\| having an outwardly projecting annular projecting portion secured to a housing for such electric motor, said bearing support member disposed substantially perpendicular to a longitudinal axis of such rotatable shaft member of such compressor [10], said bearing support member including an annular projecting portion; and b) a bearing member [14] carried by said annular projecting portion of said bearing support member and engageable with such one end of such rotatable shaft member of such compressor [l0]for supporting such rotatable shaft member in a manner to thereby reduce extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely, said bearing member [14] is connected to such one end of such rotatable shaft member that is opposite an end of such rotatable shaft member connected to a hub and wheel of a cooling fan of such air compressor, characterized in that said bearing support member forms one end of said housing of such electric motor [20], and the annular projecting portion (18] is formed to enclose said bearing member [14] in said housing. An assembly for supporting a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said bearing member is a split type bearing. An assembly for supporting a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said assembly is mounted externally to such motor housing. An assembly for supporting a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said bearing member includes an aperture permitting said one end of said rotatable shaft member to protrude. An assembly for supportmg a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said annular projecting portion projects inwardly towards said cooling fan. A combination of a multi-cylinder two-stage air compressor in which an electric motor drives a rotatable shaft member of said air compressor and an external assembly as claimed in any of the preceding claims mounted to said electric motor. An assembly for supportmg one end of a rotatable shaft member of a compressor driven by an electric motor substantially as herein described with reference to the accompanying drawings.

Full Text

LOCOMOTIVE AIR COMPRESSOR WITH AN ELECTRIC MOTOR SUPPORTED BY AN EXTERNAL BEARING
CROSS REFERENCE TO RELATED APPLICATIONS
This application is a continuation-in-part of co-pending patent application Serial No. 09/593,558 filed June 14, 2000, now abandoned. The invention taught in this patent application is losely related to the invention taught in the following co-pending patent application, LOCOMOTIVE AIR COMPRESSOR WITH MOTOR SUPPORTED OUTSIDE BEARING, Serial No. 09/593,559 filed June 14, 2000. These patent applications are assigned to the same assignee and the teachings therein are incorporated into this application by reference thereto.
FIELD OF INVENTION
The present invention relates, in general, to an air-cooled
multi-cylinder, two-stage air compressor and motor combination for
i railway locomotive and, more particularly, the present invention
elates to a crankshaft of such air compressor driven by an
electric motor being supported by an external bearing.
BACKGROUND OF THE INVENTION
It is well known that multi-cylinder air compressors are used
n freight and passenger locomotives to supply compressed air to
the operating and control equipment of a railway air brake system.
Many of these prior art air compressors have a pair of low-
pressure cylinders and a high-pressure cylinder mounted on and
supported by a crankcase in the usual manner and contain pistons
which are actuated by connecting rods driven by a rotary
"ankshaft. One end of the crankshaft is coupled with and driven
by a suitable rotatable prime mover, such as an electric motor.
he other end of the crankshaft is keyed and thread ably attached
by a locknut to the hub and wheel of a cooling fan assembly.
There are advantages of having the compressor directly driving the cooling fan. When the demand and speed of the air compressor increase, the speed and cooling capacity of the fan is proportionally increased. The fan can only stop turning when the compressor stops working or ceases to rotate. It has been found that the use of a separate electric motor for driving the cooling fan is unreliable since failure of the motor would result in the loss of the cooling effect and could allow the temperature of the rotating compressor to rise to dangerously high levels which could cause deterioration of the lubricating oil and could result in seizure of the air compressor.
The crankshaft driven by the electric motor does not, in prior art, have any support on the motor end of the shaft. This is the opposite end of the shaft from the fan. As the shaft rotates, in time, it may tend to vibrate and may possibly wobble. Any movement at the shaft, other than the rotatable movement which it is designed to have, may cause problems with the motor.
Proper operation requires that there be a space between the stator and the rotating portion of the motor. This space must be "taintained. If the rotor contacts or rubs against the stator,
problems with the motor may occur. On the other hand it is also important to keep the space between the stator and rotor to a a minimum because as the space increases there is a loss of efficiency and of the power of the motor. Thus, the space is necessary but it must be kept as small as possible. When the shaft librates or wobbles it may cause the rotor to rub against the stator and, thus, adversely affect the motor.
SUMMARY OF THE INVENTION
The present invention provides an external mount assembly for supporting a rotatable shaft member driven by an electric motor, the external mount assembly comprises an annularly projected rearing support member being disposed in a substantially vertical olane and a bearing member secured on the bearing support member, such bearing member is aligned with one end of a rotatable shaft member that is the opposite end of a rotatable shaft member connected to the hub and wheel of a cooling fan of such air compressor. Wherein the bearing member is used .for supporting such relatable shaft member thereby reducing extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely.
A second embodiment of the invention provides that in
combination with a multi-cylinder two-stage air compressor in which
an electric motor is used to drive a rotatable shaft member of said
an compressor, there is an external mount for supporting the
rotatable shaft member of the air compressor. Such external mount
comprises an annularly projected bearing support member disposed in
- substantially vertical plane and a bearing member secured on the
Hearing support member. Such bearing member is aligned with one
and of a rotatable shaft member that is the opposite end of a
rotatable shaft member connected to the hub and wheel of a cooling
an of such air compressor. Wherein the bearing member is used for
securing the rotatable shaft member thereby reducing extraneous
vertical and horizontal movement of the rotatable shaft member
while permitting such rotatable shaft member to rotate freely.
OBJECTS OF THE INVENTION
It is, therefore, one of the primary objects of the present invention to provide a support for the crankshaft external to the motor housing in an air compressor/electric motor combination so as to reduce any vibration of the shaft.
It is also an object of the present invention to provide an outside support for the crankshaft in an air compressor/electric motor combination so as to reduce the possibility of the rotor ubbing against the stator.
An additional object of the present invention is to provide a support for the crankshaft in an air compressor/electric motor combination that is mounted on the housing of the electric motor.
These and various other objects and advantages of this invention will become apparent after a full reading of the following detailed description, particularly, when read
in conjunction with the attached drawings as described below and the appended claims.
Accordingly the present invention relates to an assembly for supporting one end of a rotatable shaft member of a compressor driven by an electric motor, said assembly comprising:
a bearing support member having a outwardly projecting annular projecting portion secured to a housing for such electric motor, said bearing support member disposed substantially perpendicular to a longitudinal axis of such rotatable shaft member of such compressor, said bearing support member including an annular projecting portion; and
a bearing member carried by said annular projecting portion of said bearing support member and engageable with such one end of such rotatable shaft member of such compressor for supporting such rotatable shaft member in a manner to thereby reduce extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely, said bearing member is connected to such one end of such rotatable shaft member that is opposite an end of such rotatable shaft member connected to a hub and wheel of a cooling fan of such air compressor,
characterized in that said bearing support member forms one end of said housing of such electric motor, and the annular projecting portion is formed to enclose said bearing member in said housing.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
Figure 1 is an axonometric prior art drawing of a multi-cylinder, two-stage air compressor.
Figure 2 is a block schematic diagram of an embodiment of the invention in combination with an inwardly projecting annular bearing support member, a multi-cylinder, and two-stage air compressor of the type shown in Figure 1.
Figure 3 is a block schematic diagram of an embodiment of the invention in combination with an outwardly projecting annular Pearing support member, a multi-cylinder, and two-stage air compressor of the type shown in Figure 1.
Figure 4 is an axonometric drawing of a split type bearing
according to an embodiment of the invention.
BRIEF DESCRIPTION OF THE
PRESENTLY PREFERRED AND ALTERNATE
EMBODIMENTS OF THE INVENTION
Prior to proceeding with the more detailed description of the present invention it should be noted that, for the sake of clarity, identical components, which have identical functions have been designated by identical reference numerals throughout the several views illustrated in the drawings.
Reference is now made to Figures 2 and 3. Illustrated therein is a block diagram of the present invention in combination with a Multi-cylinder, two stage air compressor, generally designated
As 10, coupled with a predetermined electric motor, generally esignated as 20. Such multi-cylinder, two-stage air Compressor 10 contains pistons which are actuated by connecting ods driven by a rotary crankshaft 2. One end of the crankshaft 2 is to the hub and wheel of a cooling fan assembly 16. The other and of the crankshaft 2 is driven by a predetermined electric Motor 20. Over a period of time the crankshaft 2 as it rotates may tend to vibrate or wobble. Any movement of the crankshaft 2 other Than the rotatable movement which it is designed to have can create problems.
Proper operation of the motor requires that there be a space between the stator 4 and the rotor 6, which is the rotating portion '£ the motor. This space must be maintained. If rotor 6 comes into contact with or rubs against the stator 4, problems with the motor 20 may occur. It is also important that this space be kept TO a minimum because as the space increases there is a loss of efficiency and of the power of the motor.
As is clearly evident Figure 2 includes an inwardly projected annular bearing support member 12, which supports the bearing member 14. Also as is clearly evident, Figure 3 includes an outwardly projected annular bearing support member 18, which supports the bearing member 14. As demonstrated in Figures 2 and 3, annular projecting bearing support members may be either inwardly or outwardly projected; however, it is presently preferred that such annular projection portions are inward. Further, it is
either that either of the annular projected bearing support members 12 or 18 have an aperture formed in them so as to permit such crankshaft 2 to protrude in case an extension is desired or. 'he end of such crankshaft 2. This is true whether the bearing support member is a modified cover portion or a replacement part to replace the present cover. Such an aperture is disposed closely adjacent to a midpoint in the annularly projected bearing support members 12 and 18. The present invention provides an external support, generally designated 30, to support the crankshaft 2 and thus prevent or at least minimize any extraneous vertical or horizontal movement of the crankshaft 2. There is an upright bearing support member 12. A bearing member 14 is mounted on such upright annular projected bearing supports 12 or 18. Such bearing member 14 is connectable with the end of the crankshaft 2 that is .opposite the end of the crankshaft that is connected to a hub and wheel of a cooling fan of such air compressor 10. Such bearing member 14 and such upright annular projected bearing support numbers 12 or 18 support the crankshaft thereby minimizing any extraneous movement of the crankshaft 2. Since the bearing member 14 freely rotates it does not impede any rotatable movement of the crankshaft 2. In an embodiment of the invention such bearing member 14 is a split bearing. It is also an embodiment of the invention that such bearing member 14 is connected to an outer end of such crankshaft 2.
The upright annular projected bearing support members 12 or 18
are connected to the motor housing that is presently used to
enclose such motor 20. The connection may be made by modifying the
over portion of such housing such that the bearing member 14 can
some in contact with and secure the crankshaft 2. However, it is
within the scope of the invention that such upright annular
projected bearing support members 12 or 18 may replace the present
over portion of the motor housing of such predetermined electric
motor 20. Such external mount 30 may be included in new compressor
assemblies and it may be retrofitted into air compressor units that
fire presently in use.
While both the presently preferred and a number of alternative embodiments of the present invention have been described in detail above it should be understood that various other adaptations and modifications of the present invention can be envisioned by those persons who are skilled in the relevant art of air compressorsystems without departing from either the spirit of the invention or the scope of the appended claims.

WE CLAIM:-
An assembly for supporting one end of a rotatable shaft member of a compressor [10] driven by an electric motor [20] , said assembly comprising:
a) a bearing support member [12| having an outwardly projecting annular projecting portion secured to a housing for such electric motor, said bearing support member disposed substantially perpendicular to a longitudinal axis of such rotatable shaft member of such compressor [10], said bearing support member including an annular projecting portion; and
b) a bearing member [14] carried by said annular projecting portion of said bearing support member and engageable with such one end of such rotatable shaft member of such compressor [l0]for supporting such rotatable shaft member in a manner to thereby reduce extraneous vertical and horizontal movement of such rotatable shaft member while permitting such rotatable shaft member to rotate freely, said bearing member [14] is connected to such one end of such rotatable shaft member that is opposite an end of such rotatable shaft member connected to a hub and wheel of a cooling fan of such air compressor,
characterized in that said bearing support member forms one end of said housing of such electric motor [20], and the annular projecting portion (18] is formed to enclose said bearing member [14] in said housing.
An assembly for supporting a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said bearing member is a split type bearing.
An assembly for supporting a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said assembly is mounted externally to such motor housing.
An assembly for supporting a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said bearing member includes an aperture permitting said one end of said rotatable shaft member to protrude.
An assembly for supportmg a rotatable shaft member of a compressor driven by an electric motor, as claimed in claim 1, wherein said annular projecting portion projects inwardly towards said cooling fan.
A combination of a multi-cylinder two-stage air compressor in which an electric motor drives a rotatable shaft member of said air compressor and an external assembly as claimed in any of the preceding claims mounted to said electric motor.
An assembly for supportmg one end of a rotatable shaft member of a compressor driven by an electric motor substantially as herein described with reference to the accompanying drawings.

Documents:

1022-del-2003-abstract.pdf

1022-del-2003-assignment.pdf

1022-del-2003-claims.pdf

1022-del-2003-complete specification (granted).pdf

1022-DEL-2003-Correspondence-Others.pdf

1022-del-2003-correspondence-po.pdf

1022-del-2003-description (complete).pdf

1022-del-2003-drawings.pdf

1022-del-2003-form-1.pdf

1022-del-2003-form-19.pdf

1022-del-2003-form-2.pdf

1022-del-2003-form-3.pdf

1022-del-2003-form-5.pdf

1022-del-2003-pa.pdf

1022-del-2003-petition-138.pdf

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Patent Number

218332

Indian Patent Application Number

1022/DEL/2003

PG Journal Number

37/2008

Publication Date

12-Sep-2008

Grant Date

31-Mar-2008

Date of Filing

19-Aug-2003

Name of Patentee

WESTINGHOUSE AIR BRAKE TECHNOLOGIES CORPORATION

Applicant Address

1001 AIR BRAKE AVENUE, WILMERDING, PENNSYLVANIA 15148, UNITED STATES OF AMERICA.

Inventors:

#	Inventor's Name	Inventor's Address
1	JAMES M. VARNEY	1956 TARA DRIVE, NORTH HUNTINGDON, PENNSYLVANIA 15642, USA.
2	BRIAN L. CUNKELMAN	250 CLAWSON ROAD, BLAIRSVILLE, PENNSYLVANIA 15717, USA.
3	WALTER E. GOETTEL	4619 WILLIAMSPORT ROAD, MONONGAHELA, PENNSYLVANIA 15063, USA.

PCT International Classification Number

F04B 35/04

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	10/236,817	2002-09-06	U.S.A.