Title of Invention	SOLENOID AND CONNECTOR ASSEMBLY
Abstract	The present invention provides a solenoid and electrical connector assembly which includes a solenoid body having a pair of electrical terminals disposed on opposite sides of a plunger component and a connector having two corresponding electrical terminals and a non-conductive blade or tongue disposed therebetween. When assembled, the tongue of the connector seats between the terminals on the solenoid body and inhibits corrosion and ingress of foreign matter in the region between the terminals of the solenoid.

Title of Invention

SOLENOID AND CONNECTOR ASSEMBLY

Abstract

The present invention provides a solenoid and electrical connector assembly which includes a solenoid body having a pair of electrical terminals disposed on opposite sides of a plunger component and a connector having two corresponding electrical terminals and a non-conductive blade or tongue disposed therebetween. When assembled, the tongue of the connector seats between the terminals on the solenoid body and inhibits corrosion and ingress of foreign matter in the region between the terminals of the solenoid.

Full Text	SOLENOID AND CONNECTOR ASSEMBLY FIELD [0001] The present disclosure relates to electrical connectors and electrical devices and more particularly to an assembly of an electrical device such as a motor or solenoid and an electrical connector having improved reliability. BACKGROUND [0002] The statements in this section merely provide background information related to the present disclosure and may or may not constitute prior art. [0003] Compact electrical devices such as motors and solenoids are often housed in cylindrical housings which correspond generally to the active components of the device: a rotor surrounded by a cylindrical stator in the case of a motor or a plunger surrounded by a cylindrical coil in the case of a solenoid. Such cylindrical housings are efficient packages for such devices as they generally require a minimum of material and result in a package having minimum dimensions. [0004] Since one end of a typical motor or solenoid will include an output feature, either a shaft or a plunger, it is frequently convenient to arrange the electrical input or terminals on the opposite end. Input connections or terminals so located also maintain the cylindrical symmetry of the housing. [0005] A problem may develop with such an arrangement, however, especially in smaller devices in which the spacing between the motor shaft, solenoid plunger or other electrically components associated with them and the electrical terminals is limited. In such situations, conductive foreign matter may bridge the gap between an electrical terminal and the shaft or plunger and intermittently or permanently short circuit the device. [0006] This problem can be especially acute in motors and solenoids for automotive applications because of the constant demand for weight saving which generally encourages lighter and therefore smaller devices and the fact that they are often exposed to deleterious atmospheric conditions such as dirt, metallic debris and other contaminants and particulates. Furthermore, a failure of the motor or solenoid due to a short circuit to ground may cause consequential failure of related components or controllers. The present invention addresses this difficulty with motors, solenoids and other similar electrical devices. SUMMARY [0007] The present invention provides a solenoid and electrical connector assembly which includes a solenoid body having a pair of electrical terminals disposed on opposite sides of a plunger component and a connector having two corresponding electrical terminals and a non-conductive blade or tongue disposed therebetween. When assembled, the tongue of the connector seats between the terminals on the solenoid body and inhibits ingress of foreign matter in the region between the terminals of the solenoid. The service life and reliability of the solenoid are thus greatly improved. [0008] The invention is also suitable for and may be utilized with a motor having a bearing at one end and a pair of electrical terminals disposed on opposite sides of the bearing. The electrical connector includes a pair of electrical terminals correspondingly arranged and a blade or tongue which seats between the terminals of the motor and protects the bearing from foreign matter thereby reducing the likelihood of a short circuit. [0009] Thus it is an object of the present invention to provide a solenoid and connector assembly having a tongue disposed between a pair of terminals. [0010] It is a further object of the present invention to provide a solenoid having a pair of terminals on opposite sides of a plunger component and a connector having a corresponding pair of terminals and a tongue between the terminals which protects the plunger component when the solenoid and connector are assembled. [0011] It is a still further object of the present invention to provide a solenoid having a pair of terminals on opposite sides of a plunger and a connector having a corresponding pair of terminals and a tongue between the terminals which covers the plunger when the solenoid and connector are assembled to inhibit ingress of foreign matter. [0012] It: is a still further object of the present invention to provide a motor having a pair of terminals on opposite sides of a bearing and a connector having a corresponding pair of terminals and a tongue between the terminals which protects the bearing when the motor and connector are assembled, [0013] It is a still further object of the present invention to provide a motor having a pair of terminals on opposite sides of a bearing and a connector having a corresponding pair of terminals and a tongue between the terminals which covers the bearing when the motor and connector are assembled to inhibit ingress of foreign matter. [0014] Further objects, advantages and areas of applicability will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure. DRAWINGS [0015] The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way. [0016] Figure 1 is a perspective view of a first embodiment of a solenoid and an electrical connector according to the present invention in pre- assembiy configuration; [0017] Figure 2 is a full, sectional view of a first embodiment of a solenoid and an electrical connector assembly according to the present invention; [0018] Figure 3 is a full, sectional view of a first embodiment of an electrical connector according to the present invention taken along line 3-3 of Figure 2; [0019] Figure 4 is a perspective view of a first embodiment of an electrical connector according to the present invention; [0020] Figure 5 is a perspective view of a second embodiment of a motor and an electrical connector according to the present invention in pre- assembly configuration; and [0021] Figure 6 is a full, sectional view of a second embodiment of a motor and an electrical connector assembly according to the present invention. DETAILED DESCRIPTION [0022] The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. [0023] With reference now to Figures 1 and 2, a first embodiment of a solenoid and electrical connector assembly is illustrated and generally designated by the reference number 10. The first embodiment solenoid and electrical connector assembly 10 includes a solenoid 12 having a generally cylindrical body or housing 14 which is preferably fabricated of metal, for example, steel, aluminum or an alloy of these or other metals. The cylindrical housing 14 locates, supports and protects an electrical coil 16. The electrical coil 16 generally surrounds a bi-directionally translatable armature or plunger 18. The plunger 18 cooperates with a first axial guide or bearing 22 and a second axial guide, pole piece or stop 24 which together define the axis of motion or translation of the plunger 18. A portion of the plunger 18 extends through the first axial guide or bearing 22 and activates or controls an associated device (not illustrated). If desired, a compression spring 26 and an adjusting screw 28 may be disposed between the plunger 18 and the second axial guide, pole piece or stop 24 for adjusting the travel of the plunger 18 [0024] At the end of the cylindrical housing 14 adjacent the second axial guide, pole piece or stop 24 is disposed a terminal assembly 30. The terminal assembly 30 is fabricated of a plastic, insulating material, for example, ABS or nylon, and is shaped to generally conform to the housing 14 of the solenoid 12 and includes a flat, chordal surface 32 flanked by two smaller perpendicular surfaces 34a and 34b. The terminal assembly 30 defines a pair of rectangular slots 36a and 36b parallel to and adjacent the surfaces 34a and 34b. The terminal assembly 30 is secured to the housing 14 by a positioning or register pin 38 which is received within a suitably sized and appropriately located opening 42 and a resilient or flexible latch 44 which is releasably received within a second opening 46 having a flat or chordal edge which is engageable by the flexible latch 44. [0025] The terminal assembly 30 includes a centrally disposed aperture 48 which receives a portion of the second guide, pole piece or stop 24. The terminal assembly 30 also includes a pair of spaced apart electrical terminals 50a and 50b disposed adjacent and on opposite sides of the center aperture 48. Each of the terminals 50a and 50b is connected by one of a pair of electrical leads or wires 52 to the electrical coil 16, [0026] Referring now to Figures 1, 2, 3 and 4, an electrical connector 60, also fabricated of an insulating material, for example, ABS or nylon, includes a complexly configured connector body 62 which receives, supports and positions a pair of electrical terminals 64a and 64b and a cover 66 which is removably retained on the body 62 by a latch assembly 68, The connector body 62 includes a pair of parallel, spaced-apart outer ears or flanges 72a and 72b which are each reinforced by pairs of gussets 74 and a center flange or tongue 76 perpendicular to and offset from the outer flanges 72a and 72b which is also strengthened by a pair of gussets 78. As indicated by the arrows in Figure 1, when the electrical connector 60 is assembled to the terminal assembly 30, each of the pair of ears or flanges 72a and 72b is received within a respective one of the pair of rectangular slots 36a and 36b. Also, as illustrated in Figure 2, when the electrical connector 60 is assembled to the terminal assembly 30, the center flange or tongue 76 is in intimate contact with the surface of the terminal assembly 30 around the aperture 48 and closes and seals it off. [0027] The pair of electrical terminals 64a and 64b in the electrical connector 60 are flat, resilient, blade-like components which may be crimped to respective electrical leads 84 and which may be molded in-situ in the electrical connector 60 or secured there by other conventional, for example, mechanical, means. Generally aligned with the center flange 76 is a resilient latch member 86 which releasably engages a cross member 88 of the terminal assembly 30, as illustrated in Figure 2, to retain the electrical connector 60 on the terminal assembly 30. A U-shaped bridge 94, aligned with the center flange 76 and the resilient latch member 86 reinforces the electrical connector 60, protects and acts as a locating reference for the latch member 86 and facilitates installation of the electrical connector 60 on the terminal assembly 30. [0028] Referring now to Figures 5 and 6, a second embodiment of the invention having an electric motor and an electrical connector assembly according to the present invention is illustrated and generally designated by the reference number 100. The second embodiment motor and electrical connector assembly 100 is similar to the first embodiment assembly 10 except that the solenoid 12 is replaced by an electric motor 102 and an electrical connector 150 includes electrical leads 172 which extend from the connector 150 in an opposite direction. It should be appreciated that these various components may be interchanged and that the solenoid 12 of the first embodiment assembly 10 may be utilized with the electrical connector 150 of the second embodiment assembly 100 and that the electric motor 102 of the second embodiment assembly 100 may be utilized with the electrical connector 60 of the first embodiment assembly 10. [0029] The second embodiment motor and electrical connector assembly 100 includes the electric motor 102 which may be either uni- or bi- directional and which has a generally cylindrical housing 104 which is preferably fabricated of metal, for example, steel, aluminum or an alloy of these or other metals. The cylindrical housing 104 locates, supports and protects a stator and electrical coil 106. The stator and electrical coil 106 generally surrounds a rotatable armature 108 having a shaft 110 which defines an axis of rotation. The armature 108 cooperates with and is supported by a first guide or bearing 112 and a second guide or bearing 114 which together define the axis of motion or rotation of the armature 108. [0030] At the end of the cylindrical housing 104 opposite the first guide or bearing 112 is disposed a terminal assembly 120. The terminal assembly 120 is fabricated of a plastic, insulating material, for example, ABS or nylon, and is shaped to generally conform to the housing 104 of the electric motor 102 and includes a flat, chordal surface 122 flanked by two smaller perpendicular surfaces 124a and 124b. The terminal assembly 120 defines a pair of rectangular slots 126a and 126b parallel to and adjacent the surfaces 124a and 124b, respectively. The terminal assembly 120 is secured to the cylindrical housing 104 by a positioning or register pin 128 which is received within a suitably sized and appropriately located opening 132 and a resilient latch 134 which is releasably received within a second opening 136 having a flat or chordal edge which is engageable by the latch 134. [0031] The terminal assembly 120 includes a centrally disposed aperture 140 which receives a portion of the second guide or bearing 114. The terminal assembly 120 also includes a pair of spaced apart electrical terminals 142a and 142b disposed adjacent and on opposite sides of the center aperture 140. Each of the terminals 142a and 142b is connected to a respective one of the electrical leads or wires 144 of the electric coil 106 of the electric motor 102. [0032] An electrical connector 150, also fabricated of an insulating material, for example, ABS or nylon, includes a complexly configured body 152 which receives, supports and positions a pair of electrical terminals 154a and 154b and a cover 156 which is removably retained on the body 152 by a latch assembly 68 (illustrated in Figure 3). The connector body 152 includes a pair of parallel, spaced-apart outer ears or flanges 162a and 162b which are reinforced by pairs of gussets 74 (illustrated in Figure 4) and a center flange or tongue 166 perpendicular to and offset from the outer ears or flanges 162a and 162b. The center flange or tongue 166 is strengthened by a pair of gussets 78 (illustrated in Figure 4). As indicated by the arrows in Figure 5, when the electrical connector 150 is assembled to the terminal assembly 120, each of the pair of ears or flanges 162a and 162b is received within a respective one of the pair of rectangular slots 126a and 126b. Also, as illustrated in Figure 6, when the electrical connector 150 is assembled to the terminal assembly 120, the center flange or tongue 166 is in intimate contact with the terminal assembly 120 around the aperture 140 and closes and seals it off. [0033] The pair of electrical terminals 154a and 154b in the electrical connector 150 are flat, resilient, blade-like components which may be crimped to respective electrical leads 172 and which may be molded in-situ in the electrical connector 150 or secured there by other conventional, for example, mechanical, means. Generally aligned with the center flange 166 is a resilient latch member 176 which engages, as illustrated in Figure 6, a cross member 178 of the terminal assembly 120 to retain the electrical connector 150 on the terminal assembly 120. [0034] It will be appreciated that in the first embodiment solenoid and electrical connector assembly 10, the center flange or tongue 76 effectively covers and protects the center aperture 48 inhibiting the ingress of foreign material which could cause a short circuit between one of the electrical terminals 50a and 50b and the chassis ground through the second guide, pole piece or stop 24 when the electrical connector 60 is assembled to the terminal assembly 30. Likewise, in the second embodiment motor and electrical connector assembly 100, the center flange or tongue 166 effectively covers and protects the center aperture 140 inhibiting the ingress of foreign material which could cause a short circuit between one of the electrical terminals 142a and 142b and the chassis ground through the second guide or bearing 114 when the electrical connector 150 is assembled to the terminal assembly 120. [0035] The description of the invention is merely exemplary in nature and variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention. CLAIMS What is claimed is: 1. A electrical component and connector assembly comprising, in combination, a electrical component having a housing including a pair of aligned guides defining an axis of motion and a member disposed for motion on said axis, a terminal assembly secured to said housing defining an opening for receiving one of said guides and including a first pair of electrical terminals adjacent said opening, and an electrical connector having a second pair of electrical terminals disposed to engage a respective one of said first pair of electrical terminals and a tongue configured to cover said opening of said terminal assembly when said connector is assembled to said terminal assembly. 2. The electrical component and connector assembly of claim 1 wherein said electrical component is a solenoid. 3. The electrical component and connector assembly of claim 1 wherein said electrical component is a motor. 4. The electrical component and connector assembly of claim 1 wherein said member is a solenoid plunger. 5. The electrical component and connector assembly of claim 1 wherein said member is a motor armature. 6. The electrical component and connector assembly of claim 1 wherein said tongue includes reinforcing gussets. 7. The electrical component and connector assembly of claim 1 further including a cover releasably attached to said electrical connector. 8. The electrical component and connector assembly of claim 1 wherein said terminal assembly includes a pair of spaced apart slots and said electrical connector includes a pair of spaced apart ears adapted to engage said slots of said terminal assembly. 9. A solenoid and connector assembly comprising, in combination, a solenoid having a housing, an electrical coil in said housing, a pair of aligned guides defining an axis of motion inside said coil and a plunger disposed for motion on said axis, a terminal assembly secured to said housing defining an opening for receiving one of said guides and including a first pair of electrical terminals connected to said coil and disposed adjacent said opening, and an electrical connector having a second pair of electrical terminals configured to engage a respective one of said first pair of electrical terminals and a tongue disposed to cover said opening when said connector is assembled to said terminal assembly. 10. The solenoid and connector assembly of claim 9 wherein said tongue includes reinforcing gussets. 11. The solenoid and connector assembly of claim 9 further including a cover releasably attached to said electrical connector. 12. The solenoid and connector assembly of claim 9 further including electrical leads connected to said second pair of electrical terminals and extending along said housing. 13. The solenoid and connector assembly of claim 9 further including electrical leads connected to said second pair of electrical terminals and extending away from said housing. 14. The solenoid and connector assembly of claim 9 wherein said guides are electrically conductive and said terminal assembly is an insulator. 15. The solenoid and connector assembly of claim 9 wherein said terminal assembly includes a pair of spaced apart slots and said electrical connector includes a pair of spaced apart ears adapted to engage said slots of said terminal assembly. 16. An electric motor and connector assembly comprising, in combination, an electric motor having a housing, an electrical coil in said housing, a pair of aligned bearings defining an axis of rotation inside said coil and an armature disposed for rotation on said axis, a terminal assembly secured to said housing defining an opening for receiving one of said bearings and including a first pair of electrical terminals connected to said coil and disposed adjacent said opening, and an electrical connector having a pair of spaced apart ears adapted to engage said terminal assembly, a second pair of electrical terminals configured to engage a respective one of said first pair of electrical terminals and a tongue disposed to cover said opening when said connector is assembled to said terminal assembly. 17. The electric motor and connector assembly of claim 16 further including a cover releasably attached to said electrical connector. 18. The electric motor and connector assembly of claim 16 further including electrical leads connected to said second pair of electrical terminals and extending along said housing. 19. The electric motor and connector assembly of claim 16 further including electrical leads connected to said second pair of electrical terminals and extending away from said housing. 20. The electric motor and connector assembly of claim 16 wherein said motor is bi-directional. The present invention provides a solenoid and electrical connector assembly which includes a solenoid body having a pair of electrical terminals disposed on opposite sides of a plunger component and a connector having two corresponding electrical terminals and a non-conductive blade or tongue disposed therebetween. When assembled, the tongue of the connector seats between the terminals on the solenoid body and inhibits corrosion and ingress of foreign matter in the region between the terminals of the solenoid.

Full Text

SOLENOID AND CONNECTOR ASSEMBLY
FIELD
[0001] The present disclosure relates to electrical connectors and
electrical devices and more particularly to an assembly of an electrical device
such as a motor or solenoid and an electrical connector having improved
reliability.
BACKGROUND
[0002] The statements in this section merely provide background
information related to the present disclosure and may or may not constitute prior
art.
[0003] Compact electrical devices such as motors and solenoids are
often housed in cylindrical housings which correspond generally to the active
components of the device: a rotor surrounded by a cylindrical stator in the case
of a motor or a plunger surrounded by a cylindrical coil in the case of a solenoid.
Such cylindrical housings are efficient packages for such devices as they
generally require a minimum of material and result in a package having minimum
dimensions.
[0004] Since one end of a typical motor or solenoid will include an
output feature, either a shaft or a plunger, it is frequently convenient to arrange
the electrical input or terminals on the opposite end. Input connections or
terminals so located also maintain the cylindrical symmetry of the housing.

[0005] A problem may develop with such an arrangement, however,
especially in smaller devices in which the spacing between the motor shaft,
solenoid plunger or other electrically components associated with them and the
electrical terminals is limited. In such situations, conductive foreign matter may
bridge the gap between an electrical terminal and the shaft or plunger and
intermittently or permanently short circuit the device.
[0006] This problem can be especially acute in motors and solenoids
for automotive applications because of the constant demand for weight saving
which generally encourages lighter and therefore smaller devices and the fact
that they are often exposed to deleterious atmospheric conditions such as dirt,
metallic debris and other contaminants and particulates. Furthermore, a failure
of the motor or solenoid due to a short circuit to ground may cause consequential
failure of related components or controllers. The present invention addresses
this difficulty with motors, solenoids and other similar electrical devices.
SUMMARY
[0007] The present invention provides a solenoid and electrical
connector assembly which includes a solenoid body having a pair of electrical
terminals disposed on opposite sides of a plunger component and a connector
having two corresponding electrical terminals and a non-conductive blade or
tongue disposed therebetween. When assembled, the tongue of the connector
seats between the terminals on the solenoid body and inhibits ingress of foreign

matter in the region between the terminals of the solenoid. The service life and
reliability of the solenoid are thus greatly improved.
[0008] The invention is also suitable for and may be utilized with a
motor having a bearing at one end and a pair of electrical terminals disposed on
opposite sides of the bearing. The electrical connector includes a pair of
electrical terminals correspondingly arranged and a blade or tongue which seats
between the terminals of the motor and protects the bearing from foreign matter
thereby reducing the likelihood of a short circuit.
[0009] Thus it is an object of the present invention to provide a
solenoid and connector assembly having a tongue disposed between a pair of
terminals.
[0010] It is a further object of the present invention to provide a
solenoid having a pair of terminals on opposite sides of a plunger component and
a connector having a corresponding pair of terminals and a tongue between the
terminals which protects the plunger component when the solenoid and
connector are assembled.
[0011] It is a still further object of the present invention to provide a
solenoid having a pair of terminals on opposite sides of a plunger and a
connector having a corresponding pair of terminals and a tongue between the
terminals which covers the plunger when the solenoid and connector are
assembled to inhibit ingress of foreign matter.
[0012] It: is a still further object of the present invention to provide a
motor having a pair of terminals on opposite sides of a bearing and a connector

having a corresponding pair of terminals and a tongue between the terminals
which protects the bearing when the motor and connector are assembled,
[0013] It is a still further object of the present invention to provide a
motor having a pair of terminals on opposite sides of a bearing and a connector
having a corresponding pair of terminals and a tongue between the terminals
which covers the bearing when the motor and connector are assembled to inhibit
ingress of foreign matter.
[0014] Further objects, advantages and areas of applicability will
become apparent from the description provided herein. It should be understood
that the description and specific examples are intended for purposes of
illustration only and are not intended to limit the scope of the present disclosure.
DRAWINGS
[0015] The drawings described herein are for illustration purposes only
and are not intended to limit the scope of the present disclosure in any way.
[0016] Figure 1 is a perspective view of a first embodiment of a
solenoid and an electrical connector according to the present invention in pre-
assembiy configuration;
[0017] Figure 2 is a full, sectional view of a first embodiment of a
solenoid and an electrical connector assembly according to the present
invention;

[0018] Figure 3 is a full, sectional view of a first embodiment of an
electrical connector according to the present invention taken along line 3-3 of
Figure 2;
[0019] Figure 4 is a perspective view of a first embodiment of an
electrical connector according to the present invention;
[0020] Figure 5 is a perspective view of a second embodiment of a
motor and an electrical connector according to the present invention in pre-
assembly configuration; and
[0021] Figure 6 is a full, sectional view of a second embodiment of a
motor and an electrical connector assembly according to the present invention.
DETAILED DESCRIPTION
[0022] The following description is merely exemplary in nature and is
not intended to limit the present disclosure, application, or uses.
[0023] With reference now to Figures 1 and 2, a first embodiment of a
solenoid and electrical connector assembly is illustrated and generally
designated by the reference number 10. The first embodiment solenoid and
electrical connector assembly 10 includes a solenoid 12 having a generally
cylindrical body or housing 14 which is preferably fabricated of metal, for
example, steel, aluminum or an alloy of these or other metals. The cylindrical
housing 14 locates, supports and protects an electrical coil 16. The electrical coil
16 generally surrounds a bi-directionally translatable armature or plunger 18.
The plunger 18 cooperates with a first axial guide or bearing 22 and a second

axial guide, pole piece or stop 24 which together define the axis of motion or
translation of the plunger 18. A portion of the plunger 18 extends through the
first axial guide or bearing 22 and activates or controls an associated device (not
illustrated). If desired, a compression spring 26 and an adjusting screw 28 may
be disposed between the plunger 18 and the second axial guide, pole piece or
stop 24 for adjusting the travel of the plunger 18
[0024] At the end of the cylindrical housing 14 adjacent the second
axial guide, pole piece or stop 24 is disposed a terminal assembly 30. The
terminal assembly 30 is fabricated of a plastic, insulating material, for example,
ABS or nylon, and is shaped to generally conform to the housing 14 of the
solenoid 12 and includes a flat, chordal surface 32 flanked by two smaller
perpendicular surfaces 34a and 34b. The terminal assembly 30 defines a pair of
rectangular slots 36a and 36b parallel to and adjacent the surfaces 34a and 34b.
The terminal assembly 30 is secured to the housing 14 by a positioning or
register pin 38 which is received within a suitably sized and appropriately located
opening 42 and a resilient or flexible latch 44 which is releasably received within
a second opening 46 having a flat or chordal edge which is engageable by the
flexible latch 44.
[0025] The terminal assembly 30 includes a centrally disposed
aperture 48 which receives a portion of the second guide, pole piece or stop 24.
The terminal assembly 30 also includes a pair of spaced apart electrical
terminals 50a and 50b disposed adjacent and on opposite sides of the center

aperture 48. Each of the terminals 50a and 50b is connected by one of a pair of
electrical leads or wires 52 to the electrical coil 16,
[0026] Referring now to Figures 1, 2, 3 and 4, an electrical connector
60, also fabricated of an insulating material, for example, ABS or nylon, includes
a complexly configured connector body 62 which receives, supports and
positions a pair of electrical terminals 64a and 64b and a cover 66 which is
removably retained on the body 62 by a latch assembly 68, The connector body
62 includes a pair of parallel, spaced-apart outer ears or flanges 72a and 72b
which are each reinforced by pairs of gussets 74 and a center flange or tongue
76 perpendicular to and offset from the outer flanges 72a and 72b which is also
strengthened by a pair of gussets 78. As indicated by the arrows in Figure 1,
when the electrical connector 60 is assembled to the terminal assembly 30, each
of the pair of ears or flanges 72a and 72b is received within a respective one of
the pair of rectangular slots 36a and 36b. Also, as illustrated in Figure 2, when
the electrical connector 60 is assembled to the terminal assembly 30, the center
flange or tongue 76 is in intimate contact with the surface of the terminal
assembly 30 around the aperture 48 and closes and seals it off.
[0027] The pair of electrical terminals 64a and 64b in the electrical
connector 60 are flat, resilient, blade-like components which may be crimped to
respective electrical leads 84 and which may be molded in-situ in the electrical
connector 60 or secured there by other conventional, for example, mechanical,
means. Generally aligned with the center flange 76 is a resilient latch member
86 which releasably engages a cross member 88 of the terminal assembly 30, as

illustrated in Figure 2, to retain the electrical connector 60 on the terminal
assembly 30. A U-shaped bridge 94, aligned with the center flange 76 and the
resilient latch member 86 reinforces the electrical connector 60, protects and acts
as a locating reference for the latch member 86 and facilitates installation of the
electrical connector 60 on the terminal assembly 30.
[0028] Referring now to Figures 5 and 6, a second embodiment of the
invention having an electric motor and an electrical connector assembly
according to the present invention is illustrated and generally designated by the
reference number 100. The second embodiment motor and electrical connector
assembly 100 is similar to the first embodiment assembly 10 except that the
solenoid 12 is replaced by an electric motor 102 and an electrical connector 150
includes electrical leads 172 which extend from the connector 150 in an opposite
direction. It should be appreciated that these various components may be
interchanged and that the solenoid 12 of the first embodiment assembly 10 may
be utilized with the electrical connector 150 of the second embodiment assembly
100 and that the electric motor 102 of the second embodiment assembly 100
may be utilized with the electrical connector 60 of the first embodiment assembly
10.
[0029] The second embodiment motor and electrical connector
assembly 100 includes the electric motor 102 which may be either uni- or bi-
directional and which has a generally cylindrical housing 104 which is preferably
fabricated of metal, for example, steel, aluminum or an alloy of these or other
metals. The cylindrical housing 104 locates, supports and protects a stator and

electrical coil 106. The stator and electrical coil 106 generally surrounds a
rotatable armature 108 having a shaft 110 which defines an axis of rotation. The
armature 108 cooperates with and is supported by a first guide or bearing 112
and a second guide or bearing 114 which together define the axis of motion or
rotation of the armature 108.
[0030] At the end of the cylindrical housing 104 opposite the first guide
or bearing 112 is disposed a terminal assembly 120. The terminal assembly 120
is fabricated of a plastic, insulating material, for example, ABS or nylon, and is
shaped to generally conform to the housing 104 of the electric motor 102 and
includes a flat, chordal surface 122 flanked by two smaller perpendicular
surfaces 124a and 124b. The terminal assembly 120 defines a pair of
rectangular slots 126a and 126b parallel to and adjacent the surfaces 124a and
124b, respectively. The terminal assembly 120 is secured to the cylindrical
housing 104 by a positioning or register pin 128 which is received within a
suitably sized and appropriately located opening 132 and a resilient latch 134
which is releasably received within a second opening 136 having a flat or chordal
edge which is engageable by the latch 134.
[0031] The terminal assembly 120 includes a centrally disposed
aperture 140 which receives a portion of the second guide or bearing 114. The
terminal assembly 120 also includes a pair of spaced apart electrical terminals
142a and 142b disposed adjacent and on opposite sides of the center aperture
140. Each of the terminals 142a and 142b is connected to a respective one of
the electrical leads or wires 144 of the electric coil 106 of the electric motor 102.

[0032] An electrical connector 150, also fabricated of an insulating
material, for example, ABS or nylon, includes a complexly configured body 152
which receives, supports and positions a pair of electrical terminals 154a and
154b and a cover 156 which is removably retained on the body 152 by a latch
assembly 68 (illustrated in Figure 3). The connector body 152 includes a pair of
parallel, spaced-apart outer ears or flanges 162a and 162b which are reinforced
by pairs of gussets 74 (illustrated in Figure 4) and a center flange or tongue 166
perpendicular to and offset from the outer ears or flanges 162a and 162b. The
center flange or tongue 166 is strengthened by a pair of gussets 78 (illustrated in
Figure 4). As indicated by the arrows in Figure 5, when the electrical connector
150 is assembled to the terminal assembly 120, each of the pair of ears or
flanges 162a and 162b is received within a respective one of the pair of
rectangular slots 126a and 126b. Also, as illustrated in Figure 6, when the
electrical connector 150 is assembled to the terminal assembly 120, the center
flange or tongue 166 is in intimate contact with the terminal assembly 120 around
the aperture 140 and closes and seals it off.
[0033] The pair of electrical terminals 154a and 154b in the electrical
connector 150 are flat, resilient, blade-like components which may be crimped to
respective electrical leads 172 and which may be molded in-situ in the electrical
connector 150 or secured there by other conventional, for example, mechanical,
means. Generally aligned with the center flange 166 is a resilient latch member
176 which engages, as illustrated in Figure 6, a cross member 178 of the

terminal assembly 120 to retain the electrical connector 150 on the terminal
assembly 120.
[0034] It will be appreciated that in the first embodiment solenoid and
electrical connector assembly 10, the center flange or tongue 76 effectively
covers and protects the center aperture 48 inhibiting the ingress of foreign
material which could cause a short circuit between one of the electrical terminals
50a and 50b and the chassis ground through the second guide, pole piece or
stop 24 when the electrical connector 60 is assembled to the terminal assembly
30. Likewise, in the second embodiment motor and electrical connector
assembly 100, the center flange or tongue 166 effectively covers and protects
the center aperture 140 inhibiting the ingress of foreign material which could
cause a short circuit between one of the electrical terminals 142a and 142b and
the chassis ground through the second guide or bearing 114 when the electrical
connector 150 is assembled to the terminal assembly 120.
[0035] The description of the invention is merely exemplary in nature
and variations that do not depart from the gist of the invention are intended to be
within the scope of the invention. Such variations are not to be regarded as a
departure from the spirit and scope of the invention.

CLAIMS
What is claimed is:
1. A electrical component and connector assembly comprising, in
combination,
a electrical component having a housing including a pair of
aligned guides defining an axis of motion and a member
disposed for motion on said axis,
a terminal assembly secured to said housing defining an
opening for receiving one of said guides and including a first
pair of electrical terminals adjacent said opening, and
an electrical connector having a second pair of electrical
terminals disposed to engage a respective one of said first
pair of electrical terminals and a tongue configured to cover
said opening of said terminal assembly when said connector
is assembled to said terminal assembly.
2. The electrical component and connector assembly of claim 1 wherein
said electrical component is a solenoid.
3. The electrical component and connector assembly of claim 1 wherein
said electrical component is a motor.
4. The electrical component and connector assembly of claim 1 wherein
said member is a solenoid plunger.

5. The electrical component and connector assembly of claim 1 wherein
said member is a motor armature.
6. The electrical component and connector assembly of claim 1 wherein
said tongue includes reinforcing gussets.
7. The electrical component and connector assembly of claim 1 further
including a cover releasably attached to said electrical connector.
8. The electrical component and connector assembly of claim 1 wherein
said terminal assembly includes a pair of spaced apart slots and said
electrical connector includes a pair of spaced apart ears adapted to
engage said slots of said terminal assembly.
9. A solenoid and connector assembly comprising, in combination,
a solenoid having a housing, an electrical coil in said
housing, a pair of aligned guides defining an axis of motion
inside said coil and a plunger disposed for motion on said
axis,
a terminal assembly secured to said housing defining an
opening for receiving one of said guides and including a first
pair of electrical terminals connected to said coil and
disposed adjacent said opening, and
an electrical connector having a second pair of electrical
terminals configured to engage a respective one of said first
pair of electrical terminals and a tongue disposed to cover

said opening when said connector is assembled to said
terminal assembly.
10. The solenoid and connector assembly of claim 9 wherein said tongue
includes reinforcing gussets.
11. The solenoid and connector assembly of claim 9 further including a
cover releasably attached to said electrical connector.
12. The solenoid and connector assembly of claim 9 further including
electrical leads connected to said second pair of electrical terminals
and extending along said housing.
13. The solenoid and connector assembly of claim 9 further including
electrical leads connected to said second pair of electrical terminals
and extending away from said housing.
14. The solenoid and connector assembly of claim 9 wherein said guides
are electrically conductive and said terminal assembly is an insulator.
15. The solenoid and connector assembly of claim 9 wherein said
terminal assembly includes a pair of spaced apart slots and said
electrical connector includes a pair of spaced apart ears adapted to
engage said slots of said terminal assembly.
16. An electric motor and connector assembly comprising, in
combination,
an electric motor having a housing, an electrical coil in said
housing, a pair of aligned bearings defining an axis of

rotation inside said coil and an armature disposed for
rotation on said axis,
a terminal assembly secured to said housing defining an
opening for receiving one of said bearings and including a
first pair of electrical terminals connected to said coil and
disposed adjacent said opening, and
an electrical connector having a pair of spaced apart ears
adapted to engage said terminal assembly, a second pair of
electrical terminals configured to engage a respective one of
said first pair of electrical terminals and a tongue disposed to
cover said opening when said connector is assembled to
said terminal assembly.
17. The electric motor and connector assembly of claim 16 further
including a cover releasably attached to said electrical connector.
18. The electric motor and connector assembly of claim 16 further
including electrical leads connected to said second pair of electrical
terminals and extending along said housing.
19. The electric motor and connector assembly of claim 16 further
including electrical leads connected to said second pair of electrical
terminals and extending away from said housing.
20. The electric motor and connector assembly of claim 16 wherein said
motor is bi-directional.

The present invention provides a solenoid and electrical connector assembly which includes a solenoid body having a pair of electrical terminals disposed on opposite sides of a plunger component and a connector having two
corresponding electrical terminals and a non-conductive blade or tongue disposed therebetween. When assembled, the tongue of the connector seats between the terminals on the solenoid body and inhibits corrosion and ingress of foreign matter in the region between the terminals of the solenoid.

Documents:

1758-KOL-2008-(19-02-2014)-ABSTRACT.pdf

1758-KOL-2008-(19-02-2014)-ANNEXURE TO FORM 3.pdf

1758-KOL-2008-(19-02-2014)-CLAIMS.pdf

1758-KOL-2008-(19-02-2014)-CORRESPONDENCE.pdf

1758-KOL-2008-(19-02-2014)-DESCRIPTION (COMPLETE).pdf

1758-KOL-2008-(19-02-2014)-DRAWINGS.pdf

1758-KOL-2008-(19-02-2014)-FORM-1.pdf

1758-KOL-2008-(19-02-2014)-FORM-2.pdf

1758-KOL-2008-(19-02-2014)-FORM-3.pdf

1758-KOL-2008-(19-02-2014)-FORM-5.pdf

1758-KOL-2008-(19-02-2014)-OTHERS.pdf

1758-KOL-2008-(19-02-2014)-PA.pdf

1758-KOL-2008-(19-02-2014)-PETITION UNDER RULE 137.pdf

1758-kol-2008-abstract.pdf

1758-KOL-2008-ASSIGNMENT 1.1.pdf

1758-KOL-2008-ASSIGNMENT.pdf

1758-kol-2008-claims.pdf

1758-KOL-2008-CORRESPONDENCE 1.1.pdf

1758-KOL-2008-CORRESPONDENCE 1.2.pdf

1758-kol-2008-correspondence.pdf

1758-kol-2008-description (complete).pdf

1758-kol-2008-drawings.pdf

1758-KOL-2008-FORM 1 1.1.pdf

1758-kol-2008-form 1.pdf

1758-kol-2008-form 18.pdf

1758-KOL-2008-FORM 2 1.1.pdf

1758-kol-2008-form 2.pdf

1758-kol-2008-form 3.pdf

1758-kol-2008-form 5.pdf

1758-KOL-2008-FORM 6 1.1.pdf

1758-KOL-2008-FORM 6.pdf

1758-KOL-2008-OTHERS 1.1.pdf

1758-KOL-2008-PA.pdf

1758-kol-2008-specification.pdf

1758-KOL-2008-TRANSLATED COPY OF PRIORITY DOCUMENT.pdf

abstract_1758-kol-2008.jpg

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Patent Number

266004

Indian Patent Application Number

1758/KOL/2008

PG Journal Number

13/2015

Publication Date

27-Mar-2015

Grant Date

26-Mar-2015

Date of Filing

17-Oct-2008

Name of Patentee

GENERAL MOTORS CORPORATION

Applicant Address

300 RENAISSANCE CENTER MAIL CODE 482-C23-B21, P.O. BOX 300 DETROIT, MI

Inventors:

#	Inventor's Name	Inventor's Address
1	JOSHUA GILBERG	6825 BRETTON CIRCLE INDIANAPOLIS, IN 46268
2	REBECCA LYNN SCHENK	8419 BROOK POINTE COURT INDIANAPOLIS, IN 46234
3	THOMAS H. WILSON	4801 NORTH AUDUBON ROAD INDIANAPOLIS, IN 46226

PCT International Classification Number

F02M51/06; F02M61/08; F02M61/16; F02M61/

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	11/940,801	2007-11-15	U.S.A.