Title of Invention	TERMINAL CONNECTION STRUCTURE OF A RESOLVER STATOR COIL
Abstract	Disclosed is a terminal connection structure of a resolver stator coil in which a part of the end portion of the stator coil is left as a free end portion which is free with respect to the terminals, whereby external impact is absorbed, and rupture of the stator coil is prevented, thereby achieving an improvement in reliability. An end portion (30) of a stator coil (1) is wound around terminals (4) to form a winding connection portion (5), and a part of the end portion (3) is left as a free end portion (30) which is not integrally connected to the terminals (4) by soldering or fusing, whereby a spring function is obtained.

Title of Invention

TERMINAL CONNECTION STRUCTURE OF A RESOLVER STATOR COIL

Abstract

Disclosed is a terminal connection structure of a resolver stator coil in which a part of the end portion of the stator coil is left as a free end portion which is free with respect to the terminals, whereby external impact is absorbed, and rupture of the stator coil is prevented, thereby achieving an improvement in reliability. An end portion (30) of a stator coil (1) is wound around terminals (4) to form a winding connection portion (5), and a part of the end portion (3) is left as a free end portion (30) which is not integrally connected to the terminals (4) by soldering or fusing, whereby a spring function is obtained.

Full Text	Field of the Invention The present invention relates to a terminal connection structure of a resolver stator coil. In particular, the present invention relates to a novel and improved connection structure in which a part of an end portion of a stator coil wound around a terminal is left as a free end without integrating it with the terminal by soldering or the like, whereby any expansion/contraction caused by a temperature change or a vibration generated in the stator coil is absorbed by this free end, and rupture or breakage of the stator coil is prevented, thereby improving the resolver in terms of reliability. 2 Description of the Related Art Figs. 5 and 7 show a typical conventional connection structure of the stator coil of the resolver of this type. In Fig. 5, reference numeral 1 indicates a stator coil provided on a resolver stator 2. An end portion 3 of this stator coil 1 is wound around a terminal 4 protruding from an insulation mold 10 provided on the stator 2, to which varnish coating or the like is applied. The end portion 3 wound around the terminal 4 constitutes a winding connecting portion 5, which is entirely covered with solder 6, as shown in Fig. 7. By means of this solder 6, the end portion 3 is connected with the terminal 4 so as to form an integral portion. In addition to the soldering, fusing is also performed to form the integral connection between the end portion 3 and the terminal 4. In this case, the end portion 3 of the stator coil 1 is fused by heating to form the integral connection with the terminal 4. The conventional terminal connection structure of the resolver stator coil is constructed as described above, thereby involving the following problem. Soldering is performed entirely to the end portion wound around the terminal as shown in Fig, 7 . Therefore, when the resolver is manufactured in the state shown in Fig. 7, and then is mounted to an automobile, machine tool, etc. for operation, stress caused by thermal expansion, vibration, etc. is applied to various portions of the stator. As a result, as shown in Fig. 8, this stress causes the stator coil to be broken and cut down from the terminal, i.e., a base la of the soldered portion thereof, and the resolver ceases to operate as such. The base portion la is fixed by soldering or the like, any vibration or expansion/contraction of the stator coil is hard to absorb, resulting in breakage of the end portion 3. SUMMARY OF THE INVENTION The present invention has been made in view of solving the above-mentioned problem. An object of the present invention is to provide a terminal connection structure of a resolver stator coil in which a part of an end portion of a stator coil wound around a terminal is used as a free without integrating it with the terminal by soldering or the like, whereby any expansion/contraction caused by a temperature change or a vibration generated in the stator coil is absorbed by this free end, and rupture or breakage of the stator coil is prevented, thereby improving the resolver in terms of reliability. A terminal connection structure of a resolver stator coil according to the present invention includes a resolver stator, a stator coil wound around each magnetic pole tooth of the stator through the intermediation of annular insulation caps, and a winding connection portion formed by winding an end portion of the stator coil around a plurality of terminals provided in a peripheral edge portion of the insulation cap, the stator coil and the terminals being integrally connected to the winding connection portion by soldering or fusing, in which a part of the end portion wound around the winding connection portion is left as a free end portion which is not integrally connected to the terminals by the soldering or fusing. Also, in the terminal connection structure of a resolver stator coil, the free end portion is wound at least one time around the terminals. Also, in the terminal connection structure of a resolver stator coil, the free end portion is wound at least a plurality of times around the terminals. Also, in the terminal connection structure of a resolver stator coil, the free end portion has a spring function and a sagging function. Accordingly the present invention provides a terminal connection structure of a resolver stator coil comprising a resolver stator, a stator coil wound around each magnetic pole tooth of said stator through the intermediation of annular insulation caps, and a winding and connection portion formed by winding an end portion of said stator coil around a plurality of terminals provided in a peripheral edge portion of said insulation cap, said stator coil and said terminals being integrally connected to said winding and connection portion by one of soldering and fusing, wherein a part of said end portion wound around said winding connection portion is left as a free end portion which is not integrally connected to said terminals by said soldering or fusing. BRIEF DESCRIPTION OF THE DRAWINGS In the accompanying drawings in which: Fig. 1 is a plan view showing a terminal connection structure of a resolver stator according to the present invention; Fig. 2 is a sectional view of Fig. 1; Fig. 3 is an enlarged sectional view of a main portion of Fig. 2; Fig. 4 is an enlarged view of the stator coil of Fig. 1; Fig. 5 is a perspective view showing a stator coil winding and connecting portion in accordance with the present invention and the prior art; Fig. 6 is a perspective view showing a main portion of Fig. 1; Fig. 7 is a perspective view showing a conventional winding and connecting portion; and Fig. 8 is a perspective view showing how rupture occurs in the winding and connecting portion of Fig. 7. DESCRIPTION OF THF PREFFERED EMBODIMENTS A preferred embodiment of a terminal connection structure of a resolver stator coil in accordance with the present invention will now be described with reference to the drawings. Components the same as or equivalent to those of the conventional structure will be indicated by the same reference numerals. In Figs. 1 and 2, reference numeral 1 indicates a resolver stator coil. This stator coil l is wound around magnetic pole teeth 20 of a stator 2 in which a rotor lA is arranged and which is formed of an iron core, through an intermediation of a pair of annular caps 21 and 22. The stator coil 1 is connected in series to the magnetic pole teeth 20 through crossovers 23. In a part of the outer peripheral edge 24 of the stator 2, there is arranged a peripheral edge portion 25 which is formed so as to radially protrude in a part of one of the insulating caps 21 and 22. Terminals 4 are planted to stand in this peripheral edge portion 25. The terminals 4 are formed integrally with a base portion 26, and the terminals 4 and the base portion 2 6 form an L-shaped configuration. Lead wires 27 are connected to the base portion 26, and the terminals 4 are arranged so as to extend through holes (not shown) of the peripheral edge portion 25 and protrude outwardly. An insulation mold 10 is formed on the surface of the peripheral edge portion 25, to which varnish coating, potting or the like is applied. By means of this insulation mold 10, the terminals 4 are secured in position as shown in Fig. 5, etc. As shown in Figs. 4 and 5, the end portion 3 consists of a portion near the end after winding the stator coil 1 around the magnetic pole teeth 20. The end portion 3 wound around the outer periphery of the terminal 4 a plurality of times forms the winding connection portion 5 with the terminal 4. The winding connection portion 5 as a whole, that is, the terminal 4 as a whole is not integrated by soldering 6 or the like. As in the prior art example shown in Fig. 7, as shown in Fig. 6, the end portion 3 and the terminal 4 are formed into one by soldering 6 (or fusing) while leaving a plurality of turns of the lower portion which is a part of the end portion 3 wound around the terminal 4. The rest constitutes a free end portion 30 capable of independently operating without being integrated with the terminal 4. The free end portion 30 is wound around the outer periphery of the terminal 4 a plurality of times, so that it functions like a spring. If the stator coil 1 expands/contracts in the directions of an arrow A due to thermal expansion, or when vibration in the directions of the arrow A and vibration in the directions of the arrows B perpendicular thereto occur due to vibration from outside, most of the expansion/contraction and vibration can be absorbed by the spring function and sagging function of the free end portion 30, whereby it is possible to prevent rupture or the like of the end portion 3. While in the above-described construction the free end portion 30 is wound around the terminal 4 a plurality of times, the above-mentioned spring function can be obtained by winding the free end portion at least one time or even less than that, e.g., by 300 degrees, 250 degrees, etc. The terminal connection structure of the resolver stator coil in accordance with the present invention, constructed as described above, provides the following advantage. Instead of integrally fixing the entire end portion wound around the stator coil terminal, a part of it is left as a free end portion that is not wound around the terminal so that a spring function and sagging function may be obtained, the remaining portion being integrally fixed. Thus, if vibration is applied from outside or expansion/contraction or the like occurs due to thermal expansion, the vibration, etc. can be absorbed by the spring function and sagging function, whereby it is possible to prevent breakage such as rupture as in the prior art, thereby improving the resolver in terms of reliability. 5WE CLAIM: 1. A terminal connection structure of a resolver stator coil comprising a resolver stator (2), a stator coil (1) wound around each magnetic pole tooth (20) of said stator (2) through the intermediation of annular insulation caps (21,22), and a winding and connection portion (5) formed by winding an end portion (3) of said stator coil (1) around a plurality of terminals (4) provided in a peripheral edge portion (25) of said insulation cap (21), said stator coil (1) and said terminals (4) being integrally connected to said winding and connection portion (5) by one of soldering (6) and fusing, wherein a part of said end portion (3) wound around said winding connection portion (5) is left as a free end portion (30) which is not integrally connected to said terminals (4) by said soldering (6) or fusing. 2. The terminal connection structure of a resolver stator coil as claimed in claim 1, wherein said free end portion (30) is wound at least one time around said terminals (4). 3. The terminal connection structure of a resolver stator coil as claimed in claim 1, wherein said free end portion (30) is wound at least a plurality of times around said terminals (4). 4. The terminal connection structure of a resolver stator coil as claimed in claim 1, wherein said free end portion (30) has a spring function and a sagging function. 5. A terminal connection structure of a resolver stator coil substantially as herein described with reference to the accompanying drawings.

Full Text

Field of the Invention
The present invention relates to a terminal connection structure of a resolver stator coil. In particular, the present invention relates to a novel and improved connection structure in which a part of an end portion of a stator coil wound around a terminal is left as a free end without integrating it with the terminal by soldering or the like, whereby any expansion/contraction caused by a temperature change or a vibration generated in the stator coil is absorbed by this free end, and rupture or breakage of the stator coil is prevented, thereby improving the resolver in terms of reliability. 2 Description of the Related Art
Figs. 5 and 7 show a typical conventional connection structure of the stator coil of the resolver of this type.
In Fig. 5, reference numeral 1 indicates a stator coil provided on a resolver stator 2. An end portion 3 of this stator coil 1 is wound around a terminal 4 protruding from an insulation mold 10 provided on the stator 2, to which varnish coating or the like is applied.
The end portion 3 wound around the terminal 4 constitutes a winding connecting portion 5, which is entirely covered with solder

6, as shown in Fig. 7. By means of this solder 6, the end portion 3 is connected with the terminal 4 so as to form an integral portion.
In addition to the soldering, fusing is also performed to form the integral connection between the end portion 3 and the terminal 4. In this case, the end portion 3 of the stator coil 1 is fused by heating to form the integral connection with the terminal 4.
The conventional terminal connection structure of the resolver stator coil is constructed as described above, thereby involving the following problem.
Soldering is performed entirely to the end portion wound around the terminal as shown in Fig, 7 . Therefore, when the resolver is manufactured in the state shown in Fig. 7, and then is mounted to an automobile, machine tool, etc. for operation, stress caused by thermal expansion, vibration, etc. is applied to various portions of the stator. As a result, as shown in Fig. 8, this stress causes the stator coil to be broken and cut down from the terminal, i.e., a base la of the soldered portion thereof, and the resolver ceases to operate as such.
The base portion la is fixed by soldering or the like, any vibration or expansion/contraction of the stator coil is hard to absorb, resulting in breakage of the end portion 3.
SUMMARY OF THE INVENTION The present invention has been made in view of solving the

above-mentioned problem. An object of the present invention is to provide a terminal connection structure of a resolver stator coil in which a part of an end portion of a stator coil wound around a terminal is used as a free without integrating it with the terminal by soldering or the like, whereby any expansion/contraction caused by a temperature change or a vibration generated in the stator coil is absorbed by this free end, and rupture or breakage of the stator coil is prevented, thereby improving the resolver in terms of reliability.
A terminal connection structure of a resolver stator coil according to the present invention includes a resolver stator, a stator coil wound around each magnetic pole tooth of the stator through the intermediation of annular insulation caps, and a winding connection portion formed by winding an end portion of the stator coil around a plurality of terminals provided in a peripheral edge portion of the insulation cap, the stator coil and the terminals being integrally connected to the winding connection portion by soldering or fusing, in which a part of the end portion wound around the winding connection portion is left as a free end portion which is not integrally connected to the terminals by the soldering or fusing.
Also, in the terminal connection structure of a resolver stator coil, the free end portion is wound at least one time around the terminals.

Also, in the terminal connection structure of a resolver stator coil, the free end portion is wound at least a plurality of times around the terminals.
Also, in the terminal connection structure of a resolver stator coil, the free end portion has a spring function and a sagging function.
Accordingly the present invention provides a terminal connection structure of a resolver stator coil comprising a resolver stator, a stator coil wound around each magnetic pole tooth of said stator through the intermediation of annular insulation caps, and a winding and connection portion formed by winding an end portion of said stator coil around a plurality of terminals provided in a peripheral edge portion of said insulation cap, said stator coil and said terminals being integrally connected to said winding and connection portion by one of soldering and fusing, wherein a part of said end portion wound around said winding connection portion is left as a free end portion which is not integrally connected to said terminals by said soldering or fusing.
BRIEF DESCRIPTION OF THE DRAWINGS
In the accompanying drawings in which:
Fig. 1 is a plan view showing a terminal connection structure of a resolver stator according to the present invention;
Fig. 2 is a sectional view of Fig. 1;
Fig. 3 is an enlarged sectional view of a main portion of Fig. 2;
Fig. 4 is an enlarged view of the stator coil of Fig. 1;
Fig. 5 is a perspective view showing a stator coil winding and connecting portion in accordance with the present invention and the prior art;
Fig. 6 is a perspective view showing a main portion of Fig. 1;
Fig. 7 is a perspective view showing a conventional winding and connecting portion; and
Fig. 8 is a perspective view showing how rupture occurs in the winding and connecting portion of Fig. 7.

DESCRIPTION OF THF PREFFERED EMBODIMENTS A preferred embodiment of a terminal connection structure of a resolver stator coil in accordance with the present invention will now be described with reference to the drawings. Components the same as or equivalent to those of the conventional structure will be indicated by the same reference numerals.
In Figs. 1 and 2, reference numeral 1 indicates a resolver stator coil. This stator coil l is wound around magnetic pole teeth
20 of a stator 2 in which a rotor lA is arranged and which is formed
of an iron core, through an intermediation of a pair of annular
caps 21 and 22. The stator coil 1 is connected in series to the
magnetic pole teeth 20 through crossovers 23.
In a part of the outer peripheral edge 24 of the stator 2, there is arranged a peripheral edge portion 25 which is formed so as to radially protrude in a part of one of the insulating caps
21 and 22. Terminals 4 are planted to stand in this peripheral edge
portion 25.
The terminals 4 are formed integrally with a base portion 26, and the terminals 4 and the base portion 2 6 form an L-shaped configuration. Lead wires 27 are connected to the base portion 26, and the terminals 4 are arranged so as to extend through holes (not shown) of the peripheral edge portion 25 and protrude outwardly.
An insulation mold 10 is formed on the surface of the

peripheral edge portion 25, to which varnish coating, potting or the like is applied. By means of this insulation mold 10, the terminals 4 are secured in position as shown in Fig. 5, etc.
As shown in Figs. 4 and 5, the end portion 3 consists of a portion near the end after winding the stator coil 1 around the magnetic pole teeth 20. The end portion 3 wound around the outer periphery of the terminal 4 a plurality of times forms the winding connection portion 5 with the terminal 4.
The winding connection portion 5 as a whole, that is, the terminal 4 as a whole is not integrated by soldering 6 or the like. As in the prior art example shown in Fig. 7, as shown in Fig. 6, the end portion 3 and the terminal 4 are formed into one by soldering 6 (or fusing) while leaving a plurality of turns of the lower portion which is a part of the end portion 3 wound around the terminal 4. The rest constitutes a free end portion 30 capable of independently operating without being integrated with the terminal 4.
The free end portion 30 is wound around the outer periphery of the terminal 4 a plurality of times, so that it functions like a spring. If the stator coil 1 expands/contracts in the directions of an arrow A due to thermal expansion, or when vibration in the directions of the arrow A and vibration in the directions of the arrows B perpendicular thereto occur due to vibration from outside, most of the expansion/contraction and vibration can be absorbed by the spring function and sagging function of the free end portion

30, whereby it is possible to prevent rupture or the like of the end portion 3.
While in the above-described construction the free end portion 30 is wound around the terminal 4 a plurality of times, the above-mentioned spring function can be obtained by winding the free end portion at least one time or even less than that, e.g., by 300 degrees, 250 degrees, etc.
The terminal connection structure of the resolver stator coil in accordance with the present invention, constructed as described above, provides the following advantage.
Instead of integrally fixing the entire end portion wound around the stator coil terminal, a part of it is left as a free end portion that is not wound around the terminal so that a spring function and sagging function may be obtained, the remaining portion being integrally fixed. Thus, if vibration is applied from outside or expansion/contraction or the like occurs due to thermal expansion, the vibration, etc. can be absorbed by the spring function and sagging function, whereby it is possible to prevent breakage such as rupture as in the prior art, thereby improving the resolver in terms of reliability.

5WE CLAIM:
1. A terminal connection structure of a resolver stator coil comprising a resolver
stator (2), a stator coil (1) wound around each magnetic pole tooth (20) of said stator
(2) through the intermediation of annular insulation caps (21,22), and a winding and
connection portion (5) formed by winding an end portion (3) of said stator coil (1)
around a plurality of terminals (4) provided in a peripheral edge portion (25) of said
insulation cap (21), said stator coil (1) and said terminals (4) being integrally
connected to said winding and connection portion (5) by one of soldering (6) and
fusing, wherein a part of said end portion (3) wound around said winding connection
portion (5) is left as a free end portion (30) which is not integrally connected to said
terminals (4) by said soldering (6) or fusing.
2. The terminal connection structure of a resolver stator coil as claimed in claim
1, wherein said free end portion (30) is wound at least one time around said terminals
(4).
3. The terminal connection structure of a resolver stator coil as claimed in claim
1, wherein said free end portion (30) is wound at least a plurality of times around said
terminals (4).
4. The terminal connection structure of a resolver stator coil as claimed in claim
1, wherein said free end portion (30) has a spring function and a sagging function.
5. A terminal connection structure of a resolver stator coil substantially as herein
described with reference to the accompanying drawings.

Documents:

502-mas-2002 abstract duplicate.pdf

502-mas-2002 abstract.pdf

502-mas-2002 claims duplicate.pdf

502-mas-2002 claims.pdf

502-mas-2002 correspondence others.pdf

502-mas-2002 correspondence po.pdf

502-mas-2002 description (complete) duplicate.pdf

502-mas-2002 description (complete).pdf

502-mas-2002 drawings duplicate.pdf

502-mas-2002 drawings.pdf

502-mas-2002 form-1.pdf

502-mas-2002 form-19.pdf

502-mas-2002 form-26.pdf

502-mas-2002 form-3.pdf

502-mas-2002 form-5.pdf

502-mas-2002 petition.pdf

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Patent Number

221866

Indian Patent Application Number

502/MAS/2002

PG Journal Number

37/2008

Publication Date

12-Sep-2008

Grant Date

08-Jul-2008

Date of Filing

04-Jul-2002

Name of Patentee

TAMAGAWA SEIKI KABUSHIKI KAISHA

Applicant Address

1879 OOYASUMI, IIDA-SHI, NAGANO-KEN,

Inventors:

#	Inventor's Name	Inventor's Address
1	HISASHI MIMURA	C/O.TAMAGAWA SEIKI KABUSHIKI KAISHA, 1879 OOYASUMI, IIDA-SHI, NAGANO-KEN,

PCT International Classification Number

H02K 5/22

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	2001-205257	2001-07-05	Japan