JP2010035310A5 - - Google Patents

Description

In order to solve the above problems, the present invention is configured as follows.
The invention of the rotating electrical machine according to claim 1 is characterized in that a cylindrical frame, a stator core fitted and fixed to an inner peripheral surface of the frame, a load side coil end and an anti-load side coil end are the stator core. and a stator coil mounted on the stator core so as to protrude from both end surfaces in the rotation axis direction and a stator having a set vignetting on the load side of said frame, a groove for inserting the load-side coil end A load-side bracket formed , wherein at least one of the inner peripheral surface, outer peripheral surface, and end surface of the load-side coil end, including at least the end surface, is formed through the insulator without an air gap. a load-side bracket in close contact with the inner surface, and the anti-load side bracket kicked set on the anti-load side of the frame, to the load-side bracket and the counter-load-side bracket, rotating through a load-side bearing and counter-load-side bearing A supported rotating shaft freely, and a rotor mounted on the outer circumferential surface of the rotary shaft, the one or more sides of the shape, so that the same shape as the shape of the inner surface of the groove in close contact, The outer surface of the load side coil end is pressed and molded .

According to a sixth aspect of the present invention, there is provided a rotating electrical machine comprising: a cylindrical frame; a stator core fitted and fixed to an inner peripheral surface of the frame; and a load side coil end and an anti-load side coil end. and a stator coil mounted on the stator core so as to protrude from both end surfaces in the rotation axis direction and a stator having a set vignetting on the load side of said frame, a groove for inserting the load-side coil end A load-side bracket formed , wherein at least one of the inner peripheral surface, outer peripheral surface, and end surface of the load-side coil end, including at least the end surface, is formed through the insulator without an air gap. a load-side bracket in close contact with the inner surface, and the anti-load side bracket kicked set on the anti-load side of the frame, to the load-side bracket and the counter-load-side bracket, rotating through a load-side bearing and counter-load-side bearing With a supported rotating shaft freely, and a rotor mounted on the outer peripheral surface of said rotary shaft, said load-side bracket is made of ceramic, the one or more sides of the shape, the groove in close contact The outer surface of the load side coil end is pressed and molded so as to have the same shape as the inner surface .

According to an eighth aspect of the present invention, there is provided a rotating electrical machine manufacturing method comprising: a cylindrical frame; a stator core fitted and fixed to an inner peripheral surface of the frame; and a coil end in a rotational axis direction of the stator core. A stator having a stator coil mounted on the stator core so as to protrude from both end faces;
A load-side bracket kicked set on the load side of the frame, and the anti-load side bracket kicked set on the anti-load side of the frame, to the load-side bracket and the counter-load-side bracket, the load-side bearing and counter-load In a method of manufacturing a rotating electrical machine comprising: a rotary shaft rotatably supported via a side bearing; and a rotor attached to an outer peripheral surface of the rotary shaft, the load side of the inner surface of the load side bracket the portion facing the coil end, the inner circumferential surface of the load-side coil end, the outer peripheral surface, and out of the end face, a groove you contact with 2 or more surfaces comprising at least an end face, the one or more sides of the shape, The outer surface of the load side coil end is pressed and molded so as to have the same shape as the shape of the inner surface of the groove to be in close contact .

Invention of a method of manufacturing a rotary electric machine according to claim 12, the pre-Symbol load side bracket while the aluminum alloy, the inner surface of the groove before Symbol load-side bracket, Rukoto be formed by thermal spraying a ceramic coating It is characterized by.

Invention of a method of manufacturing a rotary electric machine according to claim 13, wherein the load-side bracket is characterized in ceramic der Rukoto.

The present invention has the following effects.
(1) to the inner surface of the ring-shaped groove provided on the load side bracket above, forming a high thermal conductivity ceramic coating Then, the thickness of the ceramic coating, a slight space, and the load side coil end Insulation performance with the load side bracket can be sufficiently secured, and the rotating electrical machine can be downsized.
The load side coil end is inserted into the groove of the load side bracket, and at least one of the inner peripheral surface, the outer peripheral surface, and the end surface of the load side coil end including the end surface is made of the ceramic. When through a film Ru is adhered to the inner surface of the groove, the heat generated in the stator coil, it is possible to effectively heat transfer to the load-side bracket in contact with the outside air or mounting apparatus main body, to quickly rotating electric machine external heat Thus, the cooling effect of the rotating electrical machine can be improved. As a result, it is possible to provide a rotating electrical machine capable of energizing more with respect to the allowable temperature of the stator coil and significantly improving the rated output.

When the load-side bracket and ceramic, as well as high insulation performance, it is possible to increase the thermal conductivity, skip insulator take up space, between the load-side bracket and the load-side coil end Insulation performance can be ensured. As a result, the rotating electrical machine can be reduced in size, and the heat generated in the stator coil can be effectively transferred to the load side bracket in contact with the outside air or the device main body to be attached, and the rotating electrical machine can be quickly The cooling effect of the rotating electric machine can be improved by radiating heat to the outside. Therefore, it is possible to provide a rotating electrical machine that allows greater energization with respect to the allowable temperature of the stator coil and that significantly improves the rated output.

The groove of the load-side bracket, or configured to form a ceramic coating, or the load-side bracket made of ceramic Then, the stator, so as to contact the end face of the load-side coil end in the groove of the load-side bracket By integrating the stator and the load-side bracket with a mold resin or varnish while being pressed against each other, high heat transfer can be obtained effectively and reliably, and high insulation is achieved. Obtainable.

The inner peripheral surface of the load-side coil end, the outer peripheral surface, and out of the end surface, over one surface including at least the end face, when molded according to the shape of the groove formed on the load side bracket, of the load-side coil end Among the peripheral surface, the outer peripheral surface, and the end surface, the degree of adhesion between one surface including at least the end surface and the inner surface of the groove of the load side bracket can be increased. Thereby, the heat transfer from the load side coil end to the load side bracket can be further improved.

Claims (13)

A cylindrical frame;
Mounted on the stator core so that the stator core fitted and fixed to the inner peripheral surface of the frame, and the load side coil end and the anti-load side coil end protrude from both end surfaces in the rotation axis direction of the stator core. A stator having a stator coil formed;
Set the vignetting on the load side of the frame, a said load-side load-side bracket grooves are formed for inserting the coil end, the inner circumferential surface of the load-side coil end, the outer peripheral surface, and out of the end face, at least the end face A load-side bracket in which at least one surface including the contact is in close contact with the inner surface of the groove via an insulator without a gap ;
A non-load-side bracket kicked set on the anti-load side of the frame,
A rotary shaft rotatably supported by the load side bracket and the anti-load side bracket via a load-side bearing and an anti-load side bearing;
A rotor attached to the outer peripheral surface of the rotating shaft;
Equipped with a,
Wherein one or more sides of the shape, so that the same shape as the shape of the inner surface of the groove to be close contact with the rotating electrical machine molded by pressurizing the outer surface of the load-side coil end.   2. The rotating electrical machine according to claim 1, wherein the load side bracket is made of an aluminum alloy, and a ceramic coating is formed on an inner surface of a groove of the load side bracket. The stator core has a plurality of teeth portions forming slots on an inner peripheral portion, and a stator coil having an inner side formed longer in the axial direction than the teeth portions is attached to the teeth portions. the rotating electrical machine according to claim 1 or 2, characterized in that there.   The stator iron core has an inner peripheral surface that does not form a slot in an inner peripheral portion, and a stator coil is mounted on the inner peripheral surface via a ceramic coating. Item 2. The rotating electrical machine according to Item 1.   5. The rotating electrical machine according to claim 4, wherein the ceramic coating is formed on a portion of the inner peripheral surface of the stator core that is in contact with the stator coil. A cylindrical frame;
The stator core fitted and fixed to the inner peripheral surface of the frame, and the load side coil end and the anti-load side coil end are mounted on the stator core so as to protrude from both end surfaces in the rotation axis direction of the stator core. A stator with a stator coil,
Set the vignetting on the load side of the frame, a said load-side load-side bracket grooves are formed for inserting the coil end, the inner circumferential surface of the load-side coil end, the outer peripheral surface, and out of the end face, at least the end face A load-side bracket in which at least one surface including the contact is in close contact with the inner surface of the groove via an insulator without a gap ;
A non-load-side bracket kicked set on the anti-load side of the frame,
A rotary shaft rotatably supported by the load side bracket and the anti-load side bracket via a load-side bearing and an anti-load side bearing;
A rotor attached to the outer peripheral surface of the rotating shaft;
Equipped with a,
The load-side bracket is made of ceramic, the one or more sides of the shape, so that the same shape as the shape of the inner surface of the groove in close contact, the rotary electric machine molded by pressurizing the outer surface of the load-side coil end . The stator coil is characterized in that two or more surfaces including at least the end surface among the inner peripheral surface, outer peripheral surface, and end surface of the load side coil end are formed in accordance with the shape of the groove. The rotating electrical machine according to any one of 1 to 6. A cylindrical frame;
A stator core fitted and fixed to the inner peripheral surface of the frame, and a stator coil mounted on the stator core so that coil ends protrude from both end surfaces in the rotation axis direction of the stator core. A stator,
A load-side bracket kicked set on the load side of said frame,
A non-load-side bracket kicked set on the anti-load side of the frame,
A rotary shaft rotatably supported by the load side bracket and the anti-load side bracket via a load-side bearing and an anti-load side bearing;
A rotor attached to the outer peripheral surface of the rotating shaft;
In the manufacturing method of the rotating electrical machine comprising:
Of the inner surface of the load-side bracket, the portion facing to the load side coil end, the inner circumferential surface of the load-side coil end, the outer peripheral surface, and out of the end surface, the groove contact with one or more sides including at least the end face Forming,
A method of manufacturing a rotating electrical machine , wherein the outer surface of the load side coil end is pressed and formed so that the shape of the one or more surfaces is the same as the shape of the inner surface of the groove to be in close contact .   The stator and the load side bracket are integrated with a mold resin or a varnish while the end surface of the load side coil end is pressed against the groove of the load side bracket. The manufacturing method of the rotary electric machine of 8.   After putting mold resin or varnish into the groove of the load side bracket, the end surface of the load side coil end is inserted into the groove of the load side bracket, and the load side coil end is inserted into the groove of the load side bracket. The method of manufacturing a rotating electrical machine according to claim 9, wherein the stator and the load side bracket are integrated with a mold resin or a varnish while being pressed against each other.   The stator iron core has an inner peripheral surface that does not form a slot in an inner peripheral portion, and a ceramic coating is sprayed on a portion of the inner peripheral surface on which the stator coil is placed, to thereby form a stator. The coil is brought into close contact, and the end surface of the load side coil end is inserted into the groove of the load side bracket, and the fixing is performed while the load side coil end is pressed against the groove of the load side bracket. 9. The method of manufacturing a rotating electrical machine according to claim 8, wherein the child and the load side bracket are integrated with a mold resin or a varnish. Pre Symbol load side bracket while the aluminum alloy, the inner surface of the groove before Symbol load side bracket, from claim 8, characterized that you formed by thermal spraying a ceramic coating on any one of 10 The manufacturing method of the rotary electric machine of description . The load-side bracket, a manufacturing method of a rotating electric machine according to claims 8 to 1 wherein one of 10, wherein the ceramic der Rukoto.