JPS5932980B2 - induction motor stator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a stator for an induction motor, and in particular, to a stator of an induction motor, which uses a wiring board method to streamline post-processing of electrical work.
This invention relates to a stator for an induction motor that is intended for rational attachment of a wiring board to the stator.

A conventional method for externally connecting stator windings in this type of motor is as shown in FIGS. 1 and 2.

Here, FIG. 1 is a perspective view of a conventional stator, and FIG. 2 is a perspective view of a conventional stator.
It is an enlarged perspective view of the connection part.

1 is a stator core, 2 is a stator winding, 3 is a slot insulator, 4 is an insulating tube, 5 is a binding thread, 6 is an external lead wire, 7 is a winding terminal, and 8 is a connection part. .

That is, the slot insulator 3 is placed in the slot of the stator core 1.
The stator winding 2 is wound through the winding. After winding, the winding terminal 7 is connected to the external lead wire 6 at the connecting part 8, and the insulating tube 4 is placed over it. The stator is constructed by insulating and then fixing the insulating tube 4 to the stator winding 2 with a binding thread 5.

In the case of such a conventional structure, the manufacturing process is long, including the work of connecting the winding terminal 7 and the external lead wire 6, the work of covering the insulating tube 4, and the work of fixing it with the binding thread 5. This method has been problematic because it requires too much manpower and time.

The present invention solves the problems associated with the above conventional methods,
After winding the stator windings, the terminal wires are automatically fused, and the wiring board with automatic fusing terminals fixed thereon is securely and easily fixed to the stator core, with the aim of streamlining the post-processing of electrical work. The purpose of this invention is to provide a stator for an induction motor with high productivity.

The stator of the induction motor according to the present invention has a wiring board having a plurality of mutually insulated terminals on the end face of the stator, and the ends of the stator windings are respectively attached to the terminals. In a stator which can be connected to an external power supply line, the wiring board is formed so that at least only its mounting legs are made of metal, and the tips of the mounting legs are formed on the side of the stator core. In addition, it is attached by welding or gluing to the through-bolt groove itself used for fixing the housing or end bracket.

In other words, the tip of the mounting leg integrally formed on a wiring board with multiple terminals can be inserted into the through-bolt groove formed on the side of the stator without applying any special force to the stator. It is designed to be used and attached.

Next, an embodiment according to the present invention will be explained first in FIGS. 3 to 6.
This will be explained based on the diagram.

FIG. 3 is a perspective view of a stator of a round core induction motor according to an embodiment of the present invention, FIG. 4 is an enlarged perspective view of a fusing part for connection, and FIG. FIG. 6 is a partially opened cross-sectional view of an induction motor incorporating such a stator, and FIG.
FIG. 7 is a perspective view of the attachment portion between the terminal block and the wiring board to which the terminals shown in the figure are attached, and FIG. 7 is a perspective view of a stator of an induction motor according to another embodiment of the present invention.

In the figure, parts with the same symbols as in Figures 1 and 2 indicate equivalent parts, 9 is a wiring board, 10 is a terminal, 11 is a fusing part, 12 is an insertion part, 13 is a terminal block, 14.14A is a stud, 15 is a mounting leg, 16 is a welded part, 17 is a groove for a through bolt, 18 is a mounting hole, 19 is an output shaft, 20 is a fan guide, 21 is a through bolt, 22 is a bell mouth,
23 is an external lead wire, and the terminal 10 is suitable for automatic fusing.

That is, the wiring board 9 is provided on the stator core 1 around which the stator winding 2 is wound, that is, on the stator.

On this wiring board 9, the same number of terminals 10 as the winding terminals 7 are fixed to a terminal block 13 made of an insulating material with rivets 14, and the terminals 10 are insulated from each other and attached with rivets 14A. The winding terminal 7 is guided to the fusing part 11 of the terminal 10 and fixed by fusing, as shown in FIG. 4, and the insertion part 12 of the terminal 10 is connected to the external power supply. External lead wire 23 related to the wire
It is a connection part used for connection to.

Further, in the wiring board 9, an R-shaped welded portion 16 formed at the lower end of a metal mounting leg 15 is attached to a through-bolt groove 17 of a stator by explosion bonding.

Note that the wiring board 9 and the mounting legs 15 described above are constructed by integrally molding a steel plate, for example, but of course, separate parts can be attached to the wiring board 9 by appropriate means, and such a construction may be used. In short, at least only the mounting legs 15 are made of metal.

Further, as shown in FIG. 6, the terminal block 13 has a V-shaped frame structure with a bottom made of insulating material, and is installed on the wiring board 9 through mounting grooves and studs 14A at the lower end of its front surface. .

Furthermore, as clearly shown in FIG. 5, when an induction motor is constructed by forming the inner diameter portion of the wiring board 9 into a bell mouth 22, this also serves as one side of the fan guide for guiding cooling air. This is how it was done.

That is, in FIG. 5, motor cooling air flows as indicated by arrow B to cool the motor, while on the output shaft 19 side there is a conventional fan guide 20, and air flows as indicated by arrow A.

By configuring the stator of an induction motor as described above, it is possible to streamline post-processing of electrical work and improve productivity, inseparable from its structural effects. This point will be explained next with reference to the details of the method of assembly and production.

In manufacturing, first the stator winding 2 is wound around the stator core 1, and then the wiring board 9 is fixed on the stator.The work order up to the final assembly of the stator is as follows. It's like that.

(1) Manufacturing of wiring board assemblies.

(2) Weld the wiring board assembly to the stator.

(3) Connection by fusing.

(4) Varnish treatment of the stator (at this time, make sure that the varnish does not adhere to the wiring board 9).

). Therefore, the assembly order of the wiring board assembly related to the above is as follows:
It is as follows.

(a) Tighten the terminals 10 to the terminal block 13 with rivets 14 (four in this embodiment).

(b) Attach the crimped product of (a) above to the wiring board 9 with the rivets 14.
Tighten with A (four in this example).

As a result of the above, a wiring board assembly is obtained in which the terminal block 13 in which the same number of terminals 10 as the winding terminals 7 are crimped with the rivets 14 is crimped to the wiring board 9 with the rivets 14A, and this is assembled as in 2) above. Weld to stator.

Here, the reason why the stator and wiring board assembly is made into a stator assembly in advance is related to the fusing of the winding terminal 7 and the terminal 10 in the next step (3) above. .

That is, next to the above, the winding end 7 is guided to the fusing part 11 of the terminal 10, and is fixed while being crimped as shown by the arrow in FIG. 4, in other words, it is automatically fused.

The above-mentioned fusing is called thermal welding, and is crimped while applying heat, so the enamel coating on the winding terminal 7 is thermally destroyed and is electrically fixed at the same time, so it is much more efficient than conventional methods. This method has many advantages, such as the fact that there is no need to insulate this fusing part as long as sufficient space and creepage distances are maintained between the terminals and between the terminals (live parts) and surrounding non-live parts. be.

By the way, in order to obtain such advantages, it is necessary to fix the stator and the wiring board 9 in advance in the state of the stator assembly as shown in FIG. 3.

As a method of fixing the stator and the wiring board 9 to obtain such a thing, for example, the terminal block 13, the wiring board 9, and the mounting leg 15 are integrally molded with an electrically insulating material, and the stator core 1 is fixed to the stator core 1. For example, a method of inserting and fixing the hole 18 shown by the dotted line in FIG. In addition, this has an undesirable effect on the characteristics of the motor, and this is particularly noticeable in the case of the round core shown.

In this respect, the above-mentioned construction acid is designed to eliminate such drawbacks and to allow the wiring board 9 to be fixed easily and reliably, and at least only the mounting legs 15 are made of metal. The mounting leg 15 is configured to be welded and fixed to the stator core 1.

However, in the case of a round core, most of the outer periphery of the core is circular so that it touches the housing (see Figures 1 and 3), so it is not possible to weld the mounting legs to the side of the core. In this embodiment, the selected configuration is such that even in such a case, the welding is sufficiently possible.

In other words, when configuring an electric motor even with a round core,
As shown in FIG. 5, there is a housing for the outer shell and end brackets that cover both end faces of the housing and support the rotor, and through bolts 21 are required to fix each of them.

Therefore, even though the core is round, there is at least a through bolt groove 17 for it.

As a result, in the above configuration, the mounting leg 1
5 is provided with a welded portion 16 formed into an R shape matching the shape of the through-bolt groove 17, and is attached by welding at this portion.

In addition, in this case, if the through bolt groove becomes shallow by the plate thickness of the mounting leg and the through bolt comes into contact with it, it is only necessary to modify the groove to make it deeper by that amount. Even if the hole is deepened in this way, it is only a little deeper, so unlike the case where holes are drilled in the stator core as described above, there is almost no effect on the characteristics of the hole.

Although the above-described embodiments are for the case where the mounting legs are welded, it is not prohibited to attach them by adhesion.

Further, as in the above embodiment, if the bell mouth 22 is formed on the inner diameter portion of the wiring board 9 as clearly shown in FIG. The flow flows from the fan guide 20 as shown by the arrow A to cool the electric motor.In short, the wiring board 9 can also be used as one of the fan guides. This eliminates the need for one of the guides and allows for better productivity.

Taking all the above into account, according to the present invention, the tips of the mounting legs integrally formed on the wiring board having a plurality of terminals can be fixed without any special processing on the stator. By making use of the through-bolt grooves for fixing the housing or end bracket formed on the side of the stator, it can be securely and easily fixed to the stator core.
The stator assembly is a stator assembly, whereby a stator for an induction motor with good productivity can be obtained, and the invention can be said to have excellent practical effects.

[Brief explanation of the drawing]

Fig. 1 is a perspective view of a conventional stator, Fig. 2 is an enlarged perspective view of its connection portion, and Fig. 3 is a perspective view of a stator of a round core induction motor according to an embodiment of the present invention. 4 is an enlarged perspective view of the fusing part for connection, FIG. 5 is a partially opened sectional view of the induction motor incorporating the stator according to FIG. 3, and FIG. It is a perspective view of the attachment part of the terminal block and wiring board to which the terminal shown in the figure is attached. DESCRIPTION OF SYMBOLS 1... Stator core, 2... Stator winding, 7... Winding terminal, 9... Wiring board, 1
0...Terminal, 11...Fusing part, 12...Insertion part, 13...Terminal block,
15...Mounting leg, 16...Solution agent, 1
7... Groove for through bolt, 21... Through bolt, 22... Bell mouth.

Claims (1)

[Scope of Claims] 1. A wiring board having a plurality of mutually insulated terminals is provided on the end face of the stator, the terminals of the stator windings are respectively attached to the terminals, and an external power supply line is connected to the wiring board. In a stator that can be connected to A stator for an induction motor, characterized in that the stator is attached by welding or adhesive to the groove for a through bolt used for fixation. 2. The stator of an induction motor according to claim 1, wherein the terminal includes a fusing part for fusing the end of the winding, and an insertion part for connecting to an external power line. . 3. A stator for an induction motor according to claim 1, wherein the terminal is fixed to a wiring board via a terminal block made of an insulating material. 4. A stator for an induction motor according to claim 1, wherein the inner diameter portion of the wiring board is formed into a bell mouth shape so that it also serves as a fan guide for guiding cooling air.