JPH08126237A - Induction motor - Google Patents

Abstract

(57) [Summary] [Purpose] When using an induction motor with multiple shifts,
One board can be used at low cost. [Structure] The pattern 2 punched by a press is molded with a resin 5. At this time, the component storages 7a and 7b for storing the temperature protection components and the lead wire storage 8 for storing the lead wires for supplying electric power to the coil are formed. In addition, coil connecting portions 9a to 9 for connecting the coil terminal and the pattern 2
i, component connecting portions 10a to 10d that connect the temperature protection component and the pattern 2, lead wire connecting portions 11a to 11e that connect the lead wire and the pattern 2, and pattern cutting portions 12a to 12e that cut the pattern. The pattern surface is exposed from the resin.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an induction motor having a connection board in which a connection pattern made of a metal plate is molded with resin.

[0002]

2. Description of the Related Art Conventionally, there are mainly two methods of connecting each coil of an induction motor and connecting a coil and a lead wire. One is a method in which the coils are directly connected to each other and the coils and the lead wires are directly connected by solder or the like, and the connection portion is covered with a tape, a tube, or the like, and electrically insulated from a charging portion such as a coil. The other is to arrange a printed circuit board on which a copper wire is printed on a base material such as a glass / epoxy material or a paper phenol material on a stator around which a coil is wound, and There is a method of attaching and connecting lead wires.

[0003]

In the conventional connection method as described above, for example, when assembling an induction motor for multiple speed change which can change the number of revolutions in several stages, the connection between the coils is directly performed. With this method, the number of connection points increases, which increases the work time. Further, in the method of connecting the coils and the like using the printed circuit board, several kinds of printed circuit boards, which are printed and wired for each speed change, are required, and the cost of the printed circuit board mold increases. Alternatively, if one type of printed circuit board is used, the number of parts such as jumper wires will increase.

When a printed circuit board is used, the printed circuit board is usually arranged on the stator. Therefore, in order to penetrate the shaft, the printed circuit board is formed in a donut shape. At this time, if the printed circuit board is formed in a donut shape, the material for the central portion of the printed circuit board becomes unnecessary. Also, this central material has almost no other intended use and must be discarded.

[0005]

Therefore, according to the present invention, a pattern cutting portion is provided which allows any portion of the connection pattern molded on the connection substrate to be exposed from the resin and allows the exposed connection pattern to be cut. An induction motor characterized by the above.

[0006]

Function: A metal plate is punched out by a pressing machine to form a connection pattern. With this connection pattern, connection between the coils, connection between the coil and the lead wire, and connection between the temperature protection component and the coil are performed. Then, the pattern cutting portion, the attachment portion between the coil and the connection pattern, the attachment portion between the lead wire and the connection pattern, and the attachment portion between the temperature protection component and the connection pattern are exposed from the resin and molded to form a connection substrate. To do. Then, the pattern cutting portion of the connection board is cut in accordance with the number of shifts of the induction motor or the presence or absence of the temperature protection component. Then, the coil, the lead wire, and the temperature protection component are attached to the connection board. Then, the connection board is arranged in the induction motor.

[0007]

EXAMPLES Examples of the present invention will be described with reference to FIGS.

FIG. 1 is a front view of a metal plate after formation of a connection pattern. FIG. 2 is a front view of the connection board after molding. FIG. 3 is a rear view of the connection board after molding.

In FIG. 1, the connection pattern 2 is formed by punching a conductive metal plate 1 such as a brass plate with a pressing machine. Further, the connection pattern 2 is formed for the connection between the coils, the connection between the coil and the lead wire, and the connection between the temperature protection component and the coil. Also,
The fixing plates 3a and 3b and the connection pattern 2 and the fixing plate 3a,
A connection path 4 is provided between the connection pattern 3 and 3b to prevent the connection pattern 2 from being dispersed.

2 and 3, the connection board 6 is
It is formed by molding with a resin 5 such as a thermoplastic resin for electrically insulating the connection pattern 2. At this time,
The connection board 6 is a component storage section 7 for storing temperature protection components.
A and 7b and a lead wire housing portion 8 for housing a lead wire for supplying electric power to the coil from an external power source are formed. Also,
Coil connection portion 9a for connecting the coil and the connection pattern 2
9i, component connecting portions 10a to 10d for connecting the temperature protection component and the connection pattern 2, lead wire connecting portions 11a to 11e for connecting the lead wire and the connection pattern 2, and a pattern cutting portion 12a for cutting the connection pattern. Each of the connection pattern surfaces 12e to 12e is formed by being exposed from the resin. Then, the fixing plates 3a and 3b are cut off by cutting the connection path 4.

FIG. 4 is an enlarged front view of the component storage section in FIG. FIG. 5 is an enlarged front view of the lead wire storage portion in FIG.

In FIG. 4, when a temperature protection component is used to prevent ignition of the induction motor, the component storage unit 7 is used.
Temperature protection components can be stored in a and 7b. For example, a radial lead type temperature protection relay 15 can be stored in the component storage portion 7a. Then, the lead connection portions 15a and 15b of the temperature protection relay 15 and the component connection portions 10a and 10b of the connection board 6 are soldered or fused. An axial lead type temperature protection fuse 16 can be stored in the component storage portion 7b. Then, the lead connection portions 16a and 16b of the temperature protection fuse 16 and the component connection portions 10c and 10 of the connection substrate 6.
Soldering or fusing connection with d.

When using these temperature protection components, the pattern cutting portion 12e of the connection board 6 is cut.

In FIG. 5, lead wires 17a to 17e for supplying electric power to the coil are housed in the lead wire housing portion 8. Then, the stripped portions of the lead wires 17a to 17e are soldered or fused to the lead wire connecting portions 11a to 11e of the connection board 6.

A method of connecting the coils of the first to third speeds of the induction motor will be described with reference to FIGS.

FIG. 6 is a front view of a connection board when it is used in a first-speed induction motor. FIG. 7 is a coil connection diagram of the induction motor in FIG.

6 and 7, the method of connecting the connection board used in the first-speed induction motor will be described. First, the connection pattern of the pattern connecting portions 12b and 12c is cut. Then, one coil end of the main coil 20 is attached and fixed to the coil connection portion 9d of the connection board 6.
The coil connecting portion 9d and the lead wire connecting portion 11c are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Then, the other coil end of the main coil 20 is attached and fixed to the coil connecting portion 9b. One coil end of the auxiliary coil 21 is attached and fixed to the coil connecting portion 9c. The coil connecting portion 9b and the coil connecting portion 9c
Are connected on the connection pattern 2, and the coil connecting portions 9b and 9c are connected to the lead wire connecting portion 11
a is also connected on the connection pattern 2. (When the temperature protection relay 15 or the temperature protection fuse 16 which is a temperature protection component is attached, it is connected to the lead wire connection portion 11a via this temperature protection component.)
Electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11a.

Then, the other coil end of the auxiliary coil 21 is attached and fixed to the coil connecting portion 9e. The coil connecting portion 9e and the lead wire connecting portion 11b are connected on the connection pattern 2. That is, electric power is supplied to the coil from the lead wire attached to the lead wire connecting portion 11b.

FIG. 8 is a front view of a connection board when it is used in a second speed induction motor of an auxiliary tap type. Figure 9
FIG. 9 is a coil connection diagram of the induction motor in FIG. 8.

Referring to FIGS. 8 and 9, a method of connecting the connection board used in the second speed induction motor of the auxiliary tap system will be described. First, the pattern connecting portions 12a, 12c,
The connection pattern of 12d is cut. Then, one coil end of the main coil 22 is attached and fixed to the coil connecting portion 9b of the connection board 6. The coil connection portion 9b and the lead wire connection portion 11a are connected on the connection pattern 2. (When the temperature protection relay 15 or the temperature protection fuse 16 which is the temperature protection component is connected, the coil connection portion 9b and the lead wire connection portion 11a are connected via the temperature protection component.) That is, the electric power is , Is supplied to the coil through the lead wire attached to the lead wire connecting portion 11a.

Then, the other coil end of the main coil 22 is attached and fixed to the coil connecting portion 9d. One coil end of the first auxiliary coil 23a is attached and fixed to the coil connecting portion 9c. The coil connecting portion 9d, the coil connecting portion 9c, and the lead wire connecting portion 11c are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Then, the other coil end of the first auxiliary coil 23a and one coil end of the second auxiliary coil 23b are attached and fixed to the coil connecting portion 9e. The coil connecting portion 9e and the lead wire connecting portion 11b are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11b.

Then, the other coil end of the second auxiliary coil 23b is attached and fixed to the coil connecting portion 9f. The coil connecting portion 9f and the lead wire connecting portion 11e are connected on the connection pattern 2. That is, electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11e.

When each coil is attached to the connection board 6 as described above, by using the lead wire connecting portion 11c, the Hi
By using the gh tap (for high rotation) speed and the lead wire connection portion 11b, two-step speed control of low tap (for low rotation) speed can be performed.

FIG. 10 is a front view of a connection board when it is used in a third speed induction motor of the auxiliary tap type. FIG.
1 is a coil connection diagram of the induction motor in FIG.

Referring to FIGS. 10 and 11, a method of connecting the connection board used for the third-speed induction motor of the auxiliary tap system will be described. First, the pattern connecting portions 12a, 12
The connection patterns of c and 12d are cut off. Then, one coil end of the main coil 24 is attached and fixed to the coil connecting portion 9b of the connection board 6. Also, the coil connecting portion 9b
And the lead wire connection portion 11a are connected on the connection pattern 2. (When the temperature protection relay 15 or the temperature protection fuse 16 which is a temperature protection component is connected, the coil connection portion 9b and the lead wire connection portion 11a are connected via this temperature protection component.) That is, the electric power Is supplied to the coil through the lead wire attached to the lead wire connecting portion 11a.

Then, the other coil end of the main coil 24 is attached and fixed to the coil connecting portion 9d. One coil end of the first auxiliary coil 25a is attached and fixed to the coil connecting portion 9c. The coil connecting portion 9d, the coil connecting portion 9c, and the lead wire connecting portion 11c are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Then, the other coil end of the first auxiliary coil 25a and one coil end of the second auxiliary coil 25b are attached and fixed to the coil connecting portion 9e. The coil connecting portion 9e and the lead wire connecting portion 11b are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11b.

Then, the other coil end of the second auxiliary coil 25b and one coil end of the third auxiliary coil 25c are attached and fixed to the coil connecting portion 9f. The coil connecting portion 9f and the lead wire connecting portion 11e are connected on the connection pattern 2. That is, electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11e.

Then, the other coil end of the third auxiliary coil 25c is attached and fixed to the coil connecting portion 9h. The coil connecting portion 9h and the lead wire connecting portion 11d are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11d.

When each coil is attached to the connection board 6 as described above, by using the lead wire connecting portion 11c, the Hi
gh tap (for high rotation) speed, Mid tap (for middle rotation) speed by using the lead wire connecting portion 11b, Low tap (for low rotation) by using the lead wire connecting portion 11e
The speed can be controlled in three stages of speed.

FIG. 12 shows a reactor coil system 2
It is a front view of a connection board when using for a speed induction motor. FIG. 13 is a coil connection diagram of the induction motor in FIG.

12 and 13, the method of connecting the connection board used in the second speed induction motor of the reactor coil system will be described. First, the pattern connecting portion 12
The connection patterns b, 12c and 12d are cut off. Then, one coil end of the main coil 26 is connected to the connection board 6
It is attached and fixed to the coil connecting portion 9d of. In addition, the coil connecting portion 9d and the lead wire connecting portion 11c are connected by the connection pattern 2
Connected above. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Then, the other coil end of the main coil 26 is attached and fixed to the coil connecting portion 9b. One coil end of the auxiliary coil 27 is attached and fixed to the coil connecting portion 9c. In addition, the coil connecting portion 9b and the coil connecting portion 9
c is connected on the connection pattern 2.

Then, one coil end of the reactor coil 28 is attached and fixed to the coil connecting portion 9a. The coil connecting portion 9a and the lead wire connecting portion 11a are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Further, the coil connecting portion 9b and the coil connecting portion 9
c is also connected to the lead wire connecting portion 11a on the connection pattern 2. (Temperature protection relay 1 which is a temperature protection component
5 or temperature protection fuse 16 is connected,
The coil connecting portion 9d and the coil connecting portion 9c are connected to the lead wire connecting portion 11a via this temperature protection component. That is, the electric power is supplied to the coil passing through the lead wire attached to the lead wire connecting portion 11c.

Then, the other coil end of the reactor coil 28 is attached and fixed to the coil connecting portion 9i. The coil connecting portion 9i and the lead wire connecting portion 11d are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11d.

Then, the other coil end of the auxiliary coil 27 is attached and fixed to the coil connecting portion 9e. The coil connecting portion 9e and the lead wire connecting portion 11b are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11b.

When each coil is attached to the connection board 6 as described above, by using the lead wire connection portion 11a,
By using the gh tap (for high rotation) speed and the lead wire connection portion 11d, it is possible to perform two-step speed control of low tap (for low rotation) speed.

FIG. 14 shows a reactor coil system 3
It is a front view of a connection board when using for a speed induction motor. FIG. 15 is a coil connection diagram of the induction motor in FIG.

Referring to FIGS. 14 and 15, a method of connecting a connection board used in a 3-speed induction motor of the reactor coil system will be described. First, the pattern connecting portion 12
The connection patterns b, 12c and 12d are cut off. Then, one coil end of the main coil 29 is connected to the connection board 6
It is attached and fixed to the coil connecting portion 9d of. In addition, the coil connecting portion 9d and the lead wire connecting portion 11c are connected by the connection pattern 2
Connected above. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Then, the other coil end of the main coil 29 is attached and fixed to the coil connecting portion 9b. One coil end of the auxiliary coil 30 is attached and fixed to the coil connecting portion 9c. In addition, the coil connecting portion 9b and the coil connecting portion 9
c is connected on the connection pattern 2.

Then, one coil end of the first reactor coil 31a is attached and fixed to the coil connecting portion 9a. In addition, the coil connecting portion 9a and the lead wire connecting portion 11a
Are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Further, the coil connecting portion 9b and the coil connecting portion 9
c is also connected to the lead wire connecting portion 11a on the connection pattern 2. (Temperature protection relay 1 which is a temperature protection component
5 or temperature protection fuse 16 is connected,
The coil connecting portion 9d and the coil connecting portion 9c are connected to the lead wire connecting portion 11a via this temperature protection component. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11c.

Then, the other coil end of the first reactor coil 31a and one coil end of the second reactor coil 31b are attached and fixed to the coil connecting portion 9i. In addition, the coil connecting portion 9i and the lead wire connecting portion 11d
Are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11d.

Then, the other coil end of the second reactor coil 31b is attached and fixed to the coil connecting portion 9g. In addition, the coil connecting portion 9g and the lead wire connecting portion 11e
Are connected on the connection pattern 2. That is, electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11e.

Then, the other coil end of the auxiliary coil 30 is attached and fixed to the coil connecting portion 9e. The coil connecting portion 9e and the lead wire connecting portion 11b are connected on the connection pattern 2. That is, the electric power is supplied to the coil through the lead wire attached to the lead wire connecting portion 11b.

When each coil is attached to the connection board 6 as described above, by using the lead wire connection portion 11a, the Hi
GH tap (for high rotation) speed, Mid tap (for middle rotation) speed by using the lead wire connection portion 11d, Low tap (for low rotation speed) by using the lead wire connection portion 11e
The speed can be controlled in three stages of speed.

In the embodiment according to the present invention, one connecting board can be used for the first speed, the second speed and the third speed by the auxiliary tap system, and the second and the third speeds by the reactor coil system. it can.

[0051]

According to the present invention, even if an induction motor for multiple shifts is used, one connection board can be used. In addition, an extra metal plate that appears when forming a pattern can be reused.

[0052]

[Brief description of drawings]

FIG. 1 is a front view of a metal plate after a connection pattern is formed.

FIG. 2 is a front view of the connection board after molding.

FIG. 3 is a rear view of the connection board after molding.

FIG. 4 is an enlarged front view of the component storage unit in FIG.

5 is an enlarged front view of the lead wire storage portion in FIG.

FIG. 6 is a front view of a connection board when used in a first-speed induction motor.

7 is a coil connection diagram of the induction motor in FIG.

FIG. 8 is a front view of a connection board when used in a second speed induction motor of an auxiliary tap system.

9 is a coil connection diagram of the induction motor in FIG.

FIG. 10 is a front view of a connection board when it is used for a third speed induction motor of an auxiliary tap type.

11 is a coil connection diagram of the induction motor in FIG.

FIG. 12 is a front view of a connection board when used in a second speed induction motor of a reactor coil system.

13 is a coil connection diagram of the induction motor in FIG.

FIG. 14 is a front view of a connection board when used in a reactor coil type three-speed induction motor.

15 is a coil connection diagram of the induction motor in FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Metal plate 2 ... Connection pattern 3a, 3b ... Fixed plate 4 ... Connection path 5 ... Resin 6 ... Connection board 7a, 7b ... Component storage part 8 ... Lead wire storage part 9a-9i ... Coil connection part 10a-10d ... Component Connection parts 11a to 11e ... Lead wire connection parts 12a to 12e ... Pattern cutting part 15 ... Temperature protection relay 16 ... Temperature protection fuses 17a to 17e ... Lead wires 20, 22, 24, 26, 29 ... Main coil 21, 27, 30 ... auxiliary coil 23a, 25a ... first auxiliary coil 23b, 25b ... second auxiliary coil 25c ... third auxiliary coil 28 ... reactor coil 31a ... first reactor coil 31b ... second reactor coil C ... capacitor

Claims (1)

[Claims] 1. In an induction motor having a connection board formed by molding a connection pattern made of a metal plate with a resin, an arbitrary portion of the connection pattern molded on the connection board is exposed from the resin, and the exposed connection pattern is cut. An induction motor, which is provided with a pattern cutting section that enables the pattern.