JPH0242050Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Technical Field) This invention relates to a motor case that surrounds a rotor, stator coil, magnets, etc. to form the outer shape of the motor.

(Background Art) A motor case has a function of supporting a stator coil, a function of rotatably supporting a rotor in close proximity to the stator coil, and forms the outer shape of a motor.

Conventional motor cases were often made of metal, but recently they are often made of synthetic resin.

Figures 1 and 2 show a flat brushless motor as an example of a motor with a synthetic resin case.
The figure is an external perspective view, and FIG. 2 is an exploded perspective view (lid omitted).

In the circular recess 2 inside the resin-molded case 1,
A stator coil 3 molded with resin is fitted and fixed, and a rotor 5 to which a rotating shaft 4 is attached is rotatably housed in the recess 2 facing the stator coil 3.
A bearing box 6 is provided to house the bearings, and a magnetic metal lid 7 that supports the rotating shaft 4 and forms a yoke is attached to the case 1 to form a flat brushless motor. A magnet is attached to the rotor 5, and the rotor 5 is rotated by interaction with the lines of magnetic force generated by the stator coil 3.

This motor is a brushless motor that does not have brushes, and instead of the conventional DC motor, which uses brushes and a commutator to perform a switch action, it uses a Hall element and a transistor to control the current flowing through the stator coil, and the rotor It rotates.

The stator coil 3 is usually made by winding self-welding wires, but in order to increase its strength, the entire coil is embedded in synthetic resin and molded to a predetermined size, and this is fitted into the recess 2 of the case. I try to let them do it.

In the conventional motor configured as described above, the stator coil 3 is molded in resin and assembled into the case 1, so manufacturing and assembly operations are extremely complicated.

(Objective of the present invention) The purpose of this invention is to eliminate the complexity of manufacturing and assembly, improve the magnetic efficiency of the stator coil, and obtain a motor case with a reinforcing effect.

(Structure of the present invention) This invention is based on ferromagnetic metals (e.g. permalloy,
The case is molded by embedding the stator coil in a resin mixed with powder or short fibers of soft ferrite, etc., and has functions and effects such as increasing magnetic efficiency and mechanical strength, and shielding electromagnetic waves. be.

(Embodiment of the present invention) Figures 3 to 5 illustrate a brushless motor using a case according to the present invention, and particularly show a case in which a cascade pump is constructed using the rotor itself as an impeller. 3 is an external perspective view, FIG. 4 is a vertical sectional view, and FIG. 5 is an enlarged view of section A in FIG. 4. 1st~
The same parts as those of the conventional motor shown in FIG. 2 will be described below using the same reference numerals.

The case 14 consists of an upper body 14a and a lower body 14b, and the rotor 5 is sandwiched between the two bodies 14a and 14b, and the rotating shaft 4 and the rotor 5 are rotatably supported by support pieces 8 and 8 screwed to both bodies 14a and 14b. I support it.
The mating surfaces of the upper body 14a and the lower body 14b are bonded together with an adhesive, or by a conventional method such as interposing a packing and tightening bolts on the outside thereof.
A magnet 9 is embedded in the peripheral edge of the rotor 5, and a vane plate 10 for liquid feeding is formed around the rotor 5. The case 14 has an inlet 11 and an outlet 12 that communicate the inside to the outside. It is set up. The upper body 14a and the lower body 14b of the case have yokes 13a and 13b.
Attach.

The stator coil 3 is embedded in the upper body 14a and the lower body 14b during molding, and both bodies 14a, 1
The resin of material 4b is mixed with powder or short fibers of ferromagnetic metal such as permalloy or soft ferrite.

With this configuration, the lines of magnetic force coming out of the magnet 9 pass through the stator coil 3, pass through the yoke 13a or 13b, and then enter the magnets of different polarities through the stator coil 3. Therefore, when the stator coil 3 is energized, the lines of magnetic force mutually interference occurs, and the current in the stator coil 3 is interrupted by the Hall sensor (the mounting position is shown in Figure 5), causing the rotor 5 to rotate.
Due to the vanes 10, 10, liquid enters the case from the suction port 11 and is discharged to the discharge port 12, thereby performing a pumping action.

Although this embodiment is configured as a cascade pump, it goes without saying that the present invention can be applied to motors such as those shown in FIGS. 1 and 2.

The case 14 of the present invention has high strength because it is molded from resin mixed with magnetic powder or short fibers, and these magnetic materials reduce magnetic resistance and increase magnetic efficiency. Since the stator coil is buried in the stator coil, it is possible to eliminate the work of assembling the stator coil into a separately manufactured case as in the conventional case.

Furthermore, since the stator coil 3 is embedded in the case, the coil will not be eroded by liquid even when used in a pump, making it safe.

Furthermore, the magnets 9 are attached in a ring shape to both the upper and lower sides of the rotor 5, facing the stator coil 3, but in order to improve efficiency, the magnets 9 have a large energy product.
It is often made of materials such as SmCo ₅ . This material is
Since they are fragile and difficult to manufacture in a ring shape, they are made in a fan shape or a circle and arranged in a ring shape. This causes waveform distortion in the lines of magnetic force. In addition, in the case of a brushless motor, as shown in Fig. 5, a Hall sensor 15 is attached to the yokes 13a and 13b provided close to the stator coil 3, and the output is inputted to a transistor to control the current. If the magnets 9 are arranged in a fan-shaped or circular shape, there will be a disadvantage that the output waveform of the Hall sensor 15 will have a portion where the change is slow as shown in FIG. 6, but if the case containing the magnetic material of the present invention is used, Due to the slight hysteresis of the filled magnetic material, distortion of the waveform is eliminated as shown in FIG. 7, and the control effect by the Hall sensor can be enhanced.

(Effects of the present invention) (1) Since the stator coil 3 is embedded in the case by molding, complicated work during assembly can be omitted.

(2) Magnetic efficiency and mechanical strength are improved due to the mixed ferromagnetic material.

(3) Since it is a ferromagnetic material, it shields electromagnetic waves and does not cause any interference with telecommunications equipment, etc.

(4) Improve the effectiveness of Hall elements in brushless motors.

(5) Since the stator coil is embedded and protected in the case, the case can be used as a pump case and the rotor can be used as the impeller 3 to configure the pump.

[Brief explanation of the drawing]

Figure 1 is an external perspective view of a motor with a conventional resin case, Figure 2 is an exploded perspective view of this with the lid removed,
Figures 3 to 5 show a brushless cascade pump constructed using the case of the present invention, where Figure 3 is an external perspective view, Figure 4 is a vertical sectional view, and Figure 5 is A of Figure 4.
FIG. 6 is a diagram showing the output waveform of the Hall sensor according to the conventional case, and FIG. 7 is a diagram showing the output waveform of the Hall sensor according to the present invention. DESCRIPTION OF SYMBOLS 1... Case, 2... Recess, 3... Stator coil, 4... Rotating shaft, 5... Rotor, 6... Bearing box, 7... Lid, 8... Support piece, 9... Magnet, 10
...Blade plate, 11...Intake port, 12...Discharge port, 1
3a, 13b...Yoke, 14...Case, 14
a... Upper body, 14b... Lower body, 15... Hall sensor.

Claims (1)

[Scope of utility model registration request] A motor case that surrounds a rotor 5 to which a shaft 4 is attached and has magnets 9 embedded in its periphery, and supports the shaft 4. The stator coil 3 is embedded in a resin mixed with ferromagnetic metal powder or short fibers. Filled and molded,
A motor case with a built-in stator coil that has yokes 13a and 13b attached to its outer surface.