KR200148665Y1 - The fan cover structure of improved cooling efficiency inverter motor - Google Patents

Abstract

The present invention relates to a fan cover structure of an inverter dedicated motor having improved cooling efficiency by forming a ventilation guide plate for smooth air flow in a fan cover of an inverter driven motor, and at least a dedicated cooling fan driving motor and a fan. In the fan cover structure of the inverter-only electric motor including a cover, since the ventilation guide plate extending perpendicularly to the inner side of the fan cover is formed to prevent the vortex due to the pressure difference due to the high-speed rotation of the cooling fan and is sucked from the outside to reverse the flow It is very useful to get the maximum cooling effect by naturally inducing heat generated from the motor frame to the cooling fan while blocking the air.

Description

Fan cover structure of inverter exclusive motor with improved cooling efficiency

The present invention relates to a fan cover structure of an inverter dedicated motor with improved cooling efficiency. In particular, an inverter dedicated motor with improved cooling efficiency by forming a ventilation guide plate for smooth air flow in a fan cover of an inverter driven motor. It relates to a fan cover structure of.

In general, while the induction motor has a constant rotation speed, the inverter motor has a constant cooling effect in proportion to the variable rotation speed and the cooling fan speed. That is, when the inverter motor is variable at low speed, the cooling fan rotational speed also rotates at low speed and sufficient cooling of the motor is not possible. In order to solve this problem, a separate cooling fan motor is attached to one end of the frame to maintain a constant cooling effect regardless of the variable rotation speed of the inverter motor.

The structure of a conventional inverter motor will be described with reference to FIG. 1 is a half cross sectional view showing the internal structure of a conventional inverter motor, and reference numeral 100 in the figure denotes a conventional inverter dedicated motor.

In the conventional fan cover structure, as shown in FIG. 1, a fan cover motor 22 having a cooling fan driving motor 22 extended by fastening a bolt 26 at one end of the frame 14 of the inverter motor 100 is formed and wrapped therein ( 10), while the inverter motor 100 rotates and the cooling fan 24 is rotated by the cooling fan drive motor 22, and at this time, heat from the stator 16 and the rotor 18 The flow of air (indicated by an arrow) is induced by the pressure difference according to the high speed rotation of the cooling fan 24 between the cooling fins 12 which are transmitted to the frame 74 and formed in the frame 14. Cool the whole.

However, the fan cover structure of the conventional inverter-only electric motor having the structure as described above, due to the pressure difference due to the high speed rotation of the cooling fan in the process that the heat induced from the cooling fins of the frame is guided into the fan cover and discharged to the outside Vortex, which collides with the air flowing backward from the outside and obstructs the flow of cooling air, is generated and sufficient cooling effect is not obtained as designed.

Accordingly, the present invention is devised to solve the above problems, and its purpose is to form a ventilation guide plate at the point where the vortex occurs inside the fan cover, that is, extend vertically to form a high speed cooling fan. The present invention provides a fan cover structure of an inverter-only electric motor having an improved cooling efficiency that can induce heat to the cooling fins of a frame while blocking the inflow of backflow of external air generated from the pressure difference due to rotation.

1 is a half sectional view showing the internal structure of a conventional inverter motor.

2 is a front half sectional view showing a first embodiment of a fan cover structure of an inverter-only motor of the present invention.

Figure 3 is a half-sectional view showing a second embodiment of the fan cover structure of the inverter-only motor of the present invention.

* Explanation of symbols for main parts of the drawings

1, 100: inverter motor 2: ventilation guide plate

10: fan cover 12: cooling fin

14 frame 16: stator

18: rotor 22: cooling fan drive motor

24: cooling fan 26: bolt

The fan cover structure of the inverter-only motor with improved cooling efficiency according to the present invention for achieving the above object, in the inverter dedicated motor comprising at least a dedicated cooling fan drive motor and a fan cover, It is made of a ventilation guide plate formed.

In addition to the above configuration, the ventilation guide plate is preferably formed to be inclined toward the outside from the inside of the fan cover.

Therefore, the fan cover structure of the inverter-only motor according to the above configuration has a very useful effect that can maximize the cooling efficiency beyond the design value by blocking the air sucked from the outside and inducing heat generated from the motor frame smoothly.

[Example]

Hereinafter, a preferred embodiment of the fan cover structure of the inverter-only electric motor according to the present invention will be described with reference to the accompanying drawings.

2 is a half sectional view showing the first embodiment of the fan cover structure of the conventional inverter-only motor, and the same names and the same reference numerals will be used for the components having the same functions as the conventional configurations.

As shown in FIG. 2, the fan cover structure of the inverter-only motor according to the present invention includes a fan cover 10 having a cylindrical shape extending by being fastened by a bolt 26 at one end of the frame 14 of the inverter motor 1. A predetermined inner circumferential diameter (vertically extended) integrally and vertically extending from the inner side of the fan cover 10 at the point where air vortices (indicated by an arrow) between the inverter electric motor 1 and the cooling fan 24. And a ventilation guide plate 2 having a length).

At this time, the vertical extension length (L) of the ventilation guide plate (2) extending from the inner side of the fan cover 10 is formed in the appropriate length (L) because it is proportional to the suction force. In other words, the longer the vertical extension length (L) of the guide plate (2), that is, the smaller the inner circumferential surface diameter of the guide plate (2), the larger the suction force, but if it is too small, it has an adverse effect, so that it is formed in a suitable length (L). . As a result of experimenting by forming the guide plate 2 to the appropriate length (L), it was possible to obtain a cooling efficiency of about 1.2 times the design value.

3 is a half surface sectional view showing a second embodiment of the fan cover structure of the inverter-only motor of the present invention. The difference from the first embodiment is that the guide plate 2 formed on the inner surface of the fan cover 10 is formed obliquely so that the inner circumferential surface thereof faces outward.

As described above, the third embodiment can minimize the resistance of air generated than the first embodiment in which the guide plate 2 is vertical.

As described above, according to the fan cover structure of the inverter-only electric motor of which the cooling efficiency of the present invention is improved, a guide plate is provided inside the fan cover bolted to the motor frame, that is, between the inverter motor and the cooling fan. By extending vertically to the proper length at, it prevents vortex due to pressure difference of cooling fan and cuts inflow air from outside, and naturally induces heat generated from motor frame to cooling fan to get maximum cooling effect. This is a very useful effect.

Claims (2)

In the inverter dedicated motor comprising at least a dedicated cooling fan drive motor and a fan cover, a fan cover of the inverter dedicated motor with improved cooling efficiency, characterized in that the ventilation guide plate extending vertically inside the fan cover is formed. rescue. The fan cover structure of claim 1, wherein the ventilation guide plate is formed to be inclined from the inside of the fan cover toward the outside thereof.