KR101047300B1 - Cooling device of the motor for vacuum chamber - Google Patents

Abstract

The present invention relates to a device for cooling the inside of a motor for an overload of a vacuum chamber motor, the vacuum chamber coupled to the front of the vacuum chamber motor is maintained in a vacuum state by the drive of the motor; An air intake formed in the rear cover of the motor; An opening provided at one side of the motor, and a power terminal box installed to communicate with the opening at one side of the motor; An air outlet formed at a portion of an outer side of the power terminal box; And through the air inlet, the inside and the opening of the motor, the air outlet of the power supply terminal box, and the hose when the pressure in the vacuum chamber becomes extremely low, when fastened to one side of the vacuum chamber. And a relief valve for suctioning into the chamber.
The present invention as described above cools the inside of the motor when the motor for the vacuum chamber is overloaded, there is an effect of extending the life of the motor.

Description

Cooling apparatus of motor for vacuum chamber

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling apparatus for a motor for a vacuum chamber, and more particularly, to an apparatus for cooling the inside of a motor when a vacuum chamber motor is overloaded.

In general, the vacuum chamber motor is maintained in a vacuum state by the rotation of the motor.

In this regard, a medical suction apparatus using a conventional vacuum chamber includes a motor coupled to an upper portion of the vacuum chamber, a filter housing, a separate drain tube, and an air outlet respectively coupled to the lower portion of the vacuum chamber. It consists of, and the sewage outlet, a plurality of suction is connected to the suction inlet through the suction suction hose. At this time, the suction inlet is provided on the outside of the separate drain tube.

In such a medical suction device, the inside of the vacuum chamber is maintained in a vacuum state by the rotation of the motor.

The vacuum chamber receives sewage from a plurality of suctions through a suction suction hose and a suction inlet, and separates the impurities into water. The impurities are sent to the filter housing, the water is discharged to the sewage outlet, and the air is discharged through the air outlet.

However, in such a conventional technique, when the inside of the vacuum chamber is maintained in a vacuum state by the rotation of the motor, when the inside of the vacuum chamber becomes extremely low pressure, the motor is also overheated, so the life of the motor is shortened. There is a flaw.

Therefore, it is necessary to cool the motor when the inside of the vacuum chamber is in a state of extremely low pressure.

The present invention has been made in order to solve the above problems, and an object thereof is to provide a cooling device of a vacuum chamber motor for cooling the inside of the motor when the vacuum chamber motor is overloaded.

In order to achieve this object,

According to one embodiment of the present invention, a vacuum chamber coupled to the front of the vacuum chamber motor, the inside of the vacuum chamber is maintained by the drive of the motor; An air intake formed in the rear cover of the motor; An opening provided at one side of the motor, and a power terminal box installed to communicate with the opening at one side of the motor; An air outlet formed at a portion of an outer side of the power terminal box; And through the air inlet, the inside and the opening of the motor, the air outlet of the power supply terminal box, and the hose when the pressure in the vacuum chamber becomes extremely low, when fastened to one side of the vacuum chamber. And a relief valve for suctioning into the chamber.

The hose is characterized in that one end is coupled to the flow of air through the air outlet and the other end is extrapolated to the relief valve.

The air intake is characterized in that it consists of a plurality of along a circle of a specific size.

One end of the hose is characterized in that coupled through the extension pipe to the air outlet.

The present invention cools the inside of the motor when the vacuum chamber motor is overloaded, so that the life of the vacuum chamber motor is increased.

1 is a view showing a state in which the hose is not coupled to the motor cooling device of the medical suction device using the cooling device of the vacuum chamber motor according to the present invention.
2 is a view showing a state in which the hose is coupled in the motor cooling apparatus of the medical suction device shown in FIG.
3 is a view showing the inside of the power terminal box in the motor cooling apparatus of the medical suction apparatus shown in FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating a state in which a hose is not coupled to a motor cooling apparatus of a medical suction apparatus using a cooling apparatus of a vacuum chamber motor according to the present invention. The vacuum chamber 10, the motor 12, and the rear cover 14 are shown. ), Air inlet 15, relief valve 16, power terminal box 18, extension pipe 19, filter housing 20, filter cover 22, separate drain tube 24, suction inlet 26 , An inverter 28, a sewage outlet 30, and a power switch 32. The vacuum chamber 10 may be configured as an impeller chamber.

2 is a view showing a state in which the hose 40 is coupled to the motor cooling apparatus of the medical suction device shown in FIG.

3 is a view showing the inside of the power terminal box 18 in the motor cooling apparatus of the medical suction apparatus shown in FIGS.

1 to 3, first, the vacuum chamber 10 is maintained in a vacuum state by driving the motor 12 coupled to the upper portion. At this time, the higher the rotational speed of the motor 12, the greater the degree of vacuum inside the vacuum chamber 10.

The suction inlet 26, filter housing 20, sewage outlet 30, and air outlet (not shown) are respectively coupled to the vacuum chamber 10. At this time, the suction inlet 26 is coupled to the vacuum chamber 10 through the separate drain tube 24.

The vacuum chamber 10 sucks sewage through the suction inlet 26 and the separate drain tube 24 to separate impurities and water, and sends impurities to the filter housing 20 and discharges water through the sewage outlet 30. Air is discharged through the air outlet.

As such, it is generally well known that the vacuum chamber 10 separates sewage into impurities and water, respectively, and a detailed description thereof will be omitted.

The inverter 28 controls the drive of the motor 12.

A plurality of air inlets 15 are formed in the rear cover 14 of the motor 12 along a circle of a specific size.

An opening is provided at one side of the motor 12, and the power supply terminal box 18 is installed to communicate with the opening internally at one side of the motor 12. At this time, an electric wire for providing power to the motor 12 passes through the opening provided at one side of the motor 12.

An air outlet is formed at a portion of the outside of the power terminal box 18.

The relief valve 16 penetrates through one side of the vacuum chamber 10 to suck external air into the vacuum chamber 10 when the pressure in the vacuum chamber 10 becomes extremely low.

One end of the hose 40 is coupled through an extension pipe 19 so that air flows through the air outlet of the power supply terminal box 18 and the other end is extrapolated to the relief valve 16.

That is, when the pressure in the vacuum chamber 10 is in a state of extremely low pressure, the relief valve 16 causes the external air to enter the air inlet 15, the motor 12 and the opening, the air outlet of the power supply terminal box 18, and As the suction into the vacuum chamber 10 through the hose 40, the inside of the motor 12 is cooled by the external air.

The present invention has the advantage that the life of the vacuum chamber motor 12 is long because the inside of the motor 12 is cooled when the vacuum chamber motor 12 is overloaded.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

10: vacuum chamber
12: motor
14: back cover
15: air intake
16: relief valve
18: power terminal box
19: extension pipe
20: filter housing
22: filter cover
24: separate drain tube
26: suction inlet
28: inverter
30: sewage outlet
32: power switch
40: hose

Claims (4)

A vacuum chamber coupled to the front side of the vacuum chamber motor and maintained in a vacuum state by driving of the motor;
An air intake formed in the rear cover of the motor;
An opening provided at one side of the motor, and a power terminal box installed to communicate with the opening at one side of the motor;
An air outlet formed at a portion of an outer side of the power terminal box; And
When the through-fastening is connected to one side of the vacuum chamber so that the pressure in the vacuum chamber becomes extremely low pressure, the outside air is discharged through the air inlet, the motor inside and the opening, the air outlet of the power terminal box, and the hose. Cooling apparatus for a vacuum chamber motor comprising a relief valve for suction into the interior.
The method according to claim 1,
The hose is coupled to one end of the air flow through the air outlet and the other end of the cooling device for a vacuum chamber motor, characterized in that the extrapolated to the relief valve.
The method according to claim 1 or 2,
The air inlet is a cooling device for a vacuum chamber motor, characterized in that composed of a plurality along a circle of a specific size.
The method according to claim 1 or 2,
One end of the hose is the cooling device of the motor for a vacuum chamber, characterized in that coupled to the air outlet through the extension pipe.

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