KR20050019275A - structure for cooling motor of vacuum cleaner for wet and dry cleaning - Google Patents

Abstract

PURPOSE: A motor cooling structure of a vacuum cleaner for both wet and dry cleaning is provided to prevent lowering of performance of the motor from overheating by blowing external air to the motor with a cooling fan in the lower part of the motor in sucking water and cleaning and efficiently cooling the motor. CONSTITUTION: A motor cooling structure of a vacuum cleaner having a motor, a blower fan sucking air axially and discharging air circumferentially in rotating the motor, a case containing the motor and the blower fan and a fan/motor assembly(20) generating suction force in the body of the vacuum cleaner is composed of a housing(50) in which the fan/motor assembly is installed vertically to place the blower fan in the upper part and the upper part is opened, a cooling fan axially combined with the motor and rotated to blow air to the motor, an inlet(55) communicated with the outside of the body in the lower part of the housing to guide external air to the housing in operating the cooling fan, and an exhaust port(56) formed in the side wall corresponding to the motor of the housing to discharge air from the cooling fan.

Description

Structure for cooling motor of vacuum cleaner for wet and dry cleaning}

The present invention relates to a vacuum cleaner for combined use of water, and in particular, in order to effectively cool the heat generated during the operation of the motor in the combined water cleaning vacuum cleaner capable of serving as water cleaning as well as general dirt. It relates to a motor cooling structure of a water vacuum cleaner.

In general, a vacuum cleaner is a household appliance that generates a strong suction force in the main body to suck and collect dust on the floor, such as the floor, to the cleaner main body. Detachable mop cleaning can be carried out, or a simple attachment, such as replacing the nozzle assembly, can be used to repeatedly clean and spray water and detergent from the vacuum cleaner itself and perform water cleaning. have.

FIG. 1 shows a structure of a conventional vacuum cleaner for allowing such water cleaning, and includes a fan / motor assembly 2 installed inside the main body 1 and generating suction force, and a front part of the main body from the outside. A suction hose 6 connected to the suction assembly 6 to guide the air and water sucked from the nozzle assembly (not shown) into the main body, and installed in front of the main body 1 and sucked through the suction hose 6; It consists of a collecting container (3) for collecting water and foreign matter.

In the center of the cover 4 of the collecting container 3, an opening hole 5 is formed to allow air to flow toward the fan / motor assembly 2, and below the opening hole 5, an inside of the collecting container 3 is formed. When a certain amount of water is filled in, a floater 8 which is floated by the filled water and closes the opening 5 is installed inside the plotter guide 7.

When the water cleaning combined vacuum cleaner configured as described above, when the suction force is generated by the fan / motor assembly 2 when the water is cleaned, water and foreign substances are sucked together with the air through an external nozzle assembly (not shown) and the suction hose. Guided by (6) is introduced into the collecting container (3).

Water and foreign substances introduced into the collecting container 3 are collected and accumulated in the collecting container, and the air flows toward the fan / motor assembly 2 through the openings and openings 5 of the plotter guide 7, and then the body ( 1) It is discharged to the outside through the rear outlet 9.

On the other hand, the fan / motor assembly (2) is coupled to the fan and the motor in one housing to act to generate a suction force while the fan rotates by the operation of the motor, the fan / motor assembly (2) is air and Since water is drawn in together, there is the possibility that moisture will be included in the air flowing into the fan / motor assembly, which will have a fatal effect on the motor performance.

Accordingly, the fan of the fan / motor assembly 2 applied to the above-described vacuum cleaner combined with the above-described vacuum cleaner has a blowing property for sucking air in the axial direction and discharging it at right angles, that is, in a lateral direction. This type of fan is used to prevent air from flowing directly to the motor.

However, the fan / motor assembly 2 of the conventional vacuum cleaner combined with the above-mentioned vacuum cleaner has to suck water that is heavier than air, rather than the fan / motor assembly 20 used in the vacuum cleaner for suctioning dry dust. There is a serious problem of heat generation in the motor because it needs to generate a great suction force. As described above, the fan / motor assembly could not blow air directly to the motor due to the influence of moisture, and thus the motor could not be forcedly cooled. There is a problem that has a fatal effect on performance.

Accordingly, the present invention has been made in order to achieve the above object, the motor of the water cleaning vacuum cleaner to protect the motor by effectively cooling the motor of the water cleaning vacuum cleaner and to prevent the motor performance degradation due to heat generation The purpose is to provide a cooling structure.

In order to achieve the above object, the present invention, the motor, a blower fan axially coupled to the upper side of the motor and rotated by the operation of the motor to draw air in the axial direction and discharge in a right angle direction, and the motor and A vacuum cleaner having a fan / motor assembly having a fan / motor assembly for generating a suction force on one side of the main body of the vacuum cleaner, wherein the fan / motor assembly is disposed so that the blower fan is positioned at the top. A housing mounted upright and configured to have an upper end opened; A cooling fan installed at the lower side of the motor to be axially coupled with the motor to rotate by operation of the motor and to blow air toward the motor; An inlet formed at a lower end of the housing in communication with the outside of the main body to guide external air into the housing by the action of the cooling fan; The motor cooling structure of the water cleaning combined vacuum cleaner, characterized in that the side wall portion corresponding to the motor of the housing in communication with the outside of the main body is configured to include an outlet for inducing the air blown out by the cooling fan to the outside To provide.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the motor cooling structure of the combined water cleaning vacuum cleaner according to the present invention will be described in detail.

Figure 2 shows the overall structure of the water cleaning combined vacuum cleaner showing the motor cooling structure of the present invention, the fan / motor assembly 20 for generating a suction force in the lower rear portion inside the main body 10 is installed, the main body ( A suction port 11 connected to the external suction hose 60 is formed in front of the 10, and is connected to the suction port 11 at the front part of the main body 10 to be introduced through the suction port 11. The cyclone collecting container 30 for collecting the collected water and dirt is detachably installed, and the outlet 12 for communicating with the fan / motor assembly 20 at the rear of the main body 10 to allow the air to be discharged to the outside. Is formed.

In addition, the upper portion of the main body 10 and the upper portion of the cyclone collecting bin 30 and the fan / motor assembly 20 to allow air to flow through the cyclone collecting bin 30 to the fan / motor assembly 20. Connection passage 40 for connecting the communication is configured.

The cyclone collector 30 is formed in a substantially cylindrical shape, the inlet 32 of the upper end has a flow path in the circumferential direction, the air and water or dirt introduced into the cyclone collector 30 is separated by centrifugal force, Water and dirt are collected in the cyclone collector 30 and at the same time air is discharged to the connecting passage 40.

In addition, a cylindrical plotter guide 70 extending downward of the opening hole 34 is fixed to the inner side of the upper end of the cyclone collecting container 30, and moved up and down inside the plotter guide 70. A floater 75 freely formed and floated by the water collected in the cyclone collecting barrel 30 and closing the opening 34 is installed. A plurality of through holes 71 are formed at the side of the plotter guide 70 to allow air to pass therethrough.

In addition, the filter assembly 80 is detachably installed on the outside of the plotter guide 70 so as to surround the plotter guide 70. The filter assembly 80 has a cylindrical shape in which a plurality of through holes 82 are formed at a side surface thereof. The filter body portion 81 and the filter net 83 is provided so as to surround the outer surface portion of the filter body portion 81, the air from which the water is removed by filtering the water from the intake air is open hole (34) It serves to discharge through.

On the other hand, the fan / motor assembly 20 is coupled to the motor 22 and the blowing fan 23 in the case 21 to generate a suction force while the blowing fan 23 rotates at high speed by the operation of the motor 22 The fan / motor assembly 20 applied to the vacuum cleaner for cleaning the water of the present invention sucks water together with air when cleaning the water, so that the fine water in the air sucked through the connection flow path 40 causes the motor. The blower fan 23 sucks air in the axial direction and discharges it in a direction orthogonal to the shaft in order to prevent the influence on the reference numeral 22.

In addition, a cooling fan 24 is installed at the lower part of the fan / motor assembly 20 to cool the motor, and the cooling fan 24 is axially coupled to the motor at the lower part of the motor 22 to blow air upward. And to act to cool the motor (22).

3 and 4 are views showing the motor cooling structure of the fan / motor assembly 20 as described above in more detail, wherein the fan / motor assembly 20 is fixedly installed at the lower rear side of the main body 10. (50) It is mounted in an upright position inside, that is, with the blowing fan 23 positioned at the top.

The housing 50 is formed so that the upper surface is open, the upper stepped portion 51 is formed on the inner periphery of the upper end of the lower edge portion of the portion where the blowing fan 23 of the fan / motor assembly 20 is installed. The lower end of the housing 50 has a lower stepped portion 52 in which the lower edge portion of the portion where the motor 22 of the fan / motor assembly 20 is installed is formed, and the bottom portion of the housing 50 and the fan / motor A space is formed between the lower ends of the assembly 20.

In addition, an inlet port 55 is formed at the lower end of the housing 50 to connect the outside of the main body 10 to the space so as to induce air from the outside during the operation of the cooling fan 24, and the housing ( In the middle portion side wall portion of 50, an exhaust port 56 is formed, which guides air passing through the motor 22 to the outside of the main body 10.

Here, it is preferable that the inlet 55 extends to the side of the main body 10 so that the outer end is visually concealed by a structure such as a wheel (not shown) installed on the side of the main body. This is to prevent the inhibition of appearance beauty caused by exposure to the outside.

In addition, an upper packing 53 and a lower packing 54 are installed in the upper step 51 and the lower step 52 of the housing 50, respectively, and the upper step 51 and the lower step 52 are provided. It is intended to seal the space between the part seated at the bottom) and its lower part.

The motor cooling of the water cleaning combined use vacuum cleaner of the present invention configured as described above is made as follows.

When the user applies power, the motor 22 of the fan / motor assembly 20 is driven to rotate the blower fan 23 at a high speed. Accordingly, a suction force is generated to generate an external nozzle assembly (not shown). Water and dirt on the bottom surface of the carpet and the like are sucked through the air, and the sucked air, water, and dirt are introduced into the cyclone collector 30 through the suction hose 60 and the suction port 11.

Air, water and dirt introduced into the cyclone collector 30 has a velocity component toward the circumferential direction is rotated spirally along the inner wall surface of the body 31, the water and dirt is relatively heavy As the spiral continues to rotate in the circumferential direction by centrifugal force, it descends and is collected inside the cyclone collector 30, and the relatively small weight of air and the moisture of the fine particles have almost no centrifugal force, so they flow toward the filter assembly 80 by suction force. Done.

Subsequently, the fine water is filtered by the filter net 83 of the filter assembly 80, and only the air passes through the filter net 83 and is blown through the connecting flow path 40 to the fan / motor assembly 20 and then the outlet 12. Is discharged to outside.

Meanwhile, when the motor 22 of the fan / motor assembly 20 is operated to speed up the blower fan 23, the cooling fan 24 axially coupled to the lower portion of the motor 22 rotates together at high speed. Done.

When the cooling fan 24 is rotated, the outside air flows into the lower end of the housing 50 through the inlet 55 of the lower portion, and the introduced outside air is blown toward the motor 22 to cool the motor 22.

Air cooled by the motor 22 is discharged laterally through a through hole (not shown) formed in the case 21 of the fan / motor assembly 20 and then to the outside through the exhaust port 56 of the side wall of the housing 50. Discharged.

As described above, according to the present invention, since the outside air is blown toward the motor by the action of the cooling fan from the lower side of the motor while cleaning by sucking water, the motor can be effectively cooled, and thus the motor performance is reduced due to overheating of the motor. And damage can be prevented.

1 is a sectional view showing the main parts of a conventional vacuum cleaner combined with water cleaning

Figure 2 is a side cross-sectional view of the main part of the water cleaning combined vacuum cleaner showing a motor cooling structure according to the present invention

Figure 3 is an exploded perspective view showing a motor cooling structure according to the present invention

Figure 4 is a front sectional view of the main portion showing a motor cooling structure according to the present invention

Explanation of symbols on the main parts of the drawings

10: main body 20: fan / motor assembly

21 case 22: motor

23: blowing fan 24: cooling fan

30: cyclone collector 40: connection euro

50 housing 51 upper step

52: lower step 53, 54: upper and lower packing

55 inlet port 56 exhaust port

Claims (6)

And a blower fan axially coupled to the upper side of the motor and rotated by the operation of the motor to draw air in the axial direction and discharge the air in the circumferential direction, and a case accommodating the motor and the blower fan. In the vacuum cleaner for both water and vacuum equipped with a fan / motor assembly for generating a suction force on one side of the body, A housing in which the fan / motor assembly is mounted upright so that the blower fan is positioned at an upper portion thereof, and a top end thereof is opened; A cooling fan installed at the lower side of the motor to be axially coupled with the motor to rotate by operation of the motor and to blow air toward the motor; An inlet formed at a lower end of the housing in communication with the outside of the main body to guide external air into the housing by the action of the cooling fan; The motor cooling structure of the water cleaning combined vacuum cleaner, characterized in that the side wall portion corresponding to the motor of the housing in communication with the outside of the body comprises an exhaust port for inducing the air blown by the cooling fan is discharged to the outside . The motor cooling structure of claim 1, wherein a lower stepped portion of which the bottom edge of the fan / motor assembly is seated is formed along a lower inner circumferential surface of the inlet at a lower end of the housing. 3. The apparatus of claim 2, further comprising a lower packing disposed between the lower stepped portion and the lower end of the fan / motor assembly to prevent air introduced through the inlet from leaking out of the fan / motor assembly. Motor cooling structure of the water cleaning combined use vacuum cleaner, characterized in that. The motor cooling structure of claim 1, wherein an upper stepped portion is formed on an upper inner circumferential surface of the housing to receive an edge of a case accommodating a blowing fan of the fan / motor assembly. The upper packing according to claim 4, further comprising an upper packing installed between the upper stepped portion and an edge portion of a case accommodating the blowing fan of the fan / motor assembly to seal the motor portion of the fan / motor assembly from the blowing fan portion. Motor cooling structure of the water cleaning combined vacuum cleaner comprising a. The motor cooling structure of claim 1, wherein the inlet is formed to extend from the side portion of the main body to the outside of the main body so as to communicate with the outside.