KR100582301B1 - Fan motor assembly for vacuum cleaner - Google Patents

Abstract

The fan motor assembly for a vacuum cleaner according to the present invention allows the rotating fan to be disposed at the rear of the motor so that the air sucked from the dust collecting chamber to the machine room passes first through the inside of the motor, thereby improving the cooling efficiency of the motor and the suction performance of the cleaner. The motor 50 having a motor housing 52 having an inlet port 52a directly connected to the dust collecting chamber 20a on one side thereof, and an exhaust port 52b formed on an opposite side of the inlet port 52a. )Wow; A centrifugal rotary fan (60) mounted at an exhaust port (52b) side of the motor housing (52) to suck air in the dust collecting chamber (20a) through an inlet (52a); A spiral fan having a structure surrounding the rotating fan 60, wherein a discharge port 62a is formed at one side thereof, and a radius of curvature gradually increases in the circumferential direction from the rotary fan 60 to the discharge port 62a. It comprises a housing 62.

Therefore, according to the fan motor assembly for a vacuum cleaner according to the present invention as described above, the air drawn from the dust collecting chamber (20a) to the mechanism chamber (20b) side first passes through the inside of the motor 50, the motor 50 The cooling efficiency of the vacuum cleaner is improved, and the air flowing in the fan housing 62 passing through the motor 50 forms an efficient flow state in the form of scrolls, thereby improving suction performance of the vacuum cleaner. There is an advantage in helping.

Description

Fan motor assembly for vacuum cleaner {FAN MOTOR ASSEMBLY FOR VACUUM CLEANER}

1 is a cross-sectional view schematically showing the structure of a general vacuum cleaner.

2 is an exploded perspective view showing a structure of a conventional fan motor assembly for a vacuum cleaner and an air flow state in the fan motor assembly.

Figure 3 is a perspective view showing the external appearance of the fan motor assembly for a vacuum cleaner according to an embodiment of the present invention.

Figure 4 is a schematic cross-sectional view showing the mounting structure of the fan motor assembly and the air flow according to the embodiment of the present invention.

Figure 5 is a schematic diagram showing the air flow in the fan housing in the embodiment of the present invention.

  <Explanation of symbols for the main parts of the drawings>

20: case 20a: dust collecting chamber

20b: Instrument room 30: Dust bag

50: motor 52: motor housing

52a: intake port 52b: exhaust port

54: stator 56: rotor

60: rotating fan 62: fan housing

62a: discharge port

The present invention relates to a vacuum cleaner, and more particularly, to a structure in which a rotating fan is disposed at the rear of the motor, in which air sucked from the dust collecting chamber to the machine room passes first through the inside of the motor, thereby improving the cooling efficiency of the motor and the cleaner. It relates to a fan motor assembly that can improve the suction performance.

In general, the vacuum cleaner is a device that collects foreign substances such as dust through a powerful suction force generated by the operation of the fan motor assembly, as shown in Figure 1 brush head (12) and a plurality of extension tubes (14) and A suction hose 10 having a continuous structure in which a corrugated pipe 16 is connected, a case 20 having a structure in which an internal space is divided into a dust collecting chamber 20a and a mechanical chamber 20b and connected to the suction hose 10; It comprises a filter mechanism such as a dust bag (30) attached to the dust collecting chamber (20a) of the case 20, and a fan motor assembly (40) attached to the mechanism chamber (20b) of the case (20).

Here, one end of the suction hose 10 is provided with an operation switch 18 for the user to control the operation of the fan motor assembly 40, the operation switch 20b of the case 20, the operation switch. A circuit board (not shown) or the like connected with 18 may be installed.

The fan motor assembly 40 includes a motor 41 and a rotating fan 42 fastened to the rotating shaft 411 of the motor 41, as shown in FIG. 2, between the motor 41 and the rotating fan 42. A guide vane 43 mounted on the cover vane 43 and a cover 44 surrounding the rotary fan 42 and the guide vane 43, and the rotary fan 42 generally supplies air through its center. A centrifugal fan that sucks and discharges to the edge is used, and the motor 41 mainly uses a high-speed rotary single-phase series commutator motor for fast rotation of the rotary fan 42. In addition, the guide vane 43 is formed in a disc shape having a vent hole 43a through which the rotating shaft 411 of the motor 41 penetrates in the center thereof, and a base 431 whose edge is fixedly supported by the cover 44. , And a plurality of wind direction guide blades 432 provided on the side surface of the rotation fan 42 in the base 431, and the cover 44 includes a ventilation hole 43a of the dust collecting chamber 20a and the guide vane 43. ) And a suction hole 44a formed in the center thereof (see FIG. 1).

According to the fan motor assembly for a vacuum cleaner configured as described above, the rotary fan 42 is rotated at a high speed by the motor 41 to move the air (at the time of the arrow in the drawing) of the dust collecting chamber 20a toward the mechanical chamber 20b. By suction, the air pressure of the dust collecting chamber 20a is lowered. Accordingly, foreign substances such as dust are sucked and stored into the dust bag 30 through the suction hose 10, and only the clean air passing through the dust bag 30 is a mechanism. The cleaning is performed by being discharged to the outside of the case 20 through the seal 20b.

In this process, the air dispersed and discharged to the edge of the rotary fan 42 is driven by the wind direction guide blade 432 in a state in which direct flow to the motor 41 is blocked by the base 431 of the guide vane 43. The cooling motion of the motor 41 is also made by passing in the direction of the rotating shaft 411 and passing through the inside of the motor 41 through the vent hole 43a.

However, according to the conventional fan motor assembly, since the air is dispersed and discharged under the strong centrifugal force from the rotating fan 42 which rotates at high speed, the air is compressed in the cover 44 and the temperature thereof is increased. The problem arises that the cooling action of the motor 41 is not effective.

In addition, the air discharged from the rotating fan 42 is guided by the base vane 43 of the guide vane 43 and the wind direction guide blade 432 in the process of being guided to the vent hole 43a side by the guide vane 43. The phenomenon that the flow rate is reduced by receiving a strong resistance, and the problem that the suction performance of the cleaner is lowered as a result of the flow rate decrease phenomenon of the air.

On the other hand, depending on the type of vacuum cleaner, as described above, the cooling effect of the motor through the heat dissipation fan that is interlocked with the motor in addition to the so-called guide vane type fan motor assembly that forms the cooling action of the motor 41 through the guide vane 43. A fan motor assembly (not shown) of a heat dissipation fan method (not shown) may be applied. The fan motor assembly of the heat dissipation fan method requires a separate mechanical configuration for interlocking a motor and a heat dissipation fan. It has a problem that the efficiency of the phase is low.

The present invention has been made to solve the above-mentioned conventional problems, the air flowing into the machine room from the dust collection chamber preferentially passes through the inside of the motor prior to the rotating fan to improve the cooling performance of the motor, and furthermore, It is an object of the present invention to provide a fan motor assembly for a vacuum cleaner, which also helps to improve suction performance.

In order to achieve the above object, a fan motor assembly includes a motor having a motor housing having an intake port directly connected to a dust collecting chamber on one side thereof, and an exhaust port formed on an opposite side of the intake port; A centrifugal rotary fan mounted on an exhaust port side of the motor and sucking air of a dust collecting chamber through an inlet; As a structure surrounding the rotating fan, a discharge port is formed at one side thereof and includes a spiral fan housing in which a radius of curvature gradually increases in the circumferential direction from the rotation fan to the discharge hole.

In addition, the fan motor assembly according to the present invention may have a structure in which a circuit board for controlling the motor is attached to the motor housing.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 3 to 5, the same reference numerals will be given to the same parts as in the prior art, and the description thereof will be omitted. .

In the fan motor assembly of the vacuum cleaner according to the embodiment of the present invention, as shown in FIGS. 3 and 4, an air inlet 52a is formed at one side thereof, and an exhaust port 52b is formed at the other side thereof. ) Is composed of a motor (50), a centrifugal fan-shaped rotary fan (60) mounted on the exhaust port (52b) side of the motor housing (52), and a fan housing (62) surrounding the rotary fan (60). The inlet port 52a of the motor housing 52 is installed in a form in which the intake port 52a of the motor housing 52 is directly connected to the dust collecting chamber 20a equipped with a filter device such as a dust bag 30. Reference numerals 54 and 56 not illustrated in the drawings denote stators and rotors in the motor 50.

The fan housing 62 has a spiral in which the radius of curvature gradually increases in the circumferential direction up to the discharge hole 62a formed on one side of the rotating fan 60.

Referring to the operation of the fan motor assembly for a vacuum cleaner according to an embodiment of the present invention configured as described above are as follows.

First, according to the present embodiment, since the rotary fan 60 sucks air from the center of the structure (central type) and discharges the air to the edges, the dust collecting chamber is connected to the center of the dust collector during operation of the cleaner. Air is sucked in from 20a.

Therefore, the air sucked from the dust collecting chamber 20a to the mechanical chamber 20b by the rotating fan 60 is introduced into the motor housing 52 through the inlet 52a, so that the stator 54 and the rotor ( 56) and the like, and then are discharged into the fan housing through the exhaust port 52b. That is, the air sucked from the dust collecting chamber 20a preferentially absorbs heat of each component constituting the motor 50 in the process of passing through the inside of the motor housing 52 before reaching the rotary fan 60. The cooling operation of the motor 50 is performed while being discharged.

 At this time, the air passing through the inside of the motor housing 52 flows into the dust collecting chamber 20a from the outside of the cleaner, and then the conventional rotary fan 42 and the guide vane 43 in front of the motor 50 (see FIG. 2). Since the temperature does not go through a component that causes a temperature rise, such as), the temperature is maintained at about the same as the outside temperature, thereby enabling a more efficient cooling of the motor 50.

In addition, according to the present embodiment, the radius of curvature of the fan housing 62 surrounding the rotary fan 60 gradually increases in the circumferential direction from the rotary fan 60 to the discharge port 62a as described above. That is, since the shape is formed in a spiral in which the distance from the rotating fan 60 gradually widens, the air introduced into the fan housing 62 through the motor 50 is rotated by the rotating fan 60 by the rotating fan 60. After circulating in the circumferential direction of, and then flows in the form of a strong scroll (scroll) inside the fan housing 62 as shown in FIG.

In addition, the air flowing strongly in the scroll form in the fan housing 62 is discharged to the outside of the cleaner case 20 more efficiently by maintaining the fluidity to some extent even after being discharged from the fan housing 62.

On the other hand, in configuring the vacuum cleaner motor assembly according to the present embodiment, when the motor is configured in a structure in which a circuit board for controlling the motor is attached to the motor housing, the cooling of the circuit board is performed together with the cooling action of the motor. Action is also effective (not shown).

 According to the fan motor assembly according to the invention, firstly, since the rotating fan is disposed in the rear of the motor in the instrument chamber, the air suctioned from the dust collecting chamber to the instrument chamber first passes through the inside of the motor, thereby improving the cooling efficiency of the motor. Second, since the shape of the fan housing surrounding the rotary fan is made spiral, the air flowing in the fan housing passing through the motor forms an efficient flow state in a scroll form, and the suction performance of the cleaner is improved. As in the guide vane method and the heat dissipation fan method, since a separate component (guide vane and heat dissipation fan) is not required for cooling the motor, the manufacturing cost of the cleaner is reduced.                     

In addition, when the fan motor assembly according to the present invention has a structure in which a circuit board and the like for controlling the motor are attached to the motor housing, the cooling operation of the motor and the circuit board is efficiently performed at the same time, thereby improving the operational stability of the cleaner. As a result, it also helps to improve the performance of the vacuum cleaner.

Claims (1)

motor; A motor housing accommodating the motor therein, and formed at a front side thereof to communicate with a dust collecting chamber and an exhaust port formed at a rear side thereof to discharge the sucked air; A centrifugal rotary fan positioned at a rear side of the motor and connected to the motor to suck air in the dust collecting chamber through the inlet; The fan housing is connected to the exhaust port of the motor housing, has a spiral shape in which the radius of curvature gradually increases in the circumferential direction from the center of the rotating fan to one side thereof, a discharge port is formed on one side thereof, and surrounds the centrifugal rotary fan. ; Is included, The air sucked through the suction port cools the motor while passing through the motor, and is discharged to the outside through the discharge port of the fan housing.

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