KR20010055315A - structure for agitator of suction nozzle in vacuum cleaner - Google Patents

Abstract

PURPOSE: A rotary brush structure makes air passing through a blast fan move in a fixed space to be discharged through a discharging outlet to prevent the performance of the blast fan from falling by the sudden expansion of a discharging space. CONSTITUTION: An air discharging device comprises a dust collecting space(110), a suction force generating space, a communicating flow passage(160) and a flow passage guide(141). The dust collecting space(110) has a dust bag(120) to collect foreign matters. The suction force generating space has a blast fan(140) rotating by driving force transmitted from a motor to generate suction force. The communicating flow passage(160) makes the dust collecting space(110) and the suction force generating space communicate with each other. The flow passage guide(141) is installed to cover the circumference of the blast fan(140) which is the air discharging side of the communicating flow passage(160) to guide moving direction of air flowing in to the blast fan(140) to be focused to the tangent line thereof and directly discharged. As the inner shape of a fan housing(141) is of scroll, air moving inside the fan housing(141) smoothly moves without sudden resistance due to the change of the flow passage space.

Description

Structure for agitator of suction nozzle in vacuum cleaner

The present invention relates to a vacuum cleaner, and more particularly, to an air discharge device of a vacuum cleaner for discharging air flowing therein.

In general, vacuum cleaners can be roughly classified into canister type vacuum cleaners and up-right type vacuum cleaners.

Unlike the canister type cleaner, the upright cleaner is a vacuum cleaner mainly used in a wide area such as a living room, especially a place where a carpet is laid, and its overall structure will be described later.

1 and 2a and 2b illustrate a general upright type vacuum cleaner as described above, and a main body 10 which is built up vertically and coupled to a lower portion of the main body to suck various foreign substances such as dust and the like. It consists of a suction port body 20, the suction port 21 is formed, and the handle portion 30 is connected to the upper end of the main body.

At this time, the inside of the main body is largely divided into a dust collecting space 11 on which the dust collecting bag 12 is seated, and a suction force generating space 13 provided with a blower fan 14 and a motor, each of the divided spaces The communication flow paths 16 communicate with each other.

In addition, a discharge hole 17 is formed in the suction force generating space 13, which is the front surface of the main body, so that air passing through the blower fan and the motor is discharged to the room.

In addition, a suction passage 22 is formed inside the suction port 20 to guide the flow of various dust and air sucked through the suction port 21 of the suction port, and one end of the suction channel is the main body 10. It is connected to the suction hose 18 in communication with the dust collecting bag 12 in the).

At the position where the suction port 21 of the suction port 20 is formed, a rotating brush 23 partially exposed through the bottom surface thereof is rotatably installed, and the rotating brush is provided with a motor 15 provided in the main body 10. It is connected to the shaft (15a) of the belt by the belt 19 is to receive the driving force.

At this time, it is understood that the motor can transmit its driving force to the blower fan 14 and the belt 19 provided in the main body 10, respectively, as the shaft 15a is composed of both shaft motors protruding to both sides. It is possible.

The operation of the upright type vacuum cleaner configured as described above will be described below in more detail.

First, when power is applied to the cleaner, the blower fan 14 is rotated while the motor 15 provided in the suction force generating space of the main body 10 is driven, and the suction force is generated by the rotation of the blower fan 14. The suction force generated in this manner passes through the communication passage 16, the dust collecting space 11, and the suction hose 18 in sequence, and is then transferred into the suction port 20 through the suction passage 22.

As a result, the suction force transmitted into the suction port body is transferred to the ground through the suction port 21 formed in the suction port 20 to perform cleaning of various foreign substances on the ground.

In this case, the rotary brush 23 installed at the suction port is also rotated by receiving the driving force of the motor 15 by the belt 19 provided in the main body 10.

Therefore, the rotary brush 23 positioned in front of the suction port 20 sweeps the ground (carpet surface) while rotating to float various foreign matters adhered to the ground, and the various foreign matters thus floated are sucked in. After being introduced into the suction passage 22 through the passage 21, the suction hose 18 passes through the suction hose 18 and is introduced into the dust collecting bag 12 together with the air.

In addition, various foreign matters having relatively large particles among the air and various foreign matters introduced into the dust collecting bag 12 as described above are collected in the dust collecting bag, and the air from which the various foreign matters are removed is collected in the dust collecting bag and the dust collecting material. After passing through the space 11, the flow path 16 flows to the suction force generating space 13 provided with the blowing fan 14 and the motor 15.

The air flowed in this way passes through the motor 15 through the blower fan by the earth output according to the rotation of the blower fan 14, and then discharged on the suction force generating space 13 of the main body 10. It is discharged to the outside through the ball (17).

As a result, the cleaning as described above is carried out continuously and repeatedly.

On the other hand, the discharged air flowing from the dust collecting space to the suction force generating space along the communication flow path during each process as described above, and the rotational performance of the blowing fan is drastically changed due to the sudden change of the discharge space in the process of passing through the blowing fan and the motor. The problem of deterioration has arisen.

That is, while the discharged air passes through the fan and the motor through the communication flow path and is introduced into the suction power generating space, the flow path is rapidly expanded and the air introduced into the suction power generating space is discharged again through the discharge hole. As a result of the rapid reduction of the flow path in the discharge process, the pressure inside the suction force generating space is increased, thereby causing a problem in that resistance to the blower fan is added.

The problem as described above is that the air passing through the blowing fan always passes through the motor and is discharged through the exhaust hole so that the heat dissipation of the motor can be performed. In addition to the load on the motor as well as causing a decrease in suction power caused a consumer dissatisfaction due to the dissatisfaction of the cleaning performance.

The present invention has been made in order to solve the conventional problems as described above, the air passing through the blowing fan can be discharged through the discharge hole while flowing to a predetermined space, the performance of the blowing fan due to the rapid expansion of the discharge space The purpose is to prevent degradation and thereby improve cleaning performance.

1 is a perspective view showing a general upright cleaner

FIG. 2A is a cross-sectional view illustrating the line II of FIG. 1. FIG.

2B is a cross-sectional view of the II-II line of FIG. 1.

Figure 3 is a longitudinal cross-sectional view showing an upright type vacuum cleaner to which the flow path guide according to the present invention is applied.

4 is a cross-sectional view illustrating the III-III line of FIG.

Explanation of symbols for main parts of the drawings

210. Euro tube 211.

220. Exhaust flow path

According to an aspect of the present invention for achieving the above object, a dust collecting space in which a dust collecting bag is seated to collect various foreign matters, and a suction force generating space in which a blowing fan is rotated by receiving a driving force from a motor to generate suction power, and A communication flow path for communicating the dust collecting space and the suction force generating space with each other, and is installed to surround the circumference of the blowing fan, which is the air outlet side of the communication flow path, collect the flow direction of the air introduced into the blowing fan in the tangential direction and go straight to the room. Provided is an air discharge device of a vacuum cleaner, characterized in that it comprises a flow guide for guiding discharge.

That is, the present invention allows the flow of air discharged through the blower fan to be discharged directly to the outside of the main body to remove the cause that the air passing through the blower fan to reduce the blower fan performance due to a sudden flow path change It is.

Hereinafter, the state in which the present invention as described above is applied to an upright cleaner will be described in more detail with reference to one embodiment.

Figure 3 is a longitudinal cross-sectional view showing an upright type vacuum cleaner to which the flow path guide according to the present invention is applied, Figure 4 is a state diagram showing a cross-sectional view of the III-III line of Figure 3, the present invention is a blower fan 140 The motor 150 and the blower fan 140 axially coupled thereto are provided from the dust collecting space 110 in which the dust collecting bag 120 is seated along the communication passage 160 to surround the circumference passage 160. The air flowing into the suction force generating space 130 is discharged straight into the room by the flow guide 141.

The flow guide is configured as a fan housing to guide the flow of air flowing in the tangential direction in the rotational direction of the blowing fan 140 to be discharged into the room.

That is, by installing a flow path guide (hereinafter referred to as "fan housing") around the blower fan 140, the air flowing in accordance with the rotation of the blower fan is collected and guided to be discharged directly to the outside of the main body 100. .

At this time, the fan housing is one side is in communication with the air outlet side of the communication flow path 160, that is, the side into which the air into the blowing fan 140 flows the air flowing into the inside of the blowing fan It is formed in a scroll shape to guide in the same direction as the flow direction of air in accordance with the rotation.

In addition, conventionally, the air introduced into the suction force generating space 13 through the communication passage 16 passes through the motor 15 through the blowing fan 14 and then through the discharge hole 17 formed in the suction force generating space. By discharging, the heat dissipation of the motor can be simultaneously performed.

However, in the present invention, since the air flow to the motor 150 is not made as described above, the heat is dissipated in the motor 150 because it is directly discharged through the blowing fan 140 to the room.

However, this forms a separate communication hole 131 or a cooling flow path (not shown) to communicate with the outside of the main body 100 in the suction force generating space 130 so as to only radiate the motor heat radiation of the motor 150. You can easily solve this by configuring it to perform.

In this case, as shown, an additional heat dissipation fan 132 is additionally provided on the axis 151 line of the motor 150 for transmitting the driving force to the rotary brush 230 so that forced airflow can be made. desirable.

Hereinafter, the operation according to the present invention configured as described above will be described in more detail.

First, when the blower fan 140 rotates and generates suction power according to the driving of the motor 150 provided in the main body 100 of the cleaner, the suction force is the communication flow path 160, the dust collecting space 110, and the suction. Passing through the hose 180, the suction flow path 220, etc. sequentially, the suction port 200 is delivered to the inside, and eventually, the air and various foreign substances on the ground are sucked through the suction port 210.

Air and various foreign matters sucked in this way is collected by the dust collecting bag 120 provided in the dust collecting space in the process of passing through the dust collecting space 110, various foreign matters such as dust having a large particle is collected and only the air dust collecting bag. And it passes through the dust collecting space 110 to flow along the communication flow path (160).

In addition, the air flowing in the communication passage 160 as described above is introduced into the fan housing 141 having an air inlet side on the air outlet side of the communication passage, that is, the side where the blowing fan 140 is located, The air introduced in this way is discharged straight through the air discharge side of the fan housing through the air flow according to the rotation of the blowing fan 140 and the flow path guide according to the shape of the fan housing 141 to the room outside the main body 100. .

At this time, as the inner shape of the fan housing is formed in a scroll (scroll) shape as a whole, the air flowing therein can be smoothly flowed without resistance (rapid resistance due to changes in the flow path space).

In addition, in this case, a separate heat dissipation fan 132 that receives the driving force through the shaft 151 of the motor 150 also rotates to generate suction force, and the suction force is generated through the communication hole 131. It is understood that the air is forcibly sucked and eventually heat radiation of the motor 150 is performed.

Therefore, it is understood that the cause of the performance reduction of the blowing fan due to the smooth flow of the air according to the configuration and its operation according to the present invention can be fundamentally prevented.

On the other hand, the present invention is not only applicable to the general vacuum cleaner as described above, but not shown in the drawing, the continuous reflux of the air is made in order to prevent indoor discharge of various bacteria and odors generated from the dust collection bag in the main body. It is also applicable to an exhaust reflux vacuum cleaner that is configured to be able to.

This can be easily achieved by guiding the air discharge side of the flow guide according to the present invention to the air inlet side of the suction port.

As described above, the present invention has the effect of minimizing the resistance applied to the blowing fan by configuring a smooth discharge can be achieved by preventing a change in the flow path of the exhaust air passing through the blowing fan.

This, it is possible to generate a smooth suction force by preventing the performance of the blower fan, thereby achieving the effect of improving the cleaning efficiency can be obtained.

Claims (1)

A dust collecting space in which a dust collecting bag is mounted to collect various foreign matters, A suction force generating space in which a blowing fan is rotated by receiving a driving force from a motor to generate suction force; A communication passage communicating the dust collecting space and the suction force generating space with each other; It is installed so as to surround the circumference of the blower fan, which is the air outlet side of the communication flow path, characterized in that it comprises a flow path guide for guiding the flow direction of the air introduced into the blower fan in the tangential direction and discharged straight into the room Cleaner air exhaust.