KR101313834B1 - Vacuum cleaner - Google Patents

Abstract

According to an embodiment of the present invention, a vacuum cleaner includes a main body, an suction nozzle body for sucking air and foreign substances, an extension pipe provided between the main body and the suction nozzle body, through which air flows, and an inside of the extension pipe. Is flowed, and includes a muffler in which a plurality of through holes are formed, and the central axis of the through holes is diagonally formed with respect to the extension pipe.

Description

Vacuum cleaner

Vacuum cleaner

A vacuum cleaner is a device that facilitates cleaning by sucking and storing air and foreign substances. The vacuum cleaner is composed of a suction nozzle body for sucking foreign substances such as air and dust, a body having a dust collecting chamber for collecting it and a fan for generating a suction force, and a connection device for connecting the suction nozzle body to the body. .

Such a vacuum cleaner generates a suction force by driving a fan, and collects foreign substances such as dust collected by the suction force in a dust collecting chamber provided in the main body. At this time, the cyclone vacuum cleaner separates dust and air by the cyclone, and the recent vacuum vacuum cleaner uses the cyclone method mostly due to the separation efficiency of dust, ease of cleaning, and beautiful appearance. Such a cyclone vacuum cleaner is disclosed in Korea Patent Publication No. 2007-0078336.

Such vacuum cleaners continue to improve their ability to separate foreign substances such as air intake and dust according to the development of technology, but the noise problem generated during operation remains a problem that cannot be solved. The noise that makes up a large part of the vacuum cleaner's noise is magnetic noise, flow noise, and blade passage frequency (BPF).

Flow noise may be generated between the suction nozzle body and the ground or during the flow of air from the suction nozzle body to the body. At this time, in order to reduce the flow noise generated by the flow of air from the suction nozzle body to the main body, it should be possible to reduce the noise in the connecting device connecting the main body and the suction nozzle body.

The problem to be solved by the present invention is to provide a vacuum cleaner with reduced noise.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

Vacuum cleaner according to an embodiment of the present invention for achieving the above object, the body; A suction nozzle body for sucking air and foreign substances; An extension tube provided between the main body and the suction nozzle body to allow the air to flow therein; And a muffler provided inside the extension tube to allow the air to flow and to form a plurality of through holes. Includes, the central axis of the through hole is formed to make an oblique line with respect to the extension pipe.

The details of other embodiments are included in the detailed description and drawings.

According to the vacuum cleaner of the present invention has one or more of the following effects.

First, as the central axis of the through-hole is formed to be oblique to the extension tube, the length of the through-hole is formed longer than the thickness of the muffler, it is possible to reduce the noise of the low frequency region generated in the extension tube.

Second, as the through-holes are formed in an inclined columnar or parallelogram, the length of the through-holes may be longer than the length of the muffler.

Third, as the through hole forms a flow path bent in the flow direction of the air, foreign matter introduced from the air inlet flows into the through hole and does not accumulate in the cavity.

Fourth, as the outlet of the through-hole is formed in front of the air inlet more than the inlet of the through-hole, foreign matter flowing from the air inlet flows into the inlet of the through-hole and cannot flow to the outlet of the through-hole.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view of a vacuum cleaner according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of portion A of FIG. 1.
FIG. 3 is an enlarged view of a portion B shown in FIG. 2.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, a vacuum cleaner according to the present invention will be described in more detail with reference to the accompanying drawings. The suffix "module" and " part "for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

1 is a perspective view of a vacuum cleaner according to an embodiment of the present invention.

1, the vacuum cleaner according to an embodiment of the present invention is connected to one end of the suction nozzle body 50 and the suction nozzle body 50 to suck the air and foreign matter while moving to a state close to the floor surface An extension hose 60 and a connection hose 70 made of a flexible material connected to the extension pipe 60 to guide air and foreign substances introduced through the suction nozzle body 50 and one end of the connection hose 70 It includes a main body 100, the parts of which are built.

The suction nozzle body 50 is provided to be spaced apart from the main body 100. The suction nozzle body 50 may be connected to the main body 100 by the extension pipe 60 and the connection hose 70. When the fan provided in the main body 100 is driven to generate suction power, the suction nozzle body 50 may suck air and foreign matter from the suction nozzle body 50 as the suction force is generated.

One end of the extension tube 60 may be connected to the suction nozzle body 50, and the other end of the extension tube 60 may be connected to the connection hose 70. The air and the foreign matter sucked by the suction nozzle body 50 flow in the extension pipe 60. Air and foreign matter may flow to the connection hose 70 is connected to the extension pipe (60).

Extension tube 60 may be designed to vary in length depending on the embodiment. In this case, the length L of the extension pipe 60 may be adjusted by a user's operation. In addition, the extension tube 60 may be integrally formed according to the embodiment.

Extension tube 60 may be provided with a muffler (61 in Figure 2) for reducing the noise caused by the flow of air and foreign matter flowing into the extension tube 60. The portion A provided with the muffler 61 will be described later with reference to FIG. 2.

The hook portion of the extension tube 60 may protrude outward from a portion where the extension tube 60 and the suction nozzle body 50 are connected. The extension tube 60 hook is a hook which will be described later of the main body 100 and may be hooked to the government 131.

The other end of the extension pipe 60 may be provided with an operation handle (80). The operation handle 80 may be embodied as a handle portion that allows the user to easily grip the cleaning operation. In addition, according to the embodiment, the operation unit 82 may be formed on the front of the operation handle 80 to allow the user to operate the vacuum cleaner. The user may manipulate the operation unit 82 while holding the operation handle 80 to operate the vacuum cleaner so as to correspond to a required place and an object.

One end of the connection hose 70 is connected to the extension pipe 60, the other end of the connection hose 70 is connected to the main body 100. The connection hose 70 may be variable in length and may be implemented in the form of a corrugated pipe having a high degree of freedom of movement.

The connector 90 may be provided at a connection portion of the main body 100 and the connection hose 70. The connector 90 functions as an electrical connection terminal for allowing a user's operation signal input from the operation unit 82 to be applied to the main body 100, and guides air introduced through the connection hose 70 to the main body 100. To perform the function.

In the embodiment in which the operation unit 82 is provided in the operation handle 80, the connector 90 performs both a function of the electrical connection terminal and a function of guiding air, but the operation unit 82 is provided in the operation handle 80. In the case of not the embodiment, the connector 90 may perform only a function of guiding air.

The main body 100 is provided on both sides of the first base 110 provided on the bottom surface of the main body 100, the second base 150 placed on the upper side of the first base 110, and the rear side of the main body 100. And the wheel 111 to smoothly move the main body 100, the cover 130 forming an upper appearance of the main body 100, the cover 130 and the bases at the front of the main body 100. (110, 150) is connected to include a front supporter 170 for firmly coupled support.

The front supporter 170 allows the front portion of the main body 100 to be firmly supported in its original shape. The connector 90 may be connected to the front supporter 170.

The second base 150 is disposed on the upper side of the first base 110 to be beautiful in appearance of the vacuum cleaner, and to increase the strength of the lower side of the main body 100 to defend against external shock.

An exhaust cover 140 in which an exhaust port 141 is formed may be provided at the rear of the cover 130. In the exhaust port 141, the air cleaned by the main body 100 is discharged.

At the rear of the cover 130, the extension tube hanger 62 is hooked and a government unit 131 may be provided. Hanging portion 131, the extension tube hanger 62 may be detachably coupled.

The moving handle 120 may be provided on the upper surface of the main body 100. The moving handle 120 is for facilitating the gripping when the user wants to move the main body 100 of the vacuum cleaner. The moving handle 120 may be rotatably installed on the axis of the handle hinge 121 formed at the front end thereof. The handle hinge 121 may be formed so as not to protrude upward from an upper surface of the main body 100.

The moving handle 120 is installed on the upper surface of the cover 130. A handle hinge 121 is provided on an upper surface of the cover 130, and the movement handle 120 may be installed to be rotatable about the handle hinge 121.

FIG. 2 is a cross-sectional view of portion A of FIG. 1, and FIG. 3 is an enlarged view of portion B of FIG. 2.

2 to 3, the vacuum cleaner according to an embodiment of the present invention is provided between the main body 100 and the suction nozzle body 50, the extension tube 60 and the air flowing therein, the extension tube 60 It is provided in the interior of the air flow, and includes a muffler 61 is formed a plurality of through holes (H).

Extension tube 60 is provided between the main body 100 and the suction nozzle body 50 as described above. A hollow is formed in the extension pipe 60, and air and foreign matter sucked from the suction nozzle body 50 flow.

The extension tube 60 may have a volume 64. Volume portion 64 is formed to have a diameter larger than the diameter of the extension pipe (60). When the volume unit 64 is implemented, the extension tube 60 may be configured to include a first extension tube 63 and a second extension tube 65 coupled thereto for the injection of the extension tube 60, the volume unit ( 64 may be formed around an adjacent portion of a portion in which the first extension tube 63 and the second extension tube 65 are coupled to each other.

Air and foreign matter flow inside the extension tube 60. As shown in FIG. 2, the extension pipe 60 has an air inlet port i at the suction nozzle body 50 and an air outlet e at the body 100 side, and an air outlet e at the air inlet i. Air and foreign substances flow in the) direction.

A hollow is formed in the extension pipe 60 and a muffler 61 through which air flows is provided. Muffler 61 is preferably provided inside the volume portion 64 of the extension pipe (60). Hereinafter, the muffler 61 will be described as being provided inside the volume unit 64 of the extension pipe 60, but embodiments are not limited thereto.

The muffler 61 may be fixed to one side and the other side is inserted into the muffler fixing portion 67 formed in the extension tube 60. When the extension tube 60 is implemented as the first extension tube 63 and the second extension tube 65, the muffler fixing portion 67 may protrude from each extension tube 60. One end and the other end of the muffler 61 are inserted into and fixed to the muffler fixing part 67.

The muffler 61 has a plurality of through-holes (H) formed along the outer circumferential surface. The through hole (H) is formed through the outer circumferential surface in the inner circumferential surface of the muffler 61, and the air flowing in the inner circumference of the muffler 61 can come out to the outer circumferential surface of the muffler 61 to flow in the volume portion 64 .

A cavity C may be formed between the outer circumferential surface of the muffler 61 and the inner circumferential surface of the volume portion 64 of the extension tube 60. The cavity C resonates with the noise producing frequency, and serves to cancel the noise producing frequency. The cavity (C) may be further provided with a sound absorbing material (not shown) according to the embodiment.

The vacuum cleaner has a different ability to reduce noise depending on the number of through holes H, the length L of the through holes H, and the volume of the cavity C between the volume unit 64 and the muffler 61. Can be formed. In the extension tube 60 of the vacuum cleaner, the flow noise of the low frequency region may be generated, and in order to reduce the noise of the low frequency region, the length L of the tunnel forming the through hole H (hereinafter, referred to as' through hole ( The length L) 'of H) should be formed long.

The central axis X of the through hole H according to the embodiment of the present invention is formed to be diagonal to the extension pipe 60. When the central axis X of the through hole H is formed to be in an oblique line with respect to the linear direction formed by the extension pipe 60, the length L of the tunnel formed by the through hole H is defined by the muffler 61. It may be formed longer than the thickness (D).

As the central axis X of the through hole H is formed to be oblique to the extension pipe 60, the length L of the through hole H may be longer, in which case the extension pipe 60 It is possible to reduce noise in the low frequency region caused by flowing air and foreign matter.

The through hole H is formed in an inclined cylindrical shape penetrating the muffler 61. That is, the opening in which the through hole H is formed may be formed as a tunnel having a circular cross section, and the inlet of the tunnel and the exit of the tunnel are formed in an inclined columnar shape that does not overlap during projection.

The cross section of the through hole H may be a parallelogram. That is, as shown in the cross-sectional view of the muffler 61 shown in Figure 3, the portion formed by the through hole (H) forms a parallelogram of the cross section. In this case, the central axis X of the through hole H forms an oblique line with the flow direction of air.

As the through hole H is formed as an inclined circumferential or parallelogram, the length L of the through hole H may be formed longer than the length D of the muffler 61. It is possible to reduce the noise of the area.

The through hole (H) forms a flow path that is bent in the flow direction of air so that foreign matter flowing in the extension pipe (60) does not pass through the through hole (H). That is, the through hole (H) is a second flow in the flow direction of air, as shown in Figure 3, so that foreign matter introduced from the air inlet (i) does not flow into the through hole (H) to accumulate in the cavity (C) A flow path bent at least 90 degrees with respect to F2 is formed.

In this case, the first flow F1 of the air and the foreign matter shown in FIG. 3 forms a flow path in which the through hole H is bent with respect to the first flow F1, so that the foreign matter forms the through hole H. Will not pass.

The flow direction of the air flowing in the central axis X of the through hole H and the extension tube 60 may form a piers θ1 of 90 degrees or less. When the flow direction F2 of air flowing from the air inlet (i) in the direction of the air outlet (e) is simplified to a straight line, the straight axis F2 and the central axis X of the through hole H are pier ( θ1) is formed.

In this case, the portion constituting the bridge θ1 is formed at the air inlet i when the center axis X of the through hole H is referred to. That is, the angle formed between the central axis X of the through hole H and the flow direction of air forms an pier θ1 at the air inlet i and an obtuse angle at the air outlet e.

Based on the inner circumferential surface and the outer circumferential surface of the muffler 61, air may flow from the inner circumferential surface of the muffler 61 to the outer circumferential surface. In this case, the inner peripheral surface side of the muffler 61 may be an inlet of the through hole H, and the outer peripheral surface side of the muffler 61 may be an outlet of the through hole H.

The outlet of the through hole (H) is formed in front of the outlet of the through hole (H) on the basis of the air inlet (i) of the muffler (61). That is, when the air inlet i is referenced forward, the outlet of the through hole H is formed in front of the inlet of the through hole H.

As the outlet of the through hole (H) is formed in front of the air inlet (i) more than the inlet of the through hole (H), the through hole (H) forms an oblique line forming a bridge (θ1) with the air flow direction. It can be formed.

Accordingly, it is possible to form a flow path that is bent with respect to the flow direction of the air so that foreign matter flowing from the air inlet i flows into the inlet of the through hole H and cannot flow to the outlet of the through hole H. do.

The configuration and method of the embodiments described above are not limited to be applied, but all or some of the embodiments may be selectively combined so that various modifications can be made.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

50: suction nozzle body 100: main body
60: extension tube 70: connection hose
61: muffler H: through hole

Claims (10)

A suction nozzle body for sucking air;
A main body generating a suction force;
An extension pipe disposed between the suction nozzle body and the main body through which air flows; And
A muffler provided inside the extension tube and having a through hole formed on an outer circumferential surface thereof to reduce noise generated by flowing air;
The central axis of the through hole is formed to be oblique to the extension pipe,
The extension tube,
A second extension tube formed to have a diameter greater than the muffler and a length shorter than the muffler so that the muffler is inserted therein;
Disposed at both ends of the muffler and having an inner diameter smaller than that of the muffler, one of which guides an air inlet to be formed therein and allows air sucked from the suction nozzle body to flow into the muffler, and the other has an air outlet therein. A guide part which is formed and guides the air discharged from the muffler to flow toward the main body;
A first extension tube connecting the second extension tube and the guide part to form a sealed cavity between the muffler and the second extension tube; And
Both ends of the muffler are inserted into and projected to the guide part to be connected to the guide part, and disposed inside the first extension tube to be disposed inside the cavity, and the muffler fixing part formed to have an inner diameter equal to the guide part. Including cleaner.

The method of claim 1,
And a central axis of the through hole and a flow direction of air flowing in the extension pipe form a bridge.
The method of claim 1,
The length of the through hole is a vacuum cleaner is formed longer than the thickness of the muffler.
The method of claim 1,
The outlet of the through hole is formed in front of the inlet of the through hole based on the air inlet of the muffler.
The method of claim 1,
Cross-sectional shape of the through hole is a vacuum cleaner having a parallelogram.
The method of claim 1,
The through hole is a vacuum cleaner formed in an inclined cylindrical shape penetrating the muffler.
delete The method of claim 1,
The through hole is a vacuum cleaner to form a flow path that is bent in the flow direction of the air so that the foreign matter flowing in the extension tube does not pass.
The method of claim 1,
The muffler is hollow is formed, the air flowing in the extension pipe vacuum cleaner.
delete

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