The present invention relates to an electric vacuum cleaner including first and second dust separation devices for separating vacuumed dust.
There is conventionally known an electric vacuum cleaner including a first dust separation device for separating dust and a second dust separation device for separating dust which has passed through the first dust separation device (refer to JP2006-6383A).
The electric vacuum cleaner includes the first dust separation device for separating dust vacuumed by a negative pressure of an electric fan, a first dust collection section for collecting the dust separated by the first dust separation device, the second dust separation device for separating the dust which has passed through the first dust separation device, a dust removing device for removing the dust adhering to the second dust separation device and a second dust collection section provided in the lower portion of the second dust separation device, for accumulating the dust removed by the dust removing device. An introduction opening provided in the upper portion of the second dust collection section is provided with an openable and closable opening and closing member. The opening operation and closing operation of the opening and closing member are conducted in conjunction with a pulling-out operation and a retracting operation of a power source cord.
More particularly, the opening and closing member closes the introduction opening of the second dust collection section, when pulling-out the power source code and the opening and closing member opens the introduction opening, when retracting the power source code.
In addition, when the power source cord is retracted, the dust removing device for removing the dust adhering to the second dust separation device is operated, disposing the dust removed by the second dust separation device into the second dust collection section from the introduction opening.
In operation of the electric fan, i.e., when the power source cord is pulled out, the introduction opening of the second dust collection section is closed by the opening and closing member. Accordingly, the dust accumulated in the second dust collection section is prevented from rising to adhere again to the second dust collection section.
However, the above electric vacuum cleaner has a problem in that its structure is complex, because the opening and closing operation of the opening and closing member requires an interlocking mechanism which operates in conjunction with the pulling-out operation and retracting operation of the power source cord.
It is, therefore, an object of the present invention to provide an electric vacuum cleaner capable of opening and closing an introduction opening of a second dust collection section by means of a simple structure.
One aspect of the invention relates to an electric vacuum cleaner including a first dust separation device configured to separate dust vacuumed by a negative pressure of an electric fan, a first dust collection section for collecting the dust separated by the first dust separation device, a second dust separation device configured to separate the dust which has passed through the first dust separation device, a dust removing device configured to remove the dust adhering to the second dust separation device, a second dust collection section positioned in an upstream side of the second dust separation device and provided in a lower portion of the second dust separation device, for accumulating the dust removed by the dust removing device, a partition wall for zoning the first dust collection section and the second dust collection section, and an introduction opening for introducing the dust removed by the dust removing device into the second dust collection section, wherein the partition wall is provided with a communication opening for communicating the first dust collection section to the second dust collection section, the partition wall is provided with an opening and closing member for closing either of the introduction opening or the communication opening and switching the closing to the other by rotating, and the opening and closing member closes the introduction opening with the negative pressure by driving of the electric fan and closes the communication opening by its own weight when the electric fan is not driven.
Preferably, the communication opening is formed in an upper portion of the second dust collection section.
Advantageously, a bottom portion of the first dust collection section and a bottom portion of the second dust collection section are simultaneously opened, so as to simultaneously discharge the dust accumulated in the first dust collection section and the second dust collection section.
In a preferred embodiment, the dust removing device removes the dust adhering to the second dust separation device, when operation of the electric fan is stopped.
Advantageously, the second dust separation device comprises a pleated filter body.
In a preferred embodiment, the dust removing device removes the dust adhering to the pleated filter body by vibrating the pleated filter body.
Hereinafter, an embodiment of an electric vacuum cleaner according to the present invention will be described with reference to the drawings.
An electric vacuum cleaner 10 shown in
The vacuum cleaner body 20 includes a body case 30, a dust collection container 50 detachably mounted on the body case 30 and a cover body 40 having the back portion connected to the body case 30 by a hinge so as to be openable and closable in the up and down direction, as illustrated in
In addition, an electric fan 33 (refer to
The cover body 40 is provided with a tube portion 22 as shown in
A front opening (not shown) is formed in a front wall portion 31 (reference to
The dust removing device 90 includes a reciprocating body (not shown) for reciprocating in the width direction of the body case 30 (in the direction orthogonal to the page space of
The reciprocating body reciprocates for a predetermined time every time the driving of the electric fan 33 is stopped.
As shown in
The round air path portion 51 includes a dust separation section (a first dust separation device) 52 provided in the central portion thereof and a circular arc round air path 53 provided around the dust separation section 52, as shown in
The dust separation section 52 includes a frame (not show) having an almost cylindrical shape and a net filter F1 stretched to the frame. The bottom portion of the dust separation section 52 opens, such that the dust separation section 52 communicates with the negative pressure room 70 via an opening 56.
A dividing wall 61 provided in the back portion of the dust collection section 60 includes an opening 62 which communicates with the negative pressure room 70. A lower portion wall 61A of the dividing wall 61 includes a communication hole (communication opening) 63 positioned in an upper portion of a fine dust collection section 74. More particularly, the communication hole 63 is formed below the opening 62. A net filter (the first dust separation device) F3 is stretched to the opening 62.
A frame 71 for detachably installing a pleated filter body (a second dust separation device) 100 is integrally formed in the back portion of the negative pressure room 70 (on the right side in
A lower portion back wall 73 is formed in the lower portion of the frame 71. The fine dust collection section (the second dust collection section) 74 includes a space surrounded by the lower portion back wall 73, the lower portion wall 61A of the dividing wall (partition wall) 61 of the dust collection section 60 and the bottom pad 80. The fine dust collection section 74 communicates with the dust collection section 60 via the communication hole 63 of the dividing wall 61. In addition, as shown in
In addition, one end portion (upper portion in
The bottom pad 80 is a rotatable in the clockwise direction about an axis 81 illustrated in
[Operation]
Next, the operation of the electric vacuum cleaner having the above structure will be explained.
At first, as shown in
In this state, as illustrated in
If the switch S of the operation part 13A is operated, the electric fan 33 is driven. By the driving of the electric fan 33, air is sucked from the suction opening 33A of the electric fan 33, creating a negative pressure in the negative pressure room 70 of the dust collection container 50. Thereby, the opening and closing plate 76 rotates by this negative pressure so as to close the introduction opening 75 as shown in
If the introduction opening 75 is closed by the opening and closing plate 76, the fine dust accumulated in the fine dust collection section 74 is prevented from rising to adhere to the pleated filter body 100.
In addition, since the communication hole 63 of the dividing wall 61 of the dust collection container 50 is formed in the upper portion of the fine dust collection section 74, the air flows as illustrated by the arrows in
As described above, the opening and closing plate 76 rotates by the driving of the electric fan 33 so as to close the introduction opening 75; thus, the structure of the opening and closing plate 76 is simplified.
On the other hand, a negative pressure is created in the dust collection section 60 and the round air path 53 by the negative pressure of the negative pressure room 70 of the dust collection container 50. This negative pressure acts on the tube portion 22, the dust collection hose 12, the extension wand 14 and the suction port 15, so as to vacuum the dust together with air from the suction port 15.
The vacuumed dust and air are sucked into the hose connection port 21 of the cover body 40 via the extension wand 14 and the dust collection hose 12. The dust and air sucked into the hose connection port 21 is sucked into the dust collection section 60 through the round air path 53 of the dust collection container 50.
A part of the air is separated from the dust by the round air path 53, and the separated air is sucked to the negative pressure room 70 through the net filters F1, F2.
The dust and air sucked into the dust collection section 60 are separated, and the separated air is sucked to the negative pressure room 70 through the net filter F3 and also the dust is collected in the dust collection section 60.
The air sucked to the negative pressure room 70 is sucked to the suction opening 33A of the electric fan 33 via the pleated filter body 100 or the like. The sucked air is discharged from a discharging port 33B of the electric fan 33, and is discharged outside from a discharging port (not shown) of the body case 30. If the driving of electric fan 33 is stopped, the sucking of dust and air from the suction port 15 is stopped. The degree of vacuum of the negative pressure room 70 of the dust collection container 50 is thereby increased to atmospheric pressure. The opening and closing plate 76 of the dust collection container 50 rotates by its own weight, so as to close the communication hole 63 of the dividing wall 61 as shown in
On the other hand, the reciprocating body (not shown) of the dust removing device 90 reciprocates for a predetermined time by stopping the driving of the electric fan 33; thus, the dust adhering to the pleated filter body 100 is removed. The dust removed from the pleated filter body 100 is disposed into the fine dust collection section 74 because the introduction opening 75 is opened as shown in
In order to dispose of the dust accumulated in the dust collection section 60 and the fine dust collection section 74 of the dust collection container 50, the dust collection container 50 is removed from the body case 30, and the bottom pad 80 rotates in the clockwise direction about the axis 81 to open the bottom portion of the dust collection section 60 and the fine dust collection section 74. Accordingly, the dust accumulated in the dust collection section 60 and the fine dust collection section 74 is disposed.
According to one embodiment of the present invention, the introduction opening of the second dust collection section can be opened and closed by means of a simple structure; thus, the re-adhesion of dust can be prevented.
The present application is based on and claims priority from Japanese application No. 2006-99862 filed on Mar. 31, 2006, the disclosure of which is hereby incorporated by reference herein in its entirety.
Although the present invention has been described in terms of an exemplary embodiment, it is not limited thereto. It should be appreciated that variations may be made in the embodiment described by persons skilled in the art without departing from the scope of the present invention as defined by the following claims. In addition, the number, position, shape, or the like of the components are not limited to the above embodiment, and can be changed to the number, position, shape or the like of components preferable for conducting the present invention. Moreover, no element or component in the present disclosure is intended to be dedicated to the public regardless of whether the element or component is explicitly recited in the following claims.
Number | Date | Country | Kind |
---|---|---|---|
2006-099862 | Mar 2006 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
3591888 | Takeda et al. | Jul 1971 | A |
3856488 | Kato et al. | Dec 1974 | A |
5223005 | Avondoglio | Jun 1993 | A |
5681363 | Tucker et al. | Oct 1997 | A |
6428589 | Bair et al. | Aug 2002 | B1 |
6598263 | Boles et al. | Jul 2003 | B2 |
7047593 | Kitamura et al. | May 2006 | B2 |
7346957 | Nakamoto et al. | Mar 2008 | B2 |
7351269 | Yau | Apr 2008 | B2 |
7412749 | Thomas et al. | Aug 2008 | B2 |
20020124729 | Dudley | Sep 2002 | A1 |
20060016043 | Matsuhashi et al. | Jan 2006 | A1 |
20060042203 | Kuroki et al. | Mar 2006 | A1 |
Number | Date | Country |
---|---|---|
1 629 760 | Mar 2006 | EP |
54003375 | Jan 1979 | JP |
2006-006383 | Jan 2006 | JP |
Number | Date | Country | |
---|---|---|---|
20070226952 A1 | Oct 2007 | US |