RU2433778C1 - Dust-collecting device and electric vacuum cleaner - Google Patents

Abstract

FIELD: personal use articles. ^ SUBSTANCE: invention relates to a dust-collecting device, comprising a filter located inside a jacket body, including a hole for air suction and an outlet hole, and to an electric vacuum cleaner that comprises it. The first filter is located on the first inclined surface inclined at the angle of not more than 45 degrees relative to the axial direction (direction of an arrow X) of the flow channel, comprising a horizontal element inside the jacket body, so that a part of the first filter is located in a position A of the ledge on the form of the air suction hole. The dust almost does not stick to the first filter, and suction resistance may be ensured. It is not necessary to arrange the whole first filter next to the hole for air suction, so that a dust-collecting volume may be ensured, the filter are may be increased to prevent reduction of suction efficiency. ^ EFFECT: invention prevents reduction of suction efficiency to maintain suction and dust-collecting volume. ^ 11 cl, 11 dwg

Description

The invention relates to a dust collecting device comprising a filter located inside a housing of a casing including an opening for suctioning air and an outlet, and an electric vacuum cleaner including it.

Typically, a dust bucket as a dust collector used in an electric vacuum cleaner comprises an air suction opening and an exhaust opening formed in a casing made of synthetic resin, etc., a filter on the exhaust side disposed to close the exhaust opening, and a filter located in a separate air passage for connecting the air inlet to the outlet inside the casing. Dust adheres to the filter over time and clogs the filter, and the suction power of the electric blower fan decreases, so as shown in Japanese Patent Application Laid-Open Publication No. 2008-161471, a configuration is known in which even in the event of clogging, an air channel is formed to exhaust part of the intake air, and a separate filter is located in this air channel to prevent a decrease in suction power, thereby maintaining suction stability with the dust collector.

However, when using this configuration, the configuration of the air passage inside the housing of the casing becomes complicated, and the suction efficiency may be reduced.

Therefore, for example, as shown in Japanese Patent Application Laid-Open Publication No. 2007-313180, in Japanese Patent Laid-Open Publication No. 2008-22932 or in the publication of Japanese Patent Application Laid-Open No. 2008-23217, a configuration is known in which, by installing a filter located between the air intake hole and the exhaust hole, closer to the air intake hole and the protrusion of the rectifier device that straightens the suction air flow, to the filter from the filter side to the air intake hole , the dust captured by the filter is separated from the filter by the intake air from the air intake opening as necessary, and therefore the dust capture function and the function to maintain ivosti performed conventional filter. In this configuration, the air passage can be simplified, so that a decrease in suction efficiency can be prevented.

However, in the dust collecting apparatus described above, it is not easy to provide a distance between the filter and the air intake opening, so that the amount of dust collected in the housing of the casing is reduced.

The present invention has been made in view of this problem, and its purpose is to provide a dust collecting device that prevents a decrease in suction efficiency while maintaining suction and dust collecting volume, and an electric vacuum cleaner including a dust collecting device.

The dust collecting device of the present invention includes a first filter that is located on a first inclined surface located inside the housing of the casing, including an air inlet opening forming a flow channel containing a horizontal element, and an outlet opening formed opposite to the air intake opening and inclined at an angle of not more than 45 degrees relative to the axial direction of the flow channel, and at least a portion of which is located in the protrusion position of the hole shape for the entire Air syvaniya.

According to the present invention, by arranging the first filter on the first inclined surface at an angle of not more than 45 degrees with respect to the axial direction of the flow channel containing the horizontal element inside the casing, so that at least a portion of the first filter is located in the protrusion position of the shape of the suction opening air, dust almost does not stick to the first filter, and maintenance of absorption can be ensured, and it is not necessary to place the entire first filter next to the suction port I air so that the dust collection volume of the dust can be provided, and the first filter area can be increased while preventing decrease in the efficiency of suction.

The invention will now be explained in more detail with reference to the accompanying drawings, in which:

FIG. 1 is a longitudinal sectional view showing a portion of a main body of an electric vacuum cleaner including a dust collecting device of a first embodiment of the present invention; FIG.

Figure 2 is a view in longitudinal section showing the removal of dust from the dust collecting device;

Figure 3 is a perspective view showing a dust collecting device;

4 is a perspective view showing an electric vacuum cleaner;

5 is a longitudinal sectional view showing a dust collecting device of a second embodiment of the present invention;

6 is a top view schematically showing part of a dust collecting device;

7 is a view in longitudinal section showing the removal of dust from a dust collecting device of a third embodiment of the present invention;

Fig. 8 is a longitudinal sectional view showing a part of a main body of an electric vacuum cleaner including a dust collecting device of a fourth embodiment of the present invention;

Fig.9 is a view in longitudinal section showing the removal of dust from the dust collecting device;

10 is a longitudinal sectional view showing dust removal from a dust collecting device of a fifth embodiment of the present invention; and

11 is a longitudinal sectional view showing a portion of a main body of an electric vacuum cleaner including a dust collecting device of a sixth embodiment of the present invention.

Below, a configuration of a first embodiment of the present invention will be described with reference to FIGS. 1-4.

4, reference numeral 11 denotes a so-called container-type electric vacuum cleaner, and this electric vacuum cleaner 11 includes a tube assembly 12 and a vacuum cleaner main body 13 with which the tube assembly 12 is removably connected.

The tube assembly 12 includes a tube connecting portion 15 for connection to a vacuum cleaner main body 13, a sleeve 16 that is connected to an end side of the tube connecting portion 15 and has flexibility, a manual control part 17 located on the end side of the sleeve 16, an extension tube 18 for connection with the possibility of removal with the end side of the part 17 of the manual control and the floor brush 19 as a housing with a suction hole for connection with the possibility of removal with the end side of the extension tube 18.

On the part 17 of the manual control, the gripper 21 protrudes to the side of the sleeve 16, on this gripper 21 there are many setting buttons 22 for control.

The main body 13 of the vacuum cleaner includes, as shown in FIG. 1, a casing 25 of the main body, and behind a dividing wall 26 formed inside the casing 25 of the main body, an electric discharge fan compartment 28 for receiving the electric discharge fan 27 and a compartment (not shown) ) for the cord coil around which the power cord is wound, are separated, and in front of the separation wall 26, the dust collecting compartment 35 of the main body, which is connected to the inlet side of the electric discharge about the fan 27 through the connecting hole 31 formed in the dividing wall 26, and in the dust collection compartment 35 of the main body is located with the possibility of removal of the dust collecting cup 36 as a dust collecting device.

The casing 25 of the main body is made, for example, of hard synthetic plastic and includes a lower casing 38, open up, the upper casing 39 as the upper rear of the lower casing 38 and closing the compartment 28 for the electric blower fan and the compartment for the cord reel, cover 40 of the main body, supported in the axial direction with the possibility of rotation in the up and down direction relative to the upper casing 39 or the lower casing 38 and opening and closing the dust collecting compartment 35 of the main body, and nyuyu panel 41 covering the rear part of the cabinet 28 to the electric blower and separating the cord reel.

On the front side of the lower casing 38, a suction opening 43 of the main body is open, which is connected to the dust collection section 35 of the main body and connected to the connecting part 15 of the tube. On both sides of the lower casing 38, large diameter mobile wheels 44 (FIG. 4) are fixed for rotation, which move the main body 13 of the vacuum cleaner over the floor surface as a surface to be cleaned. A rotary wheel 45 is rotatably attached to the lower part of the lower casing 38, which rotates the main body 13 of the vacuum cleaner and increases the efficiency of movement of the main body 13 of the vacuum cleaner.

A handle 47 is attached to the upper casing 39 to move the main body 13 of the vacuum cleaner. The handle 47 is designed to be used as a button to rewind the power cord around the cord reel.

A plurality of outlet openings 49 of the main body are formed on the rear panel 41, which connect the electric blower fan compartment 28 and the cord reel compartment to the outside of the housing 25 of the main body (main body 13 of the vacuum cleaner) in an up-down direction and a left-right direction.

The dust collector 36 includes, as shown in FIGS. 1-3, a casing body 51 made, for example, of hard synthetic plastic, a filter casing 52 as a filter on an exhaust side removable in a rear part of the casing 51, a cover 53, rotatably supported in the axial direction, in the lower part of the casing 51 and a handle 54 formed on the upper portion of the casing 51.

The housing 51 of the casing includes the entire portion 61 of the main housing of the casing, the dividing portion 56 for receiving dust, which essentially contains most of the (mainly coarse dust) of the intake dust, and an air channel 57 through which the suction air stream, a filter housing portion 62, which extends to the rear portion on the downstream side of the housing main body portion 61, for removably attaching the filter housing 52, and an expanding portion 63 extending to the lower portion of the main body portion 61 Ovine housing casing.

The casing body portion 61 includes a front surface 65 as a surface on an upstream side having a rectangular front view, an upper surface 66 extending back from an upper portion of a front surface 65, side surfaces 67 and 67 extending to both side portions the front surface 65 and the upper surface 66, and the closed portion 68, which is the lower portion of the upper surface 66 and extends between the side surfaces 67 and 67. The first filter assembly 69 is rotatably fixed When portion 61 of the main housing body.

On the front surface 65, a circular air intake hole 71 having an opening direction (axial direction) along the front-back direction is formed horizontally in the substantially central portion in the up-down direction. Therefore, the hole 71 for suction of air forms a flow channel containing a horizontal element. The air suction hole 71 has an opening direction substantially outwardly and inwardly of the casing body 51 in the present embodiment, and hereinafter, the air suction opening 71 inside the casing body 51 and the direction of the air suction hole 71 on the outside of the casing 51 do not change, and both of them are called the direction of the air inlet opening 71, that is, the axial direction (arrow direction X in FIG. 1) of the flow channel.

An element 73 is attached to the front portion of the front surface 65 to separate the part for accommodating a locking mechanism (not shown) of the locking elements for actuating the locking elements 72 and 72 for fixing the cover 53 to the housing 51. In addition, the lower end of the front surface 65 extends to the upper portion of the expandable portion 63.

The element 73 for separating the part for placement is made in an arcuate shape across both lower lower sections from the upper side of the air suction hole 71 and is attached to the front surface 65 with a plurality of screws (not shown). A cylindrical portion 76 for guiding the air flow having an axial direction along the direction of the hole 71 for sucking air is formed in the central portion of the element 73 for separating the holding part, and this part 76 for guiding the air flow is concentrically located on the upstream side of the hole 71 for sucking air . This airflow guiding portion 76 is configured to seal the air intake hole 71 and the suction opening 43 of the main body when the front end is pressure welded to the rear end of the flexible (elastic) cylindrical sealing element 77 attached to the rear portion on the downstream side of the suction the openings 43 of the main body in a state in which the dust collecting cup 36 is fixed in the dust collecting compartment 35 of the main body.

The locking elements 72 comprise upper ends supported axially in the lower portions on both sides of the element 73 for separating the holding portion and are capable of pivoting in the forward-reverse direction. The lower ends of the locking elements 72 protrude downward from the expanding portion 63, and protrusions (not shown) are formed on the rear portions of the lower ends to secure the cover 53. In addition, the locking elements 72 are preloaded by means of preloading, such as springs, forming part of the locking mechanism elements so that the lower ends turn back.

The upper surface 66 is curved upward in an arcuate shape and tilted upward from the front side (upstream side) to the rear side (downstream side).

The side surfaces 67 are formed to gradually open and expand from the upper side to the lower side relative to the front surface 65. The lower ends of the side surfaces 67 extend to the upper portion of the expandable portion 63.

The closed part 68 is made in the form of a wall and separates the part 56 for receiving dust between the closed part and the first filter assembly 69.

The first filter assembly 69 includes a first filter frame 81 made of rigid synthetic plastic, etc., in plate form and a first flat filter 82 for filtering as a mesh (one) primary filter attached to the first filter frame 81. The first filter assembly 69 is located on the lower side as the side of the lid 53 with respect to the closed portion 68.

The frame of the first filter 81 includes, as an integral part, the frame 84 of the first filter of the front side (upstream side) located on the front side, and the frame 85 of the first filter of the rear side (downstream side) located on the back side, and bent to the formation of the first inclined surface 86, to which the first filter 82 is attached. The frame 81 of the first filter contains an outer peripheral edge mounted close to the inner surface of the portion 61 of the main body of the casing without gaps. The first filter frame 81 is arranged to tilt upward from the front side to the rear side.

The frame 84 of the first front side filter is made in the form of a mesh containing a plurality of first ventilation holes 84a on the front side (upstream side) as ventilation holes for forming an air channel 57 connecting the upstream side and the downstream side of the first filter 82, and has a flat shape. The lower end, as the front end of the frame 84 of the first front-side filter, is in contact with the inner surface of the expandable part 63 located under the front surface 65 of the part 61 of the main body of the casing on the lower side of the air inlet 71. In addition, the frame 84 of the first front-side filter is tilted at an angle of not more than 45 degrees in a side view relative to the direction of the hole on the side of the inner surface of the portion 61 of the main body of the casing of the air intake hole 71, i.e., relative to the horizontal direction as the axial direction (arrow direction X ) flow channel. The frame of the first front-side filter is located inside the position A of the protrusion of the shape of the air intake hole 71 through the position on the upper side of the first front-side ventilation holes 84a and the upper end extending to the frame of the first rear-side filter. The lower end of the frame 84 of the first front side filter is in contact with the upper portion on the front end side of the cover 53 and is supported by the cover 53.

The frame 85 of the first filter of the rear side is made in the form of a mesh containing many first ventilation holes 85a of the rear side (downstream side) as ventilation holes for forming an air channel 57 connecting the upstream side and the downstream side of the first filter 82, and has a flat shape. The frame 85 of the first filter of the rear side is bent upward relative to the frame 84 of the first filter of the front side. In addition, the upper end as the rear end of the frame 85 of the first filter of the rear side extends to the upper side as the outer side of the position A of the protrusion of the shape of the air suction hole 71 and becomes a rotary shaft 85b, both ends of which are axially supported to rotate on the side surfaces 67 and 67 of part 61 of the main body of the casing. Therefore, the first filter assembly 69 is capable of pivoting up and down with respect to part 61 of the main body of the casing. The frame 85 of the first filter of the rear side is inclined at an angle of no more than 45 degrees in a side view and larger than the frame 84 of the first filter of the front side relative to the direction of the opening of the side of the inner surface of the main body part 61 of the casing of the hole 71 for air intake, i.e. relative to the horizontal direction as the axial direction (direction of arrow X) of the flow channel. Therefore, the first inclined surface 86 completely intersects with the opening direction of the side of the inner surface of the portion 61 of the main body of the casing of the air intake hole 71, that is, the horizontal direction as the axial direction (arrow direction X) of the flow channel at an angle of not more than 45 degrees in side view. The state in which the first inclined surface 86 intersects with the opening direction of the side of the inner surface of the portion 61 of the main body of the casing of the air intake hole 71 at an angle of not more than 45 degrees in a side view includes a state in which when the first filter frame 81 forming the first inclined surface 86, or the first filter 82, is curved downward in an arc shape, a plane including a front end side and a rear end side of the first filter frame 81 or a tangent line (tangent plane be) the curved portion intersects with the direction of the hole inner surface side of the main body portion 61 of the casing holes 71 for sucking air at an angle not exceeding 45 degrees. The first inclined surface 86 is inclined relative to the axial direction (arrow direction X) and is not parallel to the axial direction (arrow direction X) of the flow channel.

A first filter 82 is arranged to close the first vents of the front side 84a and the first vents of the rear side 85a. In other words, the first filter 82 is positioned so that at least a portion of the first filter is inside the protrusion position A of the shape of the air suction hole 71, and the entire outer edge is on the outer side of the protrusion position A of the air suction hole 71.

Part 62 for fixing the filter housing is made in the form of a rectangular frame and opens, and expands gradually to the rear portions of the upper surface 66, side surfaces 67 and 67 and the expanding part 63. Specifically, part 62 for fixing the filter housing separates the outlet 93 in a rectangular shape, connected to the downstream side of the air inlet opening 71 through the inside of the casing main body portion 61 in a rear portion of the casing body 51. The outlet 93 is open in a position opposite the air inlet 71.

The expandable portion 63 is in the form of a frame and opens and expands gradually to the lower portions of the front surface 65 and the side surfaces 67 and 67. Specifically, the expandable portion 63 separates the dust discharge opening 95 for dust removal connected to the inside of the casing main body portion 61 on the lower portion of the housing 51 of the casing. In a rear portion of the expandable portion 63, a wall 63a along the right-left width direction is formed in a position opposite the front side of the filter housing fixing portion 62, and an opening 63b is formed in this wall 63a that connects the side of the filter housing fixing portion 62 and the inside of the expanding portion 63. In addition, the expandable portion 63 protrudes downward on the rear side more than on the front side. Therefore, the dust discharge hole 95 has a hole direction in the direction inclined with respect to the vertical up-down direction perpendicular to the hole direction (axial direction of the flow channel (arrow direction X)) of the air intake hole 71 and opens to the front bottom side. Therefore, the dust discharge opening 95 may have a larger opening area than when it opens in a vertical up-down direction.

The filter housing 52 is capable of being attached to the rear portion of the portion 62 to secure the filter housing to cover the entire outlet 93. Specifically, the filter housing 52 is located on the downstream side of the first filter 82 and is connected to the side of the air intake hole 71 through the air duct 57. Housing 52 the filter includes a filter frame 97 having a rectangular shape, a pleated filter 98, which is a filter for collecting dust from the surface as a primary (secondary) filter mounted on the filter frame 97, and a medium GUSTs dust removal (not shown) for removing dust trapped in the pleated filter 98.

The filter frame 97 is configured to air tightly close the gap between the filter housing 52 and the edge portion of the outlet 93 in a state in which the filter body 52 is attached to the outlet 93.

The pleated filter 98 has a pleated shape formed by alternately continuously connecting the front protrusions protruding forward and the rear protrusions protruding backward in the width direction from left to right.

The dust remover, for example, is mounted on the downstream side of the pleated filter 98 and is arranged to move in the width direction from left to right with respect to the pleated filter 98, and due to this movement, the dust remover slightly hits the pleated filter 98 as a result of successive passage through the sharp end portions of the rear protrusions of the pleated filter 98 for vibrating the pleated filter 98 in order to remove dust entrained in the pleated filter 98. Medium The dust removal facility may be performed for manual actuation or automatic actuation at a predetermined point in time when the electric blower fan 27 is turned off or just before the start of operation of the electric blower fan 27.

The cover 53 is made in the form of a flat plate that opens upwards and contains a rotary shaft 53a protruding in the rear portion. The rotary shaft 53a is axially supported rotatably in the lower portion of the portion 62 to secure the filter housing. Therefore, the cover 53 is able to open and close the hole 95 for unloading dust due to rotation. Attached to the upper peripheral edge of the lid 53 is a dust collecting member 101 having flexibility (resilience) for airtight closing of the dust discharge opening 95 by pressure welding with the lower end of the expanding portion 63 in a state in which the lid 53 is closed. In addition, interacting portions 102 and 102 are formed at the front end of the lid 53 for engagement with protrusions on the lower end side of the locking elements 72 and 72.

The handle 54 is formed in the forward-backward direction of the housing 51 of the casing, inside which there is a part of the drive device of the locking elements for actuating the locking elements 72 and 72. An opening 105 is formed on the upper portion of the handle 54 to open the operating button 104 to the outside for actuating the drive device of the locking elements in the position near the rear side.

Air channel 57 is an air channel in which air exits from the air suction port 71 to the exhaust port 93 through the first ventilation openings 84a and 85a (first filter 82) and the filter housing 52 (pleated filter 98).

The electric blower fan 27 is arranged in a forward-backward direction in the compartment for the electric blower fan 28, so that at least a portion of the electric blower fan is closed by a substantially cylindrical cover 107 of the electric blower fan made of synthetic plastic, etc. The electric blower fan 27 is controlled by the control part of the main body as a control device (not shown) located inside the casing 25 of the main body (main body 13 of the vacuum cleaner) for operation in the operating mode set by the setting buttons 22 (Figure 4).

In the front portion of the cover 107 of the electric discharge fan at the rear side, on the downstream side of the connecting hole 31 of the separation wall 26, a cover suction hole 109 is open into which the rear end is inserted as the downstream end of the discharge device 108, which is essentially rectifier a device having a diameter gradually decreasing from the front side as the upstream side to the rear side as the downstream side and the downstream end of the pump A flap device 108 inserted into the suction port 109 of the lid is connected tightly to the suction side of the electric blower fan 27. At the lower portion of the back side of the lid 107 of the electric blower 27, a lid outlet 110 is opened for discharging air from the electric blower 27.

The cover 107 of the electric discharge fan can be divided into many sections, for example, the upper and lower sections or the front and rear sections, and can be made so that the electric discharge fan 27 is resiliently suspended inside by means of a suspension means, etc. (not shown). In addition, the cover 107 of the electric discharge fan itself can be resiliently supported on the lower casing 38 of the casing 25 of the main body.

Next, the operation and result of the first embodiment described above will be described.

First, as shown in FIG. 1, the dust collector 36 is fixed inside the dust collection chamber 35 of the main body 13 of the vacuum cleaner, and as shown in FIG. 4, the connecting portion 15 of the tube assembly 12 is connected to a suction port 43 of the main body 13 of the vacuum cleaner, and in a state in which the sleeve 16, the extension tube 18 and the floor brush 19 are connected in series with each other, the floor brush 19 is located on the floor surface, the grip 21 is clamped and the predetermined setting button 22 is actuated, and therefore the control part of the main body drives at action electric blower fan 27 in a given operating mode. The operator then causes the floor brush 19 to move back and forth across the floor surface through the extension tube 18 by means of a grip 21.

The negative pressure created by the actuation of the electric blower fan 27 acts on the floor brush 19 through the blower 108, the connecting hole 31, the dust collector 36, the suction hole 43 of the main body and the extension pipe 18 for drawing dust from the floor surface together with air.

This intake air becomes a suction air stream and is sucked together with the dust into the dust collector 36 from the air intake hole 71 of the dust collector 36 shown in FIG. 1 through the floor brush 19, the extension tube 18, the sleeve 16 and the suction port 43 of the main body.

This suction air stream is supplied to the first filter assembly 69 horizontally in the direction of the air suction hole 71, that is, the axial direction (arrow X direction) of the flow channel indicated by arrow W1. In this case, the frame 81 of the first filter is tilted to intersect with the direction of the hole 71 for air intake at an angle of not more than 45 degrees and, therefore, in the intake air stream elements (vectors) passing along the surface of the first filter assembly (first filter 82) along the assembly 69 of the first filter (first filter 82), there are more elements (vectors) perpendicular to the first filter 82, that is, elements passing through the first filter 82. Therefore, the suction air stream passes through the first filter 82, and most of the dust, injected by the first filter 82, is separated from the first filter 82 by the force of the suction air flow and is blown away from the air intake hole 71, and together with the dust blown away, the suction air stream is straightened along the first filter assembly 69 (the first inclined surface 86), passes circularly to the side of the closed part 68 and is placed in part 56 to contain dust. Therefore, most (coarse dust D, such as dust lumps) of dust sucked together with the suction air stream accumulates on the side of the closed part 68 from the rear end of the first filter unit 69, is separated from the first filter 82 of the first filter unit 69, and is blown away by the air stream suction, so that the state in which clogging of the first filter is reduced is maintained. Specifically, a state in which clogging of the first filter 82 is reduced is maintained, so that the suction power of the electric blower fan 27 is maintained.

When the suction air stream that has passed through the first filter 82 passes through the pleated filter 98, fine dust (finest dust), which cannot be completely captured by the first filter 82, is collected on the surface by the pleated filter 98.

Then, the suction air stream is discharged to the downstream side (to the outside) of the dust collector 36 from the outlet 93 and is sucked to the suction side of the electric discharge fan 27 through the connecting hole 31 and the discharge device 108 shown in FIG. 1 passes through the electric discharge the fan 27 when it is cooled, becomes a stream of exhaust air and is discharged from the outlet 110 of the cover 107 of the electric discharge fan, and then discharged to the outside of the main body 13 of the vacuum cleaner (casing 25 of the main body) through the outlet 49 of the main body from the compartment 28 for the electric discharge fan and the compartment for the cord reel.

When the cleaning is completed, the operator controls the setting buttons 22 shown in FIG. 4 to turn off the electric blower fan 27.

In this case, the suction air flow no longer acts, and, therefore, coarse dust D inside the dust collector 36 falls due to its own weight on the side of the node 69 of the first filter.

When a predetermined amount or more coarse dust is collected inside the dust collector 36, the operator opens the cover 40 of the main body of the housing 25 of the main body, removes the dust collector 36 from the dust compartment 35 of the main body, grabs the handle 54 and moves the dust collector 36 to a position above the waste disposal container such as a trash can. Then, by actuating the operating button 104 by the operator, the locking elements 72 and 72 disengage from the interacting parts 102 and 102, and the front end side of the cover 53 rotates downward around the pivot shaft 53a under its own weight, and the dust discharge opening 95 is opened.

In this case, as shown in FIG. 2, the first filter assembly 69, supported from below by the cover 53, loses its support from below in accordance with the opening of the cover 53 downward, and the front end side is turned down around the pivot shaft 85b due to its own weight. Therefore, the coarse dust D collected in the dust holding portion 56 on the upper side of the first filter assembly 69 falls under its own weight and is discharged into the waste discharge container on the outer side of the dust collector 36 from the dust discharge opening 95. In this case, it is preferable that the dust captured by the first filter and the pleated filter 98 of the filter housing 52 is also removed.

After dust removal, when the operator rotates the lid 53 upward, the first filter assembly 69 in contact with the lid 53 also rotates upward around the rotary shaft 85b, and in a state in which the dust discharge opening 95 is completely closed by the lid 53, i.e., in a state in wherein the locking elements 72 and 72 are engaged with the interacting parts 102 and 102 of the cover 53, the front end of the first filter frame 81 is held in contact with the inner surface of the expandable part 63 located under the front surface 65 of the main body part 61 of the casing and on the underside of the air inlet 71. According to this dust removal, the dust collecting cup 36 can be reused.

As described above, in the first embodiment, by arranging the first filter 82 on the first inclined surface 86 inclined at an angle of not more than 45 degrees with respect to the direction of the air suction hole 71 forming a flow channel containing a horizontal element, i.e., an axial direction (arrow direction X ) a flow channel, so that at least part of the first filter is located in position A of the protrusion of the shape of the hole 71 for suctioning air inside the housing 51 of the casing, the elements passing along the surface upstream of the first filter 82 of the suction air flow passing into the housing 51 of the casing in the direction of the air suction hole 71, there are more elements perpendicular to the first filter 82 (elements passing through the first filter 82), and the suction air flow quickly passes along the surface upstream of the first filter 82 and blows off dust adhering to the first filter 82. Therefore, dust hardly adheres to the first filter 82, so that suction stability can be ensured.

In addition, it is not necessary to place the entire first filter 82 adjacent to the air suction hole 71, so that the volume of the dust holding portion 56 is not reduced, a dust collecting volume can be provided, and the filter area can be increased while preventing a decrease in suction efficiency.

In particular, the first filter 82 is inclined at an angle of no more than 45 degrees with respect to the direction of the hole (axial direction of the flow channel (arrow direction X)) of the air intake hole 71, so that the plane of the protrusion of the suction air flow sucked into the inside of the housing 51 of the casing from the hole 71 for suction of air, becomes at least √2 times larger than the plane of the protrusion in the case when the first filter is located in a direction perpendicular to the direction of the hole (axial direction of the flow channel (direction the arrow X)) of the air inlet 71, the filter area can be effectively increased, and dust adherence to the first filter 82 can be effectively reduced.

By bringing the first filter frame 81 forming the first inclined surface 86 into contact with the inner surface on the side of the air inlet opening 71 of the casing 51, the suction air flow that has passed into the casing 51 from the air inlet 71 can be completely directed to the surface upstream of the first filter 82 is lossless and can effectively blow off dust from the first filter 82, so that the dust hardly adheres to the first filter 82.

Furthermore, by passing the side downstream of the first filter 82 on the first inclined surface 86 (first filter frame 81) to the side downstream than the position A of the protrusion of the shape of the air suction hole 71, dust is blown off the surface upstream of the first the filter 82 by the suction air stream, can be held in the range from the downstream side of the first filter 82 on the first inclined surface 86, where the first filter 82 is not located on the side of the closed portion 68 in a state in which the electric discharge ntilyator 27 is actuated, and can be reduced clogging of the first filter 82 fugitive dust.

The first filter 82 is located on the side of the cover 53 and is supported axially to rotate on the housing 51 of the casing, and the first filter 82 is rotated to move dust to the side of the dust discharge opening 95 in a state in which the dust discharge opening 95 is opened by the cover 53, and therefore, the first filter 82 is rotated only by opening the lid 53 and discharges the coarse dust D into the portion 56 to receive dust from the dust discharge opening 95, so that the coarse dust D inside the dust holding portion 56 can be Easy to remove.

In addition, the first filter 82 comprises an outer edge completely located on the outer side of the position A of the protrusion of the air suction hole 71, that is, in other words, the first filter 82 is made with a size covering the entire area of the position A of the protrusion of the air suction hole 71, so that the downstream side of the air suction hole 71 is not closed by the first inclined surface 86, and therefore, the pressure loss in the air passage 57 inside the housing 51 of the casing can be reduced.

Next, a second embodiment will be described with reference to FIGS. 5 and 6. Similar elements and operation, as in the first embodiment, are denoted by like reference numerals, and a description thereof will be omitted.

According to the second embodiment, unlike the first embodiment, the dividing ribs 113 and 113 are integrally formed on the first filter frame 81 of the first filter assembly 69.

Specifically, as shown in FIG. 6, these dividing ribs 113 and 113 are located on both lateral portions of the position A of the protrusion of the air suction hole 71 in the positions opposite the air suction hole 71 of the first filter 82, and a flow channel 114 having a width no smaller than the position is divided A of the protrusion inside the air channel 57. The dividing ribs 113 and 113 are made in the form of essentially regular triangles in a side view, and their upper sides are substantially horizontal. Therefore, the dividing ribs 113 and 113 are designed so that their protrusion values gradually decrease from the front side to the rear side relative to the first inclined surface 86. In addition, these dividing ribs 113 and 113 are linearly in the front-back direction from both side portions of the front the end of the first filter 82 to both side portions of the rear end.

When the electric blower fan 27 is activated for cleaning due to the negative pressure generated as a result of this actuation, as shown in FIGS. 5 and 6, dust containing air passes into the housing 51 of the casing (dust holding portion 56) from the air intake hole 71 (arrow W1).

This suction air stream, which has passed into the housing of the casing, is straightened along the dividing ribs 113 and 113 to the first filter 82, reliably separates the dust adhering to the first filter 82, deflates it, and reduces clogging of the first filter 82.

Thus, in accordance with the second embodiment, by forming dividing ribs 113 and 113 that divide the flow channel 114 with a width not less than the position A of the protrusion of the shape of the air intake hole 71 on the side of the inner surface of the casing 51 in the positions opposite to the suction hole 71 air of the first filter 82, the suction air stream can be reliably directed to the first filter 82 through the flow channel 114, and dust adhering to the first filter 82 can be more effectively blown off by the air stream suction.

Next, a third embodiment will be described with reference to FIG. 7. Similar elements and operation, as in the embodiments described above, are denoted by similar reference numerals, and their description will be omitted.

According to a third embodiment, the first filter assembly 69 of the first embodiment is disposed integrally with the lid 53.

Specifically, the first filter assembly 69 covers the upper portion of the lid 53 and is attached to the lid 53 for rotation as a unit with the lid 53.

Therefore, after the cleaning is completed, to remove dust trapped in the dust collector 36, when the operator grabs the handle 54, moves the dust collector 36 to a position above the waste disposal container, such as a dustbin, and actuates the operation button 104, the locking elements 72 and 72 are disengaged from the interacting parts 102 and 102, and the cover 53 and the side of the front end of the first filter assembly 69 are turned down by their weights around the rotary shaft 53a, and therefore, the dust discharge opening 95 is opened. As a result, the coarse dust D collected in the dust holding portion 56 above the first filter assembly 69 falls due to its own weight and is discharged into the garbage discharge container on the outside of the dust collector 36 from the dust discharge opening 95.

Therefore, by attaching the first filter assembly 69 (first filter 82) to the lid 53, dust collected in the dust collector 36 can be easily removed only by opening the lid 53.

The third embodiment may be combined with the second embodiment.

In the embodiments described above, the front end (lower end) side of the first filter 82 is optionally in contact with the front surface 65 while it is located on the outer side (lower side) of the lower end of the position A of the protrusion of the air intake hole 71.

In addition, the enclosed portion 68 may be configured to include a dust filter, which is a filter, to trap dust by allowing the suction air to pass through. In this case, the filter area of the dust collector 36 can be further increased, and its role can be shared with the first filter 82 to ensure stable suction, so that a more efficient dust collection is carried out.

The first filter assembly 69 may be configured to discharge dust from the dust discharge opening 95 due to movements other than rotation. Similarly, the lid 53 may be configured to open and close the dust discharge opening 95 due to movements other than rotation. In addition, the node 69 of the first filter and the cover 53 can be made without the possibility of movement (rotation).

Next, a fourth embodiment will be described with reference to FIGS. 8 and 9. Similar elements and operation, as in the embodiments described above, are denoted by similar reference numerals, and a description thereof will be omitted.

According to a fourth embodiment, inside part 61 of the main body of the casing of the casing 51 of the casing of the first embodiment, one air channel 117 and another air channel 118 through which the suction air flow is separated, and the second filter assembly 121 is fixed in place of the closed part 68.

The first filter assembly 69 includes a flat first filter 82, which is a filter as a mesh (one) primary filter, and is located on the lower side on the side of the cover 53 relative to the second filter assembly 121.

The second filter assembly 121 includes a second filter frame 123 made of rigid synthetic plastic, etc., in a plate shape, and a flat second filter 124, which is a filter filter, as a mesh (other) primary filter attached to the frame 123 second filter. Between the second filter unit 121 and the first filter unit 69, the dust holding portion 56 is divided.

The second filter frame 123 forms a second inclined surface 126 to which a second filter 124 is attached. This second filter frame 123 contains an outer peripheral edge that fits snugly against the inner surface of part 61 of the main body of the casing. This second filter frame 123 is made in the form of a grill including a plurality of second ventilation holes 123a as ventilation holes for forming another air channel 118 connecting the upstream side and the downstream side of the second filter 124, and has a flat shape. This second filter frame 123 (second inclined surface 126) is positioned to intersect with the frame 81 of the first filter frame (first inclined surface 86) at an angle of not more than 90 degrees and is adjacent to the first filter frame 81 (first inclined surface 86). Therefore, the second filter frame 123 is positioned to tilt downward from the front side to the rear side. In addition, the upper end as the front end of the frame 123 of the frame of the second filter is in contact with the inner surface of the lower portion on the front side of the upper surface 66 of the portion 61 of the main body of the casing. The lower end side as the side of the rear end of the second filter frame 123 is in airtight contact with the upper end of the first filter frame frame 81, the lower end of the second filter frame 123 protrudes more backward than the upper end of the first filter frame part 81, and is located in front of part 62 for fixing the filter housing. This second filter frame 123 is located on the outer side (upper side) of the protrusion position A of the shape of the air suction hole 71, that is, in the position excluding the protrusion position A. Therefore, the dust holding portion 56 is long in the front and back direction and is divided for opening and expanding in the up and down direction to the front side as the upstream side from the rear side as the downstream side.

The second filter 124 is located to close the second ventilation holes 123a. In other words, the second filter 124 is positioned on the outside of the protrusion position A of the shape of the air suction hole 71, that is, in the position excluding the protrusion position A. As long as the main portion, that is, 50% or more of the area of the second filter 124, is located in the position excluding the protrusion position A, the same work and the result can be obtained even if the rest is located within the protrusion position A.

The filter housing 52 is located on the downstream side of the filters 82 and 124 and is connected to the side of the air intake hole 71 through the air ducts 117 and 118.

One air passage 117 is an air passage for flowing from the air suction port 71 to the dust discharge port 95 through the first air vents 84a and 85a (first filter 82) and the filter housing 52 (pleated filter 98). The other air channel 118 is an air channel for flow from the air suction port 71 to the exhaust port 93 through the second air vents 123a (second filter 124) and the filter housing 52 (pleated filter 98) through the upstream side of the first filter assembly 69 (first inclined surface 86).

Next, the operation and result of the fourth embodiment will be described.

When the operator places the floor brush 19 on the floor surface, clamps the grip 21 and actuates the predetermined setting buttons 22, the control part of the main body controls the electric blower fan 27 in a predetermined operating mode, and when the floor brush 19 is moved forward and backward along the floor surface with capture 21 through the extension tube 18, the negative pressure created by driving the electric blower fan 27 acts on the floor brush 19 through the blower trinity 108, a connecting hole 31, a dust collector 36, a suction hole 43 of the main body, a sleeve 16 and an extension tube 18 and sucks dust from the floor surface together with air, and the sucked air becomes a suction air stream and is sucked together with the dust from the floor brush 19 in the dust collecting cup 36 from the air suction hole 71 of the dust collecting cup 36 shown in FIG. 8 through the extension tube 18, the sleeve 16 and the suction opening 43 of the main body.

This suction air flow passes to the first filter assembly 69 horizontally along the direction of the air suction hole 71, that is, along the axial direction of the flow channel, as shown by arrow W2 in FIG. In this case, the frame 81 of the first filter is tilted to intersect with the direction (axial direction of the flow channel (arrow direction X)) of the hole 71 for suctioning air at an angle of not more than 45 degrees, so that elements (vectors) passing through the surface of the assembly 69 in the suction air stream of the first filter (first filter) along the node 69 of the first filter (first filter 82), there are more elements (vectors) perpendicular to the first filter 82, that is, elements passing through the first filter 82. Therefore, most of the dust is captured of the first filter 82, when the suction air stream passes through the first filter 82, is separated from the first filter 82 and deflates in the direction from the air suction hole 71 by the suction air stream, and the suction air stream is straightened along the first filter assembly 69 (first inclined surface 86) and passes to the side of the second filter assembly 121 along with the dust blown away.

In addition, the suction air stream rotates upward from the rear end side of the first filter assembly 69 and passes through the second filter 124 of the second filter assembly 121. In this case, dust is captured. Therefore, most (coarse dust D, such as dust lumps) of dust sucked together with the suction air stream is collected on the side of the second filter assembly 121 from the rear end of the first filter assembly 69, the dust is separated from the first filter 82 of the first filter assembly 69 and blown away suction air flow, and clogging of the first filter 82 is reduced. Therefore, the suction air flow generated by driving the electric blower fan 27 is diverted to the side of the first filter 82, clogging of which is reduced even if the second filter 124 clogs over time, so that the suction power of the electric blower fan 27 is maintained. Specifically, the first filter 82 is used mainly as a filter to maintain suction power, and the second filter 124 is mainly used as a filter to capture dust.

When a portion of the suction air stream (side of one air channel 117) that passed through the first filter 82 and the suction air stream (side of the other air channel 118) that went through the second filter 124 passes through the pleated filter 98, fine dust (microscopic dust ), which may not be fully captured by filters 82 and 124, is collected from the surface by pleated filter 98.

After that, the suction air stream flows to the downstream side (to the outside) of the dust collector 36 from the outlet 93, is sucked on the suction side of the electric blower fan 27 through the connecting hole 31, and the blower 108 shown in FIG. 8 becomes an outlet stream air when passing through the electric discharge fan 27 when cooling the electric discharge fan 27 and leaves the outlet 110 of the cover 107 of the electric load fan, and then goes to the outside of the main body 13 of the vacuum cleaner (casing 25 of the main body) through the outlet 49 of the main body from the compartment 28 for the electric blower fan and the compartment for the cord reel.

When the cleaning is completed, the operator activates the setting buttons 22 to turn off the electric discharge fan 27.

In this case, the suction air flow no longer acts, so that coarse dust D in the dust collector 36 falls due to its own weight on the side of the first filter assembly 69 and fits into the dust collecting part 56 between the first filter assembly 69 and the second filter assembly 121.

When a predetermined amount or more coarse dust is collected in the dust collector 36, the operator opens the cover 40 of the main body of the housing 25 of the main body, removes the dust collector 36 from the dust compartment 35 of the main body, grabs the handle 54 and moves the dust collector 36 to a position above the garbage disposal container such as a trash can. Then, by actuating the operating button 104 by the operator, the locking elements 72 and 72 disengage from the interacting parts 102 and 102, and the front end side of the cover 53 rotates downward around the pivot shaft 53a due to its own weight, and therefore, the dust discharge opening 95 is opened.

In this case, as shown in FIG. 9, the first filter assembly 69 supported from below by the cover 53 loses support from below in accordance with the opening of the cover 53 downward, and the side of the front end of the cover 53 rotates downward around the rotary shaft 53a due to its own weight, and, therefore, the dust discharge opening 95 is opened.

In this case, as shown in FIG. 9, the first filter assembly 69 supported from below by the cover 53 loses its support from below in accordance with the opening of the cover 53 downward, and the front end side is turned down around the rotary shaft 85b due to its own weight. Therefore, the coarse dust D collected in the dust holding portion 56 between the upper side of the first filter assembly 69 and the lower side of the second filter assembly 121 falls due to its own weight and is discharged from the dust discharge opening 95 into a waste discharge container on the outside of the dust collector cup 36. In this case, it is preferable that the dust captured by the filters 82 and 124 and the pleated filter 98 of the filter housing 52 is also removed.

After dust removal, when the operator rotates the lid 53 upward, the first filter assembly 69 in contact with the lid 53 also rotates upward around the rotary shaft 85b, and in a state in which the dust discharge opening 95 is completely closed by the lid 53, that is, in a state in which the locking elements 72 and 72 are engaged with the interacting parts 102 and 102 of the cover 53, the front end of the first filter frame 81 is held in contact with the inner surface of the expandable part 63 located under the front surface 65 of the main body part 61 of the skin and on the lower side of the opening 71 for air suction. According to this dust removal, the dust collecting cup 36 can be reused.

As described above, in the fourth embodiment, by arranging the first filter 82 on the first inclined surface 86 inclined at an angle of not more than 45 degrees with respect to the direction of the air suction hole 71 on the side of the inner surface of the housing 51, that is, with respect to the axial direction (arrow direction X ) the flow channel, so that at least a portion of the first filter 82 is located in position A of the protrusion of the shape of the air inlet 71, elements passing up the surface of the stream the first filter 82 of the suction air stream, which has passed into the housing 51 of the casing along the direction of the air suction hole 71, has more elements perpendicular to the first filter 82 (elements passing through the first filter 82), and the suction air stream travels quickly along the surface up downstream of the first filter 82 and blows off dust adhering to the first filter 82. Therefore, the dust hardly adheres to the first filter 82, and even if the side of the second filter 124 (another air channel 118) is blocked, the air flow sasyvaniya may be diverted to one side of the air duct 117 so that suction resistance can be provided.

By arranging the second filter 124 on the second inclined surface 126 located along a direction crossing the first inclined surface 86, together with the suction air stream, straightened to pass in the same direction along the first filter 82 by the first filter 82, the dust contained in this suction air stream, and dust blown from the first filter 82 collides with the side of the second filter 124 appropriately and can be effectively captured by this side of the second filter 124.

Therefore, it is not necessary to place the entire first filter 82 adjacent to the air intake hole 71, so that the volume of the dust holding portion 56 is not reduced, a dust collecting volume can be provided, and the filter area can be increased by the first filter 82 and the second filter 124, while preventing decrease the efficiency of absorption.

By arranging the entire second filter 124 in the portion excluding the position A of the protrusion, the suction air flow that has passed into the casing body 51 from the air suction hole 71 does not pass directly to the second filter 124, so that clogging of the second filter 124 can be prevented initially.

Furthermore, by passing the side downstream of the first filter 82 on the first inclined surface 86 (first filter frame 81) to the side downstream than the position A of the protrusion of the shape of the air suction hole 71, in a state in which the electric blowing fan 27 is driven in action, dust blown from the surface upstream of the first filter 82 by the suction air stream can be held in the range from the side downstream of the first filter on the first inclined surface 86, where the first filter 82 is not located women on the side of the second inclined surface 126, and clogging of the first filter 82 of this contracted dust can be reduced.

By arranging the frame 81 of the first filter forming the first inclined surface 86 and the part 123 of the frame of the second filter forming the second inclined surface 126 for intersecting with each other at an angle of not more than 45 degrees, dust blown away without sticking to the first filter 82 collides with the second filter 124 when crossing at an angle of no more than 45 degrees and is reliably captured by the second filter 124, so that dust can be more effectively collected without hovering inside the housing 51 of the casing (part 56 for holding dust).

In addition, the second filter 124 has a surface direction inclined downward, while the dust discharge opening 95 is turned down, so that when the lid 53 is open and the first filter 82 is turned, coarse dust D inside the dust holding portion 56 located between the second filter 124 and the first filter 82, can easily fall from the hole 95 for unloading dust.

In addition, the first filter 82 contains an outer edge completely located more on the outer side than in the position A of the protrusion of the air suction hole 71, that is, the first filter 82 is made with a size covering the entire area of the position of the protrusion A, so that the side is downstream the air inlet openings 71 are not covered by the first inclined surface 86, and pressure losses in the air channels 117 and 118 inside the housing 51 of the casing can be reduced.

Next, a fifth embodiment will be described with reference to FIG. 10. Similar elements and operation, as in the embodiments described above, are denoted by similar reference numerals, and their description will be omitted.

According to the fifth embodiment, in contrast to the fourth embodiment, the second filter assembly 121 (second filter 124) is supported axially to rotate on a portion 61 of the main body of the housing of the housing 51 of the housing as a unit with the node 69 of the first filter (first filter 82) .

Specifically, the rear end (lower end) of the frame 123 of the second filter 121 is connected integrally with the rear end (upper end) of the frame 85 of the first filter of the rear side of the frame 81 of the first filter. The lower end of the frame 123 of the second filter 121 becomes a rotatable shaft 123b rotatably supported in the axial direction, and is compressed by means of a filter preload such as a torsion spring (not shown). Therefore, the second filter assembly 121 and the first filter assembly 69 are pushed in a downward direction, that is, in a direction opposite to the upstream side of the second filter 124 to the dust discharge hole 95, while the predetermined intersection angle between these filter assemblies is maintained.

Then, as shown by the imaginary line in FIG. 10, in a state in which the dust discharge opening 95 is closed by the cover 53, the cover 53 supports the first filter assembly 69 from below, and therefore, the second filter assembly 121 is also indirectly supported when crossing with the assembly 69 the first filter at a given angle and is blocked from rotation. Therefore, the second filter assembly 121 is blocked from rotation by counteracting the pressing of the cover 53 in a position in which it is able to rotate to the side of the dust discharge opening 95, that is, in this embodiment, on the end side opposite the side of the dust discharge opening 95 in the rotation range of the assembly 121 of the second filter, specifically on the side of the pivot position.

When a predetermined amount or more coarse dust D is collected in the dust holding portion 56 in accordance with the operation of the electric vacuum cleaner 11, the operator opens the cover 40 of the main body of the casing 25 of the main body, removes the dust container 36 from the dust collection compartment 35 of the main body, grabs the handle 54 and transfers the dust collector 36 is in a position above the waste disposal container, such as a dustbin. Then, by actuating the operating button 104 by the operator, the locking elements 72 and 72 are disengaged from the interacting parts 102 and 102, and, as shown by the solid line in FIG. 10, the front end side of the cover 53 is rotated down around the rotary shaft 53a under its own weight, and the dust discharge opening 95 is opened.

In this case, the first filter assembly 69 and the second filter assembly 121, supported from below by the cover 53, lose their support in accordance with the opening of the cover 53 downward and turn to the lower side on the side of the dust discharge opening 95 by compressing the filter by means of the filter preload, and therefore the coarse dust D collected in the dust holding portion 56 is pushed out and discharged from the dust discharge opening 95 into a waste discharge container on the outside of the dust collector 36 by the second filter assembly 121.

Thus, in the fifth embodiment, the second filter 124 (second filter assembly 121) is axially rotatably supported in the casing 51, by rotating the second filter 124 to position the side upstream of the dust discharge opening 95 in wherein the dust discharge opening 95 is opened by the cover 53, when the cover 53 is open to remove dust, the coarse dust D collected in the dust holding portion 56 is pushed out from the dust discharge opening 95 by the second filter 124, so that the dust Jette removed more efficiently.

In addition, the second filter 124 (second filter assembly 121) is pressed against the side of the dust discharge opening 95, and in a state in which the dust discharge opening 95 is closed by the cover 53, the rotation of the second filter 124 (second filter assembly 121) is blocked, preventing the compression in a position in which the second filter assembly 121 is able to rotate to the side of the dust discharge opening 95, and therefore, when the lid 53 is opened, the second filter 124 (second filter assembly 121) quickly rotates to the side of the dust discharge opening 95 when pressed, so what to particulate dust D collected in the dust holding portion 56 can more effectively be pushed out from the dust discharge opening 95.

In the fifth embodiment described above, the first filter assembly 69 and the second filter assembly 121 can be independently rotated relative to each other. In this case, by separately setting the support means that supports the second filter assembly 121 in a state in which the dust discharge opening 95 is closed by the cover 53, and blocks the rotation of the second filter assembly 121 in a position in which the second filter assembly 121 is able to rotate to the side of the hole 95 for dust discharge, the same operation and result as in the second embodiment can be obtained.

The second filter assembly 121 may be rotatable by, for example, its own weight.

Next, a sixth embodiment will be described with reference to FIG. 11. Similar elements and operation, as in the embodiments described above, are denoted by similar reference numerals, and their description will be omitted.

According to a sixth embodiment, the fourth embodiment described above combines the dividing ribs 113 of the second embodiment, specifically the dividing ribs 113 and 113 are integrally formed on the first filter frame 81 of the first filter assembly 69.

When the electric blower fan 27 is activated for cleaning, due to the negative pressure generated by this actuation, as shown in FIG. 11, air containing dust passes into the housing 51 of the casing (dust receiving part 56) from the opening 71 for dust intake (arrow W1).

This suction air stream that has entered is straightened along the separation ribs 113 and 113 to the first filter 82 and reliably separates the dust adhering to the first filter 82, deflates it and reduces clogging of the first filter 82.

Thus, in accordance with the sixth embodiment, due to the formation of dividing ribs 113 and 113 that separate the flow channel 114 having a width of at least a position A of the protrusion of the shape of the air suction hole 71 on the side of the inner surface of the casing 51 in the positions opposite to the hole 71 to suck in the air of the first filter 82, the suction air stream can be reliably directed to the first filter 82 through the flow channel 114 and can more effectively blow off dust adhering to the first filter 82.

In the embodiments described above, the compartment for the cord reel, the power cord, the cord reel, etc., are not important elements. That is, the electric vacuum cleaner 11 may be configured such that the electric blower fan 27 is supplied with electric power from a battery, such as a secondary battery.

As an electric vacuum cleaner 11, any electric vacuum cleaner, such as a vertical type and a portable type, in which the floor brush 19 is connected to the lower portion of the main body 13 of the vacuum cleaner, can be used, and the elements inside the main body 13 of the vacuum cleaner are not limited to the configuration described above.

Claims (11)

1. A dust collecting device comprising a housing of a casing including an opening for suctioning air, forming a flow channel containing a horizontal element, and an outlet opening formed in a position opposite the opening for sucking air; and a first filter, which is installed inside the housing of the casing and is located on the first surface, inclined at an angle of not more than 45 ° relative to the axial direction of the flow channel, and at least a portion of which is located in the protrusion shape of the holes for air intake. 2. The dust collecting device according to claim 1, in which the first inclined surface is in contact with the inner surface on the side of the air inlet opening of the housing of the casing. 3. The dust collecting device according to claim 1, wherein the downstream side of the first filter on the first inclined surface extends to the side even lower downstream than the position of the protrusion of the shape of the air inlet opening. 4. A dust collecting device according to any one of claims 1 to 3, comprising a dividing rib for dividing the flow channel with a width not less than the position of the protrusion of the shape of the air inlet opening on the side of the inner surface of the housing of the casing in positions opposite the air inlet opening of the first filter. 5. The dust collecting device according to any one of claims 1 to 3, in which the casing body includes a hole for unloading dust for unloading dust to the outside in its lower part and a cover for opening and closing a hole for unloading dust, and the first filter is located on side of the lid and is supported in the axial direction with the possibility of rotation on the lid body and rotates to move dust to the side of the dust discharge opening in a state in which the dust discharge opening is opened by the cover. 6. The dust collecting device according to claim 5, in which the first filter is attached as a unit to the lid. 7. A dust collecting device according to any one of claims 1 to 3, comprising a second filter disposed on a second inclined surface located in a direction perpendicular to the first inclined surface. 8. The dust collecting device according to claim 7, in which the first inclined surface and the second inclined surface are arranged to intersect with each other at an angle of not more than 90 °. 9. The dust collecting device according to claim 7, wherein the second filter is supported axially to rotate on the housing of the casing and rotates to position the side upstream of the dust discharge opening in a state in which the dust discharge opening is opened by the lid. 10. The dust collecting device according to claim 9, in which the second filter is pressed against the side of the dust discharge opening and is prevented from turning, counteracting compression in a position in which it is able to rotate to the side of the dust discharge opening in a state in which the dust discharge opening closed by a lid. 11. An electric vacuum cleaner comprising a main body of a vacuum cleaner containing an electric discharge fan, and a dust collecting device according to any one of claims 1 to 10, located in the main body of the vacuum cleaner, so that the outlet is connected to the suction side of the electric discharge fan.

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