JP6690911B2 - Vacuum cleaner - Google Patents

Description

  The embodiment of the present invention includes a first centrifugal separation unit that centrifuges dust, and a plurality of second centrifugal separation units that centrifuge dust smaller than dust separated by the first centrifuge unit. The present invention relates to an electric vacuum cleaner.

  Conventionally, as a dust collecting device (dust collecting cup) used in an electric vacuum cleaner, a first centrifugal separation unit for centrifugally separating coarse dust, which is a relatively large dust, is connected to a downstream side of the first centrifugal separation unit for comparison. Some include a plurality of second centrifuge units that centrifuge fine dust, which is extremely small dust. By providing the centrifugal separation unit for centrifugally separating different kinds of dust, the maintenance frequency and labor required by the user have been reduced.

  However, the second centrifugal separation unit has a smaller diameter and a larger flow velocity than the first centrifugal separation unit, and is a source of relatively large fluid noise. Therefore, it is desired to reduce the noise generated in these second centrifugal separation units.

JP, 2010-201167, A

  The problem to be solved by the present invention is to provide an electric vacuum cleaner that can suppress noise while sanitizingly discarding dust while efficiently collecting dust using the first centrifugal separator and the plurality of second centrifugal separators. Is to provide.

The electric vacuum cleaner according to the embodiment includes a cleaner body including an electric blower, and a dust collector that separates and collects dust from dust-containing air sucked by driving the electric blower. The dust collector includes a first centrifugal separator, a plurality of second centrifugal separators, a first dust collector, and a second dust collector. The first centrifugal separation unit has a case body and a separation unit main body. The separation part main body includes a first cylindrical part formed in a substantially cylindrical shape having a ventilation opening on the peripheral surface. Further, the separation part main body includes a cylindrical separator part located below the first cylindrical part. Furthermore, the separating part main body includes a cylindrical partition part located below the first cylindrical part. The separating portion main body is housed in the case body, and the lower end side of the partition wall portion is in close contact with the case body. The first centrifuge section swirls dust-containing air around the first cylindrical section along the inner surface of the case body to centrifuge the dust. The second centrifugal separation unit has a second cylindrical portion. The second cylindrical portion communicates with the first centrifugal separation portion in parallel, and is formed into a substantially cylindrical shape having a smaller diameter dimension than the first cylindrical portion. Then, the second centrifuge section swirls the dust-containing air that has passed through the first centrifuge section along the inner surface of the second cylindrical section to centrifuge dust smaller than the dust centrifugally separated in the first centrifuge section. To do. The first dust collecting unit collects the dust centrifugally separated by the first centrifugal separating unit. The second dust collecting portion collects the dust centrifugally separated by each second centrifugal separating portion. In addition, each second centrifugal separation unit is covered with the separator unit and the partition wall unit, and is located inside the separator unit and the partition wall unit. Then, the first dust collecting portion and the second dust collecting portion are partitioned into the outside and the inside of the separating portion main body by the close contact between the partition wall portion and the case body.

It is isometric view sectional drawing of the dust collector of the vacuum cleaner of one embodiment. It is a cross-sectional view of the same dust collector. It is a perspective view which shows the operation state of a dust collector at the time of discarding dust of a dust collector same as the above. It is an exploded perspective view of a dust collector same as the above. It is a perspective view of an electric vacuum cleaner same as the above.

  The configuration of one embodiment will be described below with reference to FIGS. 1 to 5.

  In FIG. 5, reference numeral 11 denotes a so-called canister-type electric vacuum cleaner. In the electric vacuum cleaner 11, a pipe section 12 which is a suction air duct body (air duct forming body) and the pipe section 12 are detachably connected. The main body 13 of the vacuum cleaner.

  The pipe portion 12 is provided on the connection pipe portion 15 connected to the cleaner body 13, the flexible hose body 16 communicating with the tip end side of the connection pipe portion 15, and the tip end side of the hose body 16. A hand operation unit 17, an extension pipe 18 detachably connected to the tip side of the hand operation unit 17, and a floor brush 19 as a suction port body detachably connected to the tip side of the extension pipe 18 and the like. It has and.

  A loop-shaped grip portion 21 projects toward the hose body 16 side of the hand-side operation portion 17, and a plurality of setting buttons 22 for operation are provided on the grip portion 21.

  Further, as shown in FIGS. 1 to 5, the cleaner main body 13 includes a main body case 26 having large-diameter traveling wheels 23 on both sides and a swivel wheel (not shown) at the bottom. A dust collecting device 27, which is a dust collecting cup, is attachable to and detachable from the upper part of the front side. The cleaner body 13 is configured to be able to travel (move) on the floor surface that is the surface to be cleaned at least along the front-rear direction by the traveling wheels 23 and the turning wheels. In the following, the front-back direction is based on the traveling (moving) direction of the cleaner body 13 (main body case 26).

  The main body case 26 is made of, for example, a synthetic resin, and supports the main body portion 31 located behind the dust collector 27 and the lower portion of the front portion of the main body portion 31 so as to support the lower portion of the dust collector 27. And a projecting receiving portion 32 as a dust collecting device supporting portion.

  Travel wheels 23 are rotatably supported on both sides of the main body 31. Further, inside the main body portion 31, an electric blower 35, a control circuit portion as a control means (not shown) for controlling the operation of the electric blower 35, and a power source for the electric blower 35 and the control circuit portion. The department is accommodated. As the power source unit, a cord reel device around which a power cord connected to an external power source such as a commercial AC power source is wound, or a battery such as a secondary battery is used.

  Further, a communication opening (not shown) that is airtightly connected to the upstream side of the dust collector 27 attached to the body case 26 is formed in the lower portion of the front portion of the body portion 31, and the upper portion of the body portion 31 is formed. An air intake opening (not shown) that connects the downstream side of the dust collector 27 mounted on the main body case 26 and the suction side of the electric blower 35 is formed. An exhaust hole (not shown) for exhausting exhaust gas from the electric blower 35 is formed in the rear portion of the main body portion 31.

  Further, the main body suction port 41 for sucking the dust-containing air into the dust collecting device 27 is formed on the front surface of the protrusion receiving portion 32 by connecting the connecting pipe portion 15 of the pipe portion 12. The main body suction port 41 communicates with the communication opening. Therefore, the main body suction port 41 can communicate with the upstream side of the dust collecting device 27 mounted on the main body case 26.

  The operation of the electric blower 35 is controlled by the control circuit unit according to the operation of the setting button 22. In this embodiment, the electric blower 35 is arranged, for example, with the suction side as the upper side.

  Further, the control circuit unit is electrically connected to the setting button 22, the operation mode set by the operation of the setting button 22 (for example, strong mode, medium mode, weak mode, automatic mode, stop mode, etc.) It is configured to set the operation of the electric blower 35.

  On the other hand, the dust collecting device 27 includes a case body 45 that is a housing portion that serves as a first body portion, and a separator 46 that is a dust separating portion that serves as a second body portion that is housed inside the case body 45. ing. Then, the dust collector 27 is provided with a first centrifugal separator 47 for mainly centrifuging relatively large dust, that is, coarse dust, which is a part of the dust in the dust-containing air sucked by the drive of the electric blower 35. A plurality of second centrifuge units 48 for centrifuging relatively small dust that is the remaining dust that cannot be separated by the first centrifuge unit 47, that is, fine dust (fine dust), is configured. The dust collecting device 27 is detachably locked to the body case 26 by a detaching mechanism (not shown). In addition, the front and rear direction and the left and right direction of the dust collector 27 are based on the state of being attached to the main body case 26, and the vertical direction is the state where the dust collector 27 is removed from the main body case 26 and placed on a horizontal surface, that is, The dust collector 27 (state shown in FIG. 1) is used as a reference. In the present embodiment, the dust collector 27 is mounted so that the upper end side, which is one end side, inclines rearward with respect to the main body case 26. Therefore, the dust collector 27 is mounted in the vertical direction described below. When mounted on 26, it may not always coincide with the vertical direction.

  The case body 45 is a portion forming an outer shell of the dust collector 27, and is formed in a hollow, substantially cylindrical shape. In the present embodiment, the case body 45 is a case body 51 which is a cylindrical housing body, and a cover portion 52 as a ceiling part attached to an upper end which is one end of the case body 51, The lid body 53 is provided as a bottom portion that opens and closes a lower end portion that is the other end portion of the case body 51. In addition, an inlet 54 for sucking dust-containing air is opened at the rear of the case body 45 at a position biased to one side, for example, the right side. Further, at the rear part of the case body 45, an exhaust part 55 for discharging the air from which dust has been separated is provided at the upper part.

  The case body 51 is formed of a member such as a translucent (transparent) synthetic resin. An introduction port 54 is arranged in the case body 51.

  The cover portion 52 is formed in a substantially circular plate shape, and hermetically closes the upper end portion of the case body 51. An exhaust part 55 is arranged in the cover part 52. The cover portion 52 may be integrated with the case body 51 or may be a separate body.

  The lid 53 has a substantially circular dish-shaped lid main body 57, a cylindrical receiving portion 58 arranged concentrically with the lid main body 57, and the lid 53 rotatable on the case main body 51. And a hinge part 59 for supporting the shaft. Further, although not shown, a sealing member that is airtightly pressed against the lower end portion of the case body 51 is provided on the lid 53, and a locking mechanism for locking the lid 53 to the case body 51. Is provided.

  The receiving portion 58 supports the separating body 46 from below in a state where the lid body 53 is closed, and is provided at a central portion on the upper side of the lid body 57.

  The hinge part 59 is provided on one side of the lid body 57, etc., and connects the lid 53 and the case body 51.

  The seal member is arranged along the outer edge of the lid main body 57 and the like.

  The locking mechanism is provided, for example, on the other side of the lid body 57 opposite to the hinge 59. In this locking mechanism, the locking of the lid 53 with respect to the case body 51 can be released by the operation of an operation unit (not shown).

  The introduction port 54 is provided at a position facing the main body 31 with the dust collector 27 attached to the main body case 26. The introduction port 54 extends rearward in a substantially horizontal shape, and is airtightly connected to the communication opening with the dust collector 27 attached to the main body case 26. Therefore, the introduction port 54 is airtightly connected to the main body suction port 41 (via the communication opening).

  The exhaust part 55 is extended in a cylindrical shape from the substantially central part of the cover part 52 toward the rear, and the front end side becomes an exhaust port 55a facing the main body part 31 with the dust collector 27 attached to the main body case 26. ing.

  On the other hand, the separation body 46 includes a separation part main body 61, a plurality of introduction parts 62 accommodated inside the separation part main body 61, cone parts 63 as a plurality of second cylindrical parts, and discharges as a plurality of discharge parts. And a tubular portion 64. The separating body 46 is detachably fixed to the case body 51 of the case body 45 or the cover portion 52.

  The separation part main body 61 constitutes the first centrifugal separation part 47 together with the case body 45, and includes a shroud part 66 as a first cylindrical part, a separator part 67, a collecting wall part 68 as a partition part, and exhaust air. And a road portion 69. Further, the separation part main body 61 is arranged inside the case body 45 along the central axis of the case body 45, and is located at the lower end side (lower end part) with respect to the case body 45 (the lid body 53 (receiving part 58)). ) Is closely attached and supported. Therefore, the separation unit main body 61 is in close contact with the case body 45, so that the dust (coarse dust) centrifugally separated by the first centrifugal separation unit 47 is accumulated between the separation unit body 61 and the case body 45. The first storage section 70 as a second storage section and the second storage section 71 as a second dust collection section for storing the dust (fine dust) centrifugally separated by each second centrifugal separation section 48 are divided into the outside and the inside. Then, the separation part main body 61 is divided into a first structure part 73 integrally including a shroud part 66, a separator part 67, and an exhaust air duct part 69, and a second structure part 74 constituting a collecting wall part 68. ing.

  The shroud portion 66 serves as a swirl center of the first centrifugal separation portion 47 and forms a swirl air passage 76 for swirling the dust-containing air between the outer periphery and the inner peripheral surface 45a of the case body 45 (around). is there. The shroud portion 66 is formed in a cylindrical shape having an axial direction along the up-down direction, and is coaxially located at the center of the case body 45. Further, the shroud portion 66 is arranged at a height position substantially equal to that of the introduction port 54. Further, the shroud portion 66 is provided with a plurality of ventilation openings 77 on its peripheral surface, a partition portion 78 is provided between adjacent ventilation openings 77, 77, and each ventilation opening 77 is covered with a separation filter 79. ing.

  The ventilation opening 77 penetrates the peripheral surface of the shroud portion 66 so that the outer peripheral side (the swirling air passage 76) and the inner peripheral side of the shroud portion 66 communicate with each other, and is formed, for example, in a vertically long rectangular shape. A plurality of shroud portions 66 are opened in the circumferential direction of the shroud portion 66 at substantially equal intervals. For this reason, each partition 78 is in the shape of a grid (connector) that is elongated along the up-down direction and is positioned at substantially equal intervals in the circumferential direction of the shroud 66.

  The separation filter 79 is, for example, a mesh filter or the like, and filters and separates dust in the dust-containing air passing through the ventilation opening 77.

  The separator part 67 divides the inside of the case body 45 into a swirling air passage 76 and a first reservoir part 70 in the vertical direction. The separator portion 67 is adjacent to the lower end portion of the shroud portion 66. That is, the separator portion 67 is located below the shroud portion 66. Further, the separator portion 67 is formed in a cylindrical shape having a diameter larger than that of the shroud portion 66 and having an axial direction along the vertical direction, and is arranged coaxially with the shroud portion 66. That is, the separator portion 67 includes a circular flat plate-shaped top plate portion 81 and a substantially cylindrical peripheral plate portion 82 that protrudes downward from the outer edge portion of the top plate portion 81 on the side opposite to the shroud portion 66. I have it. The separator portion 67 is provided with a rectifying portion 83 that rectifies the dust-containing air passing from the swirling air passage 76 to each second centrifugal separation portion 48 through the ventilation opening 77.

  The top plate portion 81 is located so as to cover the lower end portion of the shroud portion 66. The top plate portion 81 has a larger diameter dimension than the shroud portion 66, and the outer edge portion thereof projects radially outward with respect to the shroud portion 66. In the top plate portion 81, for example, a plurality of opening portions 85 are opened at positions inside the shroud portion 66. These openings 85 allow dust-containing air that has passed from the swirling air passage 76 to the inside of the shroud portion 66 via the ventilation opening 77 (separation filter 79) to the inside of the separator portion 67 (each second centrifugal separation portion 48 ( It is introduced into each cone portion 63)), and is formed in a circular shape, for example, and is symmetrically arranged in the top plate portion 81. In these openings 85, the central portion of the top plate portion 81, that is, the central opening portion 85a arranged on the central axis of the shroud portion 66, and the outer periphery around the central opening portion 85a, that is, the shroud portion 66 A plurality of outer openings 85b are set on the same circle in the vicinity of the inner periphery and are spaced apart from each other.

  The rectifying portion 83 includes a portion of the top plate portion 81 located on the inner peripheral side of the shroud portion 66, and each opening portion 85. That is, the rectifying section 83 connects the ventilation opening 77 and each of the second centrifugal separating sections 48.

  The collecting wall portion 68 is a substantially cylindrical upper wall portion 87 serving as a partition wall body, and a reduced diameter portion serving as a dust guide portion that is continuous with the lower end portion of the upper wall portion 87 and reduces in diameter from the upper end side to the lower end side. 88 and a cylindrical connecting portion 89 as a supported portion that is continuous with the lower end of the reduced diameter portion 88 are integrally provided, and are formed into a substantially cylindrical shape with the diameter reduced from the upper end side to the lower end side as a whole. Has been done. The upper end portion side (upper end portion side of the upper wall portion 87) of the collecting wall portion 68 is located inside the separator portion 67, and the lower end portion side (the lower end portion side of the upper wall portion 87, the reduced diameter portion 88 and the connection). The part 89) projects downward from the separator part 67 and is located in the case body 45. The inside of the collecting wall portion 68 communicates with the second storage portion 71.

  The upper wall portion 87 is formed so as to gradually reduce its diameter from the upper end side to the lower end side. The lower end portion of the upper wall portion 87 is larger in diameter than the shroud portion 66, for example.

  The reduced diameter portion 88 guides the dust (fine dust) centrifugally separated by each second centrifugal separation portion 48 to the second storage portion 71, and is inclined toward the second storage portion 71.

  The connecting portion 89 is a portion that supports the separating portion main body 61 (separating body 46) in close contact with and supports the bottom portion (lid 53) of the case body 45, and has a diameter substantially equal to that of the receiving portion 58 of the lid 53. The cover body 53 is formed so as to be in close contact with the receiving portion 58 in a state where the lower end portion of the case body 45 is closed.

  The exhaust air duct section 69 communicates with all the second centrifugal separation sections 48 and the exhaust section 55 (exhaust port 55a), and exhausts substantially dust-free air that has passed through each second centrifugal separation section 48. It flows to the portion 55 (exhaust port 55a). The exhaust air duct portion 69 is adjacent to the upper end portion of the shroud portion 66, which is opposite to the separator portion 67. That is, the exhaust air duct portion 69 is located above the shroud portion 66. Further, the exhaust air passage portion 69 is formed in a bottomed cylindrical shape having a larger diameter dimension than the shroud portion 66 and having an axial direction along the vertical direction, and is arranged coaxially with the shroud portion 66. That is, the exhaust air duct portion 69 projects from the circular flat plate-like air duct partition portion 91 and the outer edge portion of the air duct partition portion 91 to the upper side opposite to the shroud portion 66 and inside the case body 45 (case A peripheral wall portion 92 that is in close contact with the upper end side of the body 51 or the lower portion of the cover portion 52).

  The air passage partition 91 is located so as to cover the upper end of the shroud 66. A plurality of communication openings 94, for example, are opened in the air passage partition 91 at a position inside the shroud 66. These communication openings 94 are for introducing the air that has passed through the respective second centrifugal separation sections 48 into the exhaust air duct section 69, and are in communication with the upper end portions (downstream end portions) of the respective discharge cylinder portions 64. .

  The peripheral wall portion 92 is formed in a cylindrical shape whose diameter gradually increases from the lower end side to the upper end side.

  The first reservoir portion 70 is brought into close contact with the connecting portion 89 of the collecting wall portion 68 of the separating portion body 61 and the receiving portion 58 of the lid body 53, so that the case body body 51 and the lid body 53 and the gathering wall of the separating portion body 61. It is partitioned between the outside of the portion 68. In other words, the first storage portion 70 is a space portion on the outer peripheral side of the collecting wall portion 68 in the case body 45.

  The second reservoir portion 71 is brought into close contact with the connecting portion 89 of the collecting wall portion 68 of the separating portion body 61 and the receiving portion 58 of the lid body 53, so that the lid body 53 (receiving portion 58) and the gathering wall of the separating portion body 61. It is partitioned between the inside of the portion 68. In addition, in the present embodiment, the periphery of the second reservoir 71 is surrounded by the receiving portion 58 of the lid 53.

  Therefore, the first reservoir 70 is arranged in a donut shape (annular shape) around the second reservoir 71. That is, the first reservoir 70 and the second reservoir 71 are arranged concentrically.

  The first structure portion 73 has an upper end side (exhaust air passage portion 69 (peripheral wall portion 92)) fixed to the case body 45 (case body body 51 or cover portion 52) and a lower end side (separator portion 67 side) is a free end. It is in a state. Further, the second structure portion 74 is attachable to and detachable from the first structure portion 73 by inserting the upper end side (upper end side of the collecting wall portion 68 (upper wall portion 87)) into the separator portion 67 of the first structure portion 73. The lower end side (the lower end side of the collecting wall portion 68 (connecting portion 89)) is locked and held by the free end shape.

  Each introduction part 62 is attached to the upper end of each cone part 63, and the dust-containing air that has passed through the first centrifugal separation part 47 is introduced into each cone part 63 in the tangential direction of the inner peripheral surface of this cone part 63. It is introduced in a spiral shape along the line, and connects each cone portion 63 (each second centrifugal separation portion 48) and the discharge cylinder portion 64, is located below the separator portion 67 (rectifying portion 83), and surrounds it. The intake opening 62a (upstream side) located at is communicated with the ventilation opening 77 through the opening 85. Therefore, the suction side of these introducing portions 62 is in communication with the swirling air passage 76 (via the rectifying portion 83 (opening portion 85) and the ventilation opening 77). In addition, each introduction portion 62 is set such that the opening directions of the intake openings 62a are different from each other by a predetermined angle, and the air introduced into the separator portion 67 through the opening portion 85 (rectifying portion 83) is introduced into each cone. It is designed to be distributed almost evenly to the parts 63. In addition, in the introduction portion 62, the exhaust opening 62b (downstream side) located in the central portion is connected to the discharge cylinder portion 64. Therefore, these introducing portions 62 are in communication with the exhaust air duct portion 69 (through the exhaust tube portion 64) on the exhaust side.

  Each cone portion 63 forms a set with each introduction portion 62 to form each second centrifugal separation portion 48, and communicates in parallel with the first centrifugal separation portion 47. These cone portions 63 have a smaller diameter dimension than the shroud portion 66, are positioned along their respective axial directions in the vertical vertical direction, that is, are substantially parallel to the central axis of the dust collector 27, and include them. It is formed in a substantially cylindrical shape in which the diameter gradually decreases from the upper end side where dust air flows in to the lower end side. Therefore, in these cone portions 63, the swirling radius of the dust-containing air is smaller than the swirling radius in the swirling air passage 76 of the first centrifugal separating portion 47, and the swirling speed is in the swirling air passage of the first centrifugal separating portion 47. It is possible to centrifuge fine dust by increasing the turning speed at 76. Further, the cone portions 63 are integrally connected to each other via, for example, a connecting plate 96 serving as a connecting portion, and the second structure portion 74 (collecting wall portion 68 (upper wall portion 87) is connected via the connecting plate 96. ), And is housed inside the collecting wall 68. Therefore, these cone portions 63 are located inside the separator portion 67. The lower end portions of the cone portions 63 are spaced apart upward from the reduced diameter portion 88 to face the reduced diameter portion 88 and communicate with the second reservoir portion 71. Therefore, the lower ends of the cone portions 63 are discharge openings 63a for discharging the fine dust centrifugally separated by the second centrifugal separator 48 to the second reservoir 71.

  Each discharge cylinder part 64 is formed in an elongated cylindrical shape, and connects each second centrifugal separation part 48 (each cone part 63) and the exhaust air duct part 69. That is, each discharge cylinder portion 64 is provided corresponding to each second centrifugal separation portion 48 (each cone portion 63), and the lower end portion (upstream side) is airtightly connected to the exhaust opening 62b of each introduction portion 62, The upper end (downstream side) is airtightly connected to each communication opening 94. Further, these discharge cylinder portions 64 have an axial direction along the vertical vertical direction, that is, substantially parallel to the central axis of the dust collector 27, and the top plate portion 81 of the separator portion 67 (rectifying portion 83 ) And is located inside the shroud portion 66. That is, these discharge cylinder parts 64 are located in the dust-containing air branched from the ventilation openings 77 (via the rectification part 83) to the respective second centrifugal separation parts 48 (each cone part 63). Further, these discharge cylinder parts 64 are separated from each other on the same relatively small circle by an outer discharge cylinder part 64a which is a plurality of first discharge cylinder parts which are located apart from each other on the same relatively large circle. It is set so as to be concentrically and symmetrically arranged with the inner discharge cylinder portion 64b, which is the plurality of second discharge cylinder portions that are positioned in parallel with each other. Then, the outer discharge tube portion 64a is disposed outside the opening portion 85 (outer opening portion 85b) and in close contact with the rear side of the partition portion 78 of the shroud portion 66, that is, the position inside the shroud portion 66. Has been done. These outer discharge cylinders 64a are arranged, for example, every other partition 78, and are located on both sides of each outer opening 85b (two for each outer opening 85b). Further, the inner discharge tube portion 64b is arranged around the central axis of the shroud portion 66, and is arranged outside the central opening portion 85a and between the outer opening portions 85b and 85b. Therefore, the discharge cylinder portions 64 are arranged so as to surround the opening portions 85, respectively. Specifically, the outer discharge cylinders 64a, 64a and the inner discharge cylinders 64b, 64b are arranged so as to surround each outer opening 85b, and the inner discharge cylinder 64b is arranged so as to surround the central opening 85a (Fig. 2).

  Then, the first centrifugal separation unit 47 swirls the dust-containing air along the inner surface of the case body 45 in the swirling air passage 76 around the shroud portion 66 to centrifuge the dust.

  In addition, each second centrifugal separation unit 48 communicates in parallel with the first centrifugal separation unit 47, and the dust-containing air that has passed through the first centrifugal separation unit 47 is introduced from the introduction unit 62 to the cone unit 63. Dust (fine dust) smaller than the dust (coarse dust) that is introduced into the inside and swirled along the inner surface of the cone portion 63 and centrifugally separated in the first centrifuge portion 47 is centrifugally separated into the second reservoir portion. In addition to accumulating in 71 and separating fine dust, substantially dust-free air is discharged from the exhaust tube portion 64 to the exhaust air passage portion 69 (exhaust portion 55 (exhaust port 55a)), that is, outside the dust collector 27. It exhausts to.

  Next, the cleaning operation according to the above embodiment will be described.

  When starting the cleaning, first, the separating body 46 is attached to the case body 45 and assembled integrally. At this time, the separation body 46 inserts the first structure portion 73 into the inside of the case body 45 whose lower end side is opened by the lid body 53 to retain and retain the first structure portion 73, and the introduction portions are provided in the first structure portion 73. By connecting and holding the upper end side of the second structure portion 74, which is held at the upper end side, of the connecting plate 96 that connects the cone portion 63 to which the 62 is attached, the intake openings 62a of the respective introduction parts 62 are made to correspond to the respective discharge tubes. It is coaxially held by the case body 45 in a state of being hermetically connected to the portion 64. Next, by closing the lid body 53, the lower end side of the case body 45 is closed, and the lower end portion (connecting portion 89) of the separating portion main body 61 of the separating body 46 is brought into close contact with the receiving portion 58 of the lid body 53. The first reservoir 70 and the second reservoir 71 are defined between the case body 45 and the separation unit body 61.

  Then, the assembled dust collector 27 is attached to the main body case 26, and the dust collector 27 is locked to the main body case 26 by the attachment / detachment mechanism so that the inlet 54 and the exhaust portion 55 of the dust collector 27 are attached to the main body case. It is airtightly connected to each of the 26 communication openings and the intake openings. Therefore, the dust collector 27 is mounted on the main body case 26 in a state of being hermetically connected between the suction side of the electric blower 35 and the main body suction port 41. If the dust collector 27 is already attached to the main body case 26, these operations are unnecessary.

  In this state, the pipe portion 12 is connected to the main body suction port 41 of the cleaner main body 13 (main body case 26). Specifically, the pipe portion 12 inserts and connects the connection pipe portion 15 into the main body suction port 41, and if necessary, sequentially connects the extension pipe 18 and the floor brush 19 to the distal end side of the hand operation portion 17. In this state, the setting button 22 of the hand operation unit 17 is electrically connected to the control circuit unit and the like in the cleaner body 13 (body case 26). If the tube portion 12 is already connected to the cleaner body 13, these operations are unnecessary.

  Then, the user sets the operation mode of the electric blower 35 by holding the grip portion 21 and operating the desired setting button 22 after making the power supply to the electric blower 35 and the control circuit unit etc. . The control circuit unit controls the input of the electric blower 35 in accordance with the set operation mode, and starts the electric blower 35 in the set operation mode.

  The negative pressure generated by the activation of the electric blower 35 is the intake opening, the exhaust 55, the exhaust air passage 69, the second centrifugal separator 48, the rectifier 83, the first centrifugal separator 47, the inlet 54, the communication. It acts on the tube portion 12 through the opening and the main body suction port 41.

  Then, the user sucks the dust together with the air from the floor brush 19, the extension tube 18, or the tip end side of the hand operation unit 17 by the action of the negative pressure.

  The dust-containing air, that is, the dust-containing air, is guided from the pipe portion 12 to the introduction port 54 via the main body suction port 41 and the communication opening portion, and from the introduction port 54, inside the dust collector 27, that is, the first It is sucked into the centrifugal separator 47.

  In the first centrifugal separator 47, the dust-containing air swirls in the swirling air passage 76 along the inner peripheral surface 45a of the case body 45, whereby particularly coarse dust in the dust-containing air is centrifuged, and the case body It falls along the inner peripheral surface 45a of 45 and is stored in a donut-shaped first storage portion 70 below the separator portion 67.

  The dust-containing air that swirls in the swirling air passage 76 is filtered by the separation filter 79 when passing through the ventilation opening 77 of the shroud portion 66. Further, the dust-containing air that has passed through the separation filter 79 is rectified by the rectification unit 83 while being guided to the respective opening portions 85 by the discharge tube portion 64, and passes through the respective opening portions 85 to the inside of the separator portion 67. From the intake opening 62a of each of the introduction portions 62, they flow into the second centrifugal separation portion 48 (in the cone portion 63) while being substantially evenly branched.

  In the second centrifugal separator 48 (cone 63), the dust-containing air is swirled along the inner peripheral surface (the inner peripheral surface of the cone 63), and the fine dust in the dust-containing air is centrifugally separated, The second centrifugal separator 48 (the inner peripheral surface of the cone portion 63) is dropped from the discharge opening portion 63a to below the cone portion 63. The fine dust drops onto the reduced diameter portion 88 located below each cone portion 63, and is accumulated in the second reservoir portion 71 along the inclination of the reduced diameter portion 88.

  The substantially dust-free air obtained by centrifuging the fine dust flows from the exhaust opening 62b of the introduction portion 62 of each second centrifugal separation portion 48 to the exhaust air duct portion 69 via each discharge cylinder portion 64. The air is exhausted and merges, and is exhausted from the exhaust unit 55 (exhaust port 55a) to the outside of the dust collecting apparatus 27 through the exhaust airflow path unit 69.

  After this, this air is sucked into the electric blower 35 from the intake opening, passes through while cooling the inside of the electric blower 35, and becomes exhaust air, and from the electric blower 35 to the outside of the main body case 26 via the exhaust hole. Exhausted to.

  When the cleaning is completed, the user operates a predetermined setting button 22 to cause the control circuit unit to lower the input of the electric blower 35 and stop the electric blower 35.

  If a certain amount of dust collects inside the dust collector 27, remove the dust collector 27 from the main body case 26, move it to the disposal position such as a trash can, and then operate the operation part of the locking mechanism. The lid 53 pivots downward about its hinge 59 by its own weight. Therefore, the lower portion of the case body 45 is opened, the lid body 53 (receiving portion 58) and the lower end portion of the separating portion main body 61 (collecting wall portion 68 (connecting portion 89)) are separated from each other, and The coarse dust and fine dust collected in are discarded together. At this time, since the coarse dust surrounds the fine dust, the fine dust is discarded while being wrapped in the coarse dust, the rising of the fine dust is suppressed, and sanitary disposal becomes possible.

  According to the above-described embodiment, the first centrifugal separation unit 47 that swirls the dust-containing air around the shroud portion 66 along the inner peripheral surface 45a of the case body 45 to centrifuge the dust, and the first centrifugal separation unit 47. The dust-containing air that is communicated in parallel with the centrifugal separators 47 and has passed through the first centrifugal separators 47 along the inner surface of each cone portion 63 is swirled to be smaller than the dust that is centrifugally separated in the first centrifugal separators 47. By providing the plurality of second centrifugal separation units 48 for centrifugally separating dust, the first centrifugal separation unit 47 and the plurality of second centrifugal separation units 48 can be used to efficiently collect dust. Further, by arranging each second centrifugal separation unit 48 inside the separator unit 67 located below the shroud unit 66 of the first centrifugal separation unit 47, the structural space of the first centrifugal separation unit 47 is utilized, Since each second centrifugal separation unit 48, which has a swirling flow velocity higher than that of the first centrifugal separation unit 47 and is apt to generate noise, can be enclosed by the outer shell of the first centrifugal separation unit 47 to insulate sound, noise can be suppressed. Moreover, the first reservoir 70 for storing the dust (coarse dust) centrifugally separated by the first centrifugal separator 47, and the second reservoir 70 for accumulating the dust (fine dust) centrifugally separated by each second centrifugal separator 48. 71 is divided into the outside and the inside of the separation unit main body 61 by the close contact between the separation unit main body 61 and the case body 45. Therefore, the coarse dust accumulated in the first storage unit 70 is stored in the second storage unit 71. Fine dust can be wrapped in, and the dust can be prevented from rising and can be disposed of sanitarily.

  Further, since the cone portion 63 of the second centrifugal separation portion 48 is arranged inside the separator portion 67 and inside the collecting wall portion 68, the noise generated in the cone portion 63 is doubled. The sound is insulated and the noise can be further suppressed.

  Further, of the openings 85 for introducing the dust-containing air, which has passed through the ventilation openings 77 formed in the peripheral surface of the shroud portion 66, into the inside of each cone portion 63, the outer opening portion 85b is near the inner circumference of the shroud portion 66. Since the dust-containing air that has passed through the ventilation opening 77 is easily and quickly flowed into the second centrifugal separation section 48 through the opening section 85 (outer opening section 85b), it is efficient and collects. The dust-containing air sucked into the dust collector 27 is sucked into the second centrifugal separator 48 early without wandering inside the dust collector 27, so that particularly fine dust in the dust-containing air adheres to each part. Hateful.

  In particular, since the shroud portion 66 is located at substantially the same height as the inlet 54, the dust-containing air introduced from the inlet 54 into the first centrifugal separator 47 (the swirling air passage 76) directly flows into the ventilation opening 77. And is introduced into each second centrifugal separation section 48 (each cone section 63) through the opening section 85 (rectification section 83). Therefore, the dust-containing air does not repeatedly move up and down, and smoothly flows into each of the second centrifugal separators 48 (each of the cone portions 63), which is efficient.

  Then, of the discharge cylinders 64 located at the upper ends of the cones 63 and discharging the air obtained by centrifugally separating the dust in the second centrifugal separator 48, the outer discharge cylinder 64a has the opening 85 (the outer opening 85b). ), The dust-containing air that has passed through the ventilation opening 77 can be more efficiently flowed to the opening 85 (outer opening 85b). Further, since the periphery of each opening 85 is surrounded by the exhaust tube portion 64, the dust-containing air that has passed through the ventilation opening 77 will be located at a position avoiding these exhaust tube portions 64, respectively. The entire discharge cylinder 64 can guide the dust-containing air to the opening 85.

  Moreover, since the outer discharge tube portion 64a is located on the back side of the partition 78, it is difficult to block the flow of dust-containing air passing through the ventilation opening 77. Therefore, noise generated by turbulence or the like can be suppressed.

  In the above-described embodiment, the dust collector 27 has a configuration in which the bottom of the case body 45 is opened and closed by the lid 53 to exhaust the dust from the lower portion. For example, the case body 45 has a bottomed cylindrical shape. However, the separation body 46 (separation portion main body 61) may be removed from the case body 45 and discarded from the upper end side of the case body 45.

  Further, the electric vacuum cleaner 11 is not limited to the canister type, but is a so-called upright type in which the floor brush 19 is connected to the lower end of the vertically elongated main body case 26, for example, or a direct extension to the main body case 26. A stick type in which the pipe 18 and the floor brush 19 are connected can also be used correspondingly.

  Although one embodiment of the present invention has been described, this embodiment is presented as an example and is not intended to limit the scope of the invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and its equivalent scope.

11 vacuum cleaner
13 Vacuum cleaner body
27 Dust collector
35 electric blower
45 case body
47 First Centrifuge
48 Second Centrifuge
61 Separation unit body
63 Cone part as the second cylindrical part
64 Discharge cylinder part as discharge part
66 Shroud part as the first cylindrical part
67 Separator part
68 Collective wall as partition wall
70 1st collecting part as 1st dust collecting part
71 Second reservoir as second dust collector
77 ventilation openings
85 opening

Claims (3)

A vacuum cleaner body with an electric blower,
And a dust collector that separates and collects dust from the dust-containing air sucked by the drive of the electric blower,
The dust collector is
A case body, a first cylindrical portion formed in a substantially cylindrical shape with a ventilation opening on a peripheral surface, a cylindrical separator portion located below the first cylindrical portion, and a first cylindrical portion located below the first cylindrical portion. A partition wall body that is housed in the case body and has a lower end side of the partition wall that is in close contact with the case body, and the first cylindrical portion of the first cylinder portion extends along the inner surface of the case body. A first centrifuge unit that centrifuges dust by swirling dust-containing air around it;
Each of the first centrifugal separators has a second cylindrical portion that communicates in parallel with each other and is formed into a substantially cylindrical shape having a diameter smaller than that of the first cylindrical portion. A plurality of second centrifugal separation units that swirl the dust-containing air that has passed through the first centrifugal separation unit to centrifuge dust that is smaller than the dust that is centrifugally separated in the first centrifugal separation unit;
A first dust collecting portion for collecting dust centrifugally separated by the first centrifugal separating portion;
A second dust collecting part for collecting the dust centrifugally separated by each of the second centrifugal separating parts,
Each of the second centrifugal separation units is covered by the separator unit and the partition wall unit, and is located inside the separator unit and the partition wall unit,
The vacuum cleaner characterized in that the first dust collecting portion and the second dust collecting portion are partitioned into an outer portion and an inner portion of the separating portion main body by the close contact between the partition wall portion and the case body. The dust collector includes an opening that introduces the dust-containing air that has passed through the ventilation opening into the inside of the second cylindrical portion,
The vacuum cleaner according to claim 1, wherein at least one of the openings is arranged near an inner circumference of the first cylindrical portion. The dust collector is provided at an upper end portion of each second cylindrical portion, and includes a discharge portion that discharges air obtained by centrifuging the dust in the second centrifugal separation portion,
The vacuum cleaner according to claim 2, wherein at least one of the discharge parts serves as a guide for guiding a part of the dust-containing air to the opening part.

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