JP2014023782A - Electric vacuum cleaner - Google Patents

Abstract

A vacuum cleaner capable of reliably scraping dust on an inclined surface to a dust reservoir while suppressing an increase in size.
A dust collecting device includes a dust storage part that is located inside an exhaust tube part and stores fine dust separated by a second centrifugal separator. The dust collector 26 includes an inclined surface 76a that guides the dust separated by the second centrifugal separator 44 to the dust reservoir. The dust collector 26 includes a fan 78 that is rotated by an air flow passing through the first centrifugal separator 41. The dust collector 26 includes a wiper portion 79 that scrapes off dust on the inclined surface 76a into the dust reservoir by the rotation of the fan 78.
[Selection] Figure 1

Description

  Embodiments of the present invention relate to a vacuum cleaner including a dust collecting device that separates and collects dust from dust-containing air sucked by operation of an electric blower.

  Conventionally, this type of vacuum cleaner includes a main body case that houses an electric blower and a dust collector that is detachably attached to the main body case. This dust collecting device is a so-called dust collecting cup, and separates and collects dust from dust-containing air sucked by driving of an electric blower.

  As such a dust collector, a so-called cyclone separation type is known in recent years, in which dust is centrifuged (cyclone separation) by swirling dust-containing air inside. In the case of such a cyclone separation type dust collector, the size and specific gravity of dust that can be separated are set according to the size (swivel diameter) of the separation part, so separate separation parts of different sizes should be provided separately. Thus, it is configured so that dusts having different sizes and specific gravity in the dust-containing air can be separated.

  However, if dusts having different sizes and specific gravity are stored in the same storage unit, dust having a small size and specific gravity, that is, fine dust, may rise in the dust collector when the electric blower is driven again. For this reason, it is preferable that fine dust and dust having a large size and specific gravity, that is, coarse dust, be stored in different storage units.

JP 2009-112506 A

  In the configuration described in Patent Document 1, a plurality of second centrifuge units that centrifuge fine dust are provided around the first centrifuge unit that centrifuges coarse dust and separated by these second centrifuge units. Fine dust is dropped and stored in a dust storage section partitioned at the center of the first centrifugal separation section, and coarse dust is stored around the storage section. The accumulated dust can be discarded at the same time by opening the lower part of the first centrifugal separator.

  In such a configuration, an inclined surface for guiding dust from the second centrifugal separator to the dust reservoir is required, and dust that has been centrifuged by the second centrifugal separator adheres to such an inclined surface. In order not to remain, a wiper for scraping off dust on the inclined surface to the dust reservoir is rotatably attached. However, since such a wiper is rotated by an electric motor, there is a problem that the vacuum cleaner becomes large and heavy.

  The problem to be solved by the present invention is to provide an electric vacuum cleaner that can surely scrape dust on an inclined surface into a dust reservoir while suppressing an increase in size.

  The vacuum cleaner of the embodiment has a main body case that houses an electric blower. In addition, this vacuum cleaner has a dust collector that is detachably provided on the main body case and separates and collects dust from the dust-containing air sucked by the operation of the electric blower. This dust collector has a cylindrical structure that swirls the dust-containing air along the outside, and includes a first centrifugal separation section that separates dust in the dust-containing air by this swirling. The dust collector is located above the first centrifugal separator and separates dust that is smaller than the dust separated by the first centrifugal separator in the dust-containing air that has passed through the first centrifugal separator. A second centrifuge is provided. Further, the dust collecting device includes a dust reservoir portion that is located inside the structure and stores dust separated by the second centrifugal separator. In addition, the dust collector includes an inclined surface that guides the dust separated by the second centrifugal separator to the dust reservoir. Further, the dust collector includes a fan that is rotated by an air flow passing through the first centrifugal separator. And this dust collector is equipped with the wiper part which scrapes off the dust on an inclined surface into a dust storage part by rotation of a fan.

It is a perspective sectional view showing a part of dust collecting device of a vacuum cleaner of one embodiment. It is a longitudinal cross-sectional view which shows a dust collector same as the above. It is a top view which shows a part of dust collector same as the above. It is a perspective view which shows a vacuum cleaner same as the above.

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

  In FIG. 4, reference numeral 11 denotes a so-called canister-type vacuum cleaner. The vacuum cleaner 11 has a pipe portion 12 that is a suction air passage body (air passage formation body) and a pipe portion 12 that is detachably connected. A vacuum cleaner main body 13.

  The pipe part 12 is provided on the distal end side of the hose body 16, the connecting pipe part 15 connected to the cleaner body 13, the flexible hose body 16 communicating with the distal end side of the connecting pipe part 15. The hand operating section 17, the extension pipe 18 detachably connected to the distal end side of the hand operating section 17, and the floor brush 19 as a suction port body detachably connected to the distal end side of the extension pipe 18 and the like And.

  In the hand operation unit 17, a loop-shaped gripping part 21 protrudes toward the hose body 16, and a plurality of operation setting buttons 22 are provided on the gripping part 21.

  The vacuum cleaner main body 13 includes a main body case 25 having a large-diameter traveling wheel 23 on both sides and a swivel wheel (not shown) at the lower portion, and a dust collecting device that is a dust collecting cup is provided above the main body case 25. 26 is removable. The cleaner body 13 is configured to be able to travel (move) at least along the front-rear direction on the floor surface, which is the surface to be cleaned, by the traveling wheels 23 and the turning wheels. Hereinafter, the front-rear direction and the left-right direction are based on the traveling (moving) direction of the cleaner body 13 (main body case 25).

  The main body case 25 is formed of, for example, a synthetic resin, and supports a main body portion 31 located behind the dust collector 26 and a front portion of the main body portion 31 to support a lower portion of the dust collector 26. A protrusion receiving portion 32 as a dust collector support portion is integrally provided. In the main body case 25, a main body air passage portion (not shown) is arranged across the main body portion 31 and the protrusion receiving portion 32.

  Inside the main body 31, the electric blower 35, a cord reel device that can supply power to the electric blower 35, etc., or a power supply unit (not shown) such as a secondary battery, and control means for controlling the operation of the electric blower 35 Each of the control circuit units is accommodated. Further, above the protrusion receiving portion 32 at the front portion of the main body 31, although not shown, an intake opening that is airtightly connected to the downstream side of the dust collector 26 attached to the main body case 25, and this collection A communication opening connected to the upstream side of the dust device 26 in an airtight manner is positioned above and below to form an opening. An exhaust hole (not shown) for discharging the exhaust from the electric blower 35 to the outside of the main body case 25 is formed at the rear end of the main body 31.

  The operation of the electric blower 35 is controlled by the control circuit unit according to the operation of the setting button 22. The suction side of the electric blower 35 communicates with the intake opening, and the downstream side communicates with the exhaust hole.

  The control circuit unit is electrically connected to the setting button 22, and the operation mode set by the operation of the setting button 22 (e.g., strong mode, medium mode, weak mode, automatic mode, stop mode, etc.). The operation of the electric blower 35 is set.

  Further, a main body suction port 36 to which the connection pipe portion 15 of the pipe portion 12 is connected is formed on the front surface of the protrusion receiving portion 32, and this main body suction port 36 becomes an opening at the upstream end of the main body air passage portion. ing. Therefore, the main body suction port 36 communicates with the communication opening portion via the main body air passage portion, and can communicate with the upstream side of the dust collector 26 via the communication opening portion.

  Further, as shown in FIGS. 1 to 4, the dust collector 26 includes a lower main body 38 as a first main body positioned on the lower side, and a second main body positioned on the upper side of the lower main body 38. An upper main body 39 as a part is detachably provided. Further, the lower main body portion 38 is provided with a first centrifugal separation portion 41 and a dust feeding portion 42, and the upper main body portion 39 is provided with a ventilation air passage portion 43 and, for example, a plurality of second centrifugal separation portions. A portion 44 and an air passage portion 45 are provided. The dust collector 26 is configured to be detachably locked to the main body case 25 by a locking mechanism (not shown).

  The lower main body portion 38 is configured in a unit shape integrally including a first centrifuge portion 41 and a dust feed portion 42 located above the first centrifuge portion 41.

  The first centrifugal separator 41 mainly collects relatively large dust, that is, coarse dust, which is a part of the dust-containing air sucked into the interior by driving the electric blower 35, by centrifugal separation. The first centrifugal separation part 41 includes a substantially cylindrical case part 47, a lid 48 attached to the lower end part of the case part 47, and a connection as a structure housed in the case part 47. And a substantially cylindrical exhaust tube portion 49 which is a body.

  The case portion 47 is formed of a member such as a transparent (transparent) synthetic resin, for example. Therefore, the inside of the first centrifuge 41 is visible from the outside. In addition, an inlet 51 for sucking dust-containing air is opened at the rear part of the case portion 47. Further, at the rear part of the case portion 47, a waste disposal button portion 53 as a lid body locking means for locking the lid body 48 is disposed. The lower end portion of the case portion 47 is a dust disposal port 54 that is opened and closed by the lid body 48. Further, an inclined portion 55 as a flange-like connecting portion projects from the upper portion of the case portion 47 inward.

  The introduction port 51 extends substantially horizontally rearward, and is airtightly connected to the communication opening in a state where the dust collector 26 is attached to the main body case 25. Therefore, the introduction port 51 is airtightly connected to the main body suction port 36 through the communication opening.

  Further, the waste disposal button portion 53 is located at the lower end of the case portion 47, and can be unlocked by the user's external operation.

  The dust disposal port 54 is an opening through which dust accumulated in the first centrifugal separator 41 and the second centrifugal separators 44 can be discarded.

  The inclined portion 55 is inclined downward from the outside to the inside, and is connected to the upper end portion of the exhaust tube portion 49 in an airtight manner. Further, the inclined portion 55 is inclined at an acute angle of, for example, less than 45 ° with respect to the horizontal direction.

  Further, the lid body 48 is formed in a circular plate shape, for example, and the front end portion is pivotally supported by the lower end portion of the case portion 47. Therefore, the lid body 48 opens the dust disposal port 54 by its own weight by operating the waste disposal button portion 53. Further, a packing 56 for airtightly closing the dust disposal port 54 is attached to the upper peripheral portion of the lid 48. A circular fitting support portion 57 into which the lower end side of the exhaust cylinder portion 49 is fitted is projected from the upper center portion of the lid body 48.

  Further, the exhaust cylinder portion 49 forms a swirl air passage 58 for swirling dust-containing air between the outer periphery and the inner peripheral surface 47a of the case portion 47, and through the inside, the first centrifugal separation portion 41 and each second Dust provided on the lower end side of the exhaust cylinder body 61 and the exhaust cylinder body 61, which is connected to the centrifugal separator 44 side (ventilation air passage 43) and is a substantially cylindrical structure body The reservoir portion 62 and a compression portion 63 that is a shade portion provided on the outer periphery of the dust reservoir portion 62 are integrally provided. That is, the exhaust cylinder portion 49 is a turning center of the first centrifugal separation portion 41.

  The exhaust tube section main body 61 includes a plurality of openings 66 in the circumferential direction through which dust-containing air swirling in the swirling air passage 58 passes, and the entire opening 66 is covered with a filter 67. Further, the upper end portion of the exhaust tube portion main body 61 is airtightly connected to the inclined portion 55 of the case portion 47.

  In addition, the dust reservoir 62 is configured to accommodate and store relatively small dust, that is, fine dust, in the dust-containing air centrifuged by each second centrifugal separator 44, and is formed in a cylindrical shape. The exhaust cylinder main body 61 is coaxially connected to the lower end portion. The dust reservoir 62 has a smaller diameter than the exhaust cylinder body 61 and is gradually reduced in diameter from the upper side to the lower side. Further, the dust reservoir 62 is closed by projecting the lower end side further downward with respect to the compression portion 63 and fitting the fitting support portion 57 of the lid 48 that closes the dust disposal port 54 into the lower end. It has become so.

  The compression unit 63 compresses the coarse dust separated in the first centrifugal separation unit 41 by using the negative pressure generated by driving the electric blower 35. The exhaust cylinder main body 61, the dust reservoir 62, A circular top plate portion 71 protruding in a bowl shape radially from the outer periphery of the connection portion, and a peripheral plate portion 72 protruding downward from the outer peripheral edge of the top plate portion 71, It opens downward. Furthermore, a plurality of ventilation openings (not shown) are opened in the circumferential direction in the top plate portion 71 so as to be spaced apart at substantially equal intervals, and these ventilation openings are covered with a compression filter. The compression unit 63 presses coarse dust against the compression filter by passing a part of the dust-containing air swirling in the swirling air passage 58 so as to circulate from the lower side to the ventilation opening, and the dust storage unit 62 It is configured to collect coarse dust in a compressed state around it.

  The dust feed section 42 feeds the fine dust centrifuged by each of the second centrifuge sections 44 to the dust reservoir 62, and has a cylindrical outer frame section 75 attached to the upper part of the case section 47, A feed part 76 located inside the outer frame part 75, a partition body 77 located above the feed part 76 and located inside the outer frame part 75, and an upper part of the partition body 77 so as to be rotatable. A fan 78 that is pivotally supported and a wiper portion 79 that is connected to the fan 78 at the lower portion of the partition body 77 and pivotally supported is provided.

  The outer frame portion 75 is made of, for example, synthetic resin, and is coaxially and airtightly connected to the upper portion of the case portion 47.

  The feeding portion 76 has an inclined surface 76a inclined downward, and a cylindrical shape inserted coaxially into the exhaust tube portion main body 61 of the exhaust tube portion 49 continuously to the lower end portion of the inclined surface 76a. The feeding unit main body 76b is integrally provided.

  The inclined surface 76a receives fine dust centrifuged by each second centrifugal separator 44 and guides it to the dust reservoir 62 (leads to the dust reservoir 62 through the feed body 76b). 2 Opposing to the lower part of the centrifuge 44 in a separated state. The inclined surface 76a is substantially parallel to the inclined portion 55 of the case portion 47, and faces the inclined portion 55 in a state of being separated above the inclined portion 55. That is, the inclined surface 76a is inclined, for example, at an acute angle of less than 45 ° with respect to the horizontal direction. Further, the upper end side of the inclined surface 76a is spaced inward with respect to the outer frame portion 75.

  Further, the feed section main body 76b is formed to have a smaller diameter than the exhaust tube section main body 61, is continuous with the lower end portion of the inclined surface 76a, and gradually decreases in diameter toward the lower side. Further, the lower end portion of the feed portion main body 76b is connected to the upper end side of the dust reservoir 62. Therefore, a ventilation air passage 81 is formed between the feed portion main body 76b and the inside of the exhaust tube portion main body 61 and between the inclined surface 76a and the inclined portion 55. In other words, the ventilation air passage 81 is defined between the dust feed section 42 (feed section 76), the exhaust cylinder section 49 (exhaust cylinder section body 61), and the inclined section 55, and communicates with the openings 66. Therefore, the ventilation air passage 81 communicates with the inside of the first centrifugal separator 41 through each opening 66, and the air that has passed through the first centrifugal separator 41 (and the filter 67) passes therethrough. ing.

  Further, the partition body 77 is an airtight partition between the ventilation air passage 81 and the inside of the feeding portion 76, is formed in a circular plate shape, and covers the upper end portion of the feeding portion 76. That is, the inside of the feed section 76 is substantially isolated from the negative pressure (air flow) generated by driving the electric blower 35. Further, the partition body 77 is formed with a circular fitting portion 77a into which the fan 78 is fitted at the center portion, and around the fitting portion 77a, the lower end of each second centrifugal separation portion 44. A circular communication opening 77b that is connected in an airtight manner is opened. A ventilation passage 77c that communicates the ventilation air passage 81 and the fitting portion 77a is defined between the communication openings 77b and 77b adjacent to each other, that is, between the second centrifugal separation portions 44 and 44, respectively.

  The fitting portion 77a is open on the upper side and communicates with the upper body portion 39.

  The communication opening 77b communicates each second centrifuge unit 44 and the inside of the feed unit 76, and penetrates the partition body 77 in the thickness direction.

  Further, each air passage 77c is formed in an elongated straight nozzle shape, and is radial along the radial direction of the partition body 77.

  The fan 78 is an axial fan having an axial direction along the vertical direction. The fan 78 is pivotally supported by being fitted to the fitting portion 77a of the partition body 77, and is located at the center portion. Further, the fan 78 rotates by the air flow that has passed through the first centrifugal separator 41 and flows into the fitting portion 77a from the ventilation air passage 81 through the ventilation passage 77c, thereby rotating the wiper portion 79. It is a turbine.

  The wiper unit 79 scrapes fine dust adhering to the inclined surface 76a due to rotation to the feed unit main body 76b side, i.e., the dust reservoir 62, and is located inside the feed unit 76. It is located on the same axis and is pivotally supported by the partition body 77 and rotates in conjunction with the rotation of the fan 78 (integrated with the fan 78). The wiper portion 79 includes a plurality of arm portions 79a extending along the radial direction of the partition body 77, and a wiper 79b as a cleaning member is attached to a lower portion of the arm portions 79a. These wipers 79b are formed of a soft member such as rubber or elastomer, for example, and are located at least below (directly below) the second centrifuge 44 and are elastically pressed against the upper surface of the inclined surface 76a. ing.

  On the other hand, the upper main body 39 has a unit shape integrally including a first air passage body 83, a second air passage body 84, an introduction air passage body 85, a separation air passage body 86, and an upper lid portion 87. Yes.

  The first air passage body 83 includes a circular plate-like lower plate portion 91 that constitutes a lower end portion of the upper body portion 39, and a circular opening at the center of the lower plate portion 91, which is downstream of the lower body portion 38. An opening 92 that is airtightly connected to the (fitting part 77a (ventilation path 77c)), and a cylindrical tube as a ventilation part that is located at the center of the opening 92 and rises upward from the lower plate part 91 A portion 93, a duct portion 94 that communicates with the rear portion of the tube portion 93 and extends rearward and is connected to the lower plate portion 91, and concentrically with the tube portion 93 outside the tube portion 93. Are integrally provided with a cylindrical air guide portion 95 rising upward from the edge of the opening 92. A seal member 96 that closes a gap between the upper body part 39 and the upper part of the lower body part 38 (upper part of the outer frame part 75) is attached to the lower part of the lower plate part 91. Further, the air guide portion 95 is inclined so as to approach the center side of the opening 92, that is, the outer periphery of the tube portion 93 upward.

  In addition, the second air passage body 84 has a cylindrical through-cylinder portion 98 as a rectifying portion, the lower end portion of which is airtightly connected to the upper end portion of the cylindrical portion 93 of the first air passage body 83, and the cylinder passage portion 98. And a flange portion 99 extending in a bowl shape that gradually increases in diameter while being curved outward from the upper end portion thereof. The outer periphery of the flange portion 99 is in contact with the inner edge portion of the upper lid portion 87.

  The introduction air passage body 85 includes a cylindrical connecting tube portion 101 as a ventilation connection portion that is airtightly connected to an upper end portion of the air guide portion 95 of the first air passage body 83, and an upper end of the connecting tube portion 101. A circular extending portion 102 that extends in a bowl shape so as to face the lower portion of the flange portion 99 from the portion to the outside and covers the upper side of the separation air passage body 86, and is provided in a spiral lid shape on the extending portion 102 A plurality of swivel portions 103 forming the upper end portion of the second centrifugal separation portion 44, an exhaust portion 104 integrally provided in a cylindrical shape at the center of each of the swivel portions 103, and an upper portion of the extension portion 102 A branch introduction unit 105 that is provided in communication with these swirl units 103 along the tangential direction of each swirl unit 103 and that introduces dust-containing air into the swivel unit 103 is integrally provided. The upper end portion of the exhaust portion 104 is inserted and connected in an airtight manner to the circular connection hole 106 opened in the flange portion 99 of the second air passage body 84.

  The separation air passage body 86 includes a cylindrical connection tube portion 107 connected to the upper end portion of the air guide portion 95 of the first air passage body 83 outside the connection tube portion 101, and the connection tube portion 107. A circular protrusion 108 extending outwardly from the upper end of the first air passage body 83 and overlapping the upper portion of the duct portion 94 of the first air passage body 83, and projecting downward from the outer peripheral edge of the protrusion 108 to the upper main body 39. A plurality of separation chambers as a main body of a second centrifuge part that is provided on the projecting part 108 at an inner position of the outer wall part 109 and forms a lower end part of the second centrifuge part 44. The swivel tube portion 110 is integrally provided. And these turning cylinder parts 110 are formed in the diameter smaller than the case part 47 of the 1st centrifugation part 41, and also the diameter is gradually reduced from the upper end part to the lower end part. Further, the swivel portion 103 of the introduction air passage body 85 is fitted to the upper end portions of the swirl tube portions 110, respectively, and the lower end portion of the swirl tube portions 110 is the partition body 77 of the lower body portion 38. Are respectively inserted into the communication openings 77b and communicated with the inside of the feeding portion 76 (dust storage portion 62).

  Further, the upper lid portion 87 covers the upper side of the introduction air passage body 85 and is connected to the upper end portion of the separation air passage body 86.

  The aeration air passage section 43 connects the first centrifuge section 41 and each second centrifuge section 44 in an airtight manner. The ventilation air passage portion 43 includes the opening 92 of the first air passage body 83, the space between the tube portion 93 and the duct portion 94, and the cylinder passage portion 98 and the flange portion 99 of the second air passage body 84 and the introduced air. The connecting cylinder part 101, the extension part 102, and the turning part 103 of the road body 85 are airtightly partitioned between the second centrifuge part 44 (the turning cylinder part) via the branch introduction part 105 and the turning part 103. 110 inside). Therefore, the ventilation air passage portion 43 rectifies while reducing the flow rate of the dust-containing air from the upstream side (downstream side of the first centrifugal separation portion 41) to the downstream side (upstream side of the second centrifugal separation portion 44). It is configured as follows.

  Each of the second centrifuges 44 has a turning radius of the dust-containing air smaller than that of the first centrifuge 41 and a turning speed higher than that of the first centrifuge 41. By doing so, dust that is (relatively) smaller than the dust centrifuged in the first centrifugal separator 41 in the dust-containing air that has passed through the first centrifugal separator 41, that is, fine dust is centrifuged. . In other words, each second centrifuge 44 separates dust that could not be separated by the first centrifuge 41 in the air containing dust. The second centrifugal separator 44 is defined above the first centrifugal separator 41 and between the swivel portion 103 and the exhaust portion 104 of the introduction air passage body 85 and the swivel cylinder portion 110 of the separation air passage body 86. The dust-containing air that has passed through the ventilation air passage section 43 from the branch introduction section 105 and the swivel section 103 is introduced into the interior, and swirled in the swivel cylinder section 110. While being dropped to the feed section 42, clean air separated from fine dust is exhausted from the exhaust section 104 to the air passage section 45. The second centrifugal separators 44 are arcuately spaced apart from each other at substantially equal intervals at positions excluding the rear part (duct part 94) around the central axis of the dust collector 26 (first centrifugal separator 41). Is arranged.

  Further, the air passage portions 45 are provided between the exhaust cover 104 and the upper lid portion 87 and the flange portion 99 and the through-cylinder portion 98 of the second air passage body 84, the cylinder portion 93 of the first air passage body 83, and the duct portion 94. And the lower plate portion 91 is hermetically partitioned. That is, the air passage portion 45 communicates with the downstream side of all the second centrifugal separators 44, and from the upper side of each second centrifugal separator 44 to the side of the second centrifugal separators 44, in this embodiment. In addition, the second centrifuge portions 44 arranged in an arc shape (substantially circular shape) continue to the center of the second centrifugal separation portion 44 so as to gradually reduce the air flow rate, and are bent backward. The downstream end side of the air passage portion 45 is an exhaust opening 112 for discharging air from the dust collector 26, and is located between the second centrifuge portions 44 and 44 on the rear side. The exhaust opening 112 is airtightly connected to the intake opening in a state where the dust collector 26 is attached to the main body case 25. Therefore, the exhaust opening 112 is airtightly connected to the suction side of the electric blower 35 via the intake opening. Further, the exhaust opening 112 is located on the rear side of the dust collector 26 on the same side as the inlet 51, and the front of the main body portion 31 of the main body case 25 with the dust collector 26 attached to the main body case 25. Opposite the part.

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

  When starting cleaning, first, the dust collector 26 is attached to the main body case 25.

  At this time, when the dust collector 26 operates to close the lid 48, the fitting support portion 57 of the lid 48 is inserted into the lower end of the dust reservoir 62, and the lower end of the dust reservoir 62 is closed. The

  The lid 48 is locked to the lower end portion of the case portion 47 by the waste disposal button portion 53, thereby closing the dust disposal port.

  Thereafter, the dust collector 26 is placed on and supported by the protruding receiving portion 32 of the main body case 25, and is locked to the main body case 25 by a locking mechanism, so that the inlet of the dust collector 26 is obtained. 51 and the exhaust opening 112 are airtightly connected to the communication opening and the intake opening of the main body case 25, respectively. Therefore, the dust collector 26 is attached to the main body case 25 in an airtight connection between the suction side of the electric blower 35 and the main body suction port 36.

  Note that when the dust collector 26 is already attached to the main body case 25, these operations are unnecessary.

  In this state, the pipe portion 12 is connected to the main body suction port 36 of the cleaner main body 13 (main body case 25). Specifically, the pipe part 12 inserts and connects the connection pipe part 15 to the main body suction port 36, and sequentially connects the extension pipe 18 and the floor brush 19 to the distal end side of the hand operation part 17 as necessary. In this state, the setting button 22 of the hand operation unit 17 is electrically connected to a control circuit unit in the cleaner body 13 (main body case 25) and the like. In addition, when the pipe part 12 is already connected to the cleaner body 13, these operations are unnecessary.

  The user then sets the operation mode of the electric blower 35 by holding the holding part 21 and operating a desired setting button 22. The control circuit unit controls the input of the electric blower 35 corresponding to 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 includes an intake opening, an exhaust opening 112, an air passage 45, a second centrifugal separator 44, an aeration air passage 43, a first centrifugal separator 41, an inlet 51, It acts on the pipe portion 12 via the communication opening, the main body air passage portion, and the main body suction port.

  The user sucks dust together with air from the front end side of the floor brush 19, the extension pipe 18, or 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 through the main body suction port 36, the main body air passage portion, and the communication opening portion to the introduction port 51, and from the introduction port 51, the dust collector 26 Into the first centrifuge 41.

  In the first centrifugal separator 41, the dust-containing air swirls in the swirling air passage 58, whereby particularly coarse dust in the dust-containing air is centrifuged and falls along the inner peripheral surface 47a of the case portion 47. And collected on the lid 48. The coarse dust is carried from the swirling air passage 58 to the compression portion 63 of the exhaust cylinder portion 49 by a part of the flow of the dust-containing air, and the dust-containing air passes through the ventilation opening of the compression portion 63. The compression filter compresses the compression unit 63 around the dust storage unit 62.

  The dust-containing air from which the coarse dust has been separated is filtered by the filter 67 when passing through the opening 66 of the exhaust cylinder portion 49. Further, the dust-containing air that has passed through the filter 67 passes through the outer periphery of the feeding portion 76, that is, the ventilation air passage 81, and in a state where the flow velocity is increased from each ventilation passage 77c to the fitting portion 77a, that is, the fan 78. After being blown and rotated, the fan 78 flows from above the fitting portion 77a to the ventilation air passage portion 43. Then, the dust-containing air is rectified by gradually reducing the flow rate in the ventilation air passage portion 43, and then in each second centrifugal separation portion 44 along the tangential direction from each branch introduction portion 105 to each swivel portion 103. Branches into and flows into (in the swivel cylinder portion 110).

  In these second centrifugal separators 44 (swivel cylinder part 110), the dust-containing air is swirled along the inner peripheral surface (the inner peripheral surface of the rotary cylinder part 110), and fine dust in the dust-containing air is centrifuged. Then, along the second centrifuge part 44 (the inner peripheral surface of the swivel cylinder part 110), it falls from the communication opening 77b onto the inclined surface 76a. Fine dust that has fallen on the inclined surface 76a is scraped off by each wiper 79b of the wiper part 79 by rotating the wiper part 79 integrally with the fan 78 rotating by the air flow blown from each ventilation path 77c. Then, it is scraped off to the dust reservoir 62 via the feed portion main body 76b.

  Then, the clean air from which fine dust has been centrifuged is exhausted from the exhaust section 104 at the center of each second centrifugal separation section 44 to the air passage section 45 and merged, and the flow path 45 reduces the flow rate. While being guided rearward, the air is exhausted from the exhaust opening 112 to the outside of the dust collector 26.

  Thereafter, the air is sucked into the electric blower 35 from the intake opening, passes through the electric blower 35 while cooling, and becomes exhausted air, and is discharged from the electric blower 35 to the outside of the main body case 25 through the exhaust hole. Is exhausted.

  When the cleaning is completed, the user operates the predetermined setting button 22 so that the control circuit unit decreases the input of the electric blower 35 and stops the electric blower 35.

  When a certain amount of dust accumulates in the dust collector 26, the user removes the dust collector 26 from the main body case 25 by externally operating the locking mechanism.

  Then, after carrying the dust collector 26 to a disposal position such as a waste bin, when the user operates the waste disposal button 53 externally, the lid 48 is rotated so as to open by its own weight, so that the dust reservoir 62 The lower part is opened, and the fine dust accumulated in the dust reservoir 62 is discarded from the dust disposal port 54 together with the coarse dust accumulated in a compressed state on the lid 48.

  According to the embodiment described above, the dust (fine dust) on the inclined surface 76 a that guides the dust separated by the second centrifugal separators 44 to the dust reservoir 62 passes through the first centrifugal separator 41. By sweeping into the dust reservoir 62 by the wiper 79b of the wiper part 79 rotated by the rotation of the fan 78 by the air flow, for example, compared with a configuration in which the wiper part is rotated using a separate electric motor or the like. The size of the machine 11 can be suppressed and power can be saved. It can be efficiently scraped off and collected.

  Since the dust reservoir 62 can be opened and closed together with the first centrifugal separator 41 by the lid 48, the dust (coarse dust) accumulated in the first centrifugal separator 41 and the dust accumulated in the dust reservoir 62. (Fine dust) can be easily discarded at the same time.

  Furthermore, since the fan 78 and the wiper part 79 are rotated by the air flow that has passed through the first centrifugal separator 41 by driving the electric blower 35, the wiper part 79 can be reliably operated during cleaning. Therefore, it is necessary to perform an operation for scraping the dust (fine dust) centrifuged by the second centrifugal separator 44 into the dust reservoir 62, for example, after the cleaning is completed or before the cleaning is started. Absent.

  In addition, while the electric blower 35 (the electric vacuum cleaner 11) is being driven, the inside of the feed section 76 is isolated so as to be free of wind, and thus separated by each second centrifugal separator 44 and the feed section 76 (inclined surface 76a). The dust (fine dust) that has fallen on the screen does not soar or return to the second centrifuge 44 again.

  The air flow that rotates the fan 78 passes through the first centrifugal separator 41, and therefore does not include coarse dust that gets entangled with the fan 78, and the fan 78 is caused by such coarse dust (dust). The rotation of the will not lock.

  Further, by forming the wiper 79b with a soft member, the wiper 79b is elastically pressed against the inclined surface 76a, so that dust (fine dust) adhering to the inclined surface 76a can be more reliably scraped off. At the same time, the inclined surface 76a can be cleaned without applying a load to the rotation of the fan 78.

  Further, by forming an air passage 77c that forms an air flow for rotating the fan 78 between the plurality of second centrifugal separators 44, the air passage 77c can be used by effectively utilizing the space between the second centrifugal separators 44. Can be configured in the shortest time, and an increase in the size of the dust collector 26 (the vacuum cleaner 11) can be more reliably suppressed.

  In the above-described embodiment, the number of the second centrifuge units 44 is not limited to a plurality, and for example, only one second centrifuge unit 44 may be disposed above the first centrifuge unit 41.

  Further, the vacuum cleaner 11 is not limited to a canister type, and for example, a so-called upright type in which a floor brush 19 is connected to a lower portion of a vacuum cleaner body 13 (main body case 25) that is vertically long can be used. Can be used.

  Furthermore, 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 scope of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

11 Vacuum cleaner
25 Main unit case
26 Dust collector
35 Electric blower
41 First centrifuge
44 Second centrifuge
49 Exhaust tube as a structure
62 Dust reservoir
76a Inclined surface
77c air passage
78 fans
79 Wiper part
79b Wiper as cleaning member

Claims (3)

A body case containing an electric blower;
A dust collecting device that is detachably provided in the main body case and separates and collects dust from the dust-containing air sucked in by the operation of the electric blower;
The dust collector is
A first centrifugal separation unit having a cylindrical structure for swirling the dust-containing air along the outside at the center, and separating dust in the dust-containing air by the swirling;
A second centrifuge that is located above the first centrifuge and separates dust that is smaller than the dust separated by the first centrifuge in the dust-containing air that has passed through the first centrifuge;
A dust reservoir that is located inside the structure and that collects the dust separated by the second centrifugal separator;
An inclined surface for guiding the dust separated by the second centrifugal separator to the dust reservoir;
A fan rotated by an air flow passing through the first centrifuge;
A vacuum cleaner comprising: a wiper portion that scrapes dust on the inclined surface into the dust reservoir by rotation of the fan. The electric vacuum cleaner according to claim 1, wherein the wiper portion includes a cleaning member that is formed of a soft member and contacts the inclined surface. A plurality of second centrifuge units are arranged apart from each other,
The vacuum cleaner according to claim 1 or 2, wherein the dust collector includes an air passage that is located between the second centrifugal separators and forms an air flow that rotates the fan.

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