JP6449497B2 - Electric vacuum cleaner - Google Patents

Description

  The present invention relates to a vacuum cleaner.

  In recent years, in order to improve usability, it has been desired to reduce the size and weight of the vacuum cleaner body.

  In this regard, Patent Document 1 includes a vacuum cleaner body having wheels and a suction port disposed at the front of the vacuum cleaner body, and the vacuum cleaner body has a cylindrical central axis behind the suction port body. Is arranged in a posture inclined in the front-rear oblique direction of the vacuum cleaner main body, and an electric blower and power cord winder arranged to rotate around the vertical axis behind the dust collector A vacuum cleaner is described.

JP 2012-65879 A

  However, as described in Patent Document 1, the conventional electric blower support structure has a structure in which the upper and lower portions of the electric blower are sandwiched by the fan cover and the bottom of the fan cover is fixed to the bottom of the housing of the cleaner body. Therefore, there is a problem that the vibration of the electric blower during driving is easily transmitted to the floor via the fan cover, the housing of the cleaner body, and the wheels.

  The present invention has been made in view of the above circumstances, and provides a vacuum cleaner that suppresses vibrations transmitted to the floor surface while reducing the size and weight of the vacuum cleaner body and reducing the size. .

This invention
A connection part that is arranged on the front side of the vacuum cleaner body and to which the suction hose part is connected;
A storage battery disposed on the rear side of the vacuum cleaner body opposite to the front side;
A dust cup disposed between the connecting portion and the storage battery;
Placing the vacuum cleaner body, and comprising a charging base for charging the storage battery,
The charging stand is
A first recess corresponding to the outer curved surface on the rear side of the vacuum cleaner body;
In a state where the rear side of the cleaner body is placed facing downward, the second recess for preventing rotation of the cleaner body,
A connector terminal that is electrically connected to the cleaner body is provided in the first recess,
A part of the cleaner body having a shape different from the outer curved surface that is fitted into the first recess is fitted into the second recess, and a part of the cleaner body is locked to the inner surface of the second recess. is the provided vacuum cleaner that to prevent rotation of the cleaner body by.

  In the electric vacuum cleaner of the present invention, the outer peripheral portion of the electric blower is fixed to the fan cover via an elastic member so that the lower portion of the electric blower is lifted from the bottom of the fan cover. Therefore, even if the bottom part of the fan cover is attached to the bottom part of the housing of the cleaner body, the vibration of the electric blower during driving is hardly transmitted to the floor surface.

It is an external appearance perspective view of the vacuum cleaner which concerns on Embodiment 1 of this invention. It is a top view of the vacuum cleaner main body of the vacuum cleaner shown in FIG. It is a side view of the vacuum cleaner main body of the vacuum cleaner shown in FIG. It is a front view of the vacuum cleaner main body of the electric vacuum cleaner shown in FIG. It is the perspective view seen from the back slanting lower part of the vacuum cleaner main body of the vacuum cleaner shown in FIG. It is AA arrow sectional drawing in the state in which the cleaner body of FIG. 2 was connected with the suction hose. It is a BB arrow sectional view in the state where the cleaner body of Drawing 3 was connected with the suction hose. It is a principal part disassembled perspective view of the cleaner body shown in FIG. It is a principal part disassembled perspective view of the cleaner body shown in FIG. It is a principal part disassembled perspective view of the cleaner body shown in FIG. It is principal part sectional drawing which shows the structure of the ring-shaped wheel of the cleaner body shown in FIG. It is a fragmentary sectional view which shows the periphery structure of the electric blower which looked at the cleaner body of FIG. 6 from the opposite side. It is the fragmentary perspective view which looked at the state which removed the rear part housing | casing of the vacuum cleaner main body from back diagonally downward. It is an external appearance perspective view of the dust collection unit with which the cleaner body shown in FIG. 3 is equipped. It is a longitudinal cross-sectional view of the dust collection unit shown in FIG. (A) is a perspective view which shows the charging stand which charges the cleaner body of FIG. (B) is a perspective view which shows the state which set the vacuum cleaner main body to the charging stand of FIG. 16 (A). It is explanatory drawing which shows the flow path of the airflow in the cleaner body shown in FIG. It is explanatory drawing which shows the flow path of the airflow in the cleaner body of Embodiment 2.

  Hereinafter, the present invention will be described in more detail with reference to the drawings. In addition, the following description is an illustration in all the points, Comprising: It should not be interpreted as limiting this invention.

(Embodiment 1)
[Overall description of the vacuum cleaner]
1 is an external perspective view of a vacuum cleaner according to Embodiment 1 of the present invention, and FIGS. 2, 3 and 4 are a plan view, a side view and a front view of a vacuum cleaner main body of the vacuum cleaner shown in FIG. FIG. 5 is a perspective view of the vacuum cleaner shown in FIG. 6 is a cross-sectional view taken along the line AA with the vacuum cleaner body of FIG. 2 connected to the suction hose, and FIG. 7 is a view of the vacuum cleaner body of FIG. 3 connected to the suction hose. It is BB arrow sectional drawing.

  As shown in these drawings, the vacuum cleaner 1 includes a cleaner main body 100A having a wheel in which a cyclone dust collecting unit 500 is detachably incorporated, and a suction hose portion 300.

  The suction hose part 300 includes a suction hose 301, an extension pipe 302, a suction port body 303 connected to the tip of the extension pipe 302, a hand handle 304, an operation part 305 attached to the hand handle 304, and a connection part. 306.

  The suction hose 301 is detachably connected to the front of the cleaner main body 100A through the connection portion 306, and the user brings the suction port body 303 at the tip of the extension pipe 302 into contact with the floor surface while holding the hand handle 304 by hand. It can be moved while.

  In the vacuum cleaner main body 100A, the wheels are a pair of large ring-shaped wheels 140 disposed on the left and right side surfaces, a small roller-shaped front wheel 117 disposed at the front lower portion, and a rear wheel disposed at the rear lower portion. It has a free wheel 118 which is a caster that can rotate and turn. Therefore, when the user moves while holding the hand handle 304 by hand, the cleaner body 100A can follow the operation.

  In the state where the vacuum cleaner main body 100A is grounded so as to be able to run on the floor surface, the front is the direction in which the vacuum cleaner main body 100A is advanced, the rear is the direction in which the vacuum cleaner main body 100A is moved backward, and the upper is The direction is the direction opposite to the floor surface, the lower direction is the direction on the floor surface side, and the left-right direction is the direction orthogonal to both sides with respect to the front-rear direction.

  The vacuum cleaner main body 100A is supported by a pair of wheels 140 and a rear wheel 118 in a free state shown in FIG. 3, and is pulled forward by a suction hose 301 shown in FIG. 117. That is, the front wheel 117 is lifted from the floor surface F in the state shown in FIG. 3, and the free wheel 118 is lifted from the floor surface F in the state shown in FIG.

  The ring-shaped wheel 140 is a specific embodiment of the present invention.

  The vacuum cleaner main body 100A sucks dust on the floor surface together with air from the suction port body 303 to the dust collection unit 500 through the extension pipe 302 and the suction hose 301. Ring-shaped wheel bodies 110 are arranged on the left and right sides of the dust collection unit 500.

  The user visually checks the dust collection status of the dust collection unit 500 inside the vacuum cleaner main body 100A from the central opening 141 of the ring-shaped wheel main body 110, and pulls out the dust collection unit 500 from the upper part of the vacuum cleaner main body 100A as appropriate. Dust collected in the unit 500 can be discarded.

  Further, since the cleaner body 100A includes the hand handle 115, the user can hold the hand handle 115 and lift the cleaner body 100A for transport.

  8 to 10 are exploded perspective views of the cleaner body 100A. 11 is a cross-sectional view of the main part showing the configuration of the ring-shaped wheel 140 of the cleaner main body 100A shown in FIG. 3, and FIG. 12 shows the periphery of the electric blower 106 when the cleaner main body 100A of FIG. 6 is viewed from the opposite side. FIG. 13 is a partial cross-sectional view showing the structure, and FIG. 13 is a partial perspective view of the state in which the rear housing of the cleaner body 100A is removed as viewed obliquely from the lower rear.

  Hereinafter, the configuration of the cleaner body 100A will be described with reference to FIGS.

The vacuum cleaner main body 100A includes a housing made of a plurality of members, and is connected to the suction hose portion 301 and collects dust by a swirling airflow, and the suction hose portion 301 is disposed in front of the dust collection unit 500. An electric blower 106 that sucks air from the dust collecting unit 500, a storage battery B for supplying electric power to the electric blower 106, and circuit boards K ₁ and K ₂ electrically connected to the electric blower 106. Provided inside the housing.

  More specifically, the housing constituting the vacuum cleaner main body 100A includes a main first housing 101 (see FIG. 8) and a first housing for housing the electric blower 106 installed in front of the first housing 101. A fan cover 102 (see FIG. 9) made up of a first member 102a and a second member 102b, and a second housing 103 (see FIG. 8) that is installed at the center of the first housing 101 and houses the dust collection unit 500. included.

  The casing further includes a lower relay duct 104 and an upper relay duct 105 (see FIG. 10) that connect the dust collection unit 500 and the electric blower 106 to circulate air, and are disposed in front of the first casing 101. A third housing 107 (see FIG. 10), a fourth housing 108 (see FIG. 10) disposed above the third housing 107, and a storage battery B and an ion generator behind the first housing 101. A fifth housing 109a (see FIG. 8) and an LED cover 109b, which are installed so as to accommodate P, the LED board L, and the charging connector terminal unit C, and cover the contained area, are included. .

A lower flow path 138 and a rear flow path 139 that guide exhaust from the electric blower 106 to the exhaust port 133 are formed in the lower and rear portions of the dust collection unit 500 in the housing of the vacuum cleaner main body 100A (see FIGS. 6 and 17). . The circuit boards K ₁ and K ₂ and the storage battery B are disposed in the exhaust flow path having the lower flow path 138 and the rear flow path 139.

  The first housing 101 includes a bottom wall 101a, a lower front wall 101b that is continuous with the bottom wall 101a, and a rear wall 101c that is continuous with the bottom wall 101a. A window 101e is provided on the surface, and a ring-shaped window frame 101f is provided around the window 101e.

As shown in FIGS. 8 and 12, the bottom wall 101 a includes a main surface portion 101 a ₁ where the dust collection unit 500 is installed and an inclined surface portion 101 a ₂ inclined obliquely upward from the main surface portion 101 a ₁ forward. A roller 117a of the front wheel 117 is rotatably provided through a shaft 117b in a concave portion formed at the boundary between the main surface portion 101a ₁ and the inclined surface portion 101a _2, and a pin 116a is pinned in the concave portion formed in the inclined surface portion 101a _2. It is fixed by a fixing member 116b. This pin 116 is a pin for attaching both ends of a shoulder belt (not shown) with hooks. The shoulder belt is used by a user to lift the cleaner body 100A when cleaning a staircase or the like. In this case, the shoulder belt is attached to the user's shoulder while keeping the cleaner body 100A in a stable posture by attaching both ends of the handbag handle 115, which will be described later, provided on the front side of the cleaner body 100A to the pins 116 through the shoulder belt. Can be hung.

The rear wall 101c of the first casing 101 is disposed between the second casing 103 and the fifth casing 109a, and air that has passed through the lower flow path 138 is passed to the rear flow path 139 below the rear wall 101c. A plurality of slits 101c ₁ (see FIG. 13) for escaping are formed. Also forms a battery housing recess for housing the battery B is upper than a plurality of slits 101c ₁ retracted in the rear wall 101c. Further, an enclosure wall 101c ₃ opening rearward and downward is formed on the outer surface of the rear wall of the battery housing recess, and a plurality of vent holes 101c ₄ are formed on both sides of the enclosure wall 101c ₃ . The ion generator P is disposed below the enclosure wall 101c _{3 on} the rear wall 101c, the connector terminal unit C is disposed below the ion generator P, and the LED board L is disposed above the enclosure wall 101c ₃ .

  The second casing 103 (see FIG. 8) installed at the center of the first casing 101 has an upper opening 103a at the top and windows 103b on both sides.

As shown in FIGS. 5, 8, and 13, the fifth housing 109 a includes a bottom wall 109 a _{1 to} which the universal wheel 118 is attached, and a circle extending upward in an arc from the rear end of the bottom wall 109 a _1. and an arc-shaped rear wall 109a _2. The universal wheel 118 includes a wheel 118a and a disk-shaped universal frame 118b that rotatably holds the wheel 118a.

The bottom wall 109a ₁ is formed with a circular recess having a center hole for pivotally mounting the free frame 118b of the free wheel 118 by bolt / nut connection.

In the arc-shaped rear wall 109a ₂ , an exhaust port 133 and an ion emission port 134 are formed, and an opening for exposing the connector terminal unit C to the outside is formed. In the arc-shaped rear wall 109a ₂ , the exhaust port 133 is disposed at a position facing the vent hole 101c ₄ and a position facing the ion generator P, and the ion emission port 134 is opposed to a region surrounded by the surrounding wall 101c ₃ . Placed in position.

As shown in FIGS. 2 and 8, the LED board L includes a battery display lamp L ₁ , a notification display lamp L ₂ and an ECO display lamp L ₃ (see FIG. 2). LED cover 109b has a translucent portion which transmits light of these lamps L ₁ ~L _3.

The battery display lamp L ₁ displays the level of the battery voltage supplied by the storage battery B and the completion of charging using an LED whose emission color changes. In one example, when the battery voltage is sufficiently high after full charge, it lights in green, and as the remaining battery capacity of the storage battery B decreases with use and the battery voltage drops, the display color changes from green to yellow and then red, and charging is required. Let users know when it ’s right. Furthermore, it flashes red during charging, and lights up in green when charging is completed to notify the user of completion of charging. Notice display lamp L ₂ is turned on when there is a notice to the user. When the “OFF” button of the operation unit 305 (see FIG. 1) is operated while the notification display lamp L ₂ is lit, the control unit provided on the circuit board K ₁ or K ₂ corresponds to the content of the notification. Play audio data to inform the user. The ECO display lamp L ₃ lights up when the “ON” button of the operation unit 305 is operated and operates in the eco mode. The eco mode is a mode in which the control unit switches the suction force of the electric blower 106 depending on whether the place of cleaning is a carpet or flooring. Further, when the suction port body 303 moves away from the floor during the operation in the eco mode, the control unit stops a brush drive motor (not shown) provided in the suction port body 303 in response thereto. A control part judges the place of cleaning by the load of a brush drive motor.

  16A is a perspective view showing a charging stand for charging the cleaner body of FIG. 2, and FIG. 16B is a perspective view showing a state where the cleaner body is set on the charging stand of FIG. 16A. It is.

  The charging stand 600 for charging the storage battery B of the cleaner body 100A includes a base body 601 having a recess 601a into which the rear part of the cleaner body 100A is stably fitted, a connector terminal unit 602 provided in the recess 601a, and a connector terminal. An electric cord 603 having one end electrically connected to the unit 602 and a plug provided at the other end to be plugged into an indoor commercial power source (outlet). In FIG. 16A, the other end of the electric cord 603 is not shown.

  When charging the storage battery B of the vacuum cleaner main body 100A, the vacuum cleaner main body 100A is installed on the concave portion 601a of the charging base 600 electrically connected to a commercial power supply with the connector terminal unit C facing downward. At this time, when the user holds the handle 115 and lifts the cleaner main body 100A, the rear part naturally faces downward, and therefore the cleaner main body 100A may be placed on the charging stand 600 in this state. Thereby, the connector terminal unit C of the cleaner body 100A and the connector terminal unit 602 of the charging stand 600 are electrically connected, and the storage battery B of the cleaner body 100A is charged.

  In addition, the male plug of the electric cord having male and female plugs at both ends is connected to a commercial power source, the female plug is connected to the connector terminal unit C of the vacuum cleaner main body 100A, and electric power is supplied from the commercial power source. You may make it charge the storage battery B, driving the air blower 106 and cleaning. In this way, cleaning can be continued even when the remaining battery level becomes zero during cleaning.

The rear channel 139 is formed by joining the fifth casing 109a and the LED cover 109b to the first casing 101 (see FIGS. 6 and 17). The rear flow path 139 is a branch made up of a first rear flow path 139a through which air passes through the battery housing recess side of the first housing 101 and a second rear flow path 139b through which air passes through the fifth housing 139a. It is a flow path. Incidentally, the air flow of the first rear passage 139a toward upward from below flows through the plurality of vent holes 101c ₄ to the second rear passage 139b. The air flow of the entire vacuum cleaner body 100A will be described in detail later.

  The fan cover 102 (see FIG. 9) includes a first member 102a that covers a front portion of the outer peripheral portion of the electric blower 106 and forms the lower half of the lower flow path 138 (see FIG. 17), and an outer peripheral portion of the electric blower 106. And a second member 102b that covers the rear portion and forms the upper half of the lower flow path 138.

The electric blower 106 is provided with a gap in the first member 102a so that the rotation axis direction thereof, that is, the blowing direction faces the direction of gravity, and between the lower portion of the electric blower 106 and the bottom of the first member 102a. The electric blower 106 is installed via a ring-shaped elastic member 401 attached to the outer periphery of the electric blower 106 so that the electric blower 106 is lifted with respect to the bottom of the first member 102a. This gap is a space where lead wires for connecting the electric blower 106 and the circuit boards K ₁ and K ₂ are disposed.

  More specifically, the outer peripheral portion of the electric blower 106 to which the ring-shaped elastic member 401 is attached has an annular projecting portion 106a projecting in the radial direction.

  The ring-shaped elastic member 401 includes an outer flange 401a that is in close contact with the lower surface of the annular protrusion 106a of the electric blower 106 and a short cylindrical portion 401b that is in close contact with the outer peripheral surface below the lower surface of the annular protrusion. It becomes.

The first and second members 102 a and 102 b of the fan cover 102 include arc-shaped step portions 102 a ₁ and 102 b ₁ that are in close contact with the outer flange portion 401 a of the ring-shaped elastic member 401, and a short cylindrical portion of the ring-shaped elastic member 401. An electric blower housing portion having arcuate wall portions 102a ₂ and 102b _{2 in} close contact with 401b and a circuit board housing portion extending rearward from the bottom of the electric blower housing portion. Air holes 102a ₃ and 102b ₃ through which air flows are formed in the rear portions of the circuit board housing portions of the first and second members 102a and 102b.

When assembling the fan cover 102, for example, the electric blower 106 to which the ring-shaped elastic member 401 is attached is fitted into the electric blower housing portion of the first member 102a, and the circuit boards K ₁ and K ₂ are connected to the circuit board of the first member 102a. Next to the housing portion and fixed with screws, after wiring work, the second member 102b is joined to the first member 102a so as to cover the rear portion of the electric blower 106 and the circuit boards K ₁ and K ₂ . When assembled, the fan cover 102 is formed with an annular stepped portion formed of arc-shaped stepped portions 102a ₁ and 102b _1, and the annular protruding portion 106a of the electric blower 106 is formed on the ring-shaped elastic member 401 on the annular stepped portion. It is put through. Therefore, the electric blower 106 is supported in a state where the lower part thereof is lifted up without contacting the bottom of the first member 102a.

In addition, by assembling the fan cover 102, a space for housing the circuit boards K ₁ and K ₂ is formed by the circuit board housing portions of the first and second members 102a and 102b, and this space serves as the lower flow path 138. .

  The lower relay duct 104 (see FIG. 10) includes a horizontal relay duct 104a and a vertical relay duct 104b on the upper surface. The upper relay duct 105 is provided to connect the outflow duct 571 (see FIG. 14) of the dust collecting unit 500 to the vertical relay duct 104b (see FIG. 10) of the lower relay duct 104 via the packing 124.

  The vertical relay duct 104 b of the lower relay duct 104 is provided to connect the upper relay duct 105 to the electric blower 106. At this time, a ring-shaped elastic seal member 402 is provided between the upper end of the electric blower 106 and the vertical relay duct 104b. Further, packings 125 and 126 are attached to the entrances and exits of the horizontal relay duct 104a (see FIG. 10) of the lower relay duct 104, respectively.

  The horizontal relay duct 104a of the lower relay duct 104 connects the connecting portion 306 (see FIGS. 1, 6 and 7) of the suction hose portion 300 to the inlet 503 (see FIG. 14) of the dust collecting unit 500 via packings 125 and 126. Are provided for connection.

  Accordingly, the flow path from the connection portion 306 of the suction hose portion 300 to the inlet 503 of the dust collection unit 500 via the horizontal relay duct 104a of the lower relay duct 104, and the upper relay duct from the outflow duct 571 of the dust collection unit 500 A flow path reaching the electric blower 106 through the vertical relay duct 104b of the lower relay duct 104 and 105 is formed.

  Further, the inlet of the upper relay duct 105 connected to the outlet from the outlet duct 571 of the dust collecting unit 500 and the inlet of the horizontal relay duct 104a of the lower relay duct 104 from the connecting portion 306 of the suction hose part 300 are the same. It is formed on the surface side. This is because the dust collection unit 500 is likely to be stable because the inlet is pulled in the same direction by the suction force of the electric blower 106 when cleaning.

  Further, the electric blower 106 is in a state where the outer peripheral portion and the upper end thereof are supported by the ring-shaped elastic member 401 and the ring-shaped elastic seal member 402 and the lower portion thereof is lifted without contacting the bottom portion of the first member 102a. Therefore, vibration during driving is not easily transmitted to the floor surface F via the first housing 101 and the pair of ring-shaped wheels 140.

The third casing 107 (see FIG. 10) that covers the front side of the lower relay duct 104 is inserted with the connecting portion 306 of the suction hose portion 300 on the front side thereof so that the lateral relay duct 104a and the packing 126 of the lower relay duct 104 are connected. An opening 107a for connection via the terminal, a terminal 107b for connecting a terminal (not shown) of the connection 306 to the cleaner body 100A, and a pair of mounting recesses 107c to which both ends of the hand handle 115 are attached. doing. The circuit boards K ₁ and K _{2 of the} vacuum cleaner main body 100A and the operation unit 305 of the suction hose unit 300 are connected by wiring via the terminal of the connection unit 306 of the suction hose unit 300 and the terminal unit 107b.

  The fourth housing 108 is disposed above the third housing 107 and covers the upper portion of the third housing 107 and the upper relay duct 105.

  The hand handle 115 is formed in a U shape by combining a lower part 115 a and an upper part 115 b, and both ends thereof engage with a pair of mounting recesses 107 c of the third housing 107.

  As shown in FIG. 1, FIG. 3, FIG. 8, and FIG. 11, the wheel 140 includes a ring-shaped wheel guide 111 fitted into the outer periphery of the ring-shaped window frame 101 f of the first housing 101, and the wheel guide 111. A ring-shaped wheel body 110 that is slidably fitted to the outer periphery, a ring-shaped wheel cover 112 that is fitted to the inner periphery of the window frame 101f to prevent the wheel body 110 from falling off the wheel guide 111, and the window frame 101f The ring-shaped decorative cover 113 fitted into the outer peripheral part of the upper half and the ring-shaped decorative cover 114 fitted into the outer peripheral part of the wheel cover 112 are formed in a ring shape having a central opening 141 in the center.

  In the wheel 140, the lower portion of the wheel main body 110 protrudes below the ring-shaped decorative cover 114 and comes into contact with the floor surface F. The proportion of the size of the wheel 140 is formed so as to occupy most of the overall size of a normal electric vacuum cleaner main body. This is formed with a wheel 140 having a diameter substantially the same as the height of the vacuum cleaner main body 100A. And the wheel 140 is arrange | positioned in the approximate center part of the whole vacuum cleaner main body 100A, and it seems that a sense of stability is felt because this wheel 140 is large, and since there is the wheel 140 in a substantially center part, it is always easy to see and it is on both sides. It is possible to visually check the state of dust accumulated in the dust collection unit 500 from the center portion of a certain wheel 140.

  In this embodiment, although the case where the wheel 140 has the center opening 141 in the center part was demonstrated, this invention is not limited only to it. For example, instead of the ring-shaped wheel cover 112, a wheel cover configured not to have an opening at the center and to cover the central part of the side surface of the cleaner body 100A may be used. In this case, at least a part of the wheel cover is formed of, for example, a resin having transparency, so that the dust collection state of the dust collection unit 500 can be visually observed as in the present embodiment. it can. Moreover, by comprising in this way, the rigidity of the longitudinal direction of the vacuum cleaner main body 100A can be reinforced, keeping the horizontal width of the vacuum cleaner main body 100A small.

As shown in FIG. 4, the ring-shaped wheel covers 112 on both the left and right sides have a front curved plate portion 112 a that curves to the front side of the cleaner body 100 </ b> A. Further, a speaker S is provided on one inner surface side of the front curved plate portion 112a so as to face the inner surface, and the speaker small hole 112a ₁ is located at a position shifted from the speaker S in the front curved plate portion 112a. Is formed. In the present embodiment exemplifies a case formed loudspeaker small hole 112a ₁ forward curved plate portion 112a of the terminal portion 107b side.

The speaker S is held by a speaker holder SH, and this speaker holder SH is attached to a recess provided in the front portion of the first housing 101. In addition, the speaker holder SH has a concave portion that forms a cavity between a part of the outer periphery of the speaker S and the inner surface of the front curved plate portion 112a of the ring-shaped wheel cover 112. A small speaker hole 112a ₁ is disposed. That is, the speaker small hole 112a ₁ is disposed at a position slightly deviated from the speaker S. Thereby, for example, the trouble that the speaker S is destroyed by being inserted into the speaker small hole 112a ₁ with a thin tip such as a needle can be prevented. Note that the speaker S reproduces audio data corresponding to the contents of the notification.

  FIG. 14 is an external perspective view of the dust collection unit 500. 15 is a cross-sectional view of the dust collection unit 500 taken along the line AA shown in FIG. The dust collection unit 500 includes a cup cover unit 570, a filter unit 550, an inner cylinder unit 530, and a bottomed cylindrical dust cup 501.

  The dust cup 501 is formed of a transparent or translucent resin so that the dust collection state is visible from the outside. As shown in FIG. 14, an inflow port 503 into which an air flow from the suction hose unit 300 (see FIG. 1) flows is provided on the front peripheral surface of the dust cup 501.

  Referring to FIG. 7, the connection portion 306 of the suction hose portion 300 is bent from the center of the cleaner body 100 </ b> A so that air flows straight into the inner circumferential surface of the cylindrical dust cup 501 from the tangential direction. doing.

  Referring to FIG. 15, the inner cylinder unit 530 includes an upper cup cover 537 that houses the filter unit 550, a lower dust partition 535, and an inner cylinder 533 that connects between them. An opening is formed at the bottom of the cup cover 537 to which the inner cylinder 533 is connected. A slit-like outlet 533b is formed around the inner cylinder 533, and a mesh-like filter (not shown) is disposed at the outlet 533b. The dust partition 535 includes a flange portion 535 a having an outer diameter larger than that of the inner tube 533, a large-diameter tube portion 535 b surrounding the outer periphery of the flange portion, and a small-diameter tube portion 535 c whose lower end is in contact with the bottom center portion of the dust cup 501.

  When the electric blower 106 is operated, the air flow flows straight into the dust cup 501 in the circumferential tangent direction via the connecting portion 306 and the lateral relay duct 104a, and forms a high-speed swirling air flow in the dust cup 501.

  Thereby, the dust contained in the airflow is centrifuged. Since the dust collecting unit 500 is installed so that the central axis of the swirling airflow to be formed faces the direction of gravity, the heavy dust among the centrifugally separated dust is accumulated below the flange portion 535a by the action of gravity. .

  Here, the central axis of the swirling airflow of the dust collection unit 500 being directed in the direction of gravity does not require the central axis of the swirling airflow to be directly below, and the dust collection unit 500 is directed to the cleaner body 100A in the vertical direction. It only has to be arranged.

  A light thing is filtered with the mesh-like filter arrange | positioned in the outflow port 533b with an air flow. In addition, minute dust rises in the inner cylinder 533 through the outlet 533b and is filtered by the filter unit 550. The filter unit 550 includes a pleated filter in which a peak portion and a valley portion are continuous. The filtered air flow is sucked into the electric blower 106 through the outflow duct 571.

  The dust collection unit 500 collects dust by centrifugal separation, but is not limited thereto. For example, a paper pack may be used to collect dust.

  As shown in FIG. 3, the vacuum cleaner main body 100 </ b> A configured as described above is supported by the wheel main body 110 and the free wheel 118 of the pair of wheels 140 in a free state in which the suction hose 301 is removed, as shown in FIG. 6. In the state pulled forward by the suction hose 301, the pair of wheels 140 are supported by the wheel body 110 and the front wheel 117. That is, the center of gravity position of the cleaner body 100A is set so as to be in such a state. In this way, the step-over performance can be improved while suppressing the front side lifting of the cleaner body 100A.

  FIG. 17 is an explanatory diagram showing airflow paths in the cleaner body 100A shown in FIG. As shown in FIG. 17, the airflow from the suction hose 301 flows into the dust collection unit 500 through the connection portion 306 and above the electric blower 106.

  The inflowing air flow becomes a swirl flow in the dust cup 501 of the dust collection unit 500. After the dust collection is centrifuged, the air flow rises in the inner cylinder 533, passes through the filter unit 550, passes through the electric blower 106, and enters the lower flow path 138 below the dust collection unit 500. enter. The swivel axis is slightly tilted rearward with respect to the vertical direction. When viewed from the side as shown in FIG. 17, the flow path flowing into the dust cup 501 from the connection portion 306 is substantially orthogonal to the pivot axis.

Then, after the air flow passes through the lower flow path 138 while cooling the circuit boards K ₁ and K ₂ , a part of the air flow flows into the first rear flow path 139a of the rear flow path 139 and enters the storage battery B. Cool and discharge to the outside through the exhaust port 133. On the other hand, the remaining part of the airflow that has passed through the lower flow path 138 flows into the second rear flow path 139b and is discharged from the exhaust port 133 to the outside. At this time, part of the air flow passing through the second rear passage 139b, the enclosure wall 101c ₃ flows into (see Fig. 13) surrounded by regions, ions with ions generated in the ion generator P It discharges outside from the discharge port 134 (refer FIG. 5). Ions are not released to the outside by the large amount of air flow from the rear channel 139, external high concentration of ions in a small amount of air flow is limited to the area surrounded by the surrounding wall 101c ₃ from the ion discharge outlet 134 Is released.

In addition, the noise that is about to go out from the electric blower 106 in the air flow is attenuated by the long lower flow path 138 below the dust collection unit 500 and the circuit boards K ₁ , K in the lower flow path 138 are attenuated. ₂ and dispersed and absorbed by obstacles such as the storage battery B, the connector terminal unit C, and the ion generator P in the rear channel 139. Thereby, the noise of the electric blower 106 going out from the cleaner body 100A is effectively reduced.

  Also, as shown in FIG. 17, since the airflow passage is divided into an upper part and a lower part of the cleaner body 100A and is not provided on the side surface portion, the lateral width of the cleaner body 100A is minimized. ing.

In the first embodiment, the case where the circuit boards K ₁ and K ₂ and the storage battery B are entirely accommodated in the exhaust passage is illustrated, but the present invention is not limited to this. For example, the circuit boards K ₁ and K ₂ and the storage battery B may be configured such that a part thereof constitutes a wall portion of the exhaust flow path and the remaining portion is disposed outside the exhaust flow path.

(Embodiment 2)
FIG. 18 is an explanatory diagram showing airflow paths in the cleaner body 100B of the second embodiment. In FIG. 18, the same elements as those in FIG. 17 are denoted by the same reference numerals.

The vacuum cleaner main body 100B of the _second embodiment is similar to the vacuum cleaner main body of the first embodiment except that the storage battery B is disposed in the lower flow path 138 and the circuit boards K ₁ and K ₂ are disposed in the rear flow path 139. The same as 100A.

In this way, since the storage battery B is cooled on the upstream side of the circuit boards K ₁ and K ₂ , the cooling effect of the storage battery B can be enhanced, and the cleaner body 100B has a low center of gravity and travels. Improves stability.

(Summary)
The vacuum cleaner 1 of the present invention is
A suction hose portion 300 and a vacuum cleaner main body 100A;
The vacuum cleaner body 100A includes:
A housing,
A dust collection unit 500 that collects dust sucked through the suction hose portion 300;
An electric blower 106 for sucking air from the suction hose part 300 through the dust collection unit 500;
A fan cover 102 that supports the electric blower 106 so as to circulate air in the vertical direction;
The electric blower 106 is installed in the fan cover 102 via an elastic member 401 attached to the outer periphery of the electric blower 106.

  The vacuum cleaner 1 of this invention may be comprised as follows, and may be combined suitably.

(1) The vacuum cleaner main body 100A further includes relay ducts (a lower relay duct 104 and an upper relay duct 105) that connect the dust collection unit 500 and the electric blower 106 to distribute air.
An upper end of the electric blower 106 may be connected to the relay duct via an elastic seal member 402.

  In this way, since the upper end of the electric blower is pressed by the relay duct via the elastic seal member, the vertical vibration of the electric blower can be reduced.

(2) The vacuum cleaner main body 100A is disposed at the rear of the vacuum cleaner main body 100A for discharging the exhaust from the electric blower 106, and the lower part of the dust collecting unit 500, and the electric blower. A lower flow path 138 for guiding exhaust from the exhaust 106 to the exhaust outlet 133,
The fan cover 102 covers the front part of the outer peripheral part of the electric blower 106 and covers the rear part of the outer peripheral part of the electric blower 106 and the first member 102a constituting the lower half of the lower flow path 138 A second member 102b constituting the upper half of the lower flow path 138 may be included.

  If it does in this way, while being able to improve assembly property, suppressing the number of parts of a fan cover, cost reduction and weight reduction can be achieved.

(3) the cleaner body 100A is further provided with an ion generator P arranged in the vicinity of the exhaust port 133, and a lower opening shaped surrounding wall 101c ₃ provided above the ion generator P,
An ion emission port 134 may be formed in a region surrounded by the surrounding wall 101c ₃ in the casing and at a position above the ion generator P.

  If it does in this way, a part of air flow will flow into the area | region enclosed by the surrounding wall, and the ion which generate | occur | produced with the ion generator can be discharge | released outside from an ion discharge port. That is, ions are not discharged from the exhaust port by a large amount of air flow, but high concentration ions can be discharged from the ion discharge port by a small amount of air flow.

(4) The cleaner body 100A includes a storage battery B for supplying electric power to the electric blower 106, circuit boards K ₁ and K ₂ electrically connected to the electric blower 106, and the housing in the housing. A rear channel 139 that communicates with the lower channel 138 at the rear of the dust collecting unit 500 and guides exhaust from the electric blower 106 to the exhaust port 133;
The storage battery B and the circuit boards K ₁ and K ₂ may be disposed in an exhaust flow path having the lower flow path 138 and the rear flow path 139.

  In this way, the storage battery and the circuit board can be cooled by the exhaust flow. In addition, since the main body of the vacuum cleaner includes a storage battery, it can be conveniently cleaned in a place where there is no commercial power source (outlet).

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention. Furthermore, a new technical feature can be formed by combining the technical means disclosed in each embodiment.

The disclosed embodiments should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims. (Supplement)
This invention comprises a suction hose part and a vacuum cleaner body,
The vacuum cleaner body is
A housing,
A dust collection unit that collects dust sucked through the suction hose portion;
An electric blower for sucking air from the suction hose part via the dust collection unit;
A fan cover that supports the electric blower so as to circulate air in the vertical direction;
The electric blower provides a vacuum cleaner installed in the fan cover through an elastic member attached to an outer peripheral portion of the electric blower.

1: Vacuum cleaner 100A, 100B: Vacuum cleaner body 101: First housing 101c ₃ : Enclosure wall 102a: First member 102b: Second member 102: Fan cover 103: Second housing 104: Lower relay duct 105: upper junction duct 106: electric blower 107: the third case 108: fourth housing 109a: 5 housing 109b: LED cover 140: wheel 110: ring-like wheel body 112a _1: loudspeaker small hole 115: loading handle 117 : Front wheel 118: Rear wheel (universal wheel) 133: Exhaust port 134: Ion discharge port 138: Lower channel 139: Rear channel 139 a: First rear channel 139 b: Second rear channel 300: Suction hose unit 401: Ring-shaped elastic member 402: Ring-shaped elastic seal member 500: Dust collecting unit 600: Charging stand B: Storage battery C: Connector terminal Knit K _1, K _2: circuit board L: LED board P: ion generator S: Speaker SH: Speaker holder

Claims (3)

A connection part that is arranged on the front side of the vacuum cleaner body and to which the suction hose part is connected;
A storage battery disposed on the rear side of the vacuum cleaner body opposite to the front side;
A dust cup disposed between the connecting portion and the storage battery;
Placing the vacuum cleaner body, and comprising a charging base for charging the storage battery,
The charging stand is
A first recess corresponding to the outer curved surface on the rear side of the vacuum cleaner body;
In a state where the rear side of the cleaner body is placed facing downward, the second recess for preventing rotation of the cleaner body,
A connector terminal that is electrically connected to the cleaner body is provided in the first recess,
A part of the cleaner body having a shape different from the outer curved surface that is fitted into the first recess is fitted into the second recess, and a part of the cleaner body is locked to the inner surface of the second recess. vacuum cleaner characterized that you prevent rotation of the cleaner body by being. The vacuum cleaner body further includes a pair of wheels disposed on the left and right sides of the vacuum cleaner body,
The vacuum cleaner according to claim 1, wherein the dust cup is disposed inside an outer diameter of the pair of wheels in a side view of the cleaner body.   The vacuum cleaner according to claim 1 or 2, wherein the charging stand is configured to charge the storage battery by placing the vacuum cleaner body in a posture in which the connection portion is directed substantially upward.