JP2008048993A - Vacuum cleaner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a vacuum cleaner preventing dust fallen from a second dust separation means from sticking to the second dust separation means again. <P>SOLUTION: A second dust separation case 81 is provided with an outside air inlet 84F and a sixth opening/closing valve K6 for opening/closing the outside air inlet; and when first, third and fourth opening/closing valves K1, K3 and 28 are opened and fifth and the sixth opening/closing valves 2501 and K6 are closed to suck the dust and air from a dust suction port 57a, a second opening/closing valve K2 is closed by air flowing through an upstream air duct, the first, third and fourth opening/closing valves K1, K3 and 28 are closed and the fifth and sixth opening/closing valves 2502 and K6 are opened, so that the outside air introduced from the outside air inlet 84F is passed to the upstream air duct via a return air duct 2511 to open the second opening closing valve K2 and at the same time return the dust fallen from the second dust separation means 100 by a dust removing means to the return air duct 2511. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an electric vacuum cleaner including a first dust separation unit that separates dust and air, and a filter that separates dust and air that has passed through the first dust separation unit.

  2. Description of the Related Art Conventionally, an electric vacuum cleaner in which a dust collecting container is detachably provided on a vacuum cleaner body is known (see Patent Document 1).

  Such a vacuum cleaner includes a vacuum cleaner body having a dust container chamber formed therein, a dust container that is detachably attached to the dust container chamber, and an electric blower provided downstream of the dust container chamber. And a pleated filter that is a secondary filter that is detachably attached to the rear opening of the dust collecting container, and a dust removing means that shakes off dust adhering to the pleated filter.

The dust removal means has a ring rotatably disposed at a position facing the pleat filter, and a protrusion that contacts the pleat filter is provided on the ring, and the ring is rotated when the cord reel winds up the power cord. As the rotator rotates, the projection moves over the pleat peaks of the pleat filter, thereby giving vibration to the pleat filter and removing dust adhering to the pleat filter.
JP 2004-358135 A

  However, such a vacuum cleaner has a problem that the dust dropped from the pleated filter (second dust separating means) adheres to the pleated filter again when the electric blower is driven.

  An object of the present invention is to provide an electric vacuum cleaner having a configuration as simple as possible so that dust dropped from the second dust separation means does not adhere to the second dust separation means again.

  An object of the present invention is to provide an electric vacuum cleaner having a configuration as simple as possible so that dust dropped from the second dust separation means does not adhere to the second dust separation means again.

The present invention includes a first dust separation unit that separates air and dust sucked into the dust suction port by an electric blower,
A dust collecting part for storing the dust separated by the first dust separating part;
A filter that separates the dust and air that has passed through the first dust separator;
A second dust separator for storing the filter;
A return air passage communicating the second dust separator and the first dust separator;
An outside air inlet for introducing outside air into the second dust separator;
In the normal cleaning, a first flow path is formed which passes through the first dust separation unit and the filter and is sucked into the electric blower, and is introduced from the outside air introduction port in the air cleaning of the second dust separation unit. An airflow control means for forming a second flow path that is sucked into the electric blower without passing through the filter after passing through the first dust separation unit;
A return opening is provided at a junction between the first dust separation part and the return air passage, and an opening / closing means for opening and closing the return air passage is provided in the return opening, and the outside air introduced from the outside air introduction port during the air cleaning is provided. Is opened to the first dust separator through the return air passage to open and close the opening / closing means and return the dust in the second dust separator to the first dust separator.

  According to this invention, the dust dropped by the dust removing means from the second dust separating means is prevented from adhering to the second dust separating means again. Further, since the second opening / closing means is opened and closed by the flow of air, the configuration can be simplified.

  Hereinafter, an example which is an embodiment of a vacuum cleaner concerning this invention is described based on a drawing.

  The vacuum cleaner 10 shown in FIG. 1 has a vacuum cleaner main body 11 and a dust collecting hose 12 having one end detachably connected to a connection port 11A of the vacuum cleaner main body 11 and a hand operation tube 13 provided at the other end. And an extension pipe 14 that is detachably connected to the hand operation pipe 13 and a suction port body 15 that is detachably connected to the distal end portion of the extension pipe 14. The operation section 13A is provided on the hand operation tube 13, and the operation section 13A is provided with a switch 13a for stopping the driving of the electric blower 24, a strength switch 13b for setting the power of the electric blower 24, and the like. .

  The suction port body 15 is formed with a suction chamber (not shown) in which a suction opening (dust suction port) (not shown) for sucking dust is formed on the bottom surface, and the suction chamber includes an extension pipe 14 and a dust collecting hose. 12 and the connection port 11 </ b> A communicate with the suction connection port 57 a of the dust collection unit 50 (see FIG. 10) provided in the cleaner body 11.

  The cleaner body 11 includes a main body case 20, a dust collection unit 50 (see FIG. 2) mounted in the main body case 20, and an electric blower 24.

  As shown in FIGS. 2 to 4, a dust collection unit chamber 22 having an upper opening 22 </ b> A is formed on the front side of the main body case 20, and a lid case 500 (see FIG. 1) can be opened and closed at the upper portion of the main body case 20. It is attached. The lid case 500 covers the entire upper portion of the main body case 20 together with the dust collection unit chamber (storage chamber) 22. The main body case 20 is not sealed by the lid case 500.

  In the dust collection unit chamber 22, a pop-up mechanism 1000 (see FIG. 7) for popping up a dust collection container 410 (FIG. 11) described later is provided.

  Further, as shown in FIG. 1, a pair of legs 501 extending obliquely downward is formed at the lower part of both side parts of the lid case 500, and the lower part 501A of the legs 501 is a cylindrical axle 17 ( 5 (see FIG. 5), and the rear wheel 16 attached to the cylindrical axle 17 is covered. As shown in FIG. 5, a torsion coil spring 18 is mounted in the cylindrical axle 17, one end of the torsion coil spring 18 is fixed to the cylindrical axle 17, and the other end 18A of the torsion coil spring 18 is a leg 501 (see FIG. 1). The torsion coil spring 18 urges the lid case 500 clockwise about the cylindrical axle 17 in FIG.

  Actually, a rotating body 900 (see FIG. 2) is rotatably mounted on the cylindrical axle 17, and the other end 18A of the torsion coil spring 18 is locked to the protrusion 902 (see FIG. 14) of the arm portion 901 of the rotating body 900. The arm portion 901 is locked in the leg portion 501 of the lid case 500, and the lid case 500 is urged clockwise.

  Then, the lid case 500 is rotated clockwise about the cylindrical axle 17 so that the lid case 500 is opened as indicated by the chain line in FIG.

  As shown in FIGS. 6 and 7, a substantially inverted L-shaped engaging member 510 is provided on the front side of the lid case 500.

  A cylindrical connection air passage portion (connection air passage) 25 (see FIG. 27) having a front opening 25B (see FIG. 14) is formed on the front side (left side in FIG. 1) of the electric blower 24 of the main body case 20. The connection air passage portion 25 communicates with the suction opening 24 </ b> A of the electric blower 24.

  As shown in FIG. 14, a rotatable lattice member 600 is provided in the front opening 25B of the connection air passage portion 25, and the lattice member 600 is rotated by a motor M1 (see FIG. 37).

  As shown in FIG. 27, a suction pipe 27 communicating with the suction opening 24 </ b> A of the electric blower 24 is provided in the connection air passage section 25, and a first end that opens and closes the opening 27 </ b> A is provided at the tip of the suction pipe 27. A four on-off valve 28 is provided. The opening / closing operation of the fourth opening / closing valve 28 is performed by a motor M2 (see FIG. 37).

  As shown in FIG. 14, the lattice member 600 is provided with a plurality of protrusions 601 that engage with valleys of a pleat filter (second dust separating means) 104 (see FIG. 13) described later. The pleated filter body 100, which will be described later, is rotated. By rotating the pleated filter body 100, dust removing means 2100 of a dust removing mechanism 2000 (see FIG. 31) described later removes fine dust attached to the pleated filter 104.

  A clamp 700 that locks the closed lid case 500 is provided on the connection port 11 </ b> A of the main body case 20.

  As shown in FIGS. 7 and 8, the clamp 700 has an operation portion 701 whose upper surface is formed in a curved surface, and the rear surface 701A of the operation portion 701 is provided on both sides at the rear (right side in FIGS. 6 and 7). The support plate portions 702 and 702 projecting to) are formed, and shaft portions 703 and 703 are formed on the outer surface of the support plate portion.

  The shaft portions 703 and 703 are rotatably held by bearing portions 27 and 27 provided in the main body case 20 as shown in FIG. The clamp 700 is urged clockwise around a shaft portion 703 in FIG. 7 by a spring (not shown). The clamp 700 is prevented from rotating clockwise from the position shown in FIG. 7 by a regulating member (not shown).

  When the operation portion 701 is pushed downward from above, the clamp 700 rotates counterclockwise around the shaft portions 703 and 703 from the position shown in FIG. 7 against the biasing force of a spring (not shown). It is like that.

  A front wall portion 704 extending downward is formed at the front end of the operation portion 701, and a pressing portion 705 extending rearward is formed below the front wall portion 704. A support portion 706 extending upward is formed at the rear portion of the pressing portion 705, and a locking claw 707 is formed above the support portion 706.

  As shown in FIGS. 6 and 7, the latching claw 707 is engaged with the tip 511 of the engaging member 510 of the lid case 500 to lock the lid case 500 to the main body case 20.

  When the clamp 700 is rotated clockwise, as shown in FIG. 9, the locking claw 707 of the clamp 700 is disengaged from the distal end portion 511 of the engaging member 510 of the lid case 500, and the lock of the lid case 500 is released. The

  As shown in FIG. 10, the dust collection unit 50 includes a dust separation unit 400 and a dust collection container 410 that is detachably attached to the dust separation unit 400.

  The dust separation unit 400 includes a dust separation part (first dust separation part) 52 and a filter part (second dust separation part) 80 integrated with the dust separation part 52.

  As shown in FIGS. 10 and 12, the dust separator 52 includes a separation chamber portion (upstream air passage) 54 formed in a cylindrical shape by the outer peripheral wall 53, and the axis of the separation chamber portion 54 in the separation chamber portion 54. A substantially conical dust separating means 55 provided along the suction wall, a suction air passage (guide air passage) 56 provided outside the right side wall 54A of the separation chamber 54, and a suction connection port (dust suction port) 57a. A guide air passage body 57 that guides air to the separation chamber portion 54 is provided. The suction connection port 57a communicates with the connection port 11A of the cleaner body 11 when the dust separation unit 400 is mounted in the dust collection unit chamber 22 of the cleaner body 11. The suction air passage portion 56 is provided below the guide air passage body 57.

  As shown in FIG. 12, an introduction opening 53 </ b> A for introducing dust separated from air into the dust collecting container 410 is formed in the upper portion of the outer peripheral wall 53 of the separation chamber portion 54. Further, as shown in FIG. 23, a return opening 53D is formed on the lower side of the outer peripheral wall 53 forming an arc surface. The return opening 53D is provided with a second on-off valve K2 that can be opened and closed. As shown in FIGS. 24 and 25, one end of a return air duct 2510 is connected to the return opening 53D. The return air duct 2510 forms a return air duct 2511 (see FIGS. 21 and 22).

  A shaft portion KJ1 is formed at one end of the second on-off valve K2, and as shown in FIG. 24, the shaft portion KJ1 is pivotally supported upstream of the separation chamber portion 54, and the other end of the second on-off valve K2 is It is located downstream of the separation chamber 54. As shown in FIG. 25, the second on-off valve K2 is opened by rotating counterclockwise about the shaft portion KJ1.

  The second on-off valve K2 is closed by air introduced into the separation chamber 54 from a connection opening 54Aa, which will be described later, and opened by air returned from the return air duct 2510 into the separation chamber 54. ing.

  Further, as shown in FIG. 24, the second opening / closing valve (opening / closing means) K2 is formed to have the same curvature as the inner peripheral wall surface of the separation chamber portion 54, and is provided so as to be flush with the inner peripheral wall surface. .

  As shown in FIG. 23, a connection opening 54Aa communicating with the separation chamber portion 54 is formed in the guide air passage body 57, and the first opening / closing valve K1 is provided in the connection opening 54Aa so as to be openable and closable. When the first on-off valve K1 is switched to the solid line position, the connection opening 54Aa is closed, and when the first opening / closing valve K1 is switched to the chain line position, the connection opening 54Aa is opened. The air introduced from the guide air passage body 57 into the separation chamber portion 54 through the connection opening 54Aa is rotated counterclockwise in FIG.

  Further, a circular opening 154A (see FIG. 10) and a fan-shaped opening 154B (see FIGS. 12 and 24) are formed in the right side wall 54A of the separation chamber portion 54, and a dust separating means 55 is attached to the opening 154A. A net filter NF2 (see FIG. 24) is attached to the opening 154B.

  The dust separating means 55 includes a plurality of frames 55a and a net filter NF1 attached around the frame 55a. The suction air passage portion 56 communicates with the inside of the separation chamber portion 54 through the opening 154A (see FIG. 10) of the right side wall 54A and the net filter NF1 (see FIG. 12), and the net of the opening 154B of the right side wall 54A. The separation chamber 54 communicates with the filter NF2 (not shown).

  As shown in FIG. 12, an opening 56D is formed at the bottom of the suction air passage portion 56, and a filter (pleat filter) PF is attached to the opening 56D. Further, one end of a bypass air passage tube 2501 that forms a bypass air passage 2500 (see FIG. 21) is connected to the opening 56D as shown in FIG.

  The other end of the bypass air passage tube 2501 is connected to the suction tube 27 as shown in FIG. 27, and the suction air passage portion 56 and the suction tube 27 communicate with each other through the bypass air passage tube 2501. The bypass air duct 2501 is provided with a fifth on-off valve (solenoid valve) 2502.

   The suction air passage portion 56 communicates with a storage case (second dust separation case) 81 of the filter portion 80 to be described later, and via a connection opening 56A formed in the right side wall portion 156 (see FIG. 12). It communicates with a dust collection chamber 73 of a dust collection case portion 74 to be described later.

  As shown in FIGS. 11 and 12, the dust collecting container (dust collecting portion) 410 includes a communication case portion 72 in which a communication passage 71 extending in the left-right direction is formed in the upper portion, and a right end portion (see FIG. 11). 12) and a dust collection case portion 74 that forms a dust collection chamber 73 that collects dust.

  As shown in FIG. 11, an opening 72 </ b> A that communicates with the communication path 71 (see FIG. 12), a hook 72 </ b> F, and a recess 73 are formed on the lower surface of the communication case portion 72. A rib 72 </ b> R extending in the vertical direction is formed in the recess 73. The opening 72A is connected to the introduction opening 53A of the dust separator 52 as shown in FIG.

  Further, a connection opening 75 is formed in the left side wall portion of the dust collecting case portion 74, and a net filter NF 3 is attached to the connection opening 75.

  The dust collection case 74 has a lid 74A that can be opened and closed. As shown in FIG. 11, a rib 74R extending downward is formed at the bottom of the lid 74A. The lid 74A is rotatable about the axis 74J, and is opened and closed by this rotation.

  When the dust collecting container 410 is attached to the dust separating unit 400, as shown in FIG. 12, the introduction opening 53A of the dust separating unit 52 is connected to the opening 72A of the dust collecting container 410, and the connection opening 75 of the dust collecting container 410 is connected. Is connected to the connection opening 56A of the suction air passage portion 56 of the dust separation unit 400.

 As shown in FIG. 13, the filter unit 80 includes a cylindrical storage case 81 whose rear surface is opened and a pleated filter body (secondary filter) 100 that is rotatably mounted in the storage case 81. ing. A dust separation portion 52 (see FIG. 10) is integrally formed on the front surface of the front wall portion 84 of the storage case 81.

  As shown in FIGS. 12 and 13, a connection opening 84 </ b> A is formed in the front wall portion 84 of the storage case 81, and the connection opening 84 </ b> A is connected to the suction air passage portion 56. The inside of the storage case 81 and the suction air passage portion 56 communicate with each other through the connection opening 84A.

  29, an outside air introduction port 84F for introducing outside air into the storage case 81 is formed in the upper portion of the front wall portion 84, and an outside air introduction port 84F is formed on the front surface of the front wall portion 84 as shown in FIG. There is provided a sixth on-off valve K6 for opening and closing. The sixth on-off valve K6 is biased by the elastic member 86 in the direction of closing the outside air introduction port 84F.

  The sixth on-off valve K6 is provided with a contact piece 87 shown in FIG. 29, and this contact piece 87 projects into the storage case 81 from the outside air introduction port 84F. The contact piece 87 is formed with an inclined surface 87a that increases in the amount of protrusion into the storage case 81 as it goes to the right (in FIG. 29). When the abutting piece 87 is pressed against the urging force of the elastic member 86, the sixth on-off valve K6 is opened, and the outside air is introduced into the storage case 81 from the outside air introduction port 84F.

  As shown in FIG. 28, a bottom opening 82A is formed at the bottom of the peripheral wall portion 82 of the storage case 81, and the other end of the return air duct 2510 is connected to the bottom opening 82A. By this return air duct 2510, the inside of the storage case 81 on the upstream side of the pleated filter body 100, which will be described later, and the inside of the separation chamber 54 of the dust separator 52 are communicated (see FIG. 21).

  In FIG. 21, the air path from the suction connection port 57a to the suction opening 24A indicated by the solid line arrow forms a first flow path. In FIG. 22, the air path from the outside air inlet 84F to the suction opening 24A indicated by the chain line arrow forms a second flow path.

  The first flow path is not limited to the above-described air path, and may be an air path that passes through at least the first dust separation unit 55 and the filter body 100. Further, the second flow path is not limited to the air path shown above, and may be an air path that passes through at least the inside of the separation case 81.

  As shown in FIG. 13, the pleated filter body 100 includes a pleated filter (filter) 104 in which pleats are radially formed from a shaft portion 101 </ b> A provided at the center position of the storage case 81. The shaft portion 101A is rotatably mounted on a shaft 2001 (see FIG. 31) described later.

  When the dust collection unit 50 is mounted in the dust collection unit chamber 22 of the main body case 20, the rear opening 81 </ b> B of the storage case 81 is joined to the front opening 25 </ b> B (see FIG. 14) of the connection air passage portion 25 of the main body case 20. .

  As shown in FIG. 7, the pop-up mechanism 1000 includes a pair of pop-up means 1100, 1110 (see FIG. 3) for popping up the dust collecting container 410 (lifting the dust collecting container 410 upward by a spring), and the dust collecting container 410. Is provided with a lock means 1200 for fixing the dust separation unit 400 to the mounting position, and a release means 1300 for releasing the lock of the lock means 1200.

  The pop-up means 1100 is provided on the upper surface of the outer peripheral wall 53 of the dust separation unit 52 of the dust separation unit 400, extends upward, and has a rectangular cylindrical cross-section guide case 1101, and a spring disposed in the guide case 1101. 1102 (omitted in FIG. 3). The guide case 1101 is formed with a pair of slits 1103 (see FIG. 3) extending in the vertical direction.

  Similarly, the pop-up means 1110 includes a cylindrical guide case 1111 (see FIG. 3) provided in the dust collection unit chamber 22 and a spring 1112 disposed in the guide case 1111. The guide case 1111 has a pair of slits 1113 (see FIG. 3) extending in the vertical direction.

  When the dust collection container 410 is mounted on the dust separation unit 400, the ribs 72R and 74R (see FIG. 11) of the dust collection container 410 enter the slits 1103 and 1113 of the guide cases 1101 and 1111 and springs 1102 and 1112 (FIG. 7). ) Is compressed against the biasing force. The dust collecting container 410 is urged upward by the urging force of the springs 1102 and 1112.

  The locking means 1200 is provided on the upper portion of the guide air passage body 57 so as to be movable in the front-rear direction (left-right direction in FIG. 7) and extends in the front-rear direction, and guides the slide member 1201 in the front-rear direction. A covered guide cover 1202 (see FIG. 4) and a spring (not shown) for urging the slide member 1201 leftward (in FIG. 7) are provided.

  On the rear side of the slide member 1201, a cylindrical portion 1203 having a rectangular cross section protruding upward is formed, and the cylindrical portion 1203 protrudes from an opening 1202A (see FIG. 3) of the guide cover 1202. The length in the front-rear direction of the cylindrical portion 1203 is set to be shorter than the width in the front-rear direction of the opening 1202A, so that the movement of the slide member 1201 in the front-rear direction is not hindered.

  An opening 1204 is formed on the upper surface of the cylindrical portion 1203. When the dust collecting container 410 is attached to the dust separation unit 400, the hook 72F of the dust collecting container 410 enters the opening 1204 and its edge (fixing means) 1204a. The dust collecting container 410 is locked at the position (mounting position) shown in FIG. 7 by this engagement.

  The release means 1300 includes a slide member 1201 and a pressing portion 705 of the clamp 700 that moves the slide member 1201 to the right (in FIG. 7). Then, when the operation portion 701 is pushed from above and the clamp 700 is rotated as shown in FIG. 9, the pressing portion 705 of the clamp 700 is brought into contact with the distal end portion 1201a of the slide member 1201 against a biasing force of a spring (not shown). The slide member 1201 is moved to the right in contact. By this movement, the hook 72F of the dust collecting container 410 is released from the edge 1204a of the opening 1204 of the cylindrical portion 1203 of the slide member 1201, and the dust collecting container 410 is unlocked.

  As shown in FIGS. 31 and 32, the dust removal mechanism 2000 includes a shaft 2001 that is rotatably provided at the center of the storage case 81, an arm 2002 that is attached to the shaft 2001 and extends upward, And dust removing means 2100 provided on the upper part (tip part) of 2002. A third on-off valve K3 is integrally provided at the lower part of the arm 2002. The third on-off valve K3 rotates integrally with the arm 2002 and the shaft 2001 and is rotated to the position shown in FIG. And the connection opening 84A of the storage case 81 is closed.

  Further, when the arm 2002 and the third on-off valve K3 are rotated counterclockwise to the chain line position, the connection opening 84A of the storage case 81 is opened.

  When the arm 2002 is positioned at the position shown in FIG. 31, the shaft portion 2011 at the tip of the arm 2002 comes into contact with the inclined surface 87a of the contact piece 87 of the sixth on-off valve K6 as shown in FIG. The sixth on-off valve K6 is pressed against the urging force of the elastic member 86, and the sixth on-off valve K6 is opened as shown in FIG.

  As shown in FIGS. 32, 35, and 36, the dust removing means 2100 includes a shaft portion 2101 that is rotatably provided at the shaft center portion 2002A of the tip of the arm 2002, and a pair that protrudes outward from the shaft portion 2101. The support portion 2102, a roller 2103 rotatably provided at the distal end portion of the support portion 2102, and a protrusion 2104 that protrudes outward from the shaft portion 2101. The pair of support portions 2102 are disposed at a predetermined angle, and the protrusion 2104 is disposed on a line that bisects the predetermined angle and is opposite to the support portion 2102.

  As shown in FIG. 18, the roller 2103 contacts the bottom surface 84 Ma of the groove 84 </ b> M of the front wall portion 84 of the storage case 81, and the protrusion 2104 contacts the peak portion of the pleated filter 104. The groove 84M is formed in an arc shape as shown in FIGS. 29 and 31, and the rotation of the arm 2002 is restricted at both ends of the groove 84M. The arm 2002 is within the range of the groove 84M, that is, the solid line position shown in FIG. And can be rotated within the range of the chain line position.

  The protrusion 2104 can rotate in the left-right direction (in FIG. 35) about the shaft center 2002A together with the shaft portion 2101, and the protrusion 2104 is formed by the biasing force of the spring BN (see FIG. 18). It returns to the original position shown at 35.

  As the pleated filter 104 rotates, the protrusion 2104 that contacts the peak portion of the pleated filter 104 rotates about the shaft center 2002A together with the shaft portion 2101. When the pleat filter 104 is rotated by a predetermined angle, the protrusion 2104 moves over the peak portion of the pleat filter 104 and returns to the original position by the biasing force of the spring. At this time, the protrusion 2104 hits the peak of the next pleat filter 104, thereby vibrating the pleat filter 104 and dropping fine dust adhering to the pleat filter 104.

  As shown in FIG. 18, the shaft 2001 provided in the storage case 81 passes through the front wall portion 84 and protrudes forward, and an opening / closing mechanism 2200 for opening and closing the first opening / closing valve K1 is provided at the tip of the shaft 2001. The gear 2201 is provided.

  As shown in FIGS. 19 and 20, the opening / closing mechanism 2200 includes a rack 2202 meshed with the gear 2201, a slide plate 2203 having the rack 2202 and movable in the left-right direction, and one end of the slide plate 2203 (FIG. 19). And a support portion 2204 having a pin 2205 at the tip and an arm 2208 having a long hole 2206 with which the pin 2205 is engaged and extending from the shaft 2207 of the first on-off valve K1. is doing.

  A long hole 2203 A is formed in the slide plate 2203, and a shaft 2001 is inserted into the long hole 2203, and the shaft 2001 moves relative to the long hole 2203 to move the slide plate 2203 in the horizontal direction. It does not cause any trouble.

  Further, the pin 2205 engaged with the long hole 2206 of the arm 2208 is relatively movable along the long hole 2206. Therefore, the arm 2208 rotates together with the shaft 2207 when the slide plate 2203 moves in the left-right direction, and the first on-off valve K1 is opened by the rotation of the shaft 2207.

  For example, when the slide plate 2203 is located at the position shown in FIGS. 19 and 20, the first on-off valve K1 closes the connection opening 54Aa of the guide air passage body 57 as shown in FIG. At this time, the sixth on-off valve K6 is opened as shown in FIGS. 19 and 20, and the third on-off valve K3 closes the connection opening 84A of the storage case 81 as shown in FIG.

  When the slide plate 2203 moves to the right from the position shown in FIGS. 19 and 20, the first on-off valve K1 moves to the chain line position shown in FIG. 23, the connection opening 54Aa is opened, and the sixth on-off valve K6 is As shown in FIG. 30, the third on-off valve K <b> 3 moves to the position indicated by the chain line in FIG. 31 to open the connection opening 84 </ b> A of the storage case 81.

FIG. 37 is a block diagram showing the configuration of the control system of the vacuum cleaner. In FIG. 37, reference numeral 200 denotes a control device that controls the motors M1 and M2 and the electromagnetic valve 2502 based on the operation of the operation unit 13A. The on-off valves K1 to K3, K6, 28, and 2502, the motors M1 and M2, and the control device 200 constitute airflow control means.
[Operation]
Next, operation | movement of the vacuum cleaner comprised as mentioned above is demonstrated.

  First, as shown in FIG. 2, the dust collection unit 50 is mounted in the dust collection unit chamber 22 of the cleaner body 11, and the dust collection hose 12 is connected to the connection port 11 </ b> A of the cleaner body 11 as shown in FIG. 1. At the same time, the suction port body 15 is connected to the hand operation tube 13 via the extension tube 14.

  At this time, as shown in FIG. 21, the first on-off valve K1, the third on-off valve K3, and the fourth on-off valve 28 are opened, and the second on-off valve K2, the fifth on-off valve 2502, and the sixth on-off valve. K6 is closed.

  That is, the slide plate 2203 is moved rightward from the position shown in FIGS. 19 and 20, the first on-off valve K1 is moved to the chain line position shown in FIG. 23, the connection opening 54Aa is opened, and the sixth on-off valve K6 is closed as shown in FIG. 30, and the third on-off valve K3 is moved to the position shown by the chain line in FIG. 31 to open the connection opening 84A of the storage case 81.

  When the switch 13b of the operation unit 13A of the hand operation tube 13 is operated, the electric blower 24 is driven. By driving the electric blower 24, air is sucked from the suction opening 24 </ b> A of the electric blower 24, a negative pressure acts in the storage case 81 of the dust collection unit 50 through a connection air passage portion (not shown), and suction air It acts on the inside of the dust collection case 74 and the separation chamber portion 54 of the dust separation portion 52 via the passage portion 56. Then, the negative pressure acts on the dust collecting hose 12, the extension pipe 14 and the suction port body 15 via the guide air passage body 57, and dust is sucked together with air from the suction port body 15.

  The sucked dust and air are sucked into the suction connection port 57a of the dust collecting unit 50 through the extension pipe 14 and the dust collecting hose 12. The dust and air sucked into the suction connection port 57a are introduced into the separation chamber portion 54 of the dust separation portion 52 through the guide air passage body 57, and rotate counterclockwise in FIG. I will do it. Even if the second on-off valve K2 is opened by this air flow, it is forcibly closed.

  The second on-off valve K2 is formed to have the same curvature as the inner peripheral surface of the separation chamber portion 54, and is provided so as to be flush with the inner peripheral surface of the separation chamber portion 54. It is prevented that it becomes wind path resistance.

  Then, the dust and air are separated by inertia by this rotation, and the air passes through the net filter NF1 (see FIG. 12) of the dust separating means 55 and the net filter NF2 (see FIG. 24) of the opening 154B, and further, the suction air passage section 56. Then, the air is sucked into the storage case 81 of the filter unit 80.

  On the other hand, the separated dust is introduced together with a part of air into the communication case portion 72 of the dust collecting container 410 from the introduction opening 53A of the separation chamber portion 54 by inertial force. The introduced dust and air are sucked into the dust collection chamber portion 73 through the communication passage 71 of the communication case portion 72, and the dust is collected in the dust collection chamber portion 73.

  The air sucked into the dust collection chamber portion 73 is sucked into the suction air passage portion 56 through the net filter NF3 and further sucked into the storage case 81 of the filter portion 80.

  The air sucked into the storage case 81 passes through the pleated filter 104 of the pleated filter body 100 and is sucked into the suction pipe 27 (see FIG. 21) in the connection air passage portion 25 of the cleaner body 11, and further the electric blower 24. Is sucked into the suction opening 24A.

  Air sucked into the suction opening 24A of the electric blower 24 passes through the electric blower 24 and is exhausted from the exhaust port 20H (see FIG. 21) of the cleaner body 11 shown in FIG.

  When the dust collected in the dust collecting container 410 is discarded after the cleaning is completed, the operation unit 701 of the clamp 700 is pressed from above. By this pressing, the clamp 700 rotates counterclockwise around the shaft portion 703 from the position shown in FIG. 7 against the biasing force of a spring (not shown).

  When the clamp 700 is rotated counterclockwise, the locking claw 707 of the clamp 700 is disengaged from the distal end portion 511 of the engaging member 510 of the lid case 500 as shown in FIG. Is done. When this lock is released, the lid case 500 is opened by the torsion coil spring 18 (see FIG. 5) as shown by a chain line in FIG.

  On the other hand, when the clamp 700 is rotated as shown in FIG. 9, the pressing portion 705 of the clamp 700 moves the slide member 1201 to the right, and this movement causes the hook 72 </ b> F of the dust collecting container 410 to move to the opening 1204 of the slide member 1201. The dust container 410 is released from the edge 1204a and unlocked. Then, the ribs 72R and 74R of the dust collecting container 410 are pushed upward by the urging force of the springs 1102 and 1112 of the guide cases 1101 and 1111 as shown in FIG. That is, the dust collecting container 410 is popped up by the urging force of the springs 1102 and 1112 as shown in FIG. Thereafter, the user takes out the dust collection container 410 popped up from the cleaner body 11, opens the cover 74 </ b> A of the dust collection case 74, and discards the dust in the dust collection chamber 73.

  By the way, when there is a gap between the pressing portion 705 of the clamp 700 and the tip portion 1201a of the slide member 1201, when the operation portion 701 of the clamp 700 is pressed, the pop-up of the dust collecting case 410 is opened after the lid case 500 is opened. Done.

  Thus, simply pressing the operation part 701 of the clamp 700 opens the lid case 500 and pops up the dust collecting container 410, so that it is easy to remove the dust collecting container 410 from the cleaner body 11. Become.

  When the off switch 13a of the operation portion 13A of the hand control tube 13 is operated during the cleaning, the driving of the electric blower 24 is stopped and the fourth on-off valve 28 is closed as shown in FIG. The five on-off valve 2502 is opened. Then, the lattice member 600 is rotated by the motor M1 (see FIG. 37).

  The rotation of the lattice member 600 causes the pleated filter body 100 to rotate, and the projection 2104 of the arm 2002 of the dust removing mechanism 2000 abuts against the peak portion of the pleated filter 104, whereby the arm 2002 and the shaft 2001 are moved from the chain line position in FIG. It rotates with the pleated filter body 100 around.

  When the arm 2002 is rotated to the position shown in FIG. 31, the end of the groove 84M restricts the rotation of the arm 2002 and the shaft 2001, and only the pleat filter body 100 rotates. When the arm 2002 rotates to the position shown in FIG. 31, the third on-off valve K3 closes the connection opening 84A of the storage case 81. Further, the shaft portion 2011 of the arm 2002 presses the contact piece 87 of the sixth on-off valve K6 to open the sixth on-off valve K6. That is, as shown in FIGS. 19, 20, and 33, the outside air introduction port 84F of the storage case 81 is opened.

  On the other hand, when the shaft 2001 is rotated together with the arm 2002, the gear 2201 of the opening / closing mechanism 2200 is rotated, and the slide plate 2203 is moved to the left by the rotation of the gear 2201, and FIGS. Move to the position shown in. By the movement of the slide plate 2203, as shown in FIG. 23, the first on-off valve K1 moves from the chain line position to the solid line position, and the connection opening 54Aa of the guide air passage body 57 is closed.

  In this way, as shown in FIG. 22, the first and second on-off valves K1, K3 are closed, and the sixth on-off valve K6 is opened.

  Then, the electric blower 24 is driven with a predetermined power, and the sixth on-off valve K6 is opened, and the lid case 500 is not hermetically closed with the main body case 20, so that it is shown in FIG. As described above, outside air is introduced from the outside air introduction port 84 </ b> F of the storage case 81.

  On the other hand, as the rotation of the arm 2002 stops, the projection 2104 of the arm 2002 moves over the peak portion of the pleat filter 104 along with the rotation of the pleat filter 104. The fine dust adhering to the pleated filter 104 is dropped by hitting.

  The fine dust dropped from the pleated filter 104 is returned to the separation chamber portion 54 of the dust separation portion 52 through the return air passage 2511 by the outside air introduced from the outside air introduction port 84F.

  Further, since the outside air introduced from the outside air introduction port 84F hits the pleated filter 104, the pleated filter 104 is washed with air.

  Since the second on-off valve K2 is opened by the outside air passing through the return air passage 2511 as shown in FIG. 25, fine dust dropped from the pleated filter 104 can be surely returned to the separation chamber portion 54 of the dust separation portion 52. it can.

  The outside air and fine dust introduced into the separation chamber 54 rotate counterclockwise in FIG. 10, and by this rotation, fine dust and air are separated by inertia, and the separated fine dust is separated by inertia force. The dust is collected from the introduction opening 53 </ b> A of the chamber portion 54 to the dust chamber 73 through the communication case portion 72 of the dust collecting container 410.

  The air separated from the fine dust passes through the net filter NF1 (see FIG. 12) of the dust separating means 55 and the net filter NF2 (see FIG. 25) of the opening 154B, and is further sucked into the suction air passage section 56. . The outside air sucked into the suction air passage portion 56 is sucked into the suction pipe 27 through the bypass air passage 2500, and further sucked into the suction opening 24A of the electric blower 24 and exhausted from the exhaust port 20H of the cleaner body 11. .

  Thus, since the fine dust dropped from the pleat filter 104 is returned to the separation chamber 54 of the dust separation part 52, it is prevented from adhering to the pleat filter 104 again.

  When the predetermined time has elapsed, the driving of the electric blower 24 is stopped and the lattice member 600 is reversely rotated by a predetermined angle. As shown in FIG. 21, the first on-off valve K1, the third on-off valve K3, and the fourth The on-off valve 28 is opened, and the second on-off valve K2, the fifth on-off valve 2502, and the sixth on-off valve K6 are closed.

  Further, since the second on-off valve K2 is opened and closed by the flow of air, the configuration can be simplified.

  In the present embodiment, the outside air introduced from the outside air introduction port 84F is directly blown onto the pleated filter 104, but the present invention is not limited to this. That is, as an embodiment of the air cleaning, in addition to the above-described ones, the dust is not sprayed directly on the pleated filter 104 but is accumulated in the bottom of the storage case 81 and the fine dust floating in the space on the front side of the pleat filter 104 in the storage case 81. Also included is a case where fine dust is discharged out of the storage case 81 from the bottom opening 82A by the air flowing in from the outside air inlet 84F.

It is the perspective view which showed the external appearance of the electric vacuum cleaner which concerns on this invention. It is the perspective view which showed the external appearance of the cleaner body of FIG. 1 which removed the cover case. It is a top view of the cleaner body shown in FIG. It is the perspective view which expanded some vacuum cleaner main bodies of Drawing 2 which removed a dust collecting container. It is explanatory drawing which showed the torsion coil spring 18 with which the cylindrical axle of the cleaner body was mounted | worn. It is explanatory drawing which showed the engagement relationship of the latching claw of a clamp, and the engaging member of a cover case. It is explanatory drawing which showed the pop-up mechanism of a dust collecting container. It is the top view which showed the clamp. It is explanatory drawing which showed cancellation | release of the lock | rock of a lid case, and cancellation | release of the lock | rock of a dust collection case. It is the perspective view which showed the external appearance of the dust collection unit. It is the perspective view which showed the external appearance of the dust collecting container. It is the cross-sectional view which showed the structure of the dust collection unit. It is the perspective view which showed the external appearance of the dust separation part. It is a cross-sectional view of a cleaner body. It is explanatory drawing which showed the state by which the dust collecting container was popped up. It is a side view of the cleaner body for explaining opening of a lid case. It is explanatory drawing which showed the state by which the dust collecting container was popped up. It is explanatory drawing which showed the dust removing means and the front wall part of a storage case. It is the perspective view which showed the structure of the opening / closing mechanism. It is the perspective view which showed the opening / closing mechanism and the dust separation part. It is the conceptual diagram which showed the air path at the time of performing normal cleaning. It is the conceptual diagram which showed the air path at the time of performing air washing. It is the horizontal sectional view which showed the structure of the dust separation part. It is explanatory drawing which showed the dust separation part and the return air duct. It is explanatory drawing which showed the dust separation part by which the on-off valve was opened, and the return air duct. It is the perspective view which showed the external appearance of the dust separation part of FIG. It is the longitudinal cross-sectional view which showed the structure of the vacuum cleaner main body. It is the perspective view which showed the storage case. It is a rear view of the storage case shown in FIG. It is the perspective view which showed the external appearance of the dust collection unit. It is explanatory drawing which showed the arm with which the storage case was mounted | worn, and the 3rd on-off valve. It is the perspective view which showed the arm and the 3rd on-off valve. It is the perspective view which showed the external appearance of the dust collection unit which the 6th on-off valve opened. It is explanatory drawing which showed the 6th on-off valve and the external air inlet. It is the cross-sectional view which showed the structure of the dust removal means. It is a longitudinal cross-sectional view of the dust removal means shown in FIG. It is the block diagram which showed the structure of the control system.

Explanation of symbols

11 Vacuum Cleaner Body 22 Dust Collection Unit Room (Storage Room)
24 Electric blower 28 4th on-off valve 55 Dust separation part (1st dust separation part)
81 Storage case (second dust separation case)
84F Outside air inlet 100 Pleated filter body (filter)
2500 Bypass air passage 2502 5th on-off valve 2511 Return air passage K1 1st on-off valve K2 2nd on-off valve K3 3rd on-off valve K6 6th on-off valve

Claims (2)

A first dust separation unit that separates air from dust sucked into the dust suction port by an electric blower;
A dust collecting part for storing the dust separated by the first dust separating part;
A filter that separates the dust and air that has passed through the first dust separator;
A second dust separator for storing the filter;
A return air passage communicating the second dust separator and the first dust separator;
An outside air inlet for introducing outside air into the second dust separator;
In the normal cleaning, a first flow path is formed which passes through the first dust separation unit and the filter and is sucked into the electric blower, and is introduced from the outside air introduction port in the air cleaning of the second dust separation unit. An airflow control means for forming a second flow path that is sucked into the electric blower without passing through the filter after passing through the first dust separation unit;
A return opening is provided at a junction between the first dust separation part and the return air passage, and an opening / closing means for opening and closing the return air passage is provided in the return opening, and the outside air introduced from the outside air introduction port during the air cleaning is provided. The opening / closing means is opened by flowing the air through the return air passage to the first dust separator, and the dust in the second dust separator is returned to the first dust separator. Machine.   The first dust separation unit has an arc surface for separating dust and air by a centrifugal separation action, a valve of the opening / closing means is formed along the arc surface, and one end of the valve is located upstream of the arc surface. 2. The electric vacuum cleaner according to claim 1, wherein the electric valve is pivotally supported to the side and the other end of the valve is positioned downstream of the arcuate surface to open and close the valve.

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