JP2013094207A - Vacuum cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vacuum cleaner sufficiently cleaning dust, performing deodorization and having an excellent deodorizing performance.SOLUTION: This vacuum cleaner includes: a dust container (not shown) that is detachably attached to a cleaner body (not shown) incorporating an electric blower 2 and to which a dust collection part (not shown) for accumulating dust collected by a filter (not shown), and a control storage unit (not shown) are detachably attached; a control means 62 that controls the operation of a high-voltage generator 43 disposed in the control storage unit and emits ion or ozone, or an electrostatic atomizer 44 for generating and emitting charged water particles; and a power supply device 66 that is disposed in the cleaner body or the control storage unit and supplies the high-voltage generator 43 or the electrostatic atomizer 44 with an electric power. This vacuum cleaner is configured to emit the ion, ozone, or charged water particles to the dust collection part and the filter, the ion, ozone, or charged water particles being retained in the dust container for a long time, and has excellent dust cleaning and deodorizing performance.

Description

  The present invention relates to a vacuum cleaner, and more particularly to a vacuum cleaner having an ion generator or electrostatic atomizer that generates and discharges ions or charged fine particle water in dust accumulated in a dust collection container. It is.

  Conventionally, as this type of vacuum cleaner, there are also floor nozzles, electrostatic atomizers that generate and discharge charged particulate water in the exhaust path of the vacuum cleaner body, and extension tubes and hoses. Some are arranged (see, for example, Patent Document 1).

  In addition, there is a vacuum cleaner body that includes an ion generator and an air blowing unit for sending ions into a dust collecting container, and opens and closes an ion introduction port and an intake introduction port (see, for example, Patent Document 2). ).

JP 2009-254786 A JP 2011-15882 A

  However, in the configuration of the conventional vacuum cleaner as described in Patent Document 1, in order to introduce ions or charged fine particle water into the dust collecting container, it is necessary to suck the electric blower in the vacuum cleaner body. Therefore, most of the ions or charged fine particle water introduced for that purpose do not stay in the dust collection container but are discharged out of the dust collection container. Therefore, allergen substances on the surface of the dust collected in the dust collecting container can only be inactivated and deodorized, not sufficiently cleaned, and cannot be deodorized.

  Further, in the configuration of the conventional vacuum cleaner as described in Patent Document 2, when opening and closing the ion introduction port and the intake introduction port, a control unit for performing the opening and closing is necessary, and the configuration is complicated. turn into. Moreover, air leaks from the opening and closing port, and the suction force from the floor nozzle is also reduced. Furthermore, only when the main body of the vacuum cleaner is connected to an outlet, it can only inactivate and deodorize the dust allergens collected in the dust collection container, and it cannot be sufficiently cleaned and deodorized. There was a problem.

  The present invention solves the above-mentioned conventional problems, releases ions, ozone, or charged fine particle water to a dust collecting part and a filter, sufficiently inactivates an allergen substance contained in dust, and deodorizes. An object of the present invention is to provide a vacuum cleaner that can be used.

In order to solve the above-described conventional problems, the vacuum cleaner of the present invention is a vacuum cleaner body including an electric blower that generates suction air, and is detachably attached to the vacuum cleaner body, and is collected by a filter. A dust collection container in which a dust collection unit for accumulating dust and a control storage unit is detachably attached, a high-pressure generator for discharging ions or ozone, or charged particulate water that is disposed in the control storage unit. The electrostatic atomizer that discharges the discharge device, the control means for controlling the operation of the high-pressure generator or the electrostatic atomizer, the high-pressure generator or the control unit disposed in the cleaner body or the control storage unit A power supply device for supplying electric power to the electrostatic atomizer, which discharges ions, ozone, or charged fine particle water to the dust collector and the filter, and directly collects the dust By discharging ions, ozone, or charged fine particle water to the filter, the ions, ozone, or charged fine particle water will remain in the dust collection container for a long time. It is possible to provide an electric vacuum cleaner having a good deodorizing performance for smelling.

  The vacuum cleaner of the present invention inactivates and deodorizes allergen substances contained in the collected dust by allowing ions or charged fine particle water to remain in the dust collection container for a long time. The purpose is to improve.

The perspective external view of the electric vacuum cleaner in Embodiment 1 of this invention (A) The perspective view seen from diagonally front of the vacuum cleaner main body and dust collecting container of the vacuum cleaner, (b) The perspective view seen from the diagonal rear of the vacuum cleaner main body and dust collecting container Exploded perspective view of dust container of the vacuum cleaner Block diagram of high-pressure generator and electrostatic atomizer of the vacuum cleaner Control block diagram of the vacuum cleaner Control block diagram of the electric vacuum cleaner in Embodiment 2 of the present invention The figure which shows a state when throwing away the dust in the dust collecting container of the vacuum cleaner Control block diagram of the electric vacuum cleaner in Embodiment 3 of the present invention

  A first aspect of the present invention is a vacuum cleaner main body incorporating an electric blower that generates suction air, a dust collecting portion that is detachably attached to the vacuum cleaner main body, and accumulates dust collected by a filter, and a control storage unit. A detachably attached dust collecting container, a high-pressure generator disposed in the control storage unit, which discharges ions or ozone, or an electrostatic atomizer which generates and discharges charged fine particle water, and the high-pressure Control means for controlling the operation of the generator or the electrostatic atomizer, and a power supply device that is arranged in the main body of the cleaner or in the control storage unit and supplies power to the high-voltage generator or the electrostatic atomizer And discharges ions, ozone, or charged fine particle water to the dust collection part and the filter, and directly discharges ions or ozone to the dust collection part and the filter. By discharging charged fine particle water, ions, ozone, or charged fine particle water stays in the dust collection container for a long time, so that the electricity is sufficiently cleaned and deodorized. A vacuum cleaner can be provided.

  In particular, the second aspect of the invention is a power storage means for storing electrical energy as a power source for the high pressure generator or electrostatic atomizer of the first aspect of the invention, and energization detection for detecting whether the cleaner body is connected to an outlet. And a charge driving means for charging the power storage means when the cleaner body is connected to the outlet, and when the power supply from the outlet is lost, the power storage means removes the dust collecting part and the filter. Ion, ozone, or charged particulate water is released, and even if the power supply from the outlet is no longer supplied to the vacuum cleaner body, ions or charged particulate water is applied to the dust collector and filter by the power from the power storage means. Since it can be released, the release time can be further prolonged, and the dust allergen substance can be sufficiently inactivated and deodorized.

  In the third aspect of the invention, in particular, the control means of the first or second aspect of the invention controls so that ions, ozone, or charged fine particle water is released to the dust collecting part and the filter after the suction by the electric blower is lost Therefore, since the dust stays stably in the dust collecting container, the dust allergen substance can be sufficiently inactivated and deodorized.

  In particular, the fourth aspect of the invention includes a body attachment / detachment detecting means for detecting whether or not the dust collection container of any one of the first to third aspects of the invention is attached to the cleaner body, and the dust collection container is the cleaner. When attached to the main body, discharges ions, ozone, or charged fine particle water to the dust collection part and the filter. It is possible to prevent the user from directly inhaling the ozone generated during the release.

  The fifth aspect of the invention particularly includes a blower fan that diffuses ions, ozone, or charged fine particle water in the control storage unit of any one of the first to fourth aspects of the invention. Releases ions, ozone, or charged fine particle water, and can diffuse ions or charged fine particle water to the dust collection part and filter in a shorter time. It is possible to uniformly inactivate and deodorize allergen substances from the attached dust.

  In the sixth invention, in particular, the control storage unit according to any one of the second to fifth inventions is provided with power generation means for generating electric power by sunlight, lighting, or the like, and the power storage means is charged by the power generation means. Even when the power supply from the outlet is no longer supplied to the main body of the vacuum cleaner, the power storage means is gradually charged, and after the preset time has elapsed after completion of charging, the dust collector and the filter are ionized or charged by the power supply from the power storage means. If fine particle water is discharged, the discharge time can be further increased, and the dust allergen substance can be sufficiently inactivated and deodorized.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
1 is a perspective external view of the electric vacuum cleaner according to Embodiment 1 of the present invention, FIG. 2 (a) is a perspective view of the vacuum cleaner main body and a dust collecting container as seen from an oblique front, FIG. (B) is a perspective view of the main body of the vacuum cleaner and the dust collecting container obliquely viewed from behind, FIG. 3 is an exploded perspective view of the dust collecting container of the vacuum cleaner, and FIG. FIG. 5 is a control block diagram of the electric vacuum cleaner.

  1-5, the vacuum cleaner in this Embodiment has the suction tool 23 attached to the extension pipe 28, and attracts | sucks dust, and the extension pipe 28 has various operation modes (for example, "strong" * " It is connected to the vacuum cleaner main body 1 via a hand operating section 25 and a hose 27 with a hose connecting section 26 that can select a suction force such as “medium”, “weak” and “stop”.

  The vacuum cleaner main body 1 has a built-in electric blower 2 that generates suction air at the rear, and a dust collection container 3 that separates and collects dust is detachably attached to the front. In addition, a power cord 34 is provided at the rear part for connecting to a commercial power source 35 (described later) such as an outlet and supplying power to a circuit board (not shown) built in the cleaner body 1.

  The partition 15 divides the installation part of the electric blower 2 and the dust collecting container 3, and is provided with a lattice-like partition opening 16 that communicates with a suction part (not shown) of the electric blower 2.

  The dust collecting container 3 incorporates a filter unit 5 as a filtering means that is detachably attached, a dust collecting part 4 that accumulates dust, and a control part (not shown) that is detachably attached. The dust collecting container 3 includes a control storage unit 42 to which a handle 22 is rotatably attached. The control storage unit 42 generates a high-pressure generator 43 that emits ions or ozone or charged fine particle water. An electrostatic atomizer 44 to be discharged and a dust remover 45 for applying a vibration impact to the filter unit 5 are housed and fixed.

  Further, when the dust collecting container 3 is attached to the cleaner body 1, the dust collecting container inlet 6 is provided which communicates with the body inlet 17 of the cleaner body 1 and guides the suction air to the dust collector 4. Yes. A lid 7 is attached to the bottom of the dust collecting container 3 so as to be freely opened and closed. By opening the lid 7, dust accumulated in the dust collecting portion 4 can be discharged to the outside.

  Further, the partition wall 15 is provided with a power supply terminal 46 for energizing the high pressure generator 43 provided in the control storage unit 42 of the dust collecting container 3 or the electrostatic atomizer 44 and the dust remover 45. A power receiving terminal 47 that is paired with the power feeding terminal 46 is provided in the control storage unit partition wall 21 of the dust collecting container 3. These terminals are configured to be connected when the dust collecting container 3 is mounted on the cleaner body 1.

  Next, the internal configuration of the dust collecting container 3 will be described with reference to FIG.

  In FIG. 3, the filter unit 5 includes a frame body 8, a pleat-folded filter 9 provided on the frame body 8 with the pleats in the vertical direction, and a flip body 10 slidably provided in the horizontal direction. And a dust removal gear 11 that is rotatably provided on the filter unit 5, and a dust removal connecting rod 12 that connects the outer periphery of the dust removal gear 11 and a part of the flip body 10.

  Further, on the surface of the flip body 10 facing the filter 9, there are provided protrusions (not shown) that come into contact with the mountain folds 9 a of the pleated filter 9.

  The fixed bar 13 is fixed to the frame body 8, and the rotating shaft of the dust removing gear 11 is fixed to the fixed bar 13, and the operation direction of the flip body 10 is restricted to operate in the left and right lateral directions. It has a configuration. The dust removal gear 11 side of the dust removal connecting rod 12 has a tooth shape that meshes with the dust removal gear 11. When the dust removal gear 11 rotates forward or reverse, the dust removal connecting rod 12 slides and the flip body 10 is moved. It is configured to move in the left-right direction. A dust removing device 45 having a gear 30 that meshes with the dust removing gear 11 is connected to the dust removing gear 11, and the dust removing gear 45 rotates to transmit power to the dust removing gear 11.

  The filter unit 5 is housed in the dust collecting container 3 and the control housing unit 42 is mounted above the dust collecting container 3, so that the flip body 10, the dust removing gear 11, the dust removing connecting rod 12, the fixed rod 13, and the dust removing device 45. Are connected to the upper part of the filter unit 5, and the generator (not shown) of the high-pressure generator 43 or the electrostatic atomizer 44 is fixed.

  With the above configuration, when the dust removing device 45 rotates, the flip body 10 connected via the dust removal connecting rod 12 reciprocates left and right, and a protrusion (not shown) provided on the flip body 10 is filtered between them. Nine folds 9 a are played, and the vibration propagates to the entire dust collecting container 3 around the filter 9. Due to this vibration and impact, fine dust adhering to the back surface of the filter 9 (the surface on the dust collecting portion 4 side) is screened out and collected in the dust collecting portion 4, and the filtration performance of the filter 9 is restored. .

  In FIG. 4, the high-voltage generator 43 has a needle electrode 50 and a ground electrode 51 held and fixed. When a high voltage is applied between the needle electrode 50 and the ground electrode 51, ions or ozone is released. It has come to be. When a negative high voltage (for example, −5 kV) is applied to the needle electrode 50 with respect to the ground electrode 51, negative ions and ozone are generated. By reducing the distance between the needle electrode 50 and the earth electrode 51 or increasing the high voltage, the amount of negative ions and ozone can be varied.

The electrostatic atomizer 44 has a needle electrode 50 and a ground electrode 51 held and fixed. The needle electrode 50 is electrically insulated, but is connected to the Peltier element 52 in terms of temperature transmission. Thus, the needle electrode 50 is cooled by applying a voltage to the Peltier element 52. Further, the Peltier element 52 is also connected to the heat dissipating fins 53 in a temperature-transmitting manner, and heat generated that is offset by the cooling of the needle electrodes 50 is dissipated to the heat dissipating fins 53.

  The electrostatic atomizer control unit 54 includes a high voltage generator 55 that applies a high voltage between the needle electrode 50 and the ground electrode 51, and a DC power source means 56 that applies a voltage to the Peltier element 52 that cools the needle electrode 50. Yes, the temperature is controlled at a temperature at which moisture around the needle electrode 50 is condensed. With this configuration, the needle electrode 50 to which a high voltage (for example, 6 kV) of the electrostatic atomizer 44 is applied is cooled by the Peltier effect of the built-in Peltier element 52 to condense moisture in the air, and corona discharge Thus, charged fine particle water encapsulated with fine particle water is generated.

  Next, the control method of the vacuum cleaner in this Embodiment is demonstrated using FIG.

  The energization detection means 61 in the cleaner body 1 detects whether the cleaner body 1 is connected to the commercial power source 35 and is energized, and outputs a detection signal to the control means 62. The control means 62 is constituted by a microcomputer or the like, and performs control to output an ignition pulse for phase control to the electric blower driving means 63 based on operation information input from the hand operation unit 25 by the user. On the basis of the operation information and the detection information of the energization detection means 61, a drive signal is output to the high pressure generator 43 or the electrostatic atomizer drive means 64 and the dust removal drive means 65 to perform control.

  The electric blower driving means 63 is a driving means constituted by a bidirectional thyristor or the like for driving the electric blower 2, and changes the suction force by controlling the phase of the electric blower 2. The high-pressure generator driving means or the electrostatic atomizer driving means 64 is a driving means constituted by a transistor, a relay or the like for driving the high-voltage generator 43 or the electrostatic atomizer 44. OFF control is performed.

  The dust removal drive means 65 is a drive means composed of a transistor, a relay or the like for driving the dust removal device 45, and performs ON / OFF control. The power supply device 66 converts an alternating current power supply from a commercial power supply into a direct current with a switching power supply or the like, and serves as a power supply for the high voltage generator 43 or the electrostatic atomizer 44 and the dust remover 45. In the present embodiment, a description will be given of a single DC power supply. However, the power supply of the high-voltage generator 43 or the electrostatic atomizer 44 and the power supply of the dust remover 45 may be separately operated. Needless to say.

  Furthermore, it goes without saying that the high-voltage generator 43 or the electrostatic atomizer 44 and the dust remover 45 need not be a DC power source as long as they can be AC driven. When the dust collecting container 3 is mounted on the cleaner main body 1 through the respective driving means, the DC power source produced by the power supply device 66 is connected to the power supply terminal 46 of the cleaner main body 1 and the dust collecting container 3. When the power receiving terminal 47 is connected, power is supplied to each device.

  About the vacuum cleaner in this Embodiment comprised as mentioned above, the operation | movement and an effect | action are demonstrated below using FIG.

  First, the user pulls out the power cord 34 from the cleaner body 1 for cleaning, and connects the plug 34a attached to the tip of the power cord 34 to an outlet (not shown). When connected to the power supply 35, a detection signal is transmitted to the control means 62 by the energization detection means 61. Further, a DC power source is created from the commercial power source 35 by the power source device 66.

  Upon receipt of the signal, the control means 62 sends an operation signal for a predetermined time to the dust removal driving means 65, drives the dust removal device 45 for a certain time by the supply voltage of the DC power source, and the dust collecting container 3 The dust inside the filter 9 is removed. Further, an operation signal is sent to the high pressure generator driving means or electrostatic atomizer driving means 64 and the dust removal driving means 65 so that the high pressure generator 43 or electrostatic atomizer 44 is driven and the dust collecting portion of the dust collecting container 3 is driven. Ions, ozone, or charged fine particle water is released to the dust accumulated in 4 and the dust adhering to the filter 9.

  Next, when the user operates the hand operation unit 25 and selects, for example, the operation mode “medium”, the control unit 62 determines in advance the electric blower driving unit 63 based on information from the hand operation unit 25. The transmitted signal is sent to drive the electric blower 2. The suction force by the electric blower 2 reaches the suction tool 23 through the filter 9, the dust collection unit 4, the hose 27, and the extension pipe 28. Then, the air containing the dust sucked from the suction tool 23 passes through the main body inlet 17 and enters the dust collector 4 from the dust collector inlet 6 of the dust collector 3, hits the filter 9 and collects the dust there. Will be deposited. The air that has passed through the filter 9 is sucked into the electric blower 2 via the partition opening 16. In addition, ions, ozone, or charged fine particle water is also released into dust accumulated during the cleaning operation.

  When cleaning is completed, the user selects “stop” of the hand operating unit 25 and stops the driving of the electric blower 2. 9 dust can be removed. Moreover, even if cleaning is completed and suction by the electric blower 2 disappears, ions, ozone, or charged fine particle water is also released to the accumulated dust.

  When dust accumulates on the dust collecting unit 4 and exceeds the allowable volume, the user first removes the dust collecting container 3 from the cleaner body 1 and places the dust collecting container 3 on a trash box (not shown). Move. Next, when the lid body 7 is opened, the dust accumulated in the dust collection unit 4 is discharged into the trash box. When the dust collecting container 3 is removed from the cleaner body 1, power supply from the power supply terminal 46 is stopped, and the discharge of ions, ozone, or charged particulate water is stopped. When the dust container 3 is attached to the cleaner body 1 again, power can be supplied from the power supply terminal 46, and ions, ozone, or charged particulate water is released again.

  Here, while the power is supplied, the operation of the high-pressure generator 43 or the electrostatic atomizer 44 has been described as a continuous operation, but there is no intermittent operation or suction from the electric blower 2. It goes without saying that the operation may be performed only at the time of stoppage or only when dust is present in the dust collecting unit 4 or the filter 9.

  In the above embodiment, the power supply device 66 has been described as being mounted on the cleaner body 1. However, the power supply device 66 is provided in the control storage unit 42 of the dust collecting container 3, and is different from the control means 62. It goes without saying that the same operation can be realized even if the dust container control means (not shown) communicates with the control means 62 and operates. Further, a blower fan (not shown) is fixed to the filter 9 side of the control storage unit 42 so that ions, ozone, or charged fine particle water can be released and diffused throughout the accumulated dust while cleaning is stopped. Needless to say, it may be.

  As described above, according to the vacuum cleaner in the present embodiment, when connected to the outlet, by operating the high-pressure generator 43 or the electrostatic atomizer 44 provided in the dust collecting container 3, By discharging ions, ozone, or charged fine particle water directly to the dust collecting unit 4 and the filter 9 not only during the cleaning operation but also in a stopped state where there is no intake air, It can stay in the dust collecting container 3, dust is sufficiently cleaned, and deodorization can be surely performed.

(Embodiment 2)
FIG. 6 is a control block diagram of the electric vacuum cleaner according to Embodiment 2 of the present invention, and FIG. 7 is a diagram showing a state when dust in the dust collecting container of the electric vacuum cleaner is discarded. In addition, about the component of the same structure as the vacuum cleaner in the said Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  In FIG. 6, the electric vacuum cleaner of the present embodiment is configured to operate with the power storage means 70 and the power storage means 70 in the control storage unit 42 that is detachably attached to the dust collecting container 3. The control board (not shown) provided with the dust container control means 71 is fixed. A dust removal operation means 18 such as a switch for a user to perform a dust removal operation with the dust collection container 3 alone is fixed.

  The charge driving means 72 is for charging control of the power storage means 70 in the dust collecting container 3 through the power supply terminal 46 and the power receiving terminal 47 using the power supply device 66 as a power source, and according to an operation signal from the control means 62. Perform charging ON / OFF control.

  In the present embodiment, the power storage means 70 is composed of an electric double layer capacitor, a secondary battery or the like, and when the cleaner body 1 is not connected to an outlet, the dust collection container control means 71 and the high pressure generator 43 or a power source for operating the electrostatic atomizing device 44, and a power source for operating the dust removing device 45 when only the dust collecting container 3 is used.

  The constant voltage means 78 is a means for controlling the voltage of the power storage means 70 to a constant voltage, and operates the dust collecting container control means 71 and the high pressure generator 43 or the electrostatic atomizer 44 and the dust remover 45 with a stable voltage. It is.

  When the power supply from the power supply device 66 of the cleaner body 1 is supplied via the power supply terminal 46 and the power receiving terminal 47, the power supply switching unit 73 outputs the power of the power supply means 73, and when there is no supply, Power source switching means for switching to output power from the power storage means 70, when the cleaner body 1 is not connected to an outlet or when the dust collecting container 3 is removed from the cleaner body 1, The storage means 70 is switched.

  The body attachment / detachment detection means 74 detects whether the dust collection container 3 is attached to the cleaner body 1, and transmits the signal to the dust collection container control means 71.

  The operation and action of the electric vacuum cleaner configured as described above will be described below with reference to FIG.

  First, when the user performs cleaning, when the power cord 34 of the cleaner body 1 is connected to the commercial power source 35, a detection signal is transmitted to the control means 62 by the energization detection means 61. Further, a DC power source is created from the commercial power source 35 by the power source device 66. Since the power supply switching unit 73 is supplied with power from the power supply device 66, the power supply switching unit 73 performs switching so as to supply power from the power supply device 66.

  In response to the signal, the control means 62 transmits the energized information to the dust container control means 71. In response to the information, the dust collecting container control means 71 sends an operation signal set in advance to the dust removing driving means 65, and the dust removing device 45 is driven for a certain time by the supply voltage of the DC power source. The dust of the filter 9 is removed.

  Further, an operation signal is sent to the high pressure generator 43 or the electrostatic atomizer drive means 64 and the dust removal drive means 65 to drive the high pressure generator 43 or the electrostatic atomizer 44, and the dust collecting part of the dust collecting container 3. Ions, ozone, or charged fine particle water is released to the dust accumulated in 4 and the dust adhering to the filter 9.

  When the dust removal operation ends after a certain period of time, the control means 62 sends a signal to the charge driving means 72 and starts charging the power storage means 70. Charging is continued even when the user operates the hand operating unit 25 and cleaning is performed without charging being completed, but when the operation mode “stop” is operated, the charging is temporarily stopped. And dust removal for a certain period of time. This is a consideration not to increase the size because both the dust removal operation and the charging operation require a large output capacity of the power supply device 66, and it goes without saying that both may be operated.

  The high-pressure generator 43 or the electrostatic atomizer 44 operates continuously even during the cleaning operation or while the power storage means 70 is being charged. Alternatively, charged fine particle water is discharged.

  When the cleaning is completed and the power cord 34 is removed from the outlet and the power supply from the commercial power supply 35 is stopped, the power supply unit 66 stops the power supply. The dust collection container control means 71 is operated by the power source from the power storage means 70 and the voltage converted into a constant voltage by the constant voltage means 78 as a power source. It is detected that the container 3 is connected to the cleaner main body 1, and the high pressure generator 43 or the electrostatic atomizer 44 is operated at regular intervals until the charge capacity of the power storage means 70 is exhausted. Ions, ozone, or charged fine particle water is discharged to dust.

  In the present embodiment, it is described at a constant cycle, but this is more efficient because the intermittent operation that discharges after ions or ozone or charged fine particle water disappears can be released for a longer time. Although described, it goes without saying that continuous operation may be used. When the dust collecting container 3 is detached from the cleaner body 1, it is detected by the body attachment / detachment detection means 74, and the operation of the high pressure generator 43 or the electrostatic atomizer 44 is stopped.

  Next, the case where the dust accumulated in the dust collecting unit 4 is discarded will be described.

  The user first removes the dust collection container 3 from the cleaner body 1 and moves the dust collection container 3 onto a trash can or the like. Next, when the lid 7 is opened, the dust accumulated in the dust collecting unit 4 is discharged to some extent in the trash can, but the dust remains on the inner wall of the dust collecting unit 4 and the lid 7 with a part of the dust. .

  At this time, since the power supply switching means 73 is no longer supplied with power from the power receiving terminal 47, the power supply switching means 73 is switched to supply power from the power storage means 70, and when the user operates the dust removal operation means 18, The dust collection container control means 71 operates using the voltage converted to a constant voltage by the constant voltage means 78 with the power supply from the power storage means 70, and the dust collection container 3 is removed from the cleaner body 1 by the body attachment / detachment detection means 74. And the dust removing device 45 is operated for a certain period of time, and the entire dust collecting container 3 vibrates around the filter 9 by the operation of the flip body 10, and not only the filter 9 but also the collecting device as shown in FIG. Vibration propagates to the inner wall of the dust part 4 and the lid 7 and is further blown to remove the attached dust.

  In the present embodiment, in order to operate the dust removing device 45 for discarding the dust accumulated in the dust collecting container 3 alone, the power storage means 70 and the dust collecting container control means are provided in the control storage unit 42 of the dust collecting container 3. 71, and the power storage means 70 has been described as being configured to be charged from the power supply device 66 of the cleaner body 1. However, if only the operation of the high pressure generator 43 and the electrostatic atomizer 44 is performed, the power storage means It goes without saying that 70 may be provided in the cleaner body 1.

In that case, even if there is no main body attachment / detachment detection means 74, the power supply is lost when the main body is attached and removed, so that the dust collecting container 3 alone cannot operate, so that the configuration can be made relatively easily. Furthermore, it is possible to fix a blower fan on the filter 9 side of the control storage unit 42 so that it can be released and diffused to the entire dust in which ions, ozone, or charged fine particle water is deposited while cleaning is stopped. Needless to say.

  As described above, in the present embodiment, even when the power supply from the outlet is no longer supplied to the cleaner body 1, the dust collector 4 and the filter are connected with the power from the power storage means 70 after a preset time has elapsed. Since ions or charged fine particle water can be discharged to 9, the discharge time can be further increased, and the dust allergen substance can be sufficiently inactivated and deodorized.

(Embodiment 3)
FIG. 8 is a control block diagram of the electric vacuum cleaner according to Embodiment 3 of the present invention. In addition, about the component of the same structure as the vacuum cleaner in the said embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  As shown in FIG. 8, the electric vacuum cleaner in the present embodiment fixes a power generation means 80 composed of a solar panel or the like that generates power by sunlight, illumination, or the like on the top surface of the dust collecting container 3, and the power generation means The charging means 81 is provided for charging the power storage means 70 with the power generated at 80.

  About the vacuum cleaner in this Embodiment comprised as mentioned above, the operation | movement and an effect | action are demonstrated.

  When cleaning is performed, or when cleaning is completed and the cleaner body 1 is left unattended, power is generated by the power generation means 80 and the power storage means 70 is charged.

  As described above, in the present embodiment, energy can be saved because the power generation means 80 can perform charging without supplying power for charging from the cleaner body 1.

  As described above, the vacuum cleaner according to the present invention can be used even when the dust accumulated in the dust collecting container 3 or the dust attached to the filter 9 is stopped or when power is not supplied from the outlet. , Ozone, and charged particulate water can be released for a long time, sufficiently inactivate and deodorize allergens in dust, and are easy to use for household, commercial, and store use. Applicable to various vacuum cleaners.

DESCRIPTION OF SYMBOLS 1 Vacuum cleaner main body 2 Electric blower 3 Dust collection container 4 Dust collection part 9 Filter 42 Control storage unit 43,55 High pressure generator 44 Electrostatic atomizer 61 Current detection means 62 Control means 66 Power supply means 70 Power storage means 71 Dust collection container Control means 72 Charging drive means 74 Main body attachment / detachment detection means 80 Power generation means

Claims (6)

A vacuum cleaner body with a built-in electric blower that generates suction air, a detachable attachment to the vacuum cleaner body, and a dust collection part for accumulating dust collected by a filter and a control storage unit are detachably attached. A dust collection container, a high-pressure generator disposed in the control storage unit, and discharging ions or ozone, or an electrostatic atomizer generating and discharging charged fine particle water, and the high-pressure generator or electrostatic Control means for controlling the operation of the atomizer, and a power supply device arranged in the cleaner body or in the control storage unit for supplying electric power to the high pressure generator or the electrostatic atomizer, A vacuum cleaner that discharges ions, ozone, or charged fine particle water to the unit and the filter. Power storage means for storing electrical energy as a power source for the high pressure generator or electrostatic atomizer, energization detection means for detecting whether the cleaner body is connected to an outlet, and the cleaner body is connected to the outlet And charging drive means for charging the power storage means when the power supply from the outlet is lost, the power storage means releases ions, ozone, or charged particulate water to the dust collecting part and the filter. The vacuum cleaner according to claim 1. 3. The electric cleaning according to claim 1, wherein the control unit performs control so that ions, ozone, or charged fine particle water is discharged to the dust collecting unit and the filter after suction by the electric blower is eliminated. Machine. Main body attachment / detachment detection means for detecting whether or not the dust container is attached to the cleaner body, and when the dust container is attached to the cleaner body, ions or ozone are applied to the dust collector and the filter. Or the charged fine particle water is discharge | released, The vacuum cleaner of any one of Claims 1-3 characterized by the above-mentioned. The control storage unit includes a blower fan that diffuses ions, ozone, or charged fine particle water, and discharges ions, ozone, or charged fine particle water to the dust collecting unit and the filter while diffusing. The vacuum cleaner of any one of 1-4. 6. The electric vacuum cleaner according to claim 2, wherein the control storage unit is provided with power generation means for generating power by sunlight, illumination, or the like, and the power storage means is used to charge the power storage means.