JP2003000497A5 - - Google Patents

Description

Patent application title: Electric vacuum cleaner
1. An airframe, an electric motor provided in the airframe, a fan driven by the electric motor, a filter for filtering dust contained in air sucked by the fan, and dust filtered by the filter A vacuum cleaner having a dust collecting unit for storing the dust collecting unit, wherein the dust collecting unit is formed in an annular shape, and the dust collecting unit is disposed on the outer periphery of the electric motor and the fan.
2. The vacuum cleaner according to claim 1, wherein a filter is provided on the inner peripheral side of the dust collection unit.
3. The vacuum cleaner according to claim 1, wherein the filter is formed over the entire circumference of the inner peripheral side of the dust collection portion.
4. The vacuum cleaner according to any one of claims 1 to 3, further comprising a vortex flow forming means for causing an air flow to flow in the circumferential direction of the dust collection portion.
Detailed Description of the Invention
[0001]
[Technical field to which the invention belongs]
The present invention relates to a vacuum cleaner, and more particularly to a vacuum cleaner for collecting collected dust in a removable container.
[0002]
[Problems to be solved by the invention]
Conventionally, as this type of vacuum cleaner, for example, the one described in Japanese Patent Application Laid-Open No. 5-253096 is known. This is a hand-held vacuum cleaner, and a dust collection case (dust collection part) and a filter are provided in front of a fan motor (fan and motor), and dust contained in air sucked by the fan motor is filtered by the filter In the dust collection case. In addition, a relatively large vacuum cleaner that collects dust on the same principle is also known in Japanese Patent Application Laid-Open No. 5-154075 and the like.
[0003]
However, in these vacuum cleaners, since the fan motor and the dust collection case are arranged in the back and forth or up and down, there is a problem that the whole vacuum cleaner becomes large. And when it is going to avoid the enlargement of this vacuum cleaner, although the vacuum cleaner can be miniaturized relatively if the dust collection case is miniaturized, the capacity of dust is reduced, and the practicality is sacrificed. There was a risk that it would Also, in the former vacuum cleaner, there is a problem that the filter is easily clogged with dust, and in order to prevent the clogging, like the latter vacuum cleaner, for removing dust adhering to the filter Although it is conceivable to provide a mechanism, there is a problem that the cost of the product is increased if such a mechanism is provided.
[0004]
SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a vacuum cleaner which can be configured relatively compact and is resistant to clogging.
[0005]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided a vacuum cleaner comprising an airframe, an electric motor provided in the airframe, a fan driven by the electric motor, and a filter for filtering dust contained in air sucked by the air fan. In a vacuum cleaner having a dust collection unit for collecting dust filtered by the filter, the dust collection unit is formed annularly, and the dust collection unit is disposed on the outer periphery of the electric motor and the fan.
[0006]
According to the configuration of claim 1, an annular dust collecting portion is disposed to surround the outer periphery of the motor and the fan, and the dust filtered by the filter is collected in the dust collecting portion and the air from which the dust is removed is collected. It is sucked by a fan surrounded by dust and released to the outside.
[0007]
Moreover, the vacuum cleaner of Claim 2 of this invention is provided with the filter in the inner peripheral side of the said dust collection part in Claim 1.
[0008]
According to the configuration of claim 2, the dust contained in the air flow formed by the rotation of the fan is filtered by the filter provided on the inner periphery of the dust collection section, and the air from which the dust is removed passes through the filter of the inner circumference of the dust collection section And reach the fans in a short path.
[0009]
A vacuum cleaner according to claim 3 of the present invention is the vacuum cleaner according to claim 1 or 2, wherein a filter is formed over the entire circumference of the inner peripheral side of the dust collection portion.
[0010]
According to the configuration of claim 3, the dust contained in the air flow formed by the rotation of the fan is filtered over the entire area of the filter formed widely on the entire circumference of the inner periphery of the dust collection portion.
[0011]
Further, The electric vacuum cleaner according to claim 4 of the present invention, in the electric vacuum cleaner of any one of claims 1 to 3, vortex so that the airflow flows in the circumferential direction of the dust collection unit A flow forming means is provided.
[0012]
According to the configuration of claim 4, the air containing the dust sucked into the dust collection portion is rotated along the outer circumference of the dust collection portion by the vortex flow forming means, whereby large dust is caused by the centrifugal force on the outer peripheral side inner wall of the dust collection portion The dust is removed from the air flow by pressing against the dust, and the dust is further removed by a filter provided on the inner periphery of the dust collection unit.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described based on FIGS. 1 to 3. In the same figure, 1 is a table-top type vacuum cleaner main body. An electric motor 2 and a fan 3 attached to a rotating shaft of the electric motor 2 are provided inside the vacuum cleaner main body 1, and the electric motor 2 and the fan 3 constitute a fan 4. In addition, a cylindrical holder 5 for housing the electric motor 2 is formed substantially at the center of the cleaner body 1. A pair of left and right side wall portions 6 erected at an interval to the inner wall of the holder 5 is integrally formed on the bottom wall portion 7 of the holder 5, which will be described later by the holder 5 and the left and right side wall portions 6 and 7. The mounting portion 8 of the dust collection container 11 is configured. The electric motor 2 is fixed to the bottom surface portion 1A of the cleaner main body 1 so as to face the vent 5A formed by the fan 3 on the upper surface of the holder 5. Further, in the concave portion 10 formed between the holder 5 and the side wall portion 6, the dust collection container 11 and the filter 12 are respectively assembled. The dust collection container 11 has a bottom wall surface 15 integrating the inner annular wall 13 and the outer annular wall 14 formed in a cylindrical shape and the inner and outer annular walls 13 and 14 so as to be fitted with the recess 10. And forms an annular dust collection portion 16 surrounded by the inner and outer annular walls 13 and 14 and the bottom wall surface 15. Further, the filter 12 is attached to an opening 18 formed in a peripheral wall of the filter case 17 formed in a reverse cup shape substantially along the inner annular wall 13 of the dust collection container 11. The filter case 17 is detachably mounted with a slight gap S between the filter case 17 and the inner annular wall 13 by means of a step 13A formed on the lower edge of the inner annular wall 13. Further, on the upper surface of the inner annular wall 13, there is formed a bottomed cylindrical small diameter step 20 covering the vent 5A formed on the upper surface of the holder 5, and the communication hole 21 is formed on the circumferential surface of the small diameter step 20. It is open. Further, a positioning portion 24 fitted with an annular rib 23 formed on the upper surface of the small diameter portion 20 is formed on the upper surface of the filter case 17, and furthermore, the cleaner body 1 can be pivoted by a hinge 25. A positioning recess 27 is formed in the attached lid portion 26 so as to fit with the positioning portion 24. Further, a grip 26A is integrally formed on the cover 26, and the filter case 17 and the dust collection container 11 can be removed from the cleaner body 1 in a state where the cover 26 is opened by holding the grip 26A. When the lid 26 is closed, the filter case 17 and the dust collection container 11 are held between the positioning recess 27 formed in the lid 26 and the bottom wall 7 to fix the filter case 17 and the dust collection container 11. At this time, in the filter case 17 and the dust collection container 11, the positioning portion 24 of the filter case 17 is fitted with the annular rib 23 of the dust collection container 11, and the positioning portion 24 is fitted with the positioning recess 27 of the lid 26. And fixed in place. Further, a battery storage portion 31 for storing the storage battery 30 is formed in the cleaner main body 1 and a protrusion 33 provided with a suction pipe 32 at the tip end side of the cleaner main body 1 is provided. It is provided integrally. At the lower end of the suction pipe 32, a suction portion 34 provided with a suction port 34a is detachably attached. Further, a bent portion 35 bent in the lateral direction is formed at the upper end of the suction pipe 32, and this bent portion 35 is formed between the inner and outer annular walls 13 and 14 of the dust collection container 11, that is, the dust collection portion 16 It's open inside. The bent portion 34 formed at the upper end edge of the suction pipe 32 constitutes a vortex flow forming means for generating an air flow F flowing in the circumferential direction of the dust collection portion 16. In this way, by opening the suction tube 32 inside of the dust collecting unit 16, pos- sibly through air passage 40 to the dust collecting container 11 from the suction port 34a via the suction pipe 32 is formed. Further, the communication holes 21 formed in the peripheral surface of the small-diameter portion 20 of the dust collection container 11 and the ventilation formed in the upper surface of the holder 5 pass through the filter 12 attached to the dust collection container 11 so as to communicate with the air passage 40. An intake passage 41 is formed on the inner surface of the holder 5 through the opening 5A, and the air drawn through the suction opening 34a through the air passage 40 and the intake passage 41 is discharged to the outside from an exhaust port (not shown) Do. In the figure, 45 is a switch formed on the grip 26A, 46 is an operation button for locking and unlocking the lid 26, and 47 is a packing interposed between the cleaner body 1 and the lid 26. Furthermore, 48 is the operation button 46 as one body forming a cleaner hook that locking claws 48A engage formed in the body 1.
[0014]
Next, the operation of the present embodiment will be described. First, the operation button 46 is operated to open the lid 26, and the dust collection container 11 is set to the attachment part 8 formed on the cleaner body 1, and the inner annular wall 13 of the dust collection container 11 is further covered. The filter case 17 is attached. At this time, by fitting the lower end of the filter case 17 with the step 13A formed on the lower end periphery of the inner annular wall 13, the filter 12 mounted on the filter case 17 maintains a slight gap S with the inner annular wall 13. Is mounted on the dust collection container 11. After the dust collection container 11 and the filter case 17 are set in the mounting portion 8 in this manner, when the lid 26 is closed, the hook 26 integrally formed with the operation button 46 is formed on the cleaner body 1. The locking claw 48A is locked and locked. At the same time, the dust collection container 11 and the filter case 17 set in the mounting part 8 are sandwiched between the lid 26 and the mounting part 8, and the positioning part 24 of the filter case 17 is an annular rib of the dust collection container 11 Further, the dust collection container 11 and the filter case 17 are held by the cleaner body 1 without looseness by being fitted into the positioning recess 24 of the lid 26. Then, the blower 4 is driven by holding the grip portion 26A and operating the switch 45.
[0015]
By the driving of the blower 4, air containing dust is sucked from the suction port 34a, reaches the suction path 41 from the ventilation path 40, and is discharged to the outside from the exhaust port (not shown) formed in the cleaner body 1. At this time, since the bent portion 35 is formed at the upper end of the suction pipe 32 facing the dust collection portion 16 of the dust collection container 11, the air in the dust collection portion 16 is guided to the bent portion 35 and the dust collection container Vortexing occurs along the inner and outer annular walls 13 and 14 of 11. Because the dust contained in the vortex is pressed against the inner wall of the outer annular wall 14 of the dust collection container 11 by the centrifugal force by the vortex flow, relatively heavy dust remains as it is near the inner circumferential surface of the outer annular wall 14 of the dust collection container 11 Will be separated from the vortex. On the other hand, relatively light dust such as cotton dust, fine dust and the like are drawn to the intake passage 41 side together with the vortex flow and collected by the filter 12.
[0016]
After cleaning, the operation button 46 is operated to release the lock between the hook 48 and the locking claw 48A to open the lid 26, and then the filter case 17 and the dust collection container 11 are removed. Then, the dust collected in the dust collection unit 16 is discarded to a trash can, and the dust adhering to the filter 12 is removed. Thus, maintenance of the filter 12 can be facilitated by the filter case 17 being detachable from the dust collection container 11.
[0017]
As described above, in the present embodiment, the dust collection portion 16 is formed in an annular shape, and the annular dust collection portion 16 is disposed so as to surround the outer periphery of the motor 2 and the fan 3. Dust is collected in the dust collection unit 16 and air from which dust is removed is sucked by the fan 3 surrounded by the dust collection unit 16 and discharged to the outside. Thus, dust can be efficiently accommodated by forming the dust collection part 16 annularly, and there are also many accommodation amounts of dust. Further, by providing the filter 12 on the inner peripheral side of the dust collection unit 16, the dust attracted by the rotation of the fan 3 is filtered by the filter 12 provided on the inner peripheral side of the dust collection unit 16, Since the removed air passes through the filter 12 on the inner periphery of the dust collection part 16 and reaches the fan 3 in a short path, the dust collection part 16 can be compactly disposed around the motor 2 and the fan 3 1 can be miniaturized. Furthermore, since the filter 12 is formed over the entire circumference of the inner periphery of the dust collection portion 16, dust included in the air flow F formed by the rotation of the fan 3 is the dust of the inner periphery of the dust collection portion 16. It is filtered over the whole area of the filter 3 formed widely around the entire circumference, and dust can be reliably collected. Further, by forming the bent portion 35 at the upper end of the suction pipe 32 facing the dust collection portion 16 of the dust collection container 11, the air flow F flowing in the circumferential direction of the dust collection portion 16 is generated. As a result, the air containing the dust sucked into the dust collection part 16 rotates along the outer circumference of the dust collection part 16, and large dust is pressed against the outer wall of the dust collection part 16 by centrifugal force and a part of the dust Is removed from the air flow F and separated, fine dust is sucked, and only fine dust is filtered by the filter 12 provided on the inner periphery of the dust collection section 16, so that clogging of the filter 12 is prevented. Can. As described above, by simply forming the bent portion 35 at the upper end of the suction pipe 32, the air flow F flowing in the circumferential direction of the dust collection portion 16 can be generated, and clogging can be prevented. There is no need for a complicated mechanism for removing dust, and there is no risk that the cost of the product will be increased.
[0018]
As mentioned above, although the Example of this invention was explained in full detail, this invention is not limited to the said Example, A various deformation | transformation implementation is possible within the range of the summary of this invention. For example, the basic structure as a Tsuke構 granulator such cleaner preparative shape and the filter 12 of the bent portion 35 of the vortex forming means may be suitably selected. Moreover, although the so-called desk-top type vacuum cleaner was shown in the said Example, another structure may be sufficient.
[0019]
【Effect of the invention】
According to a first aspect of the present invention, there is provided a vacuum cleaner comprising an airframe, an electric motor provided in the airframe, a fan driven by the electric motor, and a filter for filtering dust contained in air sucked by the air fan. In a vacuum cleaner having a dust collection part for collecting dust filtered by this filter, the dust collection part is formed annularly, and the dust collection part is disposed on the outer periphery of the electric motor and the fan, An annular dust collection portion can be compactly disposed so as to surround the outer periphery of the motor and the fan, and the size of the vacuum cleaner can be reduced.
[0020]
Further, according to the vacuum cleaner of claim 2 of the present invention, in the vacuum cleaner of claim 1, since the filter is provided on the inner peripheral side of the dust collecting portion, the air from which dust is removed is provided. Since it passes through the filter of the inner periphery of the dust collection part and reaches the fan through a short path, the vacuum cleaner can be further miniaturized.
[0021]
In the vacuum cleaner according to claim 3 of the present invention, in the vacuum cleaner according to claim 1 or 2, the filter is formed over the entire circumference of the inner peripheral side of the dust collection portion. The dust contained in the air flow formed by the rotation of the fan can be filtered over the entire area of the filter formed widely on the entire circumference of the inner periphery of the dust collection portion.
[0022]
Furthermore, according to the vacuum cleaner of the fourth aspect of the present invention, in the vacuum cleaner of the first to second aspects, the eddy current forming means for causing the air flow to flow in the circumferential direction of the dust collecting portion is provided. Because large dust particles are pressed against the inner wall of the outer periphery of the dust collection unit by centrifugal force, part of the dust particles is removed from the air flow, and dust is further removed by a filter provided on the inner periphery of the dust collection unit. It is possible to prevent clogging of the filter.
Brief Description of the Drawings
FIG. 1 is a cross-sectional view of a vacuum cleaner according to an embodiment of the present invention as viewed from the front direction.
FIG. 2 is a cross-sectional view of the vacuum cleaner as viewed from the side.
3 is a cross-sectional view taken along the line AA of FIG.
[Description of the code]
DESCRIPTION OF SYMBOLS 1 Vacuum cleaner main body 2 Electric motor 3 Fan 4 Blower 12 Filter 16 Dust collection part 35 Bending part ( vortex formation means)