JP5199731B2 - Cyclone vacuum cleaner - Google Patents

Description

  The present invention relates to a cyclonic vacuum cleaner, and more particularly to a cyclonic vacuum cleaner in which dust is difficult to leak from a dust collection container.

Conventionally, as this type of cyclone type vacuum cleaner, it has a vacuum cleaner body incorporating an electric blower and a dust collection chamber that is detachably attached to the vacuum cleaner body, and an air inlet is provided in the dust collection chamber. There is known a valve provided so as to cover the intake port so that the airflow is swirled along the inner peripheral surface of the dust collection chamber when the cleaner is operated (see, for example, Patent Document 1). In such a cyclonic vacuum cleaner, the valve covers the intake port when the electric blower is stopped, so that dust is prevented from leaking from the intake port when the dust is thrown away.
JP 2003-180576 A

  However, in such a cyclonic vacuum cleaner, when the valve is thinly formed so that the valve is surely opened by an air flow, the intake port is closed by the restoring force due to the elasticity of the valve itself. Since the close contact between the valve and the inside of the dust collection chamber may not be performed well, it is difficult not only to completely prevent dust from leaking from the intake port, but also inside and outside of the valve. There is also a risk that the valve may vibrate like a reed of a musical instrument and generate sound due to a slight pressure difference in the airflow passing through the instrument. In order to improve this point, if the valve is formed thick, there is a possibility that the valve will be difficult to open due to the airflow.

  An object of the present invention is to solve the above-described problems and to provide a cyclonic vacuum cleaner having a valve that reliably opens and closes the communication hole and is less likely to vibrate due to airflow.

The cyclone type vacuum cleaner according to claim 1 of the present invention has a vacuum cleaner body in which an electric blower is incorporated, and a cylindrical dust collecting container that is detachably attached to the vacuum cleaner body. A communication hole is formed in the side wall of the dust collecting container, and a valve having a fixed end on the circumferential side of the side wall of the dust collecting container and a free end on the other end is provided so as to open and close the communication hole. and the cyclonic vacuum cleaner, to form the valve at thin elastic body, the valve, the condenser formed integrally thick portion extending so as to intersect with the center axis of the dust container, the dust on the dust collecting container While providing a storage part, the said thick part is formed in the edge part by the side of the said dust storage part in the said valve | bulb .

A cyclonic vacuum cleaner according to a second aspect of the present invention is the cyclonic vacuum cleaner according to the first aspect, wherein a thick portion is integrally formed on the free end edge of the valve .

  The cyclone type vacuum cleaner according to claim 1 of the present invention is configured as described above. When the electric blower is operated to generate an air flow, the air flow causes the valve to be based on the fixed end side. And the communication hole is opened, and the air flow is guided in the tangential direction of the side wall of the dust collecting container. On the other hand, when the electric blower stops, the valve closes the communication hole. At this time, the thick portion is integrally formed so as to intersect the central axis of the cylindrical dust collecting container, that is, from the fixed end side to the free end side of the valve. The waist of the valve is strong, which ensures that the communication hole is blocked by the valve. In addition, since the portion where the thick portion is not formed (thin portion) is relatively weak, the valve can open the communication hole relatively easily by the air flow. Furthermore, since the valve is partially thickened by forming the thick portion, the valve can be made difficult to vibrate due to airflow.

  In addition, the dust collection container is provided with a dust storage part, and the thick part is formed at the edge part of the dust storage part side of the valve, so that the edge part on the storage part side where dust is stored can be surely collected. It is possible to prevent leakage of dust by contacting the container.

  Furthermore, the thick portion is integrally formed on the free end edge of the valve, so that the anti-dust storage side of the free end of the valve is prevented from being squeezed, and the free end of the valve is reliably in contact with the dust collecting container. It is possible to prevent the leakage of dust.

  Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. Reference numeral 1 denotes a hand-held cyclone vacuum cleaner. This cyclone type vacuum cleaner 1 includes a cleaner body 2, a nozzle 3 that is detachably attached to the cleaner body 2, and a dust collecting means 4 that is detachably attached to the cleaner body 2. It is configured.

  The vacuum cleaner main body 2 includes a body portion 6 in which an electric blower 5 is built, a connection portion 7 in which a suction path (not shown) is provided, a grip portion 8, and a power cord 9. Yes. The grip 8 is provided with an operation unit 10 for attaching / detaching the dust collecting means 4 and a switch operation unit (not shown). The nozzle 3 is detachably attached to one end of the suction path of the connecting portion 7.

  The dust collecting means 4 includes a dust collecting container 11, a cylindrical body 12, a secondary filter body 13, a valve 14, and a seal member 15. The dust collection container 11 is formed of a relatively hard and transparent synthetic resin into a bottomed cylindrical shape with one end open and the other end closed. A stepped portion 17 is formed on the inner surface of the one end opening 16 of the dust collecting container 11, and the side wall 11 </ b> A of the dust collecting container 11 is slightly closer to the other end than the stepped portion 17. The communication hole 18 is formed so as to penetrate therethrough. An engagement receiving portion 19 is formed on one end side of the side wall 11A of the dust collecting container 11, and an engagement claw (not shown) of the cleaner body 2 is engaged with the engagement receiving portion 19. The dust collecting means 4 is configured to be fixed to the cleaner body 2. An attachment groove 20 is formed on the side wall 11 </ b> A of the dust collection container 11 adjacent to the communication hole 18 so as to extend from one end side to the other end side of the dust collection container 11.

  The cylindrical body 12 is integrally molded with a relatively hard synthetic resin or the like, and has a bottomed cylindrical cylindrical portion 21 and a flange portion 22 formed outward from the opening end of the cylindrical portion 21; And a return portion 23. A large number of small holes 24 acting as primary filters are formed in the side wall 21A of the cylindrical portion 21, and a plurality of small holes 25 acting as primary filters are also formed in the bottom wall 21B of the cylindrical portion 21. Is formed. An auxiliary filter 26 is detachably attached to the inside of the bottom wall 21B of the cylindrical portion 21. Further, a flat projection 27 is integrally formed at the center of the bottom wall 21 </ b> B of the cylindrical portion 21 so as to extend toward the opening end side of the cylindrical portion 21. The protrusion 27 is folded back so that a closed end 34B side of a secondary filter 34, which will be described later, is turned upside down and extended to the downstream side to the maximum, and the secondary filter body 13 is attached to the cylindrical body 12. The tip of the secondary filter 34 is formed so as not to contact the closed end 34B of the secondary filter 34. The flange portion 22 is formed in a substantially circular shape except for the positioning portion 22A. When the cylindrical body 12 is inserted into the dust collecting container 11 from the one end opening portion 16, the outer peripheral portion thereof is It is configured to abut on the stepped portion 17. Further, the return portion 23 includes a diameter-expanded portion 28 that gradually increases in diameter from the side wall 21 </ b> A of the cylindrical portion 21, and a short cylindrical portion 29 that is continuously formed from the diameter-expanded portion 28. Has been. Then, in the dust collection container 11, the other end of the dust collection container 11 from the place where the tip of the short cylindrical portion 29 of the return portion 23 is located when the cylindrical body 12 is attached to the dust collection container 11. The space up to the bottom wall 11 </ b> B on the side is the dust reservoir 30.

  The secondary filter body 13 is formed by extending a short cylindrical portion 31 having both ends opened, a flange portion 32 formed outward from one end of the short cylindrical portion 31, and the other end of the short cylindrical portion 31. A support 33 and a flexible bag-like secondary filter 34 fixed to the short cylindrical portion 31 are provided. The short cylindrical portion 31, the flange portion 32, and the support 33 are integrally formed of a relatively soft synthetic resin. A finger hook 35 is formed inside the short cylindrical portion 31. The flange portion 32 is formed in a substantially circular shape except for the positioning portion 32A, and an attachment portion 36 for attaching the seal member 15 is formed. Further, the support 33 is formed in a truncated cone shape as a whole by a plurality of columnar bodies 37 and an annular portion 38 that annularly connects the tips of the columnar bodies 37, and the columnar body 37. The airflow is configured to flow between each other and the inside of the annular portion 38. The secondary filter 34 covers the short cylindrical portion 31 and the support 33 from the outside, and an opening end 34 </ b> A is fixed to the short cylindrical portion 31. On the other hand, the closed end 34B side of the secondary filter 34 is configured to be able to be folded back to the inside of the support 33 through the annular portion 38 so as to be turned over. The secondary filter 34 folded in this way is supported by the support 33. The closed end 34B of the secondary filter 34 can be pushed into the support 33 until the folded portion of the secondary filter 34 contacts the annular portion 38. Further, the seal member 15 attached to the attachment portion 36 has an outer peripheral portion of the side wall 11 </ b> A of the dust collection container 11 when the secondary filter body 13 is inserted into the dust collection container 11 from the one end opening 16. It is comprised so that it may closely_contact | adhere to the inner surface.

  As shown in FIG. 6, the valve 14 is formed in a substantially square shape by a plate-like synthetic rubber. A mounting rib 39 inserted into the mounting groove 20 is formed at one edge of the valve 14. The valve 14 is attached to the dust collecting container 11 by inserting the attachment rib 39 into the attachment groove 20. At this time, the valve 14 normally contacts the side wall 11 </ b> A around the communication hole 18. Further, in a state where the valve 14 is attached to the dust collecting container 11, the side on which the attachment rib 39 is formed becomes the fixed end 40, and the edge opposite to the fixed end 40 becomes the free end 41. . Further, in a state where the valve 14 is attached to the dust collecting container 11, a rib 43 as a thick part for giving a waist to the edge 42 on the dust storing part 30 side is provided in the dust collecting container 11. Is formed so as to be orthogonal to the central axis X. Further, the outer surface of the valve 14 that contacts the side wall 11 </ b> A around the communication hole 18 is formed in a flat plate shape, and the rib 43 is formed so as to protrude from the inner surface of the valve 14. . In FIG. 5, the edge 42 on the dust reservoir 30 side is shown to be on the upper side.

  Next, the operation of this embodiment will be described. In the state where the nozzle 3 and the dust collecting means 4 are attached to the cleaner body 2, a power plug (not shown) provided at the tip of the power cord 9 is connected to a power source (not shown) and then a switch (not shown). The electric blower 5 operates by operating the operation unit. Then, by operating the electric blower 5 in this manner, a suction air flow from the nozzle 3 to the electric blower 5 through the suction path (not shown) and the dust collecting means 4 is formed. As shown in FIG. 4, the suction airflow deflects the valve 14 that closes the communication hole 18 when it passes through the communication hole 18 and enters the dust collecting container 11. As described above, the valve 14 has the fixed end 40 and the free end 41 so that the free end 41 side is inclined so as to move inward. For this reason, the airflow is redirected along the inclined valve 14 in the dust collecting container 11, and the airflow is counterclockwise along the inner surface of the side wall 11A of the dust collecting container 11, as shown in FIG. The vortex F is assumed. As described above, since the rib 43 is formed on the edge 42 of the valve 14, the elastic force on the side of the edge 42 is stronger than the elastic force of other parts. The amount of bending on the side is smaller than the amount of bending in other portions. In other words, the elastic force of the part other than the edge 42 side of the valve 14 is smaller than the elastic force of the part on the edge 42 side where the rib 43 is formed. The airflow formed by 5 can surely bend greatly. That is, the valve 14 is deformed so that the portion other than the edge 42 side swells slightly inward than the edge 42 side portion. Therefore, although the plate-like valve 14 is used, the airflow is guided to move toward the dust reservoir 30 while turning along the inner surface of the side wall 11A, and the other direction. The amount of airflow flowing through the can be reduced. Further, when the vortex F is formed in the dust collecting container 11, the vortex F1 that has just passed through the communication hole 18 passes through the outside of the valve 14, and a part F2 of the vortex that has made a full circle passes through the valve 14. By passing through the inside, the valve 14 may vibrate like a reed of a musical instrument due to a slight pressure difference between the vortex flows F1 and F2, but as described above, the valve 14 has a rib. Since the valve 43 is partially thickened by the rib 43, the vibration of the valve 14 is suppressed.

  As described above, when the vortex F is formed in the dust collecting container 11, coarse dust contained in the vortex F is centrifuged and moved from between the side wall 11 </ b> A and the return portion 23 to the dust reservoir 30. At the same time, the air stream from which coarse and heavy dust such as sand is separated flows into the cylindrical body 12 from the small hole 25 or over the return portion 23 and from the small hole 24. In addition, when the said airflow gets over the said return part 23, much dust contained in this airflow will be returned below by the said return part 23. FIG. Then, coarse and light dust such as cotton dust contained in the airflow is captured by the small holes 24 and 25 acting as a primary filter or the auxiliary filter 26 when flowing into the cylindrical body 12. . Further, fine dust that has passed through the small holes 24 and 25 or the auxiliary filter 26 is captured by the secondary filter 34. The clean airflow from which fine dust is separated by the secondary filter 34 passes through the short cylindrical portion 31 between the columnar bodies 37 or from the inside of the annular portion 38 and reaches the electric blower 5. . As described above, since the projection 27 is formed in a flat plate shape, the interval between the projection 27 and the annular portion 38 can be widened, so the annular portion 38 of the support 33 and the cylinder It is possible to prevent the airflow passing through the secondary filter 34 from passing through the projection 27 of the shaped body 12 from being obstructed.

  And if the said electric blower 5 is stopped by operating the switch operation part which is not shown in figure, a suction | inhalation airflow will also lose | disappear. Then, when this suction air flow disappears, the valve 14 is restored by its own elastic force, and its outer surface abuts on the side wall 11A around the communication hole 18 to close the communication hole 18. At this time, as described above, since the rib 43 is formed on the edge 42 of the valve 14, the elastic force on the side of the edge 42 is stronger than the elastic force of the other part. The edge 42 on the dust storage section 30 side where dust is accumulated is reliably restored and comes into contact with the side wall 11A. Accordingly, the valve 14 can reliably prevent the dust accumulated in the dust reservoir 30 from leaking from the communication hole 18 to the outside through the suction path (not shown) and the nozzle 3.

  When discarding the dust accumulated in the dust storage part 30 of the dust collecting container 11, the operation part 10 is pushed to release the engagement between the engagement receiving part 19 and an engagement claw (not shown), and then the dust collection The container 11 is moved to the nozzle 3 side to remove the dust collecting means 4 from the cleaner body 2. Further, the secondary filter body 13 and the cylindrical body 12 are removed from one end opening 16 of the dust collecting container 11. It removes and this one end opening part 16 is opened. In this way, by opening the one end opening 16 of the dust collecting container 11, it is possible to discard the dust accumulated in the dust reservoir 30 from the one end opening 16. At this time, as described above, since the edge 42 closes the communication hole 18, the dust accumulated in the dust reservoir 30 is prevented from being discarded from the communication hole 18 to an unintended place. Is done. The secondary filter body 13 is removed from the one end opening 16 of the dust collecting container 11 by pulling the finger-hanging portion 35 with a finger. Further, the cylindrical body 12 is easily removed from the one end opening 16 of the dust collecting container 11 by grasping and pulling out the flat projection 27. Furthermore, since the protrusion 27 is formed in a flat plate shape having a wide width as described above, when the protrusion 27 is picked by the thumb and the index finger, the finger and the inner surface of the side wall 21A of the cylindrical portion 21 Since the finger that grips the protrusion 27 can hardly hit the inner surface of the side wall 21A of the cylindrical portion 21, the protrusion 27 can be easily and reliably picked.

  Even after the dust accumulated in the dust reservoir 30 is discarded, fine dust adheres to the inner surfaces of the side wall 11A and the bottom wall 11B of the dust collecting container 11. Further, the dust is also attached to the secondary filter body 13 and the cylindrical body 12 which are removed from the dust collecting container 11 in order to discard the dust accumulated in the dust reservoir 30. Therefore, it is necessary to remove dust adhering to these. The dust adhering to the dust collecting container 11 and the cylindrical body 12 can be swept away with a brush or the like, and can be washed away with water. The auxiliary filter 26 attached to the tubular body 12 can also be removed from the tubular body 12 and cleaned. On the other hand, in the secondary filter body 13, dust adheres to the secondary filter 34. As shown in FIG. 2, the secondary filter 34 is folded back so that the closed end 34B side is turned over. After the folded portion is pushed out from the inside of the support 33, the second filter 34 is The secondary filter 34 can be cleaned by sweeping away dust adhering to the surface of the secondary filter 34 with a brush or the like, or washing away dust soaked in the secondary filter 34 itself with water or the like. In this way, each element constituting the dust collecting means 4 is cleaned.

  Then, after the cleaned auxiliary filter 26 is mounted on the cleaned cylindrical body 12, the cylindrical body 12 is inserted from the one end opening 16 of the cleaned dust collecting container 11. Furthermore, the dust collecting means 4 is reassembled by inserting the cleaned secondary filter body 13 into the downstream side of the cylindrical body 12. Note that the cylindrical body 12 can be easily inserted into the dust collecting container 11 by gripping and holding the flat projection 27. Further, before the secondary filter body 13 is inserted from the one end opening 16 of the dust collecting container 11, the support 33 is inserted through the annular portion 38 so that the closed end 34 </ b> B side of the secondary filter 34 is turned over. Fold inward in advance. Then, the cyclone cleaner 1 can be used again by attaching the dust collecting means 4 reassembled in this way to the cleaner body 2 again.

  In some cases, the secondary filter body 13 may be inserted and attached from the one end opening 16 of the dust collecting container 11 without folding the closed end 34B side of the secondary filter 34. At this time, the closed end 34B of the secondary filter 34 comes into contact with the tip of the projection 27, and the projection 27 pushes the closed end 34B side into the support 33 from the annular portion 38, and the projection 27 also enters the inside of the support 33 from the annular portion 38. As described above, when the secondary filter body 13 is attached to the cylindrical body 12 with the closed end 34B side of the secondary filter 34 turned upside down and extended to the downstream side to the maximum extent, The tip of the protrusion 27 does not contact the closed end 34B of the secondary filter 34 (in other words, in the state where the tip of the protrusion 27 is in contact with the closed end 34B of the secondary filter 34, the support 33), the secondary filter 34 is pushed into the inside of the support 33 by the protrusions 27. Therefore, as shown in FIG. Even if it does not, excessive tension is not applied and it is hard to tear.

  As described above, the cyclonic cleaner 1 of the present invention forms the communication hole 18 in the side wall 11A of the cylindrical dust collecting container 11 that is detachably attached to the cleaner body 2 in which the electric blower 5 is incorporated. In order to open and close the communication hole 18, a valve 14 is provided in which one end in the circumferential direction of the side wall 11 A of the dust collecting container 11 is a fixed end 40 and the other end is a free end 41. It is formed of a plate-like synthetic rubber, and a rib 43 as a thick portion is integrally formed on the valve 14 so as to intersect the central axis X of the dust collecting container 11, so that the valve is partially 14 is relatively strong, and the communication hole 18 is reliably closed by the valve 14, while the waist where the rib 43 is not formed is relatively weak. The valve 14 is relatively easy to It can be opened hole 18. Furthermore, since the valve 14 is partially thickened by the rib 43, the valve 14 can be made difficult to vibrate due to airflow.

  In the cyclone vacuum cleaner 1 according to the present invention, the dust container 30 is provided with the dust reservoir 30, and the rib 43 is formed on the edge 42 of the valve 14 on the dust reservoir 30 side. It is possible to prevent the leakage of dust by reliably bringing the edge portion 42 on the side of the storage portion 30 where the water is stored into contact with the dust collecting container 11.

  Next, a second embodiment of the present invention will be described with reference to FIG. In addition, since this embodiment and 1st embodiment mentioned above are all common except valve 51, only valve 51 is demonstrated and description other than that is abbreviate | omitted. The valve 51 is formed in a substantially square shape by a plate-like synthetic rubber. An attachment rib 52 that is inserted into the attachment groove 20 is formed at one edge of the valve 51. The valve 51 is attached to the dust collecting container 11 by inserting the attachment rib 52 into the attachment groove 20. At this time, the valve 51 normally contacts the side wall 11 </ b> A around the communication hole 18. Further, in a state where the valve 51 is attached to the dust collecting container 11, the side on which the attachment rib 52 is formed becomes the fixed end 53, and the edge opposite to the fixed end 53 becomes the free end 54. . Further, in the state where the valve 51 is attached to the dust collecting container 11, a rib 56 is formed as a thick portion for giving a waist to the edge 55 on the dust reservoir 30 side, A rib 58 as a thick portion is also formed integrally with the edge 57 of the free end 54. The rib 56 and the rib 58 are formed continuously. Further, a rib as a thick portion is not formed on the edge 59 located on the opposite side of the edge 55. Furthermore, the outer surface of the valve 51 that contacts the side wall 11A around the communication hole 18 is formed in a flat plate shape, and the ribs 56 and 58 are formed so as to protrude from the inner surface of the valve 51. ing. In FIG. 7, the edge 55 on the dust storage unit 30 side is described as being upward.

  Next, the operation of this embodiment will be described. When the electric blower 5 is actuated to form a suction airflow, the suction airflow passes through the communication hole 18 and enters the dust collecting container 11. The valve 51 closes the communication hole 18. Bend. As described above, the valve 51 has the fixed end 53 and the free end 54 so that the free end 54 side is inclined so as to move inward. For this reason, the air flow is changed in direction along the inclined valve 51 in the dust collecting container 11 to be a vortex F along the inner surface of the side wall 11 </ b> A of the dust collecting container 11. As described above, since the rib 56 is formed on the edge 55 of the valve 51, the elastic force on the edge 55 side is stronger than the elastic force of other parts. The amount of bending on the side is smaller than the amount of bending in other portions. In other words, since the elastic force of the part other than the edge 55 side of the valve 51 is smaller than the elastic force of the edge 55 side part where the rib 56 is formed, the valve 51 is the electric blower. The airflow formed by 5 can surely bend greatly. That is, the valve 51 is deformed so that the portion other than the edge 56 side swells slightly inward than the portion on the edge 55 side. Therefore, although the plate-like valve 51 is used, the airflow is guided to move toward the dust reservoir 30 while turning along the inner surface of the side wall 11A, and the other direction. The amount of airflow flowing through the can be reduced. Since the rib 58 is formed only on the free end 54 side of the valve 51, it hardly resists bending due to airflow. Further, when the vortex F is formed in the dust collecting container 11, the vortex F1 that has just passed through the communication hole 18 passes through the outside of the valve 51, and a part F2 of the vortex that has made a full circle passes through the valve 51. By passing through the inside, the valve 51 may vibrate like a reed of a musical instrument due to a slight pressure difference between the vortex flows F1 and F2. However, as described above, the valve 51 has ribs. Since the valves 56 and 58 are formed, the valve 51 is partially thickened by the ribs 56 and 58, so that the vibration of the valve 51 is suppressed.

  And if the said electric blower 5 is stopped, a suction | inhalation airflow will also lose | disappear. When the suction airflow disappears, the valve 51 is restored by its own elastic force, and the outer surface of the valve 51 comes into contact with the side wall 11A around the communication hole 18 to close the communication hole 18. At this time, as described above, since the rib 56 is formed on the edge 55 of the valve 51, the elastic force on the edge 55 side is stronger than the elastic force of the other part. The edge 55 on the dust storage section 30 side where dust is accumulated is reliably restored and comes into contact with the side wall 11A. In addition, the rib 58 is formed on the free end edge 57, and the rib 56 and the rib 58 are continuously and integrally formed. Therefore, the edge 55 is restored to the side wall 11A. When the contact is made, the free end edge 57 is also reliably restored, so that the edge 59 side does not bend and comes into contact with the side wall 11A. Accordingly, it is possible to suppress not only the edge 55 side but also the valve 51 on the free end 57 side from being squeezed, so that dust accumulated in the dust reservoir 30 leaks out from the communication hole 18 to the outside. Thus, the valve 51 can surely prevent it.

  As described above, the cyclone type vacuum cleaner 1 according to the present invention has the dust storage portion at the free end 54 of the valve 51 by integrally forming the rib 58 as the thick portion on the free end edge 57 of the valve 51. In this way, it is possible to prevent the leakage of dust by suppressing the sag on the side of the edge 59 opposite to 30 and ensuring that the free end 54 of the valve 51 is in contact with the dust collecting container 11.

  In addition, this invention is not limited to the above embodiment, A various deformation | transformation implementation is possible within the range of the summary of invention. For example, in each of the above embodiments, a rib that becomes a thick portion is formed on the valve. However, the thick portion does not necessarily have a rib shape, and the thickness of the valve 61 is linear as shown in FIG. As shown in FIG. 9, the thickness of the valve 71 is gradually increased in a curved manner as shown in FIG. In this way, the thick portion 73 may be formed on the edge 72. Furthermore, as shown in FIG. 10, a thick portion 83 may be formed in the vicinity of the edge 82 of the valve 81.

It is a side view of the cyclone type vacuum cleaner which shows 1st embodiment of this invention. It is an expanded sectional view of a dust collection mechanism part same as the above. It is AA sectional drawing of the dust collection mechanism part at the time of a stop of an electric blower. It is an AA sectional view of a dust collection mechanism part at the time of operation of an electric blower. It is an expanded sectional view of the valve periphery at the time of the action | operation of an electric blower. It is an enlarged view of a valve, (a) is the external view seen from the inside of a dust collecting container, (b) is BB sectional drawing, (c) is CC sectional drawing. It is an enlarged view of the valve | bulb of the cyclone type vacuum cleaner which shows 2nd embodiment of this invention, (a) is the external view seen from the inside of a dust collecting container, (b) is BB sectional drawing, (c). FIG. It is an enlarged view of the valve | bulb of the cyclone type vacuum cleaner which shows 3rd embodiment of this invention, (a) is the external view seen from the inside of a dust collecting container, (b) is BB sectional drawing, (c). FIG. It is an enlarged view of the valve | bulb of the cyclone type vacuum cleaner which shows 4th embodiment of this invention, (a) is the external view seen from the inside of a dust collecting container, (b) is BB sectional drawing, (c). FIG. It is an enlarged view of the valve | bulb of the cyclone type vacuum cleaner which shows 5th embodiment of this invention, (a) is the external view seen from the inner side of a dust collecting container, (b) is BB sectional drawing, (c). FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cyclone type vacuum cleaner 2 Vacuum cleaner main body 5 Electric blower 11 Dust collection container 14,51,61,71,81 Valve 30 Dust storage part 40,53 Fixed end 41,54 Free end 42,55,62,72,82 Dust Reservoir side edge 43, 56, 58 Rib (thick part)
57 Free edge 63, 73, 83 Thick part

Claims (2)

A vacuum cleaner main body with an electric blower built in and a cylindrical dust collecting container that is detachably attached to the main body of the vacuum cleaner, and a communication hole is formed in the side wall of the dust collecting container. In the cyclone type vacuum cleaner provided with a valve with the other end side as a free end and one end side in the circumferential direction of the side wall of the dust collecting container as a fixed end so as to open and close the hole,
Forming the valve at thin elastic body, the valve, the condenser formed integrally thick portion extending so as to intersect with the center axis of the dust container, provided with a dust storage part to the dust collection container, wherein A cyclone type vacuum cleaner characterized in that a thick part is formed on an edge of the valve on the dust storage part side . The cyclone type vacuum cleaner according to claim 1, wherein a thick portion is integrally formed at a free end edge of the valve .

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