JP7466497B2 - Dust collecting device and vacuum cleaner equipped with the same - Google Patents

Description

This disclosure relates to a dust collecting device and a vacuum cleaner equipped with the dust collecting device.

Patent document 1 describes a vacuum cleaner equipped with a cyclone-type dust separator. The dust separator described in patent document 1 can remove dust that has adhered to a shroud in the separation chamber during suction by using a wiper in conjunction with the operation of discarding the dust.

Patent No. 6695411

In Patent Document 1, dust adhering to the shroud can be removed by moving the wiper, but because the wiper is fixed to the separation chamber, the volume of the separation chamber in which the dust removed from the shroud is contained does not change, and the dust is not compressed.

This disclosure has been made to solve the problems described above. The purpose of this disclosure is to provide a dust collecting device that allows easy dust compression and a vacuum cleaner equipped with this dust collecting device.

The dust collecting device according to the present disclosure includes a cylindrical case, a hollow cylindrical section provided inside the case and having a first cylindrical section opening and a second cylindrical section opening at both ends, and a cylindrical dust collecting section outer cylinder, the case extending parallel to the extending direction of the cylindrical section, surrounding the outer circumferential surface of the cylindrical section across a space and forming the outer contour of the case, a case top surface section having a first case opening formed at one end side of the case sidewall and communicating with the first cylindrical section opening of the cylindrical section, and a second case opening formed at the other end side of the case sidewall, the case sidewall having a case inlet communicating an internal space of the case sidewall with an external space, the cylindrical section having a discharge section consisting of a plurality of holes communicating with the internal space of the cylindrical section with the external space, a cylindrical section flange section formed at the outer edge of the second cylindrical section opening, and an axial extension of the cylindrical section flange section at one end of the cylindrical section flange section. and a lid portion for opening and closing the inner peripheral surface of the dust collecting outer cylinder side wall of the dust collecting outer cylinder, the dust collecting outer cylinder having a scraper at one end which is made of an elastic material and stands upright from the side wall of the dust collecting outer cylinder in the direction of the cylindrical portion, the tip portion being in sliding contact with the outer peripheral surface of the cylindrical portion, and a dust collecting outer cylinder opening is formed at the other end, and a dust collecting outer cylinder suction port is formed in the dust collecting outer cylinder side wall of the dust collecting outer cylinder, communicating the internal space of the dust collecting outer cylinder side wall with the external space, the outer peripheral surface of the dust collecting outer cylinder side wall of the dust collecting outer cylinder and the inner peripheral surface of the case side wall slide in the direction in which the cylindrical portion extends, and when the dust collecting outer cylinder slides maximally relative to the case in the direction of the case top portion, the case inlet and the dust collecting outer cylinder suction port are connected, and a dust collection chamber is formed by the cylindrical portion flange side side of the scraper, the inner peripheral surface of the dust collecting outer cylinder, the outer peripheral surface of the cylindrical portion, and the lid portion.

According to the present disclosure, it is possible to provide a dust collection device that can easily remove dust adhering to the outer peripheral surface of the cylindrical part including the discharge part and compress the dust in the dust collection chamber by sliding the outer cylinder of the dust collection part.

1 is a perspective view showing a state in which the vacuum cleaner of the first embodiment is attached to and detached from a support device. FIG. 1 is a side view of a state in which the vacuum cleaner of the first embodiment is attached to a support device. FIG. 1 is a perspective view of a vacuum cleaner body of a vacuum cleaner according to a first embodiment. FIG. 4 is a side view showing a state in which the dust collecting device is attached to and detached from the main body of the vacuum cleaner of the first embodiment. FIG. 1 is a perspective view of a dust collecting device according to a first embodiment; 1 is an exploded perspective view of a dust collecting device according to a first embodiment of the present invention; FIG. 2 is a top view of the dust collecting device according to the first embodiment. 5 is a side cross-sectional view illustrating an operation of the dust collecting device of the first embodiment during cleaning. FIG. 5 is a side cross-sectional view illustrating an operation of the dust collecting device of the first embodiment when compressing dust. FIG. 5 is a side cross-sectional view illustrating an operation of the dust collecting device of the first embodiment when compressing dust. FIG. 5 is a side cross-sectional view illustrating an operation of the dust collecting device of the first embodiment when disposing of dust. FIG. 1 is a perspective view of a dust collecting device according to a first embodiment, seen from an inlet side. FIG.

Below, the embodiments for carrying out the present disclosure will be described with reference to the attached drawings. The same reference numerals in each drawing indicate the same or corresponding parts. In this disclosure, duplicated descriptions will be simplified or omitted as appropriate. Note that the disclosure may include any combination of the configurations disclosed in the following embodiments, and various modifications may be made without departing from the spirit of the disclosure.

Embodiment 1.
FIG. 1 is a perspective view showing a state in which the vacuum cleaner of the first embodiment is attached to and detached from the support device. FIG. 2 is a side view of the vacuum cleaner of the first embodiment attached to the support device. As shown in FIG. 1 and FIG. 2, the vacuum cleaner of the present embodiment includes a vacuum cleaner system 1 including a vacuum cleaner 10 and a support device 100. FIG. 3 is a perspective view of the vacuum cleaner body of the vacuum cleaner of the first embodiment. FIG. 4 is a side view showing a state in which the dust collecting device is attached to and detached from the main body of the vacuum cleaner of the first embodiment. FIG. 5 is a perspective view of the dust collecting device of the first embodiment. FIG. 6 is an exploded perspective view of the dust collecting device of the first embodiment. FIG. 7 is a top view of the dust collecting device of the first embodiment. FIG. 8 is a side cross-sectional view explaining the operation of the dust collecting device of the first embodiment during cleaning. FIG. 9 is a side cross-sectional view explaining the operation of the dust collecting device of the first embodiment during dust compression. FIG. 10 is a side cross-sectional view explaining the operation of the dust collecting device of the first embodiment during dust compression. FIG. 11 is a side cross-sectional view explaining the operation of the dust collecting device of the first embodiment during dust disposal. FIG. 12 is a perspective view of the dust collecting device of the first embodiment as seen from the inlet side.

The directions are defined using Figure 2. In Figure 2, the right direction on the paper surface indicates the front, the left direction indicates the rear, and the upper and lower directions indicate the top and bottom, respectively. Also, in Figure 7, the front of the paper surface indicates the top, and the upper direction indicates the front. Also, in Figures 8 to 11, the upper direction on the paper surface indicates the bottom, the lower direction indicates the top, and the left direction indicates the front.

The vacuum cleaner 10 of the present disclosure will be described using a cordless upright vacuum cleaner as an example. The support device 100 is a device that supports the vacuum cleaner 10 so that it can stand on its own. The support device 100 is placed, for example, on the floor of a room. The support device 100 is placed, for example, against a wall of a room.

The vacuum cleaner 10 can be attached and detached to the support device 100. Figure 1 shows a perspective view of the vacuum cleaner 10 attached and detached to the support device 100. Figure 3 shows a perspective view of the vacuum cleaner body 11 of the vacuum cleaner 10 removed from the support device 100. Figure 2 shows a side view of the vacuum cleaner 10 attached to the support device 100. As shown in Figure 2, the vacuum cleaner 10 stands on its own when attached to the support device 100.

The support device 100 of this embodiment has the function of charging the cordless vacuum cleaner 10. The vacuum cleaner 10 is removed from the support device 100 when in use. The vacuum cleaner 10 is attached to the support device 100 when not in use. The cordless vacuum cleaner 10 is charged by being attached to the support device 100.

The overall configuration of the vacuum cleaner 10 will be described with reference to the drawings. As shown in Figs. 1 to 3, the vacuum cleaner 10 has, as its main components, a vacuum cleaner body 11, a tube 12, and a cleaning tool 13. The tube 12 is, for example, a cylindrical member that extends linearly. One end of the tube 12 is connected to the cleaning tool 13. A cleaning tool suction port (not shown) that faces the surface to be cleaned is formed on the underside of the cleaning tool 13. The cleaning tool 13 is detachable from the tube 12. The other end of the tube 12 is connected to the vacuum cleaner body 11. The tube 12 is detachable from the vacuum cleaner body 11.

Inside the tube body 12 and the cleaning tool 13, an air passage is formed for introducing dust-containing air from the outside into the case inlet 25a of the vacuum cleaner body 11 described later. In other words, the tube body 12 and the cleaning tool 13 are an example of an air passage member that guides outside air to the case inlet 25a. In this disclosure, the objects to be cleaned by the vacuum cleaner 10, such as dirt, dust, hair, fibers, etc., are collectively referred to as "dust". In this disclosure, air containing dust is referred to as "dust-containing air". And air from which dust has been removed may be referred to as "clean air".

The vacuum cleaner body 11 has a function of separating dust from dust-laden air. The vacuum cleaner body 11 also has a function of collecting the separated dust. As shown in FIG. 3, the vacuum cleaner body 11 includes a grip portion 15, a main body portion 16, and a dust collection portion 17. The grip portion 15 is a member that is held by the user's hand while using the vacuum cleaner 10. The grip portion 15 is mechanically connected to the main body portion 16. An operation portion 15a is disposed on the side of the front of the grip portion 15, and includes an operation button (not shown) for turning on and off the power supply to the electric blower (described later) and for switching the output of the electric blower.

The main body 16 has a built-in electric blower and a rechargeable battery (not shown). The electric blower generates an airflow that allows the vacuum cleaner 10 to suck up dust. The rechargeable battery is a power source that drives the electric blower. The main body 16 in this embodiment is an example of the main body of the vacuum cleaner 10.

The dust collection unit 17 is an example of a dust collection device that separates dust from dust-laden air and collects the dust. In this embodiment, the dust collection unit 17 swirls the dust-laden air sucked into the vacuum cleaner body 11 by an airflow generated by an electric blower built into the main body 16, and separates the dust by centrifugal force. The dust collection unit 17 has a cyclone separation function.

The dust collection unit 17 is configured to be detachable from the main body 16. FIG. 4 is a side view showing the state when the dust collection unit 17 is attached to and detached from the main body 16 of the vacuum cleaner 10 of the first embodiment. As shown in FIG. 4, the main body 16 has a protrusion 18. In addition, a recess is formed on the bottom surface of the dust collection unit 17. The recess is not shown in FIG. 4.

The protrusion 18 and the recess are formed to fit together. The protrusion 18 and the recess are an example of a means for removably engaging the main body 16 and the dust collection unit 17 of the vacuum cleaner 10. In this embodiment, the protrusion 18 is an example of a main body side engaging portion. The recess is an example of a dust collection device side engaging portion.

A dust collection unit locking portion 17a is formed on the front side near the top surface of the dust collection unit 17, opposite the bottom surface of the dust collection unit 17 where the recess is formed. The dust collection unit locking portion 17a has a protrusion (not shown) that is biased by a spring so that it protrudes upward, and when the vacuum cleaner 10 is attached to the support device 100 as shown in FIG. 2, a locking recess (not shown) that locks with the protrusion of the dust collection unit locking portion 17a is formed on the side of the main body 16 that faces the top surface of the dust collection unit 17.

Next, the overall configuration of the support device 100 will be described. As shown in Figures 1 and 2, the support device 100 of this embodiment includes a base portion 101, a support portion 102, and a main body support portion 103. The base portion 101 is the portion located at the lowest position in the support device 100. The base portion 101 forms the foundation of the support device 100.

The support pillar 102 is a columnar member. The lower end of the support pillar 102 is fixed to the base 101. The support pillar 102 is formed so as to stand vertically upward from the upper surface of the base 101. The main body support 103 is provided in the middle of the support pillar 102. When the vacuum cleaner 10 is attached to the support device 100, the main body support 103 supports the vacuum cleaner main body 11 from below. In addition, when the vacuum cleaner 10 is attached to the support device 100, the cleaning tool 13 is supported by the base 101.

Next, the configuration of the dust collection unit 17 will be described in more detail with further reference to the drawings. FIG. 5 is a perspective view of the dust collection unit 17, which is a dust collection device of the first embodiment. FIG. 6 is an exploded perspective view of the dust collection unit 17, which is a dust collection device of the first embodiment.

As shown in FIG. 5, the dust collection unit 17 has a cylindrical appearance. As shown in FIG. 6, the dust collection unit 17 includes a filter unit 21, a cylindrical portion 32 that forms part of the swirling portion 22, a cylindrical dust collection outer cylinder 23, a lid portion 24, and a cylindrical case 25. The dust collection unit 17 is longer in the height direction, i.e., in the direction perpendicular to the circumferential direction, than in the circumferential direction. In other words, the dust collection unit 17 has a longitudinal axis perpendicular to the circumferential direction. Here, the cylindrical portion 32 is provided inside the case 25, and is a hollow member having a first cylindrical portion opening 32a and a second cylindrical portion opening 32b at both ends.

The case 25 extends parallel to the direction in which the cylindrical portion 32 extends, and has a case sidewall 25d that surrounds the outer peripheral surface 32c of the cylindrical portion 32 across a space and forms the outer contour of the case 25. A case upper surface portion 25c is formed at one end of the case sidewall 25d, in which a first case opening 25e that communicates with the first cylindrical portion opening 32a of the cylindrical portion 32 is formed, and a second case opening 25f is formed at the other end of the case sidewall 25d. As shown in FIG. 8, a case inlet 25a that communicates the internal space of the case sidewall 25d with the external space is formed in the case sidewall 25d at a position offset in a direction perpendicular to the direction in which the case 25 extends. The first case opening 25e of the case 25 is located upstream of the electric blower with respect to the suction air generated by the electric blower built into the main body portion 16.

In addition, a slit 25b is formed on the side of the case 25, which connects the internal space of the case side wall 25d with the external space and runs along the direction in which the cylindrical portion 32 extends. As described below, a dust disposal lever 39 is provided, which is formed to protrude outward from the dust collection outer cylinder side wall 23b of the dust collection outer cylinder 23. The dust disposal lever 39 is configured to be movable within the slit 25b. The dust disposal lever 39 moves integrally with the dust collection outer cylinder 23 along the slit 25b, so that the outer peripheral surface of the dust collection outer cylinder side wall 23b of the dust collection outer cylinder 23 and the inner peripheral surface of the case side wall 25d slide in the direction in which the cylindrical portion 32 extends.

The cylindrical portion 32 includes a discharge portion 34 consisting of a plurality of holes (not shown) that communicate the internal space of the cylindrical portion 32 with the external space, a cylindrical portion flange portion 32d formed on the outer edge of the second cylindrical portion opening 32b, and a lid portion 24 that is journaled on one end side of the cylindrical portion flange portion 32d and opens and closes the inner peripheral surface of the dust collection portion outer cylinder side wall 23b of the dust collection portion outer cylinder 23. In addition, an umbrella-shaped partition portion 35 is formed on the cylindrical portion 32 outward of the cylindrical portion outer peripheral surface 32c.

The cylindrical portion 32 forms part of the side wall of the separation chamber 33, which is a swirl chamber. The separation chamber 33 and the dust collection chamber 36 are formed by combining the cylindrical portion 32 with the dust collection section outer cylinder 23. The cylindrical portion 32 in this embodiment is an example of a cylindrical inner cylinder member that forms the dust collection chamber 36 and the swirl chamber. Note that the structure of the inner cylinder member according to the present disclosure is not limited to the cylindrical portion 32 shown in this embodiment. For example, the swirl chamber and the dust collection chamber may be separate parts. For example, the cylindrical portion 32 and the partition portion 35 may be separate parts.

The lid 24 has a locking portion 37 that locks with the other end of the cylindrical flange 32d. The dust disposal lever 39 also has a protrusion 41 that protrudes from the dust collection outer cylinder side wall 23b toward the dust collection chamber 36. When the dust collection outer cylinder 23 slides to the maximum extent relative to the case 25 in the direction opposite the case top surface 25c, the protrusion 41 pushes the locking portion 37, releasing the lock between the lid 24 and the cylindrical flange 32d by the locking portion 37.

The dust collection section outer cylinder 23 is provided with a scraper 38 at one end, which is made of an elastic material and stands from the side wall 23b of the dust collection section outer cylinder 23 toward the cylindrical section 32, and whose tip is in sliding contact with the outer circumferential surface of the cylindrical section 32. The dust collection section outer cylinder 23 has a dust collection section outer cylinder opening 23a at the other end. As shown in Figures 7 to 12, the dust collection section outer cylinder side wall 23b of the dust collection section outer cylinder 23 has a dust collection section outer cylinder inlet 26 that connects the internal space of the dust collection section outer cylinder side wall 23b to the external space, formed at a position offset in a direction perpendicular to the extension direction of the dust collection section outer cylinder 23.

The outer peripheral surface of the dust collection outer cylinder side wall 23b of the dust collection outer cylinder 23 slides against the inner peripheral surface of the case side wall 25d in the direction in which the cylindrical portion 32 extends, and when the dust collection outer cylinder 23 slides to the maximum extent relative to the case 25 in the direction of the case top surface portion 25c, the case inlet 25a and the dust collection outer cylinder inlet 26 communicate with each other.

The dust collection chamber 36 is formed by the scraper 38, the inner surface of the dust collection section outer cylinder 23, the outer surface of the cylindrical section 32, and the lid section 24.

When the electric blower built into the main body 16 is driven to generate suction air, negative pressure is applied to the first cylindrical opening 32a through the first case opening 25e, and negative pressure is applied to the internal space of the dust collection section outer cylinder 23 through the exhaust section 34.

As shown in FIG. 7, the side of the dust collection section outer cylinder 23 consists of an arc surface 27 and a straight surface 28. The dust collection section outer cylinder 23 is D-shaped when viewed from above. The outer cylinder inlet 26 is located on the straight surface 28. The outer cylinder inlet 26 is an opening that allows dust-laden air to flow into the inside of the dust collection section 17.

The filter section 21 is removably housed in the upper part of the case 25. As shown in FIG. 7, the filter section 21 includes a frame 29, a filter 30, and a first packing 31. The frame 29 has a D-shape similar to that of the case 25 when viewed from above. The first packing 31 is disposed on the outer periphery of the upper surface of the frame 29. The first packing 31 is for bringing the vacuum cleaner body 11 and the dust collection section 17 into close contact with each other.

The swirling section 22 is a section that swirls the air that has flowed into the dust collection section 17 from the outside through the case inlet 25a and the dust collection section outer cylinder inlet 26, described later, around the axis of the cylindrical section 32 outside the cylindrical section 32, and refers to the space surrounded by the outer peripheral surface of the cylindrical section 32 and the inner peripheral surface of the dust collection section outer cylinder side wall 23b. The cylindrical section 32 is provided as a member that forms the side wall of the separation chamber 33. The separation chamber 33 is an example of a swirling chamber that swirls the dust-containing air and separates dust from the dust-containing air by centrifugal separation.

The main part of the cylindrical portion 32 has an inverted cylindrical shape. The cylindrical portion 32 has a cylindrical shape as a whole. In this embodiment, the separation chamber 33 is formed on the outside of the cylindrical portion 32. As shown in FIG. 9, the case upper surface portion 25c becomes the upper surface of the separation chamber 33.

The cylindrical portion 32 of the swirl portion 22 has a hollow cylindrical shape, and a discharge portion 34 is provided at the upper part of its inner wall, and multiple fine holes are formed in the discharge portion 34. As shown in Figures 9 and 10, the multiple fine holes formed in the discharge portion 34 are formed in the cylindrical portion 32 on the inlet 26 side rather than the partition portion 35.

The dust collection section 17 is divided into a separation chamber 33 and a dust collection chamber 36 by a partition 35 provided on the swivel section 22. The partition 35 is an umbrella-shaped member formed to connect to the outer circumferential surface of the cylindrical section 32. It prevents dust accumulated in the dust collection chamber 36 from flowing back toward the inlet 26. The dust that has been centrifuged is collected in the dust collection chamber 36. The bottom of the dust collection chamber 36 is formed by the lid 24, which is supported by a shaft on the end of the swivel section 22. The lid 24 is also provided with a locking section 37 that fixes the swivel section 22. The dust accumulated in the dust collection chamber can be discarded by releasing the locking section 37.

In the state shown in FIG. 8, the dust collection container, which is composed of the lid 24 and the dust collection outer cylinder 23, is longer in the height direction, i.e., in the direction perpendicular to the circumferential direction, than in the circumferential direction. In other words, the dust collection container has a longitudinal axis in a direction perpendicular to the circumferential direction. The dust collection container also has a central axis parallel to the longitudinal axis.

The discharge section 34, the cylindrical section 32, and the dust collection container all have a circular cross section perpendicular to their respective central axes. In this embodiment, the discharge section 34, the cylindrical section 32, and the dust collection container are arranged so that their respective central axes are parallel to one another. In addition, the central axes of the discharge section 34 and the cylindrical section 32 coincide.

In this disclosure, the terms longitudinal axis and central axis are used. The central axis in this disclosure may include an axis at the center in the width direction or the center in the depth direction. In other words, the central axis is also a longitudinal axis at the center in the width direction or the center in the depth direction. In addition, for example, the outer shapes of the cross sections perpendicular to the central axis of the discharge section 34, the cylindrical section 32, and the dust collection container are not necessarily limited to perfect circles, and for example, the outer shapes may have irregularities for engagement or fitting. In this disclosure, the central axis means the axis at the approximate center of an object having a longitudinal axis.

Figure 8 is a right side cross-sectional view of the cyclone separation device of the first embodiment. In this disclosure, the dust collection unit 17 with the dust collection container removed is referred to as the "cyclone separation device." In other words, the dust collection unit 17, which is an example of a dust collection device, is composed of the cyclone separation device and the dust collection container.

The second packing 40 is made of, for example, soft resin. It is also formed integrally with the dust collection section outer cylinder 23 by two-color molding. The material of the second packing 40 is not limited to soft resin, and may be, for example, rubber, etc.

The dust collection outer cylinder 23 is provided with a scraper 38 for removing dust adhering to the discharge portion 34 and the cylindrical portion 32. The scraper 38 is formed, for example, from a soft resin. Also, it is formed integrally with the dust collection outer cylinder 23 by two-color molding. The material of the scraper 38 is not limited to soft resin, and may be, for example, rubber. When the dust disposal lever 39 is operated, the scraper 38 moves downward while contacting the discharge portion 34 and the inner cylindrical portion 31 of the dust collection outer cylinder 23, thereby removing the dust adhering to the outer cylinder 23. Also, the scraper 38 moves to the position of the bottom 24.

The dust disposal lever 39 can be pushed all the way down to release the locking member 37 on the lid 24, completing the dust disposal operation. The dust collector outer cylinder 23 and the lid 24 are sealed by the second gasket 40.

Next, we will explain how it works. First, we will explain how it works when cleaning.

<Cleaning operation>
Grip grip 15 of cleaner body 11 to remove vacuum cleaner 10 from support device 100. Here, dust-collecting section 17 is in a state in which dust-collecting section outer cylinder 23 has slid to the maximum extent relative to case 25 in the direction of case upper surface portion 25c.

When the operation button on the operation unit 15a is operated to supply power from the rechargeable battery to the electric blower, the electric blower built into the vacuum cleaner body 11 is driven. When the electric blower is driven, suction air is generated. Then, negative pressure is generated at the suction port of the electric blower, and negative pressure is applied to the first cylindrical opening 32a through the first case opening 25e, and negative pressure is applied to the internal space of the dust collection unit outer cylinder 23 through the exhaust unit 34. Then, negative pressure is also applied to the dust collection unit outer cylinder inlet 26 and the case inlet 25a, which are connected. Then, negative pressure is also applied to the cleaning tool suction port formed on the underside of the cleaning tool 13 through the tube body 12 and the cleaning tool 13, which are air passage members that guide outside air to the case inlet 25a. As a result, dust-containing air is sucked into the dust collection unit 17 through the inside of the cleaning tool 13, the inside of the tube body 12, the case inlet 25a, and the dust collection unit outer cylinder inlet 26.

Here, the case inlet 25a is formed at a position offset in a direction perpendicular to the extension direction of the case 25. The dust collection section outer cylinder inlet 26 is also formed at a position offset in a direction perpendicular to the extension direction of the dust collection section outer cylinder 23. Therefore, the dust-containing air that flows into the dust collection section 17 via the case inlet 25a and the dust collection section outer cylinder inlet 26 flows into the separation chamber 33 along the dust collection section outer cylinder side wall 23b that forms part of the separation chamber 33, which is the space outside the cylindrical section 32.

The air that flows into the separation chamber 33 flows around the side walls that define the separation chamber 33, forming a swirling air current within the separation chamber 33. The swirling air current flows downward, forming a forced vortex region near the central axis and a free vortex region outside of that. Centrifugal force acts on the dust contained in this swirling air current. For example, relatively large pieces of dust such as fiber waste and hair are pushed outward by the centrifugal force that acts on them. This large piece of dust is sent to the dust collection chamber 36 and collected.

Relatively small amounts of dust, such as sand, that are not collected in the dust collection chamber 36 ride on the air currents in the separation chamber 33 and pass through the fine holes in the discharge section 34, entering the interior of the cylindrical section 32. The air currents also swirl inside the cylindrical section 32, and the small dust is pressed against the inner wall of the cylindrical section 32 by centrifugal force, and the dust moves downward, i.e., toward the lid section 24, due to its own weight, and is collected near the second cylindrical section opening 32b closed by the lid section 24. Here, dust that cannot pass through the fine holes in the discharge section 34 tends to adhere to the periphery of these holes, and there is a risk that the adhered dust will block the fine holes.

The air from which small particles have been separated in the cylindrical section 32 passes through the first cylindrical section opening 23a and the first case opening 25e and flows into the filter section 21. The air that flows into the filter section 21 has even finer particles captured by the filter 30 housed in the frame 29 of the filter section 21.

The clean air from which fine dust particles have been separated by the filter 30 is sucked in through the intake port of the electric blower. The air discharged from the electric blower cools the rechargeable battery, control board, etc., and is then exhausted through an exhaust port (not shown) formed in the vacuum cleaner body.

Next, we will explain how it works when emptying the trash.

<Operation when disposing of trash>
The dust-disposal operation is performed with the dust-collection section outer cylinder 23 sliding to the maximum extent relative to the case 25 in the direction of the case upper surface portion 25c.
When the power supply from the rechargeable battery to the electric blower is stopped by operating the operation button provided on the operation unit 15a, the electric blower built into the vacuum cleaner body 11 stops. Then, the dust collecting unit 17 is removed from the vacuum cleaner body 11.

9 to 11 are side sectional views illustrating the operation when dust is discarded from the dust collecting section 17. FIG.
When discarding dust accumulated in the dust collection chamber 36, the dust disposal lever 39, which is integral with the dust collection outer cylinder 23, is operated so as to move downward, i.e., toward the lid 24. The dust disposal lever 39 moves integrally with the dust collection outer cylinder 23 along the slit 25b, so that the outer peripheral surface of the dust collection outer cylinder side wall 23b of the dust collection outer cylinder 23 and the inner peripheral surface of the case side wall 25d slide in the direction in which the cylindrical portion 32 extends.

The inner peripheral surface of the case side wall 25d, in which the slit 25b is formed, slides against the outer peripheral surface of the dust collection section outer cylinder side wall 23b. The portion of the dust collection section outer cylinder side wall 23b facing the slit 25b does not have a hole that connects the internal space of the dust collection section outer cylinder side wall 23b to the external space, so the internal space of the dust collection section outer cylinder side wall 23b does not connect to the external space through the slit 25b, and dust collected in the dust collection chamber 36 does not leak to the outside of the case side wall 25d through the slit 25b.

When the dust disposal lever 39 is operated, the scraper 38, which is integral with the dust collection section outer cylinder 23, also moves downward. The tip of the scraper 38 moves downward while contacting the cylindrical outer surface 32c, which is part of the rotating section 22, so that dust adhering to the cylindrical outer surface 32c including the discharge section 34 can be removed. Here, since the scraper 38 is made of a soft material, it can move over the step of the partition section 35.

Here, the lid 24, which is engaged with the cylindrical flange 32d of the cylindrical portion 32 fixed to the case 25, does not move when the dust disposal lever 39 slides relative to the case 25, i.e., when the dust collection outer cylinder 23 slides relative to the case 25. The sliding of the dust disposal lever 39 relative to the case 25 causes the outer edge of the fixed lid 24 to slide against the inner circumferential surface of the dust collection outer cylinder side wall 23b, so that dust adhering to the inner circumferential surface of the dust collection outer cylinder side wall 23b can also be removed. In this way, by operating the dust disposal lever 39, dust adhering to a part of the inner wall that constitutes the dust collection chamber 36 can be removed.

Dust removed from the cylindrical outer surface 32c and the inner surface of the dust collection section outer cylinder side wall 23b by the tip of the scraper 38 and the outer edge of the lid 24 accumulates in the dust collection chamber 36. If the dust disposal lever 41 is lowered in this state, the scraper 38 descends to the lid 24, and the dust accumulated in the dust collection chamber 36 is compressed by being pinched between the lid 24 and the scraper 38.

After the dust is compressed by the scraper 38, when the dust disposal lever 39 is further moved downward, the protrusion 41 on the dust disposal lever 39 releases the locking portion 37 that locks the lid portion 24 to the end of the cylindrical flange portion 32d, opening the bottom portion 24 and allowing the dust accumulated inside the dust collection chamber 36 and the cylindrical portion 32 to be discarded. At this time, the dust inside the dust collection chamber 36 is compressed, so that the annoying dust that floats up when discarding the dust can be suppressed.

<Operation after emptying trash>
When the waste disposal is completed, the waste disposal lever 39 is moved slightly upward, i.e., toward the case top surface 25c, until the protrusion 41 on the waste disposal lever 39 moves away from the locking portion 37 that locks the lid portion 24 to the end of the cylindrical flange portion 32d. Then, the lid portion 24 is rotated around one end of the cylindrical flange portion 34, so that the locking portion 37 of the lid portion 24 locks to the other end of the cylindrical flange portion 34.

Thereafter, the dust disposal lever 39 is moved further upward. When the dust disposal lever 39 is moved upward, the scraper 38, which is made of a soft material, can move over the step of the partition wall 35. The dust collection unit outer cylinder 23 is then slid as far as possible toward the case top surface 25c relative to the case 25, so that the case inlet 25a and the dust collection unit outer cylinder inlet 26 are connected. The dust collection unit 17 is then attached to the vacuum cleaner body 11. In this way, even after the dust disposal is completed, the dust collection device can be restored to a state in which it is ready for cleaning again by moving the dust disposal lever 39 upward.
When cleaning is finished, the electric vacuum cleaner 10 is attached to the support device 100 and stored.

Thus, according to the dust collecting device of the first embodiment, the dust collecting device includes a cylindrical case, a hollow cylindrical portion provided inside the case and having a first cylindrical portion opening and a second cylindrical portion opening at both ends, and a cylindrical dust collecting portion outer tube, the case extends parallel to the direction in which the cylindrical portion extends, and includes a case side wall that surrounds the outer peripheral surface of the cylindrical portion across a space and forms the outer contour of the case, a case upper surface portion on one end side of the case side wall in which a first case opening that communicates with the first cylindrical portion opening of the cylindrical portion is formed, and a second case opening is formed on the other end side of the case side wall, and the case side wall is formed with a case inlet that communicates the internal space of the case side wall with the external space, the cylindrical portion includes a discharge portion consisting of a plurality of holes that communicate the internal space of the cylindrical portion with the external space, a cylindrical portion flange portion formed on the outer edge of the second cylindrical portion opening, and a dust collecting portion outer tube that is journaled on one end of the cylindrical portion flange portion and is connected to the inner periphery of the dust collecting portion outer tube side wall of the dust collecting portion outer tube. The dust-collecting outer cylinder has a cover for opening and closing the surface of the dust-collecting outer cylinder, and a scraper made of an elastic material and standing from the side wall of the dust-collecting outer cylinder toward the cylindrical portion, the scraper having a tip that slides against the outer peripheral surface of the cylindrical portion, and a dust-collecting outer cylinder opening is formed on the other end thereof, and a dust-collecting outer cylinder suction port is formed on the dust-collecting outer cylinder side wall of the dust-collecting outer cylinder, the dust-collecting outer cylinder suction port communicating the internal space of the dust-collecting outer cylinder side wall with the external space, and the outer peripheral surface of the dust-collecting outer cylinder side wall of the dust-collecting outer cylinder and the inner peripheral surface of the case side wall are connected to each other. When the outer cylinder of the dust collection section slides in the direction of extension of the cylindrical section, and the dust collection section slides to the maximum extent relative to the case toward the upper surface of the case, the inlet of the case communicates with the suction port of the dust collection section outer cylinder, and a dust collection chamber is formed by the side surface of the cylindrical section plunger of the scraper, the inner peripheral surface of the dust collection section outer cylinder, the outer peripheral surface of the cylindrical section, and the lid, so that dust adhering to the outer peripheral surface of the cylindrical section including the discharge section can be removed by sliding the dust collection section outer cylinder against the case. Furthermore, by sliding the dust collection section outer cylinder against the case, the side surface of the cylindrical section plunger of the scraper, which forms part of the dust collection chamber, moves toward the lid, which forms another part of the dust collection chamber, and the volume of the dust collection chamber decreases. As a result, the dust collected in the dust collection chamber can be compressed. In other words, a series of operations of sliding the dust collection section outer cylinder against the case can remove dust adhering to the outer peripheral surface of the cylindrical section including the discharge section and compress the dust collected in the dust collection chamber, providing a dust collection device that is easy to use.

The case side wall is provided with a slit that connects the internal space of the case side wall with the external space and is formed along the direction in which the cylindrical portion extends, and a dust disposal lever that protrudes outward from the dust collection outer tube side wall of the dust collection outer tube is provided. The dust disposal lever moves integrally with the dust collection outer tube along the slit, so that the outer peripheral surface of the dust collection outer tube side wall of the dust collection outer tube and the inner peripheral surface of the case side wall slide in the direction in which the cylindrical portion extends. Therefore, by operating the dust disposal lever, the dust collection outer tube slides relative to the case, and a series of operations of the dust disposal lever can remove dust that has adhered to the outer peripheral surface of the cylindrical portion including the discharge portion and compress the dust collected in the dust collection chamber, providing a dust collection device that is easy to use.

The lid portion is provided with a locking portion that locks with the other end of the cylindrical flange portion, and the dust disposal lever is provided with a convex portion that protrudes from the side wall of the dust collection outer cylinder toward the dust collection chamber, and when the dust collection outer cylinder slides to its maximum extent relative to the case in the direction opposite the case top surface, the convex portion releases the locking portion that has been used to lock the lid portion and the cylindrical flange portion. Therefore, a series of operations of the dust disposal lever can provide a dust collection device that is easy to use and allows for the removal of dust adhering to the outer peripheral surface of the cylindrical portion that constitutes part of the dust collection chamber, the compression of the dust within the dust collection chamber, and the compression and disposal of the dust collected within the dust collection chamber.

In addition, according to the vacuum cleaner of the first embodiment, a dust collection device, an electric blower that generates suction wind, and a first case opening of the dust collection container are arranged upstream of the electric blower with respect to the suction wind generated by the electric blower, and an air passage member that guides external air to the case inlet is connected, so that a user-friendly vacuum cleaner can be provided in which dust attached to the outer peripheral surface of the cylindrical part including the discharge part and dust collected in the dust collection chamber can be removed and compressed by a series of operations of sliding the dust collection part outer cylinder against the case. In addition, a user-friendly vacuum cleaner can be provided in which dust attached to the outer peripheral surface of the cylindrical part including the discharge part and dust collected in the dust collection chamber can be removed and compressed by a series of operations of the dust disposal lever. A user-friendly vacuum cleaner can be provided in which dust attached to the outer peripheral surface of the cylindrical part that constitutes a part of the dust collection chamber can be removed and dust collected in the dust collection chamber can be compressed and dust collected in the dust collection chamber can be easily disposed of by a series of operations of the dust disposal lever.

In this disclosure, a cordless upright vacuum cleaner has been used as an example of a vacuum cleaner, but the invention can also be applied to a canister type vacuum cleaner that is connected to a commercial power source.

1. Vacuum cleaner system,
10 vacuum cleaners,
11 Vacuum cleaner body,
12 Tube body,
13 cleaning tools,
15 gripping portion,
15a operation unit,
16 main body portion,
17 Dust collection section (dust collection device),
17a dust collecting unit locking portion,
18 convex portion,
21 filter section,
22 swivel section,
23 Dust collecting section outer cylinder,
23a dust collecting part outer cylinder opening,
23b dust collecting part outer cylinder side wall,
24 Lid portion,
25 cases,
25a case inlet,
25b slit,
25c case upper surface portion,
25d case side wall,
25e first case opening,
25f second case opening;
26 Dust collecting section outer cylinder inlet
27 Circular arc surface,
28 Straight surface,
29 Frame body,
30 filters,
31 first packing,
32 cylindrical portion,
32a first cylindrical opening;
32b second cylindrical opening;
32c cylindrical outer circumferential surface,
32d cylindrical flange portion,
33 Separation chamber,
34 discharge section,
35 Partition wall portion,
36 dust collection chamber,
37 locking portion,
38 scraper,
39 Garbage disposal lever,
40 second packing,
41 convex portion,
100 Support device,
101 base part,
102 support part,
103 Main body support part.

Claims (4)

A cylindrical case;
a hollow cylindrical portion provided inside the case and having a first cylindrical portion opening and a second cylindrical portion opening at both ends;
A dust collecting part outer cylinder having a cylindrical shape,
The case is
a case side wall that extends parallel to the direction in which the cylindrical portion extends, surrounds an outer circumferential surface of the cylindrical portion across a space, and defines an outer contour of the case;
a case top surface portion having a first case opening formed on one end side of the case side wall, the first case opening communicating with the first cylindrical portion opening of the cylindrical portion;
A second case opening is formed on the other end of the case side wall,
A case inlet port is formed in the case side wall, the case inlet port communicating an internal space of the case side wall with an external space,
The cylindrical portion is
a discharge section including a plurality of holes communicating an internal space of the cylindrical section with an external space;
a cylindrical flange portion formed on an outer edge of the second cylindrical opening;
a cover portion that is pivotally supported on one end of the cylindrical flange portion and that opens and closes an inner circumferential surface of the dust-collecting outer cylinder side wall of the dust-collecting outer cylinder,
The dust collecting section outer cylinder is
a scraper formed of an elastic member at one end side, the scraper standing from a side wall of the dust collecting outer cylinder toward the cylindrical portion, the scraper having a tip portion in sliding contact with an outer circumferential surface of the cylindrical portion;
An opening of the dust collecting outer cylinder is formed on the other end side,
A dust-collecting outer cylinder inlet is formed in a dust-collecting outer cylinder side wall of the dust-collecting outer cylinder, the dust - collecting outer cylinder inlet communicating an internal space of the dust-collecting outer cylinder side wall with an external space,
an outer circumferential surface of a dust-collecting outer cylinder side wall of the dust-collecting outer cylinder and an inner circumferential surface of the case side wall slide in a direction in which the cylindrical portion extends;
When the dust-collecting outer cylinder slides to the maximum extent toward the case top surface portion relative to the case, the case inlet and the dust-collecting outer cylinder inlet communicate with each other,
a dust collection chamber is formed by the cylindrical flange portion side surface of the scraper, the inner peripheral surface of the dust collection outer cylinder, the outer peripheral surface of the cylindrical portion, and the lid portion;
Dust collection device. the case side wall includes a slit that communicates an internal space of the case side wall with an external space and is formed along an extending direction of the cylindrical portion,
A dust disposal lever is provided which protrudes outward from a side wall of the dust collecting outer cylinder,
2. A dust collecting device as described in claim 1, wherein the dust disposal lever moves integrally with the dust collecting outer cylinder along the slit, so that the outer peripheral surface of the dust collecting outer cylinder side wall of the dust collecting outer cylinder and the inner peripheral surface of the case side wall slide in the direction in which the cylindrical portion extends. The cover portion is provided with a locking portion that locks with the other end of the cylindrical flange portion,
The dust disposal lever has a protrusion that protrudes from a side wall of the dust collection section outer cylinder toward the dust collection chamber,
3. The dust collecting device according to claim 2, wherein the protrusion releases the engagement between the lid and the cylindrical flange by the engagement portion when the dust collecting outer cylinder slides to the maximum extent relative to the case in a direction opposite to the case top surface. The dust collecting device according to any one of claims 1 to 3,
An electric blower that generates suction air;
a first case opening of the dust collecting device is disposed upstream of the electric blower with respect to suction air generated by the electric blower;
An air passage member that guides outside air to the case inlet is connected to the vacuum cleaner.

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