JP6781509B2 - Vacuum cleaner mouthpiece - Google Patents

Description

The present invention relates to a mouthpiece of a vacuum cleaner.

As the suction port of the vacuum cleaner, a suction port body in which an opening / closing member is attached to the front side of the dust suction opening as in Patent Document 1 and a suction port body in which a rotating body is installed in front of the dust suction port as in Patent Document 2 are described. Has been done.

Japanese Unexamined Patent Publication No. 2004-350763 Japanese Unexamined Patent Publication No. 11-239551

However, in the invention described in Patent Document 1, a soft member made of cloth such as a brushed cloth is used for the reversing imparting member of the opening / closing member (flap). Therefore, the resistance is small on the flooring or the like, and there is a possibility that it cannot be reversed (rotated).

Further, in the invention described in Patent Document 2, the rotating member for rotating the rotating body (flap) is brought into contact with the floor surface, but the relationship between the rotating body and the floor surface is described. If the rotating body does not come into contact with the floor surface, it may be difficult to ensure airtightness.

According to the present invention, the flap opens when moving forward, and the flap closes when moving backward to ensure airtightness with the floor, while increasing the pressure in the suction flow path when moving backward. The purpose is to provide.

The present invention includes a mouthpiece case having a mouthpiece on the lower surface and a movable movable flap provided in front of the mouthpiece, and the movable flap comes into contact with the floor surface when the mouthpiece is moved forward and backward. The contact rotating portion is provided with a flap portion that forms an opening between the rotating contact rotating portion and the floor surface when moving forward and closes the opening when moving backward, and the contact rotating portion is made of a soft member. In addition to being formed, it has a curved surface portion formed in an arc shape, an end face portion on one end side formed at one end in the circumferential direction, and an end face portion on the other end side formed at the other end in the circumferential direction. A hollow portion having a side view fan shape is formed between the curved surface portion and both end face portions, and when the mouthpiece case is moved backward, is the lowermost portion of the flap portion the same as the vicinity of the mouthpiece in the mouthpiece case? It is characterized by being located below it.

According to the present invention, the flap opens to suck in relatively large dust (dust) when moving forward, and the flap closes to ensure airtightness with the floor when moving backward to reduce the pressure in the suction flow path. It is possible to provide a mouthpiece of an electric vacuum cleaner that can be kept high and can suck dust more reliably.

It is the whole perspective view of the electric vacuum cleaner used as a stick type. It is a left side view of the vacuum cleaner used as a handy type. It is a top view of the electric vacuum cleaner shown in FIG. 2 with the mouthpiece removed. FIG. 3 is a sectional view taken along line IV-IV of FIG. It is the bottom view of the mouthpiece. It is a perspective view which shows the movable flap. It is a side view which shows the contact rotation part. It is a perspective view which shows the contact rotation part. It is a front view which shows the movable flap. It is a vertical cross-sectional view which shows the mouthpiece body at the time of advancing. It is a sectional view of XI-XI of FIG. It is a vertical cross-sectional view which shows the mouthpiece body at the time of reverse movement. It is sectional drawing of XIII-XIII of FIG. It is a bottom view which shows the state which the cover member was removed from the mouthpiece. It is a bottom view which shows the state which further removed the movable flap from the state of FIG. It is a perspective view which shows the modification of the contact rotating part. It is a perspective view which shows another modification of the contact rotating part. It is a side view which shows the further modification of the contact rotation part. It is a perspective view which looked at the contact rotating part of FIG. 18 from the outside in the axial direction. It is a perspective view which looked at the contact rotation part of FIG. 18 from the inside in the axial direction. It is sectional drawing which shows the movable flap provided in the mouthpiece body of 2nd Embodiment. It is sectional drawing which shows the movable flap provided in the mouthpiece body of 3rd Embodiment.

Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as “embodiments”) will be described in detail with reference to the drawings as appropriate.
The electric vacuum cleaner to which this embodiment is applied can be used as a stick type with the length of the telescopic pipe extended with respect to the vacuum cleaner body, and a handy type with the length of the telescopic pipe shortened. Can be used as.

FIG. 1 is an overall perspective view of the vacuum cleaner 100 used as a stick type. FIG. 2 is a left side view of the vacuum cleaner 100 used as a handy type. FIG. 3 is a plan view of the vacuum cleaner 100 shown in FIG. 2 with the mouthpiece 3 removed. FIG. 4 is a sectional view taken along line IV-IV of FIG. The telescopic pipe 20 in FIG. 3 is represented by a hidden line (dotted line). Further, the front-back, up-down, left-right directions of the vacuum cleaner 100 in the following description are based on the front-back, up-down, left-right directions indicated by the arrows in FIGS. 1 and 2.

As shown in FIGS. 1 and 2, the vacuum cleaner 100 locks / unlocks the mouthpiece 3, the vacuum cleaner body 1, the telescopic pipe 20 (see FIG. 1), the first handle 30, and the telescopic pipe 20. It is equipped with a device (not shown).

≪Mouthpiece≫
The mouthpiece 3 is removably attached to a suction port 15 (see FIG. 4) that opens at the front of the vacuum cleaner body 1.
The mouthpiece 3 shown in FIG. 1 is a power brush type mouthpiece 3a incorporating a rotary brush driven by an electric motor, and the mouthpiece 3 shown in FIG. 2 is a gap nozzle 3b. The mouthpiece 3 of the vacuum cleaner 100 is not limited to these power brush type mouthpieces 3a and gap nozzles 3b, and other mouthpieces can also be used. Further, the vacuum cleaner 100 can be used without the mouthpiece 3 attached. By the way, the mouthpiece 3 in the present embodiment can be removed from the vacuum cleaner body 1 by pushing down the mouthpiece attachment / detachment button 16 provided at the front end of the vacuum cleaner body 1. The details of the mouthpiece 3 will be described later.

The length of the extended telescopic pipe 20 is different between the vacuum cleaner 100 shown in FIG. 1 and the vacuum cleaner 100 shown in FIG. 2, and the mouthpiece 3 has a gap with the power brush type mouthpiece 3a as described above. It has the same structure except that it is different from the nozzle 3b.

≪Vacuum cleaner body≫
The vacuum cleaner main body 1 is configured to include an electric blower 40 (see FIG. 4), a main body substrate 44 (see FIG. 4), a storage battery 60 (see FIG. 4), and the like, which will be described later, in the case 10. Further, the vacuum cleaner main body 1 includes a cyclone type dust collector 2 detachably attached to the case 10 and an air introduction pipe (2) for sending air including dust sucked from the mouthpiece 3 to the dust collector 2. (Not shown).

The outer shape of the vacuum cleaner main body 1 is substantially composed of the outer shape formed by the case 10 and the dust collector 2, and has a long shape in the front-rear direction. Further, a second handle 33 is formed in the case 10 of the vacuum cleaner main body 1.

<Case>
As shown in FIG. 1, the case 10 has a pipe case portion 13, a motor case portion 11, a storage battery case portion 12, and an introduction pipe case portion 14.

The pipe case portion 13 is formed so as to extend in the front-rear direction from the upper portion of the vacuum cleaner main body 1. As will be described later, the pipe case portion 13 forms the second handle 33 near the rear portion of the vacuum cleaner main body 1. The outer shape of the pipe case portion 13 has a convex shape extending in the front-rear direction except for the second handle 33 portion.

As shown in FIGS. 3 and 4, when the vacuum cleaner 100 is used as a handy type, the pipe case portion 13 houses the telescopic pipe 20 (pipe member 21) described later inside. When the vacuum cleaner 100 is used as a stick type, the pipe member 21 is in a state of extending from the rear end portion of the vacuum cleaner main body 1 to the outside of the pipe case portion 13 as shown in FIG. Become.

As shown in FIGS. 1 and 2, the motor case portion 11 is arranged between the pipe case portion 13 and the storage battery case portion 12 on the lower side of the pipe case portion 13 within a range substantially the latter half of the vacuum cleaner main body 1. ing. As shown in FIG. 3, the motor case portion 11 is formed to be wider in the left-right direction than the pipe case portion 13.

As shown in FIGS. 1 and 2, the storage battery case portion 12 is arranged under the motor case portion 11 within a range substantially the latter half of the vacuum cleaner main body 1. As shown in FIG. 3, the storage battery case portion 12 is formed wider in the left-right direction than the pipe case portion 13, and is formed narrower in the left-right direction than the motor case portion 11.

The introduction pipe case portion 14 is arranged so as to cover the air introduction pipe (not shown) from above.
In FIGS. 1 and 2, reference numeral 80 is a rotating brush.
As shown in FIG. 3, the introduction pipe case portion 14 is arranged so as to project to the right side of the pipe case portion 13 within a range of substantially the front half of the vacuum cleaner main body 1.

<Electric blower, main board and storage battery>
As shown in FIG. 4, the electric blower 40 is housed in the motor case portion 11. Specifically, the electric blower 40 is supported by screws or the like in the fixed case 11a arranged in the motor case portion 11.

The electric blower 40 includes a fan 41 and an electric motor 43 that drives the fan 41 around a rotation shaft 42.
In the electric blower 40 of the present embodiment, the rotating shaft 42 is parallel to the telescopic pipe 20 by arranging the fan 41 so as to face forward.
The electric blower 40 takes in air from the front portion facing the dust collector 2. The exhaust gas from the electric blower 40 flows rearward in the fixed case 11a.

The main body boards 44 and 44 are control boards for controlling the vacuum cleaner main body 1, and are fixed to the rear of the electric blower 40 in the fixing case 11a with screws or the like.
The main body substrates 44, 44 in the present embodiment are vertically divided and arranged, and electronic components are mounted on opposite surfaces. Most of the air discharged from the electric blower 40 flows so as to cool the electronic components arranged so as to face the main body substrates 44, 44. Then, the exhaust gas flowing out from the predetermined opening (not shown) of the fixed case 11a goes out of the machine through an exhaust port (not shown) formed by a plurality of slits or the like penetrating the inside and outside of the motor case portion 11. It is discharged. A filter can also be arranged at this exhaust port.

The storage battery 60 is housed in the storage battery case portion 12. The storage battery 60 in this embodiment is formed of a rectangular parallelepiped flat in the vertical direction. The storage battery 60 is the main power source of the vacuum cleaner 100, and is electrically connected to the main body board 44, the electric blower 40, and the like.
The storage battery 60 is composed of a rechargeable secondary battery such as a lithium ion battery or a nickel hydrogen battery. The storage battery 60 in the present embodiment is assumed to be an assembled battery using a plurality of single batteries, but a single battery may be used depending on the usage conditions of the vacuum cleaner 100 and the like.

FIG. 5 is a bottom view of the mouthpiece. Note that FIG. 5 shows the state of the mouthpiece 3 when it is moving backward.
As shown in FIG. 5, the mouthpiece 3 includes a mouthpiece case 110 and a movable flap 120.

The mouthpiece case 110 has a substantially rectangular shape (horizontally long square shape) in a plan view from the bottom surface, and has a substantially rectangular mouthpiece 111 as shown by a thick broken line in FIG. That is, the mouthpiece case 110 has a mouthpiece 111 (a region surrounded by a thick broken line in FIG. 5) on the bottom surface of the mouthpiece case 110.

Further, the mouthpiece case 110 is provided with removable cover members 112 and 113 on both the left and right sides of the mouthpiece 111. The cover member 112 is a known lever fixing type, and the cover member 113 is a screw fixing type.

The cover member 112 is provided with a roller 112r that supports the mouthpiece case 110 on the floor surface. The cover member 113 is provided with a roller 113r that supports the mouthpiece case 110 on the floor surface.

The movable flap 120 has a long shape extending in the left-right direction, and is provided at the front end of the mouthpiece case 110. Further, the movable flap 120 extends to the positions of the left and right cover members 112 and 113.

Further, the mouthpiece 3 includes a first rotary cleaning body 130 and a second rotary cleaning body 140. The first rotary cleaning body 130 is arranged behind the movable flap 120 in the suction port 111. The second rotary cleaning body 140 is arranged behind the suction port 111.

The first rotary cleaning body 130 has a brush planted on the outer periphery of a core member provided at the center of the shaft. Further, in the first rotary cleaning body 130, the brush portion is arranged so as to extend from the cover member 112 to the cover member 113.

The second rotary cleaning body 140 has a circular cross section and is arranged in parallel with the first rotary cleaning body 130. Further, the second rotary cleaning body 140 is formed to be slightly longer in the axial direction than the first rotary cleaning body 130. Further, the second rotary cleaning body 140 is arranged so as to face the first rotary cleaning body 130 in the front-rear direction.

As shown in FIG. 10, in the second rotary cleaning body 140, a pipe body 30e is fixed around the shaft portion 30a, and a brush body (brushed cloth) 30b is planted on the outer peripheral surface of the pipe body 30e.

The rotational driving force of the second rotary cleaning body 140 is the frictional force between the brush body 30b and the floor surface M, and the rotational braking force of the second rotary cleaning body 140 is the frictional force between the brush body 30b and the protrusion 35a. .. The fine fibers constituting the brush body 30b are inclined in the circumferential direction with respect to the pipe body 30e, and the direction of the inclination is from the front to the rear of the mouthpiece 3 at the position where the brush body 30b is in contact with the floor surface. Is. Therefore, when the mouthpiece 3 is advanced, the frictional force between the brush body 30b and the floor surface M, that is, the rotational driving force of the second rotary cleaning body 140 becomes small, and the frictional force between the brush body 30b and the protrusion 35a, that is, the first The rotational braking force of the two-rotation cleaning body 140 becomes large, and the rotation of the second rotation cleaning body 140 is restricted. On the contrary, when the mouthpiece 3 is moved backward (see FIG. 12), the frictional force between the brush body 30b and the floor surface M, that is, the rotational driving force of the second rotary cleaning body 140 becomes large, and the brush body 30b and the protrusion 35a The frictional force, that is, the rotational braking force of the second rotary cleaning body 140 becomes small, and the second rotary cleaning body 140 rotates.

In the present embodiment, it has been explained that when the mouthpiece 3 moves forward (see FIG. 10), the rotation of the second rotary cleaning body 140 is almost locked, but it is not always necessary to lock the mouthpiece 3 and the mouthpiece 3 moves forward. If the rotation of the second rotary cleaning body 140 is slower than that in the free state, the dust scraped into the suction chamber Q (see FIG. 10) by the first rotary cleaning body 130 is sucked into the suction chamber main body. It is possible to prevent the mouthpiece case 110 from being swept out behind.

Further, in the present embodiment, the case where the brush bodies 30b are evenly arranged in the entire circumferential direction of the pipe body 30e has been described as an example, but the present invention is not limited to this, and is the same as the first rotation cleaning body 130. In addition, the brush body 30b may be arranged in a spiral shape with respect to the axial direction of the shaft portion 30a.

Further, the hues of one end and the other end of the first rotary cleaning body 130 are different from each other (for example, one end side is green and the other end side is blue), and the hues of one end and the other end of the second rotary cleaning body 140 are also different. , It is preferable that the hues of one end and the other end of the first rotary cleaning body 130 correspond to each other (one end side is green and the other end side is blue). This makes it possible to prevent the reverse direction of the brush body 30b from being reversed when the second rotary cleaning body 140 is removed and reassembled.

FIG. 6 is a perspective view showing a movable flap.
As shown in FIG. 6, the movable flap 120 includes a flap portion 121 and contact rotating portions 122 and 123.

The flap portion 121 has a flap 121a extending in the axial direction (left-right direction) and a shaft portion 121b that rotatably supports the flap 121a. Further, the flap portion 121 can be prevented from being damaged on the floor surface by being formed of, for example, a soft member.

The soft member can be appropriately selected from synthetic rubber such as elastomer, vinyl chloride, natural rubber, ethylene rubber, silicon rubber, and urethane rubber. The flap portion 121 is not limited to a soft member as long as the airtightness of the suction port 111 can be ensured, and may be a hard member. The hard member can be selected from synthetic resins such as ABS (acrylic nitrile, brassien, styrene), PP (polypropylene), and POM (polyacetal).

The shaft portion 121b has a metal shaft 121c made of stainless steel, iron, or the like, and a covering portion 121d that closely covers the periphery of the shaft 121c. Further, the shaft portion 121b is formed by insert molding in which the covering portion 121d is made of the same resin as the flap portion 121 and the shaft 121c is arranged inside.

As described above, when a soft member is used for the flap portion 121 and the covering portion 121d, the flap portion 121 may be bent and deformed, but the rigidity of the flap portion 121 is ensured by passing the shaft 121c inside the covering portion 121d. be able to. If the flap portion 121 is formed of a hard member and the rigidity of the flap portion 121 can be ensured, the shaft 121c can be eliminated and the configuration can be simplified.

Further, in the shaft portion 121b, an exposed portion 121e is formed in the center in the axial direction (left-right direction) in which the covering portion 121d is removed and the shaft 121c is exposed. Further, the shaft ends 121f and 121g at both left and right ends of the shaft 121c project from both the left and right sides of the covering portion 121d.

The contact rotating portions 122 and 123 are formed at both left and right ends of the shaft portion 121b. Specifically, the flap portions 121 are integrally formed on the left and right ends of the covering portion 121d. That is, the contact rotating portions 122 and 123 are integrally formed with the flap portion 121.

The flap portion 121 and the contact rotating portions 122 and 123 may be integrally formed as described above, but may be formed separately.

FIG. 7 is a side view showing the contact rotating portion.
As shown in FIG. 7, the contact rotating portion 122 is formed in a substantially fan shape in a side view. Further, the contact rotating portion 122 has a curved surface portion 122a formed in an arc shape, an end face portion 122b formed at one end in the circumferential direction, and an end face portion 122c formed at the other end in the circumferential direction. ing. The angle formed by the end face portion 122b and the end face portion 122c is set to less than 90 degrees.

Further, the contact rotating portion 122 has protruding portions 122b1, 122c1 that project radially outward from the curved surface portion 122a at the end surface portions 122b and 122c.

FIG. 8 is a perspective view showing the contact rotating portion. Note that FIG. 8 is an enlarged view of the contact rotating portion of FIG.
As shown in FIG. 8, inside the contact rotating portion 122, a hollow portion 122d having a side view fan shape is formed by the curved surface portion 122a and the end surface portions 122b and 122c. Further, the contact rotating portion 122 has a shape in which the outer side in the axial direction is open and the inner side is closed (see FIG. 6).

The movable flap 120 is formed with ribs 124a and 124a protruding outward at the boundary between the end face portion 122c of the contact rotating portion 122 and the shaft portion 121b.

FIG. 9 is a front view showing a movable flap. Note that FIG. 9 shows a front view of the state when the vehicle is moving backward.
As shown in FIG. 9, in the movable flap 120, contact rotating portions 122 and 123 are arranged at both left and right ends of the flap portion 121. When the mouthpiece 3 (see FIG. 5) is moving backward, the flap portion 121 (flap 121a) is facing downward.

Further, in the movable flap 120, the tip portions 122s and 123s of the contact rotating portions 122 and 123 project downward from the lowermost portion 121s of the flap portion 121. As a result, the movable flap 120 can be rotated starting from the contact rotating portions 122 and 123.

FIG. 10 is a vertical cross-sectional view showing a mouthpiece when moving forward. Note that FIG. 10 shows a state when the mouthpiece 3 is placed on the floor surface M (assuming flooring). Further, in FIG. 10, the portion indicated by the thick broken line indicates the suction flow path (the same applies to FIG. 12).
As shown in FIG. 10, the movable flap 120 is arranged in front of the first rotary cleaning body 130. Further, in the movable flap 120, shaft ends 121f and 121g (see FIG. 6) at both left and right ends of the shaft 121c are rotatably supported by the mouthpiece case 110.

Further, in the movable flap 120, the shaft 121c exposed from the exposed portion 121e is rotatably held by the holding portion 102 formed in the mouthpiece case 110. As a result, the long movable flap 120 can be prevented from falling off during operation.

The holding portion 102 has a shape in which a notch portion 102a is formed at the bottom of a member formed in a substantially U-shaped cross section. By providing the notch 102a, the shaft 121c can be attached and detached.

When the mouthpiece 3 moves forward, the contact rotating portion 123 rotates in the counterclockwise direction (W1 direction) around the shaft 121c due to the frictional force when the contact rotating portion 123 contacts the floor surface M. As the contact rotating portion 123 rotates, the flap portion 121 also rotates in the counterclockwise direction (W1 direction) at the same time. The flap portion 121 rotates to an angle in contact with the first rotary cleaning body 130. As a result, a gap S1 is formed (an opening is formed) between the flap portion 121 and the floor surface M, and a relatively large dust (dust) D1 can be sucked from the front of the mouthpiece 3.

FIG. 11 is a cross-sectional view taken along the line XI-XI of FIG. Note that FIG. 11 shows a state in which the front is viewed from the inside of the mouthpiece case 110.
As shown in FIG. 11, the movable flap 120 rotates due to the frictional resistance between the contact rotating portions 122 and 123 on both the left and right sides and the floor surface M as the mouthpiece 3 moves forward. As a result, a wide gap S1 is formed between the contact rotating portion 122 and the contact rotating portion 123. As a result, relatively large dust (dust) D1 is sucked from the front of the mouthpiece 3.

FIG. 12 is a vertical cross-sectional view showing a mouthpiece when moving backward.
As shown in FIG. 12, when the mouthpiece 3 is moving backward, the contact rotating portion 123 is in the clockwise direction (W2 direction) about the shaft 121c due to the frictional force when the contact rotating portion 123 comes into contact with the floor surface M. Rotates to. As the contact rotating portion 123 rotates, the flap portion 121 also rotates in the clockwise direction (W2 direction) at the same time. As a result, the flap portion 121 closes the front end portion of the mouthpiece case 110 to ensure the airtightness with the floor surface M, and the first rotation cleaning body 130 is compared with the case where the mouthpiece body 3 is advanced. The pressure inside the brush chamber (suction chamber Q) to be accommodated can be increased, and dust can be sucked in more reliably. Further, the flap portion 121 closes the front end portion of the mouthpiece case 110 when the mouthpiece body 3 moves backward, so that dust can be prevented from passing in front of the mouthpiece body 3.

Further, when the mouthpiece 3 is moving backward, the flap portion 121 is facing downward. At this time, the flap portion 121 is inclined forward so as to have an angle θ with respect to the vertical direction. In FIG. 12, the description is exaggerated for the sake of clarity.

By inclining the direction of the flap portion 121 in this way, when the mouthpiece 3 is moved backward, the frictional resistance between the flap portion 121 and the floor surface M can be reduced as compared with the case where the flap portion 121 is directed downward in the vertical direction. The operability of the mouthpiece 3 can be improved.

FIG. 13 is a cross-sectional view taken along the line XIII-XIII of FIG.
As shown in FIG. 13, when the mouthpiece 3 moves backward, the flap portion 121 faces downward and the front end portion of the mouthpiece case 110 is closed. At this time, the lowermost portion 121s of the flap portion 121 is located below the lowermost surfaces 112a and 113a (near the suction port 111) of the mouthpiece case 110 (floor surface M side).

Further, a gap S2 is formed between the lowermost portion 121s of the flap portion 121 and the floor surface M. The gap S2 is set to, for example, 1 mm to 2 mm. That is, the lowermost portion 121s is located above the tip portions (lower ends) 122s and 123s of the contact rotating portions 122 and 123 (the side away from the floor surface M). As a result, the flap portion 121 can be stably rotated starting from the contact rotating portions 122 and 123 as described above.

Further, since the shaft 121c (see FIG. 12) is held by the holding portion 102 not only at the left and right ends of the mouthpiece case 110 but also at the central portion in the left-right direction, the flap portion 121 can be stably rotated. ..

FIG. 14 is a bottom view showing a state in which the cover member is removed from the mouthpiece, and FIG. 15 is a bottom view showing a state in which the movable flap is further removed from the state of FIG.
As shown in FIG. 14, in the mouthpiece 3 of the present embodiment, cover members 112 and 113 are detachably attached to the bottom surfaces of the left and right ends of the mouthpiece case 110. The cover member 112 can be removed by operating a lever (not shown). The cover member 113 is fixed to the mouthpiece case 110 via a screw 116 (see FIG. 5). Note that FIG. 14 shows a state in which the cover member 113 is removed for convenience of explanation.

By removing the cover member 112, the shaft end portion 121g of the shaft 121c of the movable flap 120 is exposed. The shaft end portion 121g is rotatably held by a bearing 104 provided on the lower surface of the mouthpiece case 110. A notch smaller than the diameter of the shaft 121c is formed in the bearing 104 so that the shaft end portion 121g of the shaft 121c can be attached to and detached from the bearing 104.

Further, by removing the cover member 112, the shaft portion 130a of the first rotary cleaning body 130 and the shaft portion 140a of the second rotary cleaning body 140 are exposed. As a result, the first rotary cleaning body 130 and the second rotary cleaning body 140 can be removed from the mouthpiece case 110.

Further, when the cover member 113 is removed from the mouthpiece case 110, the bearing 103 holding the shaft end portion 121f of the shaft 121c of the movable flap 120 is exposed. The bearing 103 has a hole shape that is supported by inserting the shaft end portion 121f of the shaft 121c.

When removing the movable flap 120 from the mouthpiece case 110, it is sufficient to remove the cover member 112 with the cover member 113 attached to the mouthpiece case 110. That is, since the shaft end portion 121g of the shaft 121c is exposed by removing the cover member 112, the shaft end portion 121g is removed from the bearing 104, and the central portion of the shaft 121c is removed from the holding portion 102. Then, the movable flap 120 can be removed from the mouthpiece case 110 by sliding the movable flap 120 to the right. FIG. 15 shows a state in which the movable flap 120 is removed from the mouthpiece case 110.

Further, in the state shown in FIG. 15, when the movable flap 120 is attached to the mouthpiece case 110, the shaft end portion 121f of the shaft 121c is slid from right to left on the bearing 103 while the cover member 113 is attached to the mouthpiece case 110. Insert and hold while letting. Then, the shaft 121c of the exposed portion 121e (see FIG. 6) is fitted and held in the holding portion 102. Then, the shaft end portion 121g of the shaft 121c is fitted into the bearing 103 and held.

With this configuration, by removing one cover member 112 from the mouthpiece case 110, the movable flap 120 can be removed from the mouthpiece case 110, the movable flap 120 can be attached to the mouthpiece case 110, and the movable flap can be attached. The 120 can be easily attached and detached.

As described above, the mouthpiece 3 of the first embodiment includes a mouthpiece case 110 having a mouthpiece 111 on the lower surface, and a movable movable flap 120 provided in front of the mouthpiece 111. The movable flap 120 forms an opening (gap S1) between the contact rotating portions 122 and 123 that rotate in contact with the floor surface M when the mouthpiece case 110 moves forward and backward and the floor surface when moving forward. A flap portion 121 that closes the above-mentioned opening (gap S1) when moving backward is provided. When the mouthpiece case 110 is moved backward, the lowermost portion 121s of the flap portion 121 is located below the lowermost surfaces 112a and 113a (near the mouthpiece 111) of the mouthpiece case 110. According to this, when the mouthpiece 3 moves forward, the front opening opens to suck in relatively large dust (dust), and when the mouthpiece 3 moves backward, the front opening closes to seal the floor surface M. The property is ensured, and the pressure in the mouthpiece 111 can be increased as compared with when the material is advanced. As a result, it becomes possible to suck in dust more reliably.

Further, in the first embodiment, the cover member 112 to which the mouthpiece case 110 can be attached and detached is provided, and the shaft end portion 121g (end portion of the shaft 121c) of the movable flap 120 is formed between the main body side of the mouthpiece case 110 and the cover member 112. It is located in between. According to this, it is possible to secure a wide suction width W (see FIG. 5) of dust (dust). Further, by providing the cover member 112, it is possible to prevent the shaft 121c from falling off while being supported.

Further, the contact rotating portions 122 and 123 are made of a soft member. According to this, the flap portion 121 can be stably rotated without damaging the floor surface M such as the flooring. That is, the operation of forming the opening (gap S1) when the mouthpiece 3 moves forward and the operation of closing the opening (gap S1) when the mouthpiece 3 moves backward can be smoothly performed.

In the first embodiment, the contact rotating portions 122 and 123 have been described as an example, but the contact rotating portions 125, 127 and 152 shown in FIGS. 16 to 20 may be used. FIG. 16 is a perspective view showing a modified example of the contact rotating portion. FIG. 17 is a perspective view showing another modified example of the contact rotating portion. FIG. 18 is a side view showing still another modification of the contact rotating portion. FIG. 19 is a perspective view of the contact rotating portion of FIG. 18 as viewed from the outside in the axial direction. FIG. 20 is a perspective view of the contact rotating portion of FIG. 18 as viewed from the inside in the axial direction.

As shown in FIG. 16, the movable flap 120A is a contact rotating portion 125 instead of the contact rotating portion 122 of the first embodiment. The contact rotating portion 125 is configured to have a tongue portion 125a projecting outward in the radial direction and a tongue portion 125b projecting outward in the radial direction at a position different from the tongue portion 125a. .. The angle formed by the tongue portion 125a and the tongue portion 125b is the same as that of the first embodiment (see FIG. 7). Further, in the contact rotating portion 125, a protruding portion 126a is integrally formed at the boundary between the tongue portion 125b and the covering portion 121d.

As shown in FIG. 17, the movable flap 120B is a contact rotating portion 127 instead of the contact rotating portion 122 of the first embodiment. The contact rotating portion 127 is a widened contact rotating portion 125 according to the modified example of FIG. Further, in the contact rotating portion 127, a protruding portion 128a is integrally formed at the boundary between the tongue portion 127b and the covering portion 121d. By providing the contact rotating portion 127, the flap can be rotated more stably.

As shown in FIG. 18, the movable flap 120C is a contact rotating portion 152 instead of the contact rotating portion 122 of the first embodiment. The contact rotating portion 152 is a protruding portion 152b1, 152c1 instead of the protruding portions 122b1, 122c1 in FIG. 7. Further, the contact rotating portion 152 is obtained by adding a protruding portion 152a to the curved surface portion 122a in FIG. 7 in the middle of the protruding portion 152b1 and the protruding portion 152c1 in the week direction. Further, in the contact rotating portion 152, the outer surface 152d in the axial direction is closed. The covering portion 151d, the end face portions 152b, 152c, and the rib 154a have the same configuration as the covering portion 121d, the end face portions 122b, 122c, and the rib 124a in FIG.

As shown in FIG. 19, the contact rotating portion 152 of the movable flap 120C has an outer surface in the axial direction closed. As shown in FIG. 20, the contact rotating portion 152 of the movable flap 120C has an opening on the inner side surface in the axial direction. This makes it easier to elastically deform the contact rotating portion 152.

(Second Embodiment)
FIG. 21 is a cross-sectional view showing a movable flap provided on the mouthpiece of the second embodiment. Note that FIG. 21 shows the state in which the mouthpiece 3 is in reverse movement. Further, the same reference numerals are given to the same configurations as those in the first embodiment, and duplicate description will be omitted.
As shown in FIG. 21, the movable flap 120D of the second embodiment has a recess 121f formed in the flap portion 121. The recesses 121f are formed at a plurality of positions at intervals along the axial direction (horizontal direction, width direction). Further, the recess 121f is configured so that the concave surface faces downward when the vehicle moves backward. Further, the uppermost portion 121t of the recess 121f is located below the lowermost surfaces 112a and 113a (near the suction port 111) of the mouthpiece case 110.

In the second embodiment, the movable flap 120D has a recess 121f, and when the mouthpiece case 110 is moved backward, the uppermost portion 121t of the recess 121f is lower than the lowermost surfaces 112a and 113a (near the mouthpiece 111) shown by the broken line in the mouthpiece case 110. Located on the side. According to this, as in the first embodiment, when the mouthpiece 3 moves forward, the front side opens and relatively large dust (dust) can be sucked. Further, by closing the front opening when the mouthpiece 3 is moved backward, the airtightness with the floor surface M is ensured, and the pressure inside the mouthpiece 111 can be increased as compared with when the mouthpiece 3 is moved forward. As a result, it becomes possible to reliably suck in dust.

(Third Embodiment)
FIG. 22 is a cross-sectional view showing a movable flap provided on the mouthpiece of the third embodiment. Note that FIG. 22 shows the state in which the mouthpiece 3 is in reverse movement.
As shown in FIG. 22, in the movable flap 120E of the third embodiment, the lowermost portion 121s of the flap portion 121 is the same as the lowermost surfaces 112a and 113a of the mouthpiece case 110 (so that the lowermost surfaces 112a and 113a are the same). It was formed. In the case of the third embodiment configured in this way, the same effects as those of the first embodiment and the second embodiment can be obtained.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention. For example, in the above-described embodiment, the case where the two contact rotating portions 122 and 123 are provided has been described as an example, but the description is not limited to two, and one (for example, the central portion in the axial direction) is used. It may be 1) or 3 or more. By making one contact rotating portion, it is possible to secure a wide opening width in front of the suction port 111, and it becomes easy to suck in dust from the front.

Further, in the above-described embodiment, the case where the movable flap 120 is attached to the front of the first rotary cleaning body has been described as an example, but instead of the second rotary cleaning body 140 behind the first rotary cleaning body 130, The movable flap 120 may be arranged. In this case, the movable flap 120 opens when the mouthpiece is moved backward to take in dust, and the movable flap 120 closes the opening when the mouthpiece is moved forward to maintain airtightness. Further, the movable flap 120 may be attached to the front and rear of the first rotary cleaning body 130.

Further, in the second embodiment, the case where the recess 121f is formed in the flap portion 121 has been described as an example, but the slit-shaped notch may be formed instead of the recess 121f. Also in this case, when the mouthpiece case 110 is moved backward, the uppermost portion of the notch can be configured to be located at the same level as or lower than the vicinity of the mouthpiece 111 in the mouthpiece case 110.

3 Mouthpiece 110 Mouthpiece case 111 Mouthpiece 112 Cover member 112a, 113a Bottom surface 120, 120A, 120B, 120C, 120D, 120E Movable flap 121 Flap part 121f Recession 121s Bottom part 121t Topmost part 122, 123, 125, 127, 152 Contact Rotating part
122a Curved surface
122b End face (end face on one end)
122c End face (end face on the other end)
122d Hollow part S1 gap (opening)

Claims (3)

A mouthpiece case having a mouthpiece on the lower surface and a movable movable flap provided in front of the mouthpiece are provided.
The movable flap forms an opening between the contact rotating portion that rotates in contact with the floor surface when the mouthpiece case is moved forward and backward, and the floor surface when the mouthpiece is moved forward, and the movable flap is said to be said when the mouthpiece is moved backward. With a flap that closes the opening,
The contact rotating portion is formed of a soft member, a curved surface portion formed in an arc shape, an end face portion on one end side formed at one end in the circumferential direction, and the other end formed at the other end in the circumferential direction. A hollow portion having an end face portion on the end side and exhibiting a side view fan shape is formed by the curved surface portion and both end face portions.
A mouthpiece of a vacuum cleaner, characterized in that the lowermost portion of the flap portion is located at the same level as or below the vicinity of the mouthpiece in the mouthpiece case when the mouthpiece case is moved backward. The flap portion has a notch or recess at the bottom.
The vacuum cleaner according to claim 1, wherein when the mouthpiece case is moved backward, the uppermost portion of the notch or recess is located equal to or lower than the vicinity of the mouthpiece in the mouthpiece case. Mouthpiece. The mouthpiece case includes a cover member that can be attached to and detached from the mouthpiece case.
The mouthpiece of the vacuum cleaner according to claim 1 or 2, wherein the shaft portion of the movable flap is located between the mouthpiece case and the cover member.

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