JP3819565B2 - Floor suction tool - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a floor suction tool used by being connected to a vacuum cleaner.
[0002]
[Prior art]
Conventionally, as the seed bed suction tool, a rotary brush is rotatably supported on the suction tool body, and the rotary brush is rotationally driven by an electric motor or a turbine.
[0003]
In the case where the rotary brush is driven to rotate by an electric motor, there are disadvantages such as the weight of the electric motor is heavy, the handleability is poor, the structure is complicated, the number of parts is increased, and the assembly workability is poor.
[0004]
In the case where the rotating brush is driven to rotate by the turbine, the turbine is arranged in the turbine chamber formed in the suction passage from the suction port to the cleaner body, and is rotated by the air sucked together with dust. Therefore, there has been a problem that dust and the like are entangled in the turbine due to long-term use and the turbine does not rotate well.
[0005]
Therefore, in order to solve the above-mentioned drawbacks, in JP-A-9-28630 (A47L 9/04) or the like, a turbine is disposed at both ends of the rotating brush, and external turbine air is supplied to the turbine to supply the turbine. It has been proposed to rotate and suck the air into the vacuum cleaner together with the air sucked from the suction port.
[0006]
However, in this configuration, it is necessary to dispose turbines at both ends of the rotating brush, which increases the number of components and reduces the dust suction characteristics by sucking a large amount of outside air to rotate the turbine. Therefore, there is a problem that it is necessary to rotate the turbine with a small amount of outside air, the rotational force is weak, and a favorable rotational force cannot be obtained when cleaning a surface to be cleaned such as a carpet having a large resistance. Moreover, a suction port cannot be formed in the lower surface of the turbine storage chamber, and the suction port becomes smaller with respect to the width of the suction tool body, resulting in a problem that dust and the like remain unabsorbed.
[0007]
[Problems to be solved by the invention]
This invention is made | formed in view of the said fault, and makes it a subject to provide the suction tool for floors which can rotationally drive a rotary brush efficiently with a simple structure.
[0008]
[Means for Solving the Problems]
The present invention is a suction tool main body having a suction port on the lower surface, a rotary brush storage chamber formed in the suction tool main body, and rotatably stored in the rotary brush storage chamber facing the suction port. And a rotating brush provided with a blade that contacts the surface to be cleaned on the outer periphery to clean the surface to be cleaned, and a guide port that rotates the rotating brush by causing the suction tool body to collide with outside air against the blade of the rotating brush. Is formed linearly in the left-right direction, and the blade of the rotating brush is arranged in a spiral shape so that air sucked from the guide port collides with any part of the blade as the rotating brush rotates. characterized in that it was.
[0009]
The present invention also includes a suction tool main body having a suction port on the lower surface, a rotary brush storage chamber formed in the suction tool main body, and a rotary brush storage chamber rotatably facing the suction port. And a rotating brush provided with a blade that contacts the surface to be cleaned to clean the surface to be cleaned on the outer periphery, and rotates the rotating brush by causing the suction tool body to collide with outside air against the blade of the rotating brush. The guide port is formed linearly in the left-right direction separately from the suction port, and the blade of the rotating brush is arranged in a spiral shape so that the air sucked from the guide port is one of the blades as the rotating brush rotates. It is configured to collide with a part .
[0010]
Furthermore, the present invention provides a suction tool main body having a suction port on the lower surface, a rotary brush storage chamber formed in the suction tool main body, and a rotary brush storage chamber rotatably accommodated in the state facing the suction port. And a rotating brush having a blade disposed on the outer periphery, and a guide port for rotating the rotating brush by causing outside air to collide with the blade of the rotating brush in the suction tool body is linearly formed in the left-right direction, The blade has a first blade that does not come into contact with the surface to be cleaned, and a second blade that has a flexibility to incline rearward with respect to the rotation direction of the rotating brush and to stand by the centrifugal force accompanying the rotation and come into contact with the surface to be cleaned. The first and second blades are arranged in a spiral shape, and the air sucked from the guide port is part of the first and second blades as the rotating brush rotates. Collide with Characterized by being configured to.
[0011]
The present invention also includes a suction tool main body having a suction port on the lower surface, a rotary brush storage chamber formed in the suction tool main body, and a rotary brush storage chamber rotatably facing the suction port. And a rotating brush provided with a blade that contacts the surface to be cleaned to clean the surface to be cleaned on the outer periphery, and rotates the rotating brush by causing the suction tool body to collide with outside air against the blade of the rotating brush. A guide port is formed linearly in the left-right direction, a part of the blade of the rotating brush is formed of a non-breathable material, and the blade of the rotating brush is spirally arranged to be sucked from the guide port Is configured to collide with any part of the blade as the rotating brush rotates .
[0012]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described below in detail with reference to FIGS.
[0013]
Reference numeral 1 denotes a suction tool main body, which is supported between the upper case 2, the lower case 3, the lid 4 that is detachably engaged with the upper case 2 and the lower case 3, and the upper and lower cases 2, 3. The rotary pipe 5 is composed of a joint pipe 6 that is rotatably supported by the rotary pipe 5.
[0014]
Reference numeral 7 denotes a suction port formed on the bottom surface of the suction tool body 1, and 8 denotes a rotating brush storage chamber formed in the suction tool body 1.
[0015]
Reference numeral 9 denotes shaft support portions formed on both sides of the suction tool main body 1 and rotatably supports wheels 27 described later. Reference numeral 10 denotes a partition rib that is suspended from the upper and lower cases 2, 3 of the suction tool body 1, and divides the shaft support portion 10 and the rotary brush storage chamber 8, and external air enters the rotary brush storage chamber 8 via the shaft support portion 10. Is prevented from being sucked.
[0016]
Reference numeral 11 denotes a rotating brush that is rotatably accommodated in the rotating brush storage chamber 8 in a state of facing the suction port 7. The rotating brush 11 includes a core body 12 and a helical shape formed on the core body 12. A pair of brush bodies 15 to be mounted by inserting the base portion 14 into the groove 13 and a pair of blades 16 to be mounted by inserting the base portion 18 into the spiral groove 13 of the core body 12. .
[0017]
The blade 16 is sewn to a cloth-like body 17 having a low air permeability, a base 18 made of a synthetic resin molded at an end portion of the cloth-like body 17, and an end portion of the cloth-like body 17. The cloth-like body 17 is composed of a brush-like body 19, and the cloth-like body 17 is deformed so that the end of the cloth-like body 17 undulates by forming the base 18 and the brush-like body 17 is further deformed to the end of the cloth-like body 17. By sewing 19, the cloth-like body 17 is bent and curved. The blade 16 is attached to the core body 12 so as to curve backward with respect to the rotation direction of the rotary brush 11.
[0018]
The blade 16 is curved rearward with respect to the rotation direction of the rotary brush 11 as shown in FIG. 6 in the rotation stop state and the low-speed rotation state of the rotary brush 11, but the rotary brush 11 is in a high-speed rotation state. Then, as shown in FIG. 7, the centrifugal force accompanying the rotation results in an upright state, and the diameter of the rotation locus in the upright state is larger than the diameter of the rotation locus of the brush body 15. . Further, when the rotary brush 11 is stopped, the brush body 15 and the blade 16 are formed so as not to contact the floor surface even when the suction tool body 1 is placed on the floor surface.
[0019]
A guide port 20 is formed on the upper surface of the lid body 4 linearly in the left-right direction of the suction tool body, and is formed over almost the entire width of the brush body 15 and the blade 16 of the rotary brush 11. Reference numeral 21 denotes a first rib formed on the front side of the guide port 20 and constitutes a guide for guiding outside air sucked from the guide port 20 to the brush body 15 and the blade 16 of the rotary brush 11. The first rib 21 is located within the projection range of the rotation locus formed from the back surface of the lid body 4 to the rotation center side position of the rotary brush 11 from the foremost position of the rotation locus of the blade 16. It extends below the highest position of the rotation trajectory.
[0020]
Reference numeral 22 denotes a second rib formed on the rear side of the guide port 20 and constitutes a guide for guiding outside air sucked from the guide port 20 to the brush body 15 and the blade 16 of the rotary brush 11. The second rib 22 extends forward from the center of rotation of the rotary brush 11, and a discharge port 23 is formed between the first rib 21 and the tip of the second rib 22. The discharge port 23 is linearly formed in the left-right direction of the suction tool body.
[0021]
A cover body 24 is attached to the lid body 4 by a plurality of locking claws 25 and covers the upper portion of the discharge port 23 so that the discharge port 23 cannot be directly seen from the outside. An intake passage 26 is formed between the first rib 21, the second rib 22, and the cover body 24, and the intake passage 26 is configured to gradually narrow from the guide port 20 toward the discharge port 23.
[0022]
Reference numeral 27 denotes a front wheel mounted on the shaft support portion 9 and is formed to have substantially the same diameter as the outer diameter of the suction tool body 1. 28 is a rear wheel pivotally supported at the rear part of the suction tool body 1, 29 is a suction keeper disposed before and after the suction port 7, and is formed of a flexible material such as soft rubber, Suction keeper 29 improves the deep suction force.
[0023]
Thus, when the joint pipe 6 is connected to the cleaner body via the flexible hose and the extension pipe and the electric blower of the cleaner body is driven, air is sucked from the suction port 7. In the state where the suction tool body 1 is lifted from the surface to be cleaned, since the suction resistance from the suction port 7 is small, most of the air is sucked from the suction port 7. In this state, since the suction port 7 is greatly opened, the flow rate of the air sucked from the suction port 7 is relatively slow, and therefore the rotating brush 11 hardly rotates.
[0024]
When cleaning floors such as flooring and tatami mats, the space between the surface to be cleaned and the suction port 7 is relatively wide, so the suction resistance from the suction port 7 is small, and most of the air is sucked from the suction port 7 Therefore, it is hardly sucked from the guide port 20. In this state, since the air sucked from between the suction port 7 and the surface to be cleaned has a high flow velocity, the air sucked from the suction port 7 collides with the brush body 15 and the blade 16 of the rotating brush 11 and the rotating brush. 11 is rotated counterclockwise in FIG.
[0025]
Since the blade 16 is curved rearward with respect to the rotational direction of the rotating brush 11 as shown in FIG. 6 in the rotation stopped state or the low-speed rotating state of the rotating brush 11, the air sucked from the suction port 7. The rotating brush 11 rotates efficiently.
[0026]
When the rotating brush rotates at a high speed, the blade 16 stands by centrifugal force as shown in FIG. Since the blade 16 uses the cloth-like body 17 that is easily bent, even if it contacts the floor surface or the tatami mat, the floor surface or the tatami mat will not be damaged.
[0027]
When cleaning a surface to be cleaned such as a carpet, the suction port 7 is covered with the surface to be cleaned, the suction resistance from the suction port 7 increases, and the amount of outside air sucked from the guide port 20 increases. Since the discharge port 23 is formed to have an extremely small opening area compared to the suction port 7, the air sucked from the discharge port 23 collides with the brush body 15 and the blade 16 of the rotary brush 11 at a high flow rate, and the rotary brush 11 is rotated counterclockwise in FIG.
[0028]
The first rib 21 is formed so as to hang down from the foremost position of the rotation locus of the blade 16 to the rotation center side of the rotating brush 11 and extends downward from the highest position of the rotation locus of the brush body 15. The outside air sucked from the air can be prevented from wrapping around the front of the rotating brush 11 without colliding with the brush body 15 or the blade 16, and can be reliably guided to the brush body 15 and the blade 16. Can be rotated.
[0029]
Further, since the second rib 22 extends toward the brush body 15 and the blade 16 from the rotation center of the rotary brush 11, the outside air sucked from the discharge port 23 is removed from the brush body 15 and the blade 16. It is possible to reliably guide the brush body 15 and the blade 16 through the upper part of the rotating brush 11 without contact with the brush, and to reliably guide the rotating brush 11 to rotate. Can be driven.
[0030]
The guide port 20 is linearly formed in the left-right direction of the suction tool body, and the brush body 15 and the blade 16 are spirally disposed on the core body 12 of the rotary brush 8. Since the brush body 15 and the blade 16 intersect and the air sucked from the guide port 20 blows to any part of the brush body 15 and the blade 16 as the rotary brush 8 rotates, the rotary brush 8 always exerts a rotational force. Obtainable.
[0031]
Since the blade 16 is spirally disposed with respect to the core body 12, the blade 16 sequentially abuts against the floor surface when the rotary brush 8 rotates, so that the tip of the blade 16 simultaneously contacts the floor surface over the entire width. Noise can be suppressed without contact, and resistance due to contact of the blade 16 with the floor surface can be suppressed, and the rotational force of the rotating brush 8 is not reduced.
[0032]
Further, since the blade 16 is inclined rearward in the rotational direction of the rotary brush 8, it can efficiently receive the outside air from the guide port 20 and obtain a sufficient rotational force.
[0033]
Furthermore, since the blade 16 is constructed by sewing the brush-like body 19 on the cloth-like body 17 which is hard to breathe, it can receive the outside air from the guide port 20 more efficiently and obtain a sufficient rotational force. Can do.
[0034]
Since the intake passage 26 that guides the outside air from the guide port 20 to the discharge port 23 is configured to gradually narrow toward the discharge port 23, the generation of noise due to a change in the air passage area is reduced, and The rotational efficiency of the rotating brush 11 can be improved by increasing the flow velocity of the outside air that collides with the brush body 15 and the blade 16 from the discharge port 23.
[0035]
The outside air from the guide port 20 has the fastest flow velocity in the central portion near the rotary tube 5, and the rotary brush 11 can be efficiently driven to rotate by the outside air from the center portion of the guide port 20.
[0036]
The outside air from the guide port 20 collides with the surface to be cleaned, and the dust on the surface to be cleaned is lifted, and the dust is efficiently removed in combination with the suction force of the vacuum cleaner and the scraping of the rotating brush 11. Since the guide port 20 is formed over substantially the entire width of the rotating brush 11, dust and the like can be efficiently removed over a wide range.
[0037]
Moreover, it can suppress that the suction tool main body 1 attracts | sucks to a to-be-cleaned surface by attracting | sucking air from the guide port 20, and the mobility of the suction tool main body 1 can be improved.
[0038]
When cleaning carpets and the like, the surface to be cleaned becomes a resistance and the rotational speed of the rotating brush 11 decreases, but as the rotational speed of the rotating brush 11 decreases, the blade 16 gradually becomes more susceptible to the decrease in centrifugal force. It curves backward to the rotational direction so as to restore the shape at the time of stopping, the contact resistance with the surface to be cleaned is lowered, and the rotational speed is increased. By repeating this operation, the rotational speed of the rotary brush 11 is maintained substantially constant.
[0039]
Since the blade 16 is configured by sewing the brush-like body 19 on the cloth-like body 17, the blade 16 can be easily bent, and the blade 16 can be easily raised by centrifugal force using the brush-like body 19 as a weight. The blade 16 can be raised and curved even by slight fluctuations in the rotational speed of the rotating brush 11, and the rotational speed of the rotating brush 11 can be maintained almost constant.
[0040]
In the above embodiment, the blade 16 is composed of the cloth-like body 17, the base 18 and the brush-like body 19, but may be integrally formed of a flexible material such as soft rubber.
[0041]
In the above embodiment, the guide port 20 is linearly formed in the left-right direction of the suction tool body 1 and the blade 16 and the brush body 15 of the rotary brush 11 are spirally disposed on the core body 12. The guide port may be formed to be inclined in the left-right direction of the suction tool body, and the blade and the brush body may be disposed in parallel to the axial direction of the rotating brush.
[0042]
【The invention's effect】
As described above, according to the configuration of the first aspect of the present invention, the outside air is guided from the guide port to the blade of the rotating brush without providing the turbine for driving the rotating brush, so that the carpet or the like can be cleaned. Air that can efficiently rotate and drive the rotating brush, and linearly form a guide port for rotating the rotating brush by colliding outside air with the spirally arranged blade, and air sucked from the guide port Is configured to collide with any part of the blade as the rotating brush rotates, so that the rotating brush can always obtain a rotational force.
[0043]
According to the configuration of the second aspect of the present invention, the rotating brush can be efficiently used even when cleaning a carpet or the like by introducing outside air from the guide port to the blade of the rotating brush without providing a turbine for driving the rotating brush. The guide port for rotating the rotating brush by colliding outside air with the spirally arranged blade is formed linearly in the left-right direction, and the air sucked from the guide port is Since it is configured so as to collide with any part of the blade as it rotates, the rotating brush has an effect such as being able to always obtain a rotational force.
[0044]
According to the configuration of the third aspect of the present invention, the rotating brush can be efficiently used even when cleaning a carpet or the like by introducing outside air from the guide port to the blade of the rotating brush without providing a turbine for driving the rotating brush. The guide port for rotating the rotating brush by colliding outside air with the spirally arranged blade is formed linearly in the left-right direction, and the air sucked from the guide port is Since it is configured so as to collide with any part of the blade as it rotates, the rotating brush has an effect such as being able to always obtain a rotational force.
[0046]
According to the configuration of the fourth aspect of the present invention, the rotating brush is efficiently used even when cleaning a carpet or the like by introducing outside air from the guide port to the blade of the rotating brush without providing a turbine for driving the rotating brush. The guide port for rotating the rotating brush by colliding outside air with the spirally arranged blade is formed linearly in the left-right direction, and the air sucked from the guide port is Since it is configured so as to collide with any part of the blade as it rotates, the rotating brush has an effect such as being able to always obtain a rotational force.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a floor suction tool showing the rotation of a rotating brush according to the present invention.
FIG. 2 is a cross-sectional view of the floor suction tool at another position.
FIG. 3 is a top view of the floor suction tool.
FIG. 4 is a top view of the floor suction tool with the cover member removed.
FIG. 5 is a top view showing a state where the case is removed.
FIG. 6 is a sectional view of the rotating brush in the stopped state.
FIG. 7 is a cross-sectional view of a rotating brush in the same rotation state.
[Explanation of symbols]
1 Suction tool body 7 Suction port 8 Rotating brush storage chamber
11 Rotating brush
15 Brush body (first blade)
16 blade (second blade)
20 Information gate

Claims (4)

A suction tool main body having a suction port on the lower surface, a rotary brush storage chamber formed in the suction tool main body, and rotatably stored in the rotary brush storage chamber facing the suction port, and cleaned on the outer periphery A rotating brush provided with a blade that contacts the surface and cleans the surface to be cleaned, and a guide port for rotating the rotating brush by causing the outside air to collide with the blade of the rotating brush in the left-right direction. In addition to being formed in a straight line, the blades of the rotating brush are spirally arranged so that air sucked from the guide port collides with any part of the blades as the rotating brush rotates. Floor suction tool. A suction tool main body having a suction port on the lower surface, a rotary brush storage chamber formed in the suction tool main body, and rotatably stored in the rotary brush storage chamber facing the suction port, and cleaned on the outer periphery A rotary brush provided with a blade that contacts the surface and cleans the surface to be cleaned , and the suction tool main body has a suction port provided with a guide port for causing the outside air to collide with the blade of the rotary brush and rotating the rotary brush. Separately, it is formed linearly in the left-right direction, and the blade of the rotating brush is arranged in a spiral so that the air sucked from the guide port collides with any part of the blade as the rotating brush rotates. floor suction tool, characterized in that configuration was. A suction tool body having a suction port on the lower surface, the rotating brush accommodating chamber formed intake Komigu body, is rotatably housed in the rotary brush accommodating chamber in a state of facing to the suction port, the blades on the outer circumference And a guide port for rotating the rotary brush by causing external air to collide with the blade of the rotary brush in the left-right direction, and the blade being cleaned. A first blade that does not contact the surface, and a second blade that is inclined rearward with respect to the rotation direction of the rotating brush and has the flexibility to stand up by the centrifugal force accompanying the rotation and contact the surface to be cleaned. The first and second blades are arranged in a spiral shape so that the air sucked from the guide port collides with any part of the first and second blades as the rotating brush rotates. that was Floor suction tool to butterflies. A suction tool main body having a suction port on the lower surface, a rotary brush storage chamber formed in the suction tool main body, and rotatably stored in the rotary brush storage chamber facing the suction port, and cleaned on the outer periphery A rotating brush provided with a blade that contacts the surface and cleans the surface to be cleaned, and a guide port for rotating the rotating brush by causing the outside air to collide with the blade of the rotating brush in the left-right direction. It is formed in a straight line, and a part of the blade of the rotating brush is made of a non-breathable material, and the blade of the rotating brush is arranged in a spiral shape so that the air sucked from the guide port is rotated by the rotating brush. A floor suction tool characterized by being configured to collide with any part of the blade .

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