JP2005000308A - Suction port and vacuum cleaner - Google Patents

Abstract

An object of the present invention is to provide a suction port body that can be easily moved while suppressing damage to a standing wall surface in a room and that has a good dust suction performance along the standing wall surface.
Guide rollers 44 to 49 that freely rotate as bumper guides are provided in a suction port body 21 having a dust suction opening and having a horizontally long shape. The bumper 24 is formed of a deformable endless belt. The bumper 24 is guided by guide rollers 44 to 49 so as to be moved endlessly. A part 24 a of the bumper 24 attached to the suction port body 21 is disposed so as to protrude at least on the front surface of the suction port body 21 within the peripheral portion of the suction port body 21 and extend in the width direction of the suction port body 21. It is characterized by being.
[Selection] Figure 4

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a suction port for taking in dust on a surface to be cleaned, and a vacuum cleaner provided with the suction port.
[0002]
[Prior art]
In the cleaning work, the suction port may be moved along a standing wall surface or furniture in the room. In this case, in order to smoothly move the suction port body along the standing wall, etc., the corner rollers are respectively rotated at the four corners of the suction port body having the horizontally long rectangular shape of the suction port body. A suction port that is pivotally supported is known (for example, see Patent Document 1).
[0003]
The corner rollers are installed so as to protrude outside the main body of the suction port.By rotating these along the standing wall surface or furniture, the suction port body has a bumper fixed to the periphery of the main body of the suction port. In comparison, the suction port can be easily moved.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 5-329071 (paragraphs 0003-0004, FIG. 3)
[0005]
[Problems to be solved by the invention]
When cleaning a corner along a standing wall surface or furniture in a room using the suction port body of Patent Document 1, the corner roller protruding from the corner of the suction port body serves as a spacer, and the front surface of the suction port body or An elongated gap is formed between the side surface and the standing wall surface. Since the air is sucked from above through the gap, the dust suction performance at the corner is not good. Further, when the suction port hits the standing wall surface, the load concentrates on the corner roller, so that the standing wall surface or the like may be damaged.
[0006]
A problem to be solved by the present invention is a suction port body that can be easily moved while suppressing damage to a standing wall surface in a room and has a good dust suction performance along the standing wall surface, and the suction port. The goal is to get a vacuum cleaner with a body.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention comprises a bumper formed of a deformable endless belt, and this bumper is provided in a bumper guide provided in a suction port body having a dust suction opening and formed in a horizontally long shape. Attach to the inlet body so that it can be guided and moved endlessly, and part of this bumper protrudes at least in front of the inlet body in the periphery of the inlet body and extends in the width direction of the inlet body It is characterized by having arranged.
[0008]
In the present invention, when the front edge of the suction port body hits a standing wall surface or the like in the room during cleaning, the impact can be dispersed by a part of the bumper extending in the width direction of the suction port body. In addition, this part of the bumper portion can function as a shielding wall that comes into contact with the standing wall surface and suppresses air suction from above the bumper portion. Furthermore, since the bumper that is guided by the bumper guide and can move endlessly moves endlessly due to the resistance between the bumper guide and the standing wall surface or the like, the suction port body is easily moved while the bumper is in contact with the standing wall surface or the like. be able to.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The first embodiment of the present invention will be described below with reference to FIGS.
[0010]
A canister-type vacuum cleaner 1 illustrated in FIG. 1 is a vacuum cleaner body 2, an electric blower 3 built in the vacuum cleaner body 2, and vacuum cleaner that sucks dust-containing air sucked from a cleaning surface F such as a flooring floor or a carpet. An airflow guide 7 that leads into the main body 2 and a suction port body 20 are provided.
[0011]
The vacuum cleaner main body 2 to which the moving wheel 6 is attached has, for example, a dust collecting part 4 composed of a dust collecting chamber, and a suction port 5 located on the upstream side in the air flow direction with respect to the dust collecting part 4. Yes. In the cleaner main body 2, an electric blower 3 is disposed on the downstream side in the air flow direction with respect to the dust collecting portion 4, for example, at the rear portion of the cleaner main body 2.
[0012]
The airflow guide 7 includes, for example, a flexible dust suction hose 8 and, for example, a telescopic and hard extension tube 10. One end 8a of the dust suction hose 8 is detachably inserted into and connected to the suction port 5. The other end portion 8b of the dust suction hose 8 is formed by a hand operation portion 9, and various operation switches 9b are attached to a handle 9a of the operation portion 9. One end portion 10a of the extension tube 10 is detachably connected to the distal end fitting tube portion 9c of the hand operation portion 9. The suction port body 20 is selectively detachably connected to the other end portion 10b of the extension tube 10 or the distal end fitting cylinder portion 9c of the hand operation portion 9.
[0013]
By driving the electric blower 3 of the electric vacuum cleaner 1, an air flow sucked into the electric blower 3 is formed. Thereby, the suction port body 20 sucks the dust on the surface F to be cleaned together with air, and passes it through at least the dust suction hose 8 in the extension pipe 10 and the dust suction hose 8, so that the dust collecting part 4 of the cleaner body 2 is used. The dust can be captured by a filter 4a such as a dust bag that is detachably accommodated in the dust collecting portion 4.
[0014]
The dust collection part 4 can also be formed with a dust collection cup which is attached to and detached from the cleaner body 2 and performs cyclone type dust collection in the mounted state. The air that has passed through the filter 4 a is sucked into the electric blower 3 and discharged from the electric blower 3, and then discharged to the outside of the cleaner body 2 through an exhaust port (not shown) provided in the cleaner body 2. . Thus, the surface to be cleaned F can be cleaned.
[0015]
The suction inlet 20 is demonstrated with reference to FIGS. The suction port body 20 includes a suction port body 21, a connection pipe 22, a rotary cleaning body 23, a bumper 24, and the like.
[0016]
As shown in FIGS. 2 and 3, the suction inlet main body 21 includes a case made of a hard synthetic resin formed by combining an upper front case member 30, an upper rear case member 31, and a lower case member 32. As shown in FIGS. 4 and 5, this case has a horizontally long shape, preferably a horizontally long rectangular shape in plan view. The suction inlet main body 21 has a cylinder 33 that is located between the upper rear case member 31 and the lower case member 32 and is located at the center in the width direction. Both ends in the front-rear direction of the tube 33 are opened. A pipe joint 34 is attached to the rear portion of the cylinder 33 in the shape of a round pipe so as to be rotatable in the circumferential direction along the outer periphery of the cylinder 33. The connecting pipe 22 is connected to the pipe joint 34. The connecting pipe 22 communicates with the inside of the suction port main body 21 through the cylinder 33, that is, the internal space 21a. The connection pipe 22 is provided so as to be rotatable about the connection end portion on the pipe joint 34 side so that the connection pipe 22 can rise and fall.
[0017]
In FIG. 3, reference numeral 34 a indicates a fixed guide integrally provided in the pipe joint 34, and reference numeral 35 indicates a movable guide that slides on the fixed guide 34 a in conjunction with the rise and fall of the connection pipe 22. Both guides 34 a and 35 ensure airtightness between the tube 33 and the connection tube 22 when the connection tube 22 is raised. The free end of the connection pipe 22 is detachably inserted into and connected to the extension pipe 10 or the dust suction hose 8.
[0018]
On the bottom wall of the lower case member 32 facing the surface to be cleaned, a dust suction opening 36 shown in FIG. 5 is opened in communication with the main body space 21a above it. The dust suction opening 36 is provided in front of the front end opening of the cylinder 33 that is open in a trumpet shape, and extends in the width direction of the suction inlet body 21.
[0019]
As shown in FIGS. 2, 3, and 5, front wheels 37 are attached to the front portion of the lower case member 21 at both ends in the width direction, and the rear portion of the lower case member 21. A rear wheel 38 is attached to the center in the width direction. These wheels 37 and 38 facilitate the movement of the suction port body 20 in the front-rear direction, and when cleaning the flooring floor surface or the like, a gap G is formed between the floor surface and the bottom wall of the lower case member 32. Is provided to ensure. For this reason, during cleaning, the dust-containing air on the surface to be cleaned F is sucked into the dust suction opening 36 through the gap G, and further from the main body internal space 21a through the tube 33 and through the connection tube 22 to the airflow guide 7. Sucked into.
[0020]
The rotary cleaning body 23 is housed in the dust suction opening 36 and is rotatably attached to the suction port body 21. As shown in FIG. 4, the rotary cleaning body 23 is a belt type or the like in which the motor 39 and one end in the axial direction of the rotary cleaning body 23 are connected by the power of the electric motor 39 incorporated in the rear portion of the suction port body 21. It is rotationally driven via the transmission mechanism 40. In FIG. 4, reference numeral 41 denotes a circuit unit that controls the electric motor 39. As shown in FIG. 3, the rotary cleaning body 23 is formed by attaching a cleaning member 23b such as a flexible blade made of elastomer or a brush to the outer periphery of the rotary shaft 23a, for example. The cleaning member 23b has a protruding width that comes into contact with the surface F to be cleaned so as to sweep the surface F when moved below the rotary shaft 23a.
[0021]
As shown in FIG. 4 and the like, a plurality of, for example, six guide rollers 44 to 49 as bumper guides are attached to the horizontally long suction port main body 21 so as to be freely rotatable. The first guide roller 44 and the second guide roller 45 are individually arranged with a part of their peripheral surfaces exposed at the front corners at both ends in the longitudinal direction of the suction port body 21. The third guide roller 46 and the fourth guide roller 47 are individually arranged with a part of their peripheral surfaces exposed at the rear corners of the suction port main body 21 in the longitudinal direction. Both the fifth guide roller 48 and the sixth guide roller 49 are disposed in the main body space 21 a of the suction port main body 21. The fifth guide roller 48 is disposed close to the first guide roller 44, and the sixth guide roller 49 is disposed close to the second guide roller 45.
[0022]
The bumper 24 that is routed through the guide rollers 44 to 49 is formed of an endless belt. The bumper 24 is made of a freely deformable soft material, for example, a soft cloth material such as a raised cloth, or a soft resin material such as synthetic rubber or elastomer. The bumper 24 is guided by first to sixth guide rollers 44 to 49 and wound around them. The bumper 24 may be hollow like a rubber hose.
[0023]
Thus, the bumper portion 24 a extending over the first guide roller 44 and the second guide roller 45 is disposed so as to extend in the width direction of the suction port body 21 along the front surface within the peripheral portion of the suction port body 21. A bumper portion 24b extending from one end of the bumper portion 24a to the first guide roller 44 and the third guide roller 46 extends along the one side surface of the suction port body 21 and extends in the front-rear direction of the suction port body 21. Yes. Similarly, a bumper portion 24c extending to the other end of the bumper portion 24a and extending over the second guide roller 45 and the fourth guide roller 47 extends along the other side surface of the suction port body 21 in the front and rear directions. Are arranged. Further, the bumper portion 24d extending over both the bumper portions 24b and 24c is pulled out of the outer peripheral surface of the main body 21 so as not to protrude from the suction port main body 21 and is drawn into the main body inner space 21a, and the fifth guide roller 48 and the sixth guide. Guided by a roller 49. The thickness of the bumper 24 is set such that the front bumper portion 24 a and the side bumper portions 24 b and 24 c protrude from the front surface and the side surface of the suction inlet body 21. As represented in FIG. 3, shallow guide grooves in which the back surface of the bumper 24 is accommodated are formed on the front surface and the side surface of the suction port body 21.
[0024]
In FIG. 3, reference numeral 25 indicates a friction reducing layer provided on the back surface of the bumper 24. The reduction layer 25 is made of a tape made of a material having a small friction coefficient, and is provided to reduce the friction with the front surface and the side surface of the suction inlet main body 21 so that the endless stripes of the bumper 24 can move more smoothly. ing. The friction reducing layer 25 can be provided by adhering to the front and side surfaces of the suction inlet body 21 instead of adhering to the back surface of the bumper 24, or can be omitted.
[0025]
The suction port body 20 that is pushed and pulled in the front-rear direction at the time of cleaning includes the bumper 24, so that the suction port body 20 can be used for indoor standing wall surfaces, furniture, and the like (hereinafter referred to as the standing surface H). Even if the front part or one side part of the suction port hits, the impact at that time is applied along the entire bumper portion 24a extending laterally along the front surface of the suction port body 21 or along the side surface of the suction port body 21. Thus, the entire bumper portion 24b or 24c extending in the front-rear direction can be buffered. Thereby, it can suppress that the standing surface H is damaged.
[0026]
When cleaning, the suction port body 20 is moved along the standing surface H while maintaining this contact in a state where the front portion or one side portion of the suction port main body 21 is in contact with the standing surface H, and the corner of the room (In other words, the corner portion formed by the surface to be cleaned F and the standing surface H, which is indicated by the symbol C in FIG. 3) may be cleaned.
[0027]
For example, in the state where the bumper portion 24a located so as to cover the front surface of the suction port body 21 between the first guide roller 44 and the second guide roller 45 remains in contact with the standing surface H, the suction port body 20 When moved in the longitudinal direction, the movement of the bumper portion 24a is suppressed by contact friction with the upright surface H, while the guide rollers 44 to 49 of the moved suction inlet body 21 are rotated, The entire bumper 24 changes its relative position with the suction port body 21 in accordance with the movement of the suction port body 21.
[0028]
In other words, the bumper 24 moves endlessly and can rotate relative to the suction port body 21. Accordingly, the suction port body 20 can be moved along the standing surface H while suppressing the bumper 24 from rubbing the standing surface H regardless of the contact friction between the bumper 24 and the standing surface H.
[0029]
As described above, the bumper 24 is moved in an endless manner along with the movement of the suction port body 20 along the rising surface H, so that the rising surface H can be prevented from being scratched. Further, in the movement of the suction port body 20, since it is difficult to receive resistance due to the contact friction, the corner portion C can be cleaned by moving the suction port body 20 along the upright surface H easily and lightly. In addition, in this case, the bumper portion 24a in contact with the rising surface H functions as a shielding wall that blocks the space between the front surface of the suction port body 21 and the rising surface H and suppresses air suction from above the bumper portion 24a. To do. For this reason, the degree of vacuum at the corner C is increased, and the dust at the corner C can be easily sucked into the dust suction opening 36 through the gap G.
[0030]
Since the bumper 24 moves endlessly, the portion in contact with the rising surface H becomes indefinite, so that local wear of the bumper 24 due to contact with the rising surface H can also be prevented. In addition, the bumper portion protruding from the outer peripheral surface of the suction port body 21 is eventually moved to the internal space 21a of the suction port body 21 as the bumper portion 24d with the endless movement of the bumper 24. The main body space 21a forms a non-pressure space in which the negative suction pressure generated by the blower of the electric blower 3 spreads in a state where the cleaner body 2 and the suction port body 20 are connected. For this reason, if dust adheres to the bumper portion 24d, the dust can be removed by the intake negative pressure.
[0031]
Further, when the bumper portion 24b or 24c protruding from the side surface of the suction port body 21 continuously to the bumper portion 24a presses against the standing surface H, and the suction port body 20 is brought into the standing surface H in this state. Even when moving along the front-rear direction, the bumper 24 is moved in an endless manner, so that the same effects as those described above can be obtained. Therefore, the suction port body 20 of the first embodiment is suitable for cleaning the corner C of the room by moving in the lateral direction (left-right direction) and the front-rear direction.
[0032]
FIG. 6 shows a second embodiment of the present invention. Since this embodiment basically has the same configuration as that of the first embodiment, the same components are denoted by the same reference numerals as those of the first embodiment, description of the configuration and operation thereof will be omitted, and different portions will be hereinafter described. explain.
[0033]
In the second embodiment, first to fourth guide rollers 44 to 47 as bumper guides are respectively attached to four corners of the suction port body 21 having a horizontally long rectangular shape. The bumper 24 made of an endless belt is guided by guide rollers 44 to 47 and wound around them. Therefore, the bumper portion 24 d extending over the rear guide rollers 46 and 47 protrudes from the rear surface of the suction port body 21 and extends in the width direction of the suction port body 21. Configurations other than those described above are the same as those in the first embodiment including portions not shown in FIG.
[0034]
Therefore, also in the second embodiment, by attaching the bumper 24 that can move endlessly to the suction port body 21, the same effect as that of the first embodiment can be obtained, and the problem of the present invention can be solved. Moreover, in the second embodiment, the bumper portion 24 d protrudes from the rear surface of the suction port body 21. Thereby, in cleaning the lower floor surface of the furniture with legs, even if the rear part of the suction port body 20 to be moved hits the legs of the furniture, the rear part of the suction port body 20 and the legs of the furniture are damaged. It can be suppressed by the buffering action at the bumper portion 24d. Further, the second embodiment is preferable in that the number of guide rollers used and the amount of material used for the bumper 24 are smaller than those of the first embodiment and the assembly is easy.
[0035]
The present invention is not limited to the both embodiments. For example, the bumper portion protruding from the peripheral portion of the suction port body 21 in the bumper may be provided at least on the front surface of the suction port body.
[0036]
And when the bumper is provided with the unevenness extending in the width direction of the bumper alternately and continuously on the back surface of the bumper so that the bumper is a toothed belt, a gear meshing with the unevenness can be used for the bumper guide. In this case, it is preferable in that the rotation of the gear accompanying the endless movement of the bumper can be ensured so that the endless movement of the bumper does not become unsmooth due to slippage between the bumper and the bumper guide.
[0037]
Further, as the bumper guide, a guide wall or the like that does not rotate can be used instead of the above-described guide roller or gear, or these can be used together. And it is preferable to provide a layer with high slipperiness in the part which touches a bumper in a bumper guide without rotation.
[0038]
Furthermore, the suction port body of the present invention can be implemented not only as a canister type vacuum cleaner but also as a suction port body of various types of vacuum cleaners such as a stick type.
[0039]
【The invention's effect】
According to the present invention, there is provided a suction port body that can be easily moved while suppressing damage to a standing wall surface or the like in a room, and has a good dust suction performance along the standing wall surface, and the suction port body. The provided vacuum cleaner can be provided.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a vacuum cleaner according to a first embodiment of the present invention.
FIG. 2 is a side view showing a suction port provided in the electric vacuum cleaner of FIG.
3 is a cross-sectional view showing the suction port body of FIG. 2;
4 is a plan view showing the suction port body of FIG. 2 with a part cut away. FIG.
5 is a bottom view showing the suction port body of FIG. 2. FIG.
FIG. 6 is a bottom view showing a suction port provided in the electric vacuum cleaner according to the first embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Vacuum cleaner, 2 ... Vacuum cleaner main body, 3 ... Electric blower, 4 ... Dust collection part, F ... Surface to be cleaned, 20 ... Suction port body, 21 ... Suction port main body, 21a ... Space in main body, 24 ... Bumper , 24a to 24d ... bumper portion, 36 ... dust suction opening, 37 ... front wheel, 38 ... rear wheel, 44-49 ... guide roller (bumper guide)

Claims (3)

A suction port body in which a bumper is attached to a suction port body formed in a horizontally long shape with a dust suction opening,
A bumper guide is provided in the suction port body, and the bumper is formed by a deformable endless belt, and the bumper is attached to the bumper guide so that the bumper guide can move endlessly. A suction port body that protrudes at least on the front surface of the suction port main body and extends in the width direction of the suction port main body within a peripheral portion of the suction port main body. 2. The suction port body according to claim 1, wherein a portion of the bumper that is disengaged from the outer peripheral surface of the suction port body is disposed in a space in the body of the suction port body that communicates with the dust suction opening. By the operation of the electric blower in the vacuum cleaner main body, the dust on the surface to be cleaned is sucked together with the air from the suction port body which is communicated with the dust collecting portion of the vacuum cleaner main body and moved along the surface to be cleaned. The vacuum cleaner which catches in a dust collection part, The vacuum cleaner which used the suction inlet of Claim 1 or 2 for the said suction inlet.

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