The present invention relates to a vacuum cleaner.
Conventional vacuum cleaners in general are as disclosed in Japanese Patent Laid-Open Publication No. 1987-15207 as illustrated in
Referring to
Provided in front of dust chamber 5 is suction air inlet 6 communicating therewith for introducing dirt-laden air into main body 1. In order to facilitate transportability of main body 1, there are provided a pair of wheels 7 in a rear portion of lateral faces thereof and swivel caster 8 on a bottom surface thereof below dust chamber 5.
Under such a conventional configuration, the dust particles that travel through suction air inlet 6 are accumulated in dust chamber 5, and therefore, a substantial accumulation of dust particles in dust chamber 5 places substantial load on swivel caster 8, and consequently making swivel caster 8 and a portion of main body 1 that securely holds swivel caster 8 vulnerable to damages after repeated impacts thereto.
Moreover, such a configuration further suffers from creating inconvenience to the user when detaching dust chamber 5. More specifically, components of the vacuum cleaner, e.g., a hose (not shown) and a suction nozzle (not shown), which are connected with suction air inlet 6 located in front of dust chamber 5, interfere with user's unloading of dust chamber 5 from main body 1.
It is, therefore, a primary object of the present invention to provide a vacuum cleaner capable of enhancing durability and reliability of a swivel caster employed therein.
It is, therefore, another object of the present invention to provide a vacuum cleaner employing a dust chamber capable of facilitating detachability thereof.
In accordance with a preferred embodiment of the present invention, there is provided a vacuum cleaner, including: an electric blower for generating suction air stream; a suction air inlet placed in front of the electric blower serving as an inlet of the suction air stream into a main body; a detachable dust chamber disposed to the rear of the electric blower; and a swivel caster and wheels for transporting the main body, wherein the swivel caster is placed in front of the electric blower.
In accordance with another preferred embodiment of the present invention, there is provided a vacuum cleaner, including: a main body having an electric blower for generating suction air stream, a dust chamber placed behind the electric blower, forming at least a part of a rear outer perimeter of the main body; and a pedestal having a descending slant toward a front portion of the main body, wherein the bottom surface of the dust chamber formed with the main body is detachably supported on the pedestal.
The above and other objects and features of the present invention will become apparent from the following description of preferred embodiments given in conjunction with the accompanying drawings, in which:
A first preferred embodiment will now be described with reference to
The dirt-laden air is suctioned and travels from suction air inlet 13 through suction air path 15 and into substantially cylindrical dust chamber 14, at which time the dust is filtered by filter 16, and subsequently, only the air free of dust leaves therefrom. The filtered dust is accumulated in dust chamber 14, whereas the dust-free air travels to electric blower 11 through air passage 17.
Swivel caster 18 having rotatable roller 18a is rotatably installed on a front bottom surface of main body 10 between suction air inlet 13 and electric blower 11. Furthermore, a pair of wheels 19 are rotatably installed to the lateral faces of the rear portion of main body 10.
Above dust chamber 14, there is provided cord retracting chamber 21 that is tilted toward suction air inlet 13, for storing therein electrical power cord 20.
Hereinafter, an operation of the vacuum cleaner described above will now be explained in detail.
Referring to
Furthermore, such configuration significantly reduces load concentration of the collected dust on swivel caster 18, and thereby improving the maneuverability of the vacuum cleaner on carpet.
The axis of rotation 23 of wheels 19 is located in dust chamber 14, in front of central axis 22 thereof, so that the center of dust chamber 14 is positioned behind wheels 19. Therefore, the load of dust chamber 14 distributed to swivel caster 18 is significantly reduced, and further, the distance between swivel caster 18 and dust chamber 14 is increased, enabling to further reduce the load that acts on swivel caster 18.
Referring to
Referring to
Handle 27 is provided at the back side of dust chamber 14, and provided on top of handle 27 is clamp 28. Seamlessly formed with the lower end of clamp 28 is clamp spring 29 of an approximate c-shape, enabling a vertical sliding motion.
Furthermore, protruding portion 30 is formed on top of clamp 28 to be detachably inserted into or mated with recess 31 provided in cord retracting chamber 21 that is disposed above dust chamber 14, allowing dust chamber 14 to be secured in main body 10. By simply placing dust chamber 14 on pedestal 26, dust chamber 14 can be slidably inserted in place by its own weight in the direction of an arrow, and thus can be easily mounted in main body 10, thereby lessening the labor required in restoring dust chamber 14 into main body 10 and thus providing greater convenience to the user. The forwardly tilted configuration of support 25 enables the exposed outer perimeter of dust chamber 14 to be viewed rather easily by the user, thereby facilitating the observation of the dust collected therein. Moreover, since dust chamber 14 is held by protruding portion 30 of clamp 28 engaged with recess 31 provided at a lower surface of cord retracting chamber 21, clamp 28 is accessible with a thumb while gripping handle 27, and therefore clamp 28 can be triggered with a thumb to disengage dust chamber 14 from main body 10.
Referring to
Furthermore, guiding protrusion 32 is tapered, i.e., gets wider roughly from the center thereof toward the front (along the inserting direction of dust chamber 14), and gradually narrows in the upper direction, forming a trapezoidal cross section. There is provided a small clearance between guiding protrusion 32 and its corresponding guiding groove 33 formed at the bottom surface of dust chamber 14. As shown in
As shown in
By placing dust chamber 14 in the rear portion of main body 10, loading and unloading of dust chamber 14 can be carried out without interference with components of the vacuum cleaner, such as hose 12 connected with suction air inlet 13 in the front portion of main body 10, thereby facilitating placing of the dust chamber into and out of main body 10. In addition, by having a downward slant of pedestal 26 toward the front thereof and joining pedestal 26 with the rear wall of main body 10, the loading and unloading of dust chamber 14 into and out of main body 10 becomes further facilitated.
As another added advantage, guiding protrusion 32 and corresponding groove 33 formed in pedestal 26 and dust chamber 14, respectively, assist in securely loading and unloading dust chamber 14 into and from a designated portion of main body 10.
As described above, tapered guiding protrusion 32 gets wider from around the center toward the front of pedestal 26 (in the direction of insertion of dust chamber 14) and gradually narrows in the upper direction to form a generally trapezoidal cross section and the bottom surface of dust chamber 14 is provided with guiding groove 33 formed corresponding to guiding protrusion 32 with certain clearance. Therefore, positioning of dust chamber 14 when being set against pedestal 26 for the restoration thereof can be readily accomplished by simply mating narrow portion of guiding protrusion 32 with the wide portion of guiding groove 33, and then by simply sliding dust chamber 14 into main body 10, dust chamber 14 can be self-aligned to put into the correct sitting position, adding greater convenience.
Referring to
Referring to
Hereinafter, an operation of the above-described vacuum cleaner will be explained in detail. Plug 38 of cord 20 is easily visible to the user since plug 38 is also inclined upwardly, and further, cord 20 can be easily extracted from and retracted to cord release outlet 37 since plug 38 is disposed in the upper region of main body 10, adding greater convenience.
Seamlessly formed with cord reel cover 35 is guide wall 39. Guide wall 39 is of a protruding structure surrounding plug 38 on the exterior of main body 10 around cord release outlet 37. Under such configuration, guide wall 39 prevents the prongs of plug 38 from damaging the floor, when main body 10 is overturned. The seamless design of guiding wall 39 enables to prevent such damages caused by the prongs, without increasing the number of parts.
Further, by forming guiding wall 39 on main body 10 only to cover the upper and the lateral sides of the plug 38, whiplash created in the upper and lateral direction while retracting cord 20 can be minimized, thereby preventing injuries associated therewith.
Moreover, as illustrated in
While the invention has been shown and described with respect to the preferred embodiment, it will be understood to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims.
Number | Date | Country | Kind |
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2002-132690 | May 2002 | JP | national |
2002-173748 | Jun 2002 | JP | national |
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Number | Date | Country |
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6215207 | Apr 1987 | JP |
Number | Date | Country | |
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20030208875 A1 | Nov 2003 | US |