CN103892772A - Vacuum cleaner - Google Patents

Abstract

The invention discloses a vacuum cleaner, to be specific, discloses a vacuum cleaner comprising a main body; a fan motor, which is disposed in the main body to suck the air; a suck-in nozzle part, which is used to guide the air to the inner side of the main body; a dust container used for storing the dust removed from the guided air; and a vibration plate, which is horizontally disposed on the lower part of the suck-in nozzle part. The vibration plate can be used to apply the vibration onto the floor, and the vibration plate can be visibly exposed from the vacuum cleaner on the operation position.

Description

Vacuum cleaner

The application advocates the rights and interests of the korean patent application 10-2012-0155273 submitting on December 27th, 2012, and it is incorporated herein by reference in full.

Technical field

The present invention relates to dust catcher, relate more specifically to vacuum cleaner.

Background technology

Thereby can being defined as being wherein provided with fan electromotor, vacuum cleaner filters out the device of dust to suck extraneous air and dust.Vacuum cleaner is commonly called dust catcher.

Dust catcher is divided into substantially: bucket formula vacuum cleaner (wherein body and inlet nozzle interconnect by extension tube); And vertical type dust collector (wherein body is connected directly to inlet nozzle).

Hand held cleaner (wherein whole body of dust collector is by user's handling) as portable dust collector is widely used.

In recent years, along with the raising of the standard of living, bring into use the bedding dust catcher that can clean bedding.Bedding dust catcher is also a kind of hand-held cleaners, but different from typical hand-held cleaners, and it can be provided with oscillating plate, so that vibration is applied to bedding.

Hand-held cleaners is usually designed to easy cleaning part object.Therefore, user can not need to take uncomfortable posture to hold this hand-held vacuum cleaner.Bucket formula vacuum cleaner and upright vacuum cleaner are also this situations, and it is clean that this makes user carry out without bending over.

In the time that user cleans bedding with bedding dust catcher, clean whole bedding need the plenty of time conventionally.Therefore may be, a problem because user carries out the inconvenience that the posture taked when clean causes.

Referring to figs. 1 through 3 in detail, traditional dust catcher, especially bedding dust catcher will be described.

Bedding dust catcher 1 can comprise upper body 2, handle 3, nozzle body 5 and lower body 4.Nozzle body 5 is with ground, be arranged in parallel with bedding particularly, and the clean of bedding carried out by nozzle body 4.

Nozzle body 5 can be provided with the nozzle 6, oscillating plate 7 and the agitator (agitator) 8 that suck extraneous air.Vibration is applied to bedding to oscillating plate 7 so that the dust ascension of bedding, and agitator 8 cleans the lip-deep dust of bedding.Therefore, the operation by oscillating plate 7 with agitator 8, bedding are more effectively cleaned.

Lower body 4 extends back and then substantially parallel ground from nozzle body 5.The body of dust catcher can form by the top and the nozzle body 5 that upper body 2 are connected to lower body 4.

Lower body 4 is provided with roller bearing 9 so that dust catcher is supported on the ground.By roller bearing 9 and agitator 8, dust catcher can be supported on ground or bedding substantially.

As shown in Figure 3, user holds handle 3 and moves forward and backward dust catcher to clean bedding.

But as seen in Fig. 3, traditional bedding dust catcher is not high.Therefore, user need to bend over to clean bedding for a long time.

In addition, due to the position difference between upper body 2 and the handle 3 of dust catcher, be difficult for power to be applied to ground or bedding.During clean, user can only before and after firmly, therefore nozzle body 5 may be not tightly kiss the earth or bedding.Thus, because vibration is not put on bedding fully, may not be effectively executed so clean.

In order to increase the height of dust catcher, the position of handle 3 can raise.But in this case, the upper body 2 of dust catcher extends along fore-and-aft direction, therefore the shape of upper body 2 may not mated the shape of handle 3.Thus, due to compared with the upper body 2 of dust catcher, handle 3 raises too highly, so the overall appearance of dust catcher may be not attractive in appearance.

In addition, upper body 2 and handle 3 arrange separately and interconnect.Therefore, the height that increases handle 3 can increase the overall dimensions of the external shape of dust catcher, the inconvenience that causes operation and preserve dust catcher.

In order to ensure stable motion, the center of gravity of dust catcher is between agitator 8 and roller bearing 9.But, because the center of gravity of dust catcher approaches very much ground, can increase with the distance of the moment of the power of moving dust collector to putting on handle 3 from center of gravity.For this reason, as discussed above, nozzle body 5 is not tightly kiss the earth or bedding.

In addition, due to lower body 4 and nozzle body 5 be flatly arranged to ground corresponding, so dust catcher clean advance and may be not easy.This is to approach ground because the section directly related with cleaning section of dust catcher becomes.In other words, this configuration may be unfavorable for increasing the area of cleaning area, the i.e. area of nozzle body 5.Therefore, effectively clean travel distance per hour may shorten.This finally causes cleaning time elongated.

In the dust catcher 1 shown in Fig. 3, the bending several times of stream, cause air drag to uprise.

First the air of introducing by air-guide part 11 flows into dust receptacle 12.In air-guide part 11, air is guided to, then backward, and then upwards.The air that is introduced into dust receptacle 12 is discharged backward from dust receptacle, is then introduced into fan electromotor 13.After being introduced into fan electromotor 13, air is discharged to outside by a side (pointing to the side of paper) of fan electromotor 13.

Due to the structure of above stream, at the Bas Discharged that is introduced into dust catcher, in outside, the flow direction of air changes continually.Therefore, noise increases, and cannot carry out clean stably.In addition, additional constituent may be further set and shield noise, therefore the fan electromotor cell structure of accommodating fan electromotor may become complicated.

Fig. 4 illustrates the vibrational system of the conventional cleaners that drives the oscillating plate 7 shown in Fig. 2.

In the time that motor 14 rotates, the revolving force of generation is via being with 15 to be passed to reduction gearing 16.Therefore, the rotation of motor does not produce vibration.

Especially, by being with 15 to strengthen torque, produce vibration by capacity eccentric bearing 17.The vibration producing is delivered to oscillating plate 7 via connecting elements 18.Connecting elements 18 is flexibly supported by nozzle body 5 by elastic component 19.Therefore, between motor 14 and oscillating plate 7, produce complicated syndeton.

This syndeton makes the air flow circuit complexity in inlet nozzle portion.In addition, because complicated composition portion is more, so the durability of dust catcher may be degenerated.Owing to also having increased the structure that keeps capacity eccentric bearing 17 except the structure of fixed electrical machinery, so the manufacture of dust catcher becomes complexity.

Therefore, need to provide a kind of dust catcher that can easily implement and strengthen the vibrational system of durability, reliability and vibrating effect that has.

Oscillating plate 32 can be that vibration is applied to bedding more effectively to clean the composition portion of bedding.

As depicted in figs. 1 and 2, the in the situation that of conventional cleaners, oscillating plate 7 does not expose.Therefore, user checks whether oscillating plate 7 normally operates, applied great vibration and oscillating plate 7 articles for use ascension from the bed goes out how many dusts possibility difficulties.This is because oscillating plate 74 is arranged on the bottom of dust catcher 1 and locates very lowly.

User may wish visually to check whether oscillating plate 32 applies vibration to bedding very much.Therefore, need to provide a kind of user's of meeting vision and the dust catcher that the imagination is expected.

In addition, need to provide a kind of oscillating plate of protecting not damaged by external impact and allow oscillating plate to be fixed firmly to the dust catcher of dust catcher.

Summary of the invention

Therefore, the present invention relates to substantially eliminate the dust catcher of the one or more problems that cause because of restriction and the defect of prior art.

The object of this invention is to provide a kind of dust catcher that can easily implement and strengthen the vibrational system of durability and reliability that has.

Another object of the present invention is to provide a kind of dust catcher, and this dust catcher can be by allowing motor oscillating and the vibration that the vibration of motor converts oscillating plate to being improved to vibrating effect.

Another object of the present invention is to provide a kind of dust catcher of simplifying and being conducive to fixing vibrational system.

A further object of the present invention is to provide and a kind ofly can makes two vibration plate vibrates improve the dust catcher of cleaning effect by a vibrating motor.

Another object of the present invention be to provide a kind of can be by vibrating motor being positioned on suction inlet and easily maintain the dust catcher of two balances between oscillating plate.

Another object of the present invention is to provide a kind of inconvenience thereby easy-to-use dust catcher of bending over during clean of minimizing.

A further object of the present invention be to provide a kind of can by making spray nozzle part, kiss the earth or bedding improve the dust catcher of cleaning effect more closely.

Another object of the present invention is to provide a kind of advance stability thereby easy-to-use dust catcher of guaranteeing during clean.

Another object of the present invention be to provide one can by guarantee air in dust catcher more smooth flow improve cleaning efficiency and fall low noise dust catcher.

Another object of the present invention is to provide a kind of user of permission and visually checks the operation of oscillating plate and therefore use dust catcher easy and that reliability strengthens.

Another object of the present invention is to provide a kind of breakage, damage, distortion and disengaging that can effectively prevent oscillating plate and also therefore strengthens durability and dust catcher easy to use.

In the time that following content is tested, a part for attendant advantages of the present invention, object and feature will be stated in the following description, and become apparent to those skilled in the art to a certain extent, or can acquire from the practice of the present invention.By the structure specifically providing in description, claims and accompanying drawing, can expect and obtain object of the present invention and other advantage.

In order to realize these objects and other advantage, according to object of the present invention, as specifically explained and generalized description at this, a kind of vacuum cleaner comprises: main body; Fan electromotor, is arranged in described main body, with air amount; Inlet nozzle portion body, is directed to the air of introducing the inside of described main body; Dust receptacle, stores the dust filtering the air from introducing; And oscillating plate, the lower horizontal of described inlet nozzle portion body arrange with corresponding to ground, described oscillating plate applies vibration earthward, and wherein at the operating position of described vacuum cleaner, described oscillating plate is visually exposed to the outside of described vacuum cleaner.

Preferably, the outside shape of described oscillating plate is corresponding to the outside shape of described inlet nozzle portion body.

Preferably, described oscillating plate comprises: bottom, and corresponding with object to be cleaned; And side direction portion, upwards extend from described bottom, wherein, by described side direction portion, described oscillating plate is visually exposed to the outside of described vacuum cleaner.

Bottom is for directly applying vibration to bedding.Side direction portion is vibrated together with bottom, and its height can be greater than the thickness of bottom substantially.For example, side direction portion can have the height that is equal to or greater than 5mm.Therefore, side direction portion is substantially not used in to bedding and applies vibration, but to the exterior visual of dust catcher show vibration.

Preferably, described side direction portion is inwardly positioned to leave the predetermined length place of the outside (radially) of described inlet nozzle portion body.Therefore, a plate of wall or bed can not collide in side direction portion.Preferably, side direction portion is along with described side direction portion upwards extends and outwards (radially) expansion.

Preferably, between described bottom and described side direction portion, be furnished with bend.

Preferably, described inlet nozzle portion body comprises: vertical walls outside top; And vertical walls outside bottom, be positioned at vertical walls outside described top bottom (radially) inner side, to avoid interfering the vertical motion of described oscillating plate.

Preferably, described oscillating plate can comprise: bottom, and corresponding with object to be cleaned; And side direction portion, upwards to extend from described bottom, the top of wherein said bottom is outside described top outside vertical walls and described bottom between vertical walls.

Described inlet nozzle portion body can comprise the ribs of (radially) inner side that is arranged on described side direction portion, makes the outside of described ribs and described side direction portion separate predetermined distance.

Preferably, described ribs can be from described bottom (radially) inner side of the bottom of vertical walls to downward-extension.

In vibration operating period, prevent the interference mutually due to structure of inlet nozzle portion body and oscillating plate.In addition, when oscillating plate runs off admissiblely when mobile because external impact moves, can protect it not to be subject to the damage of external impact.

Vacuum cleaner can also comprise elastic component, described oscillating plate is flexibly supported on described inlet nozzle portion body.

Elastic component is the peak swing of constrained vibration plate not only, and protects oscillating plate not to be applied to the damage of the external force of oscillating plate by absorbing external force.

Vacuum cleaner can also comprise: vibrating motor, is positioned at the top of described inlet nozzle portion body; Connecting hole, is set to described inlet nozzle portion body; And connecting elements, be arranged to through described connecting hole, so that the vibration producing by described vibrating motor is delivered to described oscillating plate.

Elastic component can run through described connecting hole and can be fixed to described connecting hole.

Elastic component comprises the fixed part that is fixed to described connecting hole and the connecting portion that is connected to described connecting elements.

Fixed part can comprise the flange inserting for the upper and lower at the edge of described connecting hole, and described connecting portion comprises the through hole that is formed on the radially inner side of described flange and is passed by described connecting elements.

Preferably, vacuum cleaner also comprises pressing member, and described pressing member is incorporated into described inlet nozzle portion body, to exert pressure to described fixed part, thereby prevents that described fixed part from departing from from described connecting hole.

In another program of the present invention, a kind of vacuum cleaner comprises the body of inlet nozzle portion, the body of described inlet nozzle portion is flatly formed as corresponding ground and is provided with the suction inlet from floor suction, wherein said inlet nozzle portion can comprise: the body of inlet nozzle portion, forms the most external of described inlet nozzle portion; And oscillating plate, be arranged on the bottom of the body of described inlet nozzle portion, to apply earthward vibration, the side direction portion of wherein said oscillating plate is positioned at the predetermined length place of outermost (radially) inner side of the lateral surface of described inlet nozzle portion, and can visually be exposed to the outside of described vacuum cleaner.

Oscillating plate can be set to each front and rear of described suction inlet.

Preferably, the body of inlet nozzle portion comprises the ribs that is arranged on described side direction portion (radially) inner side, makes the outside of described ribs and described side direction portion separate predetermined distance.

The body of inlet nozzle portion comprises: vertical walls outside top, forms the most external of described inlet nozzle portion; And vertical walls outside bottom, be positioned at vertical walls outside described top bottom (radially) inner side, to avoid interfering the vertical motion of described oscillating plate.

Vacuum cleaner can also comprise elastic component, described oscillating plate is flexibly supported on the body of described inlet nozzle portion.

Vacuum cleaner can also comprise the pressing member that is independent of described elastic component, and described pressing member is attached to the body of described inlet nozzle portion, to exert pressure to described elastic component, thereby prevents that described elastic component from departing from from the body of described inlet nozzle portion.

In another scheme of the present invention, a kind ofly carry out the vacuum cleaner of dust suction and comprise by applying vibration: motor, the eccentric load of the rotating shaft by putting on described motor causes vibration; Oscillating plate, is applied to object to be cleaned by vibration; And vibration transfer member, the vibration of described motor is delivered to described oscillating plate.

Eccentric load can utilize the eccentric weight that is connected to rotating shaft to realize.By the rotation of eccentric weight, can produce tangentially in the power of the direction of the circumference of rotation, whole motor can vibrate by this power.

Vibration transfer member can comprise the motor holding part of accommodating this motor and motor holding part is connected to at least one connecting elements of oscillating plate.

Connecting elements can be arranged to the vibration of motor and motor holding part to be delivered to oscillating plate.Especially, connecting elements can be arranged to the vibration of motor and motor holding part to be converted to limited the rotatablely moving of angle of rotation, thereby transfers vibrations to oscillating plate.In order to limit angle of rotation, elastic component can be set.

Preferably, motor holding part is provided with at least one articulation pivot, and connecting elements is rotationally attached to this articulation pivot.

Preferably, connecting elements is formed as extending to from articulation pivot front side and the rear side of this articulation pivot.

Preferably, the front and rear limiting with respect to articulation pivot of connecting elements vibrates along alternate directions.

Articulation pivot be preferably arranged on motor rotating shaft bottom and separate with rotating shaft.Articulation pivot is located from rotating shaft forward or backward prejudicially along the horizontal direction of the rotating shaft of motor.

Due to the eccentric relation between rotating shaft and the articulation pivot of motor, produce revolving force at articulation pivot place.In addition, the direction of revolving force alternately.Therefore, such revolving force causes the rotation of connecting elements, causes the end vertical motion of connecting elements.

The both sides (left side and right side) of motor can arrange at least one articulation pivot, and at least one connecting elements can be set to each at least one articulation pivot.

At least one articulation pivot can comprise two articulation pivot that arrange coaxially, and independent oscillating plate can be arranged on the both sides of each articulation pivot and be connected to that the corresponding connecting elements at least one connecting elements.Therefore, can make two vibration plate vibrates with a motor.In addition, vibrational system can the bilateral symmetry of motor form.

Therefore,, by increasing vibration area, can further strengthen by the cleaning effect of vibration.In addition, owing to can making vibration quantity per second double, so clean effect can further strengthen.

Preferably, vacuum cleaner further comprises the inlet nozzle portion body that is formed as corresponding ground, and wherein motor and oscillating plate and connecting elements are flexibly supported by body by elastic component.

Elastic component can be arranged between connecting elements and body and fix, and the amplitude of the vertical motion of oscillating plate can be limited by the elastic force of elastic component.

Another program of the present invention, vacuum cleaner can comprise inlet nozzle portion, with by vibration is applied to object and dust suction.Inlet nozzle portion comprises the inlet nozzle portion body and the vibrational system that are provided with suction inlet, vibrational system comprises that the eccentric load of the rotating shaft by being applied to motor causes the motor of vibration and vibration is applied to at least one oscillating plate of object, and wherein vibrational system can flexibly be supported by inlet nozzle portion body with respect to the direction of vibration of oscillating plate.

At least one oscillating plate can be set to respectively suction inlet above and the back side.

At least one oscillating plate can vibrate along alternate directions.

Vibrational system can comprise motor holding part, is set at least one articulation pivot of motor holding part and extends to front side and the rear side of articulation pivot and be connected at least one connecting elements of oscillating plate.

At least one articulation pivot can be arranged on the both sides (left side and right side) of motor holding part, and independent oscillating plate is arranged on the forward and backward side of motor holding part and is connected to connecting elements.Therefore, oscillating plate can vibrate along alternate directions.

Vacuum cleaner preferably includes articulation pivot fixed component, so that articulation pivot is fixed to body.By this articulation pivot fixed component, can constrained vibration motor and the translational motion of motor holding part.This is because the power of this direction, the power of carrying out translational motion can be converted to revolving force at articulation pivot place.

Motor holding part can comprise motor placement portion and spacing member, and this spacing member, in order to form articulation pivot, can separate with motor placing portion articulation pivot.

Motor holding part can comprise the motor placement portion that is attached to spacing member, to cover motor placement portion and to separate with motor placing portion.

Vacuum cleaner can also comprise that permission user applies power to handle the handle of this vacuum cleaner.

Another program of the present invention, vacuum cleaner can comprise the inlet nozzle portion of corresponding ground that is flatly formed as, extend back and acclivitous fan electromotor installation portion and be attached to the top of inlet nozzle portion and the body cap of motor mounting part from inlet nozzle portion.

Preferably, inlet nozzle portion and fan electromotor installation portion form one mutually to form single matrix.

Vibrating motor can be arranged on the top of the corresponding inlet nozzle portion of matrix (the first matrix), and the oscillating plate that the vibration that vibrating motor is produced is applied to ground can be arranged on the bottom of the first matrix.

For the battery of dust catcher power supply can be arranged on the top of the first matrix.Dust catcher is optionally configured to power supply interconnection system or rechargeable.Therefore,, no matter dust catcher is power supply interconnection system or rechargeable, the battery placement portion of settling battery can be set.

In the situation that battery is placed in battery placement portion, be embodied as charging type vacuum cleaner.In the situation that battery is not interposing at battery placement portion, be embodied as power supply interconnection system dust catcher.The in the situation that of power supply interconnection system dust catcher, need to power line be set and be dust catcher power supply.

Herein, battery placement portion is preferably arranged on the front upper part of the first matrix.Thus, the center of gravity of dust catcher can be to prelocalization.

The matrix (second matrix) corresponding with fan electromotor installation portion is preferably formed as along with the second matrix extends back and increases at a distance of the height on ground.

Fan electromotor is preferably set to the matrix corresponding with fan electromotor installation portion (the second matrix), and the central shaft of fan electromotor is obliquely arranged with respect to ground.That is, fan electromotor is oblique second matrix that is set to preferably, and the second matrix obliquely arranges.Thus, can form the stream substantially parallel with the diagonal of body.

Except ground inlet nozzle portion, dust catcher can comprise and is arranged on the rear side of inlet nozzle portion and the bottom of fan electromotor installation portion to support the support member of dust catcher.

The center of gravity of bedding dust catcher preferably with respect to support member to prelocalization.Support member preferably includes Support bracket and at least one and is set to the wheel of Support bracket.A wheel can be set, but consider the lateral position of center of gravity, two wheels are preferably set in the both sides of dust catcher.

In order to compensate the difference in height between fan electromotor installation portion and ground, Support bracket is preferably from fan electromotor installation portion to downward-extension.Support bracket is preferably only from a part for the lateral width of the second matrix to downward-extension, to minimize the region of Support bracket kiss the earth.That is to say, Support bracket is preferably only from a part for the side direction central part of matrix to downward-extension.

Preferably, the center of gravity that fan electromotor is arranged on fan electromotor installation portion place is positioned at the front upper of wheel, and the center of gravity of dust catcher is vertically positioned the top of fan electromotor installation portion with respect to ground.

Dust catcher can comprise that permission user applies power to handle the handle of dust catcher.

Another program of the present invention, vacuum cleaner can comprise the inlet nozzle portion of corresponding ground that is flatly formed as, the body that its height is increased along with extending back of extending back and be inclined upwardly from the top of inlet nozzle portion, be set to body with allow user apply power handle, be installed to the dust receptacle of body and be arranged on body and be arranged on dust receptacle below with the fan electromotor of dust suction, the air flow circuit that wherein extends to fan electromotor from dust receptacle can be formed as along with stream extends back and is inclined upwardly body.

Dust receptacle can be installed to body and separate from body along the direction perpendicular to the incline direction of body substantially.

Dust catcher can comprise air-guide part, and upside guiding in order to the air of introducing from inlet nozzle portion, makes air be supplied to dust receptacle.Air-guide part is preferably along with air-guide part extends back and is inclined upwardly from suction inlet.Thus, vibrating motor can be positioned on suction inlet.

Because suction inlet forms in fact inlet nozzle Bu center, so can easily maintain the balance between the oscillating plate of the forward and backward side that is set to inlet nozzle portion.This is because vibrating motor is arranged on the center of inlet nozzle portion, and vibrational system can be embodied as and make the front and rear of the vibrational system limiting with respect to vibrating motor symmetrical.

Dust receptacle can comprise dust receptacle outlet, and it is communicated with fan electromotor and is arranged to the incline direction perpendicular to body substantially; And dust receptacle entrance, it is communicated with air-guide part and is arranged to and tilts manyly than dust receptacle outlet towards inlet nozzle portion.

Fan electromotor is preferably placed to body, and its rotating shaft is the inclination with corresponding body with respect to ground inclination.Thus, can form the air flow circuit corresponding with the inclination of body.

Preferably, introduce the Bas Discharged of fan electromotor to the top of fan electromotor, then discharge by the bottom lateral side of body.

Except the inlet nozzle portion resting on the ground, dust catcher can comprise and is arranged on the rear side of inlet nozzle portion and the bottom of the body support member with supporting bed Bed linens dust catcher.

Handle is preferably arranged on the upper back of body.Handle is preferably formed as having round handle.In addition, apply the direction of power by handle preferably parallel with the incline direction of body.

Handle can be by running through body setting, and can form one with body.

Body can comprise and limits the first matrix of inlet nozzle portion, extend back and acclivitous the second matrix, be installed to the fan electromotor of the second matrix and be attached to the first matrix and the body cap of the upside of the second matrix from body.

Preferably, the body outlet of discharge air is set to the both sides of the second matrix.

Preferably, dust catcher comprises and is set to inlet nozzle portion to apply earthward the oscillating plate of vibration.

Oscillating plate is preferably placed at the position of dust catcher operation, thereby is visually exposed to the outside of dust catcher.Thus, user can easily check clean whether normally execution.Therefore, can strengthen clean reliability and the reliability of product.

Another program of the present invention, vacuum cleaner can comprise inlet nozzle portion, it is provided with oscillating plate in the front and back of suction inlet of introducing extraneous air, and with respect to ground level form; Body, extends back and is inclined upwardly from the top of inlet nozzle portion, makes its height at a distance of ground along with body extends back and increases, and is provided with dust receptacle and fan electromotor in body; And support member, be arranged on the rear side of inlet nozzle portion to separate with inlet nozzle part, and the extension that faces down towards ground from the bottom of body is to support inlet nozzle portion and body, makes inlet nozzle portion and body not in contact with the ground.Preferably, inlet nozzle portion is formed as circle.

Preferably, dust catcher comprises handle, and this handle is set to the upper back of body, and the power that bedding dust catcher is advanced that user is applied is parallel with the incline direction of body.

Except the combination of alternative, embodiment described herein can be combined into any combination.Therefore, the effect of embodiment is also capable of being combined.

Should be understood that roughly description and following detailed description before the present invention are all exemplary and explanat, aim to provide advocated of the present invention further explanation.

Accompanying drawing explanation

Accompanying drawing is included to provide further to be understood the present invention, and is merged in and forms the application's a part, and these accompanying drawings show embodiments of the invention, and is used from and explains principle of the present invention with description one.In the drawings:

Fig. 1 is the stereogram that traditional bedding dust catcher is shown;

Fig. 2 is the upward view that the bedding dust catcher shown in Fig. 1 is shown;

Fig. 3 is the side sectional view that the bedding dust catcher shown in Fig. 1 is shown;

Fig. 4 is the stereogram that the vibrational system of the bedding dust catcher shown in Fig. 1 is shown;

Fig. 5 is the cutaway view that dust catcher according to an embodiment of the invention is shown;

Fig. 6 is the stereogram that the dust catcher shown in Fig. 5 is shown;

Fig. 7 is the three-dimensional exploded view that the main body of the dust catcher shown in Fig. 5 is shown;

Fig. 8 is the side sectional view that the dust catcher shown in Fig. 5 is shown;

Fig. 9 is the anterior three-dimensional cutaway view that the dust catcher shown in Fig. 5 is shown;

Figure 10 is the stereogram that the vibrational system of the dust catcher shown in Fig. 5 is shown;

Figure 11 is the cutaway view that the vibrational system of the dust catcher shown in Figure 10 is shown;

Figure 12 is the plane that the vibrational system of the dust catcher shown in Figure 10 is shown, this vibrational system is provided with oscillating plate;

Figure 13 is the partial perspective view that the top of the inlet nozzle portion of the dust catcher shown in Fig. 5 is shown;

Figure 14 is the stereogram that the motor holding part of the vibrational system shown in Figure 10 is shown;

Figure 15 is the partial perspective view that the bottom of the inlet nozzle portion of the dust catcher shown in Fig. 5 is shown;

Figure 16 is the partial sectional view that the inlet nozzle portion shown in Fig. 5 is shown;

Figure 17 is the partial perspective view that the inlet nozzle portion that comprises pressing member is shown; And

Figure 18 is the cutaway view that the elastic supporting member for supporting optical member of the dust catcher shown in Fig. 5 and the structure of pressing member are shown.

The specific embodiment

Now will be specifically with reference to the preferred embodiments of the present invention, its example is shown in the drawings.Possible in the situation that, in accompanying drawing, identical Reference numeral will be used to refer to same or analogous parts of generation.

Describe according to the dust catcher 200 of an embodiment below with reference to Fig. 5 to Fig. 7.

Dust catcher 200 comprises body or main body 20.That is to say, dust catcher 200 comprises the main body 20 of the overall exterior shape that forms dust catcher.Main body 20 is preferably with respect to ground inclination.That is to say, the center line S of main body 20 recedes with respect to ground.Thus, main body 20 with respect to the height on ground along with main body 20 extends back and increases.

Angle α between center line S and ground preferably between 30 ° and 50 °, more preferably approximately 40 °.If angle increases to this more than scope, the center of gravity of dust catcher can raise too highly.If this angle is reduced to this below scope, dust catcher can face the problem identical with traditional dust catcher.

Dust catcher 200 comprises inlet nozzle portion 25, and it flatly arranges with corresponding ground or flatly places bedding in bed.That is to say, inlet nozzle portion 25 is corresponding to cleaning area.Therefore, inlet nozzle portion 25 forms the front bottom of main body 20.In other words, main body 20 preferably extends back and is inclined upwardly from the top of inlet nozzle portion 25.

The bottom of main body 20 can be defined as matrix 22.Therefore, the front portion of matrix 22 can be defined as inlet nozzle portion body or the first matrix 23.In other words, the matrix 22 corresponding with inlet nozzle portion 25 can be defined as the first matrix 23.

The second matrix 24 can be formed as along with it extends back and be inclined upwardly from the first matrix 23.In other words, the front portion of matrix 22 can be defined as the first matrix 23, and the rear portion of matrix 22 can be defined as the second matrix 24.

Thus, the first matrix 23 can be formed as parallel to the ground, and the second matrix 24 can extend back and increase along with the second matrix 24 at a distance of the height on ground.Preferably, the inclination angle between the second matrix 24 and ground is substantially equal to the inclined angle alpha between center line S and the ground of main body 20.Preferably, the second matrix 24 is along with it extends back and tilt continuously from the first matrix 23.

The bottom that support member 70 can be set to the second matrix 24 is with respect to ground supports main body 20.In addition, handle 80 can be set to the rear upside of main body 20.

User can grasps handle 80 and dust catcher is applied to power, and the inlet nozzle portion 25 of dust catcher is moved forward and backward in intimate contact with bedding.

Main body 20 can comprise the body cap 21 that forms its top.Body cap 21 can be attached to matrix 22 to limit inner space.Various composition described below portion can be arranged in inner space.

Fig. 6 illustrates body cap 21 and matrix 22, and they are separated from each other.

Dust catcher 200 can comprise to be arranged to inlet nozzle portion 25 parallel to the ground and to extend back and acclivitous fan electromotor installation portion 26 from inlet nozzle portion 25.

Inlet nozzle portion 25 can integrate to form matrix 22 with fan electromotor installation portion 26.

Matrix 22 can comprise first matrix 23 corresponding with inlet nozzle portion 25 and second matrix 24 corresponding with fan electromotor installation portion 26.Therefore, the second matrix 24 preferably forms one with the first matrix 23.In addition, the second matrix 24 is preferably along with it extends back and be inclined upwardly from the first matrix 23.

Body cap 21 is arranged on the top of matrix 22.Body cap 21 is attached to matrix 22 to form the overall appearance of dust catcher.

The shape of body cap 21 is preferably mated the shape of matrix 22.Therefore, body cap 21 is preferably formed as along with it extends back and is inclined upwardly.

Dust receptacle 90 can be installed by the angled front of body cap 21.Preferably, the installation direction of dust receptacle 90 is vertical with the incline direction of dust catcher 200 substantially.Thus, as discussed below, in dust receptacle 90, can produce air-flow more stably.

Preferably, the first matrix 23 is provided with vibrational system 30.Vibrational system 30 can involving vibrations motor 31 and oscillating plate 32.

Vibrating motor 31 can be arranged on the top of the first matrix 23, and oscillating plate 32 can be arranged on the bottom of the first matrix 23.In other words, inlet nozzle portion 25 can be provided with vibrating motor 31 and oscillating plate 32.The vibration that vibrating motor 31 produces is delivered to oscillating plate 32.Oscillating plate 32 is positioned to and vertical motion parallel with ground or bedding.Therefore, oscillating plate 32 is applied to bedding to separate the dust of bedding by vibration.

Power line 46 can be arranged on the back side of the second matrix 24.Therefore, the electric power of operation dust catcher can be fed to dust catcher by power line 46.

Because dust catcher 200 is applied in bedding dust catcher, so cleaning area can be corresponding with the region of bedding.Therefore, different from bucket formula dust catcher or vertical type dust collector, cleaning area can relative narrower.Therefore, power line can be relatively short.

According to the dust catcher 200 of this embodiment, battery (not shown) is optionally set, and power line 46 is not set.That is to say, power line 46 can omit, and changes installation battery into.Thus, in the time that dust catcher 200 is placed in charging station (not shown), battery is chargeable.Therefore, identical dust catcher is optionally configured to rechargeable or power supply interconnection system.

For arranging batteries is arrived to dust catcher, battery tray 41 can be arranged on the top of the first matrix 23.The battery of dust catcher power supply that is to say, for can be arranged on the top of the first matrix 23.For allowing optionally to lay battery, no matter dust catcher is rechargeable or power supply interconnection system, battery tray 41 all can be set.

Battery is heavier.Therefore,, according to the riding position of battery, the position of centre of gravity of dust catcher 200 can change.

As mentioned above, dust catcher at a distance of the height on ground along with dust catcher extends back and increases.Therefore,, for guaranteeing conveniently to advance, center of gravity need to be positioned at lower height and to reach.

For very effective stream is provided, battery can be installed to the top of the first matrix 23.

In addition, battery tray 41 be more preferably positioned at inlet nozzle portion 25 before.Thus, the center of gravity of dust catcher 200 can be positioned at further forward.Due to the installation site of battery, can further strengthen the stability of advancing.

As described below, can provide and substitute the power supply interconnection system dust catcher that recharges formula dust catcher.Namely, only in the time that being connected to power supply, carries out by power line 46 clean dust catcher.In the case, main body 20 is not equipped with battery, and therefore the center of gravity of dust catcher 200 can move to the rear of main body 20.

Hereinafter, describe particularly according to the center of gravity of the dust catcher of this embodiment and supporting construction with reference to Fig. 5 to Fig. 7.More specifically, by power supply interconnection system dust catcher but not recharge formula dust catcher (thering is the dust catcher of battery) and be described.

In the time that execution is clean, the body of dust catcher or main body 20 are supported by agitator 44 substantially.That is to say, dust catcher supports on the ground by the agitator 44 that is arranged on 25 places of inlet nozzle portion.

But main body 20 is formed as tilting to the rear of agitator 44, more particularly, along with its rear to agitator 44 is extended and is inclined upwardly.Therefore, the support member 70 of support dust catcher is preferably arranged on the rear side of agitator 44.

Support member 70 is preferably arranged on the bottom of rear side and the fan electromotor installation portion 26 of inlet nozzle portion 25.In other words, support member 70 is preferably set to the second matrix 24 rather than the first matrix 23.That is to say, the strong point being limited by support member 70 is positioned at the bottom with respect to ground of the second matrix 24.

Here, the center of gravity of dust catcher 200 is preferably located in the front side of support member 70.In addition, center of gravity is preferably located in the rear side of inlet nozzle portion 25.More specifically, it is above and be positioned at the front of the second matrix 24 and the strong point that the center of gravity of dust catcher 200 is preferably located in ground.

Therefore, the position relationship between the center of gravity of dust catcher 200, agitator 44 and support member 70 can make dust catcher 200 stably be supported and improve clean during the stability of advancing of dust catcher.Thus, can strengthen the convenience that uses dust catcher.

Support member 70 preferably includes Support bracket 71 and wheel 72.Wheel 72 is rotatably fixed to Support bracket 71.Wheel 72 can form the strong point that supports on the ground dust catcher 200 together with agitator 44.

For the difference in height between compensation fan electromotor installation portion 26 and ground, Support bracket 71 is preferably from fan electromotor installation portion 26 to downward-extension.That is to say, Support bracket 71 preferably extends earthward from the bottom of the second matrix 24.

As shown in Figure 6, Support bracket 71 is from a part for the lateral width of the second matrix 40 to downward-extension.The region of kiss the earth that this means Support bracket 71 is very little.

Therefore, can make to minimize with incoherent region, cleaning area (but have neither part nor lot in clean can kiss the earth or the region of bedding).

Wheel 72 can be arranged on Support bracket 71 left and right sides.In addition, the center of gravity of dust catcher can be between left and right wheel 72.Thus, in the time that dust catcher 200 is advanced, can prevent that dust catcher from rocking from side to side.Therefore, can carry out more stable cleaning.

When holding, user when handle 80 applies power to dust catcher 100, carries out advancing of dust catcher 100.

As shown in Figure 5, handle 80 is formed as circle.Therefore, handle 80 easily grasps and can alleviate wrist fatigue.

Especially, handle 80 is positioned at the upper back of body 20.For succinct design being provided and being conducive to grasp dust catcher, handle 80 preferably with body 20 one.For example, handle 80 can form by a part that runs through body 20.

More specifically, handle 80 can form by running through a part for body 20 shape of closed curve.Especially, handle 80 can be set to body cap 21.

The shape of handle 80 as above allows user, along the direction parallel with the incline direction of body, body 20 is applied to power with moving dust collector with position.That is to say, in order to move forward dust catcher, power not only can easily apply forward but also can apply downwards.This is because the power that along inclined direction applies can be divided into component forward and downward component.

The downward component of the power applying by handle 80 makes inlet nozzle portion 25 kiss the earth more closely.Therefore, can further strengthen clean effect.

Hereinafter, specifically describe the structure of the stream of dust catcher 200 according to an embodiment of the invention with reference to Fig. 8 and Fig. 9.

Air and dust by air-guide part 42 from ground or bedding be introduced into dust catcher 200.Air-guide part 42 can recede with respect to ground.

Air-guide part 42 can be connected to dust receptacle 90, to be communicated with dust receptacle 90., upside air-guide part 42 is directed to the air of introducing from inlet nozzle portion 25, makes air be supplied to dust receptacle 90.

Dust receptacle 90 can be placed to body 20 and depart from from body 20 along the direction perpendicular to the incline direction of body 20 substantially.

Dust receptacle 90 can comprise: for the chamber 91 of accommodating dust; Dust receptacle entrance 94, dust is introduced into by it; And dust receptacle outlet 95, dust is by its discharge.

Dust receptacle outlet 95 can be along the direction setting perpendicular to the incline direction of body 20 substantially.Dust receptacle outlet 95 can be formed as the form of through hole in mesh shape partition wall 93.In addition, the front side of partition wall 93 can arrange filter 92.Thus, can pass through filter 92 dust-separatings and air, air can export 95 via dust receptacle and be introduced into fan motor assembly 50.

Dust receptacle entrance 94 is communicated with air-guide part 42.In addition, dust receptacle entrance 94 more tilts towards inlet nozzle portion 25 than dust receptacle outlet 95.In other words, dust receptacle entrance 94 can more flatly tilt with respect to ground.

Due to the position relationship between air-guide part 42, dust receptacle entrance 94 and dust receptacle outlet 95, air flows substantially backward along the direction tilting.The direction that in other words, can prevent significantly stream side direction, vertical and longitudinally on change.

In addition it is unanimous on the whole that, such air-flow direction and air stream enter the direction of fan motor assembly 50.Therefore, air can be sucked smoothly, and can minimum airflow resistance.

Preferably, fan motor assembly 50 is installed to fan electromotor installation portion 26.Fan electromotor installation portion 26 can be set to sweptback the second matrix 24.Therefore, fan motor assembly 50 is preferably installed to fan electromotor installation portion 26 to recede.That is to say, the central shaft of fan motor assembly 50 is preferably unanimous on the whole with the center line S of body 20.

Due to the riding position of fan motor assembly 50, the path direction in body 24 can be parallel or consistent substantially with the center line S of body 20.In addition,, due to the riding position of fan motor assembly 50, the central shaft of the fan electromotor 51 passing air into is also with respect to ground inclination.

The air of discharging from dust receptacle outlet 95 is introduced into the motor room 52 and 53 that surrounds fan electromotor 51 via filler (packing) 55. Motor room 52 and 53 can comprise 52He Xia motor room of motor room 53.Therefore, upper motor room 52 is attached to lower motor room 53 to limit inner space, and fan electromotor 51 can be arranged in inner space.

Motor room 52 and 53 can be used as guiding piece, the air of introducing this chamber is directed to the discharge direction of air.

Filter 54 can be set to the top of motor room 52.That is to say, filter 54 can be arranged to finally filter out the very small dust in body 20.

The air of discharging via filter 54 can move down from two lateral side of motor room 52 and 53, and then the body outlet 45 of the both sides by being set to the first matrix 26 is discharged to outside.

Here, can be in body 20, especially between body cap 21 and the outside of motor room 52 and 53, guarantee sufficient space.Therefore, air is more successfully discharged.This is because along with the space on the cross side of body cap 21 is used to discharge air, and the flow of discharging air can reduce.Along with flow reduces, the noise being caused by discharge air can reduce significantly.

For this reason, motor room 52 and 53 can simplify.That is to say, can simplify or improve the structure that shields the noise being caused by fan motor assembly 50.That is, single chamber can be set, rather than the dual motor room that surrounds fan electromotor 51 is set.In the present embodiment, as mentioned above, single motor chamber can form by upper motor room 52 is attached to lower motor room 53.Used the space on the cross side of body cap 21 owing to discharging air, this is noise decrease significantly.

According to an embodiment as shown in Figure 8, air flow circuit is along with it sees Figure 15 from nozzle suction inlet 25a() extend rearward to fan electromotor 51 and be inclined upwardly.That is to say, air flow circuit is along the direction formation unanimous on the whole with the incline direction of main body 20.This means by the air of the direction smooth flow of the air flow circuit in main body 20 and keep constant.

Particularly, in Fig. 8, white arrow represents the stream of dust, and black arrow represents the stream of air.Dust is along inclined direction introduced into dust receptacle, and air is along inclined direction introduced into fan electromotor 51.Air can be introduced from the bottom of fan electromotor 51 top of fan electromotor 51.

As shown in Figure 8, the position relationship between wheel 72 and the center of gravity of fan electromotor 51 is extremely important.Fan electromotor 51 or fan motor assembly 50 are relatively heavy.Therefore, the weight of these motors occupies the major part of the total weight of dust catcher.

Preferably, determine the position of wheel 72 and Support bracket 71 with reference to the center of gravity of fan electromotor 51 or fan motor assembly 50.Preferably, determine the riding position of fan motor assembly 50 with reference to wheel 72 and the position of Support bracket 71.

Particularly, the center of gravity of fan motor assembly 50 is preferably located in the front side of the strong point, and to strengthen the stability of advancing, this strong point forms by wheel 72.Therefore, the riding position as above of fan motor assembly 50 allows the center of gravity of dust catcher 200 easily to move to the front of wheel 72.In addition, as mentioned above, in the situation that laying battery, the center of gravity of dust catcher can further move forward.

But, when box lunch is considered to lay battery, be preferably located in the front side of rear side and the support member 70 of inlet nozzle portion 25 according to the center of gravity of the dust catcher of this embodiment.In other words, the center of gravity of dust catcher 200 is preferably located in the top vertical with respect to ground of the second matrix 24, and this second matrix 24 is along with it extends back and is inclined upwardly.Therefore,, in the time that dust catcher is constructed to rechargeable or power supply interconnection system, can guarantee the stability of advancing.

The vibrational system 30 of dust catcher 200 according to an embodiment of the invention is described to Figure 14 particularly with reference to Figure 10 hereinafter.

First generation and the transmission mechanism of vibration are described to Figure 12 with reference to Figure 10.

In the present embodiment, vibration is produced by the rotation of vibrating motor 31.For this reason, eccentric weight 31b can be connected to the rotating shaft 31a of vibrating motor 31.Therefore, eccentric weight 31b rotates because of the rotation of rotating shaft 31a, produces vibration by the rotation of eccentric weight 31b in whole motor.Therefore, vibration with very simple and easily mode produce.In other words, by putting on the eccentric load of rotating shaft 31a of motor, motor oscillating.

The vibration of motor can be delivered to oscillating plate 32 via vibration transfer member 33.

Vibration transfer member 33 can comprise the motor holding part 34 of accommodating motor 31 and motor holding part 34 is connected to the connecting elements 35 of oscillating plate 32.

Particularly, vibration transfer member 33 or motor holding part 34 can comprise articulation pivot 36, and connecting elements is rotationally attached to articulation pivot.That is to say, a side of connecting elements is rotationally attached to articulation pivot, and the opposite side of connecting elements can be connected to oscillating plate 32.

In addition, motor holding part 34 or vibration transfer member 33 can comprise spacing member 33a.Spacing member 33a plays the rotating shaft 31a of motor and the effect that articulation pivot 36 separates of making., spacing member 33a plays the effect that the motor placement portion 34a that settles motor is connected to connecting elements 35.

As shown in figure 11, in the time that eccentric weight 31b rotates, along tangential direction (being indicated by dotted arrow) the generation power rotatablely moving.When eccentric weight 31b is in the time that articulation pivot 36 is rotated, moment distance (being indicated by solid arrow) changes.The moment of tangential force and variation is apart from the revolving force that produces articulation pivot 36.In addition, the moment of tangential force and variation is apart from changing direction of rotation and revolving force.Therefore,, in the time that eccentric weight 31b rotates, alternately produce the revolving force around articulation pivot 36 with counter clockwise direction along clockwise direction.

That is to say, because rotating shaft 31a and the articulation pivot 36 of motor are unjustified, so produce the revolving force around articulation pivot 36.In other words, articulation pivot 36 is positioned at the side around rotating shaft 31a, produces moment around articulation pivot 36.According to the change of the angle of rotation of motor, this moment alternately changes the direction of rotation.

Because rotating shaft 31a and articulation pivot 36 are along vertical and longitudinally separated from one another, the direction of rotation alternately.In addition, rotating shaft 31a and articulation pivot 36 are separated mutually by spacing member 33a.

Connecting elements 35 can be arranged to from articulation pivot 36 forward and extend back.Therefore, connecting elements 35 center can be arranged to rotate with respect to articulation pivot 36.

According to the vibration of motor 31, the front and rear of connecting elements is along vibration in the other direction.

Particularly, as shown in figure 11, it is following and separate with the rotating shaft 31a of motor that articulation pivot 36 is positioned at the rotating shaft 31a of motor, wherein heart location prejudicially forward or backward.The front and rear of connecting elements 35 can rotate around articulation pivot 36.That is to say, in the time that the front portion of connecting elements 35 rotates up, the rear portion of connecting elements 35 is rotated down.Then, by the rotation of motor, the front portion of connecting elements 35 is rotated down, and the rear portion of connecting elements 35 rotates up.

Because motor 31 rotates with high rotating speed, so the front and rear of connecting elements is along vertically very rapidly vibration.The direction of vibration of the front and rear of connecting elements can be opposite each other.The vertical amplitude of vibration can limit by elastic component 37.In other words, the vertical amplitude of connecting elements 35 is limited by elastic component 37.Therefore, elastic component 37 can be used as damper, for example, to allow certain amplitude (, 3mm is to 4mm) of connecting elements 35 and to prevent that connecting elements is further rotated.

According to this embodiment, vibrating motor 31 of dust catcher 200 use makes two vibration plate vibrates.

As shown in figure 12, articulation pivot 36 and connecting elements 35 can be arranged on the both sides of vibrating motor 31.

Two articulation pivot 36 can arrange coaxially, and independent oscillating plate can be set to front portion and the rear portion of articulation pivot 36 dividually.In other words, independent oscillating plate can be with respect to front side and the rear side of the articulation pivot 36 that is coaxially set of articulation pivot 36.

As discussed above, due to two articulation pivot 36 with respect to the rotating shaft eccentric of vibrating motor 31 configure, so connecting elements 35 can have reciprocal vibration., as shown in figure 12, the connecting elements 35 that is arranged on left and right vibrates along equidirectional.

Therefore,, in the time being arranged on the oscillating plate 32 of front side and moving down, the oscillating plate 32 that is arranged on rear side moves up.On the other hand, in the time being arranged on the oscillating plate 32 of front side and moving up, the oscillating plate 32 that is arranged on rear side moves down.The direction of the vibration that therefore, the front and rear place of inlet nozzle portion 25 produces is opposite each other.

Due to the configuration of two oscillating plates 32 as discussed above and the vibration that intersects, vibration can put on larger region, carries out the clean time spending thereby reduce significantly.In addition, the quantity that applies vibration per second is multiplicable.Therefore, can improve significantly clean efficiency.

The placing structure of vibrational system 30 is described to Figure 15 particularly with reference to Figure 13 hereinafter.

As shown in figure 15, inlet nozzle portion 25 can be formed as circle.In addition, the suction inlet 25a that extends to left and right sides can be formed on the lower central part place of inlet nozzle portion 25.That is to say, the bearing of trend of suction inlet 25a can be substantially perpendicular to the direct of travel of dust catcher 200.In other words, suction inlet 25a can be formed as the rectangle that lateral is long, fore-and-aft direction is short.

Suction inlet 25a can be limited by air-guide part 42.That is to say, one end of air-guide part 42 can limit suction inlet 25a, and the other end of air-guide part 42 can extend back and be inclined upwardly along with it.Suction inlet 25a can be connected to one end of air-guide part 42.

Preferably, oscillating plate 32 is arranged on the bottom of inlet nozzle portion 25 and front portion and the rear portion of suction inlet 25a.Here, the external shape of oscillating plate 32 is preferably corresponding to the external shape of inlet nozzle portion 25.That is to say, inlet nozzle portion 25 can be rounded, and therefore the external shape of oscillating plate 32 (, the shape at the edge of each oscillating plate 32) can be semicircle.Preferably, two oscillating plates 32 form circular.

As shown in figure 13, vibrating motor 31 is preferably located in the cardinal principle top of suction inlet 25a.That is to say, vibrating motor 31 longitudinally preferably with the parallel longitudinal of suction inlet 25a.

With reference to Fig. 2 and Fig. 4, in the case of traditional vibrational system, motor 14 longitudinally perpendicular to suction inlet 6 longitudinally.In addition, motor 14 is positioned at the rear side of suction inlet 6.In addition, due to the transmission mechanism of the vibration between motor 14 and oscillating plate 7, the structure of the stream from suction inlet 6 to dust receptacle 12 is adversely very complicated.That is to say, as shown in Figure 3, the direction of air-flow changes continually in the structure of air-guide part 11.

On the other hand, according to this embodiment as shown in figure 13, vibrating motor 31 is arranged on suction inlet 25a, and therefore the shape of air-guide part 42 is simplified because air-guide part 42 recedes.Thus, do not allow motor holding part 34 or connecting elements 35 and air-guide part 42 mutually to interfere because of position relationship each other.

According to this embodiment, whole motor 31 vibrates as described above.Therefore, motor holding part 34 and connecting elements 35 also vibrate.That is to say, whole vibrational system 30 is vibrated.Therefore, vibrational system 30 need to stably be fixed, and the vibration producing need to be effectively delivered to oscillating plate 32.

First, electric rotating machine need to be avoided external environment condition damage.Therefore, the lid of protection motor 31 need to be arranged on the top of motor 31.Because motor 31 is placed in the placement portion 34a of motor holding part 34, so cover the motor holding part lid 34a that preferably covers motor holding part 34.

As discussed above, whole motor 31 vibrates.Therefore,, in the situation that motor holding part lid 34a directly contacts motor 31, motor holding part lid 34a can vibrate and output noise.Therefore, motor holding part lid 34a is preferably positioned to separate with motor.

For this reason, motor holding part lid 34a is preferably attached to spacing member 33a, as shown in figure 14.In addition, motor holding part lid 34a and spacing member 33a preferably mutually combine, and have predetermined gap d therebetween.

For this reason, spacing member 33a can be provided with the boss 39 projecting upwards.In addition, boss 39 can be along the front and rear that is longitudinally formed on motor of motor.In the time being placed on boss 39, motor holding part lid 34a can be attached to spacing member 33a by screw.

Elastic component (not shown) can be arranged in motor holding part lid 34a, to minimize the noise that may contact generation between motor 31 and motor holding part lid 34a.

As shown in figure 13, the major part composition portion of vibrational system 30 is positioned at the top of the first matrix 23.Here, vibrational system 30 is preferably flexibly supported by the first matrix 23.

As discussed above, the vibration of motor 31, motor holding part 34 and spacing member 33a is converted to the vibration of connecting elements 35.That is to say, the tangential force that the rotation of eccentric weight 31b produces is converted into the revolving force around articulation pivot 36.Therefore,, by the translational motion at restriction articulation pivot 36 places, motor 31, motor holding part 34 and spacing member 33a can be fixed to inlet nozzle portion 25 or the first matrix 23.

For this reason, articulation pivot fixed component 48 can be set to the top of the first matrix 23.Articulation pivot fixed component 48 is attached to the translational motion of articulation pivot 36 with restriction articulation pivot 36 places.On the other hand, by the revolving force around articulation pivot 36, the direction of rotation of connecting elements 35 alternately changes to transfer vibrations to oscillating plate 23.

Therefore, motor 31 can stably be supported on the first matrix 23 by articulation pivot fixed component 48.

Hereinafter, with reference to Figure 16 to Figure 18, the elastic support structure of vibrational system 30, the especially elastic support structure of oscillating plate 32 are described particularly.In addition, by the shape of detailed description oscillating plate 32 with in order to protect the structure of oscillating plate 32.

Can see from Fig. 5, Fig. 6 and Figure 15, oscillating plate 32 according to an embodiment of the invention is visually exposed to outside.That is to say, in the time using dust catcher 200 clean bedding, the vibration of user's observable oscillating plate 32.

Oscillating plate 32 can be arranged to effectively carry out by vibration is applied to bedding clean.Therefore, user may strongly expect to observe oscillating plate 32 and whether vibration is applied to bedding.In other words, expect to see and feel vibration for meeting user, oscillating plate 32 preferably exposes to the outside of dust catcher 200.

As depicted in figs. 1 and 2, in the case of traditional bedding dust catcher, oscillating plate 7 does not expose to the outside of dust catcher 1.Therefore, user checks whether oscillating plate 7 normally operates, applied great vibration and oscillating plate 7 articles for use ascension from the bed goes out how many dusts possibility difficulties.

In order to solve these defects, be provided with oscillating plate 32 according to the dust catcher of this embodiment, oscillating plate 32 is positioned under the state of dust catcher operation and exposes to outside.Therefore, by seeing that oscillating plate 32 hits bedding, can strengthen clean reliability.

For this reason, the inlet nozzle portion 25 of dust catcher can form circle, and oscillating plate 32 can form the circle corresponding with the external shape of inlet nozzle portion 25 or semicircle.That is to say, the external shape of oscillating plate 32 can be corresponding with the external shape of the first matrix 23.

But, because oscillating plate 32 is the composition portions for vibrating, so in the time being connected to the first matrix 23, need to allow oscillating plate 32 to vibrate.In addition, contact hard thing during cleaning time, oscillating plate 32 may damage.Therefore, preferably allow oscillating plate 32 to vibrate, and at the hard thing of avoiding in the time that expose outside on the floor of contact except bedding.

For this reason, as shown in figure 16, oscillating plate 32 is provided preferably with bottom 32b and the 32a of side direction portion.The 32a of side direction portion can be formed as being highly greater than the thickness of bottom 32b.Therefore, the 32a of side direction portion can be exposed to the outside of dust catcher 200 substantially.

When the mattress on bed or bedding are when clean, dust catcher 200 can be encountered side table, protect top board or wall.In the case, the oscillating plate of vibration can encounter side table, protect top board or wall and send noise, and can be by impact failure.In addition, in the situation that dust catcher falls, impact can directly put on oscillating plate 32.Therefore,, in the situation that oscillating plate 32 exposes to outside, oscillating plate 32 may damage, depart from combination and distortion.

As shown in figure 16, the outermost of oscillating plate 32 is preferably located in inlet nozzle portion 25 or the first base framework 24.Be formed as circular in the situation that in inlet nozzle portion 25, the outermost of oscillating plate 32 is preferably located in the preset distance place that radially enters inlet nozzle portion 25.Thus, can prevent clean during oscillating plate 32 encounter wall., the first matrix 23, main body 20 or body cap 21 are directly encountered wall rather than oscillating plate 32.

Therefore, oscillating plate 32, the 32a of side direction portion that forms particularly the oscillating plate at the edge of oscillating plate 32 are preferably located in the preset distance place that enters inlet nozzle portion 25 with respect to the whole edge of inlet nozzle portion 25.In other words, be formed as circular in the situation that in inlet nozzle portion 25, the maximum radius of oscillating plate is preferably less than the maximum radius of inlet nozzle portion.In the situation that inlet nozzle portion 25 is formed as other shape, for example polygon, oscillating plate can be positioned at the predetermined length place that radially enters inlet nozzle portion.

Meanwhile, because oscillating plate 32 is along vertical motion, so oscillating plate 32 need to avoid contacting the first matrix 23 during vibrating.

The body of inlet nozzle portion or the first matrix 23 can comprise vertical walls outside top.Outside top, vertical walls 23a can form the outermost of inlet nozzle portion 25 substantially.Outer vertical walls 23a can directly contact outer wall, and therefore oscillating plate 32 can be protected.

The first matrix 23 can comprise vertical walls outside the radially inner bottom, bottom that is positioned in vertical walls 23a outside top, to avoid interfering oscillating plate 32, the especially vertical motion of the 23c of side direction portion.In other words, the top of the 23c of side direction portion can be outside top outside vertical walls 23a and bottom between vertical walls 23b.In addition, outside top, outside vertical walls 23a and bottom, between vertical walls 23b, can form horizontal wall 23d.In other words, outside bottom, vertical walls 23b can be positioned at the distance being limited by horizontal wall 23d of the inner radial of the first matrix 23.

Preset distance is separated with horizontal wall 23d in the top of the 23c of side direction portion., this preset distance is preferably more than the admissible amplitude of oscillating plate 23.Therefore,, under the state of oscillating plate 23 normal vibrations, can prevent that oscillating plate 23 from contacting the first matrix 23.

Meanwhile, bend 32c is preferably arranged between the bottom 32b and the 32a of side direction portion of oscillating plate 23., bottom 32b can form one by bend 32c and the 32a of side direction portion.Bend 32c can be formed as circle, increases thus the region that suffers external impact.

The preferably radially outward expansion along with it upwards extends of the 32a of side direction portion.In other words, the 32a of side direction portion has maximum radius in the top of the 32a of side direction portion.This be intended to visually to expose as much as possible the 32a of side direction portion to outside and minimize the whole side direction 32a of portion expose distance (the outermost distance from the 32a of side direction portion to the first matrix).

As discussed above, oscillating plate 23 passes through elastic component 37 resiliency supported on the first matrix 23.Elastic component 37 plays the amplitude of determining oscillating plate 23 effect that absorbs the external impact that puts on oscillating plate 23.For example, in the situation that inactive dust catcher falls, external impact can put on oscillating plate 23.Now, the major part of impact can be absorbed by elastic component 37.

But due to outside impact, oscillating plate 23 is removable exceeds admissible spacing distance.For example, the amplitude during clean is 3mm during to 4mm, and oscillating plate 23 can move and exceed admissible spacing distance along vertical or fore-and-aft direction because of external impact.

Now, oscillating plate 23 can separate with connecting elements 35 or elastic component 37.In addition, due to external impact, oscillating plate 23 can damaged or distortion.

In order to address these problems, above disclosed horizontal wall 23d constrained vibration plate 23 excessively rises.In addition, for preventing that oscillating plate 23 from radially excessively moving inward, and can arrange ribs 23c.

Ribs 23c can be positioned to corresponding with the 32a of side direction portion of oscillating plate 23.That is to say, in order to prevent that oscillating plate 23 from radially excessively moving inward, and can arrange ribs 23c.

Ribs 23c can be positioned at the bottom of vertical walls 23b outside bottom.In addition, ribs 23c can be from bottom the radially inner side of vertical walls 23b to downward-extension.Therefore,, in the time that the 32a of side direction portion of oscillating plate 23 radially excessively moves because of external impact, the 32a of side direction portion contacts with ribs 23c.

Therefore, strong external impact can be delivered to the first firm matrix via ribs 23c.,, by absorbing strong external impact, can prevent from damaging oscillating plate.

Hereinafter, describe the elastic support structure of the vibrational system 30 of elastic component 37 and this elastic component 37 of use in detail with reference to Figure 17 and Figure 18.

The first matrix 23 is provided with connecting hole 47.The upper and lower of the first matrix 23 can be interconnected by connecting hole 47.That is to say, the vibration on the top of the first matrix 23 can be delivered to by connecting hole 47 oscillating plate 32 of the bottom of the first matrix 23.

Particularly, connecting elements 35 leads to the bottom of inlet nozzle portion 25 by connecting hole 47.Oscillating plate 32 is connected to the end of connecting elements 35.Herein, for flexibly support and connection member 35 and oscillating plate 32, connecting hole 47 is provided with elastic component 37.

Elastic component 37 comprises the flange 37a at the edge that is fixed to connecting hole 47.As shown in figure 18, flange 37a inserts the upper and lower at the edge of connecting hole 47.Therefore, elastic component 37 can be fixed to the first matrix 23 by flange 37a.

At the radially inner side of flange 37a, the central part place of elastic component 37 can form through hole 37b.Through hole 37b can have predetermined altitude, and its internal diameter can change to be formed with the pattern of fold.

Connecting elements 35 can pass through hole 37b.Therefore, connecting elements 35 is fixed to through hole 37b, and being thus connected member 35 can be by the first matrix 23 resiliency supported.In addition, oscillating plate 32 can be attached to the end of connecting elements 35, and it is by being positioned through through hole 37b.Therefore, oscillating plate 32 also can be by connecting elements 35 by the first matrix 23 resiliency supported.

Elastic component 37 can be included in the extension 37c forming between flange 37a and through hole 37b.Flange 37a is fixed to the first matrix 23, and through hole 37b is because vibration is along vertical mobile.Therefore, extension 37c is the part that applies elastic force substantially.Therefore, extension 37c is preferably formed as the shape of barrier film.Thus, the vertical moving range of connecting elements 35 and oscillating plate 32 is limited, and the external impact that puts on oscillating plate 32 can be absorbed.

But external impact can cause oscillating plate 32 excessively mobile, cause elastic component 37 to depart from from the first matrix 23.Particularly, elastic component 37 can depart from from through hole 37b.

As shown in figure 17, pressing member 49 can be attached to the top of the first matrix 23.,, in order to allow through hole 37b to be more firmly attached to elastic component 37, pressing member 49 can be set to the first matrix 23.

Particularly, as shown in figure 18, pressing member 49 can be arranged to exert pressure to the flange 37a of elastic component 37.Pressing member 49 allows flange 37a contact through hole 37b more closely.Further, in the time that flange 37a moves up or down, it moves the member 49 that is pressed and limits.Therefore, elastic component 37 can more firmly be attached to the first matrix 23.This means in the time that external impact is applied thereto, vibrational system 30 can more firmly and flexibly be supported by the first matrix 23.

Pressing member 49 can be suitable for to the top of flange 37a or bottom or only a side of flange 37a exert pressure.In the example shown in Figure 17 and Figure 18, pressure is only applied to the top of flange 37a.What in addition, pressing member 49 can be along flange 37a is circumferentially applied to pressure whole flange 37a.

Connecting elements 35 need to extend and be connected to through hole 37b via a part of flange 37a from vibrating motor 31.Therefore, as shown in figure 17, pressing member 49 can be suitable for only pressure being applied to the part except the extension path of connecting elements of flange 37.

In addition, pressing member 49 preferably and elastic component 37 be attached to independently the body of inlet nozzle portion or the first matrix 23.In other words, pressing member 49 can for example, be attached to the first matrix 23 by independent combination tool (, screw, not shown in the figures).Such combination tool can be irrelevant with vibrational system 30.So, when vibration occurs box lunch, can guarantee that pressing member 49 is attached to the first matrix 23.Therefore,, when vibration occurs box lunch, the pressure that is put on elastic component 37 by pressing member 49 does not change.Thus, can effectively prevent that elastic component 37 from departing from from the first matrix 23.

As from the above description apparently, the present invention has following effect.

According to one embodiment of present invention, dust catcher can be provided with vibrational system, and durability and the reliability of enhancing can easily be implemented and have to this vibrational system.

According to one embodiment of present invention, dust catcher can be by allowing motor oscillating and the vibration that the vibration of motor converts oscillating plate to being strengthened to vibrating effect.

According to one embodiment of present invention, fixing vibrational system can be simplified and be conducive to dust catcher.

According to one embodiment of present invention, dust catcher can make two vibration plate vibrates strengthen cleaning effect by a vibrating motor.

According to one embodiment of present invention, dust catcher can be by vibrating motor being positioned on air inlet and is easily maintained two balances between oscillating plate.

According to one embodiment of present invention, therefore and easily the inconvenience that dust catcher is bent over during can minimizing and cleaning also can be used.

According to one embodiment of present invention, dust catcher can by allowing spray nozzle part, kiss the earth or bedding strengthen cleaning effect more closely.

According to one embodiment of present invention, dust catcher can be guaranteed the stability therefore easily using of advancing during clean.

According to one embodiment of present invention, dust catcher can be by guaranteeing that the more smooth flow of the air in dust catcher improves cleaning efficiency and reduces noise.

According to one embodiment of present invention, dust catcher can allow user visually to check the operation of oscillating plate, and therefore easily uses and its reliability is strengthened.

According to one embodiment of present invention, dust catcher can effectively prevent breakage, damage, distortion and the disengaging of oscillating plate, and therefore strengthens durability and easy to use.

It is apparent to those skilled in the art that in the situation that not deviating from the spirit or scope of the present invention, can carry out various changes and modification to the present invention.Therefore,, as long as they drop in the scope of enclose claims and equivalents thereof, the present invention covers remodeling of the present invention and modification.

Claims (23)

1. a vacuum cleaner, comprising:

Main body;

Fan electromotor, is arranged in described main body, with air amount;

Inlet nozzle portion body, is directed to the air of introducing the inside of described main body;

Dust receptacle, stores the dust filtering the air from introducing; And

Oscillating plate, the lower horizontal of described inlet nozzle portion body arrange with corresponding to ground, described oscillating plate applies vibration earthward,

Wherein, at the operating position of described vacuum cleaner, described oscillating plate is visually exposed to the outside of described vacuum cleaner.

2. vacuum cleaner according to claim 1, the outside shape of wherein said oscillating plate is corresponding to the outside shape of described inlet nozzle portion body.

3. vacuum cleaner according to claim 2, wherein said oscillating plate comprises:

Bottom, corresponding with object to be cleaned; And

Side direction portion, upwards extends from described bottom,

Wherein, by described side direction portion, described oscillating plate is visually exposed to the outside of described vacuum cleaner.

4. vacuum cleaner according to claim 3, wherein said side direction portion is inwardly positioned to leave the predetermined length place, outside (radially) of described inlet nozzle portion body.

5. vacuum cleaner according to claim 4, described side direction portion is along with described side direction portion upwards extends and outwards (radially) expansion.

6. vacuum cleaner according to claim 3 is wherein furnished with bend between described bottom and described side direction portion.

7. vacuum cleaner according to claim 1, wherein said inlet nozzle portion body comprises:

Vertical walls outside top; And

Vertical walls outside bottom, be positioned at vertical walls outside described top bottom (radially) inner side, to avoid interfering the vertical motion of described oscillating plate.

8. vacuum cleaner according to claim 7, wherein said oscillating plate comprises:

Bottom, corresponding with object to be cleaned; And

Side direction portion, upwards extends from described bottom,

The top of wherein said bottom is outside described top outside vertical walls and described bottom between vertical walls.

9. vacuum cleaner according to claim 8, wherein said inlet nozzle portion body comprises the ribs of (radially) inner side that is arranged on described side direction portion, makes the outside of described ribs and described side direction portion separate predetermined distance.

10. vacuum cleaner according to claim 9, (radially) inner side of the bottom of wherein said ribs vertical walls from described bottom is to downward-extension.

11. according to the vacuum cleaner described in any one in claims 1 to 10, also comprises elastic component, described oscillating plate is flexibly supported on described inlet nozzle portion body.

12. according to the vacuum cleaner described in any one in claim 1 to 11, also comprises and allows user to apply power to handle the handle of described vacuum cleaner.

13. vacuum cleaners according to claim 12, also comprise:

Vibrating motor, is positioned at the top of described inlet nozzle portion body;

Connecting hole, is set to described inlet nozzle portion body; And

Connecting elements, is arranged to through described connecting hole, so that the vibration producing by described vibrating motor is delivered to described oscillating plate.

14. vacuum cleaners according to claim 13, wherein said elastic component runs through described connecting hole and is fixed to described connecting hole.

15. vacuum cleaners according to claim 14, wherein said elastic component comprises the fixed part that is fixed to described connecting hole and the connecting portion that is connected to described connecting elements.

16. vacuum cleaners according to claim 15, wherein said fixed part comprises the flange inserting for the upper and lower at the edge of described connecting hole, described connecting portion comprises the through hole that is formed on the radially inner side of described flange and is passed by described connecting elements.

17. vacuum cleaners according to claim 14, also comprise pressing member, and described pressing member is incorporated into described inlet nozzle portion body, to exert pressure to described fixed part, thereby prevents that described fixed part from departing from from described connecting hole.

18. 1 kinds of vacuum cleaners, comprise the body of inlet nozzle portion, and the body of described inlet nozzle portion flatly forms with corresponding to ground and be provided with the suction inlet from floor suction,

Wherein said inlet nozzle portion comprises:

The body of inlet nozzle portion, forms the most external of described inlet nozzle portion; And

Oscillating plate, is arranged on the bottom of the body of described inlet nozzle portion, to apply earthward vibration,

The side direction portion of wherein said oscillating plate is positioned at the predetermined length place of outermost (radially) inner side of the lateral surface of described inlet nozzle portion, and can visually be exposed to the outside of described vacuum cleaner.

19. vacuum cleaners according to claim 18, wherein said oscillating plate is set to each front and rear of described suction inlet.

20. vacuum cleaners according to claim 18, the body of wherein said inlet nozzle portion comprises the ribs that is arranged on described side direction portion (radially) inner side, makes the outside of described ribs and described side direction portion separate predetermined distance.

21. vacuum cleaners according to claim 18, the body of wherein said inlet nozzle portion comprises:

Vertical walls outside top, forms the most external of described inlet nozzle portion; And

Vertical walls outside bottom, be positioned at vertical walls outside described top bottom (radially) inner side, to avoid interfering the vertical motion of described oscillating plate.

22. according to the vacuum cleaner described in any one in claims 18 to 21, also comprises elastic component, described oscillating plate is flexibly supported on the body of described inlet nozzle portion.

23. vacuum cleaners according to claim 22, also comprise the pressing member that is independent of described elastic component, described pressing member is attached to the body of described inlet nozzle portion, to exert pressure to described elastic component, thereby prevent that described elastic component from departing from from the body of described inlet nozzle portion.

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