CN100571596C - The suction nozzle displacement structure of vacuum cleaner - Google Patents

Abstract

A kind of suction nozzle displacement structure of vacuum cleaner comprises: be arranged on vacuum cleaner fuselage bottom, and be provided with the 1st base of hatch frame; The position corresponding with the hatch frame of the 1st base is provided with and can deposits the storage configuration that prolongs the pipe clip on the 2nd base that is arranged at the 1st base upside.When the present invention hangs over the bottom surface of vacuum cleaner at prolongation pipe clip,, not only can improve the intensity of the suction nozzle displacement structure of vacuum cleaner, and can improve the reliability of vacuum cleaner because high-intensity supporting construction is provided.Particularly when the multilayer base is set, because therefore support nozzle section that can be firmer is applicable in the vacuum cleaner that a plurality of whirlwind collecting unit of dust are set more.

Description

The suction nozzle displacement structure of vacuum cleaner

Technical field

The present invention relates to a kind of vacuum cleaner.Particularly relate to a kind of when not using vacuum cleaner, to comprise that the nozzle section that prolongs pipe is stored in the bottom of vacuum cleaner, make the keeping of vacuum cleaner thus and move conveniently, be applicable to the suction nozzle displacement structure of the vacuum cleaner that adopts a plurality of understructures.

Background technology

Vacuum cleaner is that the vacuum pressure by machine intimate absorbs airborne foreign matter, thus the machine of clean outer environment.Vacuum cleaner is provided with filter in order to filter out foreign matter from institute's inhaled air in the inside of dust collect plant.

Filter comprises: when air is flowed through, filter out the filter and the swirling eddy that utilizes air to form by the porous material making of foreign matter wherein, remove the cyclone type filter of airborne foreign matter.The filter of being made by porous material need clean behind filtered air, if when foreign matter is too much, need discard, and therefore has the problem that can't use continuously.And the cyclone type filter can separate the removing foreign matter when air forms swirling eddy, so foreign matter can not be bonded on the filter, just because of have this advantage, is widely used recently.

Recently, a plurality of whirlwind dust collecting structures that in a dust collect plant, produce several swirling eddies have been released again.A plurality of whirlwind dust collecting structures utilize some swirling eddies to remove foreign matter, have further improved dust catching efficiency.And, owing to utilize several swirling eddies to remove foreign matter, therefore need not to set up the filter of porous material in inside, the user also need not cleaning and filtering.

Vacuum cleaner makes the keeping of vacuum cleaner thus and moves easier preserving or when mobile, making the nozzle section folding and unfolding on displacement structure set on the vacuum cleaner fuselage.And the displacement structure operated by rotary motion is in the back or the bottom surface of vacuum cleaner.

Particularly, support whole nozzle section in order to utilize displacement structure, described displacement structure need possess certain intensity.But the displacement structure that forms on the bottom surface of vacuum cleaner exists because intensity is little and fragile or can't bring into play the problem of its function.

Summary of the invention

Technical problem to be solved by this invention is that a kind of suction nozzle displacement structure that vacuum cleaner with the big displacement structure of intensity is set on the bottom surface of vacuum cleaner is provided.

Another technical problem to be solved by this invention is to provide a kind of when dust catcher adopts a plurality of whirlwind collecting unit of dust and multilayer base, the suction nozzle displacement structure of the vacuum cleaner of the support nozzle section that suction nozzle displacement structure can be firmer.

The technical solution adopted in the present invention is: a kind of suction nozzle displacement structure of vacuum cleaner includes: be arranged on vacuum cleaner fuselage bottom, and be provided with the 1st base of hatch frame; Be positioned at the 2nd base of the 1st base top; And be arranged on the 2nd base and with the corresponding setting of hatch frame of the 1st base be used to deposit the storage configuration that prolongs the pipe clip.

The present invention when prolongation pipe clip hangs over the bottom surface of vacuum cleaner, because high-intensity supporting construction is provided, not only can improves the intensity of the suction nozzle displacement structure of vacuum cleaner, and can improve the reliability of vacuum cleaner.Particularly when the multilayer base is set, because therefore support nozzle section that can be firmer is applicable in the vacuum cleaner that a plurality of whirlwind collecting unit of dust are set more.

Description of drawings

Fig. 1 is the structural representation of vacuum cleaner of the present invention;

Fig. 2 is the structural representation of vacuum cleaner fuselage part of the present invention;

Fig. 3 is a dust collect plant separated structures schematic diagram in the vacuum cleaner of the present invention;

Fig. 4 is the decomposition texture schematic diagram of vacuum cleaner fuselage of the present invention;

Fig. 5 is the bottom surface structural representation of vacuum cleaner base of the present invention;

Fig. 6 is the bottom surface structural representation after base is separated into the 1st base and the 2nd base;

Fig. 7 is the structural representation of the II-II ' partial cross section among Fig. 5;

Fig. 8 is the decomposition texture schematic diagram of dust collect plant of the present invention;

Fig. 9 is the structural representation of the I-I ' partial cross section among Fig. 3;

Figure 10 is the structural representation of vacuum cleaner of the present invention longitudinal cross-section.

Wherein:

7: prolong 110: the 1 bases of pipe clip

113: hatch frame 114: projection

Base 156 in 150: the 2: storage configuration

159: patchhole

The specific embodiment

Below, detailed in conjunction with the accompanying drawings explanation specific embodiments of the invention.

Fig. 1 is the structural representation of vacuum cleaner of the present invention.

As shown in Figure 1, vacuum cleaner of the present invention comprises: the suction line that vacuum cleaner fuselage 100 is connected with suction side with vacuum cleaner fuselage 100.At least be provided with drawing fan and dust collect plant in vacuum cleaner fuselage 100 inside, after thus the foreign matter in institute's inhaled air being filtered out, send clean air to the outside again.

Suction line is to utilize the suction absorption of vacuum cleaner fuselage 100 to comprise the pipeline of foreign matter at interior air.Specifically, suction line comprises: utilize strong air-flow to suck the suction nozzle 1 of the air that includes foreign matter from the outside; The prolongation pipe 2 that extends and can stretch according to user mode from suction nozzle 1; Be arranged on the operating grip 3 that prolongs pipe 2 ends; Be arranged on the operating portion 4 of being convenient to user's operation in operating grip 3 the place aheads; Extend back from operating grip 3, according to user's needs, can be arbitrarily crooked flexible pipe 5; Flexible pipe 5 ends are connected the front end of vacuum cleaner fuselage 100 by connector 6; Be arranged on the relevant position that prolongs pipe 2 or suction nozzle 1, when not using vacuum cleaner, can regain the prolongation pipe clip 7 that prolongs pipe 2 by it.

Connector 6 have concurrently the operation signal that the user is input into operating portion 4 be sent to vacuum cleaner fuselage 100 the splicing ear place function and make inhaled air flow into the function of vacuum cleaner fuselage 100 inside.For this reason, on the end of connector 6, be provided with several electric connecting terminals.Need to prove to have only when operating portion 4 is arranged on a certain position of suction line at this, connector 6 just plays the effect of transmission operation signal, and therefore the present invention is not limited thereto.That is, when operating portion 4 is arranged on arbitrary place of vacuum cleaner fuselage 100, electric connection terminal is not set on the connector 6, just makes it have the function of air flow passage.

Enter the air of vacuum cleaner fuselage 100 inside by suction line, after vacuum cleaner inside has carried out filtering, become clean air and get back to the outside once more.Below, the composition of vacuum cleaner fuselage 100 is described.

Fig. 2 is the structural representation of vacuum cleaner fuselage part of the present invention.

As shown in Figure 1 and Figure 2, vacuum cleaner fuselage 100 comprises: the 1st base 110 that is arranged on fuselage 100 bottoms; Be arranged on the 2nd base 150 on the 1st base 110; Be arranged on the both sides at fuselage 100 rear portions, make the roller 111 more flexibly that moves of vacuum cleaner fuselage 100; Be arranged on the capping 200 of vacuum cleaner fuselage 100 upsides; In the place ahead of fuselage 100, after capping the 200, the 1st base 110 and the 2nd base 150 interconnected, the place ahead support member 170 that is supported on securely between it constituted.

Support member 170 is provided with connector 6 forwardly, sucks extraneous air to vacuum cleaner fuselage 100 thus.And the place ahead support member 170 has the effect of safeguarding vacuum cleaner fuselage 100 front portions securely.

The 2nd base 150 is arranged on the upside of the 1st base 110, makes the shape of product more attractive in appearance, has also increased the intensity of vacuum cleaner fuselage 100 bottoms simultaneously.

Be provided with the exhaust cap 301 that has fuselage exhaust outlet 302 at the rear of capping 200, to discharge the clean air after filtering.And having formed on capping 200 with the hinge axis is the rotary moving handle 201 in center.Moving handle 201 moves according to user's operation, when needs moving vacuum cleaner fuselage 100, is erectility, and is the level of state when depositing, and is convenient to the user and uses.

The rear of support member 170 is provided with dust collect plant 400 forwardly, sucks extraneous air, and is provided with the parts that produce swirling eddy in the inside of dust collect plant 400, produces swirling eddy thus, segregating foreign objects.

Fig. 3 is a dust collect plant separated structures schematic diagram in the vacuum cleaner of the present invention;

As shown in Figure 3, dust collect plant 400 is arranged in the structure for mounting dust collection unit 151 of vacuum cleaner fuselage 100 inside.When in structure for mounting dust collection unit 151, dust collect plant 400 being installed, be to promote dust collect plant 400 downwards, when dust collect plant 400 is isolated from structure for mounting dust collection unit 151, be upwards to pull out dust collect plant 400.

Be formed with fuselage suction inlet 171 on the support member 170 forwardly, be provided with dust collect plant suction inlet 401 on the dust collect plant 400 with on the fuselage suction inlet 171 corresponding positions.On dust collect plant 400, be provided with outlet on the direction opposite with dust collect plant suction inlet 401.And this outlet is corresponding with the suction inlet 172 of motor side, makes the air flow motor side by dust collect plant 400 after-purifications.

Particularly, in order to reduce the big or small of vacuum cleaner fuselage 100 and more smooth and easy,, adopt flat right angle four corner-shape structures to the outlet of dust collect plant 400 and the suction inlet 172 of motor side for flowing of air.

In the use, foreign matter may leak by the contact site of fuselage suction inlet 171 and dust collect plant suction inlet 401 and the contact site of dust collect plant 400 and motor side air entry 172.And the dust that leaks can be stacked in the structure for mounting dust collection unit 151.In order to remove the dust that is deposited on the structure for mounting dust collection unit 151, on the base of structure for mounting dust collection unit 151, be provided with foreign matter tap 153, be used to discharge foreign matter.

Fig. 4 is the decomposition texture schematic diagram of vacuum cleaner fuselage of the present invention.

As shown in Figure 4, at the upside of the 1st base 110, the place ahead is provided with the 2nd base 150, and the rear is provided with motor frame 300, and sealing capping 200, has constituted the fuselage 100 of vacuum cleaner.

Support member 170 is installed under the state in capping 200 the place aheads, combines with base 110,150.In the motor frame 300,, after its flow direction becomes vertical direction, flow into downwards, and institute's leaked-in air after flow direction becomes horizontal direction again, is discharged in motor frame 300 backward by the air that motor side suction inlet 172 is inhaled into.

The 1st base 110 and the 2nd base 150 pile up mutually.When the reason that base 110,150 is divided into two parts is that injection moulding forms each structure of base when increasing base intensity, the wherein one side that can only require each base does not have defective to get final product, and the relative two sides of this injection moulding process all requires not have the injection moulding process of defective convenient.

And this lamination mode also has the effect of buffering external impact force.This impact resistance is even more important for a plurality of whirlwind collecting unit of dust that some interface channels are set in order to utilize the swirling eddy segregating foreign objects.

Simultaneously, on the 2nd base 150, be provided with suction nozzle displacement structure.Below, the composition of suction nozzle displacement structure is described in detail.

Fig. 5 is the bottom surface structural representation of vacuum cleaner base of the present invention; Fig. 6 is the bottom surface structural representation after base is separated into the 1st base and the 2nd base.

As Fig. 5, shown in Figure 6, base of the present invention comprises: constitute nethermost the 1st base 110 of vacuum cleaner; Be arranged on the 2nd base 150 of the 1st base top.On the 2nd base 150, be provided with suction nozzle displacement structure, and side is provided with collecting unit of dust 400 thereon.On suction nozzle displacement structure, be provided with and clamp the certain storing structure structure 156 that has that prolongs pipe clip 7, and formed the hatch frame 113 that inserts storage configuration 156 on the 1st base 110 corresponding with storage configuration.

Fig. 7 is the structural representation of the II-II ' partial cross section among Fig. 5, below in conjunction with the detailed explanation suction nozzle displacement structure of Fig. 7.

Storage configuration 156 comprises: whole depression is used to insert the groove 161 that prolongs pipe clip 7; The erecting bed 158 of certain depth gradually caves in groove 161 upper ends; When prolonging 7 insertions of pipe clip above certain depth, guiding prolongs the insertion guide frame 160 of the both sides of pipe clip 7.

Insert guide frame 160 fore-ends, smooth more when prolonging pipe clip 7 and begin to insert in order to make, can and form at the both sides and the outstanding certain altitude of storage configuration 156 guide frame 157 is installed.

Simultaneously, be provided with by the 1st base 110, further consolidate the patchhole 159 of the position of the 2nd base 150, and patchhole 159 is inserted in the projection 114 that the 1st base 110 inner faces are given prominence in the rear end of storage configuration 156.Under the projection 114 and the cooperatively interacting of patchhole 159, the 2nd base 150 the support that obtains the 1st base 110 that the position can be firmer is set.The position is set exchanges of patchhole 159 and projection 114, because under the effect of projection 114 and patchhole 159, therefore the combination of the 1st base 110 and the 2nd base 150 is firmer, projection 114 and patchhole 159 can be done as a wholely, is referred to as supporting construction.

Particularly, when prolongation pipe clip 7 had been placed on the storage configuration 156, the pressure that the 2nd base 150 is subjected to was delivered on the 1st base 110 by projection 114, and support that therefore can be firm prolongs manages.

Fig. 8 is the decomposition texture schematic diagram of dust collect plant of the present invention.

As shown in Figure 8, dust collect plant 400 of the present invention does not use the filter as spongioid porous material, removes foreign matter but utilize swirling eddy to separate.Swirling eddy is to carry out in the plural separator box that is separated from each other, whole tiny foreign matters in the collection air that can be complete.

Specifically, dust collect plant 400 comprises: be provided with several foreign matter separator boxs (with reference to Fig. 8 423,424) and several foreign matter storage bins (with reference to Fig. 8 417,416) control of dust body 406; Be arranged on the downside of control of dust body 406, prevent the case hermetically-sealed construction 415,402 that the foreign matter in the foreign matter storage bin 416,417 leaks; Be arranged on the top of control of dust body 406, the exhaust structure 407 that the air that guiding control of dust body 406 is discharged flows; Be arranged on the top of exhaust structure 407, and maintain a certain distance, the spacer structure 408 that the air by exhaust structure 407 is flowed towards a certain direction with it; The lid structure 409,410,411,412 that is arranged on spacer structure 408 tops constitutes.

The lid structure comprises: the 1st lid 410 that constitutes lid; Be separately positioned on the 3rd lid the 412 and the 2nd lid 409 at the place ahead and the rear of the 1st lid 410; Make the fixing together lid plug-in unit 411 of the 1st lid the 410 and the 2nd lid 409.Lid plug-in unit 411 covered a part the 1st lid 410 above, make its outward appearance more attractive in appearance, and have the fixing simultaneously effects of the 1st lid the 410 and the 2nd lid 409 that make.

Also be provided with the pyramid type filter 405 of separating out foreign objects smooth from swirling eddy in the inside of control of dust body 406; Below pyramid type filter 405, be provided with the blocking-up structure 404 that prevents collected scattering foreign matter; Be arranged on the below of blocking-up structure 404, slow down the flow velocity of swirling eddy, make foreign matter sink to the anti-flow plate 403 of foreign matter storage bin inside.Blocking-up structure 404 and anti-flow plate 403 form one, and pyramid type filter 405 can be provided with in addition.

The 1st lid 410 side is provided with an end of on ﹠ off switch 413, the 1 lids 410 and an end in contact of on ﹠ off switch 413, when also being provided with an end and being connected in pull switch key 413 mutually with on ﹠ off switch 413, is rotated the switch lever 414 of motion.The other end of switch lever 414 contacts with the 1st case hermetically-sealed construction 415.Therefore, by the action of pull switch key 413, switch lever 414 is that rotate at the center with the hinge axis.And, on the other end of switch lever 414, when the 1st case hermetically-sealed construction 415 and switch lever 414 disconnect and contacting, the 1st case hermetically-sealed construction 415 is because the effect of self gravitation, with the hinge axis is the center rotation, and is collected in the foreign matter of foreign matter storage bin 416,417 inside, because the gravity of self, go to the whereabouts, thereby go out of use.

Case hermetically-sealed construction 415,402 makes the downside of foreign matter storage bin 416,417 be in sealing state.And the 1st the case hermetically-sealed construction 415 adopts hinging manner to be combined on the control of dust body 406, when discarding foreign matter, makes the 1st case hermetically-sealed construction 415 utilize the discarded easily foreign matter of hinge means.And, on control of dust body 406, be provided with and divide the 1st foreign matter separator box 423 and the 2nd foreign matter separator box 424, and constitute the demarcation strip 437 of passage.

Lateral surface at control of dust body 406 is provided with several guiding ribs 459, and when exhaust structure 407 was arranged on control of dust body 406 outsides, the location was inserted convenient easily thus.And the edge of guiding rib 459 upsides has carried out smoothing processing, has made things convenient for the insertion of exhaust structure 407 thus.

Reference numeral 460 among Fig. 8 is seal members.

Fig. 9 is the structural representation of I-I ' partial cross section of Fig. 3.

Form and the course of action of dust collect plant below in conjunction with the detailed explanation dust collect plant of Fig. 9 400 is inner.

As shown in Figure 9, dust collect plant 400 of the present invention comprises: control of dust body 406; Optionally seal the case hermetically-sealed construction 402,415 of the downside of control of dust body 406; Be arranged on control of dust body 406 inside, increase the conical strainer 405 of dust catching efficiency; Prevent the blocking-up structure 404 of the scattering foreign matter collected; Slow down the flowing velocity of swirling eddy, foreign matter is sunk, and prevent the anti-flow plate 403 that dust floats; Be arranged on control of dust body 406 upsides, make the exhaust structure 407 that flows of the air smoothness of control of dust body 406 discharges, make the spacer structure 408 on air accumulation to a direction of having passed through exhaust structure 407; Be arranged on the lid 409,410,411,412 of exhaust structure 407 upsides.

Structure to control of dust body 406 describes below.

Be provided with several partitions on the control of dust body 406, comprise: the outer wall 418 that is arranged on ragged edge; Be arranged on the midfeather 419 of outer wall inboard; Be arranged on the inwall 420 of midfeather 419 inboards.And midfeather 419 and inwall 420 are avoided being arranged in the zone of dust collect plant suction inlet 401 sides, and be smooth more to guarantee flowing of air.

Space between outer wall 418 and the midfeather 419 has formed the 1st foreign matter storage bin 416, and the space between midfeather 419 and the inwall 420 has formed the 2nd foreign matter storage bin 417, and inwall 420 inner spaces have formed the 1st foreign matter separator box 423.The use form concrete according to dust collect plant 400, the purpose that use in the space can be different.

For the effect and the course of action of said structure, be that benchmark is described in detail with the air sequence of flow.At first, air is by dust collect plant suction inlet 401 inflow dust collection devices 400 inside.Here, the outside of dust collect plant suction inlet 401 contacts with the place ahead support member 170, and the inboard is communicated with the 1st foreign matter separator box 423, sucks outer gas.Then,, be provided with the 1st movement-oriented structure 421, thus air-flow guided to the 1st foreign matter separator box 423 inner peripheral surface directions from inwall 420 is inwardly outstanding in dust collect plant suction inlet 401 inboards.

Air is in the process of the 1st foreign matter separator box 423 inner rotational flows, and foreign matter sinks, and clean air is upwards discharged by the perforate of conical strainer 405.Use the reason of conical strainer 405 to be that dust collect plant suction inlet 401 is positioned at upside, therefore above conical strainer 405, cause swirling eddy at a high speed, and below produce the air-flow of low speed.That is, foreign matter more close relatively outside rotation in high velocity air, and in low speed flow, the more close relatively inner rotation of foreign matter, relatively diffusion therefore in order more effectively to remove foreign matter, is preferably used conical strainer.

Conical strainer 405 is arranged on demarcation strip 437 centers that constitute the 1st foreign matter separator box 423 upper wall surfaces, and can be designed to be removable at the structure of demarcation strip 437.The diameter of conical strainer 405 upper ends is provided with several perforates greater than the diameter of lower end on conical strainer 405, air always from the outside to internal flow.

For the foreign matter that prevents to fall disperses once more, be provided with blocking-up structure 404 in the lower end of conical strainer 405.As shown in Figure 8, blocking-up structure 404 is more to the below, and its diameter is big more, has prevented dispersing of foreign matter thus.And the certain spacing of being separated by below blocking-up structure 404 is provided with anti-flow plate 403, and the foreign matter of having avoided having collected is subjected to the influence of air-flow, the phenomenon of floating.

In the 1st foreign matter storage bin 416 below the 1st foreign matter separator box 423 inner foreign matters that separate are stored in.For the foreign matter that prevents to store leaks, be provided with the 1st case hermetically-sealed construction 415 here, in the lower end of the 1st foreign matter storage bin 416.

Simultaneously, the air that flows into demarcation strip 437 upsides by conical strainer 405 is to pass through filtered air haply.Therefore, need be rotated airflow filtering once more at fine foreign matters.

Below, be described in detail for the swirling eddy filtration of carrying out once more.

Air by conical strainer 405 flows into several the 2nd separator box 424 inside by the 2nd movement-oriented structure 422.And because the 2nd movement-oriented structure 422 makes the air that flows into the 2nd foreign matter separator box 424 inner cylinder flow towards tangential direction, the air that therefore flows into the 2nd foreign matter separator box 424 inside is at the inner swirling eddy that produces of case.

Go to the whereabouts at the isolated foreign matter of the 2nd foreign matter separator box 424 inner utilization swirling eddies, be stored in the 2nd foreign matter storage bin 417.And for the foreign matter that prevents to have sunk disperses once more, the downside of the 2nd foreign matter separator box 424 has adopted contraction structure.And the leakage for the foreign matter that prevents to be collected in the 2nd storage bin 417 inside is provided with the 2nd case hermetically-sealed construction 402 at the 2nd foreign matter storage bin 417 downsides.

The 1st the case hermetically-sealed construction 415 is connected by shaft-like syndeton with the 2nd case hermetically-sealed construction 402.This is in order to increase the internal capacity of the 1st case hermetically-sealed construction 416.Specifically, owing in the space of 1 case hermetically-sealed construction, 415 upper ends, lower end to the of the 2nd case hermetically-sealed construction 402, can collect foreign matter,, preferably adopt the shaft-like less parts in the space of occupying to connect therefore in order to store more foreign matter.

Behind the 2nd foreign matter separator box 424 inner separating out foreign objects, flow into exhaust structure 407 inside, accumulate in the space of exhaust structure 407 and spacer structure 408 through exhaust structure suction inlet 425.Here, the diameter of exhaust structure suction inlet 425 is less than the interior warp of the 2nd foreign matter separator box 424, further reduced to be collected in the possibility that the foreign matter of the 2nd foreign matter separator box 424 inside flows to exhaust structure 407 thus.That is, the foreign matter that is collected in the 2nd foreign matter separator box 424 can not flow out by the suction inlet 425 of exhaust structure.

As preceding, the swirling eddy that has passed through two places carries out filtered air and flows in the motor by motor suction inlet 172.Behind motor, discharge by the rear of vacuum cleaner.

Simultaneously, also be provided with at the upside of spacer structure 408 and cover structure.Specifically, comprising: the 1st lid 410 that constitutes whole lid structure; Protect the 3rd lid the 412 and the 2nd lid 409 at the place ahead and the rear of the 1st lid 410; The lid plug-in unit 411 of fixing the 2nd lid 409 on the 1st lid 410 constitutes.

Figure 10 is the structural representation of vacuum cleaner of the present invention longitudinal cross-section.

Below in conjunction with the course of action of the detailed explanation dust collect plant 400 of Figure 10 and the course of action of vacuum cleaner fuselage 100.

As shown in figure 10, outside air flows into vacuum cleaner 100 inside by the fuselage side draught inlet 171 that links to each other with connector 6, passes through the inside of dust collect plant suction inlet 401 inflow dust collection devices 400 then.Then, inner at dust collect plant 400 through behind the foregoing process separating out foreign objects, flow into motor frame 300 inside by motor side suction inlet 172.

Motor frame 300 its inflow entrance under the state of vertical stand-up towards above.Therefore, after dust collect plant 400 horizontal leaked-in airs change directions, flow downward.Then, the fuselage exhaust outlet 302 by vacuum cleaner 100 back sides is discharged to the outside after having passed through motor frame 300.

Among the embodiment that content of the present invention is not limited to, and the knowledgeable people in the technical field of the invention can put forward various plans easily according to the present invention.But these are included in claims of the present invention.

Claims (3)

1. the suction nozzle displacement structure of a vacuum cleaner is characterized in that, includes: be arranged on vacuum cleaner fuselage (100) bottom, and be provided with the 1st base (110) of hatch frame (113); Be positioned at the 2nd base (150) of the 1st base (110) top; And be arranged on the 2nd base and with the corresponding setting of hatch frame (113) of the 1st base (110) be used to deposit the storage configuration (156) that prolongs pipe clip (7).

2. the suction nozzle displacement structure of vacuum cleaner according to claim 1, it is characterized in that, the storage of storage configuration (156) is provided with patchhole (159), be used for inserting from the outstanding projection (114) that is provided with of the 1st base (110) inner face, described projection (114) and patchhole (159) constitute supporting construction.

3. the suction nozzle displacement structure of vacuum cleaner according to claim 1 is characterized in that, storage configuration is arranged on the bottom surface of the 2nd base (150).

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