CN101108083A - Steam generating device and vacuum cleaner equipped with the same - Google Patents

Abstract

The invention discloses a steam generating device and a vacuum clearer comprising the device, which belongs to the clearer suitable for the attached purpose. The vacuum clearer of the invention comprises a motor composite unit generating attraction through rotating, a dust collecting unit main body for filtering foreign bodies in air and collecting dust and a suction nozzle provided with a steam generating device for heating water and supplying water vapor and used for guiding air and foreign bodies and enabling them flow into the main body. The invention is characterized in that: the steam generating device has at least two steam guiding pieces used for guiding the water vapor generated when heating water to lower section of the suction nozzle. The invention, with the structure as above, can clean dust more easily and supply steam more smoothly.

Description

Steam raising plant and the vacuum cleaner that is provided with this device

Technical field

The present invention is the relevant dust catcher that is suitable for attached purpose.In more detail, the present invention relates to have several steam water conservancy diversion to the steam raising plant of the steam conducting element of suction nozzle downside and the vacuum cleaner that comprises this device.

Background technology

Cleaning appliance is to clean to reduce a kind of device of hand labor by mechanical force, has occurred the cleaning appliance of many types recently.Such as, the vacuum cleaner that utilizes suction to carry out work, suck the water dust catcher of water and air simultaneously, and uperize, remove the steam cleaner of ground foreign matter etc.

Fig. 1 is the vacuum cleaner perspective view of prior art.As shown in the figure, vacuum cleaner comprises main body 1 and suction nozzle 2.Main body 1 inside is provided with the suction apparatus that sucks room air.The suction that suction nozzle 2 utilizes main body 1 to produce, the air on suction ground.

Main body 1 is by being provided with and the sub-body 5 of assembling suction apparatus and prevent that the parts of sub-body 5 from exposing, and in be provided with control vacuum cleaner distribution portion (figure slightly) upper body 6 constitute.

The end face of upper body 6 also be provided with handle 6 '.Handle 6 when the user moves dust catcher ' confession user grips, and upwards outstanding glossily from the end face of upper body 6.

Though do not illustrate, the right side of upper body 6 is provided with electric wire axle assembly.The electric wire 9 that will illustrate below electric wire axle assembly is used to twine certainly.

In addition, in order to allow main body 1 move, be assembled with wheel 8 in the two sides of main body along ground.On wheel 8, be formed with discharge portion 8a, be filtered foreign matter by suction nozzle 2 leaked-in airs after, by discharge portion 8a row to main body 1 outside.

Between main body 1 and suction nozzle 2, in turn be provided with the telescoping tube 3a of the suction hose 3b that constitutes by flexible material, the operating portion 4 that is connected suction hose 3b end, attended operation portion 4 and suction nozzle 2, the suction that main body 1 is produced is communicated to suction nozzle 2.

Behind the electric wire 9 connection power supplys that link to each other with the distribution portion that is arranged on main body 1 inside (figure omits), vacuum cleaner is in the operation wait state.At this moment, if the user utilizes the button of operating portion 4, regulate sucting stage, then the suction apparatus of main body 1 inside produces and corresponding suction of each stage.

The suction that produces by suction apparatus passes to suction nozzle 2 by being assembled in suction hose 3b, the telescoping tube 3a that sucks connecting portion 3c.Under the suction that passes to suction nozzle 2, foreign matters such as dust are inhaled into air, and airborne foreign matter is separated by collecting unit of dust, obtain filtered air and arrange to the outside of main body 1 by discharge portion 8a, clean by said process.

Fig. 2 is the steam cleaner perspective view of prior art; Fig. 3 is the steam cleaner main body vertical profile structural representation of Fig. 2.

Steam cleaner is heated by the water to the supply of tubbiness parts, produce high-temperature steam after, the main part that utilizes the rag parts attached to the bottom surface to clean, and the handle that can move main part constitutes; Main part connects by being connected tool or supporting tool with handle portion, can press the operation angle of handle, main part is shifted to all directions clean.

As shown in the figure, steam cleaner 20 is arranged on main part 30 end faces rotationally by the main part 30 with steam generating function, manually mobile agent portion 30, pull bar (stick) portion 40 of its operation is constituted.

Main part 30 is substantially by upper case 30 ' " combine formation with steam plate 30.The top outward appearance of upper case 30 ' formation main part 30, upper case 30 ' end face rear end central portion be combined with the lower end of rod section 40.

Between main part 30 and rod section 40, be provided with connection tool 32 integratedly.After being combined on the main part 30,, make main part 30 work of steam cleaner 20 to rod section 40 according to the driving that connects tool 32.

In the upper case 30 ' inside of main part 30, be provided with the bucket parts 33 that store certain water gaging.In the inside of bucket parts 33, be provided with heater H to the washings heating.In addition, heater H is provided with in the mode that can be immersed in water (washings) lining in the bucket parts 33.

Upper case 30 ' the bottom, be provided with steam plate 30 ".Steam plate 30 " sprays bucket parts 33 downwards by steam conducting element 33 ' vapor supplied.Steam conducting element 33 ' number be one, be arranged on the central portion of bucket parts 33, to downside water conservancy diversion water vapour.

In addition, upper case 30 ' end face, be formed with the water inlet 34 that injects water to the bucket parts, the end face of water inlet 34 be provided with cover 34 ', in order to sealing water inlet 34.

The bottom surface that steam plate 30 " is arranged on the bottom surface of main part 30, at steam plate 30 " is covered with rag parts 36.Thereby the user can utilize steam and rag parts 36 easily ground to be cleaned.

Be provided with rod section 40 at the upside that connects tool 32.Be formed with handle 42 in the upper end of rod section 40.At the leading section of handle 42, be provided with the action button 44 of on/off power supply or adjusting intensity.

Though diagram is not provided with steam raising plant in the inside of main part 30.The steam that steam raising plant produces sprays to the bottom of main part 30.Steam is injected on the rag parts 36 equably, makes rag parts 36 keep high temperature, can clean neatly.

But there are the following problems for prior art.

Conventional vacuum dust catchers such as the pot type of top example (Canister) dust catcher are by being installed in the drive motors of main body 1 inside, the suction that utilizes air pressure difference to produce, suck the various dusts and the foreign matter on carpet, furniture or ground in short time, the equipment that cleans.

But, when designing, this vacuum cleaner only considers the function that sucks floor-dust, mainly be suitable for using the Western Residential Culture of carpet or furniture, for not using furniture, health is in direct contact with the warm a heatable brick bed formula Residential Culture of the China of living on a heatable brick bed, be not very suitable, therefore need clean doubly.That is, in traditional Residential Culture of China, owing to do not lay carpet or furniture, but make the bed or the floor, when therefore cleaning ground, not only to remove dust, also need the wet tissue wiping is carried out on ground, finish cleaning work.

Therefore, after tentatively removing bigger rubbish or various foreign matter by conventional vacuum dust catchers such as pot types, again utilize moisture rag or top steam cleaner that wiping is carried out on ground, carry out 2 cleanings, cleaning work is very numerous and diverse, and needs to distinguish cleaner by kind.

Thereby, need purchase two cleaners, need more expense of cost and work, and, need guarantee to take care of more fully the space for two cleaners of keeping.

In addition, only be provided with in steam cleaner main part 30 inside a steam conducting element 33 '.Thereby,, must make it to have enough big internal diameter in order to allow the water conservancy diversion water vapour of steam conducting element 33 ' swimmingly.Therefore the water (washings) that has bucket parts 33 inside is the problem by steam conducting element 33 ' flow downward also.

Specifically, when the water (washings) of bucket parts 33 inside by heater H heating boiling was taken place, water can be splashed to steam conducting element 33 ' inside, flows to steam plate 30 ".

Summary of the invention

The present invention proposes in order to address the above problem, and its objective is to providing a kind of to carry out simultaneously that vacuum is given a dinner of welcome and the vacuum cleaner that is provided with steam raising plant of cleaning steam.

Another object of the present invention is for a kind of steam raising plant with steam water conservancy diversion of producing when a plurality of handles add hot water to the steam conducting element of suction nozzle downside is provided.

Steam raising plant of the present invention comprises the heater that adds hot water; Be provided with the steam water conservancy diversion that produces when adding hot water at least 2 steam conducting elements in a side of heater to the suction nozzle bottom.

Described steam raising plant, its heater have " U " shape shape, and the steam conducting element is arranged on the heater inboard or the outside.

Described steam raising plant, its heater have " U " shape shape, and the steam conducting element is arranged on the heater inboard and the outside.

Described steam raising plant, its steam conducting element has drum and is arranged on the above-below direction.

The vacuum cleaner that is provided with steam raising plant of the present invention comprises having the group of motors zoarium that produces suction by rotation, to airborne foreign matter filter, the main body of the collecting unit of dust of control of dust; Diversion air and foreign matter also make it to flow into body interior, have the suction nozzle of the steam raising plant that adds hot water and supply steam; Its steam raising plant has the steam water conservancy diversion that produces when adding hot water at least 2 steam conducting elements to the suction nozzle bottom.

Described vacuum cleaner, its steam raising plant is provided with the heater that adds hot water, and at least 2 steam conducting elements are formed on a side of heater.

The present invention with said structure can carry out cleaning work more easily, supply steam more swimmingly.

The vacuum cleaner that is provided with steam raising plant of the present invention, in the time of by the suction nozzle aspirated foreign body, uperize utilizes the foreign matter on rag wiping ground.Can carry out promptly that vacuum is given a dinner of welcome and the wet tissue cleaning operation by one-stop operation simultaneously, can improve operating efficiency, and the reduction expense.

In addition, steam raising plant of the present invention has the steam conducting element of several steam water conservancy diversion to the suction nozzle downside.Thereby can be more swimmingly to suction nozzle downside supply steam.

Moreover, a plurality of steam conducting elements have the internal diameter that water is not easy to pass through, and compare with the situation that only has a steam conducting element of prior art, and the present invention more ninor feature becomes the internal diameter of steam conducting element.Thereby, can prevent that the globule from flowing into the phenomenon of suction nozzle downside.

Description of drawings

Fig. 1 is the vacuum cleaner perspective view of prior art;

Fig. 2 is the steam cleaner perspective view of prior art;

Fig. 3 is the steam cleaner main body vertical profile structural representation of Fig. 2;

Fig. 4 is the vacuum cleaner surface structure schematic diagram that is provided with steam raising plant;

Fig. 5 is the suction nozzle surface structure schematic diagram that adopts steam raising plant of the present invention;

Fig. 6 adopts the nozzle portion of steam raising plant of the present invention to cut structural representation open;

Fig. 7 is the suction nozzle decomposition texture schematic diagram that adopts steam raising plant of the present invention;

Fig. 8 is the suction nozzle vertical profile side-looking structural representation that adopts steam raising plant of the present invention;

Fig. 9 is the suction nozzle vertical profile master TV structure schematic diagram that adopts steam raising plant of the present invention;

Figure 10 is the suction nozzle bottom surface perspective view that adopts steam raising plant of the present invention.

Accompanying drawing critical piece remarks:

50: main body 60: telescoping tube

70: connect flexible pipe 80: the work handle

100: suction nozzle 110: chassis

112: suck 114: move wheel

116: tube connector 118: buffer unit

120: steam raising plant 130: the steam shell

132: steam base 134: vapour hood

136: vapor generation part 138: water portion

140: heater 146: the suction filter

150: water filling 152: the water filling port valve

160: suck path pipe 170: the plate resettlement section

172: steam diversion component 174: the steam squit hole

180: Wiping cloth plate 182: the rag facies posterior hepatis

184: expose 190: rag

200: shell 210: central authorities' cover

212: display part.

The specific embodiment

The present invention is described in detail to reach embodiment with reference to the accompanying drawings.

No matter the kind of cleaner and title, steam raising plant of the present invention is all applicable on the multiple cleaner.Here, be example to be applicable to normally used vacuum cleaner, it is elaborated.

Fig. 4 is the vacuum cleaner surface structure schematic diagram that is provided with steam raising plant.

As shown in the figure, vacuum cleaner is included in the main body 50 that inside is provided with multiple parts, can regulate the telescoping tube 60 of length, be connected with telescoping tube 60 and diversion air and foreign matter be connected flexible pipe 70 by what the retractility material was made, and move with the close state in ground, suction nozzle 100 that diversion air and foreign matter flow into etc.

In more detail, suction nozzle 100 and main body 50 have the structure that is separated from each other, and are provided with telescoping tube 60 between the two and are connected flexible pipe 70 parts such as grade, the flowing of diversion air and foreign matter.An end (front end) that is telescoping tube 60 is connected with suction nozzle 100, and an end (rear end) that connects flexible pipe 70 is combined on the leading section of main body 50.

The other end (rear end) at telescoping tube 60 is provided with work handle 80.Work handle 80 is the positions that grip for the user when the user carries out cleaning work, in the front of work handle 80, is formed with the operating portion 82 that the user can operating vaccum suction cleaners.

Therefore, the user is under the state with holds work handle 80, and by manipulation operations portion 82, whether the action of decision cleaner regulates the power of cleaner, perhaps controls the On/Off of steam raising plant 120.

In the inside of main body 50, be provided with under the effect of power supply rotation and produce the group of motors zoarium (figure slightly) of suction, and the foreign matter in the filtered air, carry out the multiple parts such as collecting unit of dust 52 of control of dust.

When connecting external power source generation suction, extraneous air and foreign matter flow into by suction nozzle 100, flow through telescoping tube 60 and connect flexible pipe 70 etc., enter main body 50 inside, the foreign matter that flow into main body 50 inside is filtered by the filter of collecting unit of dust 52 inside (figure slightly), and is stacked on collecting unit of dust 52 inside.

Fig. 5 to Figure 10 has at length illustrated the structure of suction nozzle 100.Fig. 5 is the suction nozzle surface structure schematic diagram that adopts steam raising plant of the present invention;

Fig. 6 adopts the nozzle portion of steam raising plant of the present invention to cut structural representation open; Fig. 7 is the suction nozzle decomposition texture schematic diagram that adopts steam raising plant of the present invention; Fig. 8 is the suction nozzle vertical profile side-looking structural representation that adopts steam raising plant of the present invention; Fig. 9 is the suction nozzle vertical profile master TV structure schematic diagram that adopts steam raising plant of the present invention; Figure 10 is the suction nozzle bottom surface perspective view that adopts steam raising plant of the present invention.

Suction nozzle 100 is to suck ground foreign matter and air, makes it to flow into the parts of main body 50 inside, and as shown in the figure, its whole outward appearance is by the chassis 110 that forms the bottom surface, and shell 200 formation that are combined in base disk 110 upsides.

Chassis 110 has rectangular shape, runs through by above-below direction at its front end central portion to be formed with the suction inlet 112 that flows into extraneous air and foreign matter.Be the air and the foreign matter of chassis 110 downsides, move to the upside on chassis 110 by suction inlet 112.

110 the rear end on the chassis is provided with and moves wheel 114.Moving wheel 114 is parts that suction nozzle 100 is moved easily, about be provided with a pair of.In addition, about the front end on chassis 110, be provided with a pair of auxiliary wheel 114 ', help suction nozzle 100 to move.

110 the central portion rear end on the chassis rearward is provided with tube connector 116 with connecting.Tube connector 116 guiding telescoping tubes 60 combine with suction nozzle 100.Thereby the front end of telescoping tube 116 is connected with the rear end of suction nozzle 100, and the rear end combines with the front end of telescoping tube 60.In addition, telescoping tube 116 has drum, will flow into the air of suction nozzle 100 inside and foreign matter water conservancy diversion to telescoping tube 60.

In addition, 110 edges on the chassis are provided with buffer unit 118 with adhering to.In more detail, 110 front and left and right side on the chassis are provided with the buffer unit of being made by the rubber elastomeric material 118 with adhering to.When the collision of exterior objects such as suction nozzle 100 and metope, sort buffer parts 118 prevent the breakage of suction nozzle 100, play the effect of impacting that relaxes.

Be provided with the steam raising plant 120 that adds hot water and supply steam in the inside of suction nozzle 100.

As shown in the figure, the outward appearance of steam raising plant 120 is formed by steam shell 130 substantially.Steam shell 130 is made of plate shaped steam base 132 and the vapour hood 134 that is combined in steam base 132 upsides.Thereby, between steam base 132 and vapour hood 134, form certain space.

In the space between steam base 132 and the vapour hood 134, be formed with the vapor generation part 136 that adds hot water and produce steam, and to water portion 138 that vapor generation part 136 supplies water.That is, the space between steam base 132 and the vapour hood 136, two parts about being divided into form vapor generation part 136 in relative left part, divide in the right side to form water portion 138.

In more detail, vapor generation part 136 is formed on more longways by fore-and-aft direction near the left-hand end of suction nozzle 100, and the central portion that suction nozzle 100 is run through in water portion 138 is formed on the left and right directions more longways, and vapor generation part 136 is interconnected with water portion 138.

Like this, the length on the fore-and-aft direction of vapor generation part 136 is greater than the length of water portion 138, and the length on its left and right directions is less than water portion 138.In addition, the height of vapor generation part 136 is greater than the height of water portion 138.This is because vapor generation part 136 need have the sufficient room that can produce steam, and the heater 140 that will illustrate below need being provided with.

In vapor generation part 136, be provided with heater 140.Heater 140 produces heat when connecting external power source, the water of vapor generation part 136 is converted to steam.As shown in the figure, heater 140 has U-shaped structure (when observing from the top) and is advisable.

In the rearward end of vapor generation part 136, be formed with heater support 142.Heater support 142 forms from steam base 132 with projecting upwards, fixes and support the two ends of heater 140.

On vapor generation part 136, be formed with a plurality of steam conducting elements 144 of the steam water conservancy diversion of water heating back formation to suction nozzle 100 bottoms.Steam conducting element 144 projects upwards certain altitude from steam base 132, forms by form aisled quill shaft in inside.That is, steam conducting element 144 has certain-length by above-below direction, has the drum of inner hollow.

Steam flows by steam conducting element 144.That is, the steam of vapor generation part 136 formation flow to steam base 132 downsides by steam conducting element 144.

A plurality of steam conducting elements 144 are separately positioned on a side of heater 140.That is, be separately positioned on heater 140 inboards and the outside with " U " shape (when observing) structure from the top.In more detail, as shown in the figure, steam conducting element 144 is to be provided with two in the inboard of " U " shape heater 140, respectively is provided with two on the left side and the right side of heater 140, is provided with two in the place ahead of heater.

When so increasing the quantity of steam conducting element 144, can dwindle the internal diameter of steam conducting element 144 relatively.That is, owing to need be fed to suction nozzle 100 downsides to the steam that vapor generation part 136 produces swimmingly.If when reducing steam conducting element 144 quantity, need to increase steam conducting element 144 internal diameters that steam flows through; On the contrary, when increasing steam conducting element 144 quantity,, also can supply steam fully even the internal diameter of steam conducting element 144 is little.

So dwindle steam conducting element 144 internal diameters, can prevent that water from flowing into steam conducting element 144.That is, the water of heater 140 heating seethes with excitement, and a part of water splashes, and the globule that splashes might flow to steam base 132 downsides by steam conducting element 144 with steam.But if the internal diameter of steam conducting element 144 is little, the globule that then splashes can reduce relatively by the probability that steam conducting element 144 flow to steam base 132 downsides.

In addition, in the bottom surface of vapor generation part 136, be formed with suction filter 146.Suction filter 146 has and the corresponding rectangular shape of vapor generation part 136 bottom surfaces size, is positioned at the downside of heater 140.

In more detail, the bottom surface of suction filter 146 contacts with steam base 132, and end face contacts with heater 140.In addition, this suction filter 146 is fabricated to suitable by easy suction, material that heat resistance is good.That is, suction filter 146 is formed by the material that can absorb moisture as sponge (sponge) etc., have with heater 140 state of contact under the strong heat resistance that also can not burn.Such as, by material manufacturings such as asbestos.

Absorbed water filter 146 of the water of vapor generation part 136 and water portion 138 absorbs.That is, the water of water portion 138 is also absorbed by suction filter 146 after flowing to vapor generation part 136.The moisture that is absorbed by suction filter 146 is heated by heater 140, evaporates, and is converted into steam.

Vapour hood 134 has hierarchic structure.As shown in the figure, vapour hood 134 is divided into that the steam portion cover 134 that covers vapor generation part 136 upsides ' and "; the steam portion cover 134 in left side ' and the storage portion cover 134 on right side " is connected steppedly to cover the storage portion cover 134 of water portion 138 upsides, steam portion cover 134 ' height be relatively higher than storage portion and cover 134 " height.

Like this, water portion 138 overall volume are greater than the volume of vapor generation part 136.That is, the water yield that is stored at water portion 138 is far longer than the water yield in the vapor generation part 136.

Why allowing the water yield of water portion 138 greater than the water yield of vapor generation part 136, is because this time required can shorten heater 140 and allow the water evaporation time.The inside that is steam raising plant 120 is divided into water portion 138 and vapor generation part 136, and the suction filter 146 of vapor generation part 136 contains water, therefore, when heater 140 heats, at first add the moisture that heat absorbing water filter 146 contains and make it evaporation.

In more detail, the effect that water that quilt suction filter 146 absorbs and the water that is stored at water portion 138 obtain being separated from each other, because when heater 140 work that contact with suction filter 146, the water that is contained in 146 li of suction filters around the heater 140 at first is heated, evaporates.Thereby, to compare with the situation of the water of vapor generation part 136 inside with heating water portion 138 simultaneously, the time that steam (steam) generates is shortened greatly.

On vapour hood 134, be formed with water filling port 150.That is, at the right-hand end of vapour hood 134, be formed with the water filling port 150 that runs through by above-below direction, this water filling port 150 projects upwards a part.Inboard at water filling port 150 is formed with screw thread.

In addition, water filling port 150 is sealed by water filling port valve 152 with being allowed a choice.As shown in the figure, after the lower end formed threaded circular water filling port valve 152 and water filling port 150 screw threads combine, water filling port 150 was closed.

At water portion 138 upsides of steam raising plant 120, be provided with and suck path pipe 160." upside is provided with and sucks path pipe 160, and this sucks path pipe 160 the rear from outside leaked-in air and foreign matter water conservancy diversion to suction nozzle 100 promptly at the storage portion of vapour hood 134 cover 134.

Suck path pipe 160 and cross suction nozzle 100 central portions by fore-and-aft direction, its front end combines with suction inlet 112.The front end that promptly sucks path pipe 160 combines with the upper end of suction inlet 112 to the vertical warpage of downside.

110 the bottom on the chassis upwards has been recessed to form rectangular plate shape plate resettlement section 170.Plate resettlement section 170 is parts of the Wiping cloth plate 180 that will illustrate below being used to pack into, and this plate resettlement section 170 is fabricated to suitable by metal material, so that combine by magnetic force with Wiping cloth plate 180.

Central portion in plate resettlement section 170 is formed with steam diversion component 172 more longways by left and right directions.Inside at steam diversion component 172 is formed with path, allows the steam that flow to chassis 110 downsides by steam conducting element 144 disperse to the left and right, makes it diffusion.

In the bottom surface of steam diversion component 172, run through by above-below direction and to be formed with a plurality of steam squit holes 174.Arranged to downside by steam squit hole 174 by the steam of steam diversion component 172 water conservancy diversion.

Rectangle Wiping cloth plate 180 is installed on plate resettlement section 170.Wiping cloth plate 180 is the plates that adhere to rag 190, and its bottom surface is formed with the rag facies posterior hepatis 182 that adheres to rag 190.As shown in figure 10, at the bottom surface of Wiping cloth plate 180 first half and latter half of, be formed with long rag facies posterior hepatis 182 respectively by left and right directions.

Rag facies posterior hepatis 182 also is called Velcro (velcro) velcro, constitutes suitable by magic sticky cloth (magictape) (being commonly called as nylon adherent buckle).Though diagram not is formed with the corresponding rag 190 of Velcro and rag facies posterior hepatis 182 at end face, and attached to Wiping cloth plate 180 bottom surfaces.

Though not shown, in the inside of Wiping cloth plate 180, permanent magnet is set more longways by left and right directions.This permanent magnet is the parts that are used for easily Wiping cloth plate 180 being sticked on plate resettlement section 170.That is, plate resettlement section 170 is formed by metal material, and is provided with permanent magnet in Wiping cloth plate 180 inside, therefore Wiping cloth plate 180 is come to plate resettlement section 170 when neighbouring, and Wiping cloth plate 180 can automatically paste on the plate resettlement section 170.

At the central portion of Wiping cloth plate 180, run through to be formed with by above-below direction and expose mouthfuls 184.Promptly at the central portion of Wiping cloth plate 180, left and right directions is formed with more longways and corresponding with steam diversion component 172 left and right sides length exposes mouthfuls 184.Thereby the bottom surface of steam diversion component 172 is exposed at Wiping cloth plate 180 bottoms by exposing mouth 184.

Shell 200 forms suction nozzle 100 all arounds and end face outward appearance, and combines with chassis 110.Near shell 200 right-hand ends, be recessed to form the valve installation portion 202 that water filling port valve 152 is installed downwards.In addition, at the central portion of valve installation portion 202, run through by above-below direction and to be formed with the valve through hole 204 that water filling port valve 152 bottoms are run through.

At shell 200 central portions, also be provided with the central authorities' cover 210 that crosses by fore-and-aft direction.On central authorities' cover 210, also be formed with display part 212.Display part 212 outwards shows the duty of steam raising plant 120, and whether main the demonstration powers, and whether needs amount of makeup water.

The vacuum cleaner that has the steam raising plant of said structure and be provided with this steam raising plant, its operation principle is as follows.

At first, the user rotates water filling port valve 152, behind the open water filling port 150, by the water of water filling port 150 supplies from the outside.After the water amount of water portion 138 reaches proper level, utilize water filling port valve 152 sealing water filling ports 150.

Then, connect external power source, to main body 50 and suction nozzle 100 supply power supplys.Next, the group of motors zoarium (figure slightly) that is positioned at the inside of main body 50 is rotated, and suction takes place.

At this moment, as shown in Figure 8, foreign is inhaled into the suction inlet 112 of air by suction nozzle 100, flows into main body 50 inside by sucking path pipe 160, flow through telescoping tube 60 and connecting flexible pipe 70.Flow into the airborne foreign matter of main body 50 inside, filtered, obtain the foreign matter filtered air, flow through the fit row of group of motors to the outside by the filter set zoarium of collecting unit of dust 52 inside (figure slightly).

In addition, under the external power source effect of connecting, steam raising plant 120 carries out work.External power source is fed to heater 140, and heater 140 is heated.At this moment, water is fed to water portion 138 by water filling port 150, and suction filter 146 has been in the state that has fully absorbed water.

When heater 140 heated, the water of suction filter 146 inside that contact with heater 140 was heated, and formed steam.Here, be heater 140 water on every side that absorbs by suction filter 146 by heater 140 instantaneously heated water at the beginning, rather than the whole water in steam shell 130 inside.

In more detail, heater 140 bottom surfaces are provided with the states that are placed on above the suction filter 146, thus during heater 140 heating, the water around the heater 140, the water that the filter 146 that promptly absorbs water is contained at first is heated, and is transformed into steam.Therefore (according to about 10～20 seconds of test) is evaporated soon, produces steam.

The steam that heater 140 produces as shown in Figure 9, flow to downside by steam conducting element 144, flows into steam diversion component 172.Here, owing to be provided with a plurality of steam conducting elements 144, and its internal diameter is fully little, therefore the globule that splashes almost can not pass through steam conducting element 144, has only steam to flow through steam conducting element 144, flows into steam diversion component 172.

Here, steam diversion component 172 is formed on left and right directions more longways, allows discharge downwards by a plurality of steam squit holes 174 dispersedly about the steam of steam diversion component 172 inside.

By the steam of neat squit hole 174 rows, flow into rag 190 inside to the outside.Thereby rag 190 absorbs high-temperature steam, becomes wet rag, with this state wiping ground, can remove the foreign matter on ground at an easy rate.

In addition, show that by display part 212 whether steam forms.That is, when heater 140 produced steam to the water heating, display part 212 showed this state.In addition, display part 212 shows also whether the water yield is sufficient.That is, though do not illustrate, be measured to water shortage if be arranged on the level sensor of water portion 138 inside, then this state is shown to the outside by display part 212.Thereby the user can take adequate measures according to the various information of display part 212 demonstrations.

Scope of the present invention is not subject to the foregoing description, in above-mentioned technical scope, for the those of ordinary skill of the industry, can be based on the present invention, multiple other distortion are proposed.

Such as, though in the foregoing description, a plurality of steam conducting elements 144 are respectively formed at the inboard and the outside of " U " shape heater 140, these a plurality of steam conducting elements 144 also can only be formed on the inboard or the outside of heater 140.

Claims (6)

1. a steam raising plant comprises that the heater (140) that adds hot water is characterized in that the side at heater (140), is provided with the steam water conservancy diversion that produces when adding hot water at least 2 the steam conducting elements (144) to suction nozzle (100) bottom.

2. steam raising plant according to claim 1 is characterized in that heater has " U " shape shape, and steam conducting element (144) is arranged on heater (140) inboard or the outside.

3. steam raising plant according to claim 1 is characterized in that heater has " U " shape shape, and steam conducting element (144) is arranged on heater (140) inboard and the outside.

4. according to claim 1 or 2 or 3 described steam raising plants, it is characterized in that steam conducting element (144) has drum and is arranged on the above-below direction.

5. vacuum cleaner that is provided with steam raising plant comprises having the group of motors zoarium that produces suction by rotation, to airborne foreign matter filter, the main body (50) of the collecting unit of dust (52) of control of dust; Diversion air and foreign matter also make it to flow into main body (50) inside, have the suction nozzle (100) of the steam raising plant (120) that adds hot water and supply steam; It is characterized in that steam raising plant (120) has the steam water conservancy diversion that produces when adding hot water at least 2 the steam conducting elements (144) to suction nozzle (100) bottom.

6. vacuum cleaner according to claim 4 is characterized in that steam raising plant (120) is provided with the heater (140) that adds hot water, and at least 2 steam conducting elements (144) are formed on a side of heater (140).

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