CN203878386U - Steam iron allowing vertical ironing - Google Patents

Abstract

The utility model discloses a steam iron allowing vertical ironing and belongs to clothing ironing equipment. The existing steam iron cannot iron when being used vertically due to being free of steam. The steam iron allowing vertical ironing comprises that a second water inlet channel is connected between the rear portion bottom wall of a water tank and a second vaporizing chamber; the second water inlet channel is configured with a second water valve; a cross lever is arranged between the second water valve and a steam adjusting rod; a shifting button is provided with three working positions; a first water valve and the second water valve are controlled to be closed by the steam adjusting rod and the cross lever when the shifting button is arranged at a first working position; the first water valve is controlled to be open and the second water valve is controlled to be closed by the steam adjusting rod and the cross lever when the shifting button is arranged at the second working position; the first water valve is controlled to be closed and the second water valve is controlled to be opened by the steam adjusting rod and the cross lever when the shifting button is arranged at the third working position. The iron which can provide water for the vaporizing chamber to generate steam is suitable for utilization in two states.

Description

The steam iron that can vertically press

Technical field

The utility model belongs to clothing ironing equipment, the steam iron that specifically can vertically press.

Background technology

Mostly the steam of existing electric iron is to use and just have steam to produce under flatiron floor level state, holds up the used time just not have steam flatiron base plate, and this is by the structures shape of existing electric iron own.But electric iron has the demand of flatiron base plate being holded up use when flatiron.

Known flatiron base plate holds up the product that the used time can produce steam to have Garment Steamer Machine, band electromagnetic pump electric iron, electrode ionization electric iron etc.

The type of Garment Steamer Machine is very large, and cost is high, and function and electric iron belong to two kinds of different products.

Band electromagnetic pump electric iron, because having added electromagnetic pump, significantly improves electric iron cost, and weight has also weighed a lot, and structure is different from common electric iron.

Electrode ionization electric iron, because of security reason, is eliminated by market.

Utility model content

The technical assignment of the technical problems to be solved in the utility model and proposition is to overcome existing steam iron to hold up the used time there is no the defect of steam flatiron base plate, a kind of steam iron that can vertically press is provided, flatiron base plate can be kept flat to use, also flatiron base plate vertically can be used.

For achieving the above object, steam iron the first scheme that can vertically press of the present utility model is: it comprises flatiron base, water tank, lever, described flatiron base has the exhaust hole that is located at inner vaporization chamber and is distributed in bottom surface, the front end of described lever is provided with toggle, it is characterized in that: between the rear portion diapire of described water tank and described vaporization chamber, be connected with intake tunnel, for this intake tunnel configuration water valve, between described water valve and described toggle, be connected with transmission mechanism, when being provided with two operating positions and being positioned at one of them operating position for described toggle, by described transmission mechanism, open described water valve, while being positioned at wherein another operating position, by described transmission mechanism, close described water valve.

Optimization technique means as above-mentioned the first scheme: described toggle is eccentric colyliform, described transmission mechanism comprises vertical expansion link and horizontal lever, one end of described horizontal lever coordinates with described vertical expansion link, its other end coordinates with described water valve, when described toggle is positioned at an operating position, depress described vertical expansion link and by vertical expansion link, order about horizontal lever tilting and open described water valve, described toggle discharges described vertical expansion link order described vertical expansion link and laterally lever reset, water valve and closes while being positioned at another operating position.Concrete, on described vertical expansion link, effect has back-moving spring.

Optimization technique means as above-mentioned the first scheme: described water valve comprises sealing gasket, telescopic shaft, back-moving spring, described sealing gasket, back-moving spring are nested with on described telescopic shaft, and the elastic force of described back-moving spring impels the port pressure holding to described intake tunnel by described sealing gasket of described telescopic shaft.Concrete, the lower end of described telescopic shaft is located in described intake tunnel and is provided with flange, its top is positioned at described water tank and cover has axle sleeve, described back-moving spring is positioned at described intake tunnel and its two ends are supported on respectively on the diapire of described flange and described water tank, and described sealing gasket is between described axle sleeve and the diapire of described water tank.Then, described toggle is eccentric colyliform, described transmission mechanism comprises vertical expansion link and horizontal lever, described vertical expansion link is provided with downward step, described telescopic shaft is provided with axially loaded portion, one end of described horizontal lever is enclosed within on described vertical expansion link by open pore and is positioned at the downside of described step, its other end is enclosed within on described telescopic shaft by open pore and is positioned at the downside of described axially loaded portion, when described toggle is positioned at an operating position, depress described vertical expansion link and by vertical expansion link, order about horizontal lever tilting and open described water valve, described toggle discharges described vertical expansion link order described vertical expansion link and laterally lever reset while being positioned at another operating position, water valve cuts out.Further, on described vertical expansion link, effect has back-moving spring.

Optimization technique means as above-mentioned the first scheme: described water valve is extended in described intake tunnel and formed by the lower end of a steam adjusting rod, and the lower end of described steam adjusting rod is provided with for controlling the side direction breach of current.

Optimization technique means as above-mentioned the first scheme: described vaporization chamber is become greatly gradually by the space before backward, and the front end of described vaporization chamber is communicated with described exhaust hole through steam (vapor) outlet.Concrete, the top of described vaporization chamber is that plane, bottom are that Qie Gai inclined-plane, inclined-plane is low early and high after.Further, described flatiron base has steam release channel, and described vaporization chamber is communicated with described exhaust hole through described steam (vapor) outlet, steam release channel successively.

Optimization technique means as above-mentioned the first scheme: maintain insulated space between described flatiron base and water tank.

For achieving the above object, the steam iron first scheme that can vertically press of the present utility model is: it comprises flatiron base, water tank, lever, described flatiron base has the first vaporization chamber that is located at its inside, the second vaporization chamber and be distributed in the first row steam vent of its bottom surface, second row steam vent, the front end of described lever is provided with toggle, coordinate with described toggle and establish a steam adjusting rod, between the anterior diapire of described water tank and described the first vaporization chamber, be connected with the first intake tunnel, the lower end of described steam adjusting rod extends formation the first water valve in this first intake tunnel, the lower end of described steam adjusting rod is provided with for controlling the side direction breach of current, it is characterized in that: between the rear portion diapire of described water tank and described the second vaporization chamber, be connected with the second intake tunnel, for this second intake tunnel configures the second water valve, between described the second water valve and described steam adjusting rod, be provided with horizontal lever, for described toggle is provided with three operating positions, when described toggle is positioned at wherein the first operating position by described steam adjusting rod, described the first water valve controlled by horizontal lever and the second water valve cuts out, when described toggle is positioned at wherein the second operating position by described steam adjusting rod, laterally lever is controlled described the first water valve unlatching, the second water valve cuts out, when described toggle is positioned at wherein the 3rd operating position by described steam adjusting rod, horizontal lever is controlled described the first water valve and is closed, the second water valve is opened.

Optimization technique means as above-mentioned first scheme: described toggle is eccentric colyliform, and the first described operating position, the second operating position, the 3rd operating position is adjacent successively, described toggle discharges the described steam adjusting rod of described steam adjusting rod order and laterally lever reset while being positioned at described the first operating position, the first water valve and the second water valve are closed, when described toggle is positioned at described the second operating position, depressing described steam adjusting rod makes the first water valve open, the second water valve cuts out, described toggle continues to depress described steam adjusting rod while being positioned at described the 3rd operating position makes described the first water valve close, and by steam adjusting rod, order about horizontal lever tilting and open described the second water valve.Concrete, on described steam adjusting rod, effect has back-moving spring.

Optimization technique means as above-mentioned first scheme: the second described water valve comprises sealing gasket, telescopic shaft, back-moving spring, described sealing gasket, back-moving spring are nested with on described telescopic shaft, and the elastic force of described back-moving spring impels the port pressure holding to described the second intake tunnel by described sealing gasket of described telescopic shaft.Concrete, the lower end of described telescopic shaft is located in the second described intake tunnel and is provided with flange, its top is positioned at described water tank and cover has axle sleeve, described back-moving spring is positioned at the second described intake tunnel and its two ends are supported on respectively on the diapire of described flange and described water tank, and described sealing gasket is between described axle sleeve and the diapire of described water tank.Described steam adjusting rod is provided with downward step, described telescopic shaft is provided with axially loaded portion, and one end of described horizontal lever is enclosed within on described steam adjusting rod by open pore and is positioned at the downside of described step, its other end is enclosed within on described telescopic shaft by open pore and is positioned at the downside of described axially loaded portion.

Optimization technique means as above-mentioned first scheme: the second described vaporization chamber is become greatly gradually by the space before backward, and the front end of described the second vaporization chamber is communicated with described second row steam vent through the second steam (vapor) outlet.Concrete, the top of described the second vaporization chamber is that plane, bottom are that Qie Gai inclined-plane, inclined-plane is low early and high after.Further, described flatiron base has the first steam release channel, the second steam release channel that is located at its inside, the first described vaporization chamber is communicated with described first row steam vent through the first steam (vapor) outlet, the first described steam release channel successively, and the second described vaporization chamber is communicated with described second row steam vent through the second described steam (vapor) outlet, the second steam release channel successively.Especially, the second described vaporization chamber is positioned at the middle part of described flatiron base, and the first described vaporization chamber is positioned at the outside of described the second vaporization chamber.What is more, the second described steam release channel is positioned at the front portion of described flatiron base, and the first described steam release channel is positioned at the described outside of the first vaporization chamber, the edge of described flatiron base.

Optimization technique means as above-mentioned first scheme: the quantity of described first row steam vent is more than the quantity of described second row steam vent.

Optimization technique means as above-mentioned first scheme: maintain insulated space between described flatiron base and water tank.

The utility model is by being connected with intake tunnel between the rear portion diapire at water tank and vaporization chamber, for this intake tunnel configuration water valve, and control closing and opening of this water valve by stirring the toggle of lever front end, when flatiron base plate keeps flat, retaining in water tank can be supplied water to vaporization chamber as existing product, when flatiron base plate is placed vertically, because water valve is positioned at the rear portion of water tank, therefore current can supply water to vaporization chamber equally, thereby realize, no matter flatiron keeps flat or places vertically, all can, to vaporization chamber for water generates steam, be suitable for two kinds of attitudes and use; And can control water valve by controlling toggle.

The utility model can arrange one or two vaporization chambers, realizing a vaporization chamber is keeping flat, vertically under two states, is producing steam, or by two vaporization chambers, keeping flat, vertically under two states, producing steam respectively, and be aided with toggle switching controls, easy to use.

Accompanying drawing explanation

Fig. 1 is the structural representation with two air valves, two vaporization chambers (the first embodiment) of the utility model steam iron that can vertically press;

Fig. 2 presses the schematic top plan view of base in structure shown in Fig. 1;

Fig. 3 is that when shown in Fig. 1, in structure, toggle is positioned at the first operating position, vertical expansion link is related to schematic diagram with horizontal lever positions;

Fig. 4 is that when shown in Fig. 1, in structure, toggle is positioned at the second operating position, vertical expansion link is related to schematic diagram with horizontal lever positions;

Fig. 5 is that when shown in Fig. 1, in structure, toggle is positioned at the 3rd operating position, vertical expansion link is related to schematic diagram with horizontal lever positions;

Fig. 6 is the structure enlarged drawing of the first water valve, the second water valve in structure shown in Fig. 1, and now button is positioned at the first operating position;

Fig. 7 is the schematic diagram of structure shown in Fig. 6 when button is positioned at the second operating position;

Fig. 8 is the schematic diagram of structure shown in Fig. 6 when button is positioned at the 3rd operating position;

Fig. 9 is the structure enlarged diagram of the water valve with an air valve, a vaporization chamber (the second embodiment) of the utility model steam iron that can vertically press;

Figure 10 is the schematic diagram of the flatiron base with an air valve, a vaporization chamber (the second embodiment) of the utility model steam iron that can vertically press;

Number in the figure explanation:

01-presses base, 11-the first vaporization chamber, 12-the second vaporization chamber, 13-first row steam vent, 14-second row steam vent, 15-the second steam (vapor) outlet, 16-the first steam release channel, 17-the second steam release channel, 18-the first steam (vapor) outlet;

02-water tank, the diapire of 21-water tank;

03-lever;

41-toggle;

42-steam adjusting rod, 421-side direction breach, 422-back-moving spring, 423-step;

The horizontal lever of 43-;

05-the first intake tunnel;

06-the first water valve;

07-the second intake tunnel;

08-the second water valve, 81-sealing gasket, 82-telescopic shaft, 83-back-moving spring, 84-flange, 85-axle sleeve, 86-axially loaded portion;

09-insulated space;

10-vaporization chamber, 20-exhaust hole, 30-intake tunnel, 40-water valve, the vertical expansion link of 50-, 60-steam release channel, 70-steam (vapor) outlet.

The specific embodiment

Below in conjunction with Figure of description, the utility model is described further.

embodiment mono-

As shown in Fig. 1-8, the steam iron that can vertically press of this embodiment, comprises flatiron base 01, water tank 02, lever 03, flatiron base 01 has the first vaporization chamber 11 that is located at its inside, the second vaporization chamber 12 and be distributed in the first row steam vent 13 of its bottom surface, second row steam vent 14, the front end of lever 03 is provided with toggle 41, coordinate with toggle 41 and establish a steam adjusting rod 42, between the diapire 21 of water tank 02 front portion and the first vaporization chamber 11, be connected with the first intake tunnel 05, the lower end of steam adjusting rod 42 extends interior formation the first water valve 06 of this first intake tunnel 05, the lower end of steam adjusting rod 42 is provided with for controlling the side direction breach 421 of current, as Fig. 6, 7, shown in 8, when this side direction breach 421 lays respectively at the upside of tank bottom wall 21, corresponding tank bottom wall, while being positioned at the downside of tank bottom wall, close respectively, open, close the first water valve, between the diapire 21 at water tank rear portion and the second vaporization chamber 12, be connected with the second intake tunnel 07, for this second intake tunnel 07 configuration the second water valve 08, between the second water valve 08 and steam adjusting rod 42, be provided with horizontal lever 43, for toggle 41 is provided with three operating positions, when toggle 41 is positioned at wherein the first operating position by steam adjusting rod 42, laterally lever 43 control the first water valves 06 and the second water valve 08 are closed (referring to Fig. 3, when Fig. 6), toggle 41 is positioned at wherein the second operating position by steam adjusting rod 42, laterally lever 43 is controlled the first water valve 06 unlatching, the second water valve 08 cuts out (referring to Fig. 4, when Fig. 7), toggle 41 is positioned at wherein the 3rd operating position by steam adjusting rod 42, laterally lever 43 control the first water valves 06 cut out, the second water valve 08 is opened (referring to Fig. 8).

The steam iron of this structure, the first intake tunnel is positioned at the anterior diapire of water tank, when flatiron base plate is placed vertically, water level in water tank is lower than this first intake tunnel, retaining is difficult to enter the first vaporization chamber, so this first intake tunnel keeps flat only use and is difficult to vertical use as existing product.The second intake tunnel is positioned at the rear portion diapire of water tank; therefore when flatiron base plate is placed vertically, the water level in water tank conventionally can be higher than this second intake tunnel, and retaining can enter the second vaporization chamber; therefore no matter flatiron keeps flat or places vertically, all can be to the second vaporization chamber for water generates steam.

For the ease of operating and control the upper and lower expanding-contracting action of steam adjusting rod in Fig. 3-5, shown in 6-8, between different conditions, change, toggle is made to eccentric colyliform (referring to Fig. 3-5), and the first operating position, the second operating position, the 3rd operating position is adjacent successively, when toggle 41 is struck to the first operating position, released vapour adjusting rod 42 makes steam adjusting rod 42 and laterally lever 43 resets, the first water valve 06 and the second water valve 08 are closed (referring to Fig. 3, Fig. 6), when toggle 41 is struck to the second operating position, depressing steam adjusting rod 42 makes the first water valve 06 open, the second water valve 08 cuts out (referring to Fig. 4, Fig. 7), toggle 41 continues to depress steam adjusting rod 42 while being struck to the 3rd operating position makes the first water valve 06 close, and by steam adjusting rod 42, order about horizontal lever 43 tiltings and open the second water valve 08(referring to Fig. 5, Fig. 8).So, to a direction, stirred continuously and can make toggle from the first operating position, arrive successively the second operating position, the 3rd operating position.

For steam adjusting rod is resetted smoothly, on steam adjusting rod 42, effect has back-moving spring 422.

Concrete, referring to Fig. 6-8, the second water valve 08 comprises sealing gasket 81, telescopic shaft 82, back-moving spring 83, sealing gasket 81, back-moving spring 83 are nested with on telescopic shaft 82, and the elastic force of back-moving spring 83 impels telescopic shaft 82 port (being illustrated as the port in tank bottom wall) pressure holding to the second intake tunnel 07 by sealing gasket 81.Further, the lower end of telescopic shaft 82 is located in the second intake tunnel 07 and is provided with flange 84, its top is positioned at water tank 02 and cover has axle sleeve 85, back-moving spring 83 is positioned at the second intake tunnel 07 and its two ends are supported on respectively on the diapire 21 of flange 84 and water tank, and sealing gasket 81 is between the diapire 21 of axle sleeve 85 and water tank.So structure, when horizontal lever tilting makes telescopic shaft move up, overcomes spring force, makes sealing gasket leave the port of the second intake tunnel, can open the second water valve, and the water in water tank flows to the second vaporization chamber via the second intake tunnel; When the power of horizontal leverage on telescopic shaft disappears, under the effect of back-moving spring, telescopic shaft moves down, and telescopic shaft borrows the elastic force of back-moving spring that sealing ring pressure holding is closed to the second water valve at the port of intake tunnel.

In order to realize the flexible tilting of horizontal lever, steam adjusting rod is provided with downward step 423, telescopic shaft 82 is provided with the 86(of axially loaded portion diagram and is arranged on axle sleeve 85), laterally one end of lever 43 is enclosed within on steam adjusting rod 42 by open pore and downside, its other end of being positioned at step 423 is enclosed within on telescopic shaft 82 by open pore and is positioned at the downside of axially loaded portion 86.When horizontal lever 43 tilting, the sidewall of the open pore at its two ends is when transmitting power with described step, axially loaded portion, also on the length direction of horizontal lever, with respect to steam adjusting rod, telescopic shaft, there is small dislocation, thus stuck while avoiding tilting, guarantee flexibly; And the open pore at its two ends is also convenient to and steam adjusting rod, telescopic shaft assembling.

In order to be beneficial to the fast vaporizing of water in the second vaporization chamber 12, the second vaporization chamber 12 becomes large gradually by the space before backward, space when flatiron is vertical above the second vaporization chamber is large compared with below, the be heated steam evaporation that can make progress fast of vaporization, make the pressure of the second vaporization chamber bottom discharge as early as possible, it is too high that pressure is unlikely to, and realizes fast vaporizing, the front end of the second vaporization chamber 12 is communicated with second row steam vent 14 through the second steam (vapor) outlet 15, can in time the steam of the second vaporization chamber 12 interior generations be discharged.Concrete, the top of the second vaporization chamber is that plane, bottom are that Qie Gai inclined-plane, inclined-plane is low early and high after.

The different requirements of using and vertically using in order to be suitable for level, flatiron base has the first steam release channel 16, the second steam release channel 17 that is located at its inside, the first vaporization chamber 11 is communicated with first row steam vent 13 through the first steam (vapor) outlet 18, the first steam release channel 16 successively, and the second vaporization chamber 12 is communicated with second row steam vent 14 through the second steam (vapor) outlet 15, the second steam release channel 17 successively.By the buffering of the first steam release channel, the second steam release channel, can make distribution of steam and evenly and from first row steam vent, second row steam vent evenly discharge for flatiron, avoid steam directly from the first vaporization chamber, the second vaporization chamber, directly discharged to first row steam vent, second row steam vent, to cause the vapor collection of a part of exhaust hole and the steam of another part exhaust hole is rare.

Concrete, the second vaporization chamber 12 is positioned at the middle part of flatiron base 01, and the first vaporization chamber 11 is positioned at the outside of the second vaporization chamber 12.In order to be suitable for respectively level, to use and vertically use, the second steam release channel 17 is positioned at the front portion of flatiron base 01, and the first steam release channel 16 is positioned at the outside of the first vaporization chamber 11, the edge of flatiron base 01.

The quantity of first row steam vent 13 is more than the quantity of second row steam vent 14.When large area presses, vertically uses clothing when the level that is suitable for is used, concentrate clothing is pressed.

Heat for fear of the first vaporization chamber, the second vaporization chamber causes the impact on water tank, between flatiron base and water tank, maintains insulated space 09.

The first described vaporization chamber, the second vaporization chamber, its heat comes from the electrical heating elements being located in flatiron base, the concrete structure of electrical heating elements and arrangement thereof, do not relate to the technical problems to be solved in the utility model, the mode of available prior art, the technical approach that can be innovation, does not repeat them here yet.

Version as an alternative, the second water valve also can be extended by the lower end of a steam adjusting rod in the second intake tunnel and form, and the lower end of steam adjusting rod is provided with equally for controlling the side direction breach of current, thereby forms the version as the first water valve.

embodiment bis-

As shown in Fig. 9-10, the steam iron that can vertically press of this embodiment and embodiment mono-be for same inventive concept, and the difference between itself and embodiment mono-is:

With respect to embodiment mono-, be that the first vaporization chamber of embodiment mono-, the second vaporization chamber are united two into one and become a vaporization chamber 10, the first row steam vent that is distributed in its bottom surface, the second row steam vent of embodiment mono-be combined unified by the steam discharge from same vaporization chamber;

Further again, flatiron base has a steam release channel 60, and vaporization chamber 10 is communicated with exhaust hole 20 through steam (vapor) outlet 70, steam release channel 60 successively;

Only between the diapire at water tank rear portion and vaporization chamber 10, be connected with intake tunnel 30, for this intake tunnel 30 configures the second water valve that a water valve 40(is equivalent to embodiment mono-, and be different from embodiment mono-, there are two water valves), between this water valve and toggle, be connected with transmission mechanism, this transmission mechanism comprises vertical expansion link 50 and horizontal lever, when being provided with two operating positions and being positioned at one of them operating position (the 3rd operating position that is equivalent to embodiment mono-) for toggle, by transmission mechanism, open water valve, while being positioned at wherein another operating position (the first operating position that is equivalent to embodiment mono-), by transmission mechanism, close water valve.

Given this structure, according to structure and the control mode of the second water valve of previous embodiment one, the steam iron of this embodiment can be used for level flatiron, also can be used for vertical flatiron.

The present embodiment, except the above-mentioned structure that is different from embodiment mono-, can also adopt some technological means of embodiment mono-:

First, toggle is eccentric colyliform, transmission mechanism comprises vertical expansion link and horizontal lever, one end of horizontal lever coordinates with vertical expansion link, its other end coordinates with water valve, when toggle is positioned at an operating position, depress vertical expansion link and by vertical expansion link, order about horizontal lever tilting and open water valve, toggle discharges vertical expansion link while being positioned at another operating position makes vertical expansion link and laterally lever reset, water valve close.Concrete, on vertical expansion link, effect has back-moving spring.

Secondly, water valve comprises sealing gasket, telescopic shaft, back-moving spring, and sealing gasket, back-moving spring are nested with on telescopic shaft, and the elastic force of back-moving spring impels telescopic shaft port pressure holding to intake tunnel by sealing gasket.Further, the lower end of telescopic shaft is located in intake tunnel and is provided with flange, its top is positioned at water tank and cover has axle sleeve, back-moving spring to be positioned at intake tunnel and its two ends are supported on respectively on the diapire of flange and water tank, and sealing gasket is between axle sleeve and the diapire of water tank.On this basis, vertical expansion link is provided with downward step, telescopic shaft is provided with axially loaded portion, laterally one end of lever is enclosed within on vertical expansion link by open pore and downside, its other end of being positioned at step is enclosed within on telescopic shaft by open pore and is positioned at the downside of axially loaded portion, when toggle is positioned at an operating position, depress vertical expansion link and by vertical expansion link, order about horizontal lever tilting and open water valve, toggle discharges vertical expansion link while being positioned at another operating position makes vertical expansion link and laterally lever reset, water valve close.

The 3rd, as the technological means that is equal to replacement of above-mentioned valve structure, water valve is extended in intake tunnel and is formed by the lower end of a steam adjusting rod, and the lower end of steam adjusting rod is provided with for controlling the side direction breach of current.Form thus the structure of the first water valve of embodiment mono-.

The 4th, vaporization chamber is become greatly gradually by the space before backward, and the front end of vaporization chamber is communicated with exhaust hole through steam (vapor) outlet.Concrete, the top of vaporization chamber is that plane, bottom are that Qie Gai inclined-plane, inclined-plane is low early and high after.

The 5th, between flatiron base and water tank, maintain insulated space.

Claims (26)

1. the steam iron that can vertically press, comprise flatiron base, water tank (02), lever, described flatiron base has the exhaust hole (20) that is located at inner vaporization chamber (10) and is distributed in bottom surface, the front end of described lever is provided with toggle, it is characterized in that: between the diapire (21) at described water tank (02) rear portion and described vaporization chamber (10), be connected with intake tunnel (30), for this intake tunnel (30) configuration water valve (40), between described water valve (40) and described toggle, be connected with transmission mechanism, when being provided with two operating positions and being positioned at one of them operating position for described toggle, by described transmission mechanism, open described water valve, while being positioned at wherein another operating position, by described transmission mechanism, close described water valve.

2. the steam iron that can vertically press according to claim 1, it is characterized in that: described toggle is eccentric colyliform, described transmission mechanism comprises vertical expansion link (50) and horizontal lever, one end of described horizontal lever coordinates with described vertical expansion link (50), its other end coordinates with described water valve (40), when described toggle is positioned at an operating position, depress described vertical expansion link and by vertical expansion link, order about horizontal lever tilting and open described water valve, described toggle discharges described vertical expansion link order described vertical expansion link and laterally lever reset while being positioned at another operating position, water valve cuts out.

3. the steam iron that can vertically press according to claim 2, is characterized in that: on described vertical expansion link, effect has back-moving spring.

4. the steam iron that can vertically press according to claim 1, it is characterized in that: described water valve comprises sealing gasket, telescopic shaft, back-moving spring, described sealing gasket, back-moving spring are nested with on described telescopic shaft, and the elastic force of described back-moving spring impels the port pressure holding to described intake tunnel by described sealing gasket of described telescopic shaft.

5. the steam iron that can vertically press according to claim 4, it is characterized in that: the lower end of described telescopic shaft is located in described intake tunnel and is provided with flange, its top is positioned at described water tank and cover has axle sleeve, described back-moving spring is positioned at described intake tunnel and its two ends are supported on respectively on the diapire of described flange and described water tank, and described sealing gasket is between described axle sleeve and the diapire of described water tank.

6. according to the steam iron that can vertically press described in claim 4 or 5, it is characterized in that: described toggle is eccentric colyliform, described transmission mechanism comprises vertical expansion link and horizontal lever, described vertical expansion link is provided with downward step, described telescopic shaft is provided with axially loaded portion, one end of described horizontal lever is enclosed within on described vertical expansion link by open pore and is positioned at the downside of described step, its other end is enclosed within on described telescopic shaft by open pore and is positioned at the downside of described axially loaded portion, when described toggle is positioned at an operating position, depress described vertical expansion link and by vertical expansion link, order about horizontal lever tilting and open described water valve, described toggle discharges described vertical expansion link order described vertical expansion link and laterally lever reset while being positioned at another operating position, water valve cuts out.

7. the steam iron that can vertically press according to claim 6, is characterized in that: on described vertical expansion link, effect has back-moving spring.

8. the steam iron that can vertically press according to claim 1, is characterized in that: described water valve is extended in described intake tunnel and formed by the lower end of a steam adjusting rod, and the lower end of described steam adjusting rod is provided with for controlling the side direction breach of current.

9. the steam iron that can vertically press according to claim 1, is characterized in that: described vaporization chamber is become greatly gradually by the space before backward, and the front end of described vaporization chamber is communicated with described exhaust hole through steam (vapor) outlet.

10. the steam iron that can vertically press according to claim 9, is characterized in that: the top of described vaporization chamber is that plane, bottom are that Qie Gai inclined-plane, inclined-plane is low early and high after.

11. steam irons that can vertically press according to claim 9, it is characterized in that: described flatiron base has steam release channel (60), described vaporization chamber (10) is communicated with described exhaust hole through described steam (vapor) outlet, steam release channel (60) successively.

12. steam irons that can vertically press according to claim 1, is characterized in that: between described flatiron base and water tank, maintain insulated space.

13. steam irons that can vertically press, comprise flatiron base (01), water tank (02), lever (03), described flatiron base (01) has the first vaporization chamber (11) that is located at its inside, the second vaporization chamber (12) and be distributed in the first row steam vent (13) of its bottom surface, second row steam vent (14), the front end of described lever (03) is provided with toggle (41), coordinate with described toggle (41) and establish a steam adjusting rod (42), between the diapire (21) that described water tank (02) is anterior and described the first vaporization chamber (11), be connected with the first intake tunnel (05), the lower end of described steam adjusting rod (42) extends formation the first water valve (06) in this first intake tunnel (05), the lower end of described steam adjusting rod (42) is provided with for controlling the side direction breach (421) of current, it is characterized in that: between the diapire (21) at described water tank (02) rear portion and described the second vaporization chamber (12), be connected with the second intake tunnel (07), for this second intake tunnel (07) configuration the second water valve (08), between described the second water valve (08) and described steam adjusting rod (42), be provided with horizontal lever (43), for described toggle (41) is provided with three operating positions, when described toggle (41) is positioned at wherein the first operating position by described steam adjusting rod (42), described the first water valve (06) controlled by horizontal lever (43) and the second water valve (08) cuts out, when described toggle (41) is positioned at wherein the second operating position by described steam adjusting rod (42), laterally lever (43) is controlled described the first water valve (06) unlatching, the second water valve (08) cuts out, when described toggle (41) is positioned at wherein the 3rd operating position by described steam adjusting rod (42), horizontal lever (43) is controlled described the first water valve (06) and is closed, the second water valve (08) is opened.

14. steam irons that can vertically press according to claim 13, it is characterized in that: described toggle (41) is eccentric colyliform, and the first described operating position, the second operating position, the 3rd operating position is adjacent successively, described toggle (41) discharges the described steam adjusting rod of described steam adjusting rod (42) order and laterally lever reset while being positioned at described the first operating position, the first water valve and the second water valve are closed, when described toggle is positioned at described the second operating position, depressing described steam adjusting rod makes the first water valve open, the second water valve cuts out, described toggle continues to depress described steam adjusting rod while being positioned at described the 3rd operating position makes described the first water valve close, and by steam adjusting rod, order about horizontal lever tilting and open described the second water valve.

15. steam irons that can vertically press according to claim 14, is characterized in that: the upper effect of described steam adjusting rod (42) has back-moving spring (422).

16. steam irons that can vertically press according to claim 13, it is characterized in that: described the second water valve (08) comprises sealing gasket (81), telescopic shaft (82), back-moving spring (83), described sealing gasket (81), back-moving spring (83) are nested with at described telescopic shaft (82) upper, and the elastic force of described back-moving spring (83) impels described telescopic shaft (82) port pressure holding to described the second intake tunnel (07) by described sealing gasket (81).

17. steam irons that can vertically press according to claim 16, it is characterized in that: the lower end of described telescopic shaft (82) is located in described the second intake tunnel (07) and is provided with flange (84), its top is positioned at described water tank (02) and cover has axle sleeve (85), described back-moving spring (83) is positioned at described the second intake tunnel (07) and its two ends are supported on respectively on the diapire (21) of described flange (84) and described water tank, described sealing gasket (81) is positioned between described axle sleeve (85) and the diapire (21) of described water tank.

18. according to the steam iron that can vertically press described in claim 16 or 17, it is characterized in that: described steam adjusting rod (42) is provided with downward step (423), described telescopic shaft (82) is provided with axially loaded portion (86), and described step (423) were gone up and be positioned to the steam adjusting rod (42) described in one end of described horizontal lever (43) is enclosed within by open pore downside, its other end are enclosed within by open pore the downside that described axially loaded portion (86) was gone up and be positioned to described telescopic shaft (82).

19. steam irons that can vertically press according to claim 13, it is characterized in that: described the second vaporization chamber (12) is become greatly gradually by the space before backward, and the front end of described the second vaporization chamber (12) is communicated with described second row steam vent (14) through the second steam (vapor) outlet (15).

20. steam irons that can vertically press according to claim 19, is characterized in that: the top of described the second vaporization chamber (12) is that plane, bottom are that Qie Gai inclined-plane, inclined-plane is low early and high after.

21. steam irons that can vertically press according to claim 19, it is characterized in that: described flatiron base (01) has the first steam release channel (16) that is located at its inside, the second steam release channel (17), described the first vaporization chamber (11) is successively through the first steam (vapor) outlet (18), the first described steam release channel (16) is communicated with described first row steam vent (13), described the second vaporization chamber (12) is successively through described the second steam (vapor) outlet (15), the second steam release channel (17) is communicated with described second row steam vent (14).

22. steam irons that can vertically press according to claim 21, it is characterized in that: described the second vaporization chamber (12) is positioned at the middle part of described flatiron base (01), described the first vaporization chamber (11) is positioned at the outside of described the second vaporization chamber (11).

23. steam irons that can vertically press according to claim 22, it is characterized in that: the second described steam release channel (17) is positioned at the front portion of described flatiron base, the first described steam release channel (16) is positioned at the outside of described the first vaporization chamber (11), the edge of described flatiron base (01).

24. steam irons that can vertically press according to claim 13, is characterized in that: the quantity of described first row steam vent (13) is more than the quantity of described second row steam vent (14).

25. steam irons that can vertically press according to claim 13, is characterized in that: between described flatiron base (01) and water tank (02), maintain insulated space (09).

26. steam irons that can vertically press according to claim 13, it is characterized in that: the second described water valve is extended in the second described intake tunnel and formed by the lower end of a steam adjusting rod, and the lower end of described steam adjusting rod is provided with for controlling the side direction breach of current.