CN205999667U - For the nozzle assembly of steam generator, steam raising plant and clothes-drying device - Google Patents

Abstract

The utility model discloses a kind of nozzle assembly for steam generator, steam raising plant and clothes-drying device, it is formed with inlet channel, water storage cavity and diversion cavity in nozzle assembly, the port of export of inlet channel is connected with water storage cavity, and the flow area of water storage cavity is more than the flow area of the port of export of inlet channel, diversion cavity is connected with water storage cavity, it is formed with steam (vapor) outlet on the lateral wall of diversion cavity, and steam (vapor) outlet is higher than water storage cavity.According to the nozzle assembly for steam generator of the present utility model, after steam enters water storage cavity, air pressure is obviously reduced, and the air pressure of reduction is not enough to take away water droplet, and water droplet can be stayed in water storage cavity.Diversion cavity is connected with water storage cavity so that some vapor can be back to water storage intracavity through diversion cavity, and the lateral wall of diversion cavity is formed with steam (vapor) outlet, and steam (vapor) outlet is higher than water storage cavity.Enable water storage cavity preferably to store steam, and some vapor can be expelled directly out via steam (vapor) outlet, so can effectively prevent water droplet from spraying.

Description

For the nozzle assembly of steam generator, steam raising plant and clothes-drying device

Technical field

This utility model is related to household electrical appliance technical field, more particularly to a kind of nozzle sets for steam generator Part, it is provided with the steam raising plant of the above-mentioned nozzle assembly for steam generator and is provided with the dry of above-mentioned steam raising plant Apparatus of laundry.

Background technology

In correlation technique, the steam generator used in cylinder washing-drying integral machine or in dryer, when using, due to going out The conduit of steam is longer, and steam easily condenses into water droplet on conduit.Further, since vapor pressure is larger, going out the same of steam When the water droplet in steam lead can be taken out of, thus occur gap spray water droplet phenomenon.

Utility model content

This utility model is intended at least solve one of technical problem in correlation technique to a certain extent.For this reason, this reality It is to propose a kind of nozzle assembly for steam generator with a new purpose, described nozzle assembly can effectively prevent from steaming Vapour generator sprays water droplet, and serviceability improves.

Another purpose of the present utility model is to propose a kind of steam raising plant, and described steam raising plant is provided with The above-mentioned nozzle assembly for steam generator.

Further object of the present utility model is to propose a kind of clothes-drying device, and described clothes-drying device is provided with above-mentioned steam Generating meanss.

According to the nozzle assembly for steam generator of this utility model first aspect embodiment, in described nozzle assembly It is formed with inlet channel, water storage cavity and diversion cavity, the port of export of described inlet channel is connected with described water storage cavity, and described water storage The flow area in chamber is more than the flow area of the port of export of described inlet channel, and described diversion cavity is connected with described water storage cavity, institute State and be formed with steam (vapor) outlet on the lateral wall of diversion cavity, and described steam (vapor) outlet is higher than described water storage cavity.

According to this utility model embodiment for steam generator nozzle assembly, the flow area of water storage cavity be more than into The flow area of the port of export of gas passage so that after steam enters water storage cavity air pressure be obviously reduced, the air pressure of reduction is not enough to carry Walk water droplet, water droplet can be stayed in water storage cavity.Diversion cavity is connected with water storage cavity so that some vapor can be back to water storage through diversion cavity Intracavity, the lateral wall of diversion cavity is formed with steam (vapor) outlet, and steam (vapor) outlet is higher than water storage cavity.So enable water storage cavity Preferably store steam, and some vapor can be expelled directly out via steam (vapor) outlet such that it is able to effectively prevent the ejection of water droplet, Improve the serviceability of nozzle assembly.

In addition, also having and add as follows for the nozzle assembly of steam generator according to this utility model above-described embodiment Technical characteristic：

According to some embodiments of the present utility model, described nozzle assembly includes：Nozzle body, shape in described nozzle body Become described inlet channel；Nozzle cover, described nozzle cover is located at the outside of described nozzle body, and described nozzle cover and described spray Described water storage cavity and described diversion cavity is limited between mouth body.

Further, described nozzle cover and described nozzle body are detachably connected.

In some embodiments of the present utility model, described nozzle body includes：Air inlet pipe, described air inlet pipe is in vertically The hollow pipe that direction extends, limits described inlet channel in described air inlet pipe；Inner cap, described inner cap sets around described air inlet pipe Put, and the lower end of described inner cap is tightly connected with described air inlet pipe, wherein, described nozzle cover covers the outside in described inner cap.

Further, the perisporium of described inner cap is in the taper stretching out upwards, a part for the perisporium of described nozzle cover It is in stretch out upwards and the taper around described inner cap；Wherein, described nozzle cover is in the lid of bottom lock and open upper end Shape, described nozzle cover covers the outside in described inner cap, and limits positioned at bottom between described nozzle cover and described inner cap The diversion cavity that water storage cavity is connected with described water storage cavity with lower end.

In some embodiments of the present utility model, described nozzle cover includes：Tapering, described tapering is in from top to bottom The diminishing taper of radial dimension on direction, described tapering is around described nozzle body；Lid, described lid and described tapering Next week along being connected and cover the lower end in described tapering, described lid ringwise groove-like.

Further, the last week of described inner cap perisporium is along the annular slot being provided around described inner cap and Open Side Down, institute State last week of nozzle cover along being provided with snap ring, described snap ring and described annular slot phase clamping.

Further, limit described water storage cavity between described lid and described inner cap, and described tapering and described inner cap Between limit described diversion cavity, and described steam (vapor) outlet is formed on described tapering.

According to some embodiments of the present utility model, described nozzle body and described nozzle cover are integrally formed respectively.

According to the steam raising plant of this utility model second aspect embodiment, including：Steam generator, described steam is sent out Raw device is connected with penstock and steam lead；Nozzle assembly, described nozzle assembly is located at the water side of described steam lead, institute Stating nozzle assembly is the nozzle assembly for steam generator described above, the inlet channel of described nozzle assembly and described steaming Vapour conduit connects.

According to the clothes-drying device of this utility model third aspect embodiment, including：Steam raising plant, described steam generation Device is steam raising plant described above.

Additional aspect of the present utility model and advantage will be set forth in part in the description, partly will be from explained below In become obvious, or recognized by practice of the present utility model.

Brief description

Above-mentioned and/or additional aspect of the present utility model and advantage will from reference to the description to embodiment for the accompanying drawings below Become obvious and easy to understand, wherein：

Fig. 1 is the schematic diagram according to this utility model embodiment for the nozzle assembly of steam generator；

Fig. 2 is the sectional view (wherein arrow points to the flow direction representing steam) of the line A-A along along Fig. 1；

Fig. 3 is the explosive view according to this utility model embodiment for the nozzle assembly of steam generator；

Fig. 4 is the partial schematic diagram according to this utility model embodiment for steam generator device.

Reference：

Nozzle assembly 100,

Inlet channel 1, the port of export 11 of inlet channel 11,

Water storage cavity 2,

Diversion cavity 3, steam (vapor) outlet 31,

Nozzle body 4, air inlet pipe 42, inner cap 43, annular slot 431,

Nozzle cover 5, tapering 51, lid 52, snap ring 53,

Steam raising plant 200,

Steam generator 210, penstock 211, steam lead 212, the water side 2121 of steam lead 212.

Specific embodiment

Embodiment of the present utility model is described below in detail, the example of described embodiment is shown in the drawings, wherein ad initio To the element that same or similar label represents same or similar element or has same or like function eventually.Below by ginseng The embodiment examining Description of Drawings is exemplary it is intended to be used for explaining this utility model, and it is not intended that to this utility model Restriction.

Describe the nozzle sets for steam generator according to this utility model embodiment with reference to Fig. 1 to Fig. 4 in detail Part 100.

Specifically, with reference to Fig. 2 and combine Fig. 1, according to this utility model first aspect embodiment for steam generation The nozzle assembly 100 of device, is formed with inlet channel 1, water storage cavity 2 and diversion cavity 3, is produced by steam generator in nozzle assembly 100 Raw steam can flow through inlet channel 1, and the steam of liquefaction can be stored by water storage cavity 2, and some vapor can flow through diversion cavity 3 again Discharge further, also reflowable stored to water storage cavity 2 after some vapor liquefaction wherein flowing through diversion cavity 3.

Wherein, the port of export 11 (with reference to the lower end of inlet channel in Fig. 2 1) of inlet channel 1 is connected with water storage cavity 2, and The flow area of water storage cavity 2 is more than the flow area of the port of export 11 of inlet channel 1 so that steam enters air pressure after water storage cavity 2 It is obviously reduced, the air pressure of reduction is not enough to take away water droplet, water droplet can be stayed in water storage cavity 2.Diversion cavity 3 is connected with water storage cavity 2, makes Obtain some vapor to be back in water storage cavity 2 through diversion cavity 3, the lateral wall of diversion cavity 3 is formed with steam (vapor) outlet 31, Er Qiezheng Vapor outlet 31 is higher than water storage cavity 2.So enable water storage cavity 2 preferably to store steam, and some vapor also can be via steaming Vapor outlet 31 is expelled directly out, and so can effectively prevent the ejection of water droplet, improves the serviceability of nozzle assembly 100.

Here, it should be noted that the volume of water storage cavity 2 to ensure steam generator run a cycle when, in water storage cavity 2 Water level will not too high so that hydrops can be taken out of by steam, occur water spray phenomenon.

According to this utility model embodiment for steam generator nozzle assembly 100, the flow area of water storage cavity 2 is big In the port of export 11 of inlet channel 1 flow area so that steam enter water storage cavity 2 after air pressure be obviously reduced, the air pressure of reduction It is not enough to take away water droplet, water droplet can be stayed in water storage cavity 2.Diversion cavity 3 connects with water storage cavity 2 so that some vapor can be through water conservancy diversion Chamber 3 is back in water storage cavity 2, and the lateral wall of diversion cavity 3 is formed with steam (vapor) outlet 31, and steam (vapor) outlet 31 is higher than water storage cavity 2.So enable water storage cavity 2 preferably to store steam, and some vapor can be expelled directly out via steam (vapor) outlet 31, so The ejection of water droplet can effectively be prevented, improve the serviceability of nozzle assembly 100.

With reference to Fig. 3 and Fig. 2, according to some specific embodiments of the present utility model, nozzle assembly 100 includes：Nozzle body 4 With nozzle cover 5.Specifically, form inlet channel 1 in nozzle body 4, steam can enter in nozzle body 4 via inlet channel 1. Nozzle cover 5 is located at the outside of nozzle body 4, and limits water storage cavity 2 and diversion cavity 3 between nozzle cover 5 and nozzle body 4. Thus, by the cooperation of nozzle body 4 and nozzle cover 5, can achieve storage and water conservancy diversion to steam such that it is able to improve nozzle The serviceability of assembly 100.

Certainly, in other embodiment of the present utility model, nozzle assembly 100 is alternatively other versions, for example Nozzle body 4 and nozzle cover 5 are integrated.

Further, as shown in Figures 2 and 3, nozzle cover 5 and nozzle body 4 are detachably connected.Thus, it is easy to accomplish Installation and removal between nozzle cover 5 and nozzle body 4, thus be conducive to the cleaning of nozzle assembly 100 and maintenance to change.

Wherein, can be by for example snapping connection or the mode such as threaded is connected between nozzle body 4 and nozzle cover 5.

In conjunction with Fig. 2 and Fig. 3, in some specific embodiments of the present utility model, nozzle body 4 includes：Air inlet pipe 42 He Inner cap 43.Wherein, air inlet pipe 42 is in the hollow pipe that (with reference to the above-below direction shown in Fig. 2 or Fig. 3) extends along the vertical direction, enters Inlet channel 1 is limited so that steam further can flow in water storage cavity 2 via inlet channel 1 is deposited in trachea 42 Storage.Inner cap 43 is arranged around air inlet pipe 42, and the lower end (with reference to the lower end of inner cap in Fig. 2 43) of inner cap 43 is sealed with air inlet pipe 42 Connect, wherein, nozzle cover 5 covers the outside in inner cap 43.So water storage cavity can be limited between nozzle cover 5 and nozzle body 4 2, and also make water storage cavity 2 have preferably sealing property such that it is able to effectively prevent spilling of steam, and then improve nozzle The serviceability of assembly 100.

Further, with reference to Fig. 2 and Fig. 3, the perisporium of inner cap 43 is in upwards outwards (for example, away from air inlet in Fig. 2 or Fig. 3 The side of pipe 42 centrage is outer) taper that extends, a part (with reference to the top of nozzle cover 5 in Fig. 2) for the perisporium of nozzle cover 5 In the taper stretching out upwards and around inner cap 43.Wherein, in bottom lock and upper end is (with reference in Fig. 2 or Fig. 3 for nozzle cover 5 The upper end of nozzle cover 5) unlimited lid shape, so it is easy in nozzle cover 5 memory storage steam.Nozzle cover 5 covers in inner cap 43 Outside, and limit water storage cavity 2 and diversion cavity 3 between nozzle cover 5 and inner cap 43, water storage cavity 2 is located at bottom and diversion cavity 3 Lower end (with reference to the lower end of diversion cavity in Fig. 2 3) is connected with water storage cavity 2.As a result, steam can enter via inlet channel 1 Nozzle body 4, flow in water storage cavity 2 via the port of export 11 of inlet channel 1, enables steam more by the structure of taper Easily further it is back in water storage cavity 2 via diversion cavity 3, some vapor can be expelled directly out via steam (vapor) outlet 31, from And improve the serviceability of nozzle assembly 100.

With reference to Fig. 3 and combine Fig. 2, in some specific embodiments of the present utility model, nozzle cover 5 includes：Tapering 51 He Lid 52, tapering 51 is in the upper diminishing cone of radial dimension in direction (with reference to the above-below direction shown in Fig. 3) from top to bottom Shape, tapering 51 is located at the outside of nozzle body 4 around nozzle body 4, tapering 51.Lid 52 is connected with the next week edge in tapering 51, Lid 52 covers the lower end in tapering 51, lid 52 ringwise groove-like.Thus, can limit between lid 52 and nozzle body 4 Water storage cavity 2, limits diversion cavity 3 between tapering 51 and inner cap 43, consequently facilitating the storage of steam and flowing.

Further, as shown in Figures 2 and 3, edge last week of inner cap 43 perisporium is provided with annular slot 431, annular slot 431 Around inner cap 43 and Open Side Down (with reference to Fig. 2), last week of nozzle cover 5 is along being provided with snap ring 53, snap ring 53 and annular slot 431 phase Clamping.Thus, by the cooperation of snap ring 53 and annular slot 431, it is easy to accomplish the reliability between nozzle cover 5 and nozzle body 4 Connect such that it is able to limit water storage cavity 2 and diversion cavity 3, and then realize the storage to steam and water conservancy diversion.

Wherein, in conjunction with Fig. 2, snap ring 53 is fitted with the outer peripheral edge of annular slot 431, the inner peripheral of annular slot 431 and card Ring 53 is spaced apart preset distance and forms annular chamber, and described annular chamber is connected with diversion cavity 3.Some vapor rises to described annular During intracavity, it is liquefied as water droplet and is back in water storage cavity 2 via diversion cavity 3.

Further, in conjunction with Fig. 2 and Fig. 1, between lid 52 and inner cap 43, limit water storage cavity 2, and tapering 51 and inner cap Limit diversion cavity 3 between 43, and steam (vapor) outlet 31 is formed on tapering 51.Thus, one can be carried out to steam by water storage cavity 2 Fixed storage, some vapor is expelled directly out via steam (vapor) outlet 31, also can be back to water storage cavity 2 further after some vapor liquefaction Inside stored.

Referring to figs. 1 to Fig. 3, according to some specific embodiments of the present utility model, nozzle body 4 and nozzle cover 5 distinguish one Body formed.Wherein, nozzle body 4 includes air inlet pipe 42, inner cap 43 and annular slot 431, air inlet pipe 42, inner cap 43 and ring Shape draw-in groove 431 is integrally formed.Nozzle cover 5 includes tapering 51, lid 52 and snap ring 53, tapering 51, lid 52 and snap ring 53 It is integrally formed.Thus, it is possible to simplified processing process, the assembling being easily achieved between nozzle body 4 and nozzle cover 5.

Certainly, on the premise of meeting manufacturability requirement, nozzle body 4 also can be integrally formed with nozzle cover 5.

With reference to Fig. 4 and with reference to Fig. 1 to Fig. 3, according to the steam raising plant 200 of this utility model second aspect embodiment, Including：Steam generator 210 and nozzle assembly.

Specifically, steam generator 210 is connected with penstock 211 and steam lead 212.Nozzle assembly is located at steam and leads The water side 2121 of pipe 212, nozzle assembly is the above-mentioned nozzle assembly 100 for steam generator, the entering of nozzle assembly 100 Gas passage 1 is connected with steam lead 212.Thus, implemented by above-mentioned first aspect is arranged on described steam raising plant 200 The nozzle assembly 100 for steam generator of example, can be prevented effectively from the ejection of water droplet, thus improving steam raising plant 200 serviceability.

Further, in conjunction with Fig. 4, steam lead 212 includes straight trachea and bending part, described on steam traffic direction Straight trachea is located at the upstream of described bending part.Wherein, described straight trachea is connected with steam generator 210 and upwardly extends, Described bending part is used for connecting nozzle assembly 100.

Wherein, current can enter in steam generator 210 via penstock 211, is produced by steam generator 210 Steam is via steam lead 212, then enters in nozzle assembly 100 via the water side 2121 of steam lead 212, by nozzle sets Part 100 can carry out certain storage and guiding to steam such that it is able to be prevented effectively from the ejection of water droplet.

Specifically, as shown in Figures 1 to 4, when steam generator 210 runs, the water droplet that steam lead 212 inwall condenses Enter water storage cavity 2.Because the flow area of water storage cavity 2 in nozzle assembly 100 is more than the through-flow face of the port of export 11 of inlet channel 1 Long-pending (depending on concrete size can be according to quantity of steam), after steam enters water storage cavity 2, air pressure is obviously reduced, and the air pressure of reduction is not enough to carry Walk water droplet, water droplet can be stayed in water storage cavity 2.When water storage cavity 2 volume will ensure that steam generator 210 runs a cycle, water storage cavity 2 Middle water level will not too high so that hydrops can be taken out of by steam, occur water spray phenomenon.In addition, the height of water storage cavity 2 side wall will be protected Demonstrate,prove the water energy blowing away enough all to be blocked by side wall.

When steam generator 210 quits work, the temperature in steam generator 210 cavity reduces, and air pressure descends below greatly Air pressure, the water in water storage cavity 2 can enter in steam generator 210 suck-back, leaves behind fraction of water.The distance from top storage of air inlet pipe 42 The height of water cavity 2 bottom determines the number of water storage cavity 2 residual water.

According to the clothes-drying device (not shown) of this utility model third aspect embodiment, including：Steam raising plant, Steam raising plant is above-mentioned steam raising plant 200.Wherein, described clothes-drying device can be washing-drying integral machine or dryer Deng.Thus, by above-mentioned steam raising plant 200 is arranged on described clothes-drying device, can be better achieved to medicated clothing Dry, thus increasing customer satisfaction degree.

Describe the worked of the steam raising plant 200 according to this utility model embodiment with reference to Fig. 1 to Fig. 4 in detail Journey.

Specifically, current can enter in steam generator 210 via penstock 211, is produced by steam generator 210 Raw steam, by steam lead 212, enters in nozzle assembly 100 via the water side 2121 of steam lead 212, by nozzle sets Part 100 can carry out certain storage and guiding to steam such that it is able to be prevented effectively from the ejection of water droplet.

When steam generator 210 runs, the water droplet that steam lead 212 inwall condenses enters water storage cavity 2.Due to nozzle assembly In 100, the flow area of water storage cavity 2 is more than the flow area of the port of export 11 of inlet channel 1 (concrete size can be according to quantity of steam Depending on), after steam enters water storage cavity 2, air pressure is obviously reduced, and the air pressure of reduction is not enough to take away water droplet, and water droplet can stay water storage cavity In 2.When water storage cavity 2 volume will ensure that steam generator 210 runs a cycle, in water storage cavity 2 water level will not too high so that long-pending Water can be taken out of by steam, and water spray phenomenon occurs.In addition, the height of water storage cavity 2 side wall will ensure the water energy blowing away enough all by side Wall blocks.

When steam generator 210 quits work, the temperature in steam generator 210 cavity reduces, and air pressure descends below greatly Air pressure, the water in water storage cavity 2 can enter in steam generator 210 suck-back, leaves behind fraction of water.The distance from top storage of air inlet pipe 42 The height of water cavity 2 bottom determines the number of water storage cavity 2 residual water.So far complete to be sent out according to the steam of this utility model embodiment The work process of generating apparatus 200.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or the feature describing with reference to this embodiment or example It is contained at least one embodiment of the present utility model or example.In this manual, the schematic representation to above-mentioned term Necessarily it is directed to identical embodiment or example.And, the specific features of description, structure, material or feature can be Combine in an appropriate manner in any one or more embodiments or example.Additionally, in the case of not conflicting, this area The feature of the different embodiments described in this specification or example and different embodiment or example can be carried out by technical staff In conjunction with and combination.

Although of the present utility model embodiment has been shown and described above it is to be understood that above-described embodiment is Exemplary it is impossible to be interpreted as that those of ordinary skill in the art is in scope of the present utility model to restriction of the present utility model Interior above-described embodiment can be changed, change, replacing and modification.

Claims (11)

1. a kind of nozzle assembly for steam generator is it is characterised in that be formed with inlet channel, storage in described nozzle assembly Water cavity and diversion cavity, the port of export of described inlet channel is connected with described water storage cavity, and the flow area of described water storage cavity is more than The flow area of the port of export of described inlet channel, described diversion cavity is connected with described water storage cavity, the lateral wall of described diversion cavity On be formed with steam (vapor) outlet, and described steam (vapor) outlet be higher than described water storage cavity.

2. the nozzle assembly for steam generator according to claim 1 is it is characterised in that described nozzle assembly bag Include：

Nozzle body, forms described inlet channel in described nozzle body；

Nozzle cover, described nozzle cover is located at the outside of described nozzle body, and between described nozzle cover and described nozzle body Limit described water storage cavity and described diversion cavity.

3. the nozzle assembly for steam generator according to claim 2 it is characterised in that described nozzle cover with described Nozzle body is detachably connected.

4. the nozzle assembly for steam generator according to claim 2 is it is characterised in that described nozzle body bag Include：

Air inlet pipe, described air inlet pipe is in vertically extending hollow pipe, limits described inlet channel in described air inlet pipe；

Inner cap, described inner cap is arranged around described air inlet pipe, and the lower end of described inner cap is tightly connected with described air inlet pipe,

Wherein, described nozzle cover covers in the outside of described inner cap.

5. the nozzle assembly for steam generator according to claim 4 is it is characterised in that the perisporium of described inner cap is in The taper stretching out upwards, a part for the perisporium of described nozzle cover is in stretch out upwards and the cone around described inner cap Shape；

Wherein, described nozzle cover is in the lid shape of bottom lock and open upper end, and described nozzle cover covers outer in described inner cap The water storage cavity positioned at bottom and lower end and leading that described water storage cavity connects is limited between side, and described nozzle cover and described inner cap Stream chamber.

6. the nozzle assembly for steam generator according to claim 4 is it is characterised in that described nozzle cover includes：

Tapering, described tapering is in the diminishing taper of radial dimension on direction from top to bottom, and described tapering is around described Nozzle body；

Lid, described lid is connected and covers the lower end in described tapering with the next week edge in described tapering, and described lid is ringwise recessed Channel-shaped.

7. the nozzle assembly for steam generator according to claim 6 is it is characterised in that described inner cap perisporium Week is provided with snap ring along the annular slot being provided around described inner cap and Open Side Down, edge last week of described nozzle cover, described snap ring With described annular slot phase clamping.

8. the nozzle assembly for steam generator according to claim 7 is it is characterised in that described lid is interior with described Limit described water storage cavity between lid, and limit described diversion cavity between described tapering and described inner cap, and described steam goes out Mouth is formed on described tapering.

9. the nozzle assembly for steam generator according to any one of claim 1-8 is it is characterised in that described spray Mouth body and described nozzle cover are integrally formed respectively.

10. a kind of steam raising plant is it is characterised in that include：

Steam generator, described steam generator is connected with penstock and steam lead；

Nozzle assembly, described nozzle assembly is located at the water side of described steam lead, and described nozzle assembly is according to claim The nozzle assembly for steam generator any one of 1-9, the inlet channel of described nozzle assembly is led with described steam Pipe connects.

A kind of 11. clothes-drying devices are it is characterised in that include：

Steam raising plant, described steam raising plant is the steam raising plant according to claim 10.