CN210797018U - Steam cavity with two water inlets - Google Patents

Abstract

The utility model discloses a steam cavity with double water inlets, which comprises a steam cavity body and a heating body, wherein a main cavity and an auxiliary cavity are arranged in the steam cavity body, and a first water inlet and a second water inlet are arranged on the steam cavity body; a first steam shunting section and a second steam shunting section are arranged in the steam cavity body; a convergence port and a steam converging cavity are arranged in the steam cavity body, and the first steam flow dividing section and the second steam flow dividing section are communicated with the steam converging cavity through the convergence port; the steam cavity body is provided with a steam jet hole. The utility model has the advantages of it is following and effect: the mode of the main cavity and the auxiliary cavity is adopted, the first water inlet and the second water inlet are correspondingly arranged, and steam in the auxiliary cavity is heated in an auxiliary mode, so that the steam is vaporized more completely, and the ironing effect is better; the clapboard is provided with overflow holes, so that the water distribution is more balanced; set up crisscross first fender muscle and the second fender muscle in second steam reposition of redundant personnel section, can reduce the velocity of flow, the security is high.

Description

Steam cavity with two water inlets

Technical Field

The utility model relates to a clothing ironing device technical field, in particular to steam chamber with two water inlets.

Background

In the market, the steam brush is an efficient and environment-friendly household cleaning appliance because the steam brush is small in size, convenient to carry, free of an ironing board during use and convenient to store, ironing, sterilizing, cleaning and the like can be easily achieved through continuously sprayed high-temperature and high-pressure steam, and the steam brush is suitable for being used in families, hotels, traveling and the like and is gradually popular in the market.

The core of the steam appliance such as the steam brush and the like is that water in the inner cavity of the appliance is heated by the heating part, and formed steam is sprayed out from the steam spraying port so as to iron clothes and the like. However, the inside evaporation cavity that only is equipped with of present common steam chamber, the evaporation cavity correspondence is provided with a water inlet, and in the use, the user inclines the steam chamber according to the demand, will lead to the rivers that come from the water inlet to flow in one side, and the rivers that make in the steam intracavity inner chamber distribute inhomogeneous, will can't realize complete vaporization in the more position of ponding, and the water that does not complete vaporization will become the water droplet along with steam blowout to the relatively poor phenomenon of ironing effect appears.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steam chamber with two water inlets adopts this internal main cavity that sets up in steam chamber and the mode in supplementary chamber, has the effect that steam vaporization is more complete, ironing effect is better.

The above technical purpose of the present invention can be achieved by the following technical solutions: a steam cavity with double water inlets, which comprises a steam cavity body and a heating body for heating the inner cavity of the steam cavity body,

a main cavity and an auxiliary cavity are arranged in the steam cavity body, a first water inlet and a second water inlet are arranged on the steam cavity body, the first water inlet is communicated with the main cavity, and the second water inlet is communicated with the auxiliary cavity;

a first steam shunting section is arranged in the steam cavity body, the first steam shunting section is communicated with the main cavity, and the first steam shunting section is arranged outside the main cavity in a bending and surrounding manner; a second steam diversion section is also arranged in the steam cavity body, the second steam diversion section is communicated with the auxiliary cavity, and the second steam diversion section is arranged outside the auxiliary cavity and the main cavity in a bending and surrounding manner;

the steam cavity body is internally provided with a convergence port and a steam converging cavity which are communicated, and the first steam flow dividing section and the second steam flow dividing section are communicated with the steam converging cavity through the convergence port;

the steam cavity body is provided with a plurality of steam jet holes communicated with the steam converging cavity, and the inner walls of the steam jet holes are in an outward flaring shape.

Through adopting above-mentioned technical scheme, when using, first water inlet and second water inlet add water to the main cavity respectively with assisting the intracavity, heat the main cavity and assist the intracavity water with the heating member that the main cavity corresponds and make its vaporization, the steam in the main cavity flows through from first steam reposition of redundant personnel section and lets in to the steam confluence intracavity after gathering the mouth, the steam of assisting the intracavity flows through from second steam reposition of redundant personnel section and lets in to the steam confluence intracavity equally behind the mouth, the steam in last steam confluence intracavity is spout from the steam jet hole, steam and scald the clothing, the heating member can carry out the continuation heating to steam, can prevent the steam liquefaction to a certain extent, add the second water inlet, mainly play the effect of adjusting the steam size. The steam in the auxiliary cavity is introduced into the steam converging cavity, and the heat of the steam plays an auxiliary heating role on the steam generated by the main cavity, so that the steam is more completely vaporized. The steam jet holes are arranged in a flaring shape, and when steam in the steam cavity body is jetted outwards, the jetting area of the steam cavity body is wider, so that the ironing speed is increased, and the ironing effect is better.

The utility model discloses a further set up to: the main cavity is separated with assisting through the baffle between the chamber, has seted up the overflow hole on the baffle, and the overflow hole is located and keeps away from steam chamber body bottom department.

Through adopting above-mentioned technical scheme, when the water yield in main cavity or the assistance intracavity is more relatively, incline steam cavity body a little and can flow to adjacent cavity in through the overflow hole, make the water yield distribution more balanced.

The utility model discloses a further set up to: the second steam reposition of redundant personnel section is provided with first fender muscle and second fender muscle, and first fender muscle and second fender muscle are crisscross to be set up.

Through adopting above-mentioned technical scheme, the setting up that first fender muscle and second keep off the muscle can reduce the velocity of flow of the steam of assisting the intracavity in second steam reposition of redundant personnel section, makes the steam in the second steam reposition of redundant personnel section slowly let in to steam confluence intracavity and supply the steam that the main cavity produced, can prevent to a certain extent that this internal steam flow rate of steam cavity is too fast and cause danger.

The utility model discloses a further set up to: the steam injection holes are horizontally arranged in a plurality.

The utility model discloses a further set up to: the steam cavity body is provided with a temperature sensing element.

Through adopting above-mentioned technical scheme, temperature-sensing element is arranged in measuring the temperature in the steam chamber body inner chamber and carries out real time monitoring.

The utility model discloses a further set up to: the steam cavity body is provided with a supporting cross rod.

Through adopting above-mentioned technical scheme, after steam chamber body used, the accessible supports the horizontal pole and places it on the supporting seat.

The utility model discloses a further set up to: the convergence port is arranged at one end far away from the steam jet hole.

Through adopting above-mentioned technical scheme, will assemble the mouth and keep away from the steam jet hole, can make the steam that the chamber produced of assisting and the steam that the main cavity produced mix more evenly.

To sum up, the utility model discloses following beneficial effect has:

1. the mode of arranging the main cavity and the auxiliary cavity in the steam cavity body is adopted, the first water inlets and the second water inlets which are in one-to-one correspondence with the main cavity and the auxiliary cavity are arranged, and steam in the auxiliary cavity is introduced into the steam converging cavity to play an auxiliary heating role on steam generated by the main cavity, so that the steam is more completely vaporized, and the ironing effect is better;

2. the mode that the overflow holes are formed in the partition plate between the main cavity and the auxiliary cavity is adopted, when the water amount in the main cavity or the auxiliary cavity is relatively large, the steam cavity body is slightly inclined, and then the steam can flow into the adjacent cavities through the overflow holes, so that the water amount distribution is more balanced;

3. set up crisscross first fender muscle and the second at second steam reposition of redundant personnel section and keep off the muscle, can reduce the velocity of flow of the steam of assisting the intracavity in second steam reposition of redundant personnel section, make the steam in the second steam reposition of redundant personnel section slowly let in to steam confluence intracavity and supply the steam that the main cavity produced, can prevent to a certain extent that this internal steam of steam cavity flow velocity is too fast and cause danger.

Drawings

Fig. 1 is a schematic diagram of the overall structural relationship of the embodiment.

Fig. 2 is a plan view of the internal structure of the case in the embodiment.

Fig. 3 is a sectional view of the embodiment.

In the figure: 1. a steam chamber body; 11. a housing; 111. a groove; 12. a cover plate; 121. a bump; 13. a support rail; 14. a temperature sensing element; 15. a first water inlet; 16. a second water inlet; 17. a convergence port; 18. a steam confluence cavity; 2. a heating body; 3. a steam jet hole; 4. a main chamber; 5. an auxiliary cavity; 6. a partition plate; 61. an overflow aperture; 7. a first steam splitting section; 8. a second steam splitting section; 81. a first barrier rib; 82. and a second rib.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The utility model provides a steam chamber with two water inlets, as shown in figure 1, figure 2 and figure 3, including steam chamber body 1 and carry out the heating member 2 that heats to steam chamber body's 1 inner chamber, heating member 2 is "bow" font and spirals and set up in steam chamber body's 1 bottom, steam chamber body 1 includes casing 11 and the apron 12 of lid on casing 11, casing 11 open-ended is seted up flutedly around, be provided with the lug 121 that corresponds the embedding with flutedly 111 on the apron 12, seven steam jet holes 3 have transversely been seted up to steam chamber body's 1 front end, the inner wall of steam jet hole 3 sets up to outside flaring form, and the internal diameter of steam jet hole 3 at the middle is greater than the internal diameter of both sides steam jet hole 3. Still be provided with on the steam chamber body 1 and support horizontal pole 13 and temperature-sensing element 14, temperature-sensing element 14 is arranged in measuring the temperature in the steam chamber body 1 inner chamber and carries out real time monitoring, and after steam chamber body 1 used up, accessible support horizontal pole 13 was placed it on the supporting seat.

As shown in fig. 2 and 3, a main cavity 4 and an auxiliary cavity 5 are arranged in the steam cavity body 1, the auxiliary cavity 5 is arranged at one end close to the steam jet hole 3, the main cavity 4 is arranged at one end far away from the steam jet hole 3, the main cavity 4 and the auxiliary cavity 5 are separated by a partition plate 6, an overflow hole 61 is formed in the partition plate 6, and the overflow hole 61 is positioned at the position far away from the bottom of the steam cavity body 1; the steam cavity body 1 is provided with two water inlets, the water inlets comprise a first water inlet 15 and a second water inlet 16, the first water inlet 15 is communicated with the main cavity 4, and the second water inlet 16 is communicated with the auxiliary cavity 5; a first steam shunting section 7 is arranged in the steam cavity body 1, the first steam shunting section 7 is communicated with the main cavity 4, and the first steam shunting section 7 is arranged outside the main cavity 4 in a bending and surrounding manner; a second steam diversion section 8 is further arranged in the steam cavity body 1, the second steam diversion section 8 is communicated with the auxiliary cavity 5, the second steam diversion section 8 is arranged outside the auxiliary cavity 5 and the main cavity 4 in a bending and surrounding mode, the total length of the second steam diversion section 8 is larger than that of the first steam diversion section 7, the second steam diversion section 8 is provided with a first blocking rib 81 and a second blocking rib 82, and the first blocking rib 81 and the second blocking rib 82 are arranged in a staggered mode; the steam cavity body 1 is internally provided with a convergence port 17 and a steam converging cavity 18 which are communicated, the first steam flow dividing section 7 and the second steam flow dividing section 8 are communicated with the steam converging cavity 18 through the convergence port 17, the convergence port 17 is arranged at one end far away from the steam jet hole 3, and the steam jet hole 3 is communicated with the steam converging cavity 18.

The utility model discloses a basic operating principle does: when using, first water inlet 15 and second water inlet 16 add water in to main cavity 4 and the supplementary cavity 5 respectively, the water that corresponds the heating member 2 that is located main cavity 4 and the supplementary cavity 5 heats the main cavity 4 and the supplementary cavity 5 makes its vaporization, steam in the main cavity 4 flows through from first steam reposition of redundant personnel section 7 and lets in to steam closes class chamber 18 after gathering mouthful 17, assist steam in the cavity 5 to flow through from second steam reposition of redundant personnel section 8 and gather mouthful 17 and then let in to steam closes class chamber 18 equally, steam in the steam closes class chamber 18 at last spouts from steam jet hole 3, evaporate the boiling water to the clothing, heating member 2 can carry out the continuation heating to steam, can prevent the steam liquefaction to a certain extent, add second water inlet 16, mainly play the effect of adjusting the steam size. The steam in the auxiliary cavity 5 is introduced into the steam converging cavity 18 and then plays a role in auxiliary heating on the steam generated by the main cavity 4, so that the steam is more completely vaporized, the steam jet holes 3 are arranged into flaring shapes, and when the steam in the steam cavity body 1 is outwards sprayed, the sprayed area is wider, the ironing speed is increased, and the ironing effect is better. First fender muscle 81 and second fender muscle 82 set up the velocity of flow that can reduce the steam in the second steam reposition of redundant personnel section 8 of assisting chamber 5, make the steam in the second steam reposition of redundant personnel section 8 slowly let in to steam closes the steam that flow chamber 18 produced main cavity 4 and supply, can prevent to a certain extent that steam flow speed is too fast and cause danger in steam chamber body 1.

When the water amount in the main cavity 4 or the auxiliary cavity 5 is more, the slightly inclined steam cavity body 1 can flow into the adjacent cavity through the overflow hole 61, so that the water amount distribution is more balanced.

In addition, the convergence port 17 is far away from the steam jet hole 3, so that the steam generated by the auxiliary cavity 5 and the steam generated by the main cavity 4 can be mixed for a long time before being jetted, and the mixing is more uniform.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (7)

1. The utility model provides a steam chamber with two water inlets, including steam chamber body (1) and right the inner chamber of steam chamber body (1) carries out heating member (2) that heat, its characterized in that:

a main cavity (4) and an auxiliary cavity (5) are arranged in the steam cavity body (1), a first water inlet (15) and a second water inlet (16) are arranged on the steam cavity body (1), the first water inlet (15) is communicated with the main cavity (4), and the second water inlet (16) is communicated with the auxiliary cavity (5);

a first steam shunting section (7) is arranged in the steam cavity body (1), the first steam shunting section (7) is communicated with the main cavity (4), and the first steam shunting section (7) is arranged outside the main cavity (4) in a bending and surrounding mode; a second steam diversion section (8) is further arranged in the steam cavity body (1), the second steam diversion section (8) is communicated with the auxiliary cavity (5), and the second steam diversion section (8) is arranged outside the auxiliary cavity (5) and the main cavity (4) in a bending and surrounding mode;

a convergence port (17) and a steam confluence cavity (18) which are communicated with each other are arranged in the steam cavity body (1), and the first steam flow dividing section (7) and the second steam flow dividing section (8) are communicated with the steam confluence cavity (18) through the convergence port (17);

the steam cavity body (1) is provided with a plurality of steam jet holes (3) communicated with the steam converging cavity (18), and the inner walls of the steam jet holes (3) are arranged into outward flaring shapes.

2. The steam chamber with double water inlets of claim 1, wherein: the steam chamber is characterized in that the main chamber (4) is separated from the auxiliary chamber (5) through a partition plate (6), an overflow hole (61) is formed in the partition plate (6), and the overflow hole (61) is located far away from the bottom of the steam chamber body (1).

3. The steam chamber with double water inlets of claim 1, wherein: the second steam shunting section (8) is provided with a first blocking rib (81) and a second blocking rib (82), and the first blocking rib (81) and the second blocking rib (82) are arranged in a staggered mode.

4. The steam chamber with double water inlets of claim 1, wherein: the steam injection holes (3) are horizontally arranged in a plurality.

5. The steam chamber with double water inlets of claim 1, wherein: the steam cavity body (1) is provided with a temperature sensing element (14).

6. The steam chamber with double water inlets of claim 1, wherein: the steam cavity body (1) is provided with a supporting cross rod (13).

7. The steam chamber with double water inlets of claim 1, wherein: the convergence port (17) is arranged at one end far away from the steam jet hole (3).

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