CN114561789A - Automatic steam equipment of moisturizing - Google Patents

Abstract

The invention discloses automatic water replenishing steam equipment, which comprises a brush body and a table body, wherein the table body is provided with a first water tank, the brush body is internally provided with a second water tank, the brush body is also internally provided with a water-gas conversion system, and the water-gas conversion system comprises: the input channel is used for supplying water and air; the output channel is used for supplying water and gas; the conversion cavity comprises a first separation cavity, a water gas cavity and a second separation cavity, and the second separation cavity is communicated with the output channel; the eccentric power module is used for providing power so as to enable water vapor to enter the second separation cavity; the brush body is inserted into the table body, the input channel sucks air in the second water tank to the first separation cavity, the eccentric power module converts the air into the second separation cavity and then discharges the air from the output channel, and therefore water in the first water tank is pressed into the second water tank; the brush body breaks away from the platform body, the input channel sucks water in the second water tank to the first separating chamber, the eccentric power module converts the water to the second separating chamber, and the output channel conveys the water to the steam generator to generate steam.

Description

Automatic steam equipment of moisturizing

Technical Field

The invention relates to the technical field of steam equipment, in particular to automatic water supplementing steam equipment.

Background

At present, a steam ironing device in the market, in particular a steam brush, is provided with a steam generating device, a water tank and a water delivery pump in a brush body, water in the water tank is delivered to the steam generating device by the water delivery pump, in order to facilitate water supplement of the water tank in the steam brush, a table body is usually additionally arranged, the water tank is arranged on the table body, in order to realize water delivery between the water supplement tank and the water tank, in the steam device in the prior art, the water supplement pump is additionally arranged in the table body or the brush body, the water supplement mode increases the manufacturing cost,

another kind of steam equipment among the existing design, it is internal at the brush and sets up a plurality of electromagnetism valves, need set up the mounted position for every electromagnetism valve group in the brush body, simultaneously, all need connect the business turn over pipeline on every electromagnetism valve group, leads to the internal structure of brush more complicated, and too much electromagnetism valve group leads to control circuit to arrange complicacy, the diversion increases manufacturing cost.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the automatic water replenishing steam equipment, which is convenient to manufacture and use and reduces the manufacturing cost.

The technical purpose of the invention is realized by the following technical scheme: the utility model provides an automatic vapor equipment of moisturizing, includes the brush body and stage body, be equipped with the first water tank that is used for the moisturizing on the stage body, the internal steam generator that is equipped with of brush and the second water tank that is used for water delivery, still be equipped with water gas conversion system in the brush, water gas conversion system includes:

the input channel is used for supplying water and air;

the output channel is used for supplying water and gas;

the conversion cavity comprises at least one movable first partition cavity, a water and gas cavity communicated with the input channel and a second partition cavity which is connected with the first partition cavity in an openable manner, wherein the second partition cavity is communicated with the output channel;

the eccentric power module comprises a motor and an eccentric mechanism driven by the motor, the eccentric mechanism drives the first separation cavity to expand and contract in a reciprocating mode so that the input channel sucks water vapor and enters the water vapor cavity and the first separation cavity, the first separation cavity is pressurized and opens the water vapor channel so that the water vapor enters the second separation cavity, and the eccentric mechanism continues to drive the first separation cavity to expand and contract in a reciprocating mode so that the output channel conveys the water vapor in the second separation cavity;

the brush body is inserted into the table body, the first water tank is communicated with the second water tank, the eccentric power module works, the input channel sucks air in the second water tank to the first separation cavity, the eccentric power module converts the air into the second separation cavity and then discharges the air from the output channel, and therefore water in the first water tank is pressed into the second water tank;

the brush body is separated from the table body, the input channel sucks water in the second water tank to the first separation cavity, the eccentric power module converts the water to the second separation cavity, and the output channel conveys the water to the steam generator to generate steam.

Further, the water gas shift system further comprises a first valve disposed in the first compartment and blocking the inlet passage and the water gas chamber, and a second valve disposed in the second compartment and blocking the outlet passage and the first compartment, wherein the first valve opens with expansion of the first compartment and the second valve opens with contraction of the second compartment.

Further, the eccentric mechanism comprises a transmission block arranged at the rotating end of the motor, an eccentric shaft obliquely arranged on the transmission block and an eccentric block connected to the eccentric shaft, wherein the eccentric block rotates along with the motor and is intermittently matched with the first separation cavity, the eccentric block extrudes the first separation cavity and enables the first separation cavity to contract, and the eccentric block is far away from the first separation cavity and enables the first separation cavity to expand.

Further, the water gas shift system further comprises: a cover on which the input channel and the output channel are formed;

the compression seat is connected with the first separation cavity and the water and gas cavity and is used for accommodating the first valve;

the diaphragm is arranged between the cover body and the compression seat, the water gas cavity and the second separation cavity are formed between the diaphragm and the cover body, the second valve is formed in the middle of the diaphragm, and the water gas cavity surrounds the second separation cavity and is communicated with the first separation cavity.

Furthermore, the water-gas conversion structure also comprises an outer shell and at least one diaphragm seat, the eccentric power module and the diaphragm seat are accommodated in the outer shell, the bottom of the diaphragm seat is provided with a soft tympanic membrane part, the upper part of the diaphragm seat is provided with a compression part,

the drumhead part is hermetically matched with the compression seat to form a first separation cavity, and the compression part is driven by the eccentric block to vertically blast so as to expand and contract the drumhead part.

Furthermore, a concave part is formed on the compression part, the eccentric block is provided with a transmission part extending towards two sides, and the transmission part is sleeved on the concave part to drive the compression part.

Further, the number of the first separation cavities is two, and the eccentric mechanism is matched with the two first separation cavities so as to enable the two first separation cavities to expand and contract alternately.

Further, a control module is arranged in the brush body, the eccentric power module is connected with a current detection module, and a load current interval and a no-load current interval are preset in the current detection module;

the brush body is separated from the table body, when the current detection module detects that the current of the eccentric power module is in a load current interval, the control module drives the eccentric power module and the steam generator to continuously and normally work, and when the current detection module detects that the current of the eccentric power module is in a no-load current interval, the control module drives the eccentric power module to stop working and prompts that the second water tank is lack of water.

The brush body is inserted into the platform body, when the current detection module detects that the current of the power module is in a load current interval, the control module drives the power module and the steam generator to continuously and normally work, and when the current detection module detects that the current of the eccentric power module is in a no-load current interval, the control module drives the eccentric power module to stop working and prompts that the first water tank is lack of water.

Further, the load current interval comprises a first load interval and a second load interval, the first load interval corresponds to current when air in the second water tank is extracted under the water storage state of the first water tank, and the second load interval corresponds to current when water in the second water tank is extracted under the water storage state of the second water tank;

the idle current interval comprises a first idle interval and a second idle interval, the first idle interval corresponds to the current when the air in the second water tank is extracted under the water shortage state in the first water tank and the second water tank, and the second idle interval corresponds to the current when the air in the second water tank is extracted under the water shortage state in the second water tank.

Further, when the current detection module detects that the current is in a first no-load interval, the first water tank and the second water tank are prompted to lack of water, or the brush body and the platform body are prompted to be not in place in an inserting mode.

Further, a water level sensor is arranged in the second water tank and used for detecting the water level in the second water tank;

the brush body is separated from the table body, and when the water level sensor detects that the water level in the second water tank is at a high water level, the control module controls the steam generator and the power module to normally work;

the brush body is separated from the table body, and when the water level sensor detects that the water level in the second water tank is at a low water level, the control module controls the power module to stop working and prompts that the second water tank is lack of water;

the brush body is inserted into the table body, and when the water level sensor detects that the water level in the second water tank is at a high water level, the control module controls the power module to stop water supplement;

the brush body inserts the stage body, detects when level sensor that the water level is in the low water level in the second water tank, control module control power module work to the moisturizing of second water tank, just after the power module work, level sensor still detects the water level and is in the low water level in the second water tank, control module control power module stop work to indicate first water tank lack of water.

Furthermore, the water-gas conversion system also comprises a middle rotating seat, the middle rotating seat comprises a cavity and a control rod movably arranged in the cavity, the control rod is isolated from the cavity from top to bottom to form an air outlet cavity and a water outlet cavity, and the input channel is selectively connected with the air outlet cavity or the water outlet cavity.

Further, the water gas shift system also includes a conduit assembly, the conduit assembly including:

the water inlet pipeline is communicated with the second water tank, and the output channel feeds water or air into the second water tank through the water inlet pipeline;

the suction pipeline is communicated with the input channel and is connected with the cavity;

go out the intercommunication between water cavity and the second water tank and be equipped with out the water pipeline, it is equipped with out the air pipeline to go out the intercommunication between air cavity and the second water tank, the control lever is movable in the cavity to order about suction pipeline and play water cavity intercommunication enter out vapour state, or with going out the air cavity intercommunication and enter the moisturizing state.

Further, under the steam-out state, the suction pipeline communicates out the water cavity and goes out the water pipeline, the control lever disconnection suction pipeline with go out the air cavity, power module work and via well swivel mount suction second water tank in water to steam generator, the inlet air pipeline communicates the external world and admits air to the second water tank.

Further, under the moisturizing state, control lever, inlet air pipeline cooperate with first water tank respectively, so that suction pipeline intercommunication goes out the air cavity and goes out the air pipeline, control lever disconnection suction pipeline and play water cavity, power module work and via well swivel mount discharge second water tank in gaseous, so that pressure is less than first water tank in the second water tank, inlet air pipeline carries water to second water tank in the first water tank through the negative pressure.

Further, still be equipped with the output pipeline in the brush body, the output pipeline intercommunication is between steam generator and the pump body, the output pipeline is gaseous to steam generator in the second water tank of discharge under the moisturizing state, the output pipeline is at water body to steam generator in the second water tank of delivery under the play vapour state.

Further, an elastic piece is arranged in the cavity and used for pushing the control rod to be kept in a steam outlet state, and an ejector rod is further arranged on the table body in a protruding mode and used for pushing the control rod to enter a water supplementing state.

Furthermore, a first sealing part and a second sealing part are arranged on the control rod, the first sealing part is arranged between the air outlet pipeline and the water outlet pipeline, the second sealing part is closed at the bottom of the cavity, and the connecting position of the suction pipeline relative to the cavity corresponds to the stroke of the first sealing part.

Further, be equipped with the connecting seat on the brush body, be equipped with the moisturizing seat of intercommunication first water tank on the stage body, the moisturizing seat gets into the moisturizing state with the connecting seat cooperation, still be equipped with the control valve of being connected with the inlet air pipeline on the connecting seat, the control valve is in the moisturizing state with the moisturizing interface cooperation intercommunication of first water tank, the control valve is opened by the interior negative pressure of second water tank under the play vapour state.

Further, the water replenishing base comprises an inner valve matched with the first water tank and an outer valve matched with the connecting base;

the outer valve comprises an outer valve cavity and an outer valve core penetrating through the outer valve cavity, and the outer valve core extends out of the water supplementing seat;

the inner valve comprises an inner valve cavity communicated with the first water tank, an inner valve core movably arranged in the inner valve cavity and a second spring driving the inner valve core to close the inner valve cavity;

the connecting seat pushes and presses the outer valve core, the outer valve core pushes and presses the inner valve core, so that the inner valve core opens the first water tank, and the first water tank is communicated with the water replenishing seat and the connecting seat.

Furthermore, an integrated end cover is arranged on the second water tank, an exhaust interface, a water delivery interface, a water inlet interface and a gas inlet interface are arranged on the integrated end cover, the water delivery interface extends to the bottom of the second water tank, and the exhaust interface and the gas inlet interface are arranged on the upper portion of the second water tank.

Compared with the prior art, the invention has the following advantages and beneficial effects: the water body and the gas can both advance in the water-gas conversion system, so that the brush body can quickly give out air and supplement water for the second water tank in a water supplementing state, the brush body quickly gives out water to the steam generator in a steam giving state, and the water supplement in the second water tank is enabled to be pressed into the second water tank by discharging the gas in the second water tank, so that the water supplement is realized in a dynamic pressure balance mode, the water supplementing process is smoother, the air entering the second water tank is reduced, the steam giving stability is further improved, and high-temperature water drops are prevented from being brought out by the air;

a middle rotary seat is arranged at the bottom of the brush body, a control rod, an air outlet cavity and an air outlet cavity are arranged in the middle rotary seat, a suction pipeline is communicated with the pump body, the middle rotary seat bears the water output and the air output of the second water tank, and an air inlet pipeline bears the water input and the air input of the second water tank, so that the arrangement of a water path conversion device in the brush body is reduced;

the steam outlet state is switched to the water supplementing state, the brush body is only required to be inserted into the first water tank, and the control rod is pushed and pressed by the ejector rod, so that the suction pipeline is communicated with the water outlet cavity and the water outlet pipeline, and the operation is simple;

the water replenishing mode or the steam discharging mode of the steam equipment is switched through the control rod, a plurality of electromagnetic valves are not required to be arranged in the brush body, the production cost is reduced by adopting a mechanical control mode, meanwhile, the arrangement of a control part of the steam equipment is convenient, and the internal space of the brush body is reasonably utilized;

the working current of the eccentric power module is detected in real time through the current detection module, the working state of the brush body is further judged, the stability of the brush body in a water supplementing state and a steam discharging state is guaranteed, adverse effects caused by water shortage of the first water tank and the second water tank are avoided, and meanwhile, whether the brush body and the platform body are normally spliced and matched or not can be judged through minimum no-load current in the water supplementing state;

the work or stop of the eccentric power module and the steam generator is controlled through the water level sensor in the second water tank, and the work reliability of the brush body is guaranteed.

Drawings

FIG. 1 is a schematic diagram of a water gas shift system according to the present invention;

FIG. 2 is a bottom view of the input and output channels of the present invention;

FIG. 3 is a schematic view of the overall structure of the present invention;

FIG. 4 is a schematic view of the vapor outlet state of the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a schematic structural view of a water supplement state according to the present invention;

FIG. 7 is an enlarged view at B in FIG. 6;

FIG. 8 is an exploded view of the connecting seat, the control valve and the water replenishing seat of the present invention;

FIG. 9 is an enlarged view at C of FIG. 8;

FIG. 10 is a schematic diagram of the connection of the control module of the present invention;

FIG. 11 is a schematic connection diagram of a current detection module according to the present invention;

in the figure: 1. a brush body; 2. a first water tank; 3. a steam generator; 4. a second water tank; 5. a water gas conversion system; 5.1, inputting a channel; 5.2, outputting a channel; 5.3, a first compartment; 5.4, a water-air cavity; 5.5, a second compartment; 5.6, a motor; 5.7, an eccentric mechanism; 5.71, a transmission block; 5.72, an eccentric shaft; 5.73, an eccentric block; 5.74, a through hole; 5.8, a first valve; 5.9, a second valve; 6. an inlet water gas line; 7. a middle transposable; 7.1, a cavity; 7.2, a control rod; 7.3, an air outlet cavity; 7.4, a water outlet cavity; 7.5, an elastic piece; 7.6, a first sealing part; 7.7, a second sealing part; 8. a suction line; 9. a water outlet pipeline; 10. an air outlet pipeline; 11. an output pipeline; 12. a connecting seat; 12.1, opening; 13. a water replenishing base; 13.1, an internal valve; 13.11, an inner valve cavity; 13.12, inner valve core; 13.13, a second spring; 13.2, an outer valve; 13.21, an outer valve cavity; 13.22, an outer valve element; 13.3, a mandril; 14. a control valve; 14.1, a first valve cavity; 14.2, a first spring; 14.3, convex strips; 14.4, a plugging piece; 15. an integrated end cap; 15.1, an exhaust interface; 15.2, a water delivery interface; 15.3, a water inlet gas interface; 16. a stage body; 17. a cover body; 18. a compression seat; 19. a membrane; 20. an outer housing; 21. a diaphragm seat; 21.1, tympanic membrane site; 21.2, a compressed part; 22. a control module; 23. a current detection module; 23.1, load current interval; 23.11, a first load interval; 23.12, a second load interval; 23.2, no-load current interval; 23.21, a first no-load interval; 23.22, a second no-load interval; 24. a water level sensor;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that, although the terms upper, middle, lower, top, end, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another for ease of understanding, and are not used to define any direction or order of limitation.

As shown in fig. 1-11, an automatic water replenishing steam equipment, includes brush body 1 and stage 16, is equipped with the first water tank 2 that is used for the moisturizing on the stage 16, be equipped with steam generator 3 in the brush body 1 and be used for the second water tank 4 of water delivery, be equipped with connecting seat 12 on the brush body 1, be equipped with the moisturizing seat 13 of intercommunication first water tank on the stage, still be equipped with aqueous vapor conversion system 5 in the brush body 1, aqueous vapor conversion system 5 includes:

an input channel 5.1 for the admission of water and air;

the output channel 5.2 is used for outputting water and gas;

a switching chamber, at least one movable first compartment 5.3, a water and air chamber 5.4 communicating with the inlet duct 5.1, and a second compartment 5.5 openably connected to the first compartment 5.3, said second compartment 5.5 communicating with the outlet duct 5.2;

the eccentric power module is used for providing power for water entering the input channel 5.1 and comprises a motor 5.6 and an eccentric mechanism 5.7 driven by the motor 5.6, the eccentric mechanism 5.7 drives the first separation chamber 5.3 to expand and contract in a reciprocating mode so that the input channel 5.1 sucks water and air and enters the water and air chamber 5.4 and the first separation chamber 5.3, the first separation chamber 5.3 is pressurized and opens a water and air channel so that water enters the second separation chamber 5.5, and the eccentric mechanism 5.7 continues to drive the first separation chamber 5.3 to expand and contract in a reciprocating mode so that the output channel 5.2 conveys water in the second separation chamber 5.5;

the brush body 1 is inserted into the table body 16, the water replenishing seat 13 is matched with the connecting seat 12 to enter a water replenishing state, the first water tank 2 is communicated with the second water tank 4, the eccentric power module works, the input channel 5.1 sucks air in the second water tank 4 to the first separation cavity 5.3, the eccentric power module converts the air into the second separation cavity 5.5 and then discharges the air from the output channel 5.2, and at the moment, water in the first water tank 2 is pressed into the second water tank 4 under the action of pressure;

the brush body 1 is separated from the platform body 16 and enters a steam outlet state, the eccentric power module works, the input channel 5.1 sucks water in the second water tank 4 to the first separation cavity 5.3, the eccentric power module converts the water to the second separation cavity 5.5, and the output channel 5.2 conveys the water to the steam generator 3 to generate steam.

In the above embodiment, to realize the water path connection of the output channel 5.2 to the steam generator 3 and the water path connection of the first water tank 2 to the second water tank 4, the water gas shift system 5 further comprises a pipe assembly and a middle swivel base 7.

As an embodiment of the middle rotating base 7, the middle rotating base 7 is disposed at the connecting base 12, the middle rotating base 7 includes a cavity 7.1 and a control rod 7.2 movably disposed in the cavity 7.1, the control rod 7.2 isolates the cavity 7.1 from top to bottom to form an air outlet cavity 7.3 and a water outlet cavity 7.4, the input channel 5.1 is selectively connected with the air outlet cavity 7.3 or the water outlet cavity 7.4, the input channel 5.1 is connected with the air outlet cavity 7.3 in a water replenishing state, and the input channel 5.1 is connected with the water outlet cavity 7.4 in a steam discharging state.

As shown in fig. 4 and 6, as an embodiment of the pipe assembly, the pipe assembly includes:

one end of the water inlet pipeline 6 is communicated with the second water tank 4, the other end of the water inlet pipeline 6 is connected to the connecting seat 12, the water inlet pipeline 6 is used for feeding water into the second water tank 4 in a water supplementing state, and the water inlet pipeline 6 is used for feeding air into the second water tank 4 in a steam outlet state;

a suction line 8, the suction line 8 communicating the input channel 5.1 with the cavity 7.1;

go out and communicate between water cavity 7.4 and the second water tank 4 and be equipped with out water pipeline 9, it is equipped with out gas pipeline 10 to communicate between gas cavity 7.3 and the second water tank 4, control lever 7.2 is at cavity 7.1 internalization to order about suction pipeline 8 and play water cavity 7.4 intercommunication enter out vapour state, or with going out water cavity 7.3 intercommunication and enter the moisturizing state.

When water is fed into the second water tank 4, gas needs to be discharged, and when water is discharged from the second water tank 4, gas needs to be supplemented, so that the pressure in the second water tank 4 is maintained, an output pipeline 11 is further arranged in the brush body 1, the output pipeline 11 is communicated between the steam generator 3 and an output channel 5.2, and the output pipeline 11 is powered by an eccentric power module in a water supplementing state, and the gas in the second water tank 4 is discharged to the steam generator 3 through an air outlet cavity 7.3; and the output pipeline 11 is powered by the eccentric power module in a steam outlet state, and conveys the water in the second water tank 4 to the steam generator 3 through the water outlet cavity 7.4.

The middle rotary seat 7 is arranged at the bottom of the brush body 1, the control rod 7.2, the air outlet cavity 7.3 and the water outlet cavity 7.4 are arranged in the middle rotary seat 7, the suction pipeline 8 is communicated with the input channel 5.1, the middle rotary seat 7 bears the water output and the air output of the second water tank 4, and the water input and the air input of the second water tank 4 are borne by the water inlet pipeline 6, so that the arrangement of a water path conversion device in the brush body 1 is reduced.

Switch steaming plant's moisturizing mode or play vapour mode through control lever 7.2, need not to set up a plurality of solenoid valves in the brush body 1, adopt mechanical control's mode to reduce manufacturing cost, make things convenient for the arrangement of steaming plant's control part simultaneously, the rational utilization brush body 1 inner space.

In other embodiments, as shown in fig. 1 and 2, said first compartments 5.3 are two in number, and said eccentric mechanism 5.7 cooperates with said two first compartments 5.3 to cause alternating expansion and contraction of said two first compartments 5.3, thereby ensuring continuity of the moisture transport.

As a further explanation of the water gas conversion system 5 said water gas conversion system 5 further comprises a first valve 5.8 and a second valve 5.9, said first valve 5.8 being arranged in the first compartment 5.3 and blocking the inlet channel 5.1 and the water gas chamber 5.4, said second valve 5.9 being arranged in the second compartment 5.5 and blocking the outlet channel 5.2 and the first compartment 5.3, said first compartment 5.3 being reciprocally contracted and expanded by the eccentric power module, wherein said first valve 5.8 opens with the expansion of the first compartment 5.3 such that water gas in the inlet channel 5.1 and the water gas chamber 5.4 is pressed into the first compartment 5.3, said second valve 5.9 being contracted with the second compartment 5.5 such that water gas in the first compartment 5.3 is allowed to enter the second compartment 5.5 and be transported to the outlet channel 5.2.

Optionally, the first valve 5.8 is an umbrella valve, the umbrella part of the first valve 5.8 is covered in the first compartment 5.3, and the second valve 5.9 is a T-shaped valve.

Through the structure, the input and the output of the water body and the gas in the same mechanism realize the rapid water-gas conversion in the water supplementing state and the steam discharging state, and the occupied space in the brush body 1 is reduced.

As a further explanation of the eccentric mechanism 5.7, said eccentric mechanism 5.7 comprises an actuator block 5.71 arranged at the rotating end of the motor 5.6, an eccentric shaft 5.72 arranged obliquely on the actuator block 5.71, and an eccentric block 5.73 attached to the eccentric shaft 5.72, said eccentric block 5.73 rotating with the motor 5.6 and intermittently engaging the first compartment 5.3, said eccentric block 5.73 squeezing and contracting the first compartment 5.3, said eccentric block 5.73 moving away from and expanding the first compartment 5.3, the negative pressure of the suction being provided by the expansion of the first compartment 5.3 and the positive pressure of the delivery being provided by the contraction of the first compartment 5.3.

Specifically, the water gas shift system 5 further includes:

a cover 17, the input channel 5.1 and the output channel 5.2 being formed on the cover 17;

a compression seat 18 which is connected with the first separate chamber 5.3 and the water gas chamber 5.4 and is used for accommodating the first valve 5.8;

a membrane 19, arranged between the cover 17 and the compression seat 18, said water gas chamber 5.4 and the second compartment 5.5 being formed between said membrane 19 and the cover 17, and said second valve 5.9 being formed in the middle of said membrane 19, said water gas chamber 5.4 surrounding said second compartment 5.5 and being in communication with the first compartment 5.3.

The water-gas conversion structure further comprises an outer shell 20 and at least one diaphragm seat 21, the eccentric power module and the diaphragm seat 21 are accommodated in the outer shell 20, a soft tympanic membrane part 21.1 is arranged at the bottom of the diaphragm seat 21, a compression part 21.2 is arranged at the upper part of the diaphragm seat 21, and optionally, the eccentric block 5.73 can be sleeved on the compression part 21.2 or abutted against the compression part 21.2.

As an explanation of the configuration of the first compartment 5.3, the first compartment 5.3 is formed by the tympanic membrane portion 21.1 and the compression seat 18 in a sealing fit, the compression portion 21.2 is driven by the eccentric block 5.73 to vertically expand and contract the tympanic membrane portion 21.1, and the outer edge of the tympanic membrane portion 21.1 is pressed between the compression seat 18 and the outer shell 20 to form a fixed position.

The compression part 21.2 is formed with a concave part, the eccentric block 5.73 is provided with a transmission part extending towards two sides, and the transmission part is sleeved on the concave part to drive the compression part 21.2.

As an explanation for the structure of the water gas cavity 5.4 and the second separation cavity 5.5, a recessed first annular seat is formed at the cover body 17, a flush second annular seat is formed in the middle of the first annular seat, a first annular groove is formed on the diaphragm 19, a second annular groove is formed in the middle of the first annular groove, the first annular groove is in water-tight fit with the first annular seat to form a surrounding water gas cavity 5.4, the second annular groove is in water-tight fit with the second annular seat to form the second separation cavity 5.5 in the middle of the water gas cavity 5.4, the input channel 5.1 is communicated with the water gas cavity 5.4, and the output channel 5.2 is communicated with the second separation cavity 5.5.

As an explanation for the connection of the first compartment 5.3 to the water gas chamber 5.4 and the second compartment 5.5, a first through hole 5.74 is formed in the compression base 18, the first through hole 5.74 is connected to the water gas chamber 5.4, the umbrella-shaped portion of the first valve 5.8 covers the first through hole 5.74, a second through hole 5.74 is formed in the compression base 18, the second through hole 5.74 is connected to the second compartment 5.5, and the second valve 5.9 covers the second through hole 5.74.

In the daily use of the steam brush, it is necessary to ensure the normal cooperation of the brush body 1 and the table body 16, and at the same time, it is necessary to monitor the water in the second water tank 4 to ensure the normal use of the steam brush, therefore, in other embodiments, a control system is further provided, which comprises:

a control module 22 arranged in the brush body 1;

the current detection module 23 is connected with the eccentric power module and is preset with a load current interval 23.1 and a no-load current interval 23.2;

the brush body 1 breaks away from the stage body 16, when current detection module 23 detected that eccentric power module electric current is in load current interval 23.1, suggestion aqueous vapor conversion system 5 carries out the transportation of water, control module 22 drive eccentric power module and steam generator 3 lasts normal work, when current detection module 23 detected that eccentric power module electric current is in no-load current interval 23.2, control module 22 drive eccentric power module stop work to indicate second water tank 4 to lack water, and then prevent steam generator 3's dry combustion method.

The brush body 1 is inserted into the table body 16, when the current detection module 23 detects that the current of the power module is in a load current range 23.1, the control module 22 drives the power module and the steam generator 3 to continuously and normally work, and prompts that the brush body 1 is normally matched with the table body 16 and the water in the first water tank 2 is enough; when the current detection module 23 detects that the current of the eccentric power module is in the no-load current interval 23.2, the control module 22 drives the eccentric power module to stop working, and the first water tank 2 is prompted to lack of water or the table 16 is prompted to be abnormally matched with the brush body 1 in an alarm mode.

Specifically, the load current interval 23.1 includes a first load interval 23.11 and a second load interval 23.12, where the first load interval 23.11 corresponds to a current when air in the second water tank 4 is extracted in a water storage state of the first water tank 2, and the second load interval 23.12 corresponds to a current when water in the second water tank 4 is extracted in a water storage state of the second water tank 4;

the idle current interval 23.2 includes a first idle interval 23.21 and a second idle interval 23.22, the first idle interval 23.21 corresponds to a current when air in the second water tank 4 is extracted in a water shortage state in the first water tank 2 and the second water tank 4, the second idle interval 23.22 corresponds to a current when air in the second water tank 4 is extracted in a water shortage state in the second water tank 4, and the first idle interval is smaller than the second idle interval.

The water gas shift system may be connected to a dc 12V micro motor, which, as an option,

the first no-load interval is 0.065A to 0.070A;

the second no-load interval is 0.075A to 0.100A;

the first load interval is 0.280A to 0.295A;

the second load interval is 0.300A to 0.360A;

the positive and negative deviations of the interval may be 0.005A.

Specifically, when the current detection module 23 detects that the current is in the first no-load interval 23.21, it is prompted that the first water tank 2 and the second water tank 4 are short of water, or that the brush body 1 and the table body 16 are not inserted in place.

Through the control system, the water-gas conversion system 5 is detected, so that the error reporting states of the brush body 1 and the table body 16 are reminded, and the normal use of the steam brush is ensured.

In other embodiments, during the daily use of the steam brush, the water level in the second water tank 4 needs to be monitored to prevent the steam generator 3 from being dried to ensure the normal use of the steam brush, and therefore, in other embodiments, the control system further comprises a water level sensor 24 in the second water tank 4 for detecting the water level in the second water tank 4;

the brush body 1 is separated from the table body 16, and when the water level sensor 24 detects that the water level in the second water tank 4 is at a high water level, the control module 22 controls the steam generator 3 and the power module to normally work;

the brush body 1 is separated from the table body 16, when the water level sensor 24 detects that the water level in the second water tank 4 is at a low water level, the control module 22 controls the power module to stop working and prompts that the second water tank 4 is lack of water;

the brush body 1 is inserted into the table body 16, and when the water level sensor 24 detects that the water level in the second water tank 4 is at a high water level, the control module 22 controls the power module to stop water supplement and prompts the completion of water supplement;

the brush body 1 inserts the stage body 16, detects when level sensor 24 that the water level is in the low water level in the second water tank 4, control module 22 control power module work to 4 moisturizing of second water tank, just power module work back, level sensor 24 still detects the water level is in the low water level in the second water tank 4, control module 22 control power module stop work, and the suggestion first water tank 2 lacks water.

As shown in fig. 5 and fig. 7, as a further explanation of the air outlet cavity 7.3, the water outlet cavity 7.4 and the suction pipeline 8, the middle rotary base 7 is further provided with a suction port, an air outlet port and a water outlet port, the suction port is connected to the suction pipeline 8, the air outlet port is connected to the air outlet pipeline 10, the water outlet port is connected to the water outlet pipeline 9, the suction port is disposed on one side of the cavity 7.1, the water outlet port and the air outlet port are disposed on the other side of the cavity 7.1, and the water outlet port and the air outlet port are disposed up and down, and the suction port is disposed between the water outlet port and the air outlet port.

In the present embodiment, as a further explanation for the control lever 7.2, the control lever 7.2 is provided with a first sealing portion 7.6 and a second sealing portion 7.7, the first sealing portion 7.6 is disposed between the air outlet pipeline 10 and the water outlet pipeline 9, the second sealing portion 7.7 is closed at the bottom of the cavity 7.1, the connection position of the suction pipeline 8 with respect to the cavity 7.1 corresponds to the stroke of the first sealing portion 7.6, the control lever 7.2 has two limit positions in the cavity 7.1, which correspond to the water replenishing state and the steam discharging state, respectively, so that the air outlet cavity 7.3 or the water outlet cavity 7.4 can be closed at the limit position of the control lever 7.2, and the interference between the air outlet cavity 7.3 and the water outlet cavity 7.4 is avoided;

in the steam outlet state, the first sealing part 7.6 is positioned at the lower parts of the suction interface and the water outlet interface, so that the water outlet cavity 7.4 is kept communicated;

under the moisturizing state, first sealing 7.6 is located between suction interface and the water outlet port to isolated water outlet port, and first sealing 7.6 is located the suction interface and gives vent to anger the top of interface, and thus makes air outlet cavity 7.3 keep the intercommunication.

In order to ensure that the brush body 1 is in a steam outlet state when in use, an elastic element 7.5 is further arranged in the cavity 7.1, and the elastic element 7.5 pushes the control rod 7.2 to keep in the steam outlet state.

As shown in fig. 6, as an embodiment of the present invention, in which the control rod 7.2 moves in the cavity 7.1, an ejector rod 13.3 protrudes from the water replenishing base 13, and the ejector rod 13.3 pushes and presses the control rod 7.2 to enter a water replenishing state, at this time, the water replenishing base 13 is in inserted fit with the connecting base 12, and the water inlet pipeline 6 is communicated with the first water tank 2.

As shown in fig. 8, as an embodiment of the connection seat 12, an opening 12.1 at a lower portion of the connection seat 12 is used for being in insertion fit with a water replenishing seat 13, a control valve 14 connected with the water inlet pipeline 6 is further disposed in the connection seat 12, the control valve 14 is in fit communication with a water replenishing interface of the first water tank 2 in a water replenishing state, and the control valve 14 is opened by negative pressure in the second water tank 4 in a steam outlet state.

The control valve 14 comprises a first valve cavity 14.1, a plugging piece 14.4 and a first spring 14.2, wherein the plugging piece 14.4 and the first spring are arranged in the first valve cavity 14.1, the first valve cavity 14.1 is used for allowing the plugging piece 14.4 to move in the first valve cavity, the first spring 14.2 pushes the plugging piece 14.4 to close the opening 12.1, and in a water supplementing state, the water supplementing seat 13 pushes the plugging piece 14.4 to communicate the water supplementing seat 13 with the connecting seat 12, and the water supplementing seat 13 and the connecting seat 12 work along with the pump body 5, so that the first water tank 2 is communicated with the second water tank 4.

Specifically, the first valve cavity 14.1 is provided with convex strips 14.3 at intervals along the circumferential direction, the plugging member 14.4 runs between the convex strips 14.3, a passage for water and air to pass through is formed between two adjacent convex strips 14.3, and optionally, the plugging member 14.4 can be a spherical plugging member.

As an embodiment of the refill socket 13, as shown in fig. 9, the refill socket 13 includes an inner valve 13.1 engaged with the first tank 2 and an outer valve 13.2 engaged with the connection socket 12;

the outer valve 13.2 comprises an outer valve cavity 13.21 and an outer valve core 13.22 penetrating through the outer valve cavity 13.21, the outer valve core 13.22 extends out of the water replenishing seat 13, the inner part of the outer valve core 13.22 is hollow for water to pass through, optionally, the outer valve core 13.22 is a rod-shaped valve core, and the outer valve core 13.22 is used as a water replenishing interface of the water replenishing seat 13;

the inner valve 13.1 comprises an inner valve cavity 13.11 communicated with the first water tank 2, an inner valve core 13.12 movably arranged in the inner valve cavity 13.11 and a second spring 13.13 driving the inner valve core 13.12 to close the inner valve cavity 13.11, wherein the inner valve cavity 13.11 is also connected with a water replenishing pipe which is communicated with the first water tank 2 for water delivery;

in a water replenishing state, the connecting seat 12 pushes and presses the outer valve core 13.22, so that the outer valve core 13.22 pushes and presses the inner valve core 13.12 and the blocking piece 14.4, the inner valve core 13.12 opens the first water tank 2, the outer valve 13.2 opens the connecting seat 12, the first water tank 2 is communicated with the water replenishing seat 13, the connecting seat 12 and the front pipeline, and the first water tank 2 is communicated with the second water tank 4 along with the operation of the pump body 5.

Specifically, an integrated end cover 15 is arranged on the second water tank 4, an exhaust port 15.1, a water delivery port 15.2, a water inlet port 15.3 and an air inlet port 15.3 are arranged on the integrated end cover 15, the water delivery port 15.2 extends to the bottom of the second water tank 4 to ensure that the second water tank 4 normally discharges water, and the exhaust port 15.1 and the water-air port are arranged on the upper portion of the second water tank 4 to ensure that water in the second water tank 4 is prevented from being brought into the upper exhaust port 15.1 in the exhaust process.

The working principle is as follows:

the steam outlet state is switched to the water supplementing state, the brush body 1 is only required to be inserted into the first water tank 2, and the control rod 7.2 is pushed by the ejector rod 13.3, so that the suction pipeline 8 is communicated with the water outlet cavity 7.4 and the water outlet pipeline 9, and the operation is simple;

in a steam outlet state, the first sealing part 7.6 cuts off the suction pipeline 8 and the air outlet cavity 7.3, the suction pipeline 8 is communicated with the water outlet pipeline 9 and the water outlet cavity 7.4, along with the work of the eccentric power module, water in the second water tank 4 sequentially passes through the water delivery interface 15.2, the water outlet pipeline 9, the water outlet cavity 7.4, the suction pipeline 8, the input channel 5.1, the first separation cavity, the water air cavity, the second separation cavity, the output channel 5.2 and the output pipeline 11 and finally enters the steam generator 3, the closed air pressure in the second water tank 4 is reduced, the control valve 14 is opened under negative pressure, and outside air sequentially enters the water inlet air pipeline 6, the water inlet and air interfaces and the second water tank 4 through the control valve 14;

in a water replenishing state, the water replenishing seat 13 is matched with the connecting seat 12, the ejector rod 13.3 pushes and presses the control rod 7.2 to enable the first sealing part 7.6 to separate the suction pipeline 8 and the water outlet cavity 7.4, the suction pipeline 8 is communicated with the air outlet pipeline 10 and the air outlet cavity 7.3, along with the work of the eccentric power module, the gas in the second water tank 4 sequentially passes through the exhaust interface 15.1, the air outlet pipeline 10, the air outlet cavity 7.3, the suction pipeline 8, the input channel 5.1, the first separation cavity, the water gas cavity, the second separation cavity, the output channel 5.2 and the output pipeline 11 to the steam generator 3 and is finally exhausted through a steam outlet on the brush body 1, at the moment, the connecting seat 12 pushes and presses the outer valve core 13.22 to enable the outer valve core 13.22 to push and press the inner valve 13.12 and the plugging piece 14.4, the control valve 14, the inner valve 13.1 and the outer valve 13.2 are opened, the second water tank 4 is enabled to be lower than the first water tank 2 due to be lower in the sealed air pressure, the water in the first water tank 2 sequentially passes through the water replenishing seat 13, the control valve 14, the water inlet gas pipeline 6 and the water inlet and gas connector to the second water tank 4, and water replenishing is completed.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (17)

1. The utility model provides an automatic water replenishing's steaming equipment, includes the brush body (1) and the stage body, be equipped with first water tank (2) that are used for the moisturizing on the stage body, be equipped with steam generator (3) in the brush body (1) and be used for second water tank (4) of water delivery, its characterized in that, still be equipped with aqueous vapor conversion system (5) in the brush body (1), aqueous vapor conversion system (5) include:

an input channel (5.1) for the entry of water vapor;

the output channel (5.2) is used for outputting water vapor;

a switching chamber, at least one movable first compartment (5.3), a water and gas chamber (5.4) communicating with the inlet channel (5.1), and a second compartment (5.5) openably connected to the first compartment (5.3), said second compartment (5.5) communicating with the outlet channel (5.2);

an eccentric power module (25) comprising a motor (5.6) and an eccentric mechanism (5.7) driven by the motor (5.6), wherein the eccentric mechanism (5.7) drives the first compartment (5.3) to expand and contract in a reciprocating manner so that the input channel (5.1) sucks water and enters the water-air chamber (5.4) and the first compartment (5.3), the first compartment (5.3) pressurizes and opens the water-air passage so that water enters the second compartment (5.5), and the eccentric mechanism (5.7) continues to drive the first compartment (5.3) to expand and contract in a reciprocating manner so that the output channel (5.2) conveys water in the second compartment (5.5);

the brush body is inserted into the table body, the first water tank is communicated with the second water tank, the eccentric power module (25) works, the input channel (5.1) sucks air in the second water tank to the first separation cavity (5.3), the eccentric power module (25) converts the air into the second separation cavity (5.5) and then discharges the air from the output channel (5.2), and therefore the water body in the first water tank (2) is pressed into the second water tank (4);

the brush body breaks away from the table body, the water body in the second water tank is sucked to the first separation cavity (5.3) through the input channel (5.1), the water body is converted to the second separation cavity (5.5) through the eccentric power module (25), and the water body is conveyed to the steam generator through the output channel (5.2) to generate steam.

2. The automatic water replenishing steaming device according to claim 1, wherein: the water gas shift system (5) further comprises a first valve (5.8) and a second valve (5.9), said first valve (5.8) being arranged in the first compartment (5.3) and blocking the inlet channel (5.1) and the water gas chamber (5.4), said second valve (5.9) being arranged in the second compartment (5.5) and blocking the outlet channel (5.2) and the first compartment (5.3), said first valve (5.8) opening with the first compartment (5.3) expanding, said second valve (5.9) opening with the second compartment (5.5) contracting.

3. The automatic water replenishing steaming device according to claim 1, wherein: said eccentric mechanism (5.7) comprises a driving block (5.71) arranged at the rotating end of the motor (5.6), an eccentric shaft (5.72) obliquely arranged on the driving block (5.71), and an eccentric block (5.73) connected to the eccentric shaft (5.72), said eccentric block (5.73) rotating with the motor (5.6) and intermittently cooperating with the first compartment (5.3), said eccentric block (5.73) squeezing the first compartment (5.3) and causing it to contract, said eccentric block (5.73) moving away from the first compartment (5.3) and causing it to expand.

4. The automatic water replenishing steaming device according to claim 2, wherein: the water gas shift system (5) further comprises: a cover (17), the input channel (5.1) and the output channel (5.2) being formed on the cover (17);

a compression seat (18) which is connected with the first separation chamber (5.3) and the water-gas chamber (5.4) and is used for accommodating the first valve (5.8);

a diaphragm (19) arranged between the cover body (17) and the compression seat (18), wherein the water gas cavity (5.4) and the second separation cavity (5.5) are formed between the diaphragm (19) and the cover body (17), the second valve (5.9) is formed in the middle of the diaphragm (19), and the water gas cavity (5.4) surrounds the second separation cavity (5.5) and is communicated with the first separation cavity (5.3).

5. The automatic water replenishing steaming device according to claim 3, wherein: the water-gas conversion structure also comprises an outer shell (20) and at least one diaphragm seat (21), the eccentric power module (25) and the diaphragm seat (21) are accommodated in the outer shell (20), a soft tympanic membrane part (21.1) is arranged at the bottom of the diaphragm seat (21), a compression part (21.2) is arranged at the upper part of the diaphragm seat (21),

the tympanic membrane part (21.1) is in close fit with the compression seat (18) to form a first separation chamber (5.3), and the compression part (21.2) is driven by the eccentric block (5.73) to vertically blast so as to expand and contract the tympanic membrane part (21.1).

6. The automatic water replenishing steaming device according to claim 5, wherein: the compression part (21.2) is provided with a concave part, the eccentric block (5.73) is provided with a transmission part which extends towards two sides, and the transmission part is sleeved on the concave part to drive the compression part (21.2).

7. An automatic refill steaming device according to any one of claims 1 to 6, wherein: the number of said first compartments (5.3) is two and said eccentric mechanism (5.7) cooperates with both first compartments (5.3) to cause an alternating expansion and contraction of both said first compartments (5.3).

8. The automatic water replenishing steaming device according to claim 1, wherein: a control module (22) is arranged in the brush body, the eccentric power module (25) is connected with a current detection module (23), and a load current interval (23.1) and a no-load current interval (23.2) are preset in the current detection module (23);

the brush body is separated from the table body, when the current detection module (23) detects that the current of the eccentric power module (25) is in a load current interval (23.1), the control module (22) drives the eccentric power module (25) and the steam generator to continuously and normally work, and when the current detection module (23) detects that the current of the eccentric power module (25) is in a no-load current interval (23.2), the control module (22) drives the eccentric power module (25) to stop working and prompts that the second water tank is lack of water;

the brush body is inserted into the platform body, when the current detection module (23) detects that the current of the power module is in a load current interval (23.1), the control module (22) drives the power module and the steam generator to continuously and normally work, and when the current detection module (23) detects that the current of the eccentric power module (25) is in a no-load current interval (23.2), the control module (22) drives the eccentric power module (25) to stop working and prompts that the first water tank is lack of water.

9. The automatic water replenishing steaming device of claim 8, wherein: the load current interval (23.1) comprises a first load interval (23.11) and a second load interval (23.12), the first load interval (23.11) corresponds to the current when the air in the second water tank is extracted under the water storage state of the first water tank, and the second load interval (23.12) corresponds to the current when the water in the second water tank is extracted under the water storage state of the second water tank;

the no-load current interval (23.2) comprises a first no-load interval (23.21) and a second no-load interval (23.22), the first no-load interval (23.21) corresponds to current when the first water tank and the second water tank are in a water shortage state and air in the second water tank is extracted, and the second no-load interval (23.22) corresponds to current when the second water tank is in a water shortage state and air in the second water tank is extracted.

10. The automatic water replenishing steaming device of claim 9, wherein: when the current detection module (23) detects that the current is in the first no-load interval (23.21), the first water tank and the second water tank are prompted to lack of water, or the brush body and the table body are prompted to be not in place in an inserting mode.

11. The automatic water replenishing steaming device of claim 8, wherein: a water level sensor (24) is arranged in the second water tank and used for detecting the water level in the second water tank;

the brush body is separated from the table body, and when the water level sensor (24) detects that the water level in the second water tank is at a high water level, the control module (22) controls the steam generator and the eccentric power module to normally work;

the brush body is separated from the table body, and when the water level sensor (24) detects that the water level in the second water tank is at a low water level, the control module (22) controls the eccentric power module to stop working and prompts that the second water tank is lack of water;

the brush body is inserted into the table body, and when the water level sensor (24) detects that the water level in the second water tank is at a high water level, the control module (22) controls the eccentric power module to stop water supplement;

the brush body inserts the stage body, detects when level sensor (24) that the water level is in the low water level in the second water tank, control module (22) control eccentric power module work to the moisturizing of second water tank, just eccentric power module work back, level sensor (24) still detect the water level and are in the low water level in the second water tank, control module (22) control eccentric power module stop work, and indicate first water tank lack of water.

12. The automatic water replenishing steaming device according to claim 1, wherein: the water-gas conversion system further comprises a middle rotating seat (7), the middle rotating seat (7) comprises a cavity (7.1) and a control rod (7.2) movably arranged in the cavity (7.1), the control rod (7.2) is isolated from the cavity (7.1) up and down to form an air outlet cavity (7.3) and a water outlet cavity (7.4), and the input channel is selectively connected with the air outlet cavity or the water outlet cavity.

13. The automatic water replenishing steaming device of claim 12, wherein: the water gas shift system further includes a pipe assembly, the pipe assembly including:

the water inlet pipeline (6) is communicated with the second water tank (4), and the output channel is used for feeding water or air into the second water tank (4) through the water inlet pipeline (6);

the suction pipeline (8), the suction pipeline (8) is communicated with the input channel and is connected with the cavity (7.1);

go out the intercommunication between water cavity (7.4) and second water tank (4) and be equipped with outlet pipe way (9), it is equipped with out gas pipe way (10) to go out the intercommunication between gas cavity (7.3) and second water tank (4), control lever (7.2) are at cavity (7.1) internalization to order about suction pipeline (8) and play water cavity (7.4) intercommunication enter out vapour state, or with going out gas cavity (7.3) intercommunication and enter the moisturizing state.

14. The automatic water replenishing steaming device of claim 12, wherein: still be equipped with an elastic component (7.5) in cavity (7.1), elastic component (7.5) promote control lever (7.2) and keep going out vapour state, still the protrusion is equipped with the ejector pin on the stage body, ejector pin (13.1) bulldoze control lever (7.2) in order to get into the moisturizing state.

15. The automatic water replenishing steaming device of claim 13, wherein: under the play vapour state, suction pipeline (8) intercommunication goes out water cavity (7.4) and outlet pipe way (9), control lever (7.2) disconnection suction pipeline (8) and go out gas cavity (7.3), eccentric power module work and through well transposition suction second water tank (4) in water to steam generator (3), it is external and admit air to second water tank (4) that intake air pipeline (6) communicate.

16. The automatic water replenishing steaming device of claim 12, wherein: under the moisturizing state, control lever (7.2), inlet air pipeline (6) cooperate with first water tank (2) respectively, so that suction pipeline (8) intercommunication goes out air cavity (7.3) and air outlet pipeline (10), control lever (7.2) disconnection suction pipeline (8) and play water cavity (7.4), the work of eccentric power module is with through the interior gas of well swivel mount discharge second water tank (4), so that second water tank internal pressure is less than first water tank, inlet air pipeline (6) carry first water tank (2) internal water to second water tank (4) through the negative pressure.

17. The automatic water replenishing steaming device according to claim 1, wherein: be equipped with integrated end cover (15) on second water tank (4), be equipped with exhaust interface (15.1), water delivery interface (15.2) and intake air interface (15.3) on integrated end cover (15), water delivery interface (15.2) extend in second water tank (4) bottom, exhaust interface (15.1) and intake air interface (15.3) are arranged on the upper portion of second water tank (4).

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