CN107374352A - A kind of automatic ration water-filling method of high-temperature-hot-water - Google Patents

Abstract

The invention discloses a kind of automatic ration water-filling method of high-temperature-hot-water, step is：Thermal water source to be added is injected to inner bag, close first pressure sensing controlling switch, open second pressure sensing controlling switch, switch on power, inner bag is heated to be heated to water source, inner bag transfers thermal energy to high pressure generating means, and high pressure generating means produce larger pressure, and is transferred to second pressure sensing controlling switch, close second pressure sensing controlling switch, inner chamber and the ambient atmosphere of inner bag completely cut off；Heating plug continues to heat inner bag, the increase of inner bag chamber pressure, opens Fluid pressure valve, liquid is flowed into means of communication by Fluid pressure valve, and flows to water injecting mechanism by means of communication；Water injecting mechanism closes automatically, and heating plug continues to heat inner bag, the increase of inner bag internal pressure, highly pressurised liquid is transferred to first pressure sensing controlling switch by the first conduit, so that first pressure sensing controlling switch is opened, inner bag lumen outer air is connected, and inner bag internal pressure is recovered to normal pressure.

Description

A kind of automatic ration water-filling method of high-temperature-hot-water

Technical field

The present invention is set and a kind of water-filling method, specifically sets and a kind of high-temperature-hot-water automatic ration water-filling method of insulating pot.

Background technology

As a kind of common household electrical appliance, it has the characteristics that small volume, heating are fast, easy to operate, extensively should insulating pot With with homes and offices, the kettle that prior art provides needs manually to note the water in kettle after completing to the boiling of water Enter in heat-preserving equipment（Such as water bottle）, therefore can exist after kettle boils boiling, people are not beside kettle or forget water The phenomenon for causing the water boiled to turn cold in water injection heat-preserving equipment in kettle, now people would generally be to the water progress in kettle Heat again and be heated to seething with excitement, so not only cause the waste of the energy, at the same drink the water repeatedly boiled can be to health Produce infringement.

The content of the invention

To solve the deficiencies in the prior art, it is an object of the invention to provide can in the state of unattended insulating pot it is real The method of existing automatic water filling.

To realize above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.

Automatic water filling insulating pot, it includes kettle body, is arranged at the water filling for being used for that kettle body internal water is discharged to kettle body in kettle body Mechanism, it is arranged at sealing mechanism, the base for being heated to kettle body that kettle body opening is used to seal kettle body；Institute The kettle body stated include shell, in shell be used for contain the inner bag of hot liquid to be added, the bottom plate positioned at kettle body bottom, bottom plate On be provided with temperature conduction device, heating plug and means of communication, heating plug is used for the heating of inner bag, also set up inside kettle body There are the first feedback mechanism, the second feedback mechanism, the first feedback mechanism includes first pressure sensing controlling switch, one end and the first pressure The first conduit that the connection of power sensing controlling switch, the other end and means of communication are connected, the second feedback mechanism include second pressure Sensing controlling switch, high pressure generating means, it is arranged between second pressure sensing controlling switch and high pressure generating means for connecting Connect second pressure sensing controlling switch and high pressure generating means the second conduit, be connected with the connector of high pressure generating means and For adding be heated easy gasified liquid either heated drastically expanding liquid or the easy expanding gas that are heated to high pressure generating means 3rd conduit, the surface of high pressure generating means be bonded with outer surface of liner and inner bag can to high pressure generating means transferring heat energy, The suspension end of 3rd conduit, which is provided with liquid injection port and matched, switch, first pressure sensing controlling switch and second pressure sensing control System switch is connected with gas collector respectively, gas collection mouth one end on gas collector and gas collector inner chamber Connection, the other end are connected by the through hole being opened on inner bag with interior gallbladder intracavity, and stream is additionally provided between means of communication and inner bag The inner chamber of body pressure valve, water injecting mechanism and means of communication is connected；

Under original state, in an ON state, first pressure sensing controlling switch is in sealing to second pressure sensing controlling switch State, the internal chamber of second pressure sensing controlling switch is connected with gas collector inner chamber, and gallbladder intracavity passes through in realization The internal chamber of second pressure sensing controlling switch is connected with outside atmosphere, and the internal chamber of first pressure sensing controlling switch is not Connected with gas collector inner chamber；

Heated by the liquid contained in the internal courage of heating plug and transfer thermal energy to high pressure generating means, high pressure generation dress Put and receive heat energy and drastically expanding liquid or the easy expanding gas that are heated so that its internal heated easily gasified liquid is either heated Larger pressure is produced, and the pressure transmission to second pressure is sensed into controlling switch so as to trigger second pressure sensing controlling switch In sealing state, and realize that the internal chamber of second pressure sensing controlling switch disconnects with outside atmosphere；

When the pressure in inner bag is more than the preset value of Fluid pressure valve, the liquid in inner bag can be flowed into by Fluid pressure valve Flowed into means of communication and by means of communication in water injecting mechanism；

When the discharge ends closure of water injecting mechanism, the pressure in interior gallbladder intracavity continues to increase, the pressure warp in means of communication inner chamber Cross the first conduit and be transferred to first pressure sensing controlling switch, when the pressure in inner bag is more than first pressure sensing controlling switch During preset value, first pressure sensing controlling switch switches to on-state, and now, interior gallbladder intracavity can be by gas collector Chamber, first pressure sensing controlling switch inner chamber and ambient atmosphere are connected.

Sealing mechanism includes upper cover body, lower cover, and removable seal cooperatively forms receiving and opened between upper cover body and lower cover The cavity of mechanism is closed, described open-and-close mechanism is used to realize that sealing mechanism switches in open mode and closed and locked state, The sealing mechanism also includes being used for the switch for driving open-and-close mechanism to move, and is set in described upper cover body along its even circumferential interval Lockhole is equipped with, circular hole is offered at the center of upper cover body, described switch is the circular cylindrical shape axle coordinated with circular hole coaxial activity Body, one end of switch are connected through circular hole with open-and-close mechanism, the other end of switch is located on the outside of upper cover body and Matching installation have by Button, described switch can move up and down along center of circular hole axis direction；Open-and-close mechanism includes being hinged along switch even circumferential interval Connecting plate, with connecting plate be hinged lock, spring, wherein connecting plate and switch between be hinged be hinged shaft core line direction and company The be hinged shaft core line direction being hinged between fishplate bar and lock is parallel to each other and lock perpendicular with the central axis of switch, described Button can coordinate with the lockhole in upper cover body, and lock can slidably form slide-and-guide along the depth direction of lockhole in lockhole and match somebody with somebody Close, lock is in two states, and one is：Lock stretches out upper cover plate, by latching the cooperation with kettle body opening, sealing mechanism The sealing to kettle body is realized, secondly being：Lock is collapsed into inside upper cover body, and open shape is now between sealing mechanism and kettle body State；The two states of lock can be switched by switching, and between lock and upper cover body, spring acts on described spring In guarantee switch latches in the case where not acted on by external force is in stretching state all the time, when needing to seal kettle body, will seal The sealed end of mechanism matches with kettle body opening and upper cover body is applied along switch pressure of the axis towards kettle body, latches in external force And kettle body opening is in the presence of the making a concerted effort of its active force to collapsing into upper cover body along lockhole depth direction, when sealing mechanism with When kettle body opening reaches sealing cooperation position, latch by the distress resolves from kettle body opening, lock is under the action of the spring Upper cover body is stretched out by lockhole again, and locked with the built-in boss of kettle body opening, reaches the sealing locking to kettle body, When needing to open sealing mechanism, apply the pulling force that kettle body direction is directed away from along switch axis to switch by button so that Switch is along the upward lid movement outside of center of circular hole axis, further, affects connecting plate in the horizontal direction towards in circular hole The heart moves, and in the vertical direction is along switching center axis to upper cover body movement outside, while connecting plate affects and latches in level side Moved upwardly toward center of circular hole, in the vertical direction is along switching center axis to upper cover body movement outside so that lock shrinks Enter in upper cover body, now lock and the built-in boss of kettle body opening lose cooperation, and sealing mechanism departs from kettle body opening, so as to Realize the opening to sealing mechanism.

Further, above-mentioned lower cover can limit switch along the range of movement on its axis direction, and limit switch When bottom contacts with lower cover plate face, lock is in extended configuration.

Water injecting mechanism includes water injection pipe, tap, bridge piece, and described water injection pipe includes the first water injection pipe, the second note Water pipe, wherein the coaxial pivot bush unit of the first water injection pipe is inside the second water injection pipe, and the first water injection pipe can be along the second water injection pipe Axis direction slides up and down, and the water inlet end of the first water injection pipe is provided with external step, between the first water injection pipe and the second water injection pipe Locking device is additionally provided with, locking device includes clamping screw, latch segment, and latch segment is socketed on the second water injection pipe water side and lock Tight block is internally provided with built-in step, and the meaning of step built in setting is herein：By outer with the first water injection pipe water inlet end Put step to be engaged, avoid the first water injection pipe from departing from the second water injection pipe during being slided in the second water injection pipe, pass through rotation Clamping screw causes the suspension end of swivel bolt and the first water filling pipe outer wall to form contact, further forms frictional force, So as to realize to the first water injection pipe with respect to the second water injection pipe being locked at an arbitrary position；Tap passes through bridge piece and One water injection pipe connects, and tap includes first sleeve, the second sleeve pipe, floating seal, and the coaxial pivot bush unit of first sleeve is in the Two inside pipe casings, and first sleeve can move up and down along the second casing axis direction, floating seal includes going out with first sleeve Connecting tube that water end (W.E.) is detachably socketed and the floating seal rubber parts being socketed on outside connecting tube, described first sleeve are entered Water end (W.E.) is provided with the first external step, and first sleeve also sets up dividing plate close to the inside of water inlet end, and positioned at the set of dividing plate both sides Wall portion uniform intervals offer water-guiding hole, and the second described sleeve pipe water side is provided with the second external step, and the second sleeve pipe leans on Nearly water side is internally provided with annular groove one, is provided with annular groove three inside the second sleeve pipe water side, the second inside pipe casing is located at Annular groove two is provided between annular groove one and annular groove three, described annular groove one, annular groove two, annular groove three are coaxially disposed and phase mutual connection Logical, wherein the internal diameter of annular groove one is more than the internal diameter of the second sleeve pipe, and the internal diameter of chute two is identical with the internal diameter of the second sleeve pipe, annular groove three Internal diameter be less than the internal diameter of the second sleeve pipe, the boundary of annular groove three and annular groove two forms built-in step, passes through built-in step herein Coordinate with the first external step at first sleeve water inlet end, prevent from departing from second set when first sleeve from moving in the second sleeve pipe Pipe, the discharge ends of the water-guiding hole and bridge piece that are arranged at dividing plate upper end side always remain on, and are arranged at dividing plate lower end side Water-guiding hole is connected with first sleeve bottom chamber, when the boundary of the first external step and annular groove three and annular groove two formed it is built-in When step matches, the water-guiding hole of the side of dividing plate two can be connected by annular groove one；The external diameter of the first above-mentioned external step and The internal diameter of two sleeve pipes matches, and the internal diameter of the external diameter and annular groove three of first sleeve matches；Tap is in two states, one For：The first external step and the annular groove two of first sleeve match, and current are by the water-guiding hole on the upside of dividing plate by second set Tube cavity enters annular groove one, and the water in annular groove one enters first sleeve and eventually through even by the water-guiding hole on the downside of dividing plate Adapter discharge tap, secondly being：First external step of first sleeve is engaged with the inwall of the second sleeve pipe, and current flow into First sleeve, which is located at the region of dividing plate upper end and is now placed in the water-guiding hole of dividing plate upper end, to be blocked, due to the effect of dividing plate, Current are blocked on inside the sealing cavity that dividing plate and the second sleeve pipe are formed；Above-mentioned two states are previously mentioned feedback The effect that function is realized, the situation that second described of state occurs is, when water bottle will fill, water water in bottle is close to floating The buoyancy of rubber parts generation straight up is sealed, buoyancy promotes floating seal to be moved towards close to the direction of tap so that with Move and finally so that first set in the direction that the first sleeve of floating seal connection is directed away from water bottle along the second casing axis The first external step on pipe departs from annular groove two on the second sleeve pipe, and now water filling stops.

Second pressure sensing controlling switch includes housing two, the second valve element, second pressure and senses transport element, is arranged at shell Second spring between the valve element of body two and second, the second pressure being arranged between second pressure sensing transport element and housing two Sensing spring, it is arranged at the second connector for the second conduit of connection and housing two, housing between the conduit of housing two and second The cavity one through its wall thickness is offered on two thickness direction, offers cavity two on the length direction of housing two, its is hollow Chamber one is mutually perpendicular to cavity two and mutually connected, and the described Matching installation of cavity one has the second valve element, the Matching installation of cavity two There is second pressure to sense transport element, the second valve element can move up and down along the central axial direction of cavity one, second pressure sensing Transport element can be used to promote the second valve along the central axial direction side-to-side movement of cavity two, wherein the reply tension force of second spring Axis of the core along cavity one moves to the direction away from cavity one, and the reply tension force of second pressure sensing spring is used to promote second Axis of the pressure sensitive transport element along cavity two moves to the direction away from cavity two, wherein the external diameter of the second valve element is less than The internal diameter of cavity one（Gap be present between the inwall of the second valve element and cavity one）, the connection of cavity one and gas collector End is provided with branch sleeve of the internal diameter more than the internal diameter of cavity one and sets oriented cavity one in branch sleeve and the boundary of cavity one The narrowed built-in sealed step in center, the second valve element include the second valve element drive section, the second valve element locking section, the second seal spool Section, locking notch is offered at the second seal spool section in the second described valve element locking section, the second described valve element is close The side of envelope section is also equipped with the seal cartridge positioned at branch sleeve, and the internal diameter of the built-in sealed step is more than the second valve element External diameter and the external diameter for being less than seal cartridge, described second pressure sensing transport element include the second drive section, the second locking section, Offered in the second described locking section with bevelled second rectangular through-hole, the described inclined-plane for being arranged at the second rectangular through-hole Close to the side at the second locking section suspension end, described second pressure sensing conduction member on the second rectangular through-hole length direction Second drive section of part is located in cavity two, and the second locking section is inserted perpendicularly into cavity one, and the of the second described valve element Two valve element locking sections may pass through the second above-mentioned rectangular through-hole and can be in the second rectangular through-hole along the central axis of cavity one Lower slider, interval between the described inclined-plane for being arranged at the second rectangular through-hole and the second valve element locking section is along the second seal spool Duan Zhixiang the second valve element drive sections are incrementally increased, and the inclined-plane of the second rectangular through-hole coordinates with locking notch to be realized to the second valve element Locking, when second pressure sensing transport element matches with the second valve element and when the second valve element is locked to cavity one, now the Two pressure sensitive controlling switches are in open mode, and at the same time, the inner chamber for the branch sleeve being connected with gas collector leads to The interval crossed between the second valve element and built-in sealed step is simultaneously connected through cavity one and ambient atmosphere；Second pressure sensing control Switch processed possesses two states, and one is：Second pressure sensing controlling switch is in open mode, and now the second valve element is in lock Tight state, can be by way of manpower pressing, and central axis of the second valve element of driving along cavity one moves downward so that positioned at the The seal cartridge of two seal spool section sides moves to the direction away from built-in sealed step, seal cartridge and built-in sealed step Cooperation is lost, the second valve element is in open mode, is opened so that second pressure senses controlling switch, now the gas in inner bag Body enters branch sleeve by gas collector, and enters cavity by the gap between built-in sealed step and the second valve element Connected in the lump eventually through the gap between the second valve element and cavity one and ambient atmosphere, secondly being：Second pressure sensing control Switch be in closure state, and now the second valve element is changed into non-locking state by locking state, caused in high pressure generating means Expansion object enters cavity two by the second conduit and the second connector, gases at high pressure to second pressure sensing transport element the Two drive sections apply the thrust along the central axis of cavity two towards cavity one, and finally overcome the elastic force of second pressure sensing spring Move in the direction of central axis to cavity one of the driving second pressure sensing transport element along cavity two so that second pressure senses Locking notch on inclined-plane and the second valve element locking section on transport element in the second rectangular through-hole departs from, and now the second valve element exists Under the elastic force effect of second spring, moved upwards along the central axis of cavity one so that be arranged at the second seal spool section side Seal cartridge be bonded with built-in sealed step, realize the sealing to cavity one.

First pressure sensing controlling switch includes housing one, the first valve element, first pressure and senses transport element, is arranged at shell First spring of the valve core chamber of body one and first, the first pressure sense being arranged between first pressure sensing transport element and housing one Answer spring, be arranged at the conduit of housing one and first between be used for the first connector for connecting the first conduit and housing one, housing one Thickness direction on offer cavity three through its wall thickness, offer cavity four, wherein cavity on the length direction of housing one Three are mutually perpendicular to cavity four and mutually connect, and the described Matching installation of cavity three has the first valve element, and the Matching installation of cavity four has First pressure senses transport element, and the first valve element can move up and down along the central axial direction of cavity three, first pressure sensing conduction Element can be along the central axial direction side-to-side movement of cavity four, and first pressure sensing transport element can be along the central axis of cavity four Direction side-to-side movement, wherein the tension force of replying of the first spring is used to promote axis of first valve element along cavity three to away from cavity three Direction motion, the replys tension force of first pressure sensing spring is used to promote first pressure to sense axle of the transport element along cavity four Line moves to the direction away from cavity four, and the external diameter of the first valve element is less than the internal diameter of cavity three（That is in the first valve element and cavity three Gap be present in wall）, the first valve element includes the first valve element drive section, the first valve element locking section, the first seal spool section, and described the Locking notch is offered at the first seal spool section in one valve element locking section, wherein the sky coordinated with the first seal spool section Sleeve pipe is additionally provided with chamber three, the described external diameter of the first seal spool section and the internal diameter of sleeve pipe match, the described first pressure Power sensing transport element includes the first drive section, the first locking section, offers in the first described locking section with bevelled the One rectangular through-hole, the described inclined-plane for being arranged at the first rectangular through-hole are located on the first rectangular through-hole length direction close to the first lock The side at tight section suspension end, interval between the described inclined-plane for being arranged at the first rectangular through-hole and the first valve element locking section is along the One seal spool section is pointed to the first valve element drive section and incrementally increased, and described first pressure senses the first drive section of transport element In cavity four, and the first locking section is inserted perpendicularly into cavity three, and the first valve element locking section of the first described valve element can It can be slided up and down in the first rectangular through-hole through the first above-mentioned rectangular through-hole and along the central axis of cavity three, the first rectangle The inclined-plane of through hole coordinates the locking realized to the first valve element with locking notch, when first pressure senses transport element and the first valve element Match and when the first valve element is locked to cavity three, now first pressure controlling switch be in closure state, interior gallbladder intracavity and Ambient atmosphere is in state of isolation, and first pressure sensing controlling switch is in two states, and one is：First pressure sensing control Switch is in closure state, and now the first valve element is in locking state, can drive the first valve element edge by way of manpower pressing The central axis of cavity three moves downward so that the inwall of the first seal spool section and sleeve pipe coordinates so that the first valve element is in Closure state, so that first pressure sensing controlling switch closure, secondly being：First pressure sensing controlling switch, which is in, to be opened State, now the first valve element non-locking state is changed into by locking state, the water in inner bag passes through Fluid pressure valve and flows into connection Mechanism and the first conduit by being connected with means of communication inner chamber flow into first interface and finally flow into cavity four and first pressure Sense actuated element contact, the first drive section that High-Pressure Water senses transport element to first pressure applies along the central shaft of cavity four Line and finally overcomes the elastic force driving first pressure sensing transport element edge of first pressure sensing spring towards the thrust of cavity three Move in the direction of the central axis of cavity four to cavity three so that on first pressure sensing transport element in the first rectangular through-hole Locking notch on inclined-plane and the first valve element locking section departs from, and now the first valve element is under the elastic force effect of the first spring, along sky The central axis of chamber three moves upwards so that sets and departs from the first seal spool section and sleeve pipe, is beaten so as to which the first valve element is in Open state is that first pressure sensing controlling switch is in open mode, and now, the gas in inner bag is led to by gas collector Cross gas collector sleeve pipe and cavity three entered by sleeve pipe, eventually through the gap between the first valve element and cavity three with Ambient atmosphere is connected.

Fluid pressure valve includes fastening bushing, ball float, pressure sensitive spring, valve shell, and described valve shell is one End opening, the other end offer the circular cylindrical shape cylinder of through hole, and wherein openend is water inlet end, and the end for being provided with through hole is water outlet End, valve shell are internally provided with the built-in boss narrowed to valve shell center, fasten bushing and are coaxially removably socketed on Coordinate inside valve shell water inlet end and with the built-in boss inside valve shell by valve element（Ball float and pressure sensitive spring）It is close It is enclosed in inside valve shell, described pressure sensitive spring one end contacts with the water side of valve shell to reality, the other end is with floating Ball supports real contact, and described ball float is between fastening bushing and pressure sensitive spring, the reply of described pressure sensitive spring Elastic force is used to promote central axis of the ball float along valve shell to move to the close direction for fastening bushing and ball float is served as a contrast with fastening Set keeps pressure contact to reach the sealing of fluid pressure valve, and described fastening bushing center offers manhole and aperture is small In floating ball diameter, the water inlet end of above-mentioned Fluid pressure valve and the inner chamber of inner bag are connected, and the water side of Fluid pressure valve is with connecting machine The inner chamber of structure is connected, and Fluid pressure valve possesses two states, and one is：Fluid pressure valve is in closure state, i.e. ball float is being pressed The back stretch effect of power sensing spring is lower to be brought into close contact with fastening the through hole of bushing so that the water inlet end of Fluid pressure valve is in Sealing state, now the water in inner bag will not pass through Fluid pressure valve outflow inner bag, secondly being：Fluid pressure valve, which is in, to be opened State, i.e., when the boiling water in inner bag, the second feedback mechanism promotes second pressure sensing controlling switch to be switched by open mode For closure state, now interior gallbladder intracavity and ambient atmosphere isolation, with continuing for boiling, produce a large amount of high pressure gas in interior gallbladder intracavity Body, the pressure in inner bag constantly increase, and the current that pressure constantly increases in inner bag contact with ball float and ball float is produced along valve body Housing central axis and finally promotes ball float to overcome pressure sensitive tension force of spring towards the pressure of Fluid pressure valve water side, So that ball float is along pressure sensitive spring contraction direction towards Fluid pressure valve water outlet end motion and the through hole with fastening bushing departs from Coordinate, gap is now formed between ball float and fastening bushing, current can be entered Fluid pressure valve by gap and in air pressure The water side of Fluid pressure valve is flowed under promotion by the water inlet end of Fluid pressure valve, the further inner chamber for flowing into means of communication, And inner bag is finally discharged by the water injecting mechanism being connected with means of communication inner chamber.

Described temperature conduction device includes heat conductive rod, the uniform ring plate of heat, and one end and the outer surface of liner of heat conductive rod connect The tactile, other end contacts with the uniform ring plate of heat and is used for transition temperature, and the uniform ring plate of heat is used to promote even heat distribution simultaneously It is beneficial toIfThe temperature sensor for being placed in base accurately senses, and described bottom plate is uniform with heat towards offering on the end face of base The annular groove that ring plate matches, and offer the circle through base plate thickness direction that matches with heat conductive rod in the bottom land of annular groove Through hole, the uniform ring plate of described heat are engaged with annular groove, and heat conductive rod contacts through manhole with the bottom outer surface of inner bag, The temperature of inner bag can be passed to the uniform ring plate of heat by heat conductive rod in real time, and the temperature sensor being arranged on base passes through real-time The temperature change of the sensing uniform ring plate of heat sends corresponding control signal, the control letter that control circuit is sent to temperature sensor Number analyzed, when the temperature of inner bag is rapidly decreased to 100 degrees Celsius by 110 degrees Celsius and continues to reduce, control circuit hair Go out the signal stopped power supply to insulating pot.

Means of communication is the rectangular panel body being arranged on bottom plate, and described rectangular panel body is internally provided with along its length The cavity of arrangement, the bottom surface of means of communication and bottom plate, which match, to be merged on dismountable installation and bottom plate, on the top surface of means of communication Offer two mounting holes on along its length, and open up on face and be coaxially arranged with mounting hole with mounting hole etc. in mounting hole The bushing in footpath, it is more excellent, the built-in positive stop lug boss that oriented bushing center is narrowed is set in above-mentioned bushing, two mounting holes it Between be additionally provided with it is being connected with means of communication inner chamber and for connecting the connector of mechanism and the first conduit.

Described heating plug is to be arranged at the round platform at bottom plate center, wherein the horizontal stroke perpendicular to heating plug central axis The suspension end that the diameter of a circle in section is pointed to heating plug along heating plug central axis by the fixing end of heating plug gradually subtracts Small, described liner at the bottom is provided with the heating cavities to match with heating plug, and inner bag also opens up close to the wall portion of water inlet end There is the through hole through wall thickness.

Gas collector include housing, be arranged on housing and by with inner bag through hole coordinate connect in gallbladder intracavity with The gas collection mouth of housing cavity, is offered on described housing and the first mounting hole that housing cavity is connected and the second installation Hole, the first described mounting hole can connected with first pressure sensing controlling switch with gallbladder intracavity in realization is merged with ambient atmosphere With disconnect two states under switch, the second described mounting hole second pressure sensing controlling switch with merge realize in gallbladder intracavity with Ambient atmosphere switches under connecting and disconnecting two states.

A kind of automatic ration water-filling method of high-temperature-hot-water, its step are：Hot water to be added is injected into the cavity of inner bag Source, and stir first pressure sensing controlling switch, second pressure sensing controlling switch so that at first pressure sensing controlling switch In closed state, in an ON state, now the inner chamber of inner bag is by second pressure sensing control for second pressure sensing controlling switch The connection and outside atmosphere for making switch are connected, and the inner chamber of first pressure sensing controlling switch and inner bag disconnects；

Switch on power, produce heat energy after being arranged at the heating plug energization of liner at the bottom and be heated to inner bag transferring heat energy, inner bag Heat up and realize and the water source for being contained in its inner chamber is heated, inner bag transfers thermal energy to high pressure generating means, high pressure simultaneously Generating means receive thermal source and promoting lodge in its inner chamber heated easily gasified liquid be either heated drastically expanding liquid or by Hot easily expanding gas produce larger pressure, due to being led between high pressure generating means and second pressure sensing controlling switch by second Pipe connects, and caused larger pressure value is transferred to second pressure sensing controlling switch in high pressure generating means, is filled when high pressure generates When pressure in putting is more than the preset value of second pressure sensing controlling switch, triggering second pressure sensing controlling switch switches to envelope Closed state, the now inner chamber of inner bag and ambient atmosphere isolation；

Heating plug continues to inner bag transferring heat energy, and the inner bag chamber pressure under air-tight state incrementally increases, when in inner bag Pressure be more than with its bottom connect Fluid pressure valve preset value when, triggering Fluid pressure valve simultaneously cause Fluid pressure valve at Flowed into the liquid contained in on-state, inner bag by Fluid pressure valve in means of communication, and by means of communication flow direction In the water injecting mechanism of opening；

Water injecting mechanism is switched into off-state, and now heating plug continues to be again to inner bag transferring heat energy, inner bag Air-tight state and inner bag chamber pressure incrementally increases, inner bag internal pressure are transferred to the first conduit connected with means of communication inner chamber, And first pressure sensing controlling switch is transferred to by the first conduit, when inner bag internal pressure is more than the pre- of first pressure sensing controlling switch If value, first pressure sensing controlling switch is simultaneously switched to on-state by triggering first pressure sensing controlling switch, now inner bag Inner chamber senses the connection of controlling switch by first pressure and outside atmosphere is connected so that inner bag internal pressure is recovered to normal pressure.

The beneficial effect of the present invention compared with prior art is that kettle provided by the invention can be realized the water after boiling It is automatically injected in heat-preserving equipment（Such as water bottle）And water bottle is tentatively sealed, after solving boiling water, people are not by kettle Side is forgotten the phenomenon that causes the water boiled to turn cold in the water injection heat-preserving equipment in kettle, while the present invention can be with Further slow down coolant-temperature gage to the preliminary sealing of water bottle progress to scatter and disappear.

Brief description of the drawings

In order to illustrate the embodiments of the present invention more clearly, the required accompanying drawing used in embodiment will be done simply below Introduce, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ordinary skill people For member, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of the present invention.

Fig. 3 is the internal structure schematic diagram of the present invention.

Fig. 4 is the internal structure schematic diagram of the present invention.

Fig. 5 is the internal structure schematic diagram of the present invention.

Fig. 6 is the internal structure schematic diagram of the present invention.

Fig. 7 is the internal structure schematic diagram of the present invention.

Fig. 8 is sealing mechanism schematic diagram of the present invention.

Fig. 9 is sealing mechanism internal structure schematic diagram of the present invention.

Figure 10 is water injecting mechanism schematic diagram of the present invention.

Figure 11 is tap explosive view of the present invention.

Figure 12 is tap sectional view of the present invention.

Figure 13 is tap sectional view of the present invention.

Figure 14 is that second pressure of the present invention senses controlling switch structural representation.

Figure 15 is that second pressure of the present invention senses controlling switch sectional view.

Figure 16 is the cooperation schematic diagram that second pressure of the present invention senses transport element and the second valve element.

Figure 17 is the second valve core structure schematic diagram of the invention.

Figure 18 is that second pressure of the present invention senses transport element structural representation.

Figure 19 is that first pressure of the present invention senses controlling switch structural representation.

Figure 20 is that first pressure of the present invention senses controlling switch sectional view.

Figure 21 is the cooperation schematic diagram that first pressure of the present invention senses transport element and the first valve element.

Figure 22 is the first valve core structure schematic diagram of the invention.

Figure 23 is the structural representation that first pressure of the present invention senses transport element.

Figure 24 is base arrangement schematic diagram of the present invention.

Figure 25 is the cooperation schematic diagram of temperature conduction device of the present invention and bottom plate.

Figure 26 is temperature conduction apparatus structure schematic diagram of the present invention.

Figure 27 is high pressure generating means structural representation of the present invention.

Figure 28 is high pressure generating means sectional view of the present invention.

Figure 29 is means of communication schematic diagram of the present invention.

Figure 30 is means of communication sectional view of the present invention.

Figure 31 is Fluid pressure valve arrangement schematic diagram of the present invention.

Figure 32 is Fluid pressure valve sectional view of the present invention.

Figure 33 is inner bag sectional view of the present invention.

Figure 34 is gas collector structural representation of the present invention.

It is denoted as in figure：10th, sealing mechanism；110th, upper cover body；111st, lockhole；112nd, circular hole；120th, switch；130th, connect Plate；140th, latch；150th, spring；

20th, water injecting mechanism；210th, water injection pipe；211st, the first water injection pipe；211a, external step；212nd, the second water injection pipe；213rd, lock Tight device；213a, clamping screw；213b, latch segment；220th, tap；221st, first sleeve；221a, the first external step； 221b, water-guiding hole；221c, dividing plate；222nd, the second sleeve pipe；222a, the second external boss；222b, annular groove one；222c, annular groove two； 222d, annular groove three；223rd, floating seal；223a, floating seal rubber parts；230th, bridge piece；

30th, kettle body；310th, inner bag；311st, through hole；312nd, heating cavities；320th, the first feedback mechanism；321st, first pressure senses Controlling switch；321a, housing one；321b, the first valve element；321b1, the first valve element drive section；321b2, the first valve element locking section； 321b3, the first seal spool section；321c, the first connector；321c1, the first drive section；321c2, the first locking section；321d、 First pressure senses transport element；321e, sleeve pipe；321f, the first spring；321g, first pressure sensing spring；322nd, first lead Pipe；330th, the second feedback mechanism；331st, second pressure sensing controlling switch；331a, housing two；331b, the second valve element；331b1、 Second valve element drive section；331b2 the second valve element locking sections；331b3, the second seal spool section；331c, second pressure sensing conduction Element；331c1, the second drive section；331c2, the second locking section；331d, the second connector；331e, second pressure sensing spring； 331f, second spring；332nd, the second conduit；333rd, high pressure generating means；333a, connector；334th, the 3rd conduit；334a, note Liquid mouth；340th, gas collector；341st, the first mounting hole；342nd, the second mounting hole；343rd, gas collection mouth；

40th, bottom plate；410th, temperature conduction device；411st, heat conductive rod；412nd, the uniform ring plate of heat；420th, plug is heated；430th, even Logical mechanism；431st, mounting hole；431a, bushing；431b, built-in positive stop lug boss；

50th, Fluid pressure valve；510th, bushing is fastened；520th, ball float；530th, pressure sensitive spring；540th, valve shell.

Embodiment

With reference to the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Ground describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.Based on this hair Embodiment in bright, those of ordinary skill in the art are not under the premise of creative work is made, the every other reality that is obtained Example is applied, belongs to the scope of the present invention.

Referring to accompanying drawing 1-2, automatic water filling insulating pot, including kettle body 30, be arranged in kettle body 30 and be used for inside kettle body 30 Water discharge kettle body 30 water injecting mechanism 20, be arranged at the opening of kettle body 30 be used for kettle body 30 is sealed sealing mechanism 10, For the base heated to kettle body 30.

Referring to accompanying drawing 3-7,24,27,28,34, kettle body 30 include shell, in shell be used for contain hot liquid to be added Inner bag 310, the bottom plate 40 positioned at the bottom of kettle body 30, temperature conduction device 410, heating plug 420 and are provided with bottom plate 40 Means of communication 430, the first feedback mechanism 320, the second feedback mechanism 330, the first feedback mechanism 320 are additionally provided with inside kettle body 30 Sense controlling switch 321 including first pressure, one end connects with first pressure sensing controlling switch 321, the other end is with connecting machine The first conduit 322 that structure 430 is connected, the second feedback mechanism 330 include second pressure sensing controlling switch 331, high pressure generation Device 333, it is arranged between second pressure sensing controlling switch 331 and high pressure generating means 333 for connecting second pressure sense Answer the second conduit 332 of controlling switch 331 and high pressure generating means 333, be connected with the connector 333a of high pressure generating means 333 And be either heated drastically expanding liquid or heated easily expansion for adding the easy gasified liquid that is heated to high pressure generating means 333 3rd conduit 334 of gas, the surface of high pressure generating means 333 is bonded with outer surface of liner and inner bag can be generated to high pressure and filled 333 transferring heat energies are put, the suspension end of the 3rd conduit 334, which is provided with liquid injection port 334a and matched, switch, first pressure sensing control System switch 321 and second pressure sensing controlling switch 331 are connected with gas collector 340 and can be achieved to receive with gas respectively The inner chamber of acquisition means 340 is in connection and seals the switching under two states, the gas collection mouth 343 1 on gas collector 340 End is connected the other end with the inner chamber of gas collector 340 and connect by the through hole 311 being opened on inner bag 310 with the inner chamber of inner bag 310 It is logical, first pressure sensing controlling switch 321 and second pressure sensing controlling switch 331 can by gas collector 340 with it is interior The inner chamber of courage 310 switches in the case where connecting and sealing two states, and fluid pressure is additionally provided between means of communication 430 and inner bag 310 Power valve 50, Fluid pressure valve 50 can realize that the inner chamber of inner bag 310 is connecting and cutting under sealing state with the inner chamber of means of communication 430 Change, specifically, when the pressure of water in inner bag 310 is not up to the setting value of Fluid pressure valve 50, Fluid pressure valve 50 is in and closed Conjunction state, when the pressure of water in inner bag 310 reaches the setting value of Fluid pressure valve 50, Fluid pressure valve 50 is in open shape State, the water inlet end of water injecting mechanism 20 are connected with means of communication 430 and connected with the inner chamber of means of communication 430.

Pure water is filled with above-mentioned high pressure generating means 333, when high pressure generating means 333 are heated, it can be promoted Pure water Quick-gasifying in inner chamber is so as to producing elevated pressures.

During original state, first pressure sensing controlling switch 321 is in closure state（That is first pressure sensing controlling switch It is off between 321 and gas collector 340）, 331 in open mode at second pressure sensing controlling switch（I.e. Second pressure is sensed between controlling switch 331 and gas collector 340 in an ON state）, Fluid pressure valve 50 be in close Conjunction state（It is off between the inner chamber of inner bag 310 and means of communication 430）, in heating process of the water before boiling, Two pressure sensitive controlling switches 331 are in open mode, i.e. the inner chamber of inner bag 310 is in connected state with ambient atmosphere, specifically, Inner bag 310 senses controlling switch 331 by gas collector 340 and second pressure and connected and by second pressure sensing control Switch 331 is connected with ambient atmosphere, and the air pressure in inner bag 310 is consistent with external atmosphere pressure, therefore the water in inner bag 310 will not Fluid pressure valve 50, which produces pressure, to be caused Fluid pressure valve 50 to open and causes not boiling with the connection of the inner chamber of means of communication 430 Water discharges inner bag 310, high pressure generating means by means of communication 430 and the water injecting mechanism 20 being connected with means of communication 430 The boiling of the heated drastically expanding liquids contained in 333 is identical with the boiling point of water, when being boiling water during working condition, high pressure generation Liquid in device 333 drastically expands, and caused gases at high pressure sense controlling switch by the second conduit 332 to second pressure 331 applications act on so that second pressure sensing controlling switch 331 switches to closure state by open mode, now due to first Pressure sensitive controlling switch 321 and second pressure sensing controlling switch 331 are in closure state, i.e., the inner chamber of inner bag 310 with it is outer Boundary's air is in state of isolation, and with the constantly boiling of dampening, intracavitary produces substantial amounts of gases at high pressure in inner bag 310, in inner bag 310 The pressure of intracavitary gradually increases, and finally promotes Fluid pressure valve 50 to switch to open mode by closure state, now inner bag 310 Inner chamber is connected by Fluid pressure valve 50 and the inner chamber of means of communication 430, and the water of boiling is flowed into by Fluid pressure valve 50 to be connected The mechanism 430 and water injecting mechanism 20 by being connected with the inner chamber of means of communication 430 is discharged, the water side of water injecting mechanism 20 is connected with water Bottle, the water side of water injecting mechanism 20 is provided with the tap 220 with feedback function, and is additionally provided with use on tap 220 When the floating seal rubber parts 223a sealed to water bottle bottleneck, work, floating seal rubber parts 223a stretches into water bottle and leaned on The inside of nearly bottleneck, with the continuous progress of water filling, water bottle internal liquid level constantly rises, when water bottle internal liquid level is close to bottleneck When, floating seal rubber parts 223a is moved by buoyancy to the direction of bottleneck, when floating seal rubber parts 223a is moved to During bottleneck, feedback function causes tap 220 to be in closed state, and now, water filling stops floating seal rubber parts 223a simultaneously Realize preliminary sealing to water bottle, remaining water continues to press on water still in fluidized state, caused gases at high pressure in inner bag 310 Stream enters means of communication 430 by fluid pressure valve 50 and the first conduit 322 by being connected with means of communication 430 is to first Pressure sensitive controlling switch 321 applies active force so that first pressure senses controlling switch 321 from sealing state to open mode Switching, now the inner chamber of inner bag 310 is connected with ambient atmosphere, and cavity pressure is gradually reduced and finally big with the external world in inner bag 310 Air pressure is consistent, and now, the temperature sensor for being arranged at base 40 passes to and control circuit passes through to temperature sensing device 410 The temperature of Real-time Feedback is analyzed, and sends the signal stopped power supply, and insulating pot powers off, and the water in inner bag 310 stops heating.

Referring to accompanying drawing 8,9, sealing mechanism includes upper cover body 110, lower cover, detachable between upper cover body 110 and lower cover Sealing cooperatively forms the cavity for accommodating open-and-close mechanism, and described open-and-close mechanism is used to realize sealing mechanism in open mode and closure Locking state switches over, and the sealing mechanism also includes being used for the switch 120 for driving open-and-close mechanism to move, described upper cover body Lockhole 111 is arranged at intervals with along its even circumferential on 110, circular hole 112, described switch 120 are offered at the center of upper cover body For the circular cylindrical shape axis body coordinated with the coaxial activity of circular hole 112, switch 120 one end and be connected through circular hole 112 with open-and-close mechanism, The other end of switch 120 is located at the outside of upper cover body 110 and Matching installation has button, and described switch 120 can be along the center of circular hole 112 Axis direction moves up and down；Open-and-close mechanism is included along 120 even circumferential intervals of switch be hinged connecting plate 130 and connecting plate 130 The be hinged shaft core line direction being hinged between be hinged lock 140, spring, wherein connecting plate 130 and switch 120 and connecting plate 130 Lock 140 between be hinged be hinged shaft core line direction be parallel to each other and with switch 120 central axis it is perpendicular, it is described Lock 140 can coordinate with the lockhole 112 in upper cover body 110, lock 140 can in lockhole 111 along lockhole 111 depth direction from Formed from slip with slide-and-guide, lock 140 is in two states, and one is：Lock 140 stretches out upper cover plate 110, passes through lock Button 140 and the cooperation of the opening of kettle body 30, sealing mechanism realizes the sealing to kettle body 30, secondly being：Lock 140 collapses into Shang Gai Inside body 110, open mode is now between sealing mechanism and kettle body 30；The two states of lock 140 can pass through switch 120 To switch, between lock 140 and upper cover body 110, the effect of spring 150 is described spring 150, ensures switch 120 In the case where not acted on by external force, lock 140 is in stretching state all the time, when needing to seal kettle body 30, by sealing mechanism Sealed end matches with the opening of kettle body 30 and upper cover body 110 applied along switch pressure of 120 axis towards kettle body 30, lock 140 along the depth direction of lockhole 112 collapse into upper cover body in the presence of external force and kettle body 30 were open to the making a concerted effort of its active force In 110, when sealing mechanism and kettle body 30 are open when reaching sealing cooperation position, lock 140 is pressed by from the opening of kettle body 30 Power disappears, and lock 140 stretches out upper cover body 110 again in the presence of spring 150 by lockhole 112, and with the opening of kettle body 30 Built-in boss lock, reach to kettle body 30 sealing locking, when need open sealing mechanism when, by button to switch 120 apply the pulling force that the direction of kettle body 30 is directed away from along 120 axis of switch so that switch 120 is upward along the central axis of circular hole 112 The movement outside of lid 110, further, affect connecting plate 130 in the horizontal direction towards the central motion of circular hole 112, vertical Along 120 central axis of switch to the movement outside of upper cover body 110 on direction, while connecting plate 130 affects lock 140 in the horizontal direction On towards the central motion of circular hole 112, in the vertical direction is along 120 central axis of switch to the movement outside of upper cover body 110 so that lock Button 140 is collapsed into upper cover body 110, and now lock 140 and the built-in boss of the opening of kettle body 30 lose cooperation, and sealing mechanism takes off From the opening of kettle body 30, so as to realize the opening to sealing mechanism.

Further, above-mentioned lower cover can limit switch 120 along the range of movement on its axis direction, and spacing open When closing 120 bottoms and being contacted with lower cover plate face, lock 140 is in extended configuration.

Referring to accompanying drawing 10-13, water injecting mechanism includes water injection pipe 210, tap 220, bridge piece 230, described water filling Pipe 210 includes the first water injection pipe 211, the second water injection pipe 212, wherein 211 coaxial pivot bush unit of the first water injection pipe is in the second water filling Inside pipe 212, and the first water injection pipe 211 can slide up and down along the axis direction of the second water injection pipe 212, the first water injection pipe 211 Water inlet end is provided with external step 211a, and locking device 213 is additionally provided between the first water injection pipe 211 and the second water injection pipe 212, Locking device 213 includes clamping screw 213a, latch segment 213b, latch segment 213b be socketed on the water side of the second water injection pipe 212 and Latch segment 213b is internally provided with built-in step, and the meaning of step built in setting is herein：By entering with the first water injection pipe 211 The external step 211a of water end (W.E.) is engaged, and avoids the first water injection pipe 211 from departing from during being slided in the second water injection pipe 212 Two water injection pipes 212, pass through rotational lock bolt 213a swivel bolts 213a suspension end and the outer wall shape of the first water injection pipe 211 Into contact, frictional force is further formed, so as to realize to 211 relative second water injection pipe 212 of the first water injection pipe any Position is locked；Tap 220 is connected by bridge piece 230 with the first water injection pipe 211, and tap 220 includes first Sleeve pipe 221, the second sleeve pipe 222, floating seal 223,221 coaxial pivot bush unit of first sleeve inside the second sleeve pipe 222, and First sleeve 221 can move up and down along the axis direction of the second sleeve pipe 222, and floating seal 223 includes and the water outlet of first sleeve 221 Hold the connecting tube being detachably socketed and the floating seal rubber parts 223a being socketed on outside connecting tube, described first sleeve 221 water inlet end is provided with the first external step 221a, and first sleeve 221 also sets up dividing plate 221c close to the inside of water inlet end, And the sleeve pipe wall portion positioned at dividing plate 221c both sides evenly-spaced is provided with water-guiding hole 221b, the described water side of the second sleeve pipe 222 The second external step 222a is provided with, the second sleeve pipe 222 is internally provided with the 222b of annular groove one, the second sleeve pipe close to water side The 222d of annular groove three is provided with inside 222 water sides, the second sleeve pipe 222 is internally located between the 222b of annular groove one and the 222d of annular groove three Annular groove two 222c is provided with, the described 222b of annular groove one, the 222c of annular groove two, the 222d of annular groove three are coaxially disposed and mutually connected, Wherein the 222b of annular groove one internal diameter is more than the internal diameter of the internal diameter of the second sleeve pipe 222, the 222c of chute two internal diameter and the second sleeve pipe 222 Identical, the 222d of annular groove three internal diameter is less than the internal diameter of the second sleeve pipe 222, and the 222d of annular groove three and annular groove 2 222 boundary are formed Built-in step, coordinated by the first external step 221a at built-in step herein and the water inlet end of first sleeve 221, prevent first Sleeve pipe 221 departs from the second sleeve pipe 222 when being moved in the second sleeve pipe 222, is arranged at the water-guiding hole 221b of dividing plate 221c upper end sides Always remained on the discharge ends of bridge piece 230, be arranged at the water-guiding hole 221b and first sleeve of dividing plate 221c lower end sides 221 bottom chambers are connected, when the first external step 221a and 222d of annular groove three and annular groove 2 222 boundary form built-in platform When rank matches, the water-guiding hole 221b of the sides of dividing plate 221c two can be connected by the 222b of annular groove one；The first above-mentioned external step The internal diameter of 221a external diameter and the second sleeve pipe 222 matches, the internal diameter phase of the external diameter and the 222d of annular groove three of first sleeve 221 Match somebody with somebody；Tap 220 is in two states, and one is：First external step 221a of first sleeve 221 and the 222c phases of annular groove two Match somebody with somebody, current enter the 222b of annular groove one, annular groove one by the water-guiding hole 221b on the upside of dividing plate 221c by the inner chamber of the second sleeve pipe 222 Water in 222b enters first sleeve 221 by the water-guiding hole 221b on the downside of dividing plate 221c and discharged eventually through connecting tube Tap 220, secondly being：First external step 221a of first sleeve 221 is engaged with the inwall of the second sleeve pipe 222, current Flow into first sleeve 221 and be located at the region of dividing plate 221c upper ends and be now placed in the water-guiding hole 221b of dividing plate upper end and sealed Stifled, due to dividing plate 221c effect, current are blocked on inside the sealing cavity that dividing plate 221c and the second sleeve pipe 222 are formed；On The two states stated are the effect that previously mentioned feedback function is realized, the situation that second described of state occurs is, when When water bottle will fill, water water in bottle produces buoyancy straight up to floating seal rubber parts 223a, and buoyancy promotes floating close Sealing 223a moves towards close to the direction of tap 220 so that the first sleeve 221 being connected with floating seal 223a is along the Move and finally cause the first external step 221a in first sleeve 221 in the direction that the axis of two sleeve pipe 222 is directed away from water bottle Depart from the 222c of annular groove two on the second sleeve pipe 222, now water filling stops.

Referring to accompanying drawing 14-18, second pressure sensing controlling switch 331 includes the 331a of housing two, the second valve element 331b, second Pressure sensitive transport element 331c, the second spring 331f being arranged between the 331a of housing two and the second valve element 331b, it is arranged at Second pressure between the second pressure sensing transport element 331c and 331a of housing two senses spring 331e, is arranged at housing two It is used for the second connector 331d for connecting the second conduit 332 and 331a of housing two, housing two between 331a and the second conduit 332 The cavity one through its wall thickness is offered on 331a thickness direction, cavity two is offered on the 331a of housing two length direction, Wherein cavity one is mutually perpendicular to cavity two and mutually connected, and the described Matching installation of cavity one has the second valve element 331b, cavity Two Matching installations have second pressure sensing transport element 331c, the second valve element 331b can be along above and below the central axial direction of cavity one Motion, second pressure sensing transport element 331c can be along the central axial direction side-to-side movement of cavity two, wherein second spring 331f reply tension force is used to promote axis of the second valve element 331b along cavity one to move to the direction away from cavity one, the second pressure Power sensing spring 331e replys tension force is used to promoting second pressure to sense axis of the transport element 331c along cavity two to remote The direction motion of cavity two, wherein the second valve element 331b external diameter is less than the internal diameter of cavity one（That is the second valve element 331b and sky Gap be present between the inwall of chamber one）, the connection end of cavity one and gas collector 340 is provided with internal diameter more than in cavity one The branch sleeve in footpath and the built-in sealed step narrowed in branch sleeve and the oriented center of cavity one of the boundary of cavity one setting, the Two valve element 331b include the second valve element drive section 331b1, the second valve element locking section 331b2, the second seal spool section 331b3, institute On the second valve element locking section 331b2 stated locking notch, the second described valve are offered at the second seal spool section 331b3 Core seal section 331b3 side is also equipped with the seal cartridge positioned at branch sleeve, and the internal diameter of the built-in sealed step is more than The external diameter of second valve element and the external diameter for being less than seal cartridge, described second pressure sensing transport element 331c include the second driving Offered on section 331c1, the second locking section 331c2, the second described locking section 331c2 with bevelled second rectangular through-hole, The described inclined-plane for being arranged at the second rectangular through-hole is located on the second rectangular through-hole length direction to be hanged close to the second locking section 331c2 The side at end is put, described second pressure sensing transport element 331c the second drive section 331c1 is located in cavity two, and second Locking section 331c2 is inserted perpendicularly into cavity one, and the second valve element locking section 331b2 of the second described valve element 331b may pass through The second rectangular through-hole for stating and it can be slided up and down in the second rectangular through-hole along the central axis of cavity one, described is arranged at Second is pointed to along the second seal spool section 331b3 in interval between the inclined-plane of two rectangular through-holes and the second valve element locking section 331b2 Valve element drive section 331b1 is incrementally increased, and the inclined-plane of the second rectangular through-hole coordinates with locking notch to be realized to the second valve element 331b's Locking, when second pressure sensing transport element 331c matches with the second valve element 331b and locks the second valve element 331b to cavity one When interior, now second pressure sensing controlling switch 331 is in open mode, at the same time, is connected with gas collector 340 The inner chamber of branch sleeve is by the interval between the second valve element 331b and built-in sealed step and passes through cavity one and ambient atmosphere Connect；Second pressure sensing controlling switch 331 possesses two states, and one is：Second pressure sensing controlling switch 331, which is in, beats Open state, now the second valve element 331b be in locking state, can be by way of manpower pressing, the second valve element 331b is along sky for driving The central axis of chamber one moves downward so that the seal cartridge positioned at the second seal spool section 331b3 sides is to away from built-in close The direction motion of step is sealed, seal cartridge loses cooperation with built-in sealed step, and the second valve element 331b is in open mode, so as to So that second pressure sensing controlling switch 331 is opened, now the gas in inner bag 310 is entered by gas collector 340 and connected Female connector cylinder, and cavity is entered in the lump eventually through the second valve element by the gap between built-in sealed step and the second valve element 331b Gap between 331b and cavity one is connected with ambient atmosphere, secondly being：Second pressure sensing controlling switch 331 is in closed form State, now the second valve element 331b non-locking state is changed into by locking state, caused expansion object in high pressure generating means 333 Cavity two is entered by the second conduit 332 and the second connector 331d, gases at high pressure sense transport element 331c to second pressure The second drive section 331c1 apply thrust along the central axis of cavity two towards cavity one, and finally overcome second pressure to sense Central axis of the spring 331e elastic force driving second pressure sensing transport element 331c along cavity two is transported to the direction of cavity one It is dynamic so that on the inclined-plane and the second valve element locking section 331b2 in second pressure sensing upper second rectangular through-holes of transport element 331c Locking notch depart from, now the second valve element 331b second spring 331f elastic force effect under, along the central axis of cavity one Motion upwards so that the seal cartridge for being arranged at the second seal spool section 331b3 sides is bonded with built-in sealed step, realization pair The sealing of cavity one.

Referring to accompanying drawing 19-23, first pressure sensing controlling switch 321 includes the 321a of housing one, the first valve element 321b, first Pressure sensitive transport element 321c, the first spring 321f being arranged between the 321a of housing one and the first valve element 321b, it is arranged at First pressure between one pressure sensitive transport element 321c and the 321a of housing one senses spring 321g, is arranged at the 321a of housing one It is used for the first connector 321d for connecting the first conduit 322 and 321a of housing one between the first conduit 322, the 321a's of housing one The cavity three through its wall thickness is offered on thickness direction, offers cavity four on the 321a of housing one length direction, its is hollow Chamber three is mutually perpendicular to cavity four and mutually connected, and the described Matching installation of cavity three has the first valve element 321b, and cavity four matches Being provided with first pressure sensing transport element 321c, the first valve element 321b can move up and down along the central axial direction of cavity three, the One pressure sensitive transport element 321c can be along the central axial direction side-to-side movement of cavity four, first pressure sensing transport element 321c can be along the central axial direction side-to-side movement of cavity four, wherein the first spring 321f reply tension force is used to promote the first valve Axis of the core 321b along cavity three moves to the direction away from cavity three, and first pressure sensing spring 321g reply tension force is used for Axis of the first pressure sensing transport element 321c along cavity four is promoted to be moved to the direction away from cavity four, the first valve element 321b External diameter be less than cavity three internal diameter（That is gap be present with the inwall of cavity three in the first valve element 321b）, the first valve element 321b includes the One valve element drive section 321b1, the first valve element locking section 321b2, the first seal spool section 321b3, the first described valve element locking Locking notch is offered at the first seal spool section 321b3 on section 321b2, wherein matching somebody with somebody with the first seal spool section 321b3 Sleeve pipe 321e, the external diameter of the first described seal spool section 321b3 and sleeve pipe 321e internal diameter are additionally provided with the cavity three of conjunction Match, described first pressure sensing transport element 321c includes the first drive section 321c1, the first locking section 321c2, described The first locking section 321c2 on offer with bevelled first rectangular through-hole, described is arranged at the oblique of the first rectangular through-hole Face is located on the first rectangular through-hole length direction and led to close to the side at the first locking section suspension end, described first rectangle that is arranged at The driving of the first valve element is pointed to along the first seal spool section 321b3 in interval between the inclined-plane in hole and the first valve element locking section 321b2 Section 321b1 is incrementally increased, and described first pressure sensing transport element 321c the first drive section 321c1 is located in cavity four, And first locking section 321c2 be inserted perpendicularly into cavity three, the first valve element locking section 321b2 of the first described valve element 321b can It can be slided up and down in the first rectangular through-hole through the first above-mentioned rectangular through-hole and along the central axis of cavity three, the first rectangle The inclined-plane of through hole coordinates the locking realized to the first valve element 321b with locking notch, when first pressure sensing transport element 321c with When first valve element 321b is matched and locked the first valve element 321b to cavity three, now first pressure controlling switch 321 is in Closure state, interior gallbladder intracavity are in state of isolation with ambient atmosphere, and first pressure sensing controlling switch 321 is in two states, One is：First pressure sensing controlling switch 321 is in closure state, and now the first valve element 321b is in locking state, can lead to The mode of manpower pressing is crossed, central axis of the first valve element 321b of driving along cavity three moves downward so that the first seal spool Section 321b3 and sleeve pipe 321e inwall coordinates so that the first valve element 321b is in closure state, so that first pressure senses Controlling switch 321 closes, secondly being：First pressure sensing controlling switch 321 be in open mode, now the first valve element 321b by Locking state is changed into non-locking state, the water in inner bag 310 by Fluid pressure valve 50 flow into means of communication 430 and by with The first conduit 322 that the inner chamber of means of communication 430 is connected flows into first interface 321d and finally flows into cavity four and first pressure sense Actuated element 321c is answered to contact, the first drive section 321c1 that High-Pressure Water senses transport element 321c to first pressure applies edge The central axis of cavity four and finally overcomes the first pressure sensing spring 321g pressure of elastic force driving first towards the thrust of cavity three Move in the direction that power senses central axis to cavitys three of the transport element 321c along cavity four so that first pressure sensing conduction member Locking notch on inclined-plane and the first valve element locking section 321b2 in upper first rectangular through-holes of part 321c departs from, now the first valve Core 321b is moved so that set and the first valve upwards under the first spring 321f elastic force effect along the central axis of cavity three Core seal section 321b3 and sleeve pipe 321e departs from, and is that first pressure sensing control is opened so as to which the first valve element 321b is in open mode Close 321 and be in open mode, now, the gas in inner bag 310 passes through gas collector 340 by gas collector 340 Sleeve pipe 321e simultaneously enters cavity three by sleeve pipe 321e, eventually through the gap between the first valve element 312b and cavity three and outside Boundary's air is connected.

Referring to accompanying drawing 31,32, Fluid pressure valve 50 includes fastening bushing 510, ball float 520, pressure sensitive spring 530, valve Body case 540, described valve shell 540 are the circular cylindrical shape cylinder that one end open, the other end offer through hole, its split shed Hold as water inlet end, the end for being provided with through hole is water side, valve shell 540 is internally provided with narrowed to valve shell center in Put boss, fasten bushing 510 it is coaxial be removably socketed on inside the water inlet end of valve shell 540 and with inside valve shell 540 Built-in boss coordinate valve element（Ball float 520 and pressure sensitive spring 530）It is sealed in inside valve shell 540, described pressure Power sense the one end of spring 530 and valve shell 540 water side support it is real contact, the other end and ball float 520 to contacting in fact, it is described Ball float 520 positioned at fastening between bushing 510 and pressure sensitive spring 530, use by the back stretch of described pressure sensitive spring 530 In promote central axis of the ball float 520 along valve shell 540 to moved close to the direction for fastening bushing 510 and make ball float 520 with Fastening bushing 510 keeps pressure contact to reach the sealing of fluid pressure valve 50, and the described center of fastening bushing 510 offers circle Shape through hole and aperture are less than the diameter of ball float 520, and the water inlet end of above-mentioned Fluid pressure valve 50 is connected with the inner chamber of inner bag 310, fluid The water side of pressure valve 50 is connected with the inner chamber of means of communication 430, and Fluid pressure valve 50 possesses two states, and one is：Fluid Pressure valve 50 is in closure state, i.e., ball float 520 under the back stretch effect of pressure sensitive spring 530 with fastening bushing 510 Through hole be brought into close contact so that the water inlet end of Fluid pressure valve 50 is in sealing state, and now the water in inner bag 310 can not lead to Cross fluid pressure valve 50 and flow out inner bag, secondly being：Fluid pressure valve 50 is in open mode, i.e., when the boiling water in inner bag 310 When, the second feedback mechanism 330 promotes second pressure sensing controlling switch 331 to switch to closure state by open mode, now interior The inner chamber of courage 310 completely cuts off with ambient atmosphere, and with continuing for boiling, intracavitary produces a large amount of gases at high pressure, inner bag 310 in inner bag 310 Interior pressure constantly increases, and the current that pressure constantly increases in inner bag 310 contact with ball float 520 and ball float 520 is produced along valve The central axis of body case 540 and finally promotes ball float 520 to overcome pressure sensitive bullet towards the pressure of the water side of Fluid pressure valve 50 The tension force of spring 530 so that ball float 520 along the shrinkage direction of pressure sensitive spring 530 towards the water outlet end motion of Fluid pressure valve 50 simultaneously Through hole with fastening bushing 510, which departs from, to be coordinated, and now forms gap between ball float 520 and fastening bushing 510, current can pass through Gap enters Fluid pressure valve 50 and flows to Fluid pressure valve 50 by the water inlet end of Fluid pressure valve 50 under the promotion of air pressure Water side, the further inner chamber for flowing into means of communication 430, and the finally water injection machine by being connected with the inner chamber of means of communication 430 Structure 20 discharges inner bag 310.

Referring to accompanying drawing 6,24,25,26, described temperature conduction device 410 includes heat conductive rod 411, the uniform ring plate of heat 412, one end of heat conductive rod 411 contacts with the outer surface of inner bag 310, other end ring plate 412 uniform with heat contacts and for conducting Temperature, the uniform ring plate 412 of heat are used to promote even heat to be distributed and be beneficial toIfThe temperature sensor for being placed in base accurately senses, Described bottom plate 40 is towards the annular groove for ring plate 412 uniform with heat is offered on the end face of base matching, and in the groove of annular groove Bottom offers the manhole through the thickness direction of bottom plate 40 to match with heat conductive rod 411, the uniform ring plate of described heat 412 are engaged with annular groove, and heat conductive rod 411 contacts through manhole with the bottom outer surface of inner bag 310, and heat conductive rod 411 can be real When the temperature by inner bag 310 pass to the uniform ring plate 412 of heat, the temperature sensor being arranged on base by sensing in real time The temperature change of the uniform ring plate 412 of heat sends corresponding control signal, the control letter that control circuit is sent to temperature sensor Number analyzed, when the temperature of inner bag 310 is rapidly decreased to 100 degrees Celsius by 110 degrees Celsius and continues to reduce, control circuit Send the signal stopped power supply to insulating pot.

Referring to accompanying drawing 24,29,30, means of communication 430 is to be arranged at rectangular panel body on bottom plate 40, described rectangular panel body The cavity arranged along its length is internally provided with, bottom surface and the bottom plate 40 of means of communication 430, which match, merges dismountable peace Dress with bottom plate 40, on the top surface of means of communication 430 along its length on offer two mounting holes 431, and in mounting hole 431 open up on face isometrical with mounting hole 431 bushing 431a are coaxially arranged with mounting hole, more excellent, in above-mentioned bushing The narrowed built-in positive stop lug boss 431b in oriented bushing 431a centers is set in 431a, be additionally provided between two mounting holes 431 with It is that the inner chamber of means of communication 430 is connected and for connecting the connector of mechanism and the first conduit 322.

Referring to accompanying drawing 6,24,33, described heating plug 420 is to be arranged at the round platform at the center of bottom plate 40, wherein vertically The diameter of a circle edge heating central axis of plug 420 consolidating by heating plug 420 in the cross section of the heating central axis of plug 420 The suspension end that heating plug 420 is pointed in fixed end is gradually reduced, and the described bottom of inner bag 310 is provided with heating the phase of plug 420 The heating cavities matched somebody with somebody, inner bag 310 are further opened with the through hole 311 through wall thickness close to the wall portion of water inlet end.

Referring to accompanying drawing 3,34, gas collector 340 includes housing, is arranged on housing and by with leading on inner bag 310 Hole 311 coordinates the gas collection mouth 343 for connecting the inner chamber of inner bag 310 and housing cavity, offered on described housing with housing The first mounting hole 341 and the second mounting hole 342 that chamber is connected, the first described mounting hole 341 are opened with first pressure sensing control Close 321 and realize that the inner chamber of inner bag 310 can switch with ambient atmosphere under connecting and disconnecting two states with merging, the described second peace The dress second pressure of hole 342 sensing controlling switch 331 realizes the inner chamber of inner bag 310 with ambient atmosphere in two kinds of connecting and disconnecting with merging Switch under state.

A kind of automatic ration water-filling method of high-temperature-hot-water, its step are：

Thermal water source to be added is injected into the cavity of inner bag 310, and stirs first pressure sensing controlling switch 321, second pressure sense Answer controlling switch 331 so that first pressure sensing controlling switch 321 is in closed state, second pressure sensing controlling switch 321 In an ON state, now connection of the inner chamber of inner bag 310 by second pressure sensing controlling switch 321 connects with outside atmosphere Logical, first pressure sensing controlling switch 321 and the inner chamber of inner bag 310 disconnect；

Switch on power, be arranged at the bottom of inner bag 310 heating plug 420 be powered after produce heat energy and to the transferring heat energy of inner bag 310, Inner bag 310 is heated to heat up and realize and the water source for being contained in its inner chamber is heated, and inner bag 310 transfers thermal energy to high pressure simultaneously Generating means 333, high pressure generating means 333 receive thermal source and promote to lodge in the heated easily gasified liquid or heated of its inner chamber Drastically expanding liquid or heated easy expanding gas produce larger pressure, because high pressure generating means 333 and second pressure sense Connected between controlling switch 321 by the second conduit 332, caused larger pressure value is transferred in high pressure generating means 333 Two pressure sensitive controlling switches 321, when the pressure in high pressure generating means 333 is more than second pressure sensing controlling switch 321 During preset value, triggering second pressure sensing controlling switch 321 switches to closed state, and now the inner chamber of inner bag 310 and the external world are big Air bound is exhausted；

Heating plug 420 continues to the transferring heat energy of inner bag 310, and the chamber pressure of inner bag 310 under air-tight state incrementally increases, When the pressure in inner bag 310 is more than the preset value for the Fluid pressure valve 50 connected with its bottom, triggering Fluid pressure valve 50 is simultaneously So that Fluid pressure valve 50 is in an ON state, the liquid contained in inner bag 310 flows into connection machine by Fluid pressure valve 50 In structure 430, and the water injecting mechanism 20 in opening is flowed to by means of communication 430；

Water injecting mechanism 20 is switched into off-state, and now heating plug 420 continues to the transferring heat energy of inner bag 310, inner bag 310 are again at air-tight state and the chamber pressure of inner bag 310 incrementally increases, and the internal pressure of inner bag 310 is transferred to and means of communication 430 The first conduit 322 that inner chamber is connected, and first pressure sensing controlling switch 321 is transferred to by the first conduit 322, when inner bag 310 Internal pressure is more than the preset value of first pressure sensing controlling switch 321, and triggering first pressure sensing controlling switch 321 is simultaneously pressed first Power sensing controlling switch 321 switches to on-state, and now the inner chamber of inner bag 310 senses controlling switch 321 by first pressure Connection is connected with outside atmosphere so that the internal pressure of inner bag 310 is recovered to normal pressure.

The foregoing description of the disclosed embodiments, professional and technical personnel in the field are enable to realize or using the present invention； A variety of modifications to these embodiments will be apparent for those skilled in the art, defined in the present invention General Principle can not depart from the present invention spirit or scope in the case of, realize in other embodiments.Therefore, originally Invention will not be defined to the embodiments shown herein, and be to fit to and principles disclosed herein and features of novelty Consistent most wide scope.

Claims (5)

1. a kind of automatic ration water-filling method of high-temperature-hot-water, its step are：Thermal water source to be added is injected into the cavity of inner bag, And stir first pressure sensing controlling switch, second pressure sensing controlling switch so that first pressure sensing controlling switch is in Closed state, in an ON state, now the inner chamber of inner bag is by second pressure sensing control for second pressure sensing controlling switch The connection of switch is connected with outside atmosphere, and the inner chamber of first pressure sensing controlling switch and inner bag disconnects；

Switch on power, produce heat energy after being arranged at the heating plug energization of liner at the bottom and be heated to inner bag transferring heat energy, inner bag Heat up and realize and the water source for being contained in its inner chamber is heated, inner bag transfers thermal energy to high pressure generating means, high pressure simultaneously Generating means receive thermal source and promoting lodge in its inner chamber heated easily gasified liquid be either heated drastically expanding liquid or by Hot easily expanding gas produce larger pressure, due to being led between high pressure generating means and second pressure sensing controlling switch by second Pipe connects, and caused larger pressure value is transferred to second pressure sensing controlling switch in high pressure generating means, is filled when high pressure generates When pressure in putting is more than the preset value of second pressure sensing controlling switch, triggering second pressure sensing controlling switch switches to envelope Closed state, the now inner chamber of inner bag and ambient atmosphere isolation；

Heating plug continues to inner bag transferring heat energy, and the inner bag chamber pressure under air-tight state incrementally increases, when in inner bag Pressure be more than with its bottom connect Fluid pressure valve preset value when, triggering Fluid pressure valve simultaneously cause Fluid pressure valve at Flowed into the liquid contained in on-state, inner bag by Fluid pressure valve in means of communication, and by means of communication flow direction In the water injecting mechanism of opening；

Water injecting mechanism is switched into off-state, and now heating plug continues to be again to inner bag transferring heat energy, inner bag Air-tight state and inner bag chamber pressure incrementally increases, inner bag internal pressure are transferred to the first conduit connected with means of communication inner chamber, And first pressure sensing controlling switch is transferred to by the first conduit, when inner bag internal pressure is more than the pre- of first pressure sensing controlling switch If value, first pressure sensing controlling switch is simultaneously switched to on-state by triggering first pressure sensing controlling switch, now inner bag Inner chamber senses the connection of controlling switch by first pressure and outside atmosphere is connected so that inner bag internal pressure is recovered to normal pressure.

2. a kind of automatic ration water-filling method of high-temperature-hot-water according to claim 1, the sensing control of above-mentioned second pressure System switch includes housing two, the second valve element, second pressure and senses transport element, be arranged between the valve element of housing two and second the Two springs, the second pressure sensing spring being arranged between second pressure sensing transport element and housing two, it is arranged at housing two It is used for the second connector for connecting the second conduit and housing two between the second conduit, offers and pass through on the thickness direction of housing two Wear the cavity one of its wall thickness, offer cavity two on the length direction of housing two, wherein cavity one be mutually perpendicular to cavity two and Mutually to connect, the described Matching installation of cavity one has the second valve element, and the Matching installation of cavity two has second pressure to sense transport element, Second valve element can move up and down along the central axial direction of cavity one, and second pressure sensing transport element can be along the center of cavity two The tension force of replying of axis direction side-to-side movement, wherein second spring is used to promote axis of second valve element along cavity one to away from empty The direction motion of chamber one, the reply tension force of second pressure sensing spring are used to promote second pressure to sense transport element along cavity two Axis move to away from the direction of cavity two, wherein internal diameter of the external diameter of the second valve element less than cavity one, cavity one and gas The connection end of body collection device is provided with branch sleeve of the internal diameter more than the internal diameter of cavity one and demarcated in branch sleeve and cavity one Place sets the narrowed built-in sealed step in the oriented center of cavity one, and the second valve element includes the second valve element drive section, the second valve element is locked Tight section, the second seal spool section, locking notch is offered at the second seal spool section in the second described valve element locking section, The side of the second described seal spool section is also equipped with the seal cartridge positioned at branch sleeve, the built-in sealed step it is interior Footpath is more than the external diameter of the second valve element and includes second less than the external diameter of seal cartridge, described second pressure sensing transport element and drive Dynamic section, the second locking section, offer in the second described locking section with bevelled second rectangular through-hole, it is described to be arranged at the The inclined-plane of two rectangular through-holes is located on the second rectangular through-hole length direction close to the side at the second locking section suspension end, and described the Second drive section of two pressure sensitive transport elements is located in cavity two, and the second locking section is inserted perpendicularly into cavity one, institute Second valve element locking section of the second valve element stated may pass through the second above-mentioned rectangular through-hole and can be in the second rectangular through-hole along sky The central axis of chamber one slides up and down, between the described inclined-plane for being arranged at the second rectangular through-hole and the second valve element locking section between Incrementally increased every pointing to the second valve element drive section along the second seal spool section, inclined-plane and the locking notch of the second rectangular through-hole coordinate The locking to the second valve element is realized, when second pressure sensing transport element matches with the second valve element and locks the second valve element to sky When in chamber one, now second pressure sensing controlling switch is in open mode.

3. a kind of automatic ration water-filling method of high-temperature-hot-water according to claim 1, the sensing control of above-mentioned first pressure System switch includes housing one, the first valve element, first pressure and senses transport element, is arranged at the first of the valve core chamber of housing one and first Spring, be arranged at first pressure sensing transport element and housing one between first pressure sensing spring, be arranged at housing one with It is used for the first connector for connecting the first conduit and housing one between first conduit, offers and run through on the thickness direction of housing one The cavity three of its wall thickness, offers cavity four on the length direction of housing one, and wherein cavity three is mutually perpendicular to and phase with cavity four Mutually to connect, the described Matching installation of cavity three has the first valve element, and the Matching installation of cavity four has first pressure to sense transport element, the One valve element can move up and down along the central axial direction of cavity three, and first pressure sensing transport element can be along the central axis of cavity four Direction side-to-side movement, first pressure sensing transport element can be along the central axial direction side-to-side movement of cavity four, wherein the first bullet The reply tension force of spring is used to promote axis of first valve element along cavity three to move to the direction away from cavity three, first pressure sensing The reply tension force of spring is used to promote axis of the first pressure sensing transport element along cavity four to transport to the direction away from cavity four Dynamic, the external diameter of the first valve element is less than the internal diameter of cavity three, the first valve element include the first valve element drive section, the first valve element locking section, First seal spool section, locking notch is offered at the first seal spool section in the first described valve element locking section, wherein Sleeve pipe is additionally provided with the cavity three coordinated with the first seal spool section, the external diameter of the first described seal spool section and sleeve pipe Internal diameter matches, and described first pressure sensing transport element includes the first drive section, the first locking section, the described first locking Offered in section and be located at the first rectangle with bevelled first rectangular through-hole, the described inclined-plane for being arranged at the first rectangular through-hole and lead to Close to the side at the first locking section suspension end, the described inclined-plane for being arranged at the first rectangular through-hole and the first valve on hole length direction Interval between core locking section is pointed to the first valve element drive section along the first seal spool section and incrementally increased, described first pressure sense The first drive section of transport element is answered to be located in cavity four, and the first locking section is inserted perpendicularly into cavity three, described first First valve element locking section of valve element may pass through the first above-mentioned rectangular through-hole and can be in the first rectangular through-hole along cavity three Mandrel line slides up and down, and inclined-plane and the locking notch of the first rectangular through-hole coordinate the locking realized to the first valve element, when the first pressure Power sensing transport element is with the first valve element when matching and locking the first valve element to cavity three, now first pressure controlling switch In closure state, interior gallbladder intracavity is in state of isolation with ambient atmosphere.

4. a kind of automatic ration water-filling method of high-temperature-hot-water according to claim 1, above-mentioned Fluid pressure valve includes Bushing, ball float, pressure sensitive spring, valve shell are fastened, described valve shell is one end open, the other end offers through hole Circular cylindrical shape cylinder, wherein openend is water inlet end, and the end for being provided with through hole is water side, valve shell be internally provided with to The narrowed built-in boss in valve shell center, fasten bushing and be coaxially removably socketed on valve shell water inlet end inside and and valve Built-in boss inside body case coordinates ball float and pressure sensitive is spring sealed inside valve shell, described pressure sensitive Spring one end is supported with the water side of valve shell and contacted in fact, and the other end is supported with ball float and contacted in fact, and described ball float, which is located at, fastens lining Between set and pressure sensitive spring, described fastening bushing center offers manhole and aperture is less than floating ball diameter, above-mentioned The water inlet end of Fluid pressure valve and the inner chamber of inner bag are connected, and the water side of Fluid pressure valve and the inner chamber of means of communication are connected.

5. a kind of automatic ration water-filling method of high-temperature-hot-water according to claim 1, above-mentioned water injecting mechanism includes note Water pipe, tap, bridge piece, described water injection pipe includes the first water injection pipe, the second water injection pipe, wherein the first water injection pipe is coaxial Pivot bush unit is inside the second water injection pipe, and the first water injection pipe can slide up and down along the axis direction of the second water injection pipe, the first note The water inlet end of water pipe is provided with external step, and locking device, locking dress are additionally provided between the first water injection pipe and the second water injection pipe To put including clamping screw, latch segment, latch segment is socketed on the second water injection pipe water side and latch segment is internally provided with built-in step, Tap is connected by bridge piece with the first water injection pipe, and tap includes first sleeve, the second sleeve pipe, floating seal, the The coaxial pivot bush unit of sleeve is in the second inside pipe casing, and first sleeve can move up and down along the second casing axis direction, floats Seal includes the connecting tube being detachably socketed with first sleeve water side and the floating seal rubber being socketed on outside connecting tube Glue part, the water inlet end of described first sleeve are provided with the first external step, and first sleeve is also set up close to the inside of water inlet end Dividing plate, and positioned at dividing plate both sides sleeve pipe wall portion it is evenly-spaced be provided with water-guiding hole, the second described sleeve pipe water side is provided with Second external step, the second sleeve pipe are internally provided with annular groove one close to water side, being provided with inside the second sleeve pipe water side Annular groove three, the second inside pipe casing are provided with annular groove two, described annular groove one, annular groove two, ring between annular groove one and annular groove three Groove three is coaxially disposed and mutually connected, and wherein the internal diameter of annular groove one is more than the internal diameter of the second sleeve pipe, the internal diameter of chute two and the The internal diameter of two sleeve pipes is identical, and the internal diameter of annular groove three is less than the internal diameter of the second sleeve pipe, the boundary of annular groove three and annular groove two formed with The built-in step matched with the first external step at first sleeve water inlet end, is arranged at water-guiding hole and the connection of dividing plate upper end side The discharge ends of bend pipe are always remained on, and the water-guiding hole and first sleeve bottom chamber for being arranged at dividing plate lower end side are connected, on The internal diameter of the external diameter and the second sleeve pipe of the first external step stated matches, the external diameter of first sleeve and the internal diameter phase of annular groove three Match somebody with somebody.