CN112665193A

CN112665193A - Artificial intelligent water treatment equipment and use method thereof

Info

Publication number: CN112665193A
Application number: CN202011564185.0A
Authority: CN
Inventors: 黄俊杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-04-16

Abstract

The invention discloses artificial intelligence water treatment equipment and a using method thereof in the technical field of water circulation, and discloses a water circulation device which comprises a gas water heater, a circulating pump and an inductor.

Description

Artificial intelligent water treatment equipment and use method thereof

Technical Field

The invention relates to the technical field of water circulation, in particular to artificial intelligence water treatment equipment and a using method thereof.

Background

Background information

The prior art discloses an invention patent in the technical field of partial water circulation, wherein the invention patent with the application number of CN201810438366.5 discloses an artificial intelligence-based water treatment system and a water outlet device thereof, which comprises a device main body, a water outlet device arranged in the device main body and a prompting device arranged on the device main body, wherein the water outlet device comprises a first cavity arranged in the device main body, a first water inlet pipe is arranged in the lower inner wall of the first cavity in a communicated manner, a second water inlet pipe is arranged at the lower end of the first water inlet pipe in a communicated manner, a second cavity is arranged in the upper inner wall of the first cavity, a third cavity is arranged in the right inner wall of the second cavity in a communicated manner, a first open slot is respectively arranged in the upper inner wall and the lower inner wall of the third cavity in a communicated manner, and a first motor is fixedly arranged in the left inner wall of the second cavity, the second cavity is internally rotatably provided with a first sliding block, and the left end of the first sliding block is connected with the left end of the first motor in a power-fit manner through a rotating shaft.

In the artificial intelligence square water treatment system and the water outlet device thereof in the prior art, the number of cavities is too many, and the cavities are different in plane, so that the processing cost is too high, and then a plurality of motors and sensors are adopted to be mutually matched, so that the whole structure of the equipment is complex and tedious, and the manufacturing cost is high; secondly, the inside work that combines together of a plurality of dislocation cavitys is adopted for equipment leakproofness requires extremely high, and the inside pressure release mechanism that does not set up of equipment itself for pressure is too big when individual plunger during operation, and water compressibility itself is little, and continuous operation probably leads to equipment to destroy.

Based on the above, the invention designs artificial intelligence water treatment equipment and a using method thereof, so as to solve the problems.

Disclosure of Invention

The invention aims to provide artificial intelligence water treatment equipment and a using method thereof, and aims to solve the problems that in the prior art, the artificial intelligence square water treatment system and the water outlet device thereof, which are provided by the background art, the number of cavities is too many, and the processing cost is too high due to different planes, and the overall structure of the equipment is complicated and the manufacturing cost is high due to the mutual matching of a plurality of motors and sensors; secondly, the inside work that combines together of a plurality of dislocation cavitys is adopted for equipment leakproofness requires extremely high, and the inside pressure release mechanism that does not set up of equipment itself for pressure is too big when individual plunger during operation, and water compressibility itself is little, and continuous operation probably leads to the problem of equipment damage.

In order to achieve the purpose, the invention provides the following technical scheme: a water circulation device comprises a gas water heater, a circulating pump and an inductor and comprises a base body, wherein a cold water inlet cavity is formed in the base body, one end of the cold water inlet cavity is connected with a cold water pipe, the other end of the cold water inlet cavity is provided with a piston cavity, the lower end of the piston cavity is provided with an induction cavity, the left side of the piston cavity is provided with a hot water inlet cavity, the hot water inlet cavity is connected to the inlet of the water heater through a pipe, the right side of the induction cavity is provided with a pre-water inlet cavity, the outer end of the pre-water inlet cavity is connected to the water outlet of the water heater through a pipe, the lower end of the induction cavity is provided with a hot water cavity, the cold water inlet;

the induction cavity is internally and fixedly provided with an induction tube for absorbing heat, one end of the induction tube is fixed on the inner wall of the basal body, the other end of the induction tube is fixedly arranged on the axle center of the pre-feeding cavity through a support, an inflation tube is fixedly connected in the middle of the induction tube and is communicated with the inflation tube, the induction tube is internally filled with liquid capable of expanding by heating, the upper end of the inflation tube is opened, the outer wall of the inflation tube axially slides to form a top cylinder, the top end of the top cylinder is fixedly provided with a plunger, the side wall of the plunger is provided with a long hole corresponding to the induction tube, the outer wall of the induction tube is slidably connected with the long hole, the top end of the plunger is provided with a piston, the piston is axially and slidably connected with the inner wall of the piston cavity, the piston is radially provided with a cold water through groove, the two ends, a through groove is formed in the axis of the piston, the bottom end of the through groove is communicated with the circulating through groove, a baffle corresponding to the cold water inlet cavity is fixedly arranged at the top end of the piston, a water inlet groove is formed in the lower end of the piston cavity, and the water inlet groove corresponds to the circulating through groove;

the diameters of the plungers are larger than those of the hot water cavity and the piston cavity, the circulating pump is fixedly arranged on a passage of the hot water inlet cavity, the baffle is in contact connection with an inductor, and the inductor is fixedly connected to the inner wall of the piston cavity;

the plunger piston comprises a base body, a plunger piston outer wall, a base body and a spring piece, wherein the plunger piston outer wall is axially and symmetrically and fixedly provided with two extrusion plates, the outer sides of the two extrusion plates are in contact connection with the spring piece, the spring piece is connected in a sliding groove of the base body in a sliding mode, a telescopic rod is fixedly connected in the middle of the spring piece, the telescopic rod is connected in a sliding hole formed in the inner;

in order to solve the problems that in the artificial intelligence square water treatment system and the water outlet device thereof in the prior art, the number of cavities is too many, the processing cost is too high due to different planes, and the integral structure of the equipment is complex and tedious due to the fact that a plurality of motors and sensors are matched with each other, and the manufacturing cost is high; secondly, the inside work that combines together of a plurality of dislocation cavitys is adopted for equipment leakproofness requires extremely high, and the inside pressure release mechanism that does not set up of equipment itself for pressure is too big when individual plunger during operation, and water compressibility itself is little, and continuous operation probably leads to the problem of equipment damage.

When the invention is used, the device is firstly connected with a gas water heater, a power supply is switched on, in an initial state, because cold water is in the water circulation device, the liquid in the induction pipe is in an unheated state (the liquid can adopt ether as a medium, the gasification temperature of the ether is DEG C, the temperature of a normal gas water heater is about 50 ℃, the adaptive temperature of a human body is between 25 and 50 ℃), the top cylinder is contracted outside the gas filling pipe (as shown in figure 6), meanwhile, the negative pressure generated by the descending of the top cylinder pulls the plunger piston to move downwards, the extrusion plate on the outer wall of the plunger piston extrudes the spring leaf to deform, two ends of the spring leaf slide on the inner wall of the chute, the telescopic rod is pushed in the middle of the spring leaf to overcome the pressure of the pressure spring to slide to the depth of the sliding hole, the extrusion plate finally extrudes the extrusion plate to continue to move downwards under the restoring acting force, the plunger does not have dead point problem by the acting force of the extrusion plate and the spring piece, so that the reaction of the trigger mechanism is more sensitive and faster, the reaction time of equipment is shortened, the valve is opened instantly, the heating speed is increased, the piston is pulled downwards to ensure that the cold water through groove, the cold water inlet cavity and the hot water inlet cavity are staggered to form a closed state, when the cold water through groove is completely sealed by the piston cavity (the plunger is only subjected to radial force caused by water inlet pressure by arranging a pipeline on the side wall of the piston cavity to be matched with the plunger, the plunger moves more laborsavingly, the sealing effect is weakened to save the equipment cost), the circulating through groove is communicated with the water inlet groove as the piston descends, the hot water cavity is blocked and closed by the downward movement of the plunger, the circulating through groove is also communicated with the hot water inlet cavity when the plunger descends (when the circulating through groove of, the air pressure at the upper part of the piston cavity is sharply reduced, at the moment, water in the hot water inlet cavity is sucked into the piston cavity through the pressure relief cavity to perform a short-time flat pressing effect, the phenomenon that a sealing gasket is damaged due to overlarge air pressure difference inside the equipment is avoided, the cold water inlet cavity is continuously blocked by the baffle plate, cold water cannot enter the equipment to be heated, meanwhile, the sensor receives a descending signal of the piston and starts the circulating pump to rotate, cold water in the pre-water inlet cavity, the induction cavity, the piston cavity and the hot water inlet cavity is circulated and filled into the gas water heater, water in the gas water heater enters the pre-water inlet cavity to form small circulation (the valve is in a connected state before the gas water heater is started, but a small part of cold water passing through the valve is not heated at the moment, the water is heated to a proper temperature through the internal circulation), the cold water in the small circulation is heated along with the starting of, when heated water enters the pre-water inlet cavity, the heated water is contacted with an induction pipe in the middle of the pre-water inlet cavity, liquid in the induction pipe is heated and gasified, so that the air pressure in the induction pipe is increased (as shown in figures 5 and 6), the air pressure jacks up the jacking cylinder upwards to move upwards along the gas filling pipe, so as to drive the plunger to move upwards, the motion state of the plunger is opposite to that of cold water, the power supply of the circulating pump is stopped as the sensor receives a signal when the plunger rises, at the moment, the cold water inlet cavity and the cold water through groove are communicated with the hot water inlet cavity, the hot water cavity and the pre-water inlet cavity are communicated by the plunger, and at the moment, if hot water needs to be output, the gas water; when no hot water is output, the hot water passing through the small circulation in the circulating device can be slowly cooled again, and when the temperature is lower than the liquid gasification point in the induction pipe, the small circulation can be triggered again to heat, so that the hot water exists in the circulating device all the time.

According to the invention, the cavity inside the base body is changed to be closed and opened by pushing the plunger and the piston to move up and down through the gasification and liquefaction of the liquid inside the induction pipe, so that the internal temperature of the water circulation device is always maintained near the gasification point of the liquid inside the induction pipe, a water heater can be opened to have hot water, and the condition of cold water in the starting process of the water heater is effectively avoided; the through type cavity is further used, meanwhile, the circulating path is shortened, the heating speed is high, the heat preservation performance is high, and the problem that the processing cost is high and the heating speed is low due to the fact that the cavity is complex in the base body casting process is effectively solved; furthermore, the driving of a motor is not adopted, so that the energy consumption is reduced, and meanwhile, the problem of installation difficulty is also reduced.

As a further scheme of the invention, an energy recovery and storage device is arranged inside the circulating pump; the working process does not need to be externally connected with electricity, and only uses the flow energy of cold water when the gas water heater outputs hot water, so that the energy conservation and emission reduction of equipment are realized, the later stage does not need to be provided with a waterproof circuit, and the cost is reduced and the equipment is safer.

As a further scheme of the invention, the piston adopts antifriction materials; the service life of the equipment is prolonged while the friction force is reduced during working.

As a further scheme of the invention, the internal blades of the circulating pump are made of metal materials, and the durability of the equipment is improved due to the overlarge internal pressure of the equipment.

As a further scheme of the invention, the diameter of the pre-water inlet cavity is larger than that of the cold water inlet cavity, and the volume of the pre-water inlet cavity is increased after hot water is heated, so that the stress on the inner wall of the hot water cavity is reduced, and the service life of equipment is prolonged.

As a further scheme of the invention, the telescopic rod is made of antifriction materials, so that the service life of the equipment is prolonged while the friction force is reduced during working.

An artificial intelligence water treatment equipment and its application method, the water circulation method includes the following steps:

the method comprises the following steps: assembling the equipment;

step two: when the water temperature is lower than the liquid gasification point in the induction cavity, small circulation is carried out;

step three: the water in the circulating device is always kept in a heating state;

step four: opening a water faucet to discharge hot water;

step five: when the water faucet is not opened for a long time and the internal water temperature is lower than the gasification point of the liquid in the induction cavity, the small circulation is started again;

compared with the prior art, the invention has the beneficial effects that:

according to the invention, the cavity inside the base body is changed to be closed and opened by pushing the plunger and the piston to move up and down through the gasification and liquefaction of the liquid inside the induction pipe, so that the internal temperature of the water circulation device is always maintained near the gasification point of the liquid inside the induction pipe, a water heater can be opened to have hot water, and the condition of cold water in the starting process of the water heater is effectively avoided; the through type cavity is further used, meanwhile, the circulating path is shortened, the heating speed is high, the heat preservation performance is high, and the problem that the processing cost is high and the heating speed is low due to the fact that the cavity is complex in the base body casting process is effectively solved; furthermore, the driving of a motor is not adopted, so that the energy consumption is reduced, and meanwhile, the installation difficulty is also reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of the method of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a front left sectional structural illustration of the present invention;

FIG. 6 is an enlarged view of the structure at B in FIG. 5 according to the present invention;

FIG. 7 is a front right cross-sectional structural illustration of the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 7 at C according to the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

11-gas water heater, 12-circulating pump, 13-inductor, 21-substrate, 22-cold water inlet cavity, 23-piston cavity, 24-induction cavity, 25-hot water inlet cavity, 26-pre-water inlet cavity, 27-hot water cavity, 28-pressure relief cavity, 31-induction pipe, 32-inflation pipe, 33-top cylinder, 34-plunger, 35-piston, 36-cold water through groove, 37-circulation through groove, 38-through groove, 39-baffle, 40-water inlet groove, 41-extrusion plate, 42-spring plate, telescopic rod 43-, 44-slide hole, 45-pressure spring and 46-slide groove.

Detailed Description

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

Referring to fig. 1-8, the present invention provides a technical solution: the gas water heater 11, the circulating pump 12 and the inductor 13 comprise a base body 21, wherein a cold water inlet cavity 22 is formed in the base body 21, one end of the cold water inlet cavity 22 is connected with a cold water pipe, the other end of the cold water inlet cavity is provided with a piston cavity 23, the lower end of the piston cavity 23 is provided with an induction cavity 24, the left side of the piston cavity 23 is provided with a hot water inlet cavity 25, the hot water inlet cavity 25 is connected to the inlet of the water heater through a pipe, the right side of the induction cavity 24 is provided with a pre-water inlet cavity 26, the outer end of the pre-water inlet cavity 26 is connected to the water outlet of the water heater through a pipe, the lower end of the induction cavity 24 is provided with a hot water cavity;

the induction cavity 24 is internally and fixedly provided with an induction pipe 31 for absorbing heat, one end of the induction pipe 31 is fixed on the inner wall of the base body 21, the other end of the induction pipe 31 is fixedly arranged on the axis of the pre-water inlet cavity 26 through a support, the inflation pipe 32 is fixedly connected in the middle of the induction pipe 31, the induction pipe 31 is communicated with the inflation pipe 32, the induction pipe 31 is internally filled with liquid capable of expanding under heat, the upper end of the inflation pipe 32 is opened, the outer wall of the inflation pipe 32 axially slides to form a top cylinder 33, the top end of the top cylinder 33 is fixedly provided with a plunger 34, the side wall of the plunger 34 is provided with a long circular hole 41 corresponding to the induction pipe 31, the outer wall of the induction pipe 31 is slidably connected with the long circular hole 41, the top end of the plunger 34 is provided with a piston 35, the piston 35 is axially slidably connected to the inner wall of the piston cavity 23, the piston 35 is, a circulating through groove 37 is radially formed below the cold water through groove 36, a through groove 38 is formed in the axis of the piston 35, the bottom end of the through groove 38 is communicated with the circulating through groove 37, a baffle 39 corresponding to the cold water inlet cavity 22 is fixedly arranged at the top end of the piston 35, a water inlet groove 40 is formed in the lower end of the piston cavity 23, and the water inlet groove 40 corresponds to the circulating through groove 37;

the diameters of the plungers 34 are larger than those of the hot water cavity 27 and the piston cavity 23, the circulating pump 12 is fixedly arranged on a passage of the hot water inlet cavity 25, the baffle 39 is in contact connection with the inductor 13, and the inductor 13 is fixedly connected to the inner wall of the piston cavity 23;

two extrusion plates 41 are symmetrically and fixedly arranged on the outer wall axis of the plunger 34, the outer sides of the two extrusion plates 41 are in contact connection with spring pieces 42, the spring pieces 42 are in sliding connection with a sliding groove 46 of the base body 21, a telescopic rod 43 is fixedly connected to the middle of the spring pieces 42, the telescopic rod 43 is in sliding connection with a sliding hole 44 formed in the inner wall of the sliding groove 46, and a pressure spring 45 is sleeved on the outer wall of the telescopic rod 43;

When the gas water heater is used, the equipment is firstly connected with the gas water heater 11, the power supply is connected, in the initial state, because the inside of the water circulation device is cold water, at the moment, the liquid in the induction pipe 31 is in an unheated state (the liquid can adopt diethyl ether as a medium, the gasification temperature of the diethyl ether is 34.6 ℃, the temperature of a normal gas water heater is about 50 ℃, the adaptive temperature of a human body is between 25 and 50 ℃), the top cylinder 33 is contracted outside the gas filling pipe 32 (as shown in figure 6), meanwhile, the negative pressure generated by the descending of the top cylinder 33 pulls the plunger 34 to move downwards, the extrusion plate 41 on the outer wall of the plunger 34 extrudes the spring plate 42 to deform, the two ends of the spring plate 42 slide on the inner wall of the sliding groove 46, the telescopic rod 43 in the middle of the spring plate 42 pushes the telescopic rod to slide to the deep part of the sliding hole 44 against the pressure of the pressure spring 45, and the extrusion plate 41 finally extrudes the extrusion Moving (as shown in fig. 8, the plunger 34 does not have a dead point problem by the acting force of the pressing plate 41 and the spring plate 42, so that the trigger mechanism reacts more sensitively and quickly, the equipment reaction time is shortened, the valve is opened instantly, and the heating speed is increased), the piston 35 is pulled downwards to make the cold water through groove 36 dislocated with the cold water inlet cavity 22 and the hot water inlet cavity 25 to form a closed state, after the cold water through groove 36 is completely sealed by the piston cavity 23 (by arranging a pipeline on the side wall of the piston cavity 23 to be matched with the plunger 34, so that the plunger 34 only receives radial force caused by the water inlet pressure, the plunger moves more laborsavingly and the sealing effect is weakened, so that the equipment cost is saved), as the piston 35 descends, the circulating through groove 37 is communicated with the water inlet groove 40, the hot water cavity 27 is blocked and closed by downward movement of the plunger 34, and the circulating through groove 38 is also communicated with the hot water inlet cavity 25 when the plunger 34 descends ( When the gas water heater is communicated, the air pressure at the upper part of the piston cavity 23 is sharply reduced, at the moment, water in the hot water inlet cavity 25 can be sucked into the piston cavity 23 through the pressure relief cavity 28 for a short-time flat pressing effect, the phenomenon that a sealing gasket is damaged due to overlarge air pressure difference inside the equipment is avoided, the cold water inlet cavity 22 is continuously blocked by the baffle 39, cold water cannot enter the equipment for heating, meanwhile, the inductor 13 receives a descending signal of the piston 35 and starts the circulating pump 12 to rotate, cold water in the pre-water inlet cavity 26, the induction cavity 24, the piston cavity 23 and the hot water inlet cavity 25 is circulated and filled into the gas water heater 11, and water in the gas water heater enters the pre-water inlet cavity 26 to form a small circulation (electronic ignition is needed for starting the gas water heater 11, but a valve is actually in a communicated state before being started, or a small part of cold water passing through the valve is not heated, and the water is, the cold water in a small circulation is heated along with the starting of the gas water heater 11, after the heated water enters the pre-water inlet cavity 26, the heated water is contacted with the induction pipe 31 in the middle of the pre-water inlet cavity 26, liquid in the induction pipe 31 is heated and gasified, so that the air pressure in the induction pipe 31 is increased (as shown in fig. 5 and 6), the air pressure jacks the jacking cylinder 33 upwards to move upwards along the inflating pipe 32, so as to drive the plunger 34 to move upwards, the power supply of the circulating pump 12 is stopped along with the rising of the plunger 34 when the inductor 13 receives a signal, at the moment, the cold water inlet cavity 22 and the cold water through groove 36 are communicated with the hot water inlet cavity 25 to the inside of the water heater, meanwhile, the plunger 34 also communicates the hot water cavity 27 with the pre-water inlet cavity 26, and at the moment, if the hot water needs to be output, the gas water; when no hot water is output, the hot water passing through the small circulation in the circulating device can be slowly cooled again, and when the temperature is lower than the liquid gasification point in the induction pipe 31, the small circulation can be triggered again to be heated, so that the hot water always exists in the circulating device.

According to the invention, the cavity inside the base body 21 is changed to be closed and opened by the up-and-down movement of the plunger 34 and the piston 35 pushed by the gasification and liquefaction of the liquid inside the induction pipe 31, so that the internal temperature of the water circulation device is always maintained near the gasification point of the liquid inside the induction pipe 31, the water heater can be opened to have hot water, and the condition of cold water in the starting process of the water heater is effectively avoided; a through cavity is further used, so that the problem of high processing cost caused by complex cavity in the casting process of the matrix 21 is effectively solved; the further drive that does not adopt the motor reduces the energy consumption, also reduces the installation degree of difficulty simultaneously, has solved the not good problem of maintaining in equipment later stage simultaneously.

As a further scheme of the invention, an energy recovery and storage device is arranged inside the circulating pump 12; the external power connection is not needed during working, the flowing energy of cold water is only used when the gas water heater 11 outputs hot water, so that the energy conservation and emission reduction of equipment are realized, the water prevention of a line is not needed in the later period, the cost is reduced, and the safety is higher.

As a further aspect of the invention, the piston 35 is made of a friction reducing material; the service life of the equipment is prolonged while the friction force is reduced during working.

As a further scheme of the invention, the blades inside the circulating pump 12 are made of metal materials, and the durability of the equipment is increased due to the overlarge pressure inside the equipment.

As a further scheme of the invention, the diameter of the pre-water inlet cavity 26 is larger than that of the cold water inlet cavity 22, and the volume is increased after hot water is heated, so that the stress on the inner wall of the hot water cavity 27 is reduced, and the service life of the equipment is prolonged.

As a further scheme of the invention, the telescopic rod 43 is made of antifriction materials, so that the service life of the equipment is prolonged while the friction force is reduced during working.

the method comprises the following steps: assembling the equipment;

step four: opening a water faucet to discharge hot water;

the working principle is as follows: when the gas water heater is used, the equipment is firstly connected with the gas water heater 11, the power supply is connected, in the initial state, because the inside of the water circulation device is cold water, at the moment, the liquid in the induction pipe 31 is in an unheated state (the liquid can adopt diethyl ether as a medium, the gasification temperature of the diethyl ether is 34.6 ℃, the temperature of a normal gas water heater is about 50 ℃, the adaptive temperature of a human body is between 25 and 50 ℃), the top cylinder 33 is contracted outside the gas filling pipe 32 (as shown in figure 6), meanwhile, the negative pressure generated by the descending of the top cylinder 33 pulls the plunger 34 to move downwards, the extrusion plate 41 on the outer wall of the plunger 34 extrudes the spring plate 42 to deform, the two ends of the spring plate 42 slide on the inner wall of the sliding groove 46, the telescopic rod 43 in the middle of the spring plate 42 pushes the telescopic rod to slide to the deep part of the sliding hole 44 against the pressure of the pressure spring 45, and the extrusion plate 41 finally extrudes the extrusion Moving (as shown in fig. 8, the plunger 34 does not have a dead point problem by the acting force of the pressing plate 41 and the spring plate 42, so that the trigger mechanism reacts more sensitively and quickly, the equipment reaction time is shortened, the valve is opened instantly, and the heating speed is increased), the piston 35 is pulled downwards to make the cold water through groove 36 dislocated with the cold water inlet cavity 22 and the hot water inlet cavity 25 to form a closed state, after the cold water through groove 36 is completely sealed by the piston cavity 23 (by arranging a pipeline on the side wall of the piston cavity 23 to be matched with the plunger 34, so that the plunger 34 only receives radial force caused by the water inlet pressure, the plunger moves more laborsavingly and the sealing effect is weakened, so that the equipment cost is saved), as the piston 35 descends, the circulating through groove 37 is communicated with the water inlet groove 40, the hot water cavity 27 is blocked and closed by downward movement of the plunger 34, and the circulating through groove 38 is also communicated with the hot water inlet cavity 25 when the plunger 34 descends ( When the gas water heater is communicated, the air pressure at the upper part of the piston cavity 23 is sharply reduced, at the moment, water in the hot water inlet cavity 25 can be sucked into the piston cavity 23 through the pressure relief cavity 28 for a short-time flat pressing effect, the phenomenon that a sealing gasket is damaged due to overlarge air pressure difference inside the equipment is avoided, the cold water inlet cavity 22 is continuously blocked by the baffle 39, cold water cannot enter the equipment for heating, meanwhile, the inductor 13 receives a descending signal of the piston 35 and starts the circulating pump 12 to rotate, cold water in the pre-water inlet cavity 26, the induction cavity 24, the piston cavity 23 and the hot water inlet cavity 25 is circulated and filled into the gas water heater 11, and water in the gas water heater enters the pre-water inlet cavity 26 to form a small circulation (electronic ignition is needed for starting the gas water heater 11, but a valve is actually in a communicated state before being started, or a small part of cold water passing through the valve is not heated, and the water is, the cold water in a small circulation is heated along with the starting of the gas water heater 11, after the heated water enters the pre-water inlet cavity 26, the heated water is contacted with the induction pipe 31 in the middle of the pre-water inlet cavity 26, liquid in the induction pipe 31 is heated and gasified, so that the air pressure in the induction pipe 31 is increased (as shown in fig. 5 and 6), the air pressure jacks the jacking cylinder 33 upwards to move upwards along the inflating pipe 32, so as to drive the plunger 34 to move upwards, the power supply of the circulating pump 12 is stopped along with the rising of the plunger 34 when the inductor 13 receives a signal, at the moment, the cold water inlet cavity 22 and the cold water through groove 36 are communicated with the hot water inlet cavity 25 to the inside of the water heater, meanwhile, the plunger 34 also communicates the hot water cavity 27 with the pre-water inlet cavity 26, and at the moment, if the hot water needs to be output, the gas water; when no hot water is output, the hot water passing through the small circulation in the circulating device can be slowly cooled again, and when the temperature is lower than the liquid gasification point in the induction pipe 31, the small circulation can be triggered again to be heated, so that the hot water always exists in the circulating device.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. An artificial intelligence water treatment facilities, includes gas heater (11), circulating pump (12) and inductor (13), its characterized in that: the water heater comprises a base body (21), wherein a cold water inlet cavity (22) is formed in the base body (21), the outer end of the cold water inlet cavity (22) is connected with a cold water pipe, the inner end of the cold water inlet cavity is provided with a piston cavity (23), the lower end of the piston cavity (23) is provided with a sensing cavity (24), the left side of the piston cavity (23) is provided with a hot water inlet cavity (25), the hot water inlet cavity (25) is connected to the inlet of a water heater through a pipe, the right side of the sensing cavity (24) is provided with a pre-water inlet cavity (26), the outer end of the pre-water inlet cavity (26) is connected to the water outlet of the water heater through a pipe, the lower end of the sensing cavity (24) is provided with a hot water cavity (27), the cold water inlet cavity (22) corresponds to the hot water inlet cavity (;

the induction cavity (24) is internally and fixedly provided with an induction tube (31) used for absorbing heat, one end of the induction tube (31) is fixed on the inner wall of the base body (21), the other end of the induction tube (31) is fixedly arranged on the axis of the pre-inlet cavity (26) through a support, an inflation tube (32) is fixedly connected in the middle of the induction tube (31), the induction tube (31) is communicated with the inflation tube (32), the induction tube (31) is internally filled with liquid capable of expanding by heating, the upper end of the inflation tube (32) is opened, the outer wall of the inflation tube (32) slides axially to form a top cylinder (33), a plunger (34) is fixedly arranged at the top end of the top cylinder (33), a long round hole (41) corresponding to the induction tube (31) is formed in the side wall of the plunger (34), the outer wall of the induction tube (31) is connected with the long round hole (41), the piston (35) is axially and slidably connected to the inner wall of the piston cavity (23), a cold water through groove (36) is radially formed in the piston (35), two ends of the cold water through groove (36) correspond to the cold water inlet cavity (22) and the hot water inlet cavity (25) respectively, a circulating through groove (37) is radially formed below the cold water through groove (36), a through groove (38) is formed in the axis of the piston (35), the bottom end of the through groove (38) is communicated with the circulating through groove (37), a baffle plate (39) corresponding to the cold water inlet cavity (22) is fixedly arranged at the top end of the piston (35), a water inlet groove (40) is formed in the lower end of the piston cavity (23), and the water inlet groove (40) corresponds to the circulating through groove (37);

the diameters of the plungers (34) are larger than those of the hot water cavity (27) and the piston cavity (23), the circulating pump (12) is fixedly arranged on a passage of the hot water inlet cavity (25), the baffle (39) is in contact connection with an inductor (13), and the inductor (13) is fixedly connected to the inner wall of the piston cavity (23);

plunger (34) outer wall axis symmetry is fixed and is provided with two stripper plates (41), two stripper plate (41) outside contact is connected with spring leaf (42), spring leaf (42) sliding connection is in spout (46) of base member (21), fixedly connected with telescopic rod (43) in the middle of spring leaf (42), telescopic rod (43) sliding connection is in slide opening (44) that spout (46) inner wall was seted up, telescopic rod (43) outer wall cover is equipped with pressure spring (45).

2. The artificial intelligence water treatment equipment and the use method thereof according to claim 1, wherein: and an energy recovery and storage device is arranged in the circulating pump (12).

3. The artificial intelligence water treatment equipment and the use method thereof according to claim 1, wherein: the piston (35) is made of antifriction materials.

4. The artificial intelligence water treatment equipment and the use method thereof according to claim 2, wherein: and the blades inside the circulating pump (12) are made of metal materials.

5. The artificial intelligence water treatment equipment and the use method thereof according to claim 1, wherein: the diameter of the pre-water inlet cavity (26) is larger than that of the cold water inlet cavity (22).

6. An artificial intelligence water treatment apparatus use method suitable for claim 1-5, characterized by: the telescopic rod (43) is made of antifriction materials and is characterized in that: the water circulation method comprises the following specific steps:

the method comprises the following steps: assembling the equipment;

step four: opening a water faucet to discharge hot water;

step five: when the water tap is not opened for a long time and the temperature of the internal water is lower than the gasification point of the liquid in the induction cavity, the small circulation is started again.