CN104367190A - Energy-saving instant heat type drinking water platform - Google Patents

Abstract

The invention discloses an energy-saving instant heat type drinking water platform and belongs to the technical field of drinking water devices. The energy-saving instant heat type drinking water platform comprises a cabinet, a water treatment mechanism, an instant heating mechanism, an electric controller, a treated water outlet pipe, a hot water outlet pipe and a steam water collection mechanism. An upper cabinet cavity is formed in the upper portion of the cabinet, a lower cabinet cavity is formed in the lower portion of the cabinet, a water collection disc is arranged on one side of the cabinet, and the positions corresponding to the positions above the water collection disc are provided with a hot water faucet and a cold boiled water faucet. The water treatment mechanism is arranged in the lower cabinet cavity and is connected with a water source pipeline. The instant heating mechanism is arranged in the upper cabinet cavity. The electric controller is arranged in the lower cabinet cavity and is in electric control connection with the water treatment mechanism and the water heating mechanism. The treated water outlet pipe is connected with the water treatment mechanism. One end of the hot water outlet pipe is connected with the instant heating mechanism, and the other end of the hot water outlet pipe is connected with the hot water faucet. The steam water collection mechanism is arranged in the upper cabinet cavity, is connected with the hot water outlet pipe and is in electric control connection with the electric controller. The energy-saving instant heat type drinking water platform is characterized by further comprising a heat transfer mechanism arranged in the lower cabinet cavity and simultaneously connected with the cold boiled water faucet, the instant heating mechanism and the treated water outlet pipe. The energy-saving instant heat type drinking water platform can provide hot water or cold water for drinkers and is good in energy-saving effect.

Description

Energy-saving instant heating type drinking platform

Technical field

The invention belongs to drinking device technical field, be specifically related to a kind of energy-saving instant heating type drinking platform.

Background technology

Aforesaid instant heating type drinking platform refers to the water dispenser without the need to being equipped with storage tank.Since the mankind step into the electrical equipment epoch, water dispenser has had longer applicating history, and 26S Proteasome Structure and Function becomes better and approaching perfection day by day, such as previous water dispenser is commonly railway carriage or compartment type heated type structure, and so-called railway carriage or compartment type heating type water dispenser refers to and be equipped with storage tank and/or water heating tank in cabinet.This water dispenser first fills water in use in storage tank, then waits for that one by process boiled for water, then drinks.Strong point is: can meet at short notice to the centralizedly supply requirement of boiling water; Shortcoming is: once the boiling water in storage tank is finished, need to storage tank continuous fill with and wait for boiled after drink once again.So, this type of water dispenser be not usually adapted at such as school, conference centre, stadiums, industrial and mining enterprises, office space, people-to-people contacts frequently public place such as the occasion at station and airport and so on use, because when this water dispenser is used in school, the drinking-water time due to student concentrates on the valuable and limited time after school (time after school is generally about 10 minutes), thus after the boiling water in storage tank is used up, disconnection can be caused, student is below made to drink boiling water, except the time after school of next class of non-camp; Again because when this water dispenser is used in aforementioned place except school as station, airport etc., because drinker shows as in an endless stream, thus cause energy waste.

Instant heating type (industry custom claims direct drinking type) release of platform of drinking water compensate for aforementioned shortcoming, because this water dispenser does not need through waiting for process boiled for water, meet namely to drink and namely get requirement, this type of water dispenser is no lack of and is seen in disclosed Chinese patent literature, as CN201564288U(safe energy-saving drinking water machine of instant heating type), CN201840327U(instant heating type drinking machine), CN201840330U(instant heating type drinking machine), CN201422758Y(instant heating type drinking machine), CN201481086U(instant heating type drinking machine) and this patent application of CN103462502A(safety and energy-saving instant heating type drinking platform < by the applicant, > is proposed), etc..The patent application scheme of " energy-saving Instant heating type boiler " that the logical fraud being not limited to these instant heating type drinking platforms exemplified is recommended by application for a patent for invention publication No. CN103767540A make up, specifically can see the 0004th section to 0017 section, the description of this patent application.

But, still there is following shortcoming in aforementioned CN103767540A: that be exactly due to can only to drinker provide high warm water (instant heating boiling water) and cannot to drinker provide boiled after through being cooled to the cold boiling water that is tending towards normal temperature or the warm boiling water (adjustment by heat control valve) a little more than normal temperature, in the use of reality, be thus difficult to meet people to the selection requirement of boiling water of drinking different temperatures.Reason is very simple, and for station waiting room, airport boarding lounge, passenger comes and goes hurriedly, and drinks cold boiling water and both can meet requirement of quenching one's thirst, can save time again.But have plenty of time for waiting, waiting, health is not suitable for drinking for the passenger of cold boiling water, wish again to take hot boiling water, thus single hot boiling water or the cold boiling water of providing can produce the phenomenon of attending to one thing and lose sight of another.Perhaps for this factor, supplying except hot boiling water at many high ferro waiting rooms of China except being equipped with boiled water machine at present, also generally providing free bottled pure water (with ticket one people one bottle) to passenger.Although this method of service can meet the selective requirement of passenger to drinking-water, cause serious waste, because the rate of drinking off of bottled pure water (being generally 500ml/ bottle) is extremely low, and puts unordered because pure water empty bottle is lost and affect environment; For school, as aforementioned, the break time of student is very short, if drink hot boiling water, student so can be made very awkward, such as, at drinking-water and go to toilet and/or process between other affairs and produce contradiction.

Certainly, if instant heating type drinking platform can be made to provide hot boiling water and cold boiling water simultaneously, so aforementioned technical problem just can be eliminated.The technical information of cold and hot boiled water machine can be seen in disclosed Chinese patent literature." health full-automatic quick-cooling, heating boiled water machine " that such as Authorization Notice No. CN2155523Y provides can provide hot boiling water and cold boiling water, this patent is except being equipped with hot water-heating container, be equipped with cold water-heating container and a cold water storage cistern separately, soak providing the pipe of cold boiling water (patent claims bended pipe) to cold water-heating container and be placed in cold water storage cistern.By known to description the 4th page of the 3rd explanation walking to the 5th page of eighth row of this patent, its cold boiling water provided only is through the sterilizing filter be arranged on water inlet pipe pipeline and filters and be arranged on the water of the mineralizer process in cold water storage cistern, be not burn boiled water through heater, be thus difficult to the hygienic requirements ensureing the water that self cooling water-heating container is drunk.In addition, in order to meet the requirement providing cold boiling water, in machine, being equipped with one will certainly making the complex structure of water dispenser for the cold water storage cistern depositing cold water and enlarge markedly volume.Especially, this cold and hot boiled water machine, owing to there is cold water storage cistern and cold water-heating container and hot water-heating container, does not thus belong to instant heating type drinking machine category, and is unfavorable for energy-conservation; And for example Authorization Notice No. CN201005513Y introduces has " a kind of boiling water, the dual-purpose machine of cold boiling water ", this patent is the one end connecting a water pipe on boiling water heating cabinet, cold turning on the tap is arranged at the other end of water pipe, and a cold water pipe is set in machine, be placed at the middle part of water pipe in the water of (being immersed in) cold water storage cistern, the hot boiling water in boiling water heating cabinet is drawn through water pipe and is taken (specifically can walk to the 18th row see the Instructions Page 2 of this patent the 4th) by cold turning on the tap.This CN201005513Y compares CN2155523Y, the cold boiling water provided is once boiled water, thus hygienic requirements can be met, but being equipped with cold water storage cistern to make to cause cold water for cooling of turning on the tap by water pipe can enlarge markedly the volume of water dispenser equally and make structure be tending towards complicated.In addition, because this patent is equipped with boiling water heating cabinet and cold water storage cistern, thus do not belong to instant heating type drinking machine category equally, and not there is energy-saving effect equally.

Above-mentioned two patents are except the deficiency mentioned, also there is the profound logical fraud wasted energy, because high-temperature hot boiling water releases heat in the process being cooled to cold boiling water be not enough to by wait heat running water diversion pipeline utilize, that is effective heat exchange each other can not be embodied, although two patents can improve water temperature in cold water storage cistern to a certain extent by providing the pipe of cold boiling water to soak the measure being placed in cold water storage cistern, but due to cold water storage cistern volume with provide the volume great disparity of the pipe of cold boiling water larger, thus improve often better than nothing to the water temperature of cold water storage cistern, moreover the water in cold water storage cistern can not disposable whole supply heating water tank, and only need moisturizing just to be supplemented to heating water tank by cold water storage cistern in heating water tank.

For above-mentioned prior art, the applicant has done useful design, defines technical scheme described below.

Summary of the invention

Task of the present invention is to provide a kind of and had not only contributed to providing hot boiling water but also be conducive to provide cold boiling water and use the different choice meeting the person of drinking and require, be of value to and make full use of hot boiling water and use being cooled to the heat that discharges in the process of cold boiling water and embody excellent energy-saving effect, have and be convenient to embody instant heating and namely drink and use and avoid heating arrangements blindly heating and reduce the energy-saving instant heating type drinking platform of power consumption.

Task of the present invention has been come like this, a kind of energy-saving instant heating type drinking platform, comprise a cabinet, the top of this cabinet is configured with cabinet epicoele, bottom is configured with cabinet cavity of resorption, by cabinet chamber divides between the upper and lower chamber of cabinet, be equipped with a water-collecting tray in the side of the short transverse of this cabinet, and be equipped with hot water tap and coldly turn on the tap corresponding to the position above water-collecting tray; One water treatment mechanism, this water treatment mechanism is arranged in described cabinet cavity of resorption, and this water treatment mechanism is connected with water supply line in a state of use; One instant heating arrangements, this instant heating arrangements is arranged in described cabinet epicoele; One electric controller, this electric controller is arranged in described cabinet epicoele, and is connected with described water treatment mechanism and the electrical control of water heating arrangements simultaneously; One process water fairlead for being drawn by the process water after described water treatment mechanism processes, this process water fairlead is connected with water treatment mechanism; One hot water fairlead, one end of this hot water fairlead is connected with described instant heating arrangements, and the other end is connected with described hot water tap; One steam water collecting mechanism, this vapor collection organization establishes, in described cabinet epicoele, is connected with described hot water fairlead and is connected with described electric controller electrical control; Feature is: also include one and be cooled to cold boiling water for the boiling water boiled by described instant heating arrangements is carried out heat exchange with the process water of being drawn by described process water fairlead and cause described cold heat exchange mechanisms of turning on the tap, this heat exchange mechanisms is arranged in described cabinet cavity of resorption, and this heat exchange mechanisms is turned on the tap with cold simultaneously, heating arrangements and water treatment fairlead are connected immediately.

In a specific embodiment of the present invention, a heater shield is provided with in the cabinet epicoele of described cabinet, this heater shield is configured with a heater installation cavity, described instant heating arrangements is arranged in heater installation cavity, this instant heating arrangements comprises, bottom nozzle and one group of instant heating tube, one group of instant heating tube is connected with described electric controller electrical control by circuit, the instant heating tube of this group is with side-by-side configuration each other and be fixed on longitudinal state, between bottom nozzle, be communicated with by instant heating tube transition connector between each adjacent instant heating tube, bottom nozzle is fixed in described heater installation cavity by bottom nozzle holder together with upper base and one group of instant heating tube, one group of described instant heating tube is carbon fiber heating tube, and the instant heating tube of this group is configured with instant heating tube water inlet interface and an instant heating tube water outlet mouthpiece, instant heating tube water inlet interface is connected with one end of a water inlet interface aqueduct, and the other end of interface aqueduct of intaking is connected with described heat exchange mechanisms, instant heating tube water outlet mouthpiece connects a hot water and has drawn three-way connection, described hot water fairlead and this hot water are drawn three-way connection and are connected, on described cabinet and correspond to described hot water tap and cold turn on the tap between above position be provided with a display screen, this display screen and described electric controller are electrically connected, described process water fairlead is connected with described heat exchange mechanisms in described cabinet cavity of resorption.

In another specific embodiment of the present invention, described heat exchange mechanisms comprises heat exchange coil, inner sleeve, first, second heat exchange coil three-way connection, cold water transitional connection pipe, four-way heat control valve, cold boiling water outlet pipe, heat control valve hot water fairlead and the cold boiling water fairlead of heat control valve, heat exchange coil is fixed in cabinet cavity of resorption by heat exchange coil fixed head, inner sleeve is contained in heat exchange coil, space between the outer wall of this inner sleeve and the inwall of heat exchange coil is configured to the process water heat exchanging chamber of heat exchange coil, and the internal canula lumen of inner sleeve is configured to hot boiling water heat exchanging chamber, first heat exchange coil three-way connection connects the one end at heat exchange coil, described water inlet interface aqueduct is connected with the first interface of this first heat exchange coil three-way connection, and communicate with described process water heat exchanging chamber, second heat exchange coil three-way connection connects the other end at heat exchange coil, one end of cold boiling water transitional connection pipe is connected with the four-way heat control valve first interface of four-way heat control valve, and the other end of cold boiling water transitional connection pipe is connected with one end of cold boiling water outlet pipe, the other end of cold boiling water outlet pipe is connected with described cold turning on the tap, the pipeline of cold boiling water outlet pipe is equipped a cold boiling water outlet pipe magnetic valve, this cold boiling water outlet pipe magnetic valve is connected with described electric controller electrical control, one end of heat control valve hot water fairlead is connected with four-way heat control valve second interface of four-way heat control valve, and the other end of this heat control valve hot water fairlead is connected with the second interface of the first heat exchange coil three-way connection and communicate with the hot boiling water water inlet of the hot boiling water heat exchanging chamber of described inner sleeve, one end of the cold boiling water fairlead of heat control valve is connected with four-way high-temperature valve the 3rd interface of four-way heat control valve, and the other end of the cold boiling water fairlead of this heat control valve and first of the second heat exchange coil three-way connection connect mouth is connected, and communicate with the cold boiling water delivery port of the hot boiling water heat exchanging chamber of inner sleeve, described process water fairlead connects mouth with second of the second heat exchange coil three-way connection and is connected, and communicate with described process water heat exchanging chamber, described hot water is drawn three-way connection and is connected with four-way heat control valve the 4th interface of four-way heat control valve.

In another specific embodiment of the present invention, the pipeline of described hot water fairlead is provided with hot water fairlead magnetic valve, this hot water fairlead magnetic valve is connected with described electric controller electrical control, the link position of described vapor collection mechanism on the pipeline of hot water fairlead be arranged in the cabinet epicoele of described cabinet is positioned at the left side of hot water fairlead magnetic valve, and described hot water tap is then in the right side that hot water draws magnetic valve.

In another specific embodiment of the present invention, described four-way heat control valve has a flow regulable control knob; One first shut is configured with at the end of the second interface of the first described heat exchange dish three-way connection, and be configured with one second shut at the first end connecting mouth of described second heat exchange coil three-way connection, one end and first shut of described inner sleeve are fixed, and the hot boiling water water inlet of the hot boiling water heat exchanging chamber of this inner sleeve leans out the side of the first shut back to described process water heat exchanging chamber, and the cold boiling water delivery port of hot boiling water heat exchanging chamber leans out the side of the second shut back to described process water heat exchanging chamber.

Also have in a specific embodiment of the present invention, described water treatment mechanism comprises one first water filter, one second water filter and a water filter water inlet pipe, one end of water filter water inlet pipe is connected with the tap water pipe line as water source, the other end is connected with the first water filter water inlet of the first water filter, and this water filter water inlet pipe is controlled by described electric controller, first, second water filter is arranged in the cabinet cavity of resorption of described cabinet with longitudinally parallel state each other, first water filter delivery port of the first water filter is connected with the second water filter water inlet of the second water filter by water filter transition conduit, and the second water filter delivery port of the second water filter is connected with described process water fairlead.

More of the present invention and in a specific embodiment, the pipeline of described water filter water inlet pipe is disposed with magnetic valve, flowmeter and adjusting flow meter from left to right, flowmeter between magnetic valve and adjusting flow meter, wherein: magnetic valve, flowmeter and adjusting flow meter are respectively connected with described electric controller electrical control by circuit.

In an of the present invention and then specific embodiment, described vapor collection mechanism comprises a vapor collection case, steam fairlead and a steam fairlead three-way connection, vapor collection case is fixed in described cabinet epicoele, one is fixed with for the drainpipe by the condensed water discharge in the vapor collection case chamber of vapor collection case in the bottom of this vapor collection case, one end of steam fairlead connects with vapor collection case and communicates with vapor collection case chamber, and the other end of steam fairlead is connected with steam fairlead three-way connection, steam fairlead three-way connection is connected on described hot water fairlead in the position in the left side corresponding to described hot water fairlead magnetic valve.

Of the present invention again more and in a specific embodiment, described hot water fairlead magnetic valve is electro-magnetic time-delay valve, delay time is 2-5 second.

In an again of the present invention and then specific embodiment, described flow counts card insert type flowmeter; Flow meters placing chamber is configured with in the cabinet cavity of resorption of described cabinet and corresponding to the position of described adjusting flow meter, be provided with one for what open or close flowmeter placing chamber at the position pivot of accent corresponding to this flowmeter placing chamber and protect door, described adjusting flow meter is arranged in flowmeter placing chamber.

Technical scheme provided by the invention, owing to having set up heat exchange mechanisms, thus can provide hot boiling water or cold boiling water to the person of drinking, can meet the selective requirement of the person of drinking; Due to heat exchange mechanisms by the cooling of hot boiling water for make while cold boiling water to be processed by water treatment mechanism and the water of being drawn by process water fairlead improved temperature before entering instant heating arrangements, thus can embody good energy-saving effect.

Accompanying drawing explanation

Fig. 1 is embodiments of the invention structure chart.

The detailed structure view of the heat exchange coil that Fig. 2 is the heat exchange mechanisms shown in Fig. 1, inner sleeve, first, second heat exchange coil three-way connection.

Detailed description of the invention

In order to enable the auditor of Patent Office especially the public clearly understand technical spirit of the present invention and beneficial effect, applicant will elaborate below by way of example, but be not all the restriction to the present invention program to the description of embodiment, any conceive according to the present invention done be only pro forma but not substantial equivalent transformation and all should be considered as technical scheme category of the present invention.

Every concept relating to the directionality (or claiming directionality) of upper and lower, left and right is all for the location status residing for the figure be described in the following description, object is to facilitate public understanding, thus can not be understood as being particularly limited to technical scheme provided by the invention.

Refer to Fig. 1, figure 1 illustrates: a cabinet 1, this cabinet 1 is vertical cabinet, cabinet epicoele 11 is configured with on the top of this cabinet 1, bottom is configured with cabinet cavity of resorption 12, cabinet is separated by cabinet chamber demarcation strip 13 between upper and lower chamber 11,12, and shown in the side of the short transverse of this cabinet 1 and Fig. 1, the right side of location status is equipped with the water-collecting tray 14 that has spilled water hole 141, and is being equipped with hot water tap 15a and the cold 15b that turns on the tap corresponding to the position above water-collecting tray 14; One water treatment mechanism 2, this water treatment mechanism 2 is arranged in aforementioned cabinet cavity of resorption 12, and this water treatment mechanism 2 is connected with water supply line in a state of use; One instant heating arrangements 3, this instant heating arrangements 3 is arranged in aforementioned cabinet epicoele 11; One electric controller 4, this electric controller 4 is arranged in aforementioned cabinet epicoele 11, and is connected with aforementioned water treatment mechanism 2 and water heating arrangements 3 electrical control simultaneously; One process water fairlead 5 for the process water after being processed by described water treatment mechanism 2 is drawn, this process water fairlead 5 is connected with water treatment mechanism 2; One hot water fairlead 6, one end of this hot water fairlead 6 is connected with aforementioned instant heating arrangements 3, and the other end is connected with former hotter water tap 15a; One steam water collecting mechanism 8, this vapor collection mechanism 8 is arranged in aforementioned cabinet epicoele 11, and this vapor collection mechanism 8 is connected with former hotter water fairlead 6 and is connected with electric controller 4 electrical control.

In FIG, although the quantity of the hot water tap 15a illustrated and the cold 15b of turning on the tap is respectively one, according to professional general knowledge and can according to needing to increase according to using state, thus by diagram number quantitative limitation.

As the technical essential of technical scheme provided by the invention, aforesaid energy-saving instant heating type drinking platform also includes one for being cooled to cold boiling water by carrying out heat exchange by the boiled boiling water of aforementioned instant heating arrangements 3 and the process water of being drawn by aforementioned processing water fairlead 5 and causing the heat exchange mechanisms 7 of the aforementioned cold 15b that turns on the tap, this heat exchange mechanisms 7 is arranged in described cabinet cavity of resorption 12, and this heat exchange mechanisms 7 is connected with the cold 15b of turning on the tap, instant heating arrangements 3 and water treatment fairlead 5 simultaneously.

As shown in Figure 1, in the cabinet epicoele 11 of aforementioned cabinet 1, be provided with a heater shield 111(also can claim heater to go along with sb. to guard him cover), this heater shield 111 is configured with a heater installation cavity 1111, described instant heating arrangements 3 is arranged in heater installation cavity 1111, this instant heating arrangements 3 comprises, bottom nozzle 31, 32 and one group of instant heating tube 33, one group of instant heating tube 33 is connected with the electrical control of aforementioned electric controller 4 by circuit, the instant heating tube of this group 33 is with side-by-side configuration each other and be fixed on longitudinal state, bottom nozzle 31, between 32, thus make, bottom nozzle 31, 32 and one group of instant heating tube 33 three form an entirety and be positioned at heater installation cavity 1111, and fixed by bottom nozzle 32 and bottom nozzle holder 321, and bottom nozzle 321 bottom nozzle hold-down screw 3211 is being fixed corresponding to the position of the screw hole 1112 be opened on heater shield 111 and heating shield 111.From the signal of Fig. 1, be communicated with by instant heating tube transition connector 331 between each adjacent instant heating tube 33, be connected with the instant heating tube transition connector 331 of the other end (shown in Fig. 1 top and bottom) respectively by one end between each adjacent instant heating tube that is in one group of instant heating tube 33.In the present embodiment, one group of instant heating tube 33 is carbon fiber heating tube, and the instant heating tube 33 of this group is configured with instant heating tube water inlet interface 332 and an instant heating tube water outlet mouthpiece 333, instant heating tube water inlet interface 332 is connected with one end of a water inlet interface aqueduct 3321, and the other end of interface aqueduct 3321 of intaking is connected with aforementioned heat exchange mechanisms 7, instant heating tube water outlet mouthpiece 333 connects a hot water and has drawn three-way connection 3331.Preferably, instant heating tube water-in and water-out interface 332,333 forms the position relationship of diagonal angle distribution each other.Aforesaid hot water fairlead 6 and hot water are drawn three-way connection 3331 and are connected; On aforementioned cabinet 1 and corresponding to the position above between hot water tap 15a and the cold 15b of turning on the tap, be provided with a display screen 16, this display screen 16 and aforementioned electric controller 4 are electrically connected; Aforesaid process water fairlead 5 is connected with aforementioned heat exchange mechanisms 7 in cabinet cavity of resorption 12.The lower position corresponding to display screen 16 is provided with hot water water intaking button 17a and cold boiling water water intaking button 17b, and hot water water intaking button 17a controls the water outlet of hot water tap 15a, and cold boiling water water intaking button 17b controls the water outlet of the cold 15b that turns on the tap.

Refer to Fig. 2 and composition graphs 1, aforesaid heat exchange mechanisms 7 preferably but not the structure be definitely limited to is as follows: comprise heat exchange coil 71, inner sleeve 72, first, second heat exchange coil three-way connection 73, 74, cold water transitional connection pipe 75, four-way heat control valve 76, cold boiling water outlet pipe 77, heat control valve hot water fairlead 78 and the cold boiling water fairlead 79 of heat control valve, heat exchange coil 71 is the heat exchange coil fixed head 711 of n shape by shape and adopts fixed head screw 7111 to be fixed in aforementioned cabinet cavity of resorption 12 in the position corresponding to the fixed head screw hole 122 be opened on the cabinet cavity of resorption base plate of cabinet cavity of resorption 12, inner sleeve 72 is contained in heat exchange coil 71, space between the outer wall of this inner sleeve 72 and the inwall of heat exchange coil 71 is configured to the process water heat exchanging chamber 712 of heat exchange coil 71, and the internal canula lumen of inner sleeve 72 is configured to hot boiling water heat exchanging chamber 721, first heat exchange coil three-way connection 73 screw thread connects the one end (left end shown in Fig. 2) at heat exchange coil 71, aforesaid water inlet interface aqueduct 3321 is threaded with the first interface 731 of this first heat exchange coil three-way connection 73, and communicate with aforementioned processing water heat exchanging chamber 712, second heat exchange coil three-way connection 74 screw thread connects the other end (shown in Fig. 2 right-hand member) at heat exchange coil 71, one end of cold boiling water transitional connection pipe 75 is connected with the four-way heat control valve first interface 761 of four-way heat control valve 76, and the other end of cold boiling water transitional connection pipe 75 is connected with one end of cold boiling water outlet pipe 77, the other end of cold boiling water outlet pipe 77 is connected with the aforementioned cold 15b of turning on the tap, the pipeline of cold boiling water outlet pipe 77 is equipped a cold boiling water outlet pipe magnetic valve 771, this cold boiling water outlet pipe magnetic valve 771 is connected with the electrical control of aforementioned electric controller 4, one end of heat control valve hot water fairlead 78 is connected with four-way heat control valve second interface 762 of four-way heat control valve 76, and the other end of this heat control valve hot water fairlead 78 is connected with the second interface 732 of the first heat exchange coil three-way connection 73 and communicate with the hot boiling water water inlet 7211 of the hot boiling water heat exchanging chamber 721 of aforementioned inner sleeve 72, one end of the cold boiling water fairlead 79 of heat control valve is connected with four-way high-temperature valve the 3rd interface 763 of four-way heat control valve 76, and the other end of the cold boiling water fairlead 79 of this heat control valve and first of the second heat exchange coil three-way connection 74 connect mouth 741 is connected, and communicate with the cold boiling water delivery port 7212 of the hot boiling water heat exchanging chamber 721 of inner sleeve 72, aforementioned processing water fairlead 5 connects mouth 742 with second of the second heat exchange coil three-way connection 74 and is connected, and communicate with aforesaid process water heat exchanging chamber 712, aforesaid hot water is drawn three-way connection 3331 and is connected with four-way heat control valve the 4th interface 764 of four-way heat control valve 76.

In the present embodiment, the quantity of aforesaid inner sleeve 72 is three, but and do not mean that this quantity is required, can increase and decrease according to needs.

In fig. 2, applicant also show the first shut 733 of the distal portion of the second interface 732 being formed in the first heat exchanger tube three-way connection 73, and be formed in the second shut 743 that first of the second heat exchange coil three-way connection 74 connects the distal portion of mouth 741, one end and first shut 331 of inner sleeve 72 are fixed, the other end and the second shut 743 are fixed, thus by first, second shut 733, 743 by the two ends shutoff of process water heat exchanging chamber 712, and the hot boiling water water inlet 7211 of the hot boiling water heat exchanging chamber 721 of inner sleeve 72 leans out the side of the first shut 733 back to process water heat exchanging chamber 712, the cold boiling water delivery port 7212 of same hot boiling water heat exchanging chamber 721 leans out the side of the second shut 743 back to process water heat exchanging chamber 712.

As shown in Figure 1, enter cabinet epicoele 11 in order to ensure aforementioned heat control valve cold boiling water fairlead 79 from cabinet cavity of resorption 12 to connect with aforementioned four-way heat control valve the 3rd interface 763, thus on cabinet chamber demarcation strip 13, offer a resigning hole 131 passed for the cold boiling water fairlead 79 of heat control valve, aforesaid water inlet interface aqueduct 3321 is equally through this resigning hole 131.

See Fig. 1, the pipeline of aforesaid hot water fairlead 6 is provided with hot water fairlead magnetic valve 61, this hot water fairlead magnetic valve 61 is connected with the electrical control of aforesaid electric controller 4, the link position of dedicated steam collecting mechanism 8 on the pipeline of hot water fairlead 6 be arranged in the cabinet epicoele 11 of aforementioned cabinet 1 is positioned at the left side of hot water fairlead magnetic valve 61, and aforesaid hot water tap 15a is then in the right side that hot water draws magnetic valve 61.

Aforesaid four-way heat control valve 76 has a flow regulable control knob 765, the uninterrupted of cold boiling water transitional connection pipe 75 can be changed by the operation (adjustment) to this Flow-rate adjustment control handle 765, to realize controlling the temperature of cold boiling water, the temperature that namely the present invention goes out the cold boiling water of the self cooling 15b of turning on the tap can regulate.

Aforesaid water treatment mechanism 2 comprises one first water filter 21, one second water filter 22 and water filter water inlet pipe 23, one end of water filter water inlet pipe 23 is connected with the tap water pipe line 9 as water source, the other end is connected with the first water filter water inlet 211 of the first water filter 21, and this water filter water inlet pipe 23 is controlled by aforesaid electric controller 4, first, second water filter 21, 22 are arranged in the cabinet cavity of resorption 12 of aforementioned cabinet 1 with longitudinally parallel state each other, first water filter delivery port 212 of the first water filter 21 is connected with the second water filter water inlet 221 of the second water filter 22 by water filter transition conduit 2121, and the second water filter delivery port 222 of the second water filter 22 is connected with aforesaid process water fairlead 5.The pipeline of water filter water inlet pipe 3 is disposed with magnetic valve 231, flowmeter 232 and adjusting flow meter 233 from left to right, flowmeter 232 between magnetic valve 231 and adjusting flow meter 233, wherein: magnetic valve 231, flowmeter 232 and adjusting flow meter 233 are respectively connected with the electrical control of aforementioned electric controller 4 by circuit.

Preferably, aforesaid hot water fairlead magnetic valve 61 is electro-magnetic time-delay valve, and delay time is 2-5 second.Why adopt be the electro-magnetic time-delay valve in 2-5 second time delay, be because, when drinker open hot water tap 15a take hot boiling water time, avoid getting water at low temperature, guarantee that the glassware for drinking water got has enough temperature.And guarantee to get meet drink the high-temperature water of requirement time, water temperature meeting in hot water fairlead 6 or high and produce steam, if not by steam release, can produce so again the anxiety of the limbs injuring access person, so make steam draw by vapor collection mechanism 8.

Continue to see Fig. 1, aforesaid vapor collection mechanism 8 comprises a vapor collection case 81, steam fairlead 82 and a steam fairlead three-way connection 83, vapor collection case 81 is fixed in aforementioned cabinet epicoele 11, one is fixed with for the drainpipe 812 by the condensed water discharge in the vapor collection case chamber 811 of vapor collection case 81 in the bottom of this vapor collection case 81, one end of steam fairlead 82 connects with vapor collection case 81 and communicates with vapor collection case chamber 811, and the other end of steam fairlead 82 is connected with steam fairlead three-way connection 83, steam fairlead three-way connection 83 is connected on described hot water fairlead 6 in the position in the left side corresponding to former hotter water fairlead magnetic valve 61.Function for this vapor collection mechanism 8 can see publication No. CN103767540A, and thus applicant repeats no more.

Preferably, aforesaid flowmeter 232 is card insert type flowmeter.Flow meters placing chamber 121 is configured with in the cabinet cavity of resorption 12 of aforementioned cabinet 1 and corresponding to the position of aforementioned adjusting flow meter 233, be provided with one for what open or close flowmeter placing chamber 121 at the position pivot of accent corresponding to this flowmeter placing chamber 121 and protect door 1211, described adjusting flow meter 233 is arranged in flowmeter placing chamber 121.

During use, once having people to hot water tap 15a and/or cold 15b water intaking of turning on the tap, electric controller 4 can be reacted and magnetic valve 231 be opened automatically, by tap water pipe line 9, running water is caused water filter water inlet pipe 23, by water filter water inlet pipe 23, running water is introduced the first water filter 21 through the first water filter water inlet 211 of the first water filter 21, after the first water filter 21 completes single filter, enter the second water filter 22 by the water filter transition conduit 2121 be connected with the first water filter delivery port 212 through the second water filter water inlet 221 of the second water filter 22 carry out cascade filtration, process water fairlead 5 is introduced again by the second water filter delivery port 222 of the second water filter 22, treated water fairlead 5 is introduced second of the second heat exchange coil three-way connection 74 and is connected mouth 742, connect mouth 742 by second and introduce process water heat exchanging chamber 712, drawn by the first interface 731 of the first heat exchange coil three-way connection 73 again, to intake interface 332 because water inlet interface aqueduct 3321 is connected to first interface 731 and the instant heating tube of one group of instant heating tube 33 of instant heating arrangements 3, thus by water inlet interface aqueduct 3321 by come from process water heat exchanging chamber 712 and the water of being drawn by first interface 731 enters instant heating arrangements 3, heated by one group of instant heating tube 33 of instant heating arrangements 3.Boiling water hot water after being heated by one group of instant heating tube 33 enters hot water through instant heating tube water outlet mouthpiece 333 and draws three-way connection 3331, draw three-way connection 3331 due to hot water fairlead 6 and this hot water to be connected, thus hot water tap 15a(is caused when taking by hot water fairlead 6, open after hot water fairlead magnetic valve 61 time delay 2-5s on the pipeline of hot water fairlead 6), thus hot water can be obtained at hot water tap 15a.A part of hot water of simultaneously being drawn by hot water extraction three-way connection 3331 enters four-way heat control valve 76 through four-way heat control valve the 4th interface 764, draw through four-way heat control valve second interface 762, the second interface 732 of the first heat exchange coil 73 is caused by heat control valve hot water fairlead 78, the hot boiling water heat exchanging chamber 721 of inner sleeve 72 is entered from water inlet of hot water 7211, connect mouth 741 through first of the second heat exchange coil three-way connection 74 again to draw, namely enter the cold boiling water fairlead 79 of heat control valve by cold boiling water delivery port 7212, cause four-way heat control valve the 3rd interface 763 of four-way heat control valve 76.When the person's of drinking open cold turns on the tap 15b, the cold boiling water outlet pipe magnetic valve 771 of cold boiling water successively on the pipeline of four-way heat control valve first interface 761, cold boiled water filtering tube connector 75 and cold boiling water outlet pipe 77(cold boiling water outlet pipe 77 is opened), until draw from the cold 15b that turns on the tap.

In this process, while the hot boiling water of inner sleeve 72 becomes cold boiling water, the temperature of the water by way of process water heat exchanging chamber 712 is raised, namely heat is exchanged by the water in process water heat exchanging chamber 712 with the aqueous phase in hot boiling water heat exchange tube chamber 721, make the temperature of the water entering into the heating of instant heating arrangements 3 improve and embody energy-conservation, be extremely conducive to the power consumption of the instant heating tube 33 of saving one group.

Claims (10)

1. a kind of energy-saving instant heating type drinking platform, comprise a cabinet (1), the top of this cabinet (1) is configured with cabinet epicoele (11), bottom is configured with cabinet cavity of resorption (12), separated by cabinet chamber demarcation strip (13) between the upper and lower chamber of cabinet (11,12), be equipped with a water-collecting tray (14) in the side of the short transverse of this cabinet (1), and be equipped with hot water tap (15a) and cold turn on the tap (15b) in the position of the top corresponding to water-collecting tray (14); One water treatment mechanism (2), this water treatment mechanism (2) is arranged in described cabinet cavity of resorption (12), and this water treatment mechanism (2) is connected with water supply line in a state of use; One instant heating arrangements (3), this instant heating arrangements (3) is arranged in described cabinet epicoele (11); One electric controller (4), this electric controller (4) is arranged in described cabinet epicoele (11), and is connected with described water treatment mechanism (2) and water heating arrangements (3) electrical control simultaneously; One process water fairlead (5) for being drawn by the process water after described water treatment mechanism (2) processes, this process water fairlead (5) is connected with water treatment mechanism (2); One hot water fairlead (6), one end of this hot water fairlead (6) is connected with described instant heating arrangements (3), and the other end is connected with described hot water tap (15a); One steam water collecting mechanism (8), this vapor collection mechanism (8) is arranged in described cabinet epicoele (11), is connected with described hot water fairlead (6) and is connected with described electric controller (4) electrical control; It is characterized in that: also include one for being cooled to cold boiling water by carrying out heat exchange by the boiled boiling water of described instant heating arrangements (3) and the process water of being drawn by described process water fairlead (5) and causing the heat exchange mechanisms (7) of described cold turn on the tap (15b), this heat exchange mechanisms (7) is arranged in described cabinet cavity of resorption (12), and this heat exchange mechanisms (7) is turned on the tap (15b) with cold simultaneously, heating arrangements (3) and water treatment fairlead (5) are connected immediately.

2. energy-saving instant heating type drinking platform according to claim 1, it is characterized in that being provided with a heater shield (111) in the cabinet epicoele (11) of described cabinet (1), this heater shield (111) is configured with a heater installation cavity (1111), described instant heating arrangements (3) is arranged in heater installation cavity (1111), this instant heating arrangements (3) comprises, bottom nozzle (31, 32) and one group of instant heating tube (33), one group of instant heating tube (33) is connected with described electric controller (4) electrical control by circuit, the instant heating tube of this group (33) is with side-by-side configuration each other and be fixed on longitudinal state, bottom nozzle (31, 32) between, be communicated with by instant heating tube transition connector (331) between each adjacent instant heating tube, bottom nozzle (32) is fixed in described heater installation cavity (1111) by bottom nozzle holder (321) together with upper base (31) and one group of instant heating tube (33), one group of described instant heating tube (33) is carbon fiber heating tube, and the instant heating tube of this group (33) is configured with instant heating tube water inlet interface (332) and an instant heating tube water outlet mouthpiece (333), instant heating tube water inlet interface (332) is connected with one end of a water inlet interface aqueduct (3321), and the other end of interface aqueduct (3321) of intaking is connected with described heat exchange mechanisms (7), instant heating tube water outlet mouthpiece (333) connects a hot water and has drawn three-way connection (3331), described hot water fairlead (6) and this hot water are drawn three-way connection (3331) and are connected, go up at described cabinet (1) and the position corresponding to described hot water tap (15a) and cold top of turning on the tap between (15b) is provided with a display screen (16), this display screen (16) and described electric controller (4) are electrically connected, described process water fairlead (5) is connected with described heat exchange mechanisms (7) in described cabinet cavity of resorption (12).

3. energy-saving instant heating type drinking platform according to claim 2, it is characterized in that described heat exchange mechanisms (7) comprises heat exchange coil (71), inner sleeve (72), first, second heat exchange coil three-way connection (73,74), cold water transitional connection pipe (75), four-way heat control valve (76), cold boiling water outlet pipe (77), heat control valve hot water fairlead (78) and the cold boiling water fairlead (79) of heat control valve, heat exchange coil (71) is fixed in cabinet cavity of resorption (12) by heat exchange coil fixed head (711), inner sleeve (72) is contained in heat exchange coil (71), space between the outer wall of this inner sleeve (72) and the inwall of heat exchange coil (71) is configured to the process water heat exchanging chamber (712) of heat exchange coil (71), and the internal canula lumen of inner sleeve (72) is configured to hot boiling water heat exchanging chamber (721), first heat exchange coil three-way connection (73) connects the one end in heat exchange coil (71), described water inlet interface aqueduct (3321) is connected with the first interface (731) of this first heat exchange coil three-way connection (73), and communicate with described process water heat exchanging chamber (712), second heat exchange coil three-way connection (74) connects the other end in heat exchange coil (71), one end of cold boiling water transitional connection pipe (75) is connected with the four-way heat control valve first interface (761) of four-way heat control valve (76), and the other end of cold boiling water transitional connection pipe (75) is connected with one end of cold boiling water outlet pipe (77), the other end of cold boiling water outlet pipe (77) is connected with described cold turn on the tap (15b), the pipeline of cold boiling water outlet pipe (77) is equipped a cold boiling water outlet pipe magnetic valve (771), this cold boiling water outlet pipe magnetic valve (771) is connected with described electric controller (4) electrical control, one end of heat control valve hot water fairlead (78) is connected with four-way heat control valve second interface (762) of four-way heat control valve (76), and the other end of this heat control valve hot water fairlead (78) is connected with second interface (732) of the first heat exchange coil three-way connection (73) and communicate with the hot boiling water water inlet (7211) of the hot boiling water heat exchanging chamber (721) of described inner sleeve (72), one end of the cold boiling water fairlead (79) of heat control valve is connected with the four-way high-temperature valve the 3rd interface (763) of four-way heat control valve (76), and the other end of the cold boiling water fairlead (79) of this heat control valve and first of the second heat exchange coil three-way connection (74) connect mouth (741) is connected, and communicate with the cold boiling water delivery port (7212) of the hot boiling water heat exchanging chamber (721) of inner sleeve (72), described process water fairlead (5) connects mouth (742) with second of the second heat exchange coil three-way connection (74) and is connected, and communicate with described process water heat exchanging chamber (712), described hot water is drawn three-way connection (3331) and is connected with the four-way heat control valve the 4th interface (764) of four-way heat control valve (76).

4. energy-saving instant heating type drinking platform according to claim 1, it is characterized in that being provided with hot water fairlead magnetic valve (61) on the pipeline of described hot water fairlead (6), this hot water fairlead magnetic valve (61) is connected with described electric controller (4) electrical control, the link position of described vapor collection mechanism (8) on the pipeline of hot water fairlead (6) be arranged in the cabinet epicoele (11) of described cabinet (1) is positioned at the left side of hot water fairlead magnetic valve (61), described hot water tap (15a) is then in the right side that hot water draws magnetic valve (61).

5. energy-saving instant heating type drinking platform according to claim 3, is characterized in that described four-way heat control valve (76) has a flow regulable control knob (765), one first shut (733) is configured with at the end of second interface (732) of the first described heat exchange dish three-way connection (73), and be configured with one second shut (743) at the first end connecting mouth (741) of described second heat exchange coil three-way connection (74), one end of described inner sleeve (72) and the first shut (733) are fixed, and the hot boiling water water inlet (7211) of the hot boiling water heat exchanging chamber (721) of this inner sleeve (72) leans out the side of the first shut (733) back to described process water heat exchanging chamber (712), and the cold boiling water delivery port (7212) of hot boiling water heat exchanging chamber (721) leans out the side of the second shut (743) back to described process water heat exchanging chamber (712).

6. energy-saving instant heating type drinking platform according to claim 1, it is characterized in that described water treatment mechanism (2) comprises one first water filter (21), one second water filter (22) and a water filter water inlet pipe (23), one end of water filter water inlet pipe (23) is connected with the tap water pipe line (9) as water source, the other end is connected with the first water filter water inlet (211) of the first water filter (21), and this water filter water inlet pipe (23) is controlled by described electric controller (4), first, second water filter (21,22) be arranged in the cabinet cavity of resorption (12) of described cabinet (1) with longitudinally parallel state each other, first water filter delivery port (212) of the first water filter (21) is connected with the second water filter water inlet (221) of the second water filter (22) by water filter transition conduit (2121), and the second water filter delivery port (222) of the second water filter (22) is connected with described process water fairlead (5).

7. energy-saving instant heating type drinking platform according to claim 6, it is characterized in that being disposed with magnetic valve (231), flowmeter (232) and adjusting flow meter (233) from left to right on the pipeline of described water filter water inlet pipe (3), flowmeter (232) is positioned between magnetic valve (231) and adjusting flow meter (233), wherein: magnetic valve (231), flowmeter (232) and adjusting flow meter (233) are respectively connected with described electric controller (4) electrical control by circuit.

8. energy-saving instant heating type drinking platform according to claim 4, it is characterized in that described vapor collection mechanism (8) comprises a vapor collection case (81), steam fairlead (82) and a steam fairlead three-way connection (83), vapor collection case (81) is fixed in described cabinet epicoele (11), one is fixed with for the drainpipe (812) by the condensed water discharge in the vapor collection case chamber (811) of vapor collection case (81) in the bottom of this vapor collection case (81), one end of steam fairlead (82) connects with vapor collection case (81) and communicates with vapor collection case chamber (811), and the other end of steam fairlead (82) is connected with steam fairlead three-way connection (83), steam fairlead three-way connection (83) is connected on described hot water fairlead (6) in the position in the left side corresponding to described hot water fairlead magnetic valve (61).

9. energy-saving instant heating type drinking platform according to claim 4, it is characterized in that described hot water fairlead magnetic valve (61) is electro-magnetic time-delay valve, delay time is 2-5 second.

10. energy-saving instant heating type drinking platform according to claim 6, is characterized in that described flowmeter (232) is card insert type flowmeter; Flow meters placing chamber (121) is configured with in the cabinet cavity of resorption (12) of described cabinet (1) and corresponding to the position of described adjusting flow meter (233), be provided with one for what open or close flowmeter placing chamber (121) at the position pivot of accent corresponding to this flowmeter placing chamber (121) and protect door (1211), described adjusting flow meter (233) is arranged in flowmeter placing chamber (121).