CN204862669U - Transient heating drinking water system - Google Patents

Abstract

The utility model relates to a transient heating drinking water system, include: heating host computer and wireless controller, the heating host computer includes: controller board, switch solenoid valve, flowmeter, a heating device, the 2nd heating device and casing, wherein, controller board, switch solenoid valve, flowmeter, a heating device and the 2nd heating device then all set up in the inside of this casing, and the casing is provided with water supply connector and water connectors. The utility model discloses mainly the setting through a heating device and the 2nd heating device, and then the energy transduction who the utilizes inside current loop effect that to carry on transient heating to the rivers in the waterway.

Description

Transient heating drinking-water system

Technical field

The utility model relates to a kind of transient heating drinking-water system, particularly relates to a kind of energy trasfer by current loop and reaches instantaneously heated drinking-water system.

Background technology

The boiled water dispenser of tradition tool heating function or water dispenser, because internal structure design is provided with water storage cylinder to difference stored hot water and cold water, therefore, all there is certain volume size, so for the family of house limited space, arrange what for space for inconvenience and in cabinet narrow and small under mostly cannot being placed in kitchen basin putting.Moreover traditional boiled water dispenser or water dispenser generally adopt the mode of electrothermal tube to heat inner water storage, so all need certain heating stand-by period, and real-time temperature, hot water supply cannot be provided; And in order to the water storage temperature of water storage cylinder inside will be maintained for a long time, then also need to monitor interior reservoir coolant-temperature gage constantly and start electrothermal tube heating for a long time, use and maintain inner water storage temperature, for not only ten parts of power consumptions and can saying without any energy-saving efficiency in the use of the energy.

Utility model content

The utility model provides a kind of transient heating drinking-water system, and it can improve energy-saving efficiency, and then solves the problem that in prior art, energy-saving efficiency is lower.

The utility model provides a kind of transient heating drinking-water system, comprising: heating main frame and wireless controller; This heating main frame comprises: controller plate, switch electromagnetic valve, flowmeter, first heater, secondary heating mechanism and casing; Wherein, this controller plate, this switch electromagnetic valve, this flowmeter, this first heater and this secondary heating mechanism, then be all arranged at the inside of this casing; And this casing is provided with water supply connector and water out adapter; One end of this water supply connector of this casing is then to be connected to the water inlet end of this switch electromagnetic valve with pipeline; The water side of this switch electromagnetic valve is then to be connected to the water inlet end of this flowmeter with pipeline; The water side of this flowmeter is then to be connected to the water inlet end of this first heater with pipeline; The water side of this first heater is then to be connected to the water inlet end of this secondary heating mechanism with pipeline; The water side of this secondary heating mechanism is then to be connected to one end of this water out adapter of this casing with pipeline; This controller plate comprises: the first power supply change-over device, second source conversion equipment, radio transmitting device and microcontroller, and is then be interconnected with circuit each other; This controller plate is then be connected to outside AC power supply loop with power line; This controller plate is then be connected to this switch electromagnetic valve, this flowmeter, this first heater and this secondary heating mechanism respectively with circuit; And this first power supply change-over device, be then export to convert dc source to the AC power that outside inputs to this first heater; This second source conversion equipment is then convert the AC power that outside inputs to dc source to export this secondary heating mechanism to; This wireless controller is then with wireless transmission to be connected to this radio transmitting device of this controller plate, so that the link carried out each other with this microcontroller of this controller plate controls, uses the effluent switch and leaving water temperature that control this heating main frame.

Transient heating drinking-water system of the present utility model, by the setting of first heater and secondary heating mechanism, and then utilizes the energy trasfer of inner current loop to carry out instantaneously heated effect to the current in waterway channel.

Accompanying drawing explanation

Fig. 1 is the stereogram of heating main frame.

Fig. 2 is the exploded view of heating main frame.

Fig. 3 is the front view of the intraware of heating main frame.

Fig. 4 is the stereogram of first heater.

Fig. 5 is the exploded view of first heater/secondary heating mechanism.

Fig. 6 is enforcement illustration of the present utility model.

[symbol description]

1, wireless controller

2, main frame is heated

21, casing

211, water supply connector

212, water out adapter

22, controller plate

221, the first power supply change-over device

222, second source conversion equipment

223, radio transmitting device

224, microcontroller

23, switch electromagnetic valve

24, flowmeter

25, first heater

26, secondary heating mechanism

C1, upper cover

C2, heating plate

C21, current loop

C3, water conservancy diversion cell body

C31, waterway channel

C4, base

31, power line

32, filter

33, depotition cock

Detailed description of the invention

Understand for the ease of persons skilled in the art and realize the utility model, now describing embodiment of the present utility model by reference to the accompanying drawings.

Refer to Fig. 1 to Fig. 6; The utility model provides a kind of transient heating drinking-water system, comprising: heating main frame 2 and wireless controller 1; This heating main frame 2, then comprise: controller plate 22, switch electromagnetic valve 23, flowmeter 24, first heater 25, secondary heating mechanism 26 and casing 21; Wherein, this controller plate 22, this switch electromagnetic valve 23, this flowmeter 24, this first heater 25 and this secondary heating mechanism 26, then be all arranged at the inside of this casing 21; And this casing 21, be then provided with water supply connector 211 and water out adapter 212.

One end of this water supply connector 211 of this casing 21 is then to be connected to the water inlet end of this switch electromagnetic valve 23 with pipeline; The water side of this switch electromagnetic valve 23 is then to be connected to the water inlet end of this flowmeter 24 with pipeline; The water side of this flowmeter 24 is then to be connected to the water inlet end of this first heater 25 with pipeline; The water side of this first heater 25 is then to be connected to the water inlet end of this secondary heating mechanism 26 with pipeline; The water side of this secondary heating mechanism 26 is then to be connected to one end of this water out adapter 212 of this casing 21 with pipeline.

This controller plate 22, then comprise: the first power supply change-over device 221, second source conversion equipment 222, radio transmitting device 223 and microcontroller 224, and be then be interconnected with circuit each other; This controller plate 22 is then be connected to outside AC power supply loop with power line 31; This controller plate 22 is then be connected to this switch electromagnetic valve 23, this flowmeter 24, this first heater 25 and this secondary heating mechanism 26 respectively with circuit.Wherein, this first power supply change-over device 221 is then export to convert dc source to the AC power that outside inputs to this first heater 25; This second source conversion equipment 222 is then export to convert dc source to the AC power that outside inputs to this secondary heating mechanism 26.

This wireless controller 1, then to be connected to this radio transmitting device 223 of this controller plate 22 with wireless transmission, so that the link carried out each other with this microcontroller 224 of this controller plate 22 controls, use the effluent switch and leaving water temperature that control this heating main frame 2.

This first heater 25, then comprise: upper cover C1, heating plate C2, water conservancy diversion cell body C3 and base C4; The end face of this heating plate C2, be then provided with the current loop C21 that tool bends continuously; This water conservancy diversion cell body C3, be then provided with the waterway channel C31 that tool bends continuously.And this upper cover C1, be then the end face that lid is placed in this heating plate C2; This water conservancy diversion cell body C3 is then the bottom surface being arranged at this heating plate C2; This base C4 is then the outside being installed in this water conservancy diversion cell body C3; Wherein, the waterway channel C31 that this tool of this water conservancy diversion cell body C3 bends continuously is then the below of the current loop C21 that tool that correspondence is arranged at this heating plate C2 end face bends continuously.This secondary heating mechanism 26, then comprise: upper cover C1, heating plate C2, water conservancy diversion cell body C3 and base C4; This heating plate C2, be then provided with temperature inductor; The end face of this heating plate C2, be then provided with the current loop C21 that tool bends continuously; This water conservancy diversion cell body C3, be then provided with the waterway channel C31 that tool bends continuously.And this upper cover C1, be then the end face that lid is placed in this heating plate C2; This water conservancy diversion cell body C3 is then the bottom surface being arranged at this heating plate C2; This base C4 is then the outside being installed in this water conservancy diversion cell body C3; Wherein, the waterway channel C31 that this tool of this water conservancy diversion cell body C3 bends continuously is then the below of the current loop C21 that tool that correspondence is arranged at this heating plate C2 end face bends continuously.Wherein, this temperature inductor, the then water flow temperature of the waterway channel C31 water side that this tool being used to this water conservancy diversion cell body C3 sensing this secondary heating mechanism 26 bends continuously.

This microcontroller 224 of this controller plate 22, can control unlatching or the cut out of this switch electromagnetic valve 23 by the link of circuit, use the current circulation controlled in the pipeline of water route.This microcontroller 224 of this controller plate 22, can control this flowmeter 24 by the link of circuit, use the discharge size detected or control in the pipeline of water route.This microcontroller 224 of this controller plate 22, the temperature data data that this temperature inductor that can detect this heating plate C2 of this secondary heating mechanism 26 by the link of circuit senses, use the real-time leaving water temperature obtaining this heating main frame 2.This microcontroller 224 of this controller plate 22, can control the size of current in the current loop C21 that this tool that this first power supply change-over device 221 exports this heating plate C2 end face of this first heater 25 to bends continuously by the link of circuit; This microcontroller 224 of this controller plate 22, can control the size of current in the current loop C21 that this tool that this second source conversion equipment 222 exports this heating plate C2 end face of this secondary heating mechanism 26 to bends continuously by the link of circuit.

Connecting at pipeline, after the back with water inlet line of external water source is first filtered via filter 32, then is connected to this water supply connector 211 of this casing 21 of this heating main frame 2 with pipeline; And this water out adapter 212 of this casing 21 of this heating main frame 2, be then be coupled to depotition cock 33 with pipeline.And user, then by manipulating the setting button of this wireless controller 1, control this heating main frame 2 to provide cold, temperature or the water outlet of hot water.

Size of current in the current loop C21 that this tool that the utility model system passes through this heating plate C2 end face controlling this first heater 25 and this secondary heating mechanism 26 bends continuously, current in the waterway channel C31 bend continuously this tool of this water conservancy diversion cell body C3 being relatively arranged on this heating plate C2 bottom surface carry out the effect of heat energy transfer, use the effect reaching transient heating water flow temperature.Moreover, because this heating main frame 2 inside does not need to have water space, have more the advantage of the little easy storing of volume.

The current loop C21 that this tool of this heating plate C2 end face bends continuously is when electric current conduction is carried out, be then attended by the fuel factor that fault offset produces, therefore, when the magnitude of current conducted in loop is larger, the fuel factor energy of corresponding generation is larger; Therefore, the current in the waterway channel C31 that this tool being relatively arranged on this water conservancy diversion cell body C3 of this heating plate C2 bottom surface bends continuously, namely by heat energy absorption or transfer indirectly cause the moment of water flow temperature to be risen; And waterway channel and current loop the length that adjoins longer, the heat time of the current namely in waterway channel is more of a specified duration, then the temperature of current is just relatively higher; Therefore waterway channel and current loop, then need be arranged in the mode bent continuously, could obtain the longest path on limited area.

User is by manipulation this wireless controller 1 when starting the button of cold water outlet, then this microcontroller 224 of this controller plate 22, link then by circuit controls the state that this switch electromagnetic valve 23 is unlatching, and then makes the water route pipeline of this heating main frame 2 inside can be communicated to the outside water source pipeline filtered.And this microcontroller 224 of this controller plate 22, control this first power supply change-over device 221 and this second source conversion equipment 222 by the link of circuit again, stop the current loop C21 that this tool of this heating plate C2 end face outputing current to this first heater 25 and this secondary heating mechanism 26 bends continuously; Then now, the current loop C21 that this tool of this heating plate C2 end face bends continuously, then without any fuel factor produce, therefore, current in the waterway channel C31 that this tool circulating in this water conservancy diversion cell body C3 of this heating plate C2 bottom surface bends continuously, then do not have the effect of heating; So depotition cock 33 can provide the water outlet of cold water to give user.

User, during by manipulating this wireless controller 1 and starting the button of warm/hot water outlet, then this microcontroller 224 of this controller plate 22, link then by circuit controls the state that this switch electromagnetic valve 23 is unlatching, and then makes the water route pipeline of this heating main frame 2 inside can be communicated to the outside water source pipeline filtered.And this microcontroller 224 of this controller plate 22, control this first power supply change-over device 221 and this second source conversion equipment 222 by the link of circuit again, export the current loop C21 that corresponding specific currents size bends with this tool of this heating plate C2 end face of this secondary heating mechanism 26 continuously to this first heater 25; Then now, the current loop C21 that this tool of this heating plate C2 end face bends continuously, then can produce corresponding fuel factor, therefore, current in the waterway channel C31 that this tool circulating in this water conservancy diversion cell body C3 of this heating plate C2 bottom surface bends continuously, the then temperature of transient rise current because of the transfer of heat energy; So depotition cock 33 can provide the water outlet of warm/hot water to give user.

Although depict the utility model by embodiment, but those of ordinary skill in the art know, when not departing from spirit of the present utility model and essence, the utility model just can be made to have many distortion and change, and scope of the present utility model is limited to the appended claims.

Claims (4)

1. a transient heating drinking-water system, is characterized in that, comprising: heating main frame and wireless controller; This heating main frame comprises: controller plate, switch electromagnetic valve, flowmeter, first heater, secondary heating mechanism and casing; Wherein, this controller plate, this switch electromagnetic valve, this flowmeter, this first heater and this secondary heating mechanism, then be all arranged at the inside of this casing; And this casing is provided with water supply connector and water out adapter;

One end of this water supply connector of this casing is then to be connected to the water inlet end of this switch electromagnetic valve with pipeline; The water side of this switch electromagnetic valve is then to be connected to the water inlet end of this flowmeter with pipeline; The water side of this flowmeter is then to be connected to the water inlet end of this first heater with pipeline; The water side of this first heater is then to be connected to the water inlet end of this secondary heating mechanism with pipeline; The water side of this secondary heating mechanism is then to be connected to one end of this water out adapter of this casing with pipeline;

This controller plate comprises: the first power supply change-over device, second source conversion equipment, radio transmitting device and microcontroller, and is then be interconnected with circuit each other; This controller plate is then be connected to outside AC power supply loop with power line; This controller plate is then be connected to this switch electromagnetic valve, this flowmeter, this first heater and this secondary heating mechanism respectively with circuit; And this first power supply change-over device, be then export to convert dc source to the AC power that outside inputs to this first heater; This second source conversion equipment is then convert the AC power that outside inputs to dc source to export this secondary heating mechanism to;

This wireless controller is then with wireless transmission to be connected to this radio transmitting device of this controller plate, so that the link carried out each other with this microcontroller of this controller plate controls, uses the effluent switch and leaving water temperature that control this heating main frame.

2. transient heating drinking-water system as claimed in claim 1, it is characterized in that, this first heater/secondary heating mechanism, then comprise: upper cover, heating plate, water conservancy diversion cell body and base; The end face of this heating plate, be then provided with the current loop that tool bends continuously; This water conservancy diversion cell body, be then provided with the waterway channel that tool bends continuously; And this upper cover, be then the end face that lid is placed in this heating plate; This water conservancy diversion cell body is then the bottom surface being arranged at this heating plate; This base is then the outside being installed in this water conservancy diversion cell body; Wherein, the waterway channel that this tool of this water conservancy diversion cell body bends continuously is then the below of the current loop that tool that correspondence is arranged at this heating plate end face bends continuously.

3. transient heating drinking-water system as claimed in claim 2, it is characterized in that, this heating plate of this secondary heating mechanism, be then provided with temperature inductor; This temperature inductor, then the water flow temperature in the waterway channel that this tool being used to this water conservancy diversion cell body sensing this secondary heating mechanism bends continuously.

4. transient heating drinking-water system as claimed in claim 3, be is characterized in that, this microcontroller of this controller plate, can be controlled unlatching or the closedown of this switch electromagnetic valve by the link of circuit, uses the current circulation controlled in the pipeline of water route; This microcontroller of this controller plate, can control this flowmeter by the link of circuit, uses the discharge size detected or control in the pipeline of water route;

This microcontroller of this controller plate, the temperature data data that this temperature inductor that can detect this heating plate of this secondary heating mechanism by the link of circuit senses, use the real-time leaving water temperature obtaining this heating main frame; This microcontroller of this controller plate, can control the size of current in the current loop that this tool that this first power supply change-over device/second source conversion equipment exports this heating plate end face of this first heater/secondary heating mechanism to bends continuously by the link of circuit.