Fast-heating water drinker
(1) technical field
The utility model relates to a kind of water dispenser, especially a kind of fast-heating water drinker.
(2) background technology
The heating system of general water dispenser adopts hot bladder structure, and its heat-insulating property is not fine, therefore, in case water dispenser is in open state, drinks if heated hot water is untimely, and its temperature can reduce along with the time, the phenomenon that hot water repeats to heat can occur.In order to economize on electricity, people are always to cut off the water dispenser power supply, just switch on when needs are drunk or made tea at ordinary times, but do like this, water could be heated to after must waiting for the long period again temperature required, so such water dispenser can not reach the convenient purpose of using.
Also the someone has proposed to utilize the instant hot type water dispenser of electrothermal film heating pipe realization.According to the power grade of electrothermal film heating pipe, can access the hot water of different leaving water temperatures, still,, can not effectively control leaving water temperature for single water dispenser.
(3) summary of the invention
In order to overcome the deficiency that existing fast-heating water drinker can not effectively adjust coolant-temperature gage, the utility model provides a kind of fast-heating water drinker that effectively adjusts coolant-temperature gage.
The technical scheme that its technical problem that solves the utility model adopts is:
A kind of fast-heating water drinker, comprise housing, the bottle seat, be positioned at the bucket on the bottle seat, power switch and cooling water outlet, hot water outlet, rapid heater is installed in the described housing, the water inlet of described rapid heater is communicated with by water main with bucket, the delivery port of described rapid heater is communicated with hot water outlet by hot water valve, the delivery port place of described rapid heater is provided with heat sensor, described heat sensor is electrically connected with power governor, described power governor comprises the high temperature regulating circuit that is used for reducing heating power when the delivery port temperature exceeds ceiling temperature, be used for when leaving water temperature is lower than lower limit temperature, increasing the low temperature regulating circuit of heating power, described rapid heater is electrically connected with power governor, and described power governor connects external power source.
Further, described power governor is the power governor that is used to regulate source current, described power governor also comprises big current output circuit, little circuit output circuit, the output of described low temperature regulating circuit connects big current output circuit, the output of described high temperature regulating circuit connects little current output circuit, and described big current output circuit, little circuit output circuit connect rapid heater.
Further again, described power governor is the power governor that is used to regulate the interruption cycle of power supply power supply, described power governor also comprises big interruptedly supplying power output circuit, diastem power supply output circuit, the output of described low temperature regulating circuit connects diastem power supply output circuit, the output of described high temperature regulating circuit connects big interruptedly supplying power output circuit, and described big interruptedly supplying power output circuit, diastem power supply output circuit connect rapid heater.
Described rapid heater comprises electrothermal film heating pipe and inserts the interior electrothermal tube of described electrothermal film heating pipe.
Described electrothermal tube connects described power governor.Or described electrothermal film heating pipe connects described power governor.
Operation principle of the present utility model is: regulate the heating power of heater by the temperature that detects the rapid heater delivery port, can set such as control circuit: if the detected temperature of heat sensor is higher than 95 ℃, then reduce heating power; 85 ℃ of the temperature low pressure that detects as heat sensor then increase heating power.
The adjusting of heating power can realize by following dual mode: (1), by regulating electric current, increase electric current and can increase heating power, reduce electric current and can reduce heating power; (2), break time of the power-up period by changing power supply, be 6 seconds such as setting the power supply cycle, be high-power output as energising in 5 seconds, outage in 1 second, export for small-power as energising in 1 second, outage in 5 seconds.
The beneficial effects of the utility model mainly show: 1, can effectively adjust coolant-temperature gage; 2, can set different leaving water temperatures as required.
(4) description of drawings
Fig. 1 is the structure chart of water dispenser.
Fig. 2 is the structure chart of rapid heater.
Fig. 3 is the theory diagram of the power governor of embodiment 1.
Fig. 4 is the theory diagram of the power governor of embodiment 2.
(5) specific embodiment
Below in conjunction with accompanying drawing the utility model is further described.
Embodiment 1
With reference to Fig. 1, Fig. 2, Fig. 3, a kind of fast-heating water drinker, comprise housing 1, bottle seat 2, be positioned at the bucket 3 on the bottle seat 2, power switch 4 and cooling water outlet 5, hot water outlet 6, described cooling water outlet 5 is communicated with bucket 3 by cold water pipe, on the described cold water pipe cold valves is installed, in the described housing 1 rapid heater 7 is installed, the water inlet of described rapid heater 7 is communicated with by water main 8 with bucket 3, the delivery port of described rapid heater 7 is communicated with hot water outlet 6 by hot water valve 9, and the electrothermal tube of described rapid heater 7 connects external power source by power switch 4;
The delivery port place of described rapid heater 7 is provided with heat sensor 10, described heat sensor 10 is electrically connected with power governor 16, described power governor 16 comprises the high temperature regulating circuit 17 that is used for reducing heating power when the delivery port temperature exceeds ceiling temperature, the low temperature regulating circuit 18 that is used for increasing heating power when leaving water temperature is lower than lower limit temperature, described rapid heater 7 is electrically connected with power governor 16, and described power governor 16 connects external power source.
Described power governor 7 is for being used to regulate the power governor of source current, described power governor 7 also comprises big current output circuit 19, little circuit output circuit 20, the output of described low temperature regulating circuit 18 connects big current output circuit 19, the output of described high temperature regulating circuit 17 connects little current output circuit 20, and described big current output circuit 19, little circuit output circuit 20 connect rapid heater 7.
Described rapid heater 7 comprises electrothermal film heating pipe 21 and inserts the interior electrothermal tube 22 of described electrothermal film heating pipe.Electrothermal film heating pipe 21 or electrothermal tube 22 connect described power governor.
The course of work of present embodiment is: open hot water valve 9, power switch 4 is opened, and rapid heater 7 powers on, and the water that will enter heater rapidly is heated to 90~95 ℃ of the temperature that need, normal water outlet; After closing hot water valve 9, power switch 4 turn-offs.
When water outlet, if the temperature of heat sensor is higher than 95 ℃, the high temperature regulating circuit 17 of control power governor 16, little circuit output circuit 20 connects rapid heater 7, and the leaving water temperature of rapid heater descends; If the temperature of heat sensor is lower than 85 ℃, the low temperature regulating circuit 18 of control power governor 16, big circuit output circuit 19 connects rapid heater 7, and leaving water temperature rises; Can effectively adjust coolant-temperature gage.Different high temperature dots, low warm spot can be set as required.
Embodiment 2
With reference to Fig. 1, Fig. 2, Fig. 4, described power governor 16 is the power governor in interruption cycle of being used to regulate the power supply power supply, described power governor 16 also comprises big interruptedly supplying power output circuit 23, diastem power supply output circuit 24, the output of described low temperature regulating circuit 18 connects diastem power supply output circuit 23, the output of described high temperature regulating circuit 17 connects big interruptedly supplying power output circuit 24, and described big interruptedly supplying power output circuit 23, diastem power supply output circuit 24 connect rapid heater.
Other structures of present embodiment are identical with embodiment 1.
The course of work of present embodiment: when water outlet, if the temperature of heat sensor is higher than 95 ℃, the high temperature regulating circuit 17 of control power governor 16, big interruptedly supplying power output circuit 24 connects rapid heater 7, and the leaving water temperature of rapid heater descends; If the temperature of heat sensor is lower than 85 ℃, the low temperature regulating circuit 18 of control power governor 16, diastem power supply output circuit 23 connects rapid heater 7, and leaving water temperature rises; Can effectively adjust coolant-temperature gage.Different high temperature dots, low warm spot can be set as required.