CN202734253U - Quantitative instantly-heating kettle - Google Patents
Quantitative instantly-heating kettle Download PDFInfo
- Publication number
- CN202734253U CN202734253U CN 201220269436 CN201220269436U CN202734253U CN 202734253 U CN202734253 U CN 202734253U CN 201220269436 CN201220269436 CN 201220269436 CN 201220269436 U CN201220269436 U CN 201220269436U CN 202734253 U CN202734253 U CN 202734253U
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- water
- heating
- quantitative
- water inlet
- control module
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Abstract
The utility model relates to a kettle, in particular to a quantitative instantly-heating kettle. The quantitative instantly-heating kettle comprises a water supply structure, a water inlet structure and a heating structure, wherein the water supply structure is communicated with the water inlet structure, the water inlet structure is communicated with the heating structure, and the quantitative instantly-heating kettle is characterized by also comprising a quantitative water outlet structure and a control unit, the quantitative water outlet structure comprises a water outlet, a water outlet switch which is arranged on the water outlet, a water level detection structure which is used for controlling the water volume inside the heating structure and a temperature sensing element which is arranged on the heating structure; and the water inlet structure, the water outlet switch, the heating structure, the water level detection structure and the temperature sensing element are electrically connected with the control unit. The quantitative instantly-heating kettle is simple and stable in structure and quantitative in heating and water discharging; and moreover, the water volume to be heated can be inputted through the water inlet structure and the water level detection structure, the waste phenomenon can be avoided, and high efficiency and energy conservation can be realized.
Description
Technical field
The utility model relates to a kind of kettle, is specifically related to a kind of quantitative instantaneous heating water jug.
Background technology
Along with the development of society, human requirement to various drinking water also improves constantly, and existing on the market ordinary canteen is the heat-generating pipe heating of kettle body bottom, and water-in-kettle is must be all boiled just can be drunk afterwards, and heat time heating time is long, and efficient is low; Simultaneously, also easily repeatedly (thousand boiling water) to boil water produces calcium, magnesium mineral deposition, and water quality is stale, is unfavorable for health; But existing instantaneous heating water jug Fast Heating water, but the amount that goes out hot water after the heating is indefinite, can not satisfy the demand that user's needs How much water just heats How much water and output How much water, causes easily the repeatedly heating of water, the waste of resource.
Summary of the invention
The technical problem that the utility model solves provides a kind of quantitative instantaneous heating water jug, its simple and stable structure, and quantitative heating and quantitative-outlet, energy-efficient.
For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of quantitative instantaneous heating water jug, comprise water-supply structure, water inlet structure and heating arrangement, water-supply structure is communicated with water inlet structure, water inlet structure is communicated with heating arrangement, it is characterized in that: quantitatively instantaneous heating water jug also comprises quantitative-outlet structure and control module, and the quantitative-outlet structure comprises delivery port, be located at effluent switch on the delivery port, be used for the water level detecting structure of the water yield in the control heating arrangement and be located at temperature-sensing element on the heating arrangement; Water inlet structure, effluent switch, heating arrangement, water level detecting structure and temperature-sensing element all are electrically connected with control module; When water level detecting structure detection water yield in the heating arrangement reaches setting value, control module stops to heat into water and the energising of control heating arrangement according to the signal controlling water inlet structure of water level detecting structure, when water temperature reaches setting value, control module is according to the signal controlling heating arrangement outage stopped heating of temperature-sensing element and control simultaneously effluent switch and open and discharge water.
In this programme, by water inlet structure, water level detecting structure and control module, set a certain amount of water of heating and temperature of heating of needing by control module, water inlet structure begins to supply water to heating arrangement, when the water yield in the heating arrangement reaches setting value, the water level detecting structure with signal feedback to control module, control module control water inlet structure stops to supply water, control module control heating arrangement energising heating, this kind structure can be controlled the water yield that enters in the heating arrangement accurately, has realized the function of quantitative water inlet quantitative heating; And temperature-sensing element can detect the temperature of heating arrangement accurately, when reaching design temperature, temperature-sensing element sends signal to control module, control module control effluent switch is opened, thereby emit the water in the heating arrangement, reached the effect of quantitatively emitting hot water, simultaneously, control module control heating arrangement outage stopped heating prevents the generation of dry combustion method.
Further, described effluent switch is magnetic valve.Magnetic valve is electrically connected with control module, and delivery port can be opened or close to autoelectrinic control and needn't user's hands-on effluent switch fast.
Further, described temperature-sensing element is thermistor.Liquid in one end of thermistor and the heating arrangement contact, and thermistor also is electrically connected with control module, can detect fast the interior water temperature of heating arrangement and signal is sent to control module.
Further, described water-supply structure comprises water tank and is located at the valve of water tank lower part outlet; Described water inlet structure comprises water inlet pipe and the water pump of being located on the water inlet pipe, and water pump is electrically connected with control module, and valve is communicated with water inlet pipe.Described valve and water inlet pipe connectivity part are provided with pedestal, and described valve is Bidirectional seal structure, and water tank breaks away from pedestal, the water exit position of valve difference sealing radiator and pedestal.When mentioning water tank, owing to the two way seal effect of valve, can effectively prevent the water exit position that has sealed simultaneously water tank that overflows of the interior water of pedestal.
Further, described heating arrangement comprises heating chamber and heater, and heating chamber is communicated with water inlet pipe, and heater is electrically connected with control module.Described heater is located at the bottom of heating chamber outside.Heater is owing to damaging or other reason causes losing efficacy, and it is outside so that change conveniently to be located at heating chamber, and simultaneously, the heating chamber also is easy to clean.
Compared with prior art, beneficial effect is: the utility model also comprises quantitative-outlet structure and control module, and the quantitative-outlet structure comprises delivery port, be located at effluent switch on the delivery port, be used for the water level detecting structure of the water yield in the control heating arrangement and be located at temperature-sensing element on the heating arrangement; Water inlet structure, heating arrangement, effluent switch, water level detecting structure and temperature-sensing element all are electrically connected with control module; When water level detecting structure detection water yield in the heating arrangement reaches setting value, control module stops to heat into water and the energising of control heating arrangement according to the signal controlling water inlet structure of water level detecting structure, when water temperature reaches setting value, control module is controlled simultaneously effluent switch according to the signal controlling heating arrangement outage stopped heating of temperature-sensing element and is opened and discharge water.Its simple and stable structure, quantitative heating and quantitative-outlet need how many water yields of heating just to input how many water yields by water inlet structure and water level detecting structure, have avoided wasting phenomenon, and be energy-efficient.
Description of drawings
Fig. 1 is overall structure schematic diagram of the present utility model.
The specific embodiment
As shown in Figure 1, a kind of quantitative instantaneous heating water jug, comprise water-supply structure 10, water inlet structure 20 and heating arrangement 30, water-supply structure 10 is communicated with water inlet structure 20, water inlet structure 20 is communicated with heating arrangement 30, it is characterized in that: quantitatively instantaneous heating water jug also comprises quantitative-outlet structure 40 and control module, and quantitative-outlet structure 40 comprises delivery port 41, be located at effluent switch on the delivery port 41, be used for the water level detecting structure 43 of the control heating arrangement 30 interior water yields and be located at temperature-sensing element on the heating arrangement 30; Water inlet structure 20, heating arrangement 30, effluent switch, water level detecting structure 43 and temperature-sensing element all are electrically connected with control module; When detecting the heating arrangement 30 interior water yields, water level detecting structure 43 reaches setting value, control module stops to heat into water and 30 energisings of control heating arrangement according to the signal controlling water inlet structure 20 of water level detecting structure 43, can when water inlet structure 20 water inlet, heat simultaneously by heating arrangement 30, also can just begin to heat by heating arrangement 30 when water inlet structure 20 water inlet stops, can also water inlet structure 20 beginning to intake for the previous period, heating arrangement 30 at first heats; When water temperature reaches setting value, control module is controlled simultaneously effluent switch according to the signal controlling heating arrangement 30 outage stopped heatings of temperature-sensing element and is opened and discharge water.By water inlet structure 20, water level detecting structure 43 and control module, can control accurately the water yield that enters in the heating arrangement 30, and reach when setting value, stop into water, realized the function of quantitative water inlet; And temperature-sensing element can detect the temperature of heating arrangement 30 accurately, when reaching design temperature, temperature-sensing element sends signal to control module, control module control effluent switch is opened, thereby emit the water in the heating arrangement 30, reached the effect of quantitatively emitting hot water, simultaneously, control module control heating arrangement 30 outage stopped heatings prevent the generation of dry combustion method.
Further, described effluent switch is magnetic valve 42.Magnetic valve 42 is electrically connected with control module, can open fast or close delivery port 41.
Further, described temperature-sensing element is thermistor 44.Liquid in one end of thermistor and the heating arrangement 30 contact, and thermistor 44 also is electrically connected with control module, can detect fast the interior water temperature of heating arrangement 30 and signal is sent to control module.
Further, described water-supply structure 10 comprises water tank 11 and is located at the valve 12 of water tank 11 lower part outlets; Described water inlet structure 20 comprises water inlet pipe 22 and the water pump 21 of being located on the water inlet pipe 22, and water pump 21 is electrically connected with control module, and valve 12 is communicated with water inlet pipe 22.Described valve 12 is provided with pedestal with water inlet pipe 22 connectivity parts, and described valve 12 is Bidirectional seal structure, and water tank 11 breaks away from pedestal, the water exit position of valve 12 difference sealing radiators 11 and pedestal.When needs supply water, water tank 11 is inserted in the pedestal, thereby can flowing into pedestal, the water in the water tank 11 enters water inlet pipe 22, input to heating arrangement 30 by water pump 21 again.And valve 12 is Bidirectional seal structure, when two structures are separated, can seal respectively two water exit positions.
Further, described heating arrangement 30 comprises heating chamber 31 and heater 32, and heating chamber 31 is communicated with water inlet pipe 22, and heater 32 is electrically connected with control module.Described heater 32 is located at the bottom of heating chamber 31 outsides.Thereby be located at the outside so that heater 32 owing to damage or other reason cause losing efficacy change convenient.
The operation principle of present embodiment: at first the control module setting needs the water yield of heating and the temperature of heating, and then control module control water pump 21 is started working, and the water in the water tank 11 are transported to heating chamber 31; Water level in the heating chamber 31 is by 43 controls of water level detecting structure, and when arriving setting value, control module stops into water according to the signal controlling water pump 21 of water level detecting structure 43; Preferred version is that after water inlet was finished, the water in 32 pairs of heating chambers of control module control heater 31 was heated to boiling; Also can, in the time of water inlet, control module control heater 32 begins the heating of the water in the heating chamber 31 until boiling; All right, water inlet for the previous period, for example several seconds, 32 pairs of heating chambers 31 of control module control heater heated, namely heat a period of time after water pump 21 just begin to heating chamber 31 water supply; After the water boiling, thermistor 44 sends signal to control module, control module control heater 32 outage stopped heatings, simultaneously control module prompting magnetic valve 42 is opened and is discharged water, discharge water after, complete machine is got back to holding state.
The above only is preferred embodiment of the present utility model, should be understood that, for those skilled in the art, under the prerequisite that does not break away from the utility model principle, can do the improvement of some suitable actual conditions to the technical scheme of utility model.Therefore, protection domain of the present utility model is not limited to this, and those of skill in the art are any to be included within the utility model protection domain based on non-material change on the technical solutions of the utility model.
Claims (9)
1. quantitative instantaneous heating water jug, comprise water-supply structure (10), water inlet structure (20) and heating arrangement (30), water-supply structure (10) is communicated with water inlet structure (20), water inlet structure (20) is communicated with heating arrangement (30), it is characterized in that: quantitatively instantaneous heating water jug also comprises quantitative-outlet structure (40) and control module, and quantitative-outlet structure (40) comprises delivery port (41), be located at the effluent switch on the delivery port (41), be used for the water level detecting structure (43) of the interior water yield of control heating arrangement (30) and be located at temperature-sensing element on the heating arrangement (30); Water inlet structure (20), heating arrangement (30), effluent switch, water level detecting structure (43) and temperature-sensing element all are electrically connected with control module.
2. a kind of quantitative instantaneous heating water jug according to claim 1, it is characterized in that: described control module is used for reaching setting value when water level detecting structure (43) detects interior the water yield of heating arrangement (30), stops to switch on into water and control heating arrangement (30) according to the signal controlling water inlet structure (20) of water level detecting structure (43) and heats; Also be used for reaching setting value when water temperature, according to signal controlling heating arrangement (30) the outage stopped heating of temperature-sensing element simultaneously effluent switch open and discharge water.
3. a kind of quantitative instantaneous heating water jug according to claim 1 and 2, it is characterized in that: described effluent switch is magnetic valve (42).
4. a kind of quantitative instantaneous heating water jug according to claim 1 and 2, it is characterized in that: described temperature-sensing element is thermistor (44).
5. a kind of quantitative instantaneous heating water jug according to claim 1 and 2, it is characterized in that: described water-supply structure (10) comprises water tank (11) and is located at the valve (12) of water tank (11) lower part outlet; Described water inlet structure (20) comprises water inlet pipe (22) and is located at water pump (21) on the water inlet pipe (22), and water pump (21) is electrically connected with control module, and valve (12) is communicated with water inlet pipe (22).
6. a kind of quantitative instantaneous heating water jug according to claim 5, it is characterized in that: described valve (12) is provided with pedestal with water inlet pipe (22) connectivity part, described valve (12) is Bidirectional seal structure, water tank (11) breaks away from pedestal, the water exit position of valve (12) difference sealing radiator (11) and pedestal.
7. a kind of quantitative instantaneous heating water jug according to claim 6, it is characterized in that: described heating arrangement (30) comprises heating chamber (31) and heater (32), heating chamber (31) is communicated with water inlet pipe (22), and heater (32) is electrically connected with control module.
8. a kind of quantitative instantaneous heating water jug according to claim 7, it is characterized in that: described heater (32) is located at heating chamber (31) outside.
9. a kind of quantitative analgesic kettle according to claim 8, it is characterized in that: described heater (32) is located at the bottom of heating chamber (31).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220269436 CN202734253U (en) | 2012-06-08 | 2012-06-08 | Quantitative instantly-heating kettle |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220269436 CN202734253U (en) | 2012-06-08 | 2012-06-08 | Quantitative instantly-heating kettle |
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CN202734253U true CN202734253U (en) | 2013-02-13 |
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CN 201220269436 Expired - Lifetime CN202734253U (en) | 2012-06-08 | 2012-06-08 | Quantitative instantly-heating kettle |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109316059A (en) * | 2018-12-13 | 2019-02-12 | 佛山科学技术学院 | A kind of hot-water bottle control method and its device based on presupposed information |
-
2012
- 2012-06-08 CN CN 201220269436 patent/CN202734253U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109316059A (en) * | 2018-12-13 | 2019-02-12 | 佛山科学技术学院 | A kind of hot-water bottle control method and its device based on presupposed information |
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GR01 | Patent grant | ||
CX01 | Expiry of patent term |
Granted publication date: 20130213 |
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CX01 | Expiry of patent term |