CN201637501U - Dual-purpose sensor and electric kettle with the same - Google Patents
Dual-purpose sensor and electric kettle with the same Download PDFInfo
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- CN201637501U CN201637501U CN2010201603018U CN201020160301U CN201637501U CN 201637501 U CN201637501 U CN 201637501U CN 2010201603018 U CN2010201603018 U CN 2010201603018U CN 201020160301 U CN201020160301 U CN 201020160301U CN 201637501 U CN201637501 U CN 201637501U
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Abstract
The utility model discloses a dual-purpose sensor and an electric kettle with the same, wherein the dual-purpose sensor comprises a heat conduction shell, a first lead, a second lead and a thermistor for detecting the water temperature, the thermistor is fixedly arranged in the heat conduction shell through thermal conductive adhesive, the dual-purpose sensor is characterized in that a liquid level detection unit is arranged on the heat conduction shell and is formed by two mutually independent conductive contacts, and the first lead, the thermistor, the liquid level detection unit and the second lead are sequentially connected in series; and the dual-purpose sensor can detect not only the water level but also the water temperature. The electric kettle comprises a kettle body, a heating element, a controller and the dual-purpose sensor, wherein the heating element, the controller and the dual-purpose sensor are respectively arranged on the bottom of the kettle body, the heating element is electrically connected with the control end of the controller, and the lead of the dual-purpose sensor is electrically connected with the signal input end of the controller; and the electric kettle has the functions of detecting the water temperature and avoiding dryout.
Description
Technical field
The utility model relates to a kind of synthesis sensor and has the electric kettle of this synthesis sensor.
Background technology
At present, cooling-water temperature sensor is widely used in fields such as production, life and science and technology, especially in household appliance technical field, for example, in household electrical appliance such as electric kettle, electric heater, electric coffee maker, electric heating bucket, solar water heater, generally all adopt cooling-water temperature sensor to detect the temperature of water.
Existing cooling-water temperature sensor generally comprises cylindric heat conduction shell and thermistor, the upper end closed of above-mentioned cylindric heat conduction shell and form the upper surface, above-mentioned thermistor fixedly is located in the cylindric heat conduction shell by heat-conducting glue, and the two ends of thermistor are connected with lead-in wire respectively.
When detecting water temperature, cooling-water temperature sensor is placed water, and the lead-in wire of two on the thermistor is electrically connected with the signal input part of controller (generally adopting single-chip microcomputer).Because the resistance of thermistor changes with the variation of water temperature,, thereby can obtain the variation of water temperature so controller passes through to detect the variation of thermistor resistance.
But existing cooling-water temperature sensor generally can only detect the temperature of water, and can't sensed water level, therefore, designs a kind of synthesis sensor that can either sensed water level can detect water temperature again, has become the technical matters that present urgent need solves.
Summary of the invention
First technical matters to be solved in the utility model provides a kind of synthesis sensor that can either sensed water level can detect water temperature again.
In order to solve above-mentioned first technical matters, the technical solution adopted in the utility model is as follows:
A kind of synthesis sensor, comprise heat conduction shell, first lead-in wire, second lead-in wire and can be used for detecting the thermistor of water temperature, above-mentioned thermistor fixedly is located in the heat conduction shell by heat-conducting glue, it is characterized in that: above-mentioned heat conduction shell is provided with a Level Detection unit, above-mentioned Level Detection unit is made of two separate conductive contacts, and above-mentioned first lead-in wire, thermistor, Level Detection unit and second lead-in wire are connected in series successively.
Above-mentioned Level Detection unit is electrically connected with other components and parts by its conductive contact.
Because this synthesis sensor comprises the Level Detection unit that can be used for sensed water level and can be used for detecting the thermistor of water temperature, first lead-in wire, thermistor, Level Detection unit and second lead-in wire are connected in series successively, so, can detect water level signal and water temperature signal simultaneously by first lead-in wire and second lead-in wire, therefore, this synthesis sensor can either sensed water level can detect water temperature again.
As further improvement of the utility model, be electrically connected with the 3rd lead-in wire between described Level Detection unit and the thermistor.
Like this, can detect water level signal and water temperature signal simultaneously, can detect water temperature signal, can detect water level signal by second lead-in wire and the 3rd lead-in wire by first lead-in wire and the 3rd lead-in wire by first lead-in wire and second lead-in wire.
As preferred structure of the present utility model, described heat conduction shell adopts cylindric heat conduction shell, the upper surface sealing of cylindric heat conduction shell.
Described cylindric heat conduction shell preferably adopts the cylindrical metal housing; Described heat-conducting glue adopts insulating heat-conductive glue; Two conductive contacts of described Level Detection unit are fixedly mounted on the cylindrical metal housing by insulator respectively.
The installation of this synthesis sensor for convenience, described cylindrical metal housing is provided with bindiny mechanism, and above-mentioned bindiny mechanism comprises bulge loop and O-ring seal, and above-mentioned bulge loop fixedly is located on the outside surface of cylindrical metal housing, the lower end of bulge loop is provided with annular groove, and above-mentioned O-ring seal is positioned at groove; Cylindrical metal housing parts below the above-mentioned bulge loop is provided with external thread.
Like this,, this synthesis sensor is installed in the various containers easily, simultaneously,, can makes the installation of this synthesis sensor have good sealing property by the cooperation of bulge loop and O-ring seal by the cooperation of outer bulge loop and screw thread.
As first kind of decision design mode of Level Detection unit in the utility model, two conductive contacts of described Level Detection unit all are located on the upper surface of cylindrical metal housing.
As second kind of decision design mode of Level Detection unit in the utility model, two conductive contacts of described Level Detection unit all are located on the side of cylindrical metal housing.
The third decision design mode as Level Detection unit in the utility model, in two conductive contacts of described Level Detection unit, a conductive contact is located on the upper surface of cylindrical metal housing, and another conductive contact is located on the side of cylindrical metal housing.
Second technical matters that the utility model solves provides a kind of electric kettle that has above-mentioned synthesis sensor.
In order to solve above-mentioned second technical matters, the technical solution used in the present invention is as follows:
A kind of electric kettle that has above-mentioned synthesis sensor, comprise kettle body, heater, controller and above-mentioned synthesis sensor, above-mentioned heater, controller and above-mentioned synthesis sensor are located at respectively on the bottom of kettle body, heater is electrically connected with the control end of controller, and the lead-in wire of above-mentioned synthesis sensor is electrically connected with the signal input part of controller.
Above-mentioned controller generally adopts single-chip microcomputer, and above-mentioned controller is a prior art.
The utility model beneficial effect against existing technologies is:
Because this synthesis sensor comprises the Level Detection unit that can be used for sensed water level and can be used for detecting the thermistor of water temperature, so this synthesis sensor can either sensed water level can detect water temperature again.Simultaneously, because the Level Detection unit is located on the heat conduction shell, the Level Detection unit is made of two separate conductive contacts, so, simple in structure, advantages such as production cost is low, reliable operation that this synthesis sensor has.
Because electric kettle of the present utility model is equipped with the synthesis sensor that can either sensed water level can detect water temperature again, so, after controller obtains low-water level signal that synthesis sensor transports, controller just can be exported a control signal makes heater stop heating power, thereby reaches the purpose of anti-dry; Simultaneously, this electric kettle also has the water temperature of detection function.In addition, electric kettle of the present utility model also has simple in structure, advantages such as production cost is low, reliable operation.
Below in conjunction with the drawings and specific embodiments the utility model is described further.
Description of drawings
Fig. 1 is the cut-open view of the preferred embodiment 1 of synthesis sensor in the utility model;
Fig. 2 is the cut-open view of the preferred embodiment 2 of synthesis sensor in the utility model;
Fig. 3 is the cut-open view of the preferred embodiment 3 of synthesis sensor in the utility model;
Fig. 4 is the cut-open view of the preferred embodiment 4 of synthesis sensor in the utility model;
Fig. 5 is the cut-open view of the preferred embodiment of electric kettle in the utility model.
Embodiment
Embodiment 1
As shown in Figure 1, synthesis sensor in this preferred embodiment, comprise cylindric heat conduction shell 2, first lead-in wire, 7, second lead-in wire 8 that seals upper surface 1 and the thermistor 3 that can be used for detecting water temperature, above-mentioned thermistor 3 fixedly is located in the cylindric heat conduction shell 2 by heat-conducting glue 4, the upper surface 1 of above-mentioned cylindric heat conduction shell 2 is provided with a Level Detection unit 56, above-mentioned Level Detection unit 56 is made of two separate conductive contacts 5,6, and above-mentioned first lead-in wire 7, thermistor 3, Level Detection unit 56 and second lead-in wire 8 are connected in series successively; The conductive contact 5 of above-mentioned Level Detection unit 56 is electrically connected with thermistor 3, and the conductive contact 6 of Level Detection unit 56 is electrically connected with second lead-in wire 8.
Above-mentioned cylindric heat conduction shell 2 is provided with bindiny mechanism, above-mentioned bindiny mechanism comprises bulge loop 9 and O-ring seal 10, above-mentioned bulge loop 9 fixedly is located on the outside surface of cylindric heat conduction shell 2, and the lower end of bulge loop 9 is provided with annular groove 11, and above-mentioned O-ring seal 10 is positioned at groove 11; Cylindric heat conduction shell below the above-mentioned bulge loop 9 partly is provided with external thread 12.Like this,, this synthesis sensor is installed in the various containers easily, simultaneously,, can makes the installation of this synthesis sensor have good sealing property by the cooperation of bulge loop 9 and O-ring seal 10 by the cooperation of outer bulge loop 9 and external thread 12.
When this synthesis sensor is used for the sensed water level water temperature, this synthesis sensor vertically is installed in a certain position; When the water logging around this installation site there is not two conductive contacts 5,6 of Level Detection unit 56, two conductive contacts 5,6 are by the water conducting, can access the signal of two conductive contact 5,6 conductings by first lead-in wire, 7, second lead-in wire 8, thereby can learn that also there is a certain amount of water in this installation site; When the water around this installation site can not flood the conductive contact 5,6 of Level Detection unit 56, two conductive contacts 5,6 disconnect, can access the signal of two conductive contact 5,6 not conductings by first lead-in wire, 7, second lead-in wire 8, thereby can learn that the water level around this installation site is very low, realize the detection of water level;
Simultaneously, because the variation of thermistor 3 resistances, so, can detect the variation of water temperature on every side of this installation site by first lead-in wire, 7, second lead-in wire 8.
As shown in Figure 2, cylindric heat conduction shell among the embodiment 2 adopts cylindrical metal housing 20, above-mentioned heat-conducting glue adopts insulating heat-conductive glue 40, the conductive contact 5 of Level Detection unit 56 is fixedly mounted on by insulator 50 on the upper surface 1 of cylindrical metal housing 20, and the conductive contact 6 of leading of Level Detection unit 56 is fixedly mounted on the upper surface 1 of cylindrical metal housing 20 by insulator 60.
As shown in Figure 3, be electrically connected with the 3rd lead-in wire 13 among the embodiment 3 between the conductive contact 5 of Level Detection unit 56 and the thermistor 3.
Like this, can detect water level signal and water temperature signal simultaneously, can detect water temperature signal, can detect water level signal by second lead-in wire the 8 and the 3rd lead-in wire 13 by first lead-in wire the 7 and the 3rd lead-in wire 13 by first lead-in wire, 7 and second lead-in wire 8.
Embodiment 4
Embodiment 4 is substantially the same manner as Example 2, and both are difference:
As shown in Figure 4, the conductive contact 5 of Level Detection unit 56 and insulator 50 thereof, conductive contact 6 and insulator 60 thereof all are located on the side of cylindrical metal housing 20 among the embodiment 4.
When this synthesis sensor is used for the sensed water level water temperature, this synthesis sensor vertically is installed in a certain position; When the water logging around this installation site there is not two conductive contacts 5,6 of Level Detection unit 56, two conductive contacts 5,6 are by the water conducting, can access the signal of two conductive contact 5,6 conductings by first lead-in wire, 7, second lead-in wire 8, thereby can learn that also there is a certain amount of water in this installation site; When the water around this installation site can not flood the conductive contact 5 of Level Detection unit 56, two conductive contacts 5,6 disconnect, can access the signal of two conductive contact 5,6 not conductings by first lead-in wire, 7, second lead-in wire 8, thereby can learn that the water level around this installation site is very low, realize the detection of water level;
Simultaneously, because the variation of thermistor 3 resistances, so, can detect the variation of water temperature on every side of this installation site by first lead-in wire, 7, second lead-in wire 8.
In like manner, two conductive contacts 5,6 in the foregoing description 1, two conductive contacts 5,6 among the embodiment 3, insulator 50,60 all can be located on the side of cylindrical metal housing 20; In addition, two conductive contacts 5,6 in the foregoing description 1 also can be that a conductive contact is located on the upper surface of cylindrical metal housing, and another conductive contact is located on the side of cylindrical metal housing; Two conductive contacts 5,6 in the foregoing description 3, insulator 50,60 also can be that a conductive contact and insulator thereof are located on the upper surface of cylindrical metal housing, and another conductive contact and insulator thereof are located on the side of cylindrical metal housing; Just given an example no longer one by one at this.
As shown in Figure 5, a kind of electric kettle that has synthesis sensor among the embodiment 2, comprise kettle body 21, heater 22, synthesis sensor 24 among controller 23 and the embodiment 2, the above-mentioned controller 23 general single-chip microcomputers that adopt, controller 23 is a prior art, above-mentioned heater 22 and controller 23 are located at respectively on the bottom of kettle body 21, heater 22 is electrically connected with the control end of controller 23, above-mentioned synthesis sensor 24 is installed in by bolt 25 on the bottom of kettle body 21, first lead-in wire 7 of above-mentioned synthesis sensor 24, second lead-in wire 8 is electrically connected with the signal input part of controller 23 respectively.
When the water logging in the kettle body 21 there is not two conductive contacts of synthesis sensor 24, two conductive contacts are by the water conducting, controller 23 8 can access the signal of two conductive contact conductings by first lead-in wire, 7, second lead-in wire, thereby can learn and also have a certain amount of water in the kettle body 21; When the water in the kettle body 21 can not flood two conductive contacts of synthesis sensor 24, two conductive contacts disconnect, controller 23 can access the signal of two not conductings of conductive contact by first lead-in wire, 7, second lead-in wire 8, thereby can learn that the water level in the kettle body 21 is very low, like this, controller 23 is exported a control signal and is made heater 22 stop heating power, thereby reach the purpose of anti-dry after obtaining the signal of two conductive contacts disconnections.Simultaneously, controller 23 can detect the variation of water temperature in the kettle body 21 by the variation of thermistor 3 resistances.
In like manner, synthesis sensor also can be applied in the electric kettle among embodiment 1, embodiment 3, the embodiment 4, has just given an example no longer one by one at this.
Claims (9)
1. synthesis sensor, comprise heat conduction shell, first lead-in wire, second lead-in wire and can be used for detecting the thermistor of water temperature, above-mentioned thermistor fixedly is located in the heat conduction shell by heat-conducting glue, it is characterized in that: above-mentioned heat conduction shell is provided with a Level Detection unit, above-mentioned Level Detection unit is made of two separate conductive contacts, and above-mentioned first lead-in wire, thermistor, Level Detection unit and second lead-in wire are connected in series successively.
2. synthesis sensor as claimed in claim 1 is characterized in that: be electrically connected with the 3rd lead-in wire between described Level Detection unit and the thermistor.
3. synthesis sensor as claimed in claim 1 or 2 is characterized in that: described heat conduction shell adopts cylindric heat conduction shell, the upper surface sealing of cylindric heat conduction shell.
4. synthesis sensor as claimed in claim 3 is characterized in that: described cylindric heat conduction shell adopts the cylindrical metal housing; Described heat-conducting glue adopts insulating heat-conductive glue; Two conductive contacts of described Level Detection unit are fixedly mounted on the cylindrical metal housing by insulator respectively.
5. synthesis sensor as claimed in claim 4, it is characterized in that: described cylindrical metal housing is provided with bindiny mechanism, above-mentioned bindiny mechanism comprises bulge loop and O-ring seal, above-mentioned bulge loop fixedly is located on the outside surface of cylindrical metal housing, the lower end of bulge loop is provided with annular groove, and above-mentioned O-ring seal is positioned at groove; Cylindrical metal housing parts below the above-mentioned bulge loop is provided with external thread.
6. synthesis sensor as claimed in claim 4 is characterized in that: two conductive contacts of described Level Detection unit all are located on the upper surface of cylindrical metal housing.
7. synthesis sensor as claimed in claim 4 is characterized in that: two conductive contacts of described Level Detection unit all are located on the side of cylindrical metal housing.
8. synthesis sensor as claimed in claim 4 is characterized in that: in two conductive contacts of described Level Detection unit, a conductive contact is located on the upper surface of cylindrical metal housing, and another conductive contact is located on the side of cylindrical metal housing.
9. electric kettle that has above-mentioned synthesis sensor, comprise each described synthesis sensor in kettle body, heater, controller and the claim 1 to 8, above-mentioned heater, controller and above-mentioned synthesis sensor are located at respectively on the bottom of kettle body, heater is electrically connected with the control end of controller, and the lead-in wire of above-mentioned synthesis sensor is electrically connected with the signal input part of controller.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010201603018U CN201637501U (en) | 2010-04-09 | 2010-04-09 | Dual-purpose sensor and electric kettle with the same |
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CN2010201603018U CN201637501U (en) | 2010-04-09 | 2010-04-09 | Dual-purpose sensor and electric kettle with the same |
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CN201637501U true CN201637501U (en) | 2010-11-17 |
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CN2010201603018U Expired - Lifetime CN201637501U (en) | 2010-04-09 | 2010-04-09 | Dual-purpose sensor and electric kettle with the same |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101846539A (en) * | 2010-04-09 | 2010-09-29 | 林家彬 | Dual-purpose sensor and electric heating kettle with the same |
-
2010
- 2010-04-09 CN CN2010201603018U patent/CN201637501U/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101846539A (en) * | 2010-04-09 | 2010-09-29 | 林家彬 | Dual-purpose sensor and electric heating kettle with the same |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20101117 Effective date of abandoning: 20130515 |
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AV01 | Patent right actively abandoned |
Granted publication date: 20101117 Effective date of abandoning: 20130515 |
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RGAV | Abandon patent right to avoid regrant |