JPH0594735U - Thermistor temperature sensor for cooker - Google Patents

Abstract

(57) [Abstract] [Purpose] Regarding the thermistor temperature sensor for automatic cookers such as electric rice cookers, the response of the temperature measuring part is fast, the characteristics do not deteriorate even in a harsh environment, and the man-hours for assembling the rice cooker are reduced. An object of the present invention is to provide a thermistor temperature sensor for a cooker that can be reduced. [Structure] A thermistor temperature measuring unit 14 having a hermetic structure in which a thermistor element 30 is closely attached to the inside of an upper surface of a metal cap 27, and the thermistor temperature measuring unit 14 is supported movably in a vertical direction by a certain range, and a spring 21 causes the thermistor to move. The outer case 12 that holds the temperature measuring unit 14 so as to always push it upward, the thermistor temperature measuring unit 14, and the outer case 12
When the inner pot is set, the reed switch 22 performs an operation of detecting this state, and the thermistor temperature measuring unit 14 contacts the bottom of the inner pot. Then measure the temperature of the inner pot.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a thermistor temperature sensor used in an automatic cooker such as an electric rice cooker, and in particular, has a separable inner pot, judges that this inner pot is set, and detects the temperature of the inner pot. The present invention relates to a thermistor temperature sensor in a cooking device of a type that controls the stroke of cooking.

In the rice cooker, when the inner pan is set at a predetermined position in the rice cooker, its own weight is used to determine that the inner pan is in the set state, and the rice cooker is in an operable state. During the heat, the temperature of the inner pot is detected, the heating state is controlled based on this, and the cooking sequence is determined based on whether the cooking is complete or not, and the cooking sequence is executed. ..

In the thermistor temperature sensor used in such a case, the temperature measuring unit incorporating the thermistor has a fast response, the characteristics are not deteriorated even under a severe usage environment, and the number of steps for assembling the cooker body can be reduced. It is required to be

[0004]

[Prior Art]

 7A and 7B show a conventional thermistor temperature sensor for a rice cooker, in which FIG. 7A is a partially cutaway side view and FIG. 7B is an external perspective view.

In FIG. 7, reference numeral 1 denotes a cylindrical outer case, the opening of which is attached upward for use. Reference numeral 2 denotes an inner case made of an aluminum plate or the like, which is incorporated in the outer case 1 so as to be movable up and down, and is configured so that the spring 3 constantly receives a force to push it upward. Reference numeral 4 denotes a protrusion that engages with the spring 3 at this time.

Reference numeral 5 denotes a base made of synthetic resin or the like, which is fitted inside the inner case 2 and has a recess 6 in the upper portion thereof. The recess 6 can accommodate the axial type thermistor element 7 in a state where the base body 5 is fitted inside the inner case 2 and can be fixed to the inner surface of the inner case 2. Further, a reed switch 8 is attached to the lower part of the base 5.

A magnet 9 is fixedly provided to the outer case 1 on the side surface of the reed switch 8. Reference numeral 10 denotes an inner case locking piece provided in the lower portion of the base body 5, which is inserted into a hole provided in the bottom portion of the outer case 1 and the tip portion is bent so that the inner case 2 is fixed to the base body 5. Along with this, it can move up and down, and also serves as a stopper to prevent it from being pulled out beyond a certain limit. The thermistor element 7 and the lead switch 8 are connected to the outside via a lead wire 11.

The thermistor temperature sensor for a rice cooker shown in FIG. 7 is attached to a rice cooker (not shown), and when the inner pot is not set, the force of the spring 5 causes the inner case 2 to move to the inner case 2 shown in FIG. ), The reed switch 8 approaches the magnet 9 and is turned on.

When the inner pot is set, the upper surface of the inner case 2 comes into contact with the bottom of the inner pot and is pushed down, so that the reed switch 8 separates from the magnet 9 and is turned off. The thermistor element 7 detects the surface temperature of the inner pot by changing its resistance value according to the temperature in this state.

Therefore, according to the thermistor temperature sensor for a rice cooker shown in FIG. 7, it is possible to detect that the inner pot is set in the rice cooker and detect the temperature of the inner pot in this state. Is becoming

[0011]

[Problems to be solved by the device]

 In the conventional thermistor temperature sensor for a rice cooker shown in FIG. 7, a normal axial type thermistor element is used as a temperature detecting element. Therefore, there was a problem that the thermal time constant of the thermistor element was large and the response when detecting the temperature of the inner pot was slow.

Further, since the thermistor element is used in a bare state, it is unavoidable that the insulation between terminals deteriorates due to high humidity at the time of rice cooking, contamination, etc., and the temperature detection accuracy decreases. There was a problem.

Further, in the case of a rice cooker or the like, when the rice is cooked in an empty state due to a failure or the like, a temperature fuse is provided to prevent the internal temperature from excessively rising and keep the safety, and the fuse is blown at a certain temperature or higher. Then the power is cut off. In the conventional rice cooker, the temperature fuse is not integrated with the thermistor temperature sensor, but is installed separately at an appropriate place. Therefore, there is a problem that a place for mounting is required and the number of assembling steps is increased.

The present invention is intended to solve the problems of the prior art, and in a thermistor temperature sensor for a cooking device, the temperature measuring unit has an element of a hermetic structure, and this element is directly connected to the inner pot. By making it contact with the temperature sensor, the response at the time of temperature detection can be made quick, and there is no problem of insulation deterioration between terminals, and stable temperature detection can be performed. It is an object of the present invention to provide a thermistor temperature sensor for a cooker by incorporating a fuse to solve the problems such as the space for incorporating the temperature fuse and the increase in the number of assembly steps.

[0015]

[Means for Solving the Problems]

 The present invention is a thermistor temperature sensor for a cooking device, which detects that the inner pot is set on the inner pot and measures the surface temperature of the inner pot, in which the thermistor element 30 is closely attached inside the upper surface of the metal cap 27. A thermistor temperature measuring unit 14 having a hermetic structure, and an outer case 12 that supports the thermistor temperature measuring unit 14 so as to be vertically movable within a certain range, and holds the thermistor temperature measuring unit 14 by a spring 21 so as to always push the thermistor temperature measuring unit 14 upward. , Has a reed switch 22 and a magnet 23 fixed to the thermistor temperature measuring unit 14 and the outer case 12, respectively, and when the inner pot is set, the reed switch 22 performs an operation to detect this state. At the same time, the thermistor temperature measuring unit 14 contacts the bottom of the inner pot to measure the temperature of the inner pot.

Further, in the present invention, in this case, the outer case 12 is made of metal, and the temperature fuse 18 is provided in close contact with the inside of the upper surface of the outer case 12.

[0017]

[Action]

 The thermistor temperature sensor for the cooking device detects that the inner pot has been set and is ready to operate, and also serves to measure the surface temperature of the inner pot.

The thermistor temperature sensor for a cooker according to the present invention has a reed switch 22 and a magnet 23, and can detect the temperature of the inner pot set and set the temperature measurement state.

The thermistor temperature measuring unit 14 is supported so as to be movable in the vertical direction, and is held by the spring 21 so as to be constantly pushed upward. Therefore, when the inner pot is set, it is in close contact with the bottom of the inner pot. Ready to go.

The thermistor temperature measuring unit 14 has a structure in which the thermistor element 30 is closely attached to the inside of the upper surface of the metal cap 27 having a hermetic structure, and has a small time constant and a quick response.

Therefore, according to the present invention, since the response of the temperature measurement of the inner pot is fast, it is possible to correctly and stably perform the programmed temperature control using a microcomputer, for example, in the cooker, and to realize the completely sealed structure. Therefore, there is no insulation deterioration due to high humidity or contamination in the cooking device, and stable operation can be performed at all times.

Further, in the present invention, the outer case 12 may be made of metal, and the temperature fuse 18 may be provided in close contact with the inside of the upper surface of the outer case 12.

As described above, since the thermistor temperature sensor of the present invention can be integrated with the temperature fuse, a space for mounting is unnecessary as compared with the case where the temperature fuse is separately attached. In addition, it is possible to reduce the man-hours for assembling the cooker itself.

[0024]

【Example】

 An example of applying the present invention to an electric rice cooker will be described below, but the application of the present invention is not limited to this case, and is applied to general cooking appliances having a separable inner pot. It is possible.

FIG. 1 shows a thermistor temperature sensor for a rice cooker according to an embodiment of the present invention, the internal structure of which is shown in a side sectional view. 2A and 2B show an example of the appearance of a thermistor temperature sensor for a rice cooker according to the present invention. FIG. 2A is a top view, FIG. 2B is a side view, and FIG. 2C is a bottom view. 3A and 3B show a thermistor temperature measuring unit according to an embodiment of the present invention, wherein FIG. 3A is a front view and FIG. 3B is a side view.

In each drawing, 12 is a metal outer case, 13 is a mounting bottom plate, 14 is a thermistor temperature measuring unit, 14 A is a thermistor temperature sensor lead wire, 15 is a thermistor temperature measuring unit 14 support base, 16 Is a neck of the thermistor temperature measuring unit support 15, 17 is a through hole through which the neck 16 of the thermistor temperature measuring unit support provided on the bottom plate 13 penetrates, 18 is a temperature fuse, 18A is a lead wire of the temperature fuse 18, Reference numeral 19 is a through hole through which the temperature fuse lead wire 18A provided on the bottom plate 13 passes, 20 is a fixing pawl of the outer case 12, 21 is a spring, 22 is a reed switch fixed to the neck 16, and 23 is a magnet. 24 is a support for the temperature fuse 18, 25 is a recess for accommodating the temperature fuse 18 provided in the temperature fuse support 24, 26 is a support for the magnet 23, 27 is a metal cap of the thermistor temperature measuring unit 14, 28 is a hermetic terminal, 29 is a lead wire of the thermistor temperature measuring unit 14, 30 is a glass-enclosed thermistor element, 31 is a lead wire of the thermistor element 30, and 32 is an adhesive.

The thermistor temperature sensor for a rice cooker of the present invention has an outer case 12 mounted on a bottom plate 13 as shown in FIG. 1 and FIG. The thermistor temperature measuring unit 14 has a structure capable of penetrating and moving up and down through a hole provided in a part of the upper portion of the case 12. The outer case 12 is fixed to the bottom plate 13 by bending the fixing pawl 20. Further, the lead wire 14A of the thermistor temperature sensor 14 and the lead wire 18A of the temperature fuse 18 are drawn out to the outside. The lead wire 29 of the thermistor temperature sensor and the lead wire of the reed switch 22 are connected in parallel to the two lead wires 14A of the thermistor temperature sensor.

In the thermistor temperature measuring unit 14, as shown in FIG. 3, a hermetic terminal 28 is welded to a metal cap 27, and inside the metal cap 27, a radial type thermistor element 30 sealed with glass is provided. It has been incorporated. The thermistor element 30 is fixed to the back side of the upper surface of the metal cap 27 with an adhesive 32, and its lead wire 31 is connected to an external lead wire 29 via a hermetic terminal 28.

The thermistor temperature measuring unit 14 is attached to a support base 15, and a portion of the metal cap 27 penetrates through a hole provided in a flat portion of the upper surface of the outer case 12, and the support base 15 is attached. The neck portion 16 of the base plate penetrates through the hole 17 provided in the bottom plate 13 and can be freely moved up and down. It is designed to be pushed up to. The lead wire 29 of the thermistor temperature measuring unit 14 is housed in the neck portion 16 of the support base and connected to the lead wire 14A to the outside, and is protected from the vertical movement of the thermistor temperature measuring unit 14. It has a structure that

The reed switch 22 is fixed to the neck 16, moves up and down as the thermistor temperature measuring unit 14 moves, and passes through the side surface of the magnet 23 fixed to the support base 26. Is becoming The reed switch 22 is turned on closest to the magnet 23 when the thermistor temperature measuring unit 14 is at the uppermost position, and is turned off because it is separated from the magnet 23 when the thermistor temperature measuring unit 14 is pushed down. In addition, the reed switch 22 and the magnet 23 may be attached to each other in an opposite positional relationship.

The temperature fuse 18 is housed in a recess 25 in the upper part of a support 24 provided inside the outer case 12, and is attached so as to be in close contact with the inner surface of the outer case 12. The lead wire 18A of the temperature fuse 18 is drawn out to the outside via a through hole 19 provided in the bottom plate 13.

FIG. 4 illustrates the installation state of the thermistor temperature sensor for a rice cooker according to the present invention. (A) shows a state where the inner pot is not set, and (b) shows a state where the inner pot is set. Is shown. In the figure, 35 is a rice cooker, 36 is a heater, 37 is a thermistor temperature sensor, 38 is a thermistor temperature measuring unit, and 39 is an inner pot.

When the inner pot is not set in the rice cooker 35, as shown in FIG. 4A, the thermistor temperature measuring unit 38 of the thermistor temperature sensor 37 is in a state of protruding from the inner pot accommodating portion of the rice cooker 35. Is kept at. It is shown that when the inner pot is set, the thermistor temperature measuring unit 38 is pushed in by the weight of the inner pot 39 as shown in Fig. 4 (b), and the upper surface of the thermistor temperature measuring unit 38 comes into close contact with the bottom surface of the inner pot 39. ing.

Hereinafter, the operation of the thermistor temperature sensor for a rice cooker according to the present invention will be described with reference to the drawings. The reed switch 22 shown in FIG. 1 has normally-open type contacts, and the inner pot is not set. Therefore, when the thermistor temperature measuring unit 14 is at the uppermost position, it is turned on by the magnet 23. , The thermistor elements 30 connected in parallel are short-circuited. In this state, the resistance value of the thermistor temperature sensor is minimum, and the microcomputer of the control circuit (not shown) judges that the temperature is extremely high and does not energize the heater 36 of the rice cooker, and thus the heating state is set. I won't.

When the inner pot is set and the thermistor temperature measuring unit 14 is pushed down, the lead switch 22 separates from the magnet 23 and is turned off. In this state, the upper surface of the thermistor temperature measuring unit 14 is brought into close contact with the bottom surface of the inner pot 39, so that the thermistor element 30 detects the temperature of the inner pot by heat conduction and the resistance changes, so that it is connected to the outside. An electric signal corresponding to the temperature is generated by a bridge circuit (not shown). The microcomputer of the control circuit knows the temperature of the inner pot by this electric signal, and changes the heating state according to a predetermined sequence according to the state at that time, or performs processing such as stopping heating. To do.

The thermistor temperature sensor for a rice cooker of the present invention has a radial type glass-enclosed thermistor element 30 as a temperature detecting element in the thermistor temperature measuring section 14. This device has the characteristics of being small and having an extremely fast response. Further, since it is closely bonded to the inner surface of the metal cap 27 having a small size and a small heat capacity by the adhesive 32, the response is extremely good.

Further, the thermistor temperature measuring section 14 is provided inside the metal cap 27 as shown in FIG. The metal cap 27 is welded to the hermetic terminal 28 along the entire circumference thereof and sealed with dry air to be hermetically sealed. Therefore, the temperature detection accuracy does not deteriorate due to deterioration of insulation between terminals due to high humidity due to water vapor generated during rice cooking, contamination, and the like, and stable operation can always be achieved.

On the other hand, the temperature fuse 18 is designed to be kept at a temperature close to the surface of the inner pot via the metal outer case 12 of the thermistor temperature measuring section 14 in a state where the inner pot is set. Therefore, when the temperature of the inner pot rises abnormally for some reason, it quickly melts at a predetermined temperature to turn off the power of the rice cooker to stop heating and ensure safety.

In the present embodiment, since the temperature fuse 18 is integrated with the thermistor temperature sensor, the temperature of the inner pot can be accurately detected and the fuse can be blown in the event of an abnormality, thus ensuring safety. It can be improved, and since it is not necessary to separately assemble it in another place, the assembling space can be reduced and the assembling man-hours can be reduced.

FIG. 5 shows a thermistor temperature sensor for a rice cooker according to another embodiment of the present invention, the internal structure of which is shown in a side sectional view. The same parts as those in FIG. 1 are designated by the same reference numerals, but the temperature fuse 18 is omitted, and therefore, a support base or the like for supporting the temperature fuse 18 is not provided.

The embodiment shown in FIG. 5 is suitable for use in a cooker such as a rice cooker when a temperature fuse is not required, and is compared with the embodiment shown in FIG. Then, there is an advantage that it can be miniaturized and manufactured at low cost.

FIG. 6 shows an example of response characteristics of the thermistor temperature sensor for a rice cooker of the present invention, where A is an example of the characteristics of the thermistor temperature sensor of the present invention and B is a conventional thermistor temperature sensor. The characteristic example of is shown.

In the case of the conventional thermistor temperature sensor, the time constant is about 30 seconds, which is very long, but according to the thermistor temperature sensor of the present invention, the time constant is about 4.2 seconds. It is clear that the improvement is quite significant.

In each of the above-described embodiments, the case where the thermistor temperature sensor of the present invention is applied to a heater type electric rice cooker has been described, but the application of the present invention is not limited to this case, and for example, electromagnetic It goes without saying that it can also be applied to a heating type electric rice cooker. Further, the thermistor temperature sensor of the present invention is applicable not only to electric rice cookers, but also to non-electric rice cookers such as gas rice cookers. Further, the thermistor temperature sensor of the present invention can be applied not only to rice cookers but also to other types of cooking appliances having separable inner pots.

[0045]

[Effect of the device]

 As described above, according to the present invention, in a thermistor temperature sensor used in a cooker such as a rice cooker, a hermetically sealed glass-enclosed thermistor element is used in the temperature detecting thermistor temperature measuring unit, which is small in size. Since it is attached directly to the inner surface of the metal outer case, the response of the inner pot of the cooker to changes in temperature is extremely fast, and therefore it is possible to improve the accuracy and stability of the temperature control of the cooker. Because of the completely sealed structure, there is no insulation deterioration due to high humidity or contamination in the cooking device, and stable operation can always be performed.

In addition, since the thermistor temperature sensor of the present invention can be integrated with a temperature fuse, a space for mounting is unnecessary as compared with the case where the temperature fuse is separately mounted, and the cooker itself is installed. It is possible to reduce the number of assembly steps.

[Brief description of drawings]

FIG. 1 is a diagram showing a thermistor temperature sensor for a rice cooker according to an embodiment of the present invention.

2A and 2B are views showing an example of the external configuration of a thermistor temperature sensor for a rice cooker according to the present invention, in which FIG. 2A is a top view, FIG. 2B is a side view, and FIG.

3A and 3B are views showing a thermistor temperature measuring unit according to an embodiment of the present invention, in which FIG. 3A is a front view and FIG. 3B is a side view.

4A and 4B are diagrams illustrating the installation state of the thermistor temperature sensor for a rice cooker of the present invention, FIG. 4A shows a state in which the inner pot is not set, and FIG. 4B shows a state in which the inner pot is set. .

FIG. 5 is a view showing a thermistor temperature sensor for a rice cooker according to another embodiment of the present invention.

FIG. 6 is a diagram showing an example of response characteristics of the thermistor temperature sensor for a rice cooker of the present invention.

FIG. 7 is a view showing a conventional thermistor temperature sensor for a rice cooker.

[Explanation of symbols]

 12 Outer case 14 Thermistor temperature measuring unit 18 Temperature fuse 21 Spring 22 Reed switch 23 Magnet 27 Metal cap 30 Thermistor element

Claims (2)

[Scope of utility model registration request] 1. A thermistor temperature sensor for a cooking device, which detects that an inner pot is set on the inner pot and measures the temperature of the inner pot, wherein a thermistor element (3) is provided inside a top surface of a metal cap (27).
0) is closely attached to the thermistor temperature measuring unit (14), and the thermistor temperature measuring unit (14) is supported so as to be vertically movable in a certain range, and the spring (21) measures the thermistor. An outer case (12) for holding the temperature part (14) so as to always push it upward, the thermistor temperature measuring part (14) and the outer case (12).
Reed switch (22) and magnet (23) fixed respectively to and, when the inner pot is set, the reed switch (22) performs an operation of detecting the state, and the thermistor temperature measurement A thermistor temperature sensor for a cooker, wherein the part (14) contacts the bottom of the inner pot to measure the temperature of the inner pot. 2. The thermistor temperature sensor for a cooker according to claim 1, wherein the outer case (12) is made of metal, and the outer case (1)
A thermistor temperature sensor for a cooking device, wherein a temperature fuse (18) is provided in close contact with the inside of the upper surface of 2).