JPH07284443A - Electromagnetic rice cooker - Google Patents

Abstract

PURPOSE:To secure accurate temperature detection performance of a temperature sensor by cutting the passage of cool air from a space below a sensor housing space part to a gap space part between an inner case and an inner pot in which an internal temperature sensor in the sensor housing space part is opened. CONSTITUTION:A housing space part 23A of a center sensor 22 which is opened into an inner case 5 piecing it concentric vertically is formed extending downward. A thin cylindrical sealing member 100A made of rubber which cuts the communication between a space below the center sensor housing space part 23A and a gap space part 23B between the inner case 5 and the inner pot 2 in the setting of the inner pot is fitted to cut and close mutual communication between a communication path 23c on the side of the center sensor housing space part 23A with the inner pot set and the gap space part 23B between the inner case 5 and the inner pot 2. This enables the securing of accurate temperature detection performance for the inner pot of the temperature sensor 24.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the structure of an electromagnetic rice cooker.

[0002]

2. Description of the Related Art In recent electromagnetic rice cookers (so-called IH jars), as shown in FIG. 12, for example, a temperature sensor is generally provided at the bottom of an inner pot and a heat generating portion such as a work coil or a switching transistor for operating the work coil is provided. It is provided with a cooling fan for cooling.

That is, the electromagnetic rice cooker shown in FIG. 12 is used for both rice cooking and heat retention, and has an inner pot inside.
The container main body includes a bottomed cylindrical outer case 3 configured to set the (rice cooker) 2 and a lid unit 4 for covering the upper part of the outer case 3.

The outer case 3 is composed of a bottomed cylindrical cover member 3a made of synthetic resin, and a synthetic resin shoulder member 3b joined to the upper end of the cover member 3a. Includes a coil base 7 for supporting the work coils 6a and 6b from the lower side to the upper side and the inner pot 3
An inner case 5 having a bottomed cylindrical shape for sequentially removably setting is provided.

The inner case 5 has a cylindrical upper inner case formed of a thin metal plate, with its upper end engaged with the shoulder member 3b, a heat-retaining heater 6c at the center of the outer peripheral surface in the vertical direction. 5A and a lower inner case 5B made of a synthetic resin that engages with the lower end of the upper inner case 5A, and the inner pot 2 has a predetermined clearance space 23B therein, as shown in the figure. It is set in the state. A center sensor fitting port is formed in the central portion of the bottom of the lower inner case 5B, and the opening edge of the lower coil base 7 is extended in the vertical direction in a sleeve shape so that the inside of the cylindrical body portion 30 is formed. A sensor storage space portion 23A that communicates with the upper and lower sides is formed. A center sensor 22 that is elastically contacted with the back surface of the bottom 2a of the inner pot 2 is provided in the sensor storage space 23A of the cylindrical body 30.
It is supported by a lid portion 29a of the sensor cover 29 fitted and fixed to the lower opening of the tubular body portion 30.

The center sensor 22 is a temperature detecting sensor for detecting the temperature of the inner pot 2 and the unset state of the inner pot 2.
A temperature sensor that acts as an inner pan detection sensor that detects (empty state), and serves as a temperature detection unit for controlling the inner pan temperature.
A (thermistor) 24, a temperature fuse 26 serving as an abnormal temperature detecting means at the time of abnormal heating of the inner pot, and an inner pot set detection sensor 15 for detecting whether or not the inner pot 2 is set are provided.

The center sensor 22 is vertically movably disposed in the cylindrical sensor storage space 23A formed in the cylindrical body portion 30 of the coil base 7 as described above, and its upper end. Between the sensor holder 22a and the lid portion 29a of the sensor cover 29, the sensor holder 22a is located above the sensor holder 22a (that is, in the inner pot 2). And a coil spring (not shown) that urges the bottom portion 2a in the direction of coming into contact with the back surface of the bottom portion 2a.
Further, the upper end surface of the sensor holder 22a is a substantially circular flat surface, and a sensor cap 28 having a high thermal conductivity that abuts on the bottom surface of the inner pot 2 is provided in a crown.

Further, the inner pan set detection sensor 15
Is a reed switch 17 provided at a position facing each other on both left and right outer peripheries of the sensor holder 22a.
Inserted between the reed switch 17 and the magnet 18 when the sensor holder 22a is moved downward (in other words, when the inner pot is set) in the middle (the front side in the drawing) and the magnet 18 (the side facing the drawing). And a magnetic shield plate 19 that is formed.

The lid portion 29 of the sensor cover 29 is
In a, water is poured into the inner case 5 when the sensor holder 22a is raised and the inner pot is not set.
Water outlet 122 for dropping into 25 to store
122 is formed.

Further, on the lower surface of the lower inner case 5B, annular work coils 6a and 6b supported by the coil base 7 so as to surround the center sensor 22 are efficiently eddy current with respect to the inner pot 2. Are arranged in a state that can generate. The work coils 6a and 6b act as magnetic force generating means in the electromagnetic induction heating device. Further, reference numerals 20, 20 ... Show work coils 6a, 6b.
Is a ferrite core that magnetically shields it so as not to affect the device existing therebelow, and the ferrite cores 20, 20, ... Are, for example, 90 ° in the circumferential direction.
Are arranged with a space of.

On the other hand, the lid unit 4 has an outer cover 37 made of synthetic resin forming an outer peripheral surface thereof and an inner cover (inner frame portion) made of synthetic resin forming an outer peripheral side annular portion of the inner peripheral surface.
38 and a heat dissipation plate 57 that covers the opening in the inner peripheral portion of the inner cover 38, and has a hollow structure. A lid heater 56 is provided on the upper surface of the heat dissipation plate 57. The lid unit 4 is rotatably attached to one side of the shoulder member 3b via a hinge mechanism 40, and its open end side is engaged with a predetermined position of the lid unit 4. A lock mechanism (lock lever) 39 for maintaining the closed state of the lid unit 4 is provided.

Between the outer cover 37 and the inner cover 38 side heat radiating plate 57 in the central portion of the lid unit 4, there is formed a sleeve-shaped steam outlet 79 which communicates with each other in the vertical direction. As shown in the figure, a vapor discharge cylinder 44 having a hat-shaped cross section is fitted and fixed in the discharge port 79. The vapor discharge cylinder 44 has a large-diameter flange portion 90 on the outer periphery of the lower wall, a first cylinder wall portion 90a having relatively high rigidity on the upper side of the flange portion 90, and a thin wall that can be bent to the lower side. Each of the second cylinder wall portions 90b has a low rigidity, and the first cylinder wall portion 90a is formed on the lower edge portion 7 of the sleeve-shaped vapor discharge port 79.
9a from below and fits the second cylindrical wall portion 90b to the upper edge 92a of the opening portion 92 of the inner cover 38 side heat dissipation plate 57.
In the state where the lid unit 4 is fitted and bent, it is sandwiched and fixed between the outer case 37 of the lid unit 4 and the inner cover 38 side heat radiation plate 57.

A pressure adjusting port 93 is formed at the center of the top wall 90c.

Various control circuits having a switching unit and a microcomputer unit for controlling energization of the work coils 6a and 6b, the lid heater 56, the heat retention heater 6c, etc. are provided under the coil base 7. The control board 36 provided is fixed. An operation panel 170 that constitutes an operation unit is provided on the side of the shoulder member 3b opposite to the hinge mechanism 40. The operation panel 170 is provided with various switches necessary for rice cooking, and a display unit for displaying a rice cooking menu selected by each of these switches, a switch level, etc., and making it visible to the user. .

Further, reference numeral 78A is the work coil 6 described above.
A cooling fan for cooling a heat generating portion such as switching transistors (not shown) for activating the a, 6b and the work coils 6a, 6b, and 78B is a fan motor as a drive source thereof. The cooling fan 78A and the fan motor 78B are installed in a space below the control board 36 in the outer case 3. When the fan motor 78B is driven, the cooling fan 78A is rotated, and the cooling air is supplied to the work coils 6a and 6b and the switching transistors on the control board 36 above the cooling fan 78A.
(Ventilation air) is blown for cooling, and the cooling air after cooling is discharged from the ventilation air outlet 31 at the rear part of the housing.

[0016]

However, by driving the fan motor 78B as described above, the sensor housing space 23 is formed.
When the cooling fan 78A on the lower side of A is rotated, as shown in FIG.
In the case of the configuration of 2, the sensor storage space portion 23A for discharging the injected water into the inner case 5 when the inner pot is not stored.
However, the water outlets 122, 1 of the lid 29a of the sensor cover 29
Since it is completely opened to the lower side via 22 as well, the sensor storage space 23A eventually forms a communication path into the inner case 5, and the wind pressure of the cooling fan 78A causes the inner case 5 and When the air pressure in the lower space of the coil base 7 (below the sensor storage space) rises, on the other hand, the space 23B between the inner pan 2 and the inner case 5 communicating with the outer space near the upper inner pan locking portion. Since the air pressure on the side becomes relatively low, as shown by the arrow in the figure, the cooling fan 7
The ventilation flow by 8A passes through the sensor storage space portion 23A forming the communication passage and escapes from the gap space portion 23B between the inner pot 2 and the inner case 5 to the outside of the opening at the upper end of the outer case 3. Become.

As a result, the temperature sensor (thermistor) 24, which is the temperature sensing part of the center sensor 22, is eventually unnecessarily cooled by the cooling air, and the temperature of the inner pot 2 can be accurately detected. It causes the problem of disappearing. As a result, accurate and stable summation determination cannot be performed. Further, the inner pot 2 itself is also cooled over a wide range from the bottom portion 2a to the peripheral wall portion 2b, and there is a problem that heating efficiency is reduced.

The present invention has been made in view of the above circumstances, and at least in the set state of the temperature sensor and the inner pan in which the cooling fan operates, the temperature sensor in the sensor storage space in the space below the sensor storage space. By blocking the passage of cooling air to the space between the inner case and the inner pot via the above, it is possible to ensure accurate temperature detection performance of the temperature sensor and prevent the heating efficiency of the inner pot itself from decreasing. The purpose is to provide an electromagnetic rice cooker designed to be obtained.

[0019]

The present invention comprises the following problem-solving means in order to surely solve the above-mentioned conventional problems and effectively achieve the object.

That is, the electromagnetic rice cooker of the present invention comprises a container body consisting of an outer case and an inner case, a coil stand provided inside the container body, and an inner pot housed in the inner case. A work coil provided on the coil base for heating the inner pan, a temperature sensor for detecting an inner pan temperature provided in a sensor housing space forming a communication path to the inner case, and the sensor housing In an electromagnetic rice cooker comprising a cooling fan provided below the space,
At least a sealing member that closes the communication passage when the inner pan is stored in the inner case to prevent the cooling air of the cooling fan from entering the inner case is provided in the sensor storage space portion forming the communication passage. It is provided and configured.

The seal member is made of, for example, a tubular rubber member, and is arranged so as to surround the outer periphery of the upper opening end of the sensor accommodating space in a vertically bendable state.

Further, the sealing member is made of a ring-shaped elastic member having a lip portion, and is fitted to a lower position of the temperature sensor in the sensor housing space.

[0023]

Therefore, in the construction of the electromagnetic rice cooker according to the present invention, for example, a seal made of a cylindrical rubber member arranged so as to surround the upper opening end outer periphery of the sensor housing space in a state where it can be bent in the vertical direction. With the sealing function of the member, the sealing function of the sealing member which is made of a ring-shaped elastic member having a lip and is fitted to the lower position of the temperature sensor in the sensor housing space, The communication passage part of the sensor storage space that forms the communication passage to the gap space between the inner pan and the inner pan is closed, and the ventilation flow by the cooling fan passes through the sensor storage space and the gap space between the inner case and the inner pan. Will no longer be distributed.

Therefore, invasion of cooling air into the sensing portion of the temperature sensor such as the thermistor in the sensor housing space is prevented, and the sensing portion is not cooled by the ventilation flow and is not erroneously detected.

Further, since the inner pot is not cooled at the same time, the heating efficiency of the inner pot does not decrease.

[0026]

As a result of the above, according to the electromagnetic rice cooker of the present invention, it is possible to ensure the accurate inner pan temperature detection performance of the temperature sensor, and it is possible to ensure accurate and stable sum number determination performance. It is possible to provide an electromagnetic rice cooker with high heating efficiency without heating loss.

[0027]

【Example】

(Embodiment 1) FIGS. 1 to 5 show the configuration of an electromagnetic rice cooker according to Embodiment 1 of the present invention.

First, the rice cooker 1 of the present embodiment is configured to serve both as rice cooker and heat retainer, for example. And FIG.
Also, as shown in FIG. 2, from a bottomed cylindrical outer case 3 formed so that an inner pot (rice cooker) 2 can be set therein, and a lid unit 4 for covering the upper part of the outer case 3. It has a container body.

The outer case 3 has a cylindrical cover member 3a formed of a synthetic resin plate, a synthetic resin shoulder member 3b fusion-bonded to the upper end of the cover member 3a, and the cover member 3a. And a bottom member 3c made of synthetic resin that is fusion-bonded to the lower end of the container, and has a cylindrical shape with a bottom, and a saucer-shaped synthetic resin for setting the inner pot 2 so that it can be taken out. Inner case (protective frame) 5, work coils 6a, 6
The coil base 7 and the coil base 7 are vertically stacked.

First, the lowermost coil base 7 has a saucer-shaped inner case supporting surface 8a, and the work coil 6a,
6b for supporting the work coil, and ferrite core fitting grooves 9, 9 formed in the work coil supporting part 8
And leg portions 10 and 10 provided below the work coil supporting portion 8, and are supported on the bottom plate 11 of the bottom member 3c by the leg portions 10 and 10. On the outer peripheral surface of the side of the work coil supporting portion 8 of the coil base 7, a pair of vertical wall structures are located on one end (outer peripheral end) side of the ferrite core fitting grooves 9, 9 ... Spacer piece 13,
13 is provided, and a ring-shaped magnetic shield plate 14 is fitted and fixed to the outer periphery of the spacer pieces 13 and 13 with a predetermined gap therebetween.

Further, the ferrite core fitting grooves 9, 9
·························································································································································································, and arranging a predetermined distance in the radial direction. Ferrite core locking pieces 12, 12 are provided.
The ferrite core locking pieces 12, 12 are integrally formed with the work coil support portion 8 over the side walls 9a, 9a of the ferrite core fitting grooves 9, 9 ... Then, the ferrite cores 20, 20 ...
By being fitted into the ferrite core fitting grooves 9, 9 ... from the outer peripheral side toward the center in the radial direction, and the lower surface side being locked by the ferrite core locking pieces 12, 12. It is supported as shown. When the fitting and insertion are completed, the ferrite cores 20, 20, ... Are securely fixed by the tips 20a thereof being abutted against the regulating ribs 21 and the rear ends 20b thereof being locked by the locking ribs 25. Then, eventually, the adhesive is dried to be completely bonded to the back surface of the work coil support portion 8.

As described above, according to the mounting and fixing structure of the ferrite core 20, an adhesive such as a silicone resin is attached to the back surface of the work coil supporting portion 8 of the coil base 7 without providing the locking pieces 12, 12. Unlike the case where the fixing is performed by only the adhesive core, the ferrite core fitting grooves 9, 9 ... Can be easily and reliably locked and fixed only by inserting and inserting the tip end 20a side, which is the rounded surface, from the outer peripheral side. be able to.

On the work coil supporting portion 8 of the coil base 7, a work coil pressing rib L ₃ is provided, and a temperature fuse holder 150 standing in an H-shaped cross section is provided. Thermal fuse holder 1
A temperature fuse 26 for detecting an abnormal temperature required for safety standards is supported by 50 in a state of being in contact with the bottom portion 5b of the inner case 5.

Further, as shown in detail in FIG. 5, the center of the bottom of the inner case 5 and the center of the work coil supporting portion 8 of the coil base 7 are penetrated concentrically in the vertical direction and opened into the inner case 5. 23A of the storage space of the center sensor 22
Is formed so as to extend downward, and a center sensor 22 for detecting the inner pot temperature is provided in the center sensor housing space 23A in a state where it can be raised and lowered in the vertical direction and is always biased upward. Has been. Then, the center sensor 2
A communication passage 23c into the inner case 5 is formed between the outer peripheral edge portion 28a of the sensor cap 28, which will be described later, and the coil base 7 and the inner case 5. The center sensor accommodating space portion 23A is a cylinder in which half-divided cylindrical wall portions 30A and 30B extending downward at different 180 ° positions from the central portion of the coil base 7 and the central portion of the bottom portion of the inner case 5 are integrally opposed to each other. The sensor cover 2 is formed in the body portion 30 and extends from the lower opening thereof.
9 of the tubular body portion 29d is fitted, and the coil base 7 side tubular wall portion 30 is fixed by a screw 32 through the outer peripheral edge portion 29e of the lid portion 29a.
It is integrally fastened and fixed to the boss portion of A.

The sensor cover 29, as shown in the figure, has a sensor housing space 23A inside the coil base 7 side tubular body 30.
There is a cylindrical water discharge guide 29b under the lid 29a that closes the lower opening of the above. When water is poured into the upper inner case 5 of the center sensor storage space 23A in the state where the inner pot is not stored, Water that has entered the sensor housing space 23A through the communication passage 23c is introduced through the water discharge ports 122, 122 formed in the lid 29a, without being scattered to the side of the control board 36 provided on the side. Immediately below the water receiver 125
It can be dropped inside and taken out of the container.
Then, at the upper end of the opening of the communication passage on the inner case 5 side of the center sensor storage space 23A, the space between the lower space of the center sensor storage space 23A and the inner case 5 and the inner pan 2 when the inner pan is set. A rubber thin-walled cylindrical seal member (a seal member made of a bendable elastic member) 100A for blocking the communication with the gap space portion 23B is provided. The seal member 100A has a lower edge portion 102.
Is fitted and fixed to the upper ends of the cylindrical walls 30A and 30B (the upper ends of the openings of the cylindrical body portion 30), and the upper edge portion 101 thereof is bent outward in the radial direction to the back surface of the bottom portion 2a of the inner pot 2. As a result, the communication passage 23c on the side of the center sensor storage space 23A and the clearance space 23B between the inner case 5 and the inner pan 2 in the inner pan set state are mutually contacted elastically. The communication is blocked and blocked. Therefore, the air does not flow between the two space portions.

As shown in FIG. 2, the center sensor 22 is provided with a temperature sensor (thermistor) 24 used for both inner pan temperature control and abnormal temperature detection control at the upper end of the sensor holder 22a. A sensor cap (lid) 28 made of a metal material having good thermal conductivity is integrally fitted and fixed on the upper surface of the upper end of the sensor holder 22a. Then, for example, it is supported by a coil spring 27 interposed between the intermediate edge portion 92a of the sensor holder 22a and the lid portion 29a of the sensor cover 29 so as to be able to move up and down and urged upward. The raised position of the center sensor 22 is determined by the cylindrical portion 2 of the sensor cover 29.
It is regulated by locking the upper surface of the center holder 22a with a locking edge provided on the upper end 29c of 9d.

The sensor cap 28 of the center sensor 22 is attached to the upper side of the coil spring on the back surface of the bottom 2a of the inner pot 2 which is set in the inner case 5 with a predetermined gap space 23B. Contact with each other under pressure
In the contact state, the temperature of the inner pot 2 is detected by the temperature sensor (thermistor) 24.

A control board 36 having a control circuit formed mainly of the above-mentioned switching transistor and rice cooker control unit (microcomputer) is provided below the coil base 7.

Further, reference numeral 78A is a work coil 6a,
A cooling fan for cooling a switching transistor (not shown) for activating 6b and the work coils 6a, 6b, and 78B are fan motors as a drive source thereof. The cooling fan 78A and the fan motor 78B
Are installed in the space below the control board 36 in the outer case 3. Then, the fan motor 78
When B is driven, the cooling fan 78A is rotated, and ventilation wind is blown to the work coils 6a and 6b and the switching transistors on the control board 36 above the cooling fan 78A to perform cooling. Ventilation air is discharged from the ventilation air outlet 31 at the rear of the outer case.

In the figure, L ₁ and L ₂ are work coil engaging ribs formed on the back surface of the bottom 5b of the inner case 5, and L ₃ is a work coil pressing rib on the coil base 7 side as described above.

On the other hand, the lid unit 4 has an outer case 37 made of synthetic resin forming the outer peripheral surface thereof and an inner cover (inner frame portion) made of synthetic resin forming the outer peripheral annular portion of the inner peripheral surface.
38 and a heat radiating plate 57 that covers the opening in the inner peripheral portion of the inner cover 38, and the outer case 37 and the heat radiating plate 57 are formed in a hollow structure. The peripheral portions are connected to each other via. The lid unit 4 is rotatably attached to the shoulder portion 3b through a hinge mechanism 40, and the lid unit 4 is engaged with a predetermined position of the lid unit 4 on the open end side thereof. A lock mechanism 39 for maintaining the closed state is provided. The lock mechanism 39 also serves as a lock release lever.

In the above state, glass wool 58 having a high heat insulating property is interposed between the heat radiating plate 57 having the lid heater 56 and the outer cover 37, and the outer cover 37 is provided.
We are trying to insulate the surface side. As a result, the effect of improving safety and heat retention effect is realized.

Further, an opening 43 for mounting a vapor discharge tube is formed at a substantially central portion of the lid unit 4. The packing 5 is attached to the opening 43 for mounting the vapor discharge cylinder.
A vapor discharge cylinder 44, which will be described later, is attached through the zero.

As shown in the figure, the vapor discharge cylinder 44 has a vapor discharge pipe portion 44b integrated with the rear end upper portion of an elliptical main body portion 44a extending in the front-rear direction, and an upper end surface portion of the vapor discharge pipe portion 44b. Grill-shaped steam outlet (pressure adjusting port) 42
are formed on the front end side bottom portion 45a of the main body portion 44a, a tongue return hole 46 is opened downward, and a side wall portion thereof is provided with a tongue introduction hole 47. It is worn in the direction. Furthermore, the steam introducing hole 48 is formed in the ceiling wall of the front end of the main body 44a.
Is worn downward. And the main body 44
The height of the rear end side bottom portion 45b is high, and
Is formed to have a low height, and the bottom portion 45 itself is configured to have an inclination angle θ so as to gradually decrease from the rear end side to the front end side.

On the outer periphery of the base of the vapor discharge pipe portion 44b of the vapor discharge cylinder 44, a mountain-shaped engaging convex portion 51 for engaging and fixing the vapor discharge cylinder 44 to the lid unit 4 is formed laterally. It is provided in a state of protruding.

On the other hand, the packing 50 has a cross section Y on the upper side with respect to the two locking walls 52a and 52b extending in a sleeve shape at the lower part of the opening of the vapor discharge cylinder mounting opening 43.
-Shaped engaging pieces 50a, 50b are press-fitted and the lower side engaging pieces 50c, 50d having a Y-shaped cross section are press-fitted into an opening edge 57a formed in a standing state on the central portion side of the heat dissipation plate 57. They are joined together and fixed, and a concave portion 54 with which the projection 51 of the vapor discharge pipe portion 44b can be engaged is formed in the inner peripheral surface portion of the vertical middle portion thereof.

When the steam discharge pipe portion 44b of the steam discharge cylinder 44 is completely inserted into the packing 50 of the vapor discharge cylinder mounting opening 43 of the lid unit 4 from below, the steam discharge pipe portion 44b is inserted. 44b of the engaging projection 5
1 is elastically press-fitted into the engaging recess 54 of the packing 50, and the entire vapor discharge cylinder 44 is detachably attached to the lid unit 4 in the state shown in the drawing. Further, on both side wall portions of the main body portion 44a of the vapor discharge cylinder 44, finger engaging claw members 55a, 55a for removal are provided so as to project in the left-right direction, and at the time of removal, the claw members 55a, 55a. By putting your finger on the and pulling it downwards, you can easily remove it to wash and remove the "oneba".

In the figure, reference numeral 2c is a locking edge of the inner pot 2,
59 is a packing between the locking edge portion 2c of the inner pot 2 and the inner cover 38 on the lid unit 4 side.

On the other hand, on the opposite side of the shoulder portion 3b of the outer case 3 from the hinge mechanism 40, an operation panel 170 constituting an operation portion is provided. As shown in FIG. 4, the operation panel 170 has various switches 17 necessary for cooking rice.
1, 173, 176, 177, and display units 172, 17 for displaying the rice cooking menu, switch level, etc. selected by the respective switches and making them visible to the user.
4,175 are provided.

As described above, in the construction of the electromagnetic rice cooker of this embodiment, the lower edge portion 102 of the cylindrical rubber seal member 100A is used.
Is fitted to the outer periphery of the upper end of the opening of the center sensor housing space 23A of the inner case 5 forming the communication passage 23c as shown in the drawing, and the upper edge 101 thereof is radially outward when two inner pans are set. Center sensor 22
The communication state of the communication passage 23c that communicates from the storage space 23A to the space 23B between the inner case 5 and the inner pot 2 is cut off.

Therefore, as apparent from FIG. 5, in the structure of the electromagnetic rice cooker of this embodiment, the sensor storage space 2 is provided.
An outer peripheral edge portion 28 of the sensor cap 28 is provided at an upper opening end of 3A.
Even if there is a communication path 23c due to the gap with a, a gap space portion 23B between the inner case 5 and the inner pot 2 due to the sealing function of the sealing member 100A made of the tubular rubber member.
The cooling fan 78A side sensor storage space 23A does not communicate with the above, and the ventilation flow by the cooling fan 78A does not enter the center sensor storage space 23A and flow through the temperature sensor (thermistor) 24.

Therefore, the center sensor 22 is used as in the conventional case.
The thermistor 24 portion, which is the sensing unit of, is cooled by the ventilation flow and is not erroneously detected.

Further, since the inner pot 2 is not cooled at the same time, the heating efficiency of the inner pot 2 does not decrease.

As a result, the temperature sensor of the center sensor 22
It is possible to ensure the accurate inner pan temperature detection performance of the (thermistor) 24, and it is possible to provide an accurate and stable sum number determination and to provide an electromagnetic rice cooker with high heating efficiency without heating loss.

Further, in the seal member 100A having the above structure,
It does not hinder the downward pouring of water into the inner case 5 when the inner pot is not stored.

(Embodiment 2) Next, FIG. 6 shows a structure of a center sensor peripheral portion of an electromagnetic rice cooker according to Embodiment 2 of the present invention.

In the construction of the electromagnetic rice cooker of the present embodiment, the lower edge portion 102 of the cylindrical rubber seal member 100B having the same function as that of the seal member 100A of the first embodiment is provided with the communication passage 23c as shown in the figure. The center sensor housing space 23A of the formed inner case 5 is fitted to the outer circumference of the upper end of the upper end side opening, and its upper edge portion 101 is elastically bent inward in the radial direction when the inner pot 2 is set, and the center sensor 22 From the storage space 23A of the inner space 5 of the inner case 5 and the inner pan 2
The communication passage 23c communicating with B is cut off from the communication state.

Therefore, in the construction of the electromagnetic rice cooker of the present embodiment, the gap between the inner case 5 and the inner pot 2 is provided by the sealing function of the sealing member 100B made of a rubber member, just as in the case of the first embodiment. The cooling fan 78A-side sensor storage space 23A does not communicate with the space 23B, and the ventilation flow by the cooling fan 78A enters the center sensor storage space 23A and the temperature sensor (thermistor) 24
It will not be distributed in the department.

Therefore, the temperature sensor (thermistor) 24, which is the sensing portion of the center sensor 22, is not cooled by the ventilation flow and is not erroneously detected.

Further, since the inner pot 2 is not cooled at the same time, the heating efficiency of the inner pot 2 does not decrease.

As a result, the temperature sensor of the center sensor 22
It is possible to ensure the accurate inner pan temperature detection performance of the (thermistor) 24, and it is possible to provide an accurate and stable sum number determination and to provide an electromagnetic rice cooker with high heating efficiency without heating loss.

Further, even the seal member having the above structure does not hinder the downward pouring of water into the inner case 5 when the inner pot is not housed.

(Embodiment 3) Next, FIGS. 7 and 8 show the structure of a center sensor peripheral portion of an electromagnetic rice cooker according to Embodiment 3 of the present invention.

In the construction of the electromagnetic rice cooker of this embodiment, the cylindrical body portion 30 for forming the center sensor storage space portion 23A is formed in the central portion of the coil base 7, and the seal members 100A, A rubber seal member 100C having the same sealing function as 100B is formed in a ring shape having a lip portion 105, and is fitted and fixed to the sensor holder 37 of the center sensor 22 as shown in the figure. Then, when the inner pan 2 is set, the lip portion 105 is inscribed in the upper inner peripheral wall surface TA of the cylindrical body portion 30 so that the first and second sets of temperature sensors of the center sensor storage space portion 23A. (Thermistor) 24A, 24B side space and the cooling fan 78A side lower space are partitioned. Also, at the same time, at the same time, the space below the cooling fan 78A and the space 2 between the inner case 5 and the inner pan 2 are formed.
The communication path 23c with 3B is disconnected from the communication state (see the state of FIG. 8).

That is, in the electromagnetic rice cooker of the present embodiment, it is located at the center of the bottom of the inner case 5 and the center of the work coil support of the coil base 7, and is concentric in the vertical direction as shown in detail in FIGS. 7 and 8. A storage space 23A for the center sensor 22 penetrating in a circular shape is formed, and is vertically movable in the center sensor storage space 23A and is constantly urged upward by a coil spring 27. Center sensor 22 for detecting inner pot temperature and inner pot
Is provided. In the case of the present embodiment, the center sensor housing space 23A is located at the central portion of the coil base 7 and extends in both up and down directions.
It is formed within 0. Then, the tubular body portion 29d of the sensor cover 29 is fitted from the lower opening thereof, and the sensor cover 29 is formed on the tubular body portion 30 of the coil base 7 with the screw 32 via the outer peripheral edge portion 29e. It is fastened and fixed to the boss portion 30a.

The sensor cover 29 is provided with a center sensor housing space 23 in the coil base 7 side tubular body portion 30 as shown in the figure.
A cylindrical water discharge guide 29b is provided below the lid portion 29a that closes the lower opening of A, and a communication passage 23c is provided when water is poured from above the center sensor storage space portion 23A when the inner pot is not stored. The introduced water is introduced through the water discharge ports 122, 122 formed in the lid portion 29a and is not directly scattered to the side of the control board (not shown) provided on the side of the lid 29a. It can be dropped inside (not shown) and taken out of the container. In addition, the lid portion 29a
The two water outlets 122, 122 have two legs 37b, 37b of a sensor holder 37, which will be described later, loosely fitted therein so as to be vertically movable so as to fulfill the function of raising and lowering the sensor holder 37.

Then, the center sensor storage space portion 23 is provided.
Inside the upper edge 30b of the opening of the tubular portion 30 forming A, a shelf portion 30c having a hook-shaped cross section is formed.
0c, the bottom portion 5b of the inner case 5 at a position close to the upper edge portion 30b.
The inner case 5 is supported so that the rib 113 of FIG. The diameter of the opening 121 of the inner case 5 is formed smaller than the diameter of the upper end side opening of the cylindrical body portion 30, and the opening edge portion covers the center sensor storage space portion 23A.

Further, the inner surface of the peripheral wall portion of the cylindrical body portion 30 is formed in a V shape in cross section, and as a result, as shown in the drawing, the diameter of the upper side first taper surface is gradually reduced from the upper side to the lower side. TA and a lower second taper surface TB whose diameter gradually increases from the upper side to the lower side are formed.

On the other hand, the center sensor 22 has the first and the first inside the upper end portion 37a of the sensor holder (sensor cylinder main body) 37 having the cylindrical structure having the two legs 37b, 37b on the lower side as described above. 2 is a sensor mounting member 110 to which the temperature sensors (thermistors) 24A and 24B and the reed switch 17 are mounted.
And a sensor cap (lid portion) 28 made of a metal material having good heat conductivity is integrally fitted and fixed on the upper surface of the upper end portion of the sensor holder 37. A first edge portion 114 for engaging a coil spring is provided in the middle of the cylindrical portion of the sensor holder 37,
The sensor holder 22a is supported by the coil spring 27 interposed between the first edge portion 114 for engaging the coil spring and the lid portion 29a of the sensor cover 29 so that the sensor holder 22a can be moved up and down and biased upward. ing.

A second edge 115 is provided in the lower portion of the sensor cap 28 of the cylindrical portion of the sensor holder 37, and a second edge 115 is provided between the second edge 115 and the first edge 114. A seal member fitting groove 106 is formed. A ring-shaped seal member 100C having a flat lip portion 105 formed on the outer periphery as shown in the drawing is fitted and fixed in the seal member fitting groove 106.

The seal member 100C is made of an elastic member such as a rubber member (for example, silicon rubber), and the lip portion 105 of the seal member 100C is configured to be elastically deformable in the vertical direction while having an appropriate rigidity. . The outer shape of the lip portion 105 is set to be slightly larger than the inner diameter of the upper end portion of the upper first taper surface TA of the tubular body portion 30.

The seal member 100C corresponds to the inner case 5 described above.
In the state of Fig. 7 in which the inner pot 2 is not set, the inner pot 2 is located above the upper end of the opening of the tubular body portion 30 and does not fit into the tubular body portion 30, and water is poured into the inner case 5 with an arrow. As shown by the line, the opening 121 of the inner case 5 and the sensor cap 28
The water is discharged freely toward the water discharge guide 29b of the sensor cover 29 described above through the communication passage 23c formed between the outer peripheral edge portions 28a.

On the other hand, however, the inner pot 2 is placed in the inner case 5.
When the sensor holder 37 is set and the sensor holder 37 descends against the urging force of the coil spring 27, the lip portion 105 of the sensor holder 37 is moved to the first tapered surface T of the cylindrical body portion 30.
The cooling fan on the lower side of the sensor cover 29 fitted to the A section
The cooling air (see 78A in FIG. 1) is reliably sealed so as not to enter the first and second thermistor 24A, 24B side spaces via the communication passage 23c.

Therefore, in the construction of the electromagnetic rice cooker of the present embodiment, the center sensor storage space 23A via the communication passage 23c is provided by the sealing function of the sealing member 100C made of a rubber member just as in the case of the first embodiment. The cooling fan (78A) side space portion with respect to the upper first and second temperature sensors 24A and 24B portions and the gap space portion 23B between the inner case 5 and the inner pot 2 are no longer in communication, and the cooling fan
Ventilation flow by (78A) 23A of center sensor storage space
The first and second temperature sensors 24A, 2
It will not be distributed around 4B.

Therefore, the first and second temperature sensors 24A and 24B, which are the sensing portions of the center sensor 22, are not cooled by the ventilation flow and are not erroneously detected. Moreover, since the fitting of the lip portion 105 of the seal member 100C and the cylindrical body portion 30 is performed by using the first taper surface TA whose diameter is gradually reduced from the upper side to the lower side, the sealing performance is surely improved. To do.

Further, since the inner pot 2 is not cooled at the same time, the heating efficiency of the inner pot 2 does not decrease.

As a result, the first and second center sensors 22 are
Accurate and stable inner pan temperature control that can ensure accurate inner pan temperature detection performance of the temperature sensors 24A, 24B,
It is possible to judge the sum and detect abnormal temperature.

Further, in the seal member 100C having the above structure,
It does not hurt to discharge the water into the inner case 5 downward in the state where the inner pot is not housed.

The sensor mounting member 110 in the sensor holder 37 is partially extended downward as shown in the drawing, and a reed switch mounting portion 112 having a U-shaped cross section is provided at the lower end of the extended portion 111. Is formed. Then, the reed switch 17 is attached to the reed switch attachment portion 112. On the other hand, on the lid portion 29a of the sensor cover 29 below that, when the sensor holder 37 descends, a magnetic force is applied corresponding to the reed switch 17,
A magnet 18 is provided for turning on the reed switch 17 and detecting that the inner pot 2 is set. Therefore, this enables the empty detection of the inner pot 2.

By the way, in the structure shown in FIGS. 7 and 8, the upper first taper surface T is provided in the cylindrical portion 30 as described above.
Although the lip portion 105 of the seal member 100C is configured to be fitted with high density and smoothly using A, unlike this, for example, the outer diameter of the lip portion 105 is set to the upper end side opening portion of the tubular body portion 30. While being formed considerably larger than the inner diameter of the sensor holder 37 of the seal member 100C.
The mounting position (fitting and fixing position) with respect to is installed above the position of FIGS. 7 and 8, or the position of the shelf portion 30C at the upper end of the opening of the tubular body portion 30 is the position of FIGS. By forming the sensor holder 37 lower than the above, the large-diameter lip portion 105 can be placed on the shelf portion 30C to cover the lower portion when the sensor holder 37 is lowered. Even with this configuration, it is possible to achieve the same sealing action as that described above. Moreover, in that case, since the lip portion 105 is not worn due to long-term use, the durability is improved.

Further, in this embodiment, the first and second temperature sensors 24A, 24A,
24B is provided, the first and second temperature sensors 24
In A and 24B, for example, the first temperature sensor 24A is configured to control the inner pan heating amount of the work coils 6a and 6b, and the second temperature sensor 24B is configured to detect an abnormal temperature.

In the conventional general electromagnetic rice cooker, the inner pot 2
The bottom temperature is converted into an electric signal by a single temperature sensor and detected, and the detection signal is transmitted to the control circuit unit (in the microcomputer unit) for controlling the heating amount to work coils 6a, 6b.
The heat generation temperature of the inner pot 2 was controlled by changing the oscillation duty of. However, in the process of controlling the temperature in the IH rice cooker, the temperature can be controlled in such a manner generally, but on the other hand, the temperature of the inner pot rises abnormally in the process of the timer control, and the microcomputer When an abnormality such as runaway occurs, the temperature control becomes impossible.
For this reason, in the conventional configuration, the temperature fuse is provided in the center sensor 22 side by side with the single temperature sensor, but in such a configuration, the temperature fuse must be replaced every time there is an abnormality.

Therefore, in this embodiment, the second temperature sensor 24B is used for detecting an abnormal temperature, and the inner pot temperature detection signal from the second temperature sensor 24B is used, for example, in the control circuit for controlling the heating amount. Input to a comparator, which is a temperature determination means not based on microcomputer control provided separately from the unit,
When an abnormal temperature of a predetermined temperature or higher occurs, the oscillation operation of the work coil driving inverter circuit is automatically stopped.

With such a structure, the control state (temperature control step or timer control step) or the failure state of the microcomputer control circuit section can be determined by the abnormal temperature detection signal detected by the second temperature sensor 24B with high accuracy. However, it is possible to surely and forcibly stop the oscillation of the inverter circuit. Therefore, it becomes possible to quickly stop the alternating magnetic field from the work coils 6a and 6b, and more reliable safety is secured. Moreover, as a result, abnormal heating can be stopped early before the thermal fuse (see reference numeral 26 in FIG. 2) separately provided for safety standards is blown off depending on how the reference temperature is set, and the thermal fuse can be replaced. There is a merit that it can be almost eliminated.

(Embodiment 4) FIG. 9 shows the structure of the center sensor peripheral portion of the electromagnetic rice cooker according to Embodiment 4 of the present invention.

The temperature detection performance of the temperature sensor (thermistor) 24 of the center sensor 22 is different from that of the ventilation air of the cooling fan 78A as described above. It is also affected by the intrusion of foreign matter, resulting in false detection. This phenomenon occurs because there is a communication passage that communicates with the center sensor housing space 23A around the outer peripheral edge 28a of the sensor cap 28 of the center sensor 22, as in the case of the effect of the ventilation air.

However, as a countermeasure against this phenomenon, as in the first to third embodiments, the seal member 1 made of a cylindrical rubber member is provided around the sensor cap 28 of the center sensor 22.
00A and 100B are provided separately from each other, or the ring-shaped seal member 100C is fitted to the cylindrical portion of the sensor holder 37.

The present embodiment has been made in view of such circumstances, and in addition to the ventilation air sealing action similar to the first, second, and third embodiments, the center sensor storage space portion 23 is further added.
It is characterized in that it is also possible to prevent the entry of foreign matter into A.

That is, in the present embodiment, the lower edge portion 102 of the sealing member 100D made of a cylindrical thin rubber member is formed in a large-diameter flange piece shape, and the upper side of the center sensor storage space portion 23A of the inner case 5 is formed. The upper surface of the opening is joined and fixed to the outer peripheral surface, and the other upper edge 101 is attached to the center sensor
The center sensor housing space 23 is fixed by being joined and fixed to the inside of the outer peripheral edge 28a of the second sensor cap 28.
A is completely sealed with respect to the inner pan 2 set space portion on the inner case 5 side.

Therefore, according to this structure, the cooling fan 7 is eliminated as in the case of Embodiments 1 and 2 since the communication passage is eliminated.
Ventilation wind of 8A creates a space 23 between the inner case 5 and the inner pan 2.
The center sensor 22 does not flow, and the temperature sensor (thermistor) 24 portion of the center sensor 22 is not cooled by the passage of ventilation air.
Invasion of foreign matter such as rice and water into 3A cannot occur, and the reliability of the temperature detection performance of the thermistor 24 is further improved.

Further, since the seal member 100D is made of a highly flexible rubber member and has a thin wall, it does not affect the vertical movement of the center sensor 22 at all.

(Fifth Embodiment) As the structure of the center sensor unit to which the present invention is applied, various structures other than the structures of the respective embodiments described above can be adopted. For example, as shown in FIGS. As shown, in the electromagnetic rice cooker provided with the center sensor 22 with a temperature fuse, the same portion as the first, second, and fourth indicated by the arrow P (opening of the upper end side communication passage 23c of the center sensor storage space 23A) 5) (Example 1), FIG. 6 (Example 2), and FIG. 9 (Example 4) described above, the seal members 100A, 100B, 100 having exactly the same structures as those in FIG.
Even if it is provided, the same operational effect can be obtained.

That is, in the electromagnetic rice cookers shown in FIGS. 10 and 11, an opening is formed in the center of the coil base 7, and the opening is formed in a sleeve shape extending in both up and down directions, and is formed by the extending portion. A center sensor storage space 23A that communicates vertically is formed by the tubular body 30, and a center sensor 22 that elastically contacts the bottom surface 2a of the inner pot 2 is provided in the center sensor storage space 23A. Has been.

The center sensor 22 is a temperature detecting sensor for detecting the temperature of the inner pot 2 and the inner case 5 of the inner pot 2.
A temperature sensor (thermistor) 24, which functions as an inner pot detection sensor that detects whether it is set inside or not set, and a temperature fuse 2 for detecting an abnormal temperature.
6. The inner pot 2 is provided with an inner pot detecting device for detecting whether or not the inner pot 2 is set in the inner case 5, and is configured as follows.

That is, the center sensor 22 is fitted and fixed from below into the cylindrical sensor housing space 23A formed inside the cylindrical body 30 of the coil stand 7 which is continuous with the bottom opening of the inner case 5. And a cylindrical sensor cover 29, and a sensor holder 22a which is disposed in a cylindrical portion 29d of the sensor cover 29 and is vertically movable, and which has the temperature sensor 24 and the temperature fuse 26 built in at its upper end portion. ,
The sensor holder 22a is interposed between an intermediate edge portion 92a provided in the middle of the shaft portion of the sensor holder 22a and the lid portion 29a of the sensor cover 29, and the sensor holder 22a is moved upward (that is,
A coil spring 27 that urges the inner pot 2 in the direction of abutting the bottom surface 2a of the inner pot 2), and a magnetic shield plate loose fitting hole 91 formed in the center of the shaft portion of the sensor holder 22a from the lower side to the upper side. Located between the lower edge portion 92b provided at the lower end of the shaft portion of the sensor holder 22a and the intermediate edge portion 92a, and provided left and right opposite to each other via the magnetic shield plate loose fitting hole 91. Magnet 18 and reed switch 1
7 and the magnetic shield plate loose fitting hole 91 of the sensor holder 22a which is erected on the lid portion 29a of the sensor cover 29.
The magnetic shield plate 19 is loosely fitted from the lower side inside. The lower edge portion 92b and the intermediate edge portion 92a of the sensor holder 22a are connected to the sensor cover 29.
It is fitted in the cylindrical body portion 29d so as to be able to move up and down, and the raised position is restricted by the upper end side locking piece 29c of the cylindrical body portion 29d. Also,
At the upper end of the sensor holder 22a, the sensor cap 2 having a high thermal conductivity is in contact with the back surface of the bottom 2a of the inner pot 2.
8 are provided.

In the inner pot detecting device described above, the reed switch 17 and the reed switch 17 are provided at positions opposite to each other across the magnetic shield loose fitting holes 91 on the left and right outer peripheral sides of the shaft portion of the sensor holder 22a. A magnet 18,
In the middle of them, when the sensor holder 22a moves downward (in other words, when the inner pot is set), the lead is inserted between the reed switch 17 and the magnet 18 through the magnetic shield plate loose fitting hole 91. Switch 17 to O
The magnetic shield plate 19 is made to be FF, and when the reed switch 17 is ON, the inner pan non-set state is detected and when the reed switch 17 is OFF, the set state is detected.

[Brief description of drawings]

FIG. 1 is a central longitudinal cross-sectional view (cross-section AA in FIG. 4) taken in the front-rear direction and showing a configuration of an electromagnetic rice cooker according to a first embodiment of the present invention.

FIG. 2 is a vertical cross-sectional view (cross-section taken along the line BB in FIG. 4) of the electromagnetic rice cooker cut in the left-right direction.

FIG. 3 is a plan view of the electromagnetic rice cooker.

FIG. 4 is a perspective view of the electromagnetic rice cooker.

FIG. 5 is an enlarged cross-sectional view showing the structure around the center sensor unit in the inner rice cooker set state of the electromagnetic rice cooker.

FIG. 6 is an enlarged cross-sectional view showing the structure around the center sensor part in the inner pan set state of the electromagnetic rice cooker according to the second embodiment of the present invention.

FIG. 7 is an enlarged cross-sectional view showing the structure of the peripheral portion of the center sensor of the electromagnetic rice cooker according to the third embodiment of the present invention when the inner pot is not set.

FIG. 8 is an enlarged cross-sectional view showing the structure of the center sensor peripheral part in the inner pan set state of the electromagnetic rice cooker according to the third embodiment.

[Fig. 9] Fig. 9 is an enlarged cross-sectional view showing the structure around the center sensor unit in the inner pan set state of the electromagnetic rice cooker according to the fourth embodiment of the present invention.

[Fig. 10] Fig. 10 is an enlarged cross-sectional view showing the structure of the center sensor peripheral part in the inner pan set state of the electromagnetic rice cooker according to the fifth embodiment of the present invention.

FIG. 11 is an enlarged cross-sectional view taken at a position different from that of FIG. 10 showing the structure of the center sensor peripheral portion in the inner pan set state of the electromagnetic rice cooker according to the fifth embodiment.

FIG. 12 is a cross-sectional view showing a structure of a conventional electromagnetic rice cooker.

[Explanation of symbols]

1 is an electromagnetic rice cooker, 2 is an inner pot, 3 is an outer case, 4 is a lid unit, 5 is an inner case, 6a and 6b are work coils, 7 is a coil stand, 23A is a center sensor storage space, and 23B is an inner case. The space between the inner pot and the inner pot, 23c is a communication passage, 7
8A is a cooling fan, 100A, 100B, 100C, 10
OD is a seal member.

[Procedure amendment]

[Submission date] July 17, 1995

[Procedure Amendment 1]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 6

[Correction method] Change

[Correction content]

[Figure 6]

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 7

[Correction method] Change

[Correction content]

[Figure 7]

[Procedure 3]

[Document name to be corrected] Drawing

[Correction target item name] Figure 8

[Correction method] Change

[Correction content]

[Figure 8]

[Procedure amendment 4]

[Document name to be corrected] Drawing

[Correction target item name] Figure 9

[Correction method] Change

[Correction content]

[Figure 9]

Claims (3)

[Claims] 1. A container main body comprising an outer case and an inner case, a coil base provided inside the container main body, an inner pot housed in the inner case, and a coil base provided on the coil base. A work coil for heating the inner pot, a temperature sensor for detecting the inner pot temperature provided in a sensor housing space forming a communication path into the inner case, and a temperature sensor provided below the sensor housing space In an electromagnetic rice cooker comprising a cooling fan, a seal member for closing the communication passage when at least the inner pan is housed in the inner case to prevent cooling air from the cooling fan from entering the inner case. Is provided in a sensor storage space portion forming the communication passage. 2. The seal member is made of a cylindrical elastic member,
The electromagnetic rice cooker according to claim 1, wherein the electromagnetic rice cooker is arranged so as to surround the outer periphery of the upper opening end of the sensor housing space in a state of being bendable in the vertical direction. 3. The seal member is made of a ring-shaped elastic member having a lip portion, and is fitted to a lower position of the temperature sensor in the sensor storage space portion. Electromagnetic rice cooker.