JPH0584128A - Rice cooker - Google Patents

Abstract

PURPOSE:To improve thermal response properties between temp. fuse and inner case and facilitate mounting of the temp. fuse. CONSTITUTION:A fitting instrument 26 where the 1st piece 27 and the 2nd piece 28 are connected by a hinge 29 is used. The 1st piece 27 holds a temp. fuse 21 in a recessed holder part 33 thereof. The hinge 29 is bent to superpose both pieces 27, 28, and to position a temp. fuse presser part 35 of the 2nd piece 28 on the side of an opening in the vertical direction of the holder part 33. The vertically superposed pieces 27, 28 are secured to a heat insulating spacer 8 on the side of a rice cooker body 1 with a screw in the vertical direction. In this state, the temp. fuse presser part 35 holds the temp. fuse 21 to secure in the holder part 33. The temp. fuse presser part 35 almost horizontally presses a thermally-sensitive part 34 which is integrally connected with the holder part 33 to bring it into contact with the almost vertical peripheral face part of an inner case 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rice cooker equipped with a heat sensitive element such as a thermal fuse.

[0002]

2. Description of the Related Art A rice cooker cooks rice by heating a container, which is housed in an inner case of the bowl body and contains rice and water, by a heater provided in the bowl body. In such a rice cooker, in order to prevent overheating when something abnormal such as welding of the relay contacts for controlling the heater to cut off the electricity occurs, the rice is blown when the temperature exceeds a certain temperature and the heater is cut off. The provision of a thermal fuse to operate is performed. It is well known that the upper portion of the outer periphery of the inner case is preferable as the position of the thermal fuse. This is to ensure a temperature margin during normal use, that is, to prevent accidental fusing of the thermal fuse during normal use, and to provide quick disconnection when an abnormality occurs, minimizing damage to the inner case during an abnormality. It depends on being stopped. However, if the heat transfer from the holder that holds the thermal fuse to the main unit to the thermal fuse and the heat transfer from the outer peripheral surface of the inner case to the holder are poor, the thermal fuse operation may be delayed especially in the event of an abnormality. The damage to the main body of the container will increase. Therefore, regarding the mounting structure of the thermal fuse to the main body, it is an important design point to ensure sufficient thermal responsiveness between the thermal fuse and the inner case while absorbing manufacturing variations. There is.

Conventionally, as a mounting structure of the thermal fuse to the main body of the apparatus, for example, an Ω-shaped mounting tool having a concave holder portion into which the thermal fuse is fitted is attached to the main body by screwing from below, and the mounting tool is attached. There is one that contacts the upper part of the outer peripheral surface of the inner case which is almost vertical. However, in this structure, the thermal responsiveness between the thermal fuse and the inner case is likely to be impaired due to manufacturing variations. On the other hand, it is also conceivable that the fixture is attached by horizontal screwing and the fixture is brought into contact with the outer peripheral surface of the inner case so as to press it. According to this structure, the contact between the attachment and the inner case can be ensured. However, due to the shape of the assembly work, the vertical direction when using the main body is the vertical direction, and the outer case is on the outer peripheral side of the inner case in the horizontal direction. Is troublesome.

[0004]

As described above, conventionally, an Ω-shaped fixture is attached to the main body of the apparatus by screwing from below, and the fixture is brought into contact with the upper portion of the outer peripheral surface of the inner case which is substantially vertical. Therefore, there is a problem that the thermal responsiveness between the thermal fuse and the inner case is likely to be impaired due to manufacturing variations. Further, if the fixture is attached by screwing in the horizontal direction, the contactability is improved, but the assembly workability is deteriorated.

The present invention is intended to solve such a problem, and it is possible to secure a reliable thermal responsiveness between the thermal fuse and the inner case even if there is some variation in manufacturing, and the thermal fuse is also provided. It is an object to provide a rice cooker with good workability in assembling parts.

[0006]

In order to achieve the above-mentioned object, the rice cooker of the present invention has a container having an open upper surface and an inner case in which the container is housed inside an outer case. A main body, a heater provided in the main body of the vessel for heating the container, a heat-sensitive element disposed on an upper portion of a horizontal outer peripheral side of the inner case and operating according to temperature, and the heat-sensitive element is attached to the main body of the vessel. A fixture is provided, which comprises a first piece portion and a second piece portion that are vertically stacked, and a vertical opening in which the thermosensitive element is housed in the first piece portion. A concave holder part and a heat sensitive part integrally connected to the holder part are provided, and the heat sensitive element is pressed against the second piece part from the vertical opening side of the holder part and fixed to the holder part. The heat sensitive part is almost horizontal A heat-sensitive element pressing portion that presses in a direction to contact a substantially vertical outer peripheral surface portion of the inner case is provided, and the overlapping first and second piece portions are screwed in a substantially vertical direction to the device body. It is installed.

[0007]

In the rice cooker of the present invention, when mounting the heat sensitive element, first, the heat sensitive element is housed in the holder portion of the first piece portion of the fixture, and then the first piece portion and the second piece portion are stacked. ,
The heat sensitive element pressing portion of the second piece portion is located on the opening side of the holder portion in the vertical direction. Then, the first piece and the second piece are attached to the main body by screwing in a substantially vertical direction.
In this state, the heat-sensitive element pressing portion presses the heat-sensitive element from the vertical opening side of the holder portion to fix it to this holder portion, and presses the heat-sensitive portion integrally connected to this holder portion almost in the horizontal direction. The outer peripheral surface of the case, which is almost vertical, is contacted. As a result, the contact between the thermal element and the fixture and the contact between the fixture and the inner case are ensured even if there is some variation in manufacturing, and the thermal response between the thermal fuse and the inner case is good. It will be

[0008]

[Embodiment] An embodiment of the rice cooker of the present invention will be described below.
A description will be given with reference to the drawings. Reference numeral 1 denotes a container body having an open upper surface. The container body 1 is composed of an outer case 2 having an open upper surface, an inner case 3 having an open upper surface located inside the outer case 2, and the like. The outer case 2 is made of plastic and includes a lower case member 4 and a frame member 5 fixed on the lower case member 4. An eaves portion 6 is formed on the inner peripheral side of the upper portion of the frame member 5. The inner case 3 is made of aluminum having excellent thermal conductivity,
The upper end has a flange portion 7. Then, the flange portion 7 of the inner case 3 is fixed to the inner peripheral portion of the eaves portion 6 of the frame member 5 with screws 9 via heat insulating spacers 8 at several places, and the inner case 3 and the outer case 2 are separated from each other. It is non-contact. A rotary table 11 is horizontally rotatably supported on the lower surface of the lower case member 4, and a cord reel 12 is horizontally rotatably supported above the rotary table 11. .. This cord reel 12 has a plug 13
The power cord that is connected to the tip is wound up so that it can be unwound. A rice cooking heater 14 is provided in the lower peripheral portion of the inner case 3. On the other hand, a body heater 15 is provided below the outer peripheral surface of the inner case 3. Further, a temperature sensor 16 is provided penetrating the lower surface of the inner case 3. The temperature sensor 16 is vertically movable and is biased upward.
Further, in the front part of the container body 1 between the cases 2 and 3,
A power supply unit 17 is provided, and an operation unit 18 is provided above the power supply unit 17 and exposed on the front surface of the frame member 5.

A thermal fuse 21, which is a heat sensitive element, is disposed on the upper portion of the inner case 3 on the outer peripheral side in the horizontal direction. The thermal fuse 21 has a tubular shape, and the outer surface thereof is covered with an insulating tube 22 such as a silicone tube for insulation protection. At the same time, a lead wire 23 is connected to the thermal fuse 21, and the lead wire 23 is electrically connected to the power supply unit 17.
Attachment for attaching the thermal fuse 21 to the main body 1
In particular, as shown in FIG. 3, the reference numeral 26 is made of aluminum having excellent thermal conductivity, and the first piece portion 27 and the second piece portion 28 are integrally connected by a hinge portion 29. First piece 27 and second piece
Insertion holes 30 and 31 are formed in 28 and 28, respectively. Further, claw portions 32 are formed on both side edges of the first piece portion 27. The anti-hinge portion 29 side of the first piece portion 27 is bent in a substantially U shape to form a concave holder portion 33, and the heat sensitive portion integrally connected to the holder portion 33.
34 and are formed. On the other hand, the anti-hinge portion of the second piece portion 28
The 29 side is bent in a substantially U-shape and serves as a thermal fuse pressing portion 35 as a thermal element pressing portion. And
As shown in FIG. 1 and FIG. 2, the thermal fuse 21 is accommodated in the holder portion 33, and the hinge portion 29 is bent so that the first
The piece portion 27 and the second piece portion 28 are overlapped with each other, and the insertion holes 30 and 31 of the first piece portion 27 and the second piece portion 28 which are vertically overlapped with each other.
The temperature fuse 21 is attached to the main body 1 via the attachment 26 by the fixing screw 36, which is inserted from below, being screwed into the screw boss 37 formed in the heat insulating spacer 8. In this state, the thermal fuse 21 is fixed to the holder portion 33 by being pressed by the thermal fuse retaining portion 35 from the downward opening side of the holder portion 33. At the same time, the heat sensitive portion 34 pressed in the substantially horizontal direction by the temperature fuse pressing portion 35 is in contact with the heat conducting portion 38 which is the upper portion of the outer peripheral surface of the inner case 3 which is substantially vertical.

Reference numeral 41 denotes an aluminum container having an open top surface, and the container 41 is removably housed in the inner case 3. And, at the upper end of the container 41,
A flange portion 42 that is mounted on the flange portion 7 of the inner case 3 is formed, and an annular rising portion 43 that further rises from the outer peripheral portion of the flange portion 42 is formed. 46
Is an outer lid that closes the upper opening of the container body 1 so as to be openable and closable. The outer lid 46 is a plastic first outer lid member 47.
And a plastic second outer lid member 48 attached while forming a space below the first outer lid member 47, and forming a space below the second outer lid member 48. A third outer lid member 49 made of metal, such as aluminum, is attached while being supported by the device body 1 by a hinge 50 so as to be vertically rotatable. Here, the configuration of the hinge 50 will be described in more detail with reference to FIGS. 10 and 11. A recess 51 is formed on the rear surface of the frame member 5 of the container body 1, and a plurality of support ribs 52, 53 are formed in the recess 51. A shaft 54 is pivotally supported by the supporting ribs 52 and 53, and the shaft 54 is pressed by a pressing member 56 fixed in the recess 51 by a screw 55. At the same time, the shaft 54 penetrates a pair of arm portions 57 formed on the first outer lid member 47, and thus the outer lid 46 is pivotally attached to the container body 1. A brake spring 58 is provided at the rear end portion of the second outer lid member 48 for absorbing a shock when the outer lid 46 is opened.
It is fixed by 59. Further, the shaft 54 is wound with a pair of hinge springs 60 such as a torsion coil spring for opening the outer lid 46. One end of each of the hinge springs 60 is a supporting rib 52 of the frame member 5.
The spring receiving portion 61 formed on the second outer lid member 48 is hooked at the other end thereof. As a result, the outer lid 46 is biased in the opening direction. The recess 51 of the frame member 5 is covered with a hinge cover 62. On the other hand, a clamp 64 urged by a spring 63 is pivotally attached to the upper front end of the frame member 5. The clamp 64 includes a second outer lid member 48.
The claw 65 formed on the front end of the
It keeps 46 closed.

Further, on the lower side of the third outer lid member 49,
An inner lid 66 made of aluminum is held via an inner lid holder 67. The inner lid 66 is formed by the flange portion 42 of the container 41.
The container is placed on the upper surface of the container 41 and the upper surface opening of the container 41 is closed so as to be openable and closable. A plurality of through holes 71 are formed in the inner lid 66. A flow hole 72 communicating with the flow hole 71 of the inner lid 66 is formed in the rear portion of the third outer lid member 49 on the outer peripheral side with respect to the center. Further, the second outer lid member 48 is formed with a bulging portion 73 bulging upward at a position above the flow hole 72 of the third outer lid member 49, and the bulging portion 73 is formed.
A vapor port 74 communicating with the through hole 72 of the third outer lid member 49 and exposed on the upper outer surface of the first outer lid member 47 is formed on the upper surface of the first outer lid member 49. Also, the third outer lid member
Between the outer peripheral portion of 49 and the second outer lid member 48, a rubber annular lid packing 75 as shown in FIG. 7 is sandwiched. As shown in FIGS. 8 and 9, the lid packing 75 includes a fixing portion 76 and an annular rising portion 43 of the container 41.
And a lip portion 77 that is pressed against. The fixed portion 76
Is fixed by being press-fitted into the groove 48a formed in the second outer lid member 48 together with the rising portion 78 formed in the outer peripheral edge portion of the third outer lid member 49. Further, the third
A rubber disk-shaped steam port packing 79 is interposed between the peripheral portion of the flow hole 72 of the outer lid member 49 and the lower peripheral portion of the bulging portion 73 of the second outer lid member 48. There is. The steam port packing 79 has a cylindrical shape, is press-fitted into the lower portion of the bulging portion 73, and has a step portion 80 formed at the lower end of the bulging portion 73 and a third outer portion. The lower portion has a fixed portion 82 which is fixed by being sandwiched by a rising portion 81 formed on the peripheral portion of the circulation hole 72 of the lid member 49. A cross-shaped flow hole 83 is formed in the upper surface of the steam port packing 79. Further, although the third outer lid member 49 is fixed to the second outer lid member 48 by a total of seven screws 84 and 85 on the outer peripheral portion thereof, it is located farther from the steam port packing 79. The tightening allowance d1 of the five screws 84 is 0.2 mm, whereas the tightening allowance d2 of the two screws 85 located near both sides of the steam port packing 79 is 0.8 mm, which is larger. With such a configuration, when the screws 84 and 85 are tightened, the third outer lid member 49 is mainly deformed by the tightening margins d1 and d2, and both packings.
75 and 79 are clamped and fixed between the second outer lid member 48 and the third outer lid member 49. The number of screws 84 and 85 for fixing the second outer lid member 48 and the third outer lid member 49 is not limited to seven in total. Tightening margin of the screw 85 located near the steam port packing 79
It is preferable to make d2 larger than the tightening margin d1 of the other screw 84.

Further, a lid heater 91 is provided on the back surface or upper surface of the third outer lid member 49. The lid heater 91 has a resistance wire inside and has a cord shape in which an outer cover is covered with a silicone rubber or a glass braid. Then, as also shown in FIGS. 12 and 13, the third outer lid member 49, which is a heat radiating plate for radiating the heat of the lid heater 91.
On the double-sided adhesive tape 92 attached to the upper surface of the
91 is placed, and an aluminum sheet 93 covers the sheet 91, and the lid heater 91 is fixed.
The lid heater 91 is connected to a lead wire 94 for supplying power to the lid heater 91 via a connector 95. The lead wire 94 is a silicone rubber insulated electric wire whose outer coat is covered with a glass braid or which is further coated with silicone varnish.
The charging metal portion of the connecting portion between the lid heater 91 and the lead wire 94 is an insulating tube 96 made of silicone rubber or the like.
It is covered and protected by insulation. In addition to it,
Especially as a waterproof treatment to prevent the invasion of steam that may enter the outer lid 46 during rice cooking,
A heat-resistant RTV silicone rubber 97 is injected between this and the lead wire 94. And the lead wire 94
Is connected to the first outer lid member 57 and the second outer lid member 48 via the lead wire through hole 98 formed at the inner peripheral side of the lid packing 75 and the outer side of the steam port packing 79 in the second outer lid member 48. It is led out to the space between the outer lid member 58. Further, the lead wire 94 is introduced to the container body 1 side through the hinge 50 portion, but in the hinge 50, it is wired at a position where it contacts one hinge spring 60 from above. Then, at the portion coming into contact with the hinge spring 60 and the portion protruding from the body 1 side, on the outer peripheral side of the lead wire 94,
A protective member having abrasion resistance, for example, a fluororesin (Teflon) tape 99 is wound. Further, the lead wire 94 is connected to the lead wire 100 from the power supply unit 17 in the main body 1 of the relay connector 101 in the recess 51 of the frame member 5.
Connected through. Incidentally, the first outer lid member 47
A heat insulating material 106 is provided in a space formed between the second outer lid member 48 and the second outer lid member 48.

Next, the operation of the above configuration will be described. First, a method of mounting the thermal fuse 21 will be described. Initially, as shown in FIG. 3, the attachment 26 has a first piece portion 27 and a second piece portion 28 which are straight. Then, as shown in FIG. 2, first, after accommodating the thermal fuse 21 covered with the insulating tube 22 in the holder portion 33 of the first piece portion 27 of the fixture 26, the hinge portion 29 is bent to form the first piece portion 27. And the second piece
Then, the temperature fuse pressing portion 35 of the second piece portion 28 is positioned on the vertical opening side of the holder portion 33.
As a result, the thermal fuse 21 in the holder 33 is temporarily fixed. Since the fixture 26 made of an aluminum plate is weak in strength, it is necessary to redo the assembly work, and when the hinge part 29 is bent many times, this hinge part
Although 29 may be broken, even in such a case, the claw portions 32 on both side edges of the first piece portion 27 should be bent and the second piece portion should be bent.
By hooking on both side edge portions of 28, the first piece portion 27 and the second piece portion 28 can be held in a state where they are normally overlapped. Next, the fixture 26 together with the thermal fuse 21 is attached to the inside of the container body 1. This is done before the lower case member 4 is assembled to the inner case 3 and the frame member 5 fixed to each other. Upside down. Then, as shown in FIG. 1, a fixing screw 36 is inserted from above into the through holes 30 and 31 of the first and second pieces 27 and 28 which are vertically overlapped with each other, and the screw 36 is screwed into the insulating spacer 8. Screw it onto the boss 37 (). As a result, the head of the screw 36 is pressed down and the two pieces 27 and 28 of the fixture 26 are fixed to the main body 1 in a completely closed state. In this state, by the tightening force of the screw 36, the temperature fuse pressing portion 35 of the second piece portion 28 elastically presses the temperature fuse 21 from the opening side above the holder portion 33 (in use, below). Securely fix it in the holder part 33. Along with this, the temperature fuse retainer 35 is
The heat-sensitive portion 34 integrally connected to the holder portion 33 is pressed toward the inner case 3 in a substantially horizontal direction (), and is brought into contact with the heat-conducting portion 38, which is a substantially vertical outer peripheral surface upper portion of the inner case 3, in an elastic state. Let At the same time, the heat sensitive portion 34 is kept in a state of positively contacting the inner case 3 because the end surface portion of the thermal fuse pressing portion 35 serves as a stopper.

According to the mounting structure of the thermal fuse 21 as described above, the following effects can be obtained. First, in the assembly process, the operation of stopping the screw in the horizontal direction deteriorates the workability, but in this embodiment, the fixing screw 36 for the thermal fuse 21 can be stopped in the vertical direction, so that the screw can be easily fixed. Good workability. Further, by such a simple screwing operation, the thermal fuse 21 can be securely fixed to the fixture 26, and the heat sensitive portion 34 of the fixture 26 can be surely brought into contact with the inner case 3. Therefore, even if there is some variation in the dimensions of each part in manufacturing, the reliable thermal responsiveness between the thermal fuse 21 and the inner case 3 can be ensured. More specifically, the fixture 26 is tightened by tightening the fixing screw 36.
The temperature fuse 21 is fixed in a state in which the temperature fuse 21 is surely in contact with the holder 33 in order to obtain a good heat conduction effect, and the same temperature fuse retaining part 35 has the heat sensitive part 34 having elasticity in the inner case. Since the outer peripheral surface of 3 is brought into contact with the outer peripheral surface so as to generate elastic force and not to separate from each other, even if there is a dimensional error of a component, the thermal heat of the thermal fuse 21 and the inner case 3 is surely absorbed while sufficiently absorbing this. Responsiveness can be secured. Moreover, the structure for attaching the thermal fuse 21 is simple.

Next, the operation during use will be described.
At the time of use, the container 41 containing water and rice is housed in the inner case 3 and the outer lid 46 is closed. When cooking rice, mainly cook rice heater
Although 14 heats the container 41, the body heater 15 also heats the container 41, and further, a lid heater mainly for preventing condensation on the inner lid 66.
91 heats the inner lid 66. In addition, when keeping the temperature after cooking rice, the body heater 15 and the lid heater 91 heat the container 41 appropriately.
Keep the rice inside at a constant temperature. Note that the heaters 14, 15, 91 are controlled based on the temperature of the container 41 detected by the temperature sensor 16 and the like during rice cooking and heat retention. Further, the steam generated in the container 41 is circulated in the inner hole 66 of the inner lid 66, the inner hole 72 of the third outer lid member 49, the steam port packing 79, and the second hole.
It passes through the bulging portion 73 of the outer lid member 48 and is discharged from the steam port 74. At this time, the annular rising part around the upper part of the container 41
Since the lid packing 75 is in contact with 43, the outer lid 46
Leakage of steam to the outside and inside is prevented. With this,
The steam port packing 79 prevents steam from leaking into the outer lid 46 at this portion. Thus, the steam is discharged to the outside of the rice cooker only through the above-mentioned regular route. In addition, since the rotary table 11 is provided, the main body 1 can be easily rotated horizontally, whereby the position of the steam port 74 can be changed so that the steam discharged therefrom does not hit the wall of the room. .. By the way, when some kind of abnormality occurs during rice cooking and the temperature of the temperature fuse 21 exceeds a predetermined value, the temperature fuse 21 is melted and the heaters 14, 15, 91 are forcibly cut off. As a result, overheating is prevented and the container body 1
The damage of is prevented. At this time, as described above, the thermal fuse 21 and the inner case 3 are ensured to have reliable thermal responsiveness, so that the thermal fuse 21 is properly melted and overheat is appropriately prevented.

By the way, the steam port 74 is located rearward of the front surface of the product in order to prevent it from being touched during use, and in the third outer lid member 49, it is displaced outward from the center thereof. There is a flow hole 72 through which steam passes near the outer periphery. Third
The outer lid member 49 is made of metal such as aluminum for the reason of improving heat conduction of the lid heater 91, but the strength of the portion around the circulation hole 72 is Since it is open, it tends to be weaker than other parts, and in some cases, the levelness of the part around the circulation hole 72 may be deteriorated from the beginning. Therefore, the seven screws that secure the third outer lid member 49 to the second outer lid member 48
Assuming that the tightening margins of 84 and 85 are all the same, the lid packing when the third outer lid member 49 is fixed to the second outer lid member 48.
The tightening force on 75 and the steam port packing 79 becomes weak in the portion of the through hole 72. As a result, the third outer lid member 49 and the second outer lid member 48 come from the gap generated in the steam port packing 79 portion during rice cooking due to variations in the dimensions of the parts.
Between the first outer lid member 47 and the lead wire through hole 98 of the second outer lid member 48, the steam leaks into the first outer lid member 47.
The upper outer surface of the first outer lid member 47 becomes hot, the heat insulating material 106 is wet with water to reduce its effect, water is accumulated in the outer lid 36, and the hinge 50 portion is used. Problems such as water dripping inside the container body 1 occur. Such a problem becomes noticeable particularly when the levelness of the flow hole 72 portion of the third outer lid member 49 is deteriorated as described above. However, in the above-described embodiment, the tightening margin d2 of the two screws 85 located near both sides of the steam port packing 79.
Is larger than the tightening margin d1 of the other screw 84, the tightening of the lid packing 75 and the steam port packing 79 with the screw 85 is stronger than the tightening of the lid packing 75 with the screw 84. That is, the tightening force generated between the second outer lid member 48 and the third outer lid member 49 is the lid packing 75.
In addition to the above, it is necessary to have a larger portion around the circulation hole 72 that sandwiches the steam port packing 79 than the other portion that sandwiches only the lid packing 75.
A larger tightening force can be generated here by increasing the tightening margin d2 of the screw 85 near both sides of 75. Then, even when the screws 85 near both sides of the lid packing 75 are tightened, even if the third outer lid member 49 is deformed and the tightening force tends to be weakened due to the above-mentioned strength reason, Since the tightening allowance d2 of the screw 85 is larger than the tightening allowance d1 of the other screw 84, the lid packing 75 and the steam port packing 79 can be tightened beyond the deformation of this tightening allowance d1. Therefore, it is possible to reliably prevent the steam from leaking into the outer lid 46, the upper outer surface of the outer lid 46 becomes hot, the heat insulating material 106 gets wet with water and its effect is reduced, and It is possible to surely prevent the danger that water is accumulated or that water is dripped into the main body 1 through the hinge 50.

A lid heater 91 provided inside the outer lid 46
Lead wire 94 that connects the power supply unit 17 in the main body 1 to the
Must pass through the hinge 50 portion for the outer lid 46 as well. However, if the hinge 50 is downsized due to downsizing of the product or design, etc.
How to secure 94 wiring space becomes a problem. Hinge 50
Even if the size is reduced, the wiring can be performed by bringing the lead wire 94 into contact with the shaft 54 for supporting the outer lid 46 and the hinge spring 60 for opening the outer lid 46. But the shaft
Since the 54 and the hinge spring 60 are made of metal and are accompanied by sliding, when the lead wire 94 is brought into contact, the lead wire 94 is easily worn. Therefore, the jacket of the lead wire 94 must be resistant to wear. As such a lead wire 94, a Teflon jacketed electric wire is effective. That is, fluororesin (Teflon) is
Since the surface has good slipperiness and wear resistance, even if the outer lid 46 is repeatedly opened and closed while in contact with the metal hinge spring 60, the insulating coating of the lead wire 94 may be damaged,
There is no risk of rubbing slag due to abrasion. However, the Teflon jacket electric wire whose jacket itself is made of fluororesin has the following problems. First of all, since fluororesin, which has abrasion resistance, generally has poor adhesion,
If the lead wire 94 is a Teflon jacket wire, a lid heater
Silicone rubber 97 at the connection between 91 and lead wire 94
If the adhesiveness between the lead wire 94 and the silicone rubber 97 is deteriorated and a force is applied to the connecting portion, a gap may be formed between the lead wire 94 and the silicone rubber 97, and the waterproofness may be deteriorated. Further, since the unnecessary portions are all made of the fluororesin, the cost becomes high.
On the other hand, in the above-described embodiment, the lead wire 94 is made of a glass braid or a glass braid impregnated with silicone. That is, since the fluorine resin tape 99 is wound around the lead wire 94 only in the portion where abrasion resistance is required, the cost can be reduced. Along with this, in the insulating tube 96 that covers the connecting portion between the lid heater 91 and the lead wire 94, the adhesion state between the lead wire 94 and the waterproof silicone rubber 97 is improved, so that when the lead wire 94 is routed during assembly, Even when an external force is applied to the lead wire 94 when opening / closing the outer lid 46 during use, a gap is left between the lead wire 94 and the waterproof silicone rubber 97 as in the case of a Teflon jacketed wire. And the waterproofness is not deteriorated. Therefore, even when steam enters the outer lid 46, the insulation performance does not deteriorate. In addition, the outer thickness of the lead wire 94 is 0.2 m.
It is about m, and in the unlikely event that the outer cover is damaged, the core wire is exposed, which is dangerous, but in the above-described embodiment, since the outer cover of the lead wire 94 is inside the fluororesin tape 99, insulation You can secure the sex. The fluororesin tape 99 prevents the lead wire 94 from being damaged or worn by the opening and closing of the outer lid 46, even though the lead wire 94 is made of a silicone rubber or glass braid having poor wear resistance. As a matter of course, it is possible to prevent the danger such as electrical short circuit or disconnection of the core wire portion due to the damage of the insulating coating, and to ensure the safety. Then, if the fluororesin tape 99 having a material thickness of about 0.2 mm or less is wound around a single winding, the lead wire 94 does not lose its flexibility, that is, the opening / closing operation of the outer lid 46 is not hindered. The line 94 can be sufficiently protected. According to the result of the experiment, in the lead wire 94 which is not wound with the fluororesin tape 99 and has poor wear resistance, the disconnection rate is 50% when the outer lid 46 is opened and closed 3000 times. The lead wire 94 wound with 99 had no break after opening and closing 30000 times. The material of the outer cover of the lead wire 94 is not limited to the silicone type or the glass braiding type, but may be any material having good adhesiveness.

The present invention is not limited to the above embodiment, but various modifications can be made. For example,
In the above embodiment, an example in which the configuration of the present invention is applied to the mounting of the thermal fuse 21 has been described, but the configuration of the present invention is also applicable to mounting of a heat sensitive element such as a thermistor used as a temperature sensor other than the thermal fuse 21. Can be applied.

[0019]

According to the present invention, in order to mount a heat-sensitive element positioned on the outer peripheral side in the horizontal direction of the inner case, a mounting member composed of a first piece portion and a second piece portion that are vertically stacked is provided. Using, the first piece part is provided with a concave holder part in which the heat sensitive element is housed, and the heat sensitive part integrally connected to this holder part, and the second piece part is provided with the heat sensitive element in the vertical direction of the holder part. A heat-sensitive element pressing portion is provided which is pressed from the opening side and fixed to the holder portion, and the heat-sensitive portion is pressed in a substantially horizontal direction so as to come into contact with a substantially vertical outer peripheral surface portion of the inner case. Since the part is attached to the main body by screwing in a substantially vertical direction, even if there are some variations in manufacturing dimensions, the heat-sensitive element can be reliably brought into contact with the fixture, and this fixture can also be securely brought into contact with the inner case. Made and therefore The thermal response of the thermal fuse and the inner case can be ensured, the structure for mounting the thermal fuse is nevertheless simple, and the screwing can be done in the vertical direction. Good sex.

[Brief description of drawings]

FIG. 1 is a sectional view of a temperature fuse portion showing an embodiment of a rice cooker of the present invention.

FIG. 2 is a cross-sectional view showing a method of mounting the thermal fuse of the above.

FIG. 3 is a perspective view of the same attachment tool.

FIG. 4 is an overall rear view of the same with a part thereof in section.

FIG. 5 is a bottom view of the whole of the same, with a part thereof shown in section.

FIG. 6 is a sectional view of the same as above.

FIG. 7 is a bottom view of the third outer lid member including the same packing.

8 is a cross-sectional view taken along line AA of FIG. 7 above.

9 is a sectional view taken along line BB of FIG. 7 above.

FIG. 10 is a sectional view of a hinge portion of the above.

FIG. 11 is a rear view of the hinge portion of the above.

FIG. 12 is a cross-sectional view of a connecting portion between the upper lid heater and the lead wire.

13 is a sectional view taken along line CC of FIG.

[Explanation of symbols]

 1 Main unit 2 Outer case 3 Inner case 14 Rice cooker (heater) 21 Temperature fuse (heat sensitive element) 26 Fixture 27 First piece part 28 Second piece part 33 Holder part 34 Heat sensitive part 35 Temperature fuse retainer part (heat sensitive element retainer) Part) 41 containers

Claims (1)

[Claims] 1. A container having an upper surface opened, a container main body having an inner case for accommodating the container inside an outer case, a heater provided in the container main body for heating the container, A heat-sensitive element that is arranged on the upper side of the outer peripheral side in the horizontal direction of the inner case and operates according to the temperature, and a fixture that attaches this heat-sensitive element to the main body of the vessel. And a second piece portion, and the first piece portion is provided with a vertically-opened concave holder portion in which the heat-sensitive element is housed, and a heat-sensitive portion integrally connected to the holder portion. , The second element is fixed to the holder by pressing the heat-sensitive element from the opening side of the holder in the vertical direction and pressing the heat-sensitive part in a substantially horizontal direction so that the outer periphery of the inner case is substantially vertical. A feeling of touching the surface A rice cooker comprising a heating element pressing portion, wherein the overlapping first and second pieces are attached to the main body by screwing in a substantially vertical direction.