JP6733167B2 - an electronic pot - Google Patents

Description

The present invention relates to a technique of an electric pot, and more particularly to a technique of suppressing heat radiation in the electric pot.

Conventionally, an electric pot is known in which a heat insulating member is arranged in a gap between an inner container and an outer case in order to suppress heat radiation (see, for example, Patent Documents 1 and 2).

JP, 2006-102296, A JP, 2007-61125, A

In the conventional electric pot, there is a portion where the amount of heat radiation is large, such as a portion where the water supply path is provided, and there has been a demand for an arrangement form of a heat insulating member that suppresses heat radiation more effectively.

The present invention has been made in view of the above situation, and provides an electric pot capable of effectively suppressing heat radiation in a portion where the amount of heat radiation is large.

In Claim 1, a cylindrical inner container with a bottom, an outer case that accommodates the inner container, a lid that covers the upper part of the outer case so as to be openable and closable, and a discharge port formed in the upper part of the outer case. And a heat insulating member that covers a side surface of the inner container and is inserted in a gap between the inner container and the outer case, and is disposed between the inner container and the outer case to communicate the inner container and the discharge port. An electric pot comprising a water supply path, wherein the heat insulating member is formed by stacking both ends of a substantially rectangular sheet-shaped heat insulating material into a tubular shape, and stacking the heat insulating material in the heat insulating member. The mating portion is disposed adjacent to the water supply path and is pressed by the water supply path toward the inner container side.

As a result, it is possible to effectively suppress heat dissipation in the water supply path portion where the amount of heat dissipation increases. Further, the water supply path can also be used as a pressing member for the heat insulating material.

In Claim 2, The said outer case is provided with the protrusion part which protrudes outside from the circumference|surroundings of the said inner container, The said water supply path is arrange|positioned in the space formed between the said protrusion part and the said inner container. It is something.

This makes it possible to effectively suppress heat dissipation even when the water supply path is arranged in the protruding portion where the amount of heat dissipation increases.

In the third aspect, the operating portion is formed on the front side of the lid body, and the projecting portions are formed adjacent to the left and right sides of the operating portion in a plan view.

Thereby, heat radiation from the protruding portion adjacent to the operation portion can be effectively suppressed.

In Claim 4, an inner container having a bottomed cylindrical shape, an outer case for accommodating the inner container, a lid for opening and closing the upper part of the outer case, and a cover for covering the side surface of the inner container. And a heat insulating member interposed in a gap between the outer case and the outer case, the outer case having a protrusion protruding outward from the periphery of the inner container, and the heat insulating member having a substantially rectangular sheet shape. The heat insulating material is formed into a tubular shape, and the thickness of the portion facing the protruding portion is increased by winding the heat insulating material as compared with other portions.

Thereby, the heat radiation can be effectively suppressed by the protruding portion that increases the heat radiation amount. Further, the heat insulating member can be easily formed.

In claim 5, wherein the front side of the lid operating part is formed, the protrusion is intended to be formed adjacent to the left and right sides of the operating portion in a plan view.

Thereby, heat radiation from the protruding portion adjacent to the operation portion can be effectively suppressed.

INDUSTRIAL APPLICABILITY The electric pot according to the present invention has an effect that heat dissipation can be effectively suppressed in a portion where the amount of heat dissipation increases.

The perspective view showing the whole electric pot composition concerning a first embodiment. The front view of the electric pot which concerns on 1st embodiment. Sectional drawing on the AA line in FIG. Sectional drawing of the BB line in FIG. The perspective view which showed the heat insulation member. The horizontal sectional view of the electric pot which concerns on 2nd embodiment. The horizontal cross section of the electric pot which concerns on 3rd embodiment.

Hereinafter, the overall configuration of the electric pot 100, which is the first embodiment of the electric pot according to the present invention, will be described. In the following, for convenience of description, the direction of the electric pot 100 is defined by using the arrow shown in each drawing.

As shown in FIGS. 1 and 2, the electric pot 100 of the present embodiment includes a container body 1 and a lid body 2 that covers the upper opening of the container body 1 so as to be openable and closable. The lid body 2 is provided with a lid opening/closing lever 3 that unlocks the lock mechanism and rotates the lid body 2 to open the upper opening of the container body 1.

On the front side of the upper end of the container body 1 (on the front side of the lid body 2), a projecting portion 5 formed so as to project from the side surface of the container body 1 is provided, and a central portion of the projecting portion 5 is accommodated in the container body 1. A discharge port 4 for pouring a liquid such as hot water stored in an inner container 12 (see FIG. 3) is formed. On the upper surface of the overhanging portion 5, there is arranged an operation panel 7 which is an operating portion provided with a hot water supply switch 6 capable of pouring hot water or the like when pressed. The operation panel 7 is provided with various operation buttons in addition to the hot water supply switch 6, and is provided with a display unit 8 including a liquid crystal panel or the like capable of displaying the temperature of hot water and the operation status of the electric pot 100. ing.

A transparent measuring window 9 for displaying the remaining amount of hot water in the inner container 12 is provided in the right front portion of the container body 1 located below the overhanging portion 5, and a water supply path inside the container body 1 is provided. The surface of the molten metal in the middle of 30 can be visually recognized. Thereby, the user can grasp the remaining amount of hot water in the inner container 12 from the position of the hot water surface.

A rotatable handle 10 for carrying the electric pot 100 is disposed on the other end of the upper part of the container body 1 opposite to the projecting portion 5. The handle 10 is normally rotated along the side surface of the container body 1 opposite to the discharge port 4 so as not to disturb the user when using the electric pot 100.

In the container body 1 of the electric pot 100 according to the present embodiment shown in FIG. 1, the outer edge shape of the overhang portion 5, the shape of the operation panel 7 arranged on the overhang portion 5, and the hot water supply switch arranged on the operation panel 7. The shapes and numbers and positions of the various switches including 6 and the positions and shapes of the display unit 8 can improve the operability for the user and can be variously designed to have a preferable appearance design. Can take the form of.

FIG. 3 is a cross-sectional view taken along the line AA in FIG. 2, showing the main configuration for explaining the internal structure of the electric pot 100 of this embodiment. As shown in FIG. 3, in the container body 1, an inner container 12 made of metal such as stainless steel and having a bottomed cylindrical shape is arranged inside an outer case 11 made of metal, and an inner space 13 of the inner container 12 is filled with water. Can contain liquids such as. In this embodiment, in order to enhance the heat retaining function of the electric pot 100, the inner container 12 has a double structure and the inside thereof is evacuated. Further, as shown in FIG. 4, the outer case 11 is provided with protruding portions 11a, 11a protruding outward from the periphery (outer peripheral surface) of the inner container 12. As described above, the electric pot 100 includes a bottomed cylindrical inner container 12, an outer case 11 that accommodates the inner container 12, a lid 2 that covers the upper part of the outer case 11 so as to be openable and closable, and an upper part of the outer case 11. And a discharge port 4 formed in the.

In the electric pot 100 according to the present embodiment, as shown in FIGS. 3 and 4, a cylindrical heat insulating member 35 is inserted in the gap between the inner case 12 and the outer case 11 so as to cover the side surface of the inner container 12. The heat insulating member 35 is a vacuum heat insulating material, and is formed by coating a core material having a porous structure such as glass wool with a laminate film, depressurizing the inside, and sealing. The heat insulating member 35 is formed by stacking both end portions 35a and 35b of a substantially rectangular sheet-shaped vacuum heat insulating material into a tubular shape. In this embodiment, as shown in FIG. 4, a portion in which both ends 35a and 35b of the vacuum heat insulating material are overlapped is described as an overlapped portion 35c. It is also possible to use a heat insulating material other than the vacuum heat insulating material as the heat insulating member.

An electric heater 14, which is a heating means, is arranged below the container body 1 in contact with the bottom surface of the inner container 12, and can heat and boil the liquid contained in the inner container 12, for example, water. Further, the liquid in the inner container 12 can be kept warm by adjusting the output of the electric heater 14. As the electric heater 14, for example, a mica heater having two sets of heating elements having different wattages held on a mica plate can be used.

A power supply unit 15 is arranged below the electric heater 14, and an AC voltage from a commercial power supply is supplied to the electric pot 100 by inserting a power cord (not shown) into an outlet.

The water suction outlet 16 arranged on the bottom surface of the inner container 12 is connected to the electric pump 17. Then, when the hot water supply switch 6 shown in FIG. 1 is pressed, the electric pump 17 operates to supply the liquid such as the hot water in the inner container 12 between the inner container 12 and the outer case 11. It is supplied into the overhanging portion 5 via the path 30. As shown in FIG. 4, the water supply path 30 includes a transparent water supply pipe 31, a pipe holder 32 that fixes the water supply pipe 31, and a cover member 33 that covers the water supply pipe 31 and the back of the pipe holder 32. The cover member 33 presses the overlapping portion 35c of the heat insulating member 35 toward the inner container 12 side. That is, the cover member 33 also functions as a pressing member for the overlapping portion 35c of the heat insulating member 35.

In the water supply path 30, the tip portion of the water supply pipe 31 is connected to the discharge port 4 in the overhanging portion 5 of the container body 1. That is, the discharge port 4 and the inner container 12 are communicated with each other through the water suction outlet 16, the electric pump 17, and the water supply path 30. In such a configuration, when the electric pump 17 is operated by pressing the hot water supply switch 6, the liquid such as hot water is discharged from the discharge port 4 through the water supply pipe 31 and is supplied with hot water.

On the rear side of the upper end of the container body 1, the lid 2 is rotated in the direction shown by the arrow a in FIG. 3 from the closed state shown in FIG. 3 so that the upper part of the inner container 12 can be opened. A hinge mechanism 19 for rotatably fixing is arranged. The hinge mechanism 19 includes a hinge pin 19a and a hinge lock (not shown) to allow the lid body 2 to rotate and to support the lid body 2 in a detachable manner with respect to the container body 1.

On the front side of the lid body 2, there are a lock mechanism 20 for fixing the lid body 2 in a state where the upper side opening of the container body 1 is closed, and a lid opening/closing lever 3 for unlocking the lock mechanism 20. It is arranged. A protrusion formed on the lower surface side of the lid opening/closing lever 3 by pressing the lid opening/closing lever 3 in a state where the lid body 2 shown in FIG. 3 is locked to cover the upper opening of the container body 1. The portion 3a pushes the pressing spring 22 of the lock mechanism 20 rearward, and the lock pin 21 fitted to the container body 1 is released, so that the lid body 2 can be opened. The lid opening/closing lever 3 is a release means of the lock mechanism 20 and also functions as a handle when pulling up the lid body 2.

An inner cover member 28 made of metal is formed on the lower surface side of the lid body 2, that is, on the portion facing the upper opening of the container body 1. A heat-resistant rubber that is pressed against the opening end of the upper opening of the container body 1 when the lid 2 is in a locked state with respect to the container body 1 over the entire outer periphery of the inner cover member 28. A flexible seal packing 29 is provided. Further, a steam sensor and a steam path, which are not shown, are arranged at the rear portion of the lid body 2.

In the electric pot 100 according to the present embodiment, even when the lid 2 is not connected to an AC power source, hot air can be supplied to the outside through the water supply pipe 31, and is compressed by a manual pressing operation. The manual hot water supply pump 41 is provided. The manual hot water supply pump 41 is of a bellows type which is arranged in a cylindrical portion 42 formed in a substantially central portion of the lid body 2. The bellows 43 having a bellows structure is pressed downward through the cylindrical portion 42. By the operation, the pressurized air in the bellows 43 is blown into the inner container 12 through the air blowing port, and the hot water in the inner container 12 is discharged to the outside through the water supply pipe 31 by the blowing pressure of the pressurized air. It is supposed to be pushed out.

In the electric pot 100 according to the present embodiment, the overlapping portion 35c of the heat insulating material in the heat insulating member 35 is arranged adjacent to the water supply path 30 as shown in FIG. As a result, it is possible to effectively suppress heat dissipation in the portion of the water supply path 30 where the amount of heat dissipation increases. Specifically, in the portion of the water supply path 30, air convection is likely to occur in the piping portion of the water supply pipe 31, and heat radiation from the measuring window 9 to the outside is likely to occur. However, according to the electric pot 100 according to the present embodiment, by disposing the overlapping portion 35c adjacent to the water supply path 30, it is possible to cover the inner container 12 without creating a gap in the heat insulating material. The heat radiation in the portion of the water supply path 30 can be effectively suppressed.

In the heat insulating member 35 in the present embodiment, the end portion 35b extending from the front side to the right side is arranged in front of the end portion 35a extending from the right side to the front side. This prevents the end surface of the front end portion 35b from being disposed on the front side of the outer case 11 having many open portions such as the weighing window 9.

In the present embodiment, as shown in FIG. 5, a cutout 35d is formed in the lower portion of the overlapping portion 35c in the heat insulating member 35. Specifically, the lower portions of both ends 35a and 35b of the vacuum heat insulating material are obliquely cut off, and the cutout portions are overlapped to form a notch 35d. The water supply pipe 31 is inserted into the notch 35d so that no gap is created around the inner container 12. It is also possible to form a notch in the heat insulating member 35 by obliquely cutting off the lower part of either one of the both ends 35a and 35b of the vacuum heat insulating material, and inserting the water supply pipe 31 into this notch. ..

Further, in the electric pot 100 according to the present embodiment, the water supply path 30 is arranged in the space formed between the protruding portion 11a of the outer case 11 and the inner container 12, as shown in FIG. The protruding portion 11a has a larger distance from the outer peripheral surface of the inner container 12 than the other portions, and since air convection is likely to occur, heat circulates and the amount of heat released increases. However, by disposing the water supply path 30 in the projecting portion 11a and disposing the overlapping portion 35c adjacent to the water supply path 30, heat dissipation in the projecting portion 11a can be effectively suppressed.

Further, in the present embodiment, the projecting portions 11a of the outer case 11 are formed adjacent to both left and right sides of the operation panel 7 in plan view, as shown in FIG. In this embodiment, since the water supply path 30 and the overlapping portion 35c are arranged in the protruding portion 11a, it is possible to effectively suppress the heat radiation from the protruding portions 11a and 11a adjacent to the operation panel 7 in plan view. it can.

Next, the configuration of the second embodiment of the electric pot according to the present invention will be described with reference to FIG. The electric pot described in the present embodiment and the subsequent embodiments has a main configuration in common with the electric pot 100 according to the first embodiment. Therefore, parts common to the respective embodiments are denoted by the same reference numerals, detailed description thereof will be omitted, and different structures will be mainly described.

In the electric pot according to the present embodiment, as shown in FIG. 6, a heat insulating member 135 is inserted in the gap between the inner container 12 and the outer case 11 so as to cover the side surface of the inner container 12. The heat insulating member 135 is a tubular member formed of a flexible porous structure such as glass wool. In the heat insulating member 135, the thickness of the portion of the outer case 11 that faces the protruding portions 11a and 11a is larger than that of the other portions. Specifically, as shown in FIG. 6, the heat insulating member 135 is formed by forming a heat insulating material having a substantially rectangular sheet shape into a tubular shape, and winding portions 135a and 135a are formed at portions facing the protruding portions 11a and 11a. As a result, it is formed thicker than other portions.

As described above, in the electric pot according to the present embodiment, in the heat insulating member 135, the thickness (radial thickness) of the portion of the outer case 11 facing the protruding portions 11a and 11a is greater than that of the other portions. Largely formed. The protruding portion 11a has a larger distance from the outer peripheral surface of the inner container 12 than the other portions, and since air convection is likely to occur, heat circulates and the amount of heat released increases. However, by forming the heat insulating member 135 in the protruding portion 11a to be thicker than the winding portions 135a and 135a, it is possible to effectively suppress the heat radiation in the protruding portion 11a. Further, in the present embodiment, since the winding portions 135a and 135a can be formed by winding the heat insulating material having a substantially rectangular sheet shape, the heat insulating member 135 can be easily formed. It is also possible to form a thick portion in the heat insulating member, without forming the winding portion, so as to face the protruding portions 11a and 11a.

Also in this embodiment, the protruding portions 11a of the outer case 11 are formed adjacent to the left and right sides of the operation panel in a plan view (see FIG. 1 in the first embodiment). Therefore, in the present embodiment, since the portion facing the protrusions 11a and 11a is formed thick, it is possible to effectively suppress the heat radiation from the protrusions 11a and 11a adjacent to the operation panel 7 in a plan view. it can.

Next, the configuration of the third embodiment of the electric pot according to the present invention will be described with reference to FIG. 7. In the electric pot according to the present embodiment, as shown in FIG. 7, a first rectangular sheet-shaped heat insulating material is formed into a tubular shape so as to cover the side surface of the inner container 12 and be in a gap with the outer case 11. The heat insulating member 235 is inserted, and a rod-shaped second heat insulating member 236 having an axial direction in the up-down direction is inserted in a portion facing the one protruding portion 11a.

As described above, in the electric pot according to the present embodiment, in the portion of the second heat insulating member 236, the thickness of the portion facing the protruding portion 11a of the outer case 11 (thickness in the radial direction) is compared with other portions. And is formed large. The protrusion 11a has a greater distance from the outer peripheral surface of the inner container 12 than the surroundings, and air convection easily occurs, so that the amount of heat radiation increases. However, by forming the heat insulating member in the protruding portion 11a thicker than the second heat insulating member 236, it is possible to effectively suppress the heat radiation in the protruding portion 11a. Further, in the present embodiment, the second heat insulating member 236 can be formed of a rod-shaped material having low flexibility such as expanded polypropylene, so that the heat insulating member can be easily formed. Furthermore, by using a material having a higher heat insulating property than the first heat insulating member 235 for the second heat insulating member 236, it becomes possible to further improve the heat retaining performance of the electric pot.

2 Lid 4 Discharge Port 11 Outer Case 12 Inner Container 30 Water Supply Path 35 Heat Insulating Member 35c Stacking Part 100 Electric Pot

Claims (5)

A bottomed cylindrical inner container, an outer case that accommodates the inner container, a lid that opens and closes the upper part of the outer case, a discharge port formed in the upper part of the outer case, and the inner container A heat insulating member which covers a side surface and is inserted in a gap between the inner case and the outer case; and a water supply path which is disposed between the inner container and the outer case and connects the inner container and the discharge port. An electric kettle,
The heat insulating member is formed by stacking both ends of a substantially rectangular sheet heat insulating material into a tubular shape,
A superposed portion of the heat insulating material in the heat insulating member is disposed adjacent to the water supply path, and is pressed toward the inner container side by the water supply path,
An electric kettle characterized by the above. The outer case includes a protrusion that protrudes outward from the periphery of the inner container,
The water supply path is arranged in a space formed between the protrusion and the inner container,
The electric pot according to claim 1, characterized in that: An operating portion is formed on the front side of the lid,
The protrusions are formed adjacent to the left and right sides of the operation unit in a plan view.
The electric pot according to claim 2, characterized in that: A bottomed cylindrical inner container, an outer case that accommodates the inner container, a lid that covers the upper part of the outer case so as to be openable and closable, and a side surface of the inner container that is inserted in a gap between the outer case and the outer case. A heat insulating member,
An electric kettle equipped with,
The outer case includes a protrusion that protrudes outward from the periphery of the inner container,
The heat insulating member is formed by making a substantially rectangular sheet-shaped heat insulating material into a tubular shape, and the thickness of the portion facing the protruding portion is compared with other portions by winding the heat insulating material. Formed large,
An electric kettle characterized by the above. An operating portion is formed on the front side of the lid,
The protrusions are formed adjacent to the left and right sides of the operation unit in a plan view.
The electric pot according to claim 4 , characterized in that:

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