JP3838644B2 - High-frequency heating device with steam generation function - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes high-frequency generating means for outputting a high frequency in a heating chamber that accommodates an object to be heated, and a steam supply mechanism that supplies steam to the heating chamber, and supplies at least one of the high frequency and the steam to the heating chamber. The present invention relates to a high-frequency heating apparatus with a steam generation function that heats an object to be heated, and more particularly, to an improvement for easily checking the amount of remaining water in a water storage tank of a steam supply mechanism from the front side of the apparatus.
[0002]
[Prior art]
A high-frequency heating device provided with high-frequency generating means for outputting a high frequency in a heating chamber that accommodates an object to be heated can efficiently heat the object to be heated in the heating chamber in a short time. It rapidly spread as a microwave oven.
However, there are inconveniences such as a limited cooking range only by heating by high frequency heating.
Therefore, a high-frequency heating device has been proposed in which an electric heater that generates heat in the heating chamber is added to enable oven heating. In recent years, a steam supply mechanism that supplies heating steam to the heating chamber has been added, and high-temperature steam has been added. There has been proposed a high-frequency heating apparatus with a steam generation function that enables cooking by heating (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP 54-115448 A
[0004]
The steam supply mechanism in this high-frequency heating device with a steam generating function usually drops water from a water storage tank that is detachably attached to the device main body to a water supply tray in the heating chamber via a water supply path arranged in the device main body. The water supply tray is appropriately heated by a heating means (heater) so that the water accumulated on the water supply tray is evaporated and diffused into the heating chamber.
In such a steam supply mechanism, it is indispensable to easily check the amount of remaining water in the water storage tank in order to prevent water storage in the water storage tank from being lost and emptying the water supply tray.
In view of this, there has been proposed a tank storage section that detachably stores a water storage tank on the side of the apparatus, and a window that allows the internal tank to be seen is opened on the outer wall of the tank storage section.
In addition, a tank storage unit has been proposed in which a dedicated door that can be opened and closed is arranged on the front surface of the apparatus and the dedicated door is opened so that the amount of water remaining in the water storage tank can be confirmed from the front of the apparatus.
[0005]
[Problems to be solved by the invention]
However, when a high-frequency heating device with a steam generating function is accommodated in a commercially available range table, etc., the side wall of the range table, or kitchen utensils adjacent to the range table, is close enough. In such a case, in such a case, in the configuration in which a window for checking the remaining water amount is provided on the outer wall of the tank storage part on the side of the apparatus, the window cannot be looked into. If the water storage tank is not pulled out from the tank storage unit, there is a possibility that the inconvenience that the remaining water amount cannot be confirmed may occur.
[0006]
On the other hand, if the tank storage unit is equipped with a dedicated door that opens to the front, even if kitchen utensils are close to the side of the device, open the dedicated door to check the amount of water remaining in the storage tank. be able to.
However, there is a problem that the components of the apparatus increase due to the installation of the dedicated door, and there is also a problem that the installation of the dedicated door restricts the design of the front of the apparatus. There is also a problem that the opening and closing operation of the dedicated door is troublesome.
[0007]
In addition, the conventional high-frequency heating device with a steam generation function has no illumination means or the like for easily visualizing the water level in the stored water storage tank, and the water storage tank is put into a night vision state due to light shielding by the surrounding partition wall of the tank storage portion. It was also pointed out that it was difficult to see the water level.
[0008]
The present invention has been made in view of the above-described problems, and its purpose is to easily determine the amount of water remaining in the water storage tank of the steam supply mechanism by visual inspection from the front side of the apparatus without complicated opening / closing operation of the door. And providing a high-frequency heating device with a steam generating function that can improve both the handling property and the design property without causing an opening or the like that impairs the design property to appear on the front surface of the device. It is in.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a high-frequency heating apparatus with a steam generating function according to the present invention. Is A high-frequency generating means for outputting a high frequency into a heating chamber that accommodates an object to be heated, and a steam supply mechanism that supplies heating steam into the heating chamber, and at least one of the high frequency and the heating steam is supplied to the heating chamber. A high-frequency heating apparatus with a steam generating function for heating the object to be heated,
The water supply tank of the steam supply mechanism is formed so that at least the front and rear surfaces are made of a transparent material so that the amount of remaining water can be visually recognized, and is hidden behind the opening / closing door that opens and closes the front surface of the heating chamber for taking in and out the heated object. Equipped to the side of the heating chamber,
A door residual water amount confirmation window for confirming a residual water amount in the water storage tank is provided on a side edge of the open / close door covering the front side of the water storage tank.
[0010]
In the high-frequency heating device with a steam generation function configured as described above, the transparent front portion of the water storage tank disposed on the side of the heating chamber is always open from the door residual water amount confirmation window provided on the open / close door on the front surface of the heating chamber. It is easy to check the amount of water remaining in the water storage tank without peeping or opening / closing the door, improving handling.
In addition, since there is no need for a dedicated door to visually check the amount of water remaining in the water storage tank, the increase in the number of components can be suppressed, and the design is complicated so that multiple open / close doors are arranged in front of the high-frequency heating device. This can be avoided, and the design can be improved.
[0011]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above In the high-frequency heating device with a steam generating function, the water storage tank is further configured to emit light.
[0012]
Since the water storage tank is irradiated with light in this way, the water storage tank is not in the night vision state even if the periphery of the water storage tank is covered, and the water level in the tank can be easily confirmed visually.
[0013]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above In the high-frequency heating device with a steam generation function, a tank irradiation lamp for irradiating light to the water storage tank is further provided below the water storage tank.
[0014]
In this way, the irradiation light of the tank irradiation lamp that has entered the water storage tank from below the water storage tank is reflected by the water surface in the tank, so that the water surface position clearly rises. Confirmation of the residual water amount by visual inspection from the door residual water amount confirmation window becomes easier.
[0015]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above In the high-frequency heating apparatus with a steam generation function, the tank irradiation lamp is further provided at a position closer to the front below the water storage tank.
[0016]
If it does in this way, it will prevent that the irradiation light of the tank irradiation lamp which injected into the water storage tank from the downward direction of the water storage tank permeate | transmits a water storage tank and is radiate | emitted directly to the door residual water amount confirmation window side. Therefore, the irradiation light of the tank irradiation lamp is dazzling, the visibility of the remaining water level in the water storage tank is not lowered, and the improvement of the visibility by the light irradiation is fully utilized.
[0017]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above In the high-frequency heating device with a steam generation function, a tank irradiation lamp that irradiates light upward from below the water storage tank is provided behind the water storage tank.
[0018]
In this way, the irradiation light of the tank irradiation lamp incident on the water storage tank from the rear of the water storage tank is reflected by the water surface in the tank, so that the water surface position clearly rises. It becomes easier to confirm the amount of residual water by visual observation from the residual water amount confirmation window.
Also, if the tank irradiation lamp is installed at the rear of the water storage tank, water droplets adhering to the outer surface of the water storage tank may drop on the tank irradiation lamp as compared to the case where the tank irradiation lamp is installed below the water storage tank. Therefore, the storage structure of the tank irradiation lamp can be made a simple structure that does not require waterproofing, and the cost can be reduced.
[0019]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above The high-frequency heating apparatus with a steam generation function includes a reflector that reflects the light of the tank irradiation lamp and indirectly irradiates the water storage tank.
[0020]
By indirectly irradiating light using a reflecting plate, it is possible to efficiently irradiate with the minimum necessary amount of light, and thus light leakage during irradiation can be reduced. Further, by using the reflecting plate, the light source position can be set at a position where the remaining water amount can be easily recognized. Further, it is possible to prevent the water storage tank from being deformed by the heat of the lamp when the reflector is directly irradiated.
[0021]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above In the high frequency heating apparatus with a steam generating function, a packing is closely arranged around the door residual water amount confirmation window.
[0022]
The packing is in close contact with the periphery of the door residual water amount confirmation window to prevent the heated steam generated in the heating chamber from entering the door residual water amount confirmation window, and the door residual water amount confirmation window and the door body. It is possible to check the amount of remaining water by preventing fogging of the window.
[0023]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above In the high-frequency heating device with a steam generating function, the door residual water amount confirmation window formed on the side edge of the door is covered with a door front translucent glass disposed in the forefront of the door. To do.
[0024]
In this way, the door residual water amount confirmation window equipped on the open / close door for confirming the residual water amount in the water storage tank does not appear on the front of the device as an opening that impairs the design, and the front of the device is clean. It is also possible to prepare a flat surface, and the design can be improved.
[0025]
Also, Of the present invention In order to achieve the above object, a high-frequency heating apparatus with a steam generation function includes high-frequency generation means for outputting a high frequency into a heating chamber that accommodates an object to be heated, and a steam supply mechanism that supplies heating steam into the heating chamber. A high-frequency heating apparatus with a steam generating function for supplying at least one of high-frequency and heating steam to the heating chamber to heat the object to be heated,
A water supply tank of a steam supply mechanism is installed on the side of the heating chamber, and the water storage tank is illuminated with light and a dedicated door is opened so that the amount of water remaining in the water storage tank can be viewed from the front of the heating chamber. It is a feature.
[0026]
In this way, even if the dedicated door is opened and the amount of water remaining in the water storage tank is confirmed, by installing a means to irradiate the water storage tank, the area around the water storage tank other than the dedicated door can be Even if it is covered with a wall, the inside of the water storage tank is not in the night vision state, the water level in the tank can be easily confirmed by visual observation, and the amount of remaining water can be confirmed easily and accurately.
[0027]
Also, Of the present invention In order to achieve the above object, the high-frequency heating device with a steam generating function Above In the high-frequency heating apparatus with a steam generation function, the tank irradiation lamp for irradiating light to the water storage tank is lit at the time of selecting the steam heating cooking menu mode setting or until the end of cooking after the selection. Is.
[0028]
Checking the water level in the water storage tank is to prevent the water in the water storage tank from running out during steam cooking. When steam cooking is not performed (for example, when cooking with only oven heating or microwave heating) Is not necessary. Therefore, as described above, the lighting time of the tank irradiation lamp is limited only at the start of steam cooking where the water level needs to be confirmed or when the apparatus is operating, so that unnecessary light irradiation of the tank irradiation lamp is eliminated, and the tank irradiation lamp The life of the battery can be extended and power can be saved.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a high-frequency heating apparatus with a steam generation function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.
FIG.1 and FIG.2 is an external view of 1st Embodiment of the high frequency heating apparatus with a steam generation function based on this invention.
[0030]
The high-frequency heating device 100 with a steam generation function of the first embodiment is used as a microwave oven capable of high-frequency heating and heating with heating steam for cooking food, and accommodates an object to be heated such as food A high-frequency generating means (magnetron) 5 for outputting a high frequency into the heating chamber 3, and a steam supply mechanism 7 for supplying heating steam into the heating chamber 3, and at least one of the high frequency and the heating steam is supplied to the heating chamber 3. To heat the object to be heated in the heating chamber 3.
[0031]
The heating chamber 3 is formed inside a box-shaped main body case 10 that is open on the front surface, and an opening / closing door 13 with a translucent window 13 a that opens and closes the heated object outlet of the heating chamber 3 is formed on the front surface of the main body case 10. Is provided.
The opening / closing door 13 can be opened / closed in the vertical direction by the lower end being hinged to the lower edge of the main body case 10, and by grasping the handle 13 b mounted on the upper part and pulling it forward, FIG. 2 can be set to the open state.
An operation panel unit 14 for setting a heating method and the like is provided at the lower front portion of the open / close door 13.
[0032]
A predetermined heat insulating space is secured between the wall surfaces of the heating chamber 3 and the main body case 10, and a heat insulating material is loaded in the space as necessary.
In particular, the space behind the heating chamber 3 is a circulation fan chamber containing a circulation fan that stirs the atmosphere in the heating chamber 3 and a drive motor (not shown), and the rear wall of the heating chamber 3 is heated. A partition wall 15 that defines the chamber 3 and the circulation fan chamber is formed.
Although not shown, the partition wall 15, which is the rear wall of the heating chamber 3, has an intake vent hole for intake air from the heating chamber 3 side to the circulation fan chamber side, and the circulation fan chamber side to the heating chamber 3 side. The ventilation area for blowing air is provided separately from the formation area. Each ventilation hole is formed as a large number of punch holes.
[0033]
In the case of the present embodiment, as shown in FIG. 2, the high-frequency generating means (magnetron) 5 is disposed in the space below the heating chamber 3 and is located at a position for receiving the high-frequency generated from the high-frequency heating device 5. Is provided with stirrer blades 17. The high frequency from the high frequency generating means 5 is irradiated to the rotating stirrer blade 17 so that the stirrer blade 17 supplies high frequency to the heating chamber 3 while stirring. Note that the high-frequency generating means 5 and the stirrer blade 17 are not limited to the bottom of the heating chamber 3, and can be provided on the upper surface or the side of the heating chamber 3.
[0034]
As shown in FIGS. 2 and 3, the steam supply mechanism 7 is installed in the heating chamber 3 and a tank unit 70 that detachably accommodates the water storage tank 21 and is assembled to the case outer wall 57 of the main body case 10. A water supply tray 25, heating means (not shown) for heating the water supply tray 25 to evaporate water on the water supply tray 25, and a water supply path (not shown) for guiding the water in the water storage tank 21 to the water supply tray 25 at a predetermined flow rate. And a backflow prevention mechanism that is provided at a connection portion between the water storage tank 21 and the water supply passage and prevents a backflow from the water supply passage to the water storage tank 21.
The water supply tray 25 of the present embodiment is formed by forming a recess for receiving water supply in a part of the bottom plate (not shown) of the heating chamber 3 and is integrated with the bottom plate.
[0035]
In the present embodiment, the water storage tank 21 is a flat, rectangular parallelepiped cartridge that is easy to handle, can be easily attached to and detached from the apparatus main body (main body case 10), and is heated by heating in the heating chamber 3. As shown in FIG. 1, it is inserted into the tank storage portion 35 of the tank unit 70 assembled on the side surface of the main body case 10 so that it is difficult to receive damage.
[0036]
As shown in FIG. 3, the tank unit 70 includes a storage portion mounting bracket 71 attached to the case outer wall 57, and a tank whose rear end is hinged to the storage portion mounting bracket 71 and can be opened and closed laterally. The storage unit 35, the water storage tank 21 inserted into the tank storage unit 35 through the tank insertion port 36 in front of the tank storage unit 35, and the storage unit mounting bracket 71 so as to cover the periphery of the tank storage unit 35 And a storage frame 72 to be attached.
[0037]
The tank storage portion 35 is hinged to the storage portion mounting bracket 71 so that the rear end side thereof is horizontally rotatable. When the front end portion is rotated as shown by an arrow (A) in FIG. 3, the front end portion becomes the storage portion. The water storage tank 21 can be attached and detached from the tank insertion port 36 exposed through the opening of the frame 72 through the side of the main body.
[0038]
The water storage tank 21 is composed of a flat rectangular parallelepiped container main body 22 opened upward and an opening / closing lid 23 covering the upper opening of the container main body 22. The container body 22 is formed of a transparent resin at least on the front and rear walls so that the remaining amount of water in the container can be visually confirmed, and the remaining amount of water in the water storage tank 21 is visible from the outside.
[0039]
As shown in FIG. 4, the front surface of the storage unit mounting bracket 71 facing the front surface of the water storage tank 21 has an opening having a size substantially corresponding to the front wall of the water storage tank 21. Is visible.
[0040]
A front frame plate 16 projects from the outer periphery of the front surface of the heating chamber 3 to partition the space around the heating chamber 3 from the heating chamber 3.
A frame plate residual water amount confirmation window 55 that allows the water storage tank 21 to be visually recognized from the front surface of the main body case 10 is opened at a position of the side edge of the front frame plate 16 facing the storage unit mounting bracket 71.
The frame plate residual water amount confirmation window 55 incorporates a translucent screen 75 made of glass so that the front surface of the internal water storage tank 21 is visible. A packing 76 is attached around the outer surface of the translucent screen 75. The packing 76 affixed to the surface of the translucent screen 75 brings the open / close door 13 into close contact with the periphery of the frame plate residual water amount confirmation window 55, and the steam supplied into the heating chamber 3 leaks to the tank unit 70 side. It prevents the board residual water amount confirmation window 55 from being fogged.
[0041]
As shown in FIG. 5, the open / close door 13 includes an open / close door body 61 provided with a mesh door shield glass 63 that prevents high-frequency leakage, and a door front translucent glass that covers the front face of the open / close door body 61 flatly. 62 and a door decoration frame 67 covering the periphery of the door front translucent glass 62.
Around the door shield glass 63, a choke 64 for preventing leakage of high frequency to the outside is attached to the open / close door body 61.
In the case of the present embodiment, the door body 61 that closes the front of the tank unit 70 has a frame plate residual water amount confirmation window 55 on the side edge of the door body 61 corresponding to the frame plate residual water amount confirmation window 55. A door residual water amount confirmation window 66 to be viewed is formed through.
The size and shape of the door shield glass 63 are set so as not to cover the door residual water amount confirmation window 66. The door front translucent glass 62 is dimensioned so as to cover the front of the door residual water amount confirmation window 66.
[0042]
Therefore, the residual water amount in the water storage tank 21 in the tank unit 70 can be visually checked through the door residual water amount confirmation window 66 provided in the open / close door body 61 and the frame plate residual water amount confirmation window 55 provided in the front frame plate 16. Is possible.
Further, in the case of the present embodiment, as shown in FIG. 4, a tank irradiation lamp 81 that irradiates light upward from below to the water storage tank 21 is provided behind the water storage tank 21 in the tank unit 70. is doing.
As shown in FIG. 3, the tank irradiation lamp 81 is attached to a lamp cover 80 erected at the rear portion of the storage portion mounting bracket 71, and emits irradiation light 83 downward.
The lower part of the lamp cover 80 is configured to include a reflecting plate 80a that reflects the irradiation light 83 emitted from the tank irradiation lamp 81 in an oblique direction upward from the lower end of the rear end of the water storage tank 21. The light reflected by the reflecting plate 80a indirectly illuminates the water storage tank 21.
[0043]
In the high-frequency heating device 100 with the steam generation function described above, the water storage tank 21 disposed on the side of the heating chamber 3 from the door residual water amount confirmation window 66 provided on the side edge of the open / close door 13 on the front surface of the heating chamber 3. Therefore, it is not necessary to open and close the door or the like, and the amount of water remaining in the water storage tank 21 can be easily confirmed by visual observation, thereby improving the handleability.
In addition, since a dedicated door for visually confirming the amount of remaining water in the water storage tank 21 is not required, an increase in the number of components can be suppressed, and the design is complicated so that a plurality of open / close doors are arranged in front of the high-frequency heating device. Can be avoided, and the design can be improved.
[0044]
Further, in the present embodiment, a tank irradiation lamp 81 that irradiates light upward from the lower side of the water storage tank 21 is provided behind the water storage tank 21, and the tank irradiation lamp 81 incident on the water storage tank 21 is provided. The reflected light 83 is reflected by the water surface of the water storage 24 in the tank, so that the position of the water surface clearly rises. Therefore, it is easier to check the remaining water amount visually from the door residual water amount confirmation window 66 of the open / close door 13. Become.
[0045]
Further, in the present embodiment, a translucent screen 75 is incorporated in the frame plate residual water amount confirmation window 55, and a packing 76 is attached around the outer surface of the translucent screen 75 so that the door 13 is closed. Since the open / close door 13 is in close contact, the frame plate residual water amount confirmation window 55 is not clouded by the steam generated in the heating chamber 3.
[0046]
In the present embodiment, the door residual water amount confirmation window 66 formed on the side edge of the open / close door 13 is covered with the door front translucent glass 62 provided on the forefront of the open / close door 13. The residual water amount confirmation window 66 does not appear on the front surface of the apparatus as an opening that impairs the design, and it is possible to arrange the front surface of the apparatus on a clean flat surface, thereby improving the design.
[0047]
6 to 9 show a second embodiment of the high-frequency heating device with a steam generating function according to the present invention.
The high-frequency heating apparatus 200 with a steam generation function according to this embodiment is attached to the installation position of the tank irradiation lamp 81 that irradiates light to the water storage tank 21 and the frame plate residual water amount confirmation window 55 of the front frame plate 16. The translucent screen 85 and the translucent screen 86 attached to the door residual water amount confirmation window 66 of the open / close door main body 61 are improved, and other configurations are the same as those of the first embodiment.
In addition, about the structure common to 1st Embodiment, the same number is attached | subjected and description is abbreviate | omitted or simplified.
[0048]
In the present embodiment, as shown in FIG. 7, the water storage tank 21 is inserted and attached to the tank storage portion 35 that is mounted on the side surface of the main body case 10 so as to be horizontally rotatable. The water supply structure from the attached water storage tank 21 to the water supply tray 25 is the same as in the first embodiment.
However, as shown to Fig.7 (a), the tank irradiation lamp 81 which irradiates light with respect to the water storage tank 21 is equipped under the water storage tank 21 with which the side of the main body was mounted | worn.
More specifically, the tank irradiation lamp 81 is provided at a position near the front under the water storage tank 21, and the light 87 emitted from the tank irradiation lamp 81 is formed on the bottom wall portion 71 a of the storage portion mounting bracket 71. The water storage tank 21 is irradiated through the light irradiation window 88.
[0049]
A reflector 89 is provided so as to cover the front of the tank irradiation lamp 81 from below. The reflection plate 89 minimizes the diffusion of light emitted from the tank irradiation lamp 81 in the direction other than the light irradiation window 88, and improves the efficiency of light irradiation to the water storage tank 21.
As shown in FIG. 7 (b), the remaining water level 91 in the water storage tank 21 and the water level equipped on the front surface of the water storage tank 21 are displayed from the frame plate residual water amount confirmation window 55 by the irradiation of the tank irradiation lamp 81. The scale 93 and the like are clearly visible.
[0050]
Further, in the present embodiment, the tank irradiation lamp 81 is turned on at the time of selecting the steam heating cooking menu mode setting or until the end of cooking after the selection, and is turned off when the steam heating cooking is not selected. The power supply to the tank irradiation lamp 81 is controlled so as to be maintained.
[0051]
Further, in the case of the present embodiment, as shown in FIG. 8, the frame plate residual water amount confirmation window 55 for visually recognizing the residual water amount formed on the front frame plate 16 has a predetermined peripheral inward side by burring. It is finished in a structure having a flange portion 55a that stands up by the height.
In the case of this embodiment, the translucent screen 85 attached to the frame plate residual water amount confirmation window 55 of the front frame plate 16 and the inner surface of the door residual water amount confirmation window 66 of the open / close door body 61 are attached. Each of the translucent screens 86 is made of a heat-resistant resin such as polycarbonate (heat-resistant temperature is 140 ° C. or higher).
These translucent screens 85 and 86 are integrally equipped with seal fitting grooves 85a and 86a and seal flange portions 85b and 86b in surface contact with other parts by injection molding or cutting. Has been.
[0052]
Thus, when the translucent screens 85 and 86 are made of heat-resistant resin, unlike the case of heat-resistant glass, it is possible to easily install the fitting grooves 85a and 86a and the sealing flange portions 85b and 86b. The fitting grooves 85a and 86a and the sealing flange portions 85b and 86b make it possible to ensure a sufficient sealing performance for each window portion without using a separate seal ring or the like. By reducing the number of component parts by omitting the seal ring or the like, it is possible to reduce costs and manufacturing processes.
The above translucent screens 85, 86 prevent the heated steam supplied into the heating chamber 3 from entering the tank housing part 35 side and the inside of the open / close door 13.
[0053]
In the case of the present embodiment, as shown in FIG. 9, the front surface of the door body 61, the outer surface of the door residual water amount confirmation window 66, and the translucent window 13 a on the front surface of the heating chamber 3. Separately, seal grooves 94 and 95 are provided.
The seal grooves 94 and 95 are fitted with packings (putty) 97 and 98 formed of heat-resistant elastic resin or ultraviolet curable resin.
As shown in FIG. 8, these packings 97, 98 are in close contact with one door front translucent glass 62, and external moisture or the like is between the door front translucent glass 62 and the door body 61. The inside of the door front translucent glass 62 is prevented from being fogged by entering the remaining door water amount confirmation window 66 or the translucent window 13a from a minute gap or the like.
[0054]
In the high-frequency heating device 200 of the second embodiment described above, the irradiation light of the tank irradiation lamp 81 incident on the water storage tank 21 from below the water storage tank 21 is reflected by the water surface in the tank, so that the water surface Since the position is clearly raised, it is possible to easily check the residual water amount by visual observation from the door residual water amount confirmation window 66 of the open / close door 13 on the front surface of the heating chamber 3.
[0055]
Further, in the second embodiment, the tank irradiation lamp 81 is provided at a position closer to the front below the water storage tank 21, and the main light irradiation direction is vertically upward as shown in FIG. Therefore, the irradiation light of the tank irradiation lamp 81 incident on the water storage tank 21 from below the water storage tank 21 is prevented from passing through the water storage tank 21 and being directly emitted to the door residual water amount confirmation window side.
Therefore, the irradiation light of the tank irradiation lamp 81 is dazzling, and the visibility of the remaining water level in the water storage tank 21 is not lowered, and the improvement of the visibility by light irradiation is fully utilized.
[0056]
However, when the installation position of the tank irradiation lamp 81 is set behind the water storage tank 21 as in the first embodiment, the water storage water is stored in comparison with the case where the tank irradiation lamp 81 is provided below the water storage tank 21. There is no possibility that water droplets adhering to the outer surface of the tank 21 will drip onto the tank irradiation lamp 81, and the housing structure of the tank irradiation lamp 81 can be made a simple structure that does not require waterproofing or the like, thereby reducing costs.
[0057]
Further, the water level confirmation in the water storage tank 21 is to prevent the water storage in the water storage tank 21 from being lost during steam heating cooking, and when cooking by steam heating is not performed (for example, only oven heating or microwave heating). In the case of cooking in).
Therefore, in this second embodiment, the lighting time of the tank irradiation lamp 81 is limited only at the start of steam cooking where the water level needs to be confirmed or when the apparatus is operating. By eliminating unnecessary light irradiation, the life of the tank irradiation lamp 81 is extended and power saving is achieved.
[0058]
In each of the above embodiments, the open / close door 13 that opens and closes the front opening of the heating chamber 3 covers the front of the tank storage unit 35 in order to improve the front design and the like.
However, the structure for improving the visibility of the remaining water level by irradiating the water storage tank 21 with the irradiation lamp 81 as described above is, for example, for confirming the remaining water level in front of the tank storage unit 35 or opening / closing the tank storage unit 35. Even if it is configured to be equipped with a dedicated opening / closing door.
[0059]
That is, if the purpose is only to eliminate the decrease in the visibility of the remaining water level caused by the inside of the tank storage unit 35 being in the night vision state, for example, the water storage tank 21 of the steam supply mechanism is placed on the side of the heating chamber 3. In the high-frequency heating apparatus with a steam generating function, which is equipped with a dedicated opening / closing door for confirming the remaining water level in front of the tank storage section 35, the water storage tank 21 in the tank storage section 35 is irradiated with light. It may be improved only to a configuration equipped with the tank irradiation lamp 81 to be used.
[0060]
In this way, even in the case of a configuration in which the dedicated door is opened and the remaining water amount of the water storage tank 21 is confirmed, by providing a means for irradiating the water storage tank 21 with light, a part other than the dedicated door around the water storage tank 21 is provided. Even if it is covered by the housing wall, the inside of the water storage tank 21 is not in the night vision state, and the water level in the tank can be easily confirmed by visual observation, and the remaining water amount can be confirmed easily and accurately. It becomes like this.
Even when the dedicated door is opened and the amount of remaining water in the water storage tank 21 is confirmed, the lighting time of the tank irradiation lamp for irradiating the water to the water storage tank 21 is determined at the start of steam heating cooking where the water level needs to be confirmed. Alternatively, it is desirable to limit only to the operation of the apparatus, eliminate unnecessary light irradiation of the tank irradiation lamp, extend the life of the tank irradiation lamp, and save power.
[0061]
In each of the above-described embodiments, the tank irradiation lamp 81 has improved the light condensing property to the water storage tank 21 side via the reflecting plates 80a and 89, but the reflecting plates 80a and 89 are omitted. For example, the tank irradiation lamp 81 may be arranged on the side surface of the tank so as to directly irradiate. However, in such a case, it is desirable that the water storage tank 21 is formed of a heat resistant material that does not deform due to the heat of the lamp.
[0062]
【The invention's effect】
In the high-frequency heating device with a steam generating function according to the present invention, the water storage tank arranged on the side of the heating chamber is looked into from the door residual water amount confirmation window provided on the opening / closing door on the front side of the heating chamber, and the door and the like are opened / closed. There is no need to do this, and the amount of water remaining in the water storage tank can be easily confirmed by visual observation, thereby improving handling.
In addition, since there is no need for a dedicated door to visually check the amount of water remaining in the water storage tank, the increase in the number of components can be suppressed, and the design is complicated so that multiple open / close doors are arranged in front of the high-frequency heating device. This can be avoided and the design can be improved.
[0063]
Also, According to the high frequency heating device with a steam generation function of the present invention, The water storage tank is irradiated with light, and the water level in the tank can be easily confirmed visually.
Moreover, according to the high frequency heating device with a steam generation function of the present invention, The light from the tank irradiation lamp that has entered the storage tank from below the water tank is reflected by the water surface in the tank, so that the surface of the water surface rises clearly.Therefore, the door remains without opening the door on the front of the heating chamber. The amount of remaining water can be easily confirmed by visual observation from the water amount confirmation window.
[0064]
Also, According to the high frequency heating device with a steam generation function of the present invention, It is possible to prevent the irradiation light of the tank irradiation lamp entering the water storage tank from below the water storage tank from passing through the water storage tank and being directly emitted to the door residual water amount confirmation window side. Therefore, the irradiation light of the tank irradiation lamp is dazzling, the visibility of the remaining water level in the water storage tank is not lowered, and the improvement of the visibility by the light irradiation is fully utilized.
[0065]
Also, According to the high frequency heating device with a steam generation function of the present invention, From the rear of the water storage tank, the irradiation light of the tank irradiation lamp incident on the water storage tank is reflected by the water surface in the tank, so that the water surface position clearly rises. It becomes easier to confirm the amount of residual water by visual inspection.
[0066]
Also, According to the high frequency heating device with a steam generation function of the present invention, Since light irradiation can be performed with a minimum amount of light, light leakage during irradiation can be reduced. In addition, by applying the reflector, the light source position can be set at a position where the remaining water amount is easily visible, and the degree of design freedom can be expanded. Further, it is possible to prevent the water storage tank from being deformed by the heat of the lamp when the reflector is directly irradiated.
Also, According to the high frequency heating device with a steam generation function of the present invention, It is possible to prevent the door residual water amount confirmation window from being fogged by the steam generated in the heating chamber, and to reliably check the residual water amount.
[0067]
Also, According to the high frequency heating device with a steam generation function of the present invention, The door residual water amount confirmation window equipped on the open / close door to confirm the amount of residual water in the water storage tank does not appear on the front of the device as an opening that impairs the design, and it is possible to arrange the front of the device on a clean flat surface Thus, the design can be improved.
[0068]
Also, According to the high frequency heating device with a steam generation function of the present invention, Even if the area around the water storage tank other than the dedicated door is covered with the housing wall, the inside of the water storage tank does not go into the night vision state, and it is possible to easily check the water level in the tank visually. Can be confirmed easily and accurately.
[0069]
Also, According to the high frequency heating device with a steam generation function of the present invention, Limiting the lighting time of the tank irradiation lamp only at the start of steam cooking where the water level needs to be confirmed or when the device is operating, eliminating unnecessary light irradiation of the tank irradiation lamp, extending the life of the tank irradiation lamp, Power can be saved.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a first embodiment of a high-frequency heating device with a steam generating function according to the present invention.
2 is a schematic configuration diagram when the heating chamber is viewed from the front with the open / close door of the heating chamber of the high-frequency heating device with a steam generation function shown in FIG. 1 open. FIG.
3 is an exploded perspective view of a tank unit provided on a side surface of a main body in the high-frequency heating apparatus with a steam generation function shown in FIG.
4 is an explanatory view of the arrangement of water storage tanks in the tank unit shown in FIG. 3 and irradiation light from a tank irradiation lamp. FIG.
5 is an exploded perspective view of the open / close door shown in FIG. 1. FIG.
FIG. 6 is an external perspective view of a main part of a second embodiment of the high frequency heating apparatus with a steam generating function according to the present invention.
7A is a cross-sectional view taken along the line AA in FIG. 6, and is a side cross-sectional view of the apparatus showing a state of light irradiation to the water storage tank, and FIG.
8 is a cross-sectional view taken along the line C-C in FIG. 6 and is a configuration explanatory diagram of a transparent screen attached to a frame plate residual water amount confirmation window and an opening / closing door.
FIG. 9 is a view taken along the line DD in FIG.
[Explanation of symbols]
3 Heating chamber
5 High frequency generation means
7 Steam supply mechanism
13 Opening door
14 Operation panel
15 Partition wall
16 Front frame plate
17 Staller feather
21 Water storage tank
22 Container body
23 Opening and closing lid
25 Water tray
35 Tank storage
36 Tank insertion port
55 Frame board residual water amount confirmation window
55a Flange
57 Case outer wall
61 Opening / closing door body
62 Door front translucent glass
63 Door shield glass
64 chalk
66 Door remaining water amount confirmation window
67 Door decoration frame
70 Tank unit
71 Storage bracket
71a Bottom wall
72 Storage frame
75 Translucent screen
76 Packing
80 Lamp cover
80a reflector
81 Tank irradiation lamp
83 Irradiation light
85,86 Translucent screen
85a, 86a Fitting groove
85b, 86b Flange for sealing
87 light
88 Light irradiation window
89 Reflector
91 Water level
93 Water level scale
94, 95 Seal groove
97, 98 packing

Claims (8)

A high-frequency generating means for outputting a high frequency into a heating chamber that accommodates an object to be heated, and a steam supply mechanism that supplies heating steam into the heating chamber, and at least one of the high frequency and the heating steam is supplied to the heating chamber. A high-frequency heating apparatus with a steam generating function for heating the object to be heated,
The water supply tank of the steam supply mechanism is formed so that at least the front and rear surfaces are made of a transparent material so that the amount of remaining water can be visually recognized, and is hidden behind the opening / closing door that opens and closes the front surface of the heating chamber for taking in and out the heated object. Equipped to the side of the heating chamber,
On the side edge of the open / close door that covers the front side of the water storage tank is equipped with a door residual water amount confirmation window for confirming the residual water amount in the water storage tank, and a packing is closely arranged around the door residual water amount confirmation window high frequency heating apparatus with steam generation function, characterized in that the.   The high frequency heating apparatus with a steam generating function according to claim 1, wherein the water storage tank is configured to emit light.   The high-frequency heating apparatus with a steam generation function according to claim 1 or 2, further comprising a tank irradiation lamp that irradiates light to the water storage tank below the water storage tank.   4. The high frequency heating apparatus with a steam generating function according to claim 3, wherein the tank irradiation lamp is provided at a position near the front under the water storage tank.   The high-frequency heating apparatus with a steam generating function according to claim 1 or 2, further comprising a tank irradiation lamp that irradiates light upward from the lower side of the water storage tank behind the water storage tank.   The high-frequency heating apparatus with a steam generating function according to any one of claims 3 to 5, further comprising a reflector that reflects light of the tank irradiation lamp and indirectly irradiates the water storage tank. Tobirazan water confirmation window formed in the side edge of the door is either one of claims 1 to 6, characterized in that it is covered by the door front translucent glass to be deployed to the front of the door A high-frequency heating device with a steam generating function described in 1. A high-frequency heating apparatus with a steam generation function according to any one of claims 2 to 7 ,
A high-frequency heating apparatus with a steam generating function, wherein the tank irradiation lamp for irradiating light to the water storage tank is turned on at the time of selecting the menu mode setting for steam heating cooking or until the end of cooking after the selection.

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