CN103080654B - Heating cooker - Google Patents

Abstract

This heating cooker is provided with a chute member (61) that receives water droplets that drop down from the back surface of a handle-attached door (2) and that is provided at the bottom end of the handle-attached door (2). A concavity (62) is provided to the top surface of the chute member (61). This concavity (62) has a bottom surface (62a) for guiding water droplets from the rear surface of the handle-attached door (2) to a drip pan vessel (4). The bottom surface (62a) of the concavity (62) is inclined in a manner so that the side towards the rotating shaft of the handle-attached door (2) descends more than the far side from the rotating shaft side of the handle-attached door (2), at least in an intermediate state between the closed state and open state of the handle-attached door (2). A portion of the drip pan vessel (4) is positioned at the bottom surface (62a) of the concavity (62) below the rotating shaft side of the handle-attached door (2), and water droplets that drip down from the rotating shaft side of the handle-attached door at the bottom surface (62a) of the concavity (62) enter the drip pan vessel (4).

Description

Heating device

Technical field

The present invention relates to the heating device of the door possessing swing cover type.

Background technology

Heating device in the past, described in No. 2010-159916, Japanese Laid-Open Patent Publication (patent document 1), comprising: the heating clamber with opening portion; The steam supply device of steam is supplied in heating clamber; And the door of the opening portion of switch heating clamber.Described door is the door of the vertical open type can rotated in vertical direction.

When supplying steam from described steam supply device in heating clamber, the water droplet that the upper attachment of the inwall of heating clamber and the rear surface (towards the surface of heating clamber during closedown) of door is a large amount of.

But, in above-mentioned heating device in the past, when adopt can at the door of the door of the swing cover type of lateral rotation as the opening portion of switch heating clamber time, when opening wide the door of described swing cover type, water droplet can fall from the rear surface of door sometimes.

Therefore, if adopt the door of described swing cover type, then the problem that the setting table etc. that there is heating device is drenched by the water droplet dripped in the rear surface from door.

Patent document 1: No. 2010-159916, Japanese Laid-Open Patent Publication

Summary of the invention

Therefore, the object of the present invention is to provide a kind of heating device that can prevent the water droplet dripped from the rear surface of door from drenching the setting table of heating device etc.

In order to solve the problem, heating device of the present invention comprises: shell, heating clamber, is arranged in described shell and front-surface side has opening portion, for accommodating heating object, steam generation device, produces the steam for heating the heating object in described heating clamber, the door of swing cover type, the sidepiece lateral rotation of a side is arranged on the front surface of described shell freely, for the described opening portion of heating clamber described in switch, first holds dew portion, is arranged on the bottom of described door, for receiving the water droplet dripped from the rear surface of described door, and second holds dew portion, be arranged on the downside of the front surface of described shell, for receiving the water droplet dripped from the front surface of described shell, described first holds dew portion has guide surface, described guide surface is used for the water droplet of the rear surface from described door to hold dew portion from the turning cylinder side guiding described second of described door, at least under the intermediateness between the closed condition and opening-wide state of described door, described guide surface tilts in the mode of the turning cylinder side of described door lower than the turning cylinder side opposite side with described door, described second below being arranged in the turning cylinder side of the described door of described guide surface at least partially of holding dew portion, the water droplet dripped from the turning cylinder side of the described door described guide surface enters described second and holds in dew portion.

In this manual, " rear surface of door " refers to the surface of the rear side being positioned at door when door is closed completely, and in addition, " closed condition of door " refers to the state that door is closed completely, and " opening-wide state of door " refers to the state that door is opened completely.

According to described structure, hold dew portion owing to having first, described first holds the bottom that dew portion is arranged on described door, and for receiving the water droplet dripped from the rear surface of door, even if so water droplet falls from the rear surface of door, described water droplet also can be held dew portion by first and receive.Therefore, it is possible to prevent described water droplet from drenching the setting table and ground etc. of such as heating device.

But, under described water droplet remains in the first state of holding dew portion, when door rotates, there is water droplet and fly out because of centrifugal force and first hold possibility outside dew portion.

Therefore, under state (such as angle of rotation is the state of 20 °) at least beyond the closed condition and opening-wide state of door, of the present invention first guide surface holding dew portion tilts in the mode of the turning cylinder side of door lower than the turning cylinder side opposite side with door, and second hold dew portion be arranged in the below that first holds the turning cylinder side of the door in dew portion at least partially, the water droplet dripped from the turning cylinder side of the door guide surface enters second and holds in dew portion.Hold in dew portion therefore, it is possible to prevent water droplet from remaining in described first, thus the possibility that the surrounding that can reduce heating device is drenched by water droplet.

In the heating device of an embodiment, in whole states of described door, described guide surface tilts in the mode of the turning cylinder side of described door lower than the turning cylinder side opposite side with described door.

According to described embodiment, described guide surface is in whole states of door, due to the first turning cylinder side of holding the door in dew portion lower than first hold in dew portion with the turning cylinder side opposite side of door, so hold by first water droplet that dew portion receives flows to door all the time turning cylinder side along guide surface.Remain in described first hold state in dew portion therefore, it is possible to reliably reduce water droplet.

In the heating device of an embodiment, the mode that the above end side of turning cylinder of described door is positioned at bottom proceeds posterolateral tilts.

According to described embodiment, the mode that the above end side of the turning cylinder due to described door is positioned at bottom proceeds posterolateral tilts, so be in the inclination of the guide surface under closed condition compared to door, the mediate inclination of the guide surface under state and opening-wide state of door is larger.Therefore, by opening wide described door, the easier turning cylinder side flowing to door along guide surface of water droplet of dew portion reception is held by first.

In the heating device of an embodiment, described shell tilts in the mode of rear side lower than front side.

According to described embodiment, because described shell tilts in the mode of rear side lower than front side, so be in the inclination of the guide surface under closed condition compared to door, the mediate inclination of the guide surface under state and opening-wide state of door is larger.Therefore, by opening wide described door, the easier turning cylinder side flowing to door along guide surface of water droplet of dew portion reception is held by first.

In the heating device of an embodiment, also comprise the tabular component overlooked in fan-shaped, described tabular component is arranged on the lower edge of described door, and extends to the bottom of described shell from the lower edge of described door.

According to described embodiment, such as, when taking out pallet in described heating clamber, because described tabular component to extend to the bottom of shell from the lower edge of door, so can receive by tabular component the water droplet dripped between lower edge from pallet towards door and the bottom of shell.Therefore, the surrounding of described heating device is very low by the possibility of drenching.

In the heating device of an embodiment, be provided with gib block at the upper surface of described tabular component, water droplet is directed to the turning cylinder side of described door by described gib block.

According to described embodiment, owing to being provided with the gib block of turning cylinder side water droplet being directed to described door at the upper surface of described tabular component, so the water droplet that the upper surface by tabular component can be received converges to the turning cylinder side of door.Therefore, the operation of the water droplet of the upper surface wiping described tabular component is made to become simple.

Heating device of the present invention comprises: shell; Heating clamber, is arranged in described shell and front-surface side has opening portion, for accommodating heating object; Steam generation device, produces the steam for heating the heating object in described heating clamber; The door of swing cover type, the sidepiece of a side is rotatably arranged on the front surface of described shell, for the described opening portion of heating clamber described in switch; And overlook in fan-shaped tabular component, be arranged on the lower edge of described door, and extend to the bottom of described shell from the lower edge of described door.

According to described structure, because described tabular component to extend to the bottom of shell from the lower edge of door, even if so water droplet falls from the rear surface of door, also described water droplet can be received by tabular component.Therefore, it is possible to prevent described water droplet from such as drenching the setting table and ground etc. of heating device.

In addition, such as, when taking out pallet in described heating clamber, because described tabular component extends to the bottom of shell from the lower edge of door when door opens wide, so can by the water droplet dripped between the lower edge of tabular component reception from pallet towards door and the bottom of shell.Therefore, the surrounding of described heating device is very low by the possibility of drenching.

In the heating device of an embodiment, be provided with gib block at the upper surface of described tabular component, water droplet is directed to the turning cylinder side of described door by described gib block.

According to described embodiment, owing to being provided with the gib block of turning cylinder side water droplet being directed to door at the upper surface of described tabular component, so the water droplet that the upper surface by tabular component can be received converges to the turning cylinder side of door.Therefore, the operation of wiping the water droplet of the upper surface of described tabular component becomes simple.

According to heating device of the present invention, by have be arranged on door bottom, first hold dew portion for what receive the water droplet dripped from the rear surface of door, even if fall water droplet from the rear surface of door, also can hold dew portion by first and receive water droplet, can prevent described water droplet from such as drenching the setting table of heating device and ground etc.

In addition, due at least when described door mediates state, first guide surface holding dew portion tilts in the mode of the turning cylinder side of door lower than the turning cylinder side opposite side with door, and the below being arranged in the turning cylinder side of the door of guide surface at least partially that second holds dew portion, the water droplet dripped from the turning cylinder side of the door guide surface enters second and holds in dew portion, hold in dew portion so prevent water droplet to remain in first, thus the possibility that the surrounding that can reduce heating device is drenched by water droplet.

According to heating device of the present invention, because tabular component to extend to the bottom of shell from the lower edge of door, even if so water droplet falls from the rear surface of door, also described water droplet can be received by tabular component.Therefore, it is possible to prevent described water droplet from such as drenching the setting table and ground etc. of heating device.

Such as, in addition, when taking out pallet in heating clamber, because described tabular component extends to the bottom of shell from the lower edge of door when door opens wide, so can by the water droplet dripped between the lower edge of tabular component reception from pallet towards door and the bottom of shell.Therefore, the surrounding of described heating device is very low by the possibility of drenching.

Accompanying drawing explanation

Fig. 1 is the front view of the heating device of first embodiment of the invention.

Fig. 2 is the top view of the door opening-wide state with handles of described heating device.

Fig. 3 is the front view of the door opening-wide state with handles of described heating device.

Fig. 4 is the schematic cross-sectional view of described heating device.

Fig. 5 is the stereogram that the shell of described heating device takes off state.

Fig. 6 is door, the guidance panel with handles of described heating device and holds the stereogram revealing container.

Fig. 7 is the direction of arrow sectional drawing of the F7-F7 line along Fig. 6.

Fig. 8 is the schematic elevational view of the door with handles of described heating device.

Fig. 9 is the schematic cross-sectional view of the door opening-wide state with handles of described heating device.

Figure 10 is the schematic cross-sectional view of the door opening-wide state with handles of the heating device of second embodiment of the invention.

Figure 11 is the schematic cross-sectional view of the door opening-wide state with handles of the variation of the heating device of second embodiment of the invention.

Figure 12 is the schematic plan of the door opening-wide state with handles of the heating device of third embodiment of the invention.

Figure 13 is the schematic plan of the door opening-wide state with handles of the variation of the heating device of third embodiment of the invention.

Description of reference numerals

1,201 ... shell

2 ... door with handles

3 ... guidance panel

4 ... hold dew container

8,208 ... heating clamber

8a ... air supply opening

8b ... exhaust outlet

8c, 208c ... opening portion

9 ... electrical equipment room

10 ... breathing space

11,11 ... thermal insulation board

13 ... steam generation device

15 ... container incorporating section

16 ... cooling fan

17 ... air entry

18 ... blast pipe

21 ... spaced walls

23 ... heating object

24 ... steam generation heater

26 ... heater

35 ... supply-water pump

51 ... magnetron

61 ... water guide component

62 ... recess

62a ... bottom surface

63 ... notch

120 ... door main body

121 ... inside casing

122 ... chokes cover

123 ... liner

300 ... tabular component

301 ... gib block

R ... turning cylinder

Detailed description of the invention

Below, heating device of the present invention is illustrated by illustrated embodiment.

(the first embodiment)

Fig. 1 is the front view of the heating device of first embodiment of the invention.

Described heating device comprises shell 1 and is installed on the door 2 with handles of front-surface side of described shell 1.In the cardinal principle central authorities of described door 2 with handles, heat resistant glass 5 is installed.In addition, be provided with guidance panel 3 in the front-surface side of shell 1, described guidance panel 3 is adjacent with the door 2 with handles when closing.And, be configured with in the below of door 2 with handles and guidance panel 3 and hold dew container 4.In addition, door 2 with handles is an example of door of the present invention, and holding dew container 4 is the of the present invention second example of holding dew portion.

Described guidance panel 3 has liquid crystal display part 7, and described liquid crystal display part 7 shows accordingly with operation.In addition, guidance panel 3 is provided with multiple buttons etc., but does not illustrate.

Described dew container 4 two front support legs 6,6 that can arrange relative to the lower front of shell 1 that hold are installed and removed.And, when hold dew container 4 insert the downside of shell 1 from front towards rear and be arranged on front support leg 6,6 time, hold the below of the rear surface (back side) of the door 2 with handles when the part revealing container 4 is positioned at closedown.

Fig. 2 is the top view being in full-gear (opening-wide state) from the door 2 with handles of the described heating device of top view.In addition, Fig. 3 is the front view being in full-gear from the door 2 with handles of the described heating device of front observation.

In the shell 1 shown in Fig. 2, Fig. 3, be provided with the heating clamber 8 for heating heating object 23 (with reference to Fig. 4).The front-surface side of heating clamber 8 has opening portion 8c, and described opening portion 8c is switch by the lateral rotation of door 2 with handles.Herein, door 2 with handles with the sidepiece of guidance panel 3 side opposite side, that be rotatably installed on shell 1 by hinge 25 (with reference to Fig. 9) with sidepiece that is guidance panel 3 side opposite side.

The rear surface of described door 2 with handles is provided with latch hook 90.When door 2 with handles is closed, the inserting hole 91 set by circumference of described latch hook 90 insertion opening portion 8c, and the bolt lock mechanism (not shown) in shell 1 is locked in the mode removing locking.In addition, user removes the locking of latch hook 90 by the handle 2a holding door 2 with handles.

In addition, in figure 3, the steam that steam generation device 13 (with reference to Fig. 5) produces blows out by steam blow-off outlet 80 in heating clamber 8.

Fig. 4 is the schematic cross-sectional view of described heating device.

In described heating device, utilize cooling fan 16, the air outside shell 1 is inhaled in shell 1 by multiple air entry 17.Be inhaled into a part for the air in shell 1 by described multiple air entry 17, by behind electrical equipment room 9, open from air feed baffle plate 50 and be in multiple air supply opening 8a inflow heating clambers 8 of open mode.On the other hand, be inhaled into another part of the air in shell 1 by described multiple air entry 17, by behind electrical equipment room 9, flow to the bottom side of shell 1, and flow into the cooling air intake 101 of discharge duct 100 by the air channel 112 on the downside of heating clamber 8.

In addition, a part for the air in described heating clamber 8, is discharged to discharge duct 100 by exhaust outlet 8b and blast pipe 18, and in discharge duct 100 with mix from cooling air intake 101 leaked-in air and diluted.By the air diluted in described discharge duct 100, blow out in the end of holding dew container 4 one side from the multiple outlets 102 being arranged at discharge duct 100.

, flow through a part for the air in described air channel 112 herein, blow out in the end of holding dew container 4 one side from the multiple cooling air blow-off outlets 70 set by the front-surface side of the base plate of shell 1.

In addition, the heater 26 in Fig. 4 is for heating heating object 23.In addition, the multiple narrow orifices of each air entry 17 set by the rear portion of shell 1 are formed.

Fig. 5 is from rear and the shell 1 of described heating device that oblique upper is observed takes off the stereogram of state.

In described shell 1, in the side of heating clamber 8 and the rear of guidance panel 3 is provided with electrical equipment room 9, at the rear of heating clamber 8 and the rear of electrical equipment room 9 is provided with breathing space 10.

The heater 26 for heating heating object 23 is configured with in space, upside in described heating clamber 8.

On the other hand, outside described heating clamber 8, above heating clamber 8, below, rear and two sides be configured with respectively thermal insulation board 11,11 ...That is, thermal insulation board 11,11 ... be configured in heating clamber 8 except the 8c of opening portion around.In addition, heat-barrier material (not shown) is filled with in the space between thermal insulation board 11 and heating clamber 8.In addition, the diagram of the thermal insulation board above heating clamber 8 is eliminated in Figure 5.

In addition, the steam generation device 13 producing steam is configured with in the back-surface side of described heating clamber 8.In addition, the supply-water pump 35 be connected to by feed pipe (not shown) on steam generation device 13 is configured with in the downside of heating clamber 8.

The container incorporating section 15, magnetron 51, power transformer 52 etc. of storage water supply container (not shown) is configured with in described electrical equipment room 9.And when heating heating object 23, the cooling air from cooling fan 16 flows through in electrical equipment room 9, can cool electrical equipment such as magnetron 51 grade.

The microwave that described magnetron 51 produces is directed to the lower central of heating clamber 8 by waveguide (not shown), and by rotary antenna (not shown) while stirring to the top radiation in heating clamber 8, to heat heating object 23.

Be accommodated in the water in the water supply container of described incorporating section 15, be supplied to steam generation device 13 by supply-water pump 35 by feed pipe (not shown).Steam generation device 13 utilizes steam generation heater 24 to heat water from supply-water pump 35, thus produces steam.

With driving cooling fan 16, the air outside shell 1 flows into described breathing space 10 from multiple air entry 17 (with reference to Fig. 4).And the air in breathing space 10 is sent in electrical equipment room 9 by cooling fan 16.

In addition, the spaced walls 21 in Fig. 5 separates electrical equipment room 9 and breathing space 10.Cooling fan 16 is installed on described spaced walls 21.

Fig. 6 is from rear and oblique upper door 2 described with handles, the guidance panel 3 observed and hold the stereogram of dew container 4.In addition, Fig. 7 is the sectional drawing observed from the F7-F7 line of Fig. 6.

As shown in Figure 6, Figure 7, described door 2 with handles comprises: as the door main body 120 of the heat stable resin of housing; Be installed on the metal inside casing 121 of described door main body 120; And cover the chokes cover 122 of heat stable resin of edge, periphery 121a of described inside casing 121.

Edge, the periphery 121a of described inside casing 121 has bending, choke structure for preventing high frequency from revealing to the inside.Described choke structure is made up of multiple comb.

The Inner peripheral portions of described chokes cover 122 is provided with liner 123.When door 2 with handles is closed, described liner 123 contacts the circumference of the opening portion 8c of heating clamber 8.Like this, steam in heating clamber 8 etc. can be prevented by leaking into outside between the front surface of shell 1 and the rear surface of door 2 with handles.

The described dew container 4 that holds has and laterally long rectangular first holds dew recess 141, and be arranged on described first hold dew recess 141 front second hold dew recess 142, the first hold dew recess 141 and second hold dew recess 142 by be arranged at hold dew container 4 rib 143 and separated.

Described first both sides of holding dew recess 141 are provided with chimeric recess 145A, 145B of rear openings.And, be provided with bending arm 146A, 146B of rearward extending in chimeric recess 145A, 145B.In addition, first in chimeric recess 145A, 145B holds dew recess 141 side and is provided with guide part 147A, 147B.

By described hold two front support legs 6,6 (shown in Fig. 1, Fig. 3) set by lower front that dew container 4 is installed to shell 1 upper time, the fitting projection (not shown) of front support leg 6,6 is guided by guide part 147A, the 147B being held dew container 4 and is embedded in chimeric recess 145A, 145B.Now, hold dew container 4 bending arm 146A, 146B by occur elastic deformation, with guide part 147A, 147B co-operating, clamping front support leg 6,6 fitting projection, thus will hold reveal container 4 be held in front support leg 6,6.

In addition, in the lower edge of described door 2 with handles, water guide component 61 is installed.Water guide component 61 receives the water droplet dripped from the rear surface of door 2 with handles.In addition, the upper surface of water guide component 61 is provided with recess 62.Described recess 62 has bottom surface 62a.In addition, be provided with notch 63 in the end of turning cylinder R (with reference to Fig. 8, Fig. 9) side of water guide component 61, the water droplet in recess 62 holds in dew container 4 by entering after notch 63.In addition, water guide component 61 is the of the present invention first example of holding dew portion, and bottom surface 62a is an example of guide surface of the present invention.

Fig. 8 is the schematic diagram of door 2 closed condition with handles of the described heating device observed from front.

When closing described door 2 with handles, the bottom surface 62a of the recess 62 of water guide component 61 tilts lower than the mode of guidance panel 3 side (for right side in Fig. 8) with the turning cylinder R side of door 2 with handles (for left side in Fig. 8).Also this inclination is there is, in addition, as shown in Figure 9, even if door with handles 2 becomes full-gear also there is this inclination in door 2 with handles rotates.That is, in whole states of door 2 with handles, the bottom surface 62a of the recess 62 of water guide component 61 tilts in the mode of the turning cylinder R side of door 2 with handles lower than guidance panel 3 side.In addition, in whole states of door 2 with handles, the end of holding a side of dew container 4 is positioned at the below of notch 63.Herein, the turning cylinder R of door 2 with handles is parallel to vertical direction.

In the heating device of described structure, after the water supply container of the water putting into necessary amount is accommodated in container incorporating section 15, the cooking of steam brought into use by operation guidance panel 3.Thus, the heater 26 being configured in upside in heating clamber 8 is connected, and supply-water pump 35 is actuated to the water that supplies to steam generation device 13 in water supply container.The water supplied to described steam generation device 13 is heated by steam generation heater 24, produces steam.Described steam is blown out in heating clamber 8 from steam blow-off outlet 80, and is heated by heater 26 in heating clamber 8 and become the overheated steam of more than 100 DEG C.Like this, by from the radiant heat of heater 26 of upside in heating clamber 8 and the overheated steam of more than 100 DEG C, cooking is carried out to the food in heating clamber 8.Now, due to supply to food surface and the overheated steam adhered to after food surface condensation to a large amount of latent heat of condensation of food supply, so heat efficiently can be transmitted to food.

Described heating device can not use steam and only use heater 26 to carry out the barbecue cooking, also can not use heater 26 and the steam that only utilizes steam generation device 13 to produce carries out steamed and boiled etc.

As mentioned above, when using steam in cooking, water droplet is attached to the rear surface of door 2 with handles.Even if open wide door 2 with handles in this condition, because the water droplet dripped from the rear surface of door 2 with handles is received by water guide component 61, so can prevent described water droplet from such as being drenched in the setting table of heating device and ground etc.

In addition, as indicated by the arrows in fig. 9, when described door 2 standard-sized sheet with handles, the water droplet in the recess 62 of water guide component 61 flows to turning cylinder R side, and falls from notch 63 in the end of the side holding dew container 4.Therefore, it is possible to prevent water droplet from remaining in water guide component 61.

Supposing that water droplet remains in water guide component 61 in the state of figure 9, when being rotated to closing direction by door 2 with handles, there is water droplet outer and splash the possibility of user because centrifugal force flies to water guide component 61.Therefore, prevent in water guide component 61, retaining water droplet and can reduce the possibility of drenching around heating device.

In addition, described door 2 with handles is being opened to whole states of the opening-wide state of Fig. 8 from the closed condition of Fig. 1, because the bottom surface 62a of the recess 62 of water guide component 61 tilts in the mode of the turning cylinder R side of door 2 with handles lower than guidance panel 3 side, so the water droplet received by water guide component 61 flows to the turning cylinder R side of door 2 with handles all the time.Therefore, it is possible to reliably reduce the state retaining water droplet in recess 62.

According to described first embodiment, in whole states of door 2 with handles, tilt in the mode of the turning cylinder R side of the bottom surface 62a of the recess 62 of water guide component 61 lower than guidance panel 3 side of the bottom surface 62a of the recess 62 of water guide component 61, but such as also only when door 2 with handles becomes intermediateness and opening-wide state, can tilt in the mode of the turning cylinder R side of the bottom surface 62a of the recess 62 of water guide component 61 lower than guidance panel 3 side of the bottom surface 62a of the recess 62 of water guide component 61.

(the second embodiment)

Figure 10 is the schematic cross-sectional view being in full-gear (opening-wide state) from the door 2 with handles of the heating device of side observation second embodiment of the invention.Described Figure 10 exaggeration illustrates the feature of the heating device of described second embodiment.In addition, in Fig. 10, to the structure member identical with the structure member of the first embodiment shown in Fig. 9, the mark Reference numeral identical with the structure member of Fig. 9 also eliminates explanation.

According to the heating device of described second embodiment, shell 1 tilts in the mode of rear side lower than front side.Specifically, the end face of shell 1 is to tilt horizontal by the mode of 0.3 ° ~ 0.7 ° (such as 0.5 °).By two front support legs 6,6 (with reference to Fig. 1, Fig. 2) set by the lower front of shell 1, and on rear side of the bottom of shell 1, set two rear legs 219,219 (illustrate only in Figure 10) obtain this inclination.That is, front support leg 6,6 and rear leg 219,219 are formed as the front portion that makes the rear portion of shell 1 lower than shell 1.Therefore, the mode that the above end side of the front surface of shell 1 is positioned at bottom proceeds posterolateral tilts.And, owing to being provided with door 2 with handles on the front surface of shell 1, so the turning cylinder R of the door 2 with handles mode that also above end side is positioned at bottom proceeds posterolateral tilts.

According to the heating device of described structure, the mode that the above end side of turning cylinder R due to door 2 with handles is positioned at bottom proceeds posterolateral tilts, so be in the inclination of the bottom surface 62a of the recess 62 of the water guide component 61 under closed condition compared to door 2 with handles, the mediate inclination of bottom surface 62a of recess 62 of the water guide component 61 under state and opening-wide state of door 2 with handles is larger.Therefore, by opening wide door 2 with handles, the water droplet in the recess 62 of water guide component 61 easily flows to the turning cylinder R side of door 2 with handles along bottom surface 62a.

In addition, described door 2 with handles mediates the inclination of bottom surface 62a of recess 62 of the water guide component 61 under state and opening-wide state, also larger than the mediate inclination of bottom surface 62a of recess 62 of the water guide component 61 under state and opening-wide state of the door 2 with handles of described first embodiment.Therefore, for preventing water droplet from remaining in effect in recess 62, the second embodiment is higher than described first embodiment.

In addition, because described shell 1 tilts in the mode of rear side lower than front side, so by means of only the door 2 of the front surface mounting strap handle at described shell 1, the mode that the above end side of turning cylinder R of door 2 with handles just can be made to be positioned at bottom proceeds posterolateral tilts.Therefore, can under the prerequisite not causing cost significantly to rise, the mode that above end side is positioned at bottom proceeds posterolateral makes the turning cylinder R of door 2 with handles tilt.

As the above-mentioned method making the turning cylinder R of door 2 with handles tilt, also there is the method using the shell 201 shown in Figure 11.Although described shell 201 top surface being parallel is in horizontal plane, the mode that above end side is positioned at bottom proceeds posterolateral tilts., use shell 201 that cost can be caused significantly to rise.

In addition, when using described shell 201, need in shell 201, arrange the heating clamber 208 that front-surface side has opening portion 208c.

(the 3rd embodiment)

Figure 12 is the schematic plan that the door 2 with handles of the heating device of third embodiment of the invention from top view is in full-gear (opening-wide state).In addition, in fig. 12, to the structure member identical with the structure member of the first embodiment shown in Fig. 2, the mark Reference numeral identical with the structure member of Fig. 2 also eliminates explanation.In addition, in the following description, to the structure member identical with the structure member of the first embodiment, the Reference numeral identical with the structure member of the first embodiment is marked.

The heating device of described 3rd embodiment possesses the tabular component 300 overlooked in fan-shaped, and described tabular component 300 is arranged on the lower edge of door 2 with handles, and extends to the bottom of shell 1 from the lower edge of door 2 with handles.As shown in double dot dash line, when closing door 2 with handles, described tabular component 300 is housed in shell 1.In addition, the upper surface of tabular component 300 is substantially smooth, and tilts in the mode of the turning cylinder R side of door 2 with handles lower than the turning cylinder side opposite side with door 2 with handles.In addition, the end of holding a side of dew container 4 is arranged in the below of the turning cylinder R side of the door 2 with handles of tabular component 300.

According to the heating device of described structure, when door 2 with handles mediates state, because tabular component 300 to extend to the bottom of shell 1 from the lower edge of door 2 with handles, even if so water droplet falls from the rear surface of the door 2 with handles of intermediateness, described water droplet also can be received by tabular component 300.In addition, when door 2 with handles becomes opening-wide state and such as take out pallet in heating clamber 8, because tabular component 300 to extend to the bottom of shell 1, so can receive the water droplet dripped from pallet from the lower edge of door 2 with handles.

As mentioned above, because the water droplet dripped from rear surface and the pallet of described door 2 with handles can be received by tabular component 300, the possibility that described water droplet therefore can be made to drench around heating device is very low.

In addition, because described tabular component 300 tilts in the mode of the turning cylinder R side of door 2 with handles lower than the turning cylinder side opposite side with door 2 with handles, and the end of holding a side of dew container 4 is arranged in the below of the turning cylinder R side of the door 2 with handles of tabular component 300, so the water droplet received by tabular component 300 can be made to flow to the turning cylinder R side of door 2 with handles, and fall in the end of the side holding dew container 4.Therefore, it is possible to reduce the trouble of the water droplet wiped on tabular component 300.

In described 3rd embodiment, in the lower edge of door 2 with handles, water guide component 61 can be installed, also water guide component 61 can not be installed.When installing water guide component 61 in the lower edge of described door 2 with handles, preferably water guide component 61 is arranged on above tabular component 300.

As shown in figure 13, in described 3rd embodiment, also multiple gib block 301 can be set at the upper surface of tabular component 300.Described gib block 301 radially extends centered by the turning cylinder R of door 2 with handles, water droplet is directed to the turning cylinder R side of door 2 with handles.Like this, the water droplet that can reliably make the upper surface of tabular component 300 remain falls in the end of the side holding dew container 4.

According to described first ~ three embodiment, exhaust in heating clamber 8 being entered by blast pipe 18 and discharge duct 100 holds in dew container 4, but also discharge duct 100 can not be set, but by the exhaust in heating clamber 8 from blast pipe 18 directly enter hold dew container 4 in.

Heating device of the present invention can be not only the grill microwave oven such as using overheated steam, can also be the baking box of use overheated steam, not use the grill microwave oven of overheated steam and do not use the baking box etc. of overheated steam.

According to heating device of the present invention, in grill microwave oven etc., by using overheated steam or saturated steam, the healthy cooking can be carried out.Such as according to heating device of the present invention, to the overheated steam of food surface supplying temperature more than 100 DEG C or saturated steam, because the overheated steam of food surface attachment or saturated steam condense a large amount of latent heat of condensation of backward food supply, so can to the efficient transferring heat of food.In addition, be attached to food surface by making condensed water and together drip with salinity and oil content, the salinity in food and oil content can be reduced.And, utilize in heating clamber and be full of overheated steam or saturated steam and be in hypoxia, the cooking suppressing Food Oxidation can be carried out.Herein, hypoxia refers to that the volume % of heating indoor oxygen is the state of less than 10% (such as 1.0 ~ 0.5%).

Be explained above the specific embodiment of the present invention, but the invention is not restricted to described embodiment, various change can be carried out within the scope of the invention.Such as, can appropriately combined described first ~ three embodiment record content as an embodiment of the invention.

Claims (8)

1. a heating device, is characterized in that comprising:

Shell (1,201);

Heating clamber (8,208), is arranged in described shell (1,201) and front-surface side has opening portion (8c, 208c), for accommodating heating object (23);

Steam generation device (13), produces the steam for heating the heating object (23) in described heating clamber (8,208);

The door (2) of swing cover type, the sidepiece lateral rotation of a side is arranged on the front surface of described shell (1,201) freely, for the described opening portion (8c, 208c) of heating clamber described in switch (8,208);

First holds dew portion (61), is arranged on the bottom of described door (2), for receiving the water droplet dripped from the rear surface of described door (2); And

Second holds dew portion (4), is arranged on the downside of the front surface of described shell (1,201), for receiving the water droplet dripped from the front surface of described shell (1,201),

Described first holds dew portion (61) has guide surface (62a), described guide surface (62a) is for holding dew portion (4) by the water droplet of the rear surface from described door (2) from turning cylinder (R) the side guiding described second of described door (2)

At least under the intermediateness between the closed condition and opening-wide state of described door (2), described guide surface (62a) tilts in the mode of the turning cylinder of described door (2) (R) side lower than turning cylinder (R) the side opposite side with described door (2)

Described second below being arranged in turning cylinder (R) side of the described door (2) of described guide surface (62a) at least partially of holding dew portion (4), the water droplet dripped from turning cylinder (R) side of the described door (2) described guide surface (62a) enters described second and holds in dew portion (4).

2. heating device according to claim 1, it is characterized in that, in whole states of described door (2), described guide surface (62a) tilts in the mode of the turning cylinder of described door (2) (R) side lower than turning cylinder (R) the side opposite side with described door (2).

3. heating device according to claim 1 and 2, is characterized in that, the mode that turning cylinder (R) the above end side of described door (2) is positioned at bottom proceeds posterolateral tilts.

4. heating device according to claim 1, is characterized in that, described shell (1) tilts in the mode of rear side lower than front side.

5. heating device according to claim 1, it is characterized in that, also comprise the tabular component (300) overlooked in fan-shaped, described tabular component (300) is arranged on the lower edge of described door (2), and extends to the bottom of described shell (1) from the lower edge of described door (2).

6. heating device according to claim 5, it is characterized in that, be provided with gib block (301) at the upper surface of described tabular component (300), water droplet is directed to turning cylinder (R) side of described door (2) by described gib block (301).

7. a heating device, is characterized in that comprising:

Shell (1);

Heating clamber (8), is arranged in described shell (1) and front-surface side has opening portion (8c), for accommodating heating object (23);

Steam generation device (13), produces the steam for heating the heating object (23) in described heating clamber (8);

The door (2) of swing cover type, the sidepiece of a side is rotatably arranged on the front surface of described shell (1), for the described opening portion (8c) of heating clamber described in switch (8); And

Overlook in fan-shaped tabular component (300), be arranged on the lower edge of described door (2), and extend to the bottom of described shell (1) from the lower edge of described door (2).

8. heating device according to claim 7, it is characterized in that, be provided with gib block (301) at the upper surface of described tabular component (300), water droplet is directed to turning cylinder (R) side of described door (2) by described gib block (301).