Drainage structure of steam oven
Technical Field
The invention relates to a steam oven, in particular to a drainage structure of the steam oven.
Background
The existing steam oven not only can be used for baking food, but also has the functions of cooking food and the like, and mainly realizes cooking by providing steam for the inner container of the oven body through the steam generating device. However, during the cooking process, the inner container forms certain condensed water; for this purpose, a water pan is generally provided at the bottom of the steam oven to receive condensed water. In addition, because the steam oven has storage water tank, water pump, steam generating device etc. that is there is the water route promptly, when the storage water tank is taken out, because there is residual water in the water route, residual water can flow to the bottom plate of steam oven, consequently, is equipped with the outlet on the bottom plate generally, outlet and water collector intercommunication. That is, the water pan is simultaneously communicated with the position where the electric device is arranged on the inner container and the steam oven, so that the water vapor is discharged simultaneously in the water discharging process of the inner container, and enters the position where the electric device is arranged on the steam oven through the water pan, and short circuit is easily caused.
Disclosure of Invention
The invention aims to provide a drainage structure of a steam oven, which has reasonable structure and can not lead discharged steam to enter the installation position of an electric device.
The purpose of the invention is realized in the following way:
The utility model provides a steam oven drainage structures, includes inner bag, steam generator and water collector, steam generator's steam outlet and inner bag intercommunication, and the inner bag bottom is equipped with first outlet, and the water collector sets up the inner bag below to with first outlet intercommunication, its characterized in that: the water receiving disc is internally provided with a first water receiving area and a second water receiving area, the first water receiving area is a sealed water receiving disc, the sealed water receiving disc is provided with a water receiving nozzle, and the water receiving nozzle is communicated with the first water outlet.
The aim of the invention can be also solved by adopting the following technical measures:
as a more specific scheme, the sealed water pan comprises a groove body and a cover body, wherein the cover body covers the groove body, and the cover body is in sealing fit with the groove body.
As a further scheme, a water storage tank is arranged in the first water receiving area of the water receiving disc corresponding to the water receiving nozzle, and the top surface of the water storage tank is higher than the top surface of the inner end of the water receiving nozzle. When the water storage tank is full of water, water overflows to the first water receiving area, and the water of the water storage tank can prevent steam in the liner from being discharged to the first water receiving area. In addition, even if the water receiving disc is fully filled with water, when the water receiving box is pulled out, only a small part of water remained in the water storage groove, the water receiving nozzle and the water discharging pipe overflows, so that a large amount of water in the water receiving disc cannot overflow from the water receiving nozzle.
As a further aspect, the first water receiving area volume is smaller than the second water receiving area volume. So as to avoid direct communication between the outside large area and the inner container and reduce heat loss.
As a further scheme, the lower part of the first water receiving area is provided with a leakage hole, the leakage hole is communicated with the second water receiving area, and the height of the leakage hole is lower than that of the water receiving nozzle. Because the leakage hole is close to the inner bottom of the water receiving disc, water entering the first water receiving area can quickly submerge the leakage hole and flow to the second water receiving area through the leakage hole so as to slow down the water filling speed of the first water receiving area; in addition, because the diameter of the leakage hole is smaller, the temperature of the water vapor can be reduced when the water vapor passes through the leakage hole, and the water vapor is condensed, so that the water vapor which has influence on the interlayer electric device is not generated.
As a further scheme, the outer shell is arranged outside the inner container, and the water receiving tray is buckled outside the bottom of the outer shell.
As a further scheme, first outlet and drain pipe connection, the drain pipe lower extreme stretches out outside the shell bottom, and the shell bottom is equipped with the socket, and the water collector that corresponds the water collector of socket side is equipped with the jack, water collector outer wall and jack inner wall sealing fit.
As a further scheme, an interlayer is formed between the inner container and the shell, a water storage tank, a water pump and a steam generating device are arranged in the interlayer, a second water outlet is formed in the bottom of the shell corresponding to the second water receiving area, and the water storage tank, the water pump and the steam generating device are located above the second water outlet. When the water storage tank is pulled out, even if residual water exists in a waterway connected with the water storage tank, the residual water falls on the bottom plate of the shell and then falls into a second water receiving area through a second water outlet.
As a further scheme, the bottom of the shell is provided with supporting feet, the water receiving tray is provided with clamping grooves corresponding to the supporting feet, and the clamping grooves are buckled with the supporting feet to fix the water receiving tray.
As a further scheme, the bottom of the shell is provided with an elastic buckle plate, the water receiving disc is provided with a buckling groove corresponding to the elastic buckle plate, and the elastic buckle plate is buckled with the buckling groove to further fix the water receiving disc.
The beneficial effects of the invention are as follows:
The water receiving disc of the steam oven drainage structure is provided with the sealing water receiving disc corresponding to the first water outlet of the inner container, so that even if part of water vapor in the inner container is discharged into the sealing water receiving disc through the first water outlet, the water vapor can not enter an interlayer of the steam oven provided with an electric device through the water receiving disc, short circuit of the electric device is avoided, and the use risk is reduced.
Drawings
Fig. 1 is a schematic view of an exploded structure of a water pan according to the present invention.
Fig. 2 is a schematic diagram of a front view structure of the present invention.
FIG. 3 is a schematic view of the cross-sectional structure A-A of FIG. 2.
Fig. 4 is an enlarged schematic view of the structure at B in fig. 3.
Fig. 5 is a partially exploded view of the present invention.
Fig. 6 is a schematic view of an angle structure of the casing of the present invention after being opened.
Detailed Description
The invention is further described below with reference to the drawings and examples.
Referring to fig. 1 to 6, as a basic scheme, a drainage structure of a steam oven 1 includes a liner 5, a steam generating device 7 and a water receiving disc 4, a steam outlet of the steam generating device 7 is communicated with the liner 5, a first drainage outlet 51 is arranged at the bottom of the liner 5, and the water receiving disc 4 is arranged below the liner 5 and is communicated with the first drainage outlet 51, and is characterized in that: the water receiving disc 4 is internally provided with a first water receiving area 46 and a second water receiving area 49, the first water receiving area 46 is a sealed water receiving disc, the sealed water receiving disc is provided with a water receiving nozzle 45, and the water receiving nozzle 45 is communicated with a first water outlet 51. The back of the inner container 5 is provided with a steam inlet 53, and the steam generator 7 is communicated with the steam inlet 53. Heating pipes 50 are arranged at the upper wall, the rear wall and the lower wall of the inner container 5.
The sealed water pan comprises a groove body and a cover body 43, the cover body 43 covers the groove body, and the cover body 43 is in sealing fit with the groove body.
The first water receiving area 46 has a smaller volume than the second water receiving area 49.
The outer shell 6 is arranged outside the inner container 5, and the water receiving disc 4 is buckled outside the bottom of the outer shell 6.
The first water outlet 51 is connected with a water drain pipe 632, the lower end of the water drain pipe 632 extends out of the bottom of the shell 6, a socket 633 is arranged at the bottom of the shell 6, a jack is arranged on the side surface of the socket 633 corresponding to the water receiving nozzle 45 of the water receiving disc 4, and the outer wall of the water receiving nozzle 45 is in sealing fit with the inner wall of the jack.
An interlayer is formed between the liner 5 and the shell 6, a water storage tank 2, a water pump 21 and a steam generating device 7 are arranged in the interlayer, a second water outlet 631 is formed at the bottom of the shell 6 corresponding to the second water receiving area 49, and the water storage tank 2, the water pump 21 and the steam generating device 7 are located above the second water outlet 631.
The bottom of the shell 6 is provided with supporting feet, the water receiving tray 4 is provided with clamping grooves 410 corresponding to the supporting feet, and the clamping grooves 410 are buckled with the supporting feet.
The bottom of the shell 6 is provided with an elastic buckle plate 630, the water receiving disc 4 is provided with a buckling groove 44 corresponding to the elastic buckle plate 630, and the elastic buckle plate 630 is buckled with the buckling groove 44.
The working principle is as follows: when the liner is drained, a part of the water vapor is also drained through the first drain outlet 51, but because the first water receiving area 46 has a smaller volume and is closed, the water vapor can only stay in the first water receiving area 46 and cannot enter the interlayer.
As a more preferable embodiment, a water storage tank 47 is provided in the first water receiving area 46 of the water receiving disc 4 corresponding to the water receiving nozzle 45, and the top surface of the water storage tank 47 is higher than the top surface of the inner end of the water receiving nozzle 45. When the water storage tank 47 is full of water, the water overflows to the first water receiving area 46, and the water in the water storage tank 47 can prevent steam in the liner from being discharged into the first water receiving area 46. In addition, even if the water receiving tray 4 is completely filled with water, only a small portion of the water remaining in the water storage tank 47, the water receiving nozzle 45 and the drain pipe overflows when the water receiving box 4 is pulled out, so that a large amount of water in the water receiving tray cannot overflow from the water receiving nozzle 45.
The lower part of the first water receiving area 46 is provided with a leakage hole 48, the leakage hole 48 is communicated with a second water receiving area 49, and the height of the leakage hole 48 is lower than that of the water receiving nozzle 45.
The working principle is as follows: because the weep hole 48 is near the bottom of the water pan 4, water entering the first water receiving area 46 can quickly flood the weep hole 48 and flow through the weep hole 48 to the second water receiving area 49 to slow the water filling rate of the first water receiving area 46; in addition, because the aperture of the leakage hole 48 is small, the temperature of the water vapor will drop when passing through the leakage hole 48, and thus the water vapor is condensed, so that the water vapor which has an influence on the interlayer electric device is not generated.