CN209018412U - Scorch all-in-one machine - Google Patents

Abstract

One kind scorching all-in-one machine, including rack (10), the first liner (1), the second liner (2), the first door component (3) and the second door component (4), the first liner (1) bottom has condensate evaporation disk (73)；Second liner (2) is set on aforementioned rack (10) and is located at below the first liner (1)；It is characterized in that being equipped with middle wind guiding mechanism (7) between first liner (1) and the second liner (2).On the one hand middle wind guiding mechanism with semiconductor refrigerating component utilizes the condensed water to the first liner to be evaporated, the outlet of another aspect centering wind guiding mechanism carries out cooling to reduce door body temperature rise, realizes the cascade utilization of energy.

Description

Scorch all-in-one machine

Technical field

The utility model relates to a kind of machine for kitchen use more particularly to a kind of steam and baking in together scorch all-in-one machine.

Background technique

It scorches that all-in-one machine is more and more currently on the market, the embedded band of two inner containers up and down is generally used to steam the machine of function Device, each liner are equipped with independent door component, and wherein upper inner-liner can realize steam function, bottom inner container can realize it is roasting, steam and Scorch the function of working at the same time.For reduce upper inner-liner condensation water quantity, by the bottom end of upper inner-liner increase an electric heating plate, Heating condensate water realizes evaporation, and condensate evaporation disk is usually an electric heating plate, can evaporate again condensed water after energization.Up and down Individual door component is respectively adopted in liner, and operating display (and upper inner-liner door handle) is located on the outer glass of upper door component, It is convenient for the user to operate.

It because space size is limited, generallys use an air outlet and is placed in above upper inner-liner, bottom inner container uses steaming function During, door component is opened, and a large amount of steam are escaped outward in bottom inner container, and because of no external force, most of steam is escaped outward During, it is upward ascension, causes a large amount of steam condensations on upper inner-liner door component and operating display to generate droplet, influence User's operation experience.

In addition, bottom inner container not only can be steamed but also can be baked, maximum temperature, to reduce Xiamen body temperature liter, is led to up to 250 DEG C when baking functions Frequently with triplex glass, and one of is LOW-E glass (also known as low emissivity glass), and this structural cost is higher, needs to change Into.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of door component opening for the above-mentioned state of the art When can be reduced the upward ascension of steam scorch all-in-one machine.

Another technical problem to be solved in the utility model is provided a kind of by nothing for the above-mentioned state of the art Need what electric heating plate was also able to achieve evaporation condensed water to scorch all-in-one machine.

Another technical problem to be solved in the utility model is to provide a kind of group for the above-mentioned state of the art The included cooling structure of part scorches all-in-one machine.

Technical solution adopted by the utility model to solve the above technical problems is as follows: one kind scorches all-in-one machine, including

Rack；

The first liner with steam function is set in aforementioned rack, and bottom has condensate evaporation disk；

At least with the second liner of baking functions mode, it is set in aforementioned rack and is located at below the first liner；

First door component, the port set on aforementioned first liner that can be opened and closed；And

Second door component, the port set on aforementioned second liner that can be opened and closed；

It is characterized in that being equipped with middle wind guiding mechanism between first liner and the second liner, wind guiding mechanism includes in this

Middle wind scooper has air-guiding aisle and the inlet end communicated with aforementioned air-guiding aisle and outlet side, the outlet side shape At the outlet port having towards the second door component opening direction；

Middle blower is set on aforementioned middle wind scooper, for accelerating air to flow；And

Semiconductor refrigerating component, on aforementioned middle wind scooper and with exposed collecting end of heat and in air-guiding aisle Collect cold end；Collecting end of heat above-mentioned and condensate evaporation disk thermal contact conductance above-mentioned.

Further, there is door handle, which is equipped with operating display in first door component.

Second door component includes at least the first glass door and the second glass door on the inside of the first glass door, and And between the first glass door above-mentioned and the second glass door have gap, the tip portion of aforementioned first glass door block in lead Fan housing outlet port, so as to flow through aforementioned gap from the fraction that outlet port comes out.The outlet of middle wind guiding mechanism can reduce The temperature of second door component, it is possible to the manufacture requirement to the second door component is reduced, to reduce production cost.

Preferably, the semiconductor refrigerating component is seen and may include

Collect cold part, inner end, which is extend into air-guiding aisle above-mentioned, forms multiple cold of collection, and outer end forms collection cold plate, and the collection is cold Plate is to collect cold end；

Semiconductor chilling plate has cold end, hot end, negative terminals and positive terminal, cold end above-mentioned and collection cold plate It is close to；And

Collect warmware, is tightly attached to the hot end of aforesaid semiconductor cooling piece, and the condensate evaporation disk is contacted with collection warmware Arrangement.

The preferably following assembling structure of semiconductor refrigerating component: the middle part of the condensate evaporation disk is axially extended with one Threaded shank, which extends through collection warmware, semiconductor chilling plate and the cold part of collection and end is connected and fixed with nut.

Further, the periphery of the condensate evaporation disk is equipped with sealing ring and is cooperated with sealing with the first liner.

Collection warmware is preferably such as flowering structure: the collection warmware includes heat sink and takes shape in multiple scattered on aforementioned heat sink Backing, heat sink above-mentioned are close to semiconductor chilling plate, and cooling fin above-mentioned is collecting end of heat and connects with condensate evaporation disk Touching.

Further, the top of first liner is equipped with upper wind guiding mechanism, and wind guiding mechanism includes upper wind scooper and sets on this Upper fan in upper wind scooper, on this wind scooper have exhaust end and and inlet end, the inlet end respectively with the first liner The connection of the exhaust end of exhaust end and the second liner.

Further, the rear end of first liner and be located at the second liner top be equipped with steam generator, the steam hair Raw device is connected to the first liner and the second liner respectively and can supply.

Compared with the prior art, the advantages of the utility model are: increasing between the first liner and the second liner has half On the one hand the middle wind guiding mechanism of conductor cooling assembly utilizes the condensed water to the first liner to be evaporated, on the other hand leads in The outlet of blower structure carries out cooling to reduce door body temperature rise, realizes the cascade utilization of energy.At the same time, when the second liner is cooked When door component is opened during preparing food, the steam of escape will be run outward, due to middle wind guiding mechanism by external force along straight line Outlet can block air-flow to rise, to reduce influence of the steam to the second door component.

Detailed description of the invention

Fig. 1 is example structure schematic diagram.

Fig. 2 is another viewing angle constructions schematic diagram of embodiment.

Fig. 3 is state diagram when the first door component and the second door component are opened in embodiment.

Fig. 4 is the first liner and middle wind guiding mechanism combination diagram.

Fig. 5 is wind guiding mechanism structural schematic diagram in Fig. 4.

Fig. 6 is the exploded view of wind guiding mechanism in Fig. 5.

Fig. 7 is another viewing angle constructions schematic diagram of condensate evaporation disk in Fig. 6.

Fig. 8 is middle wind guiding mechanism air exhausting structure schematic diagram.

Specific embodiment

The utility model is described in further detail below in conjunction with figure embodiment.

As shown in Figure 1, Figure 2 and Figure 3, the all-in-one machine of scorching in the present embodiment includes rack 10, with steam function One liner 1, at least with the second liner 2 of baking functions mode, the first door component 3, the second door component 4, upper wind guiding mechanism 5, in Wind guiding mechanism 7 and steam generator 6.

First liner 1 is set in rack 10, and bottom has condensate evaporation disk 73, and the periphery of condensate evaporation disk 73 is equipped with Sealing ring 74 is cooperated with sealing with the first liner 1.Second liner 2 is set in rack 10 and is located at 1 lower section of the first liner.

The port set on the first liner 1 that first door component 3 can open and close；There is door handle 31, the door in first door component 3 Handle 31 is equipped with operating display 311.

The port set on the second liner 2 that second door component 4 can open and close；Second door component 4 include the first glass door 41 and The second glass door 42 positioned at the inside of the first glass door 41, also, between having between the first glass door 41 and the second glass door 42 Gap.

Upper wind guiding mechanism 5 is set to the top of the first liner 1, and wind guiding mechanism 5 includes upper wind scooper 51 and set on above leading on this Upper fan 52 in fan housing 51, on this wind scooper 51 have exhaust end and and inlet end, the inlet end respectively with the first liner 1 The connection of the exhaust end of exhaust end and the second liner 2.

Steam generator 6 is set to the rear end of the first liner 1 and is located at the top of the second liner 2, the steam generator 6 difference It is connected to and can supply with the first liner 1 and the second liner 2.

As shown in Figure 4, Figure 5 and Figure 6, middle wind guiding mechanism 7 is set between the first liner 1 and the second liner 2, specific to include again Middle wind scooper 71, middle blower 72 and semiconductor refrigerating component 8.Middle wind scooper 71 has air-guiding aisle and communicates with air-guiding aisle Inlet end and outlet side, the outlet side are formed with the outlet port 711 towards 4 opening direction of the second door component；Middle blower 72 is set In on middle wind scooper 71, for accelerating air to flow；Semiconductor refrigerating component 8 is set on middle wind scooper 71 and has exposed collection Hot end and the collection cold end in air-guiding aisle；Collecting end of heat and 73 thermal contact conductance of condensate evaporation disk.

As shown in connection with fig. 7, the tip portion of the first glass door 41 blocks the outlet port 711 of middle wind scooper 71, so that from The fraction that outlet port 711 comes out flows through gap, most of straight blowout.

Semiconductor refrigerating component 8 in the present embodiment includes collecting cold part 81, semiconductor chilling plate 82 and collection warmware 83, is collected cold 81 inner end of part, which is extend into air-guiding aisle, forms multiple collection cold 812, and outer end forms collection cold plate 811, which is to collect Cold end；Semiconductor chilling plate 82 has cold end, hot end, negative terminals and positive terminal, and cold end is close to collection cold plate 811； Collection warmware 83 is tightly attached to the hot end of semiconductor chilling plate 82, and condensate evaporation disk 73 contacts arrangement with collection warmware 83.Specifically, Collection warmware 83 includes heat sink 832 and takes shape in multiple cooling fins 831 on heat sink 832, heat sink 832 and semiconductor refrigerating Piece 82 is close to, and cooling fin 831 is collecting end of heat and contacts with condensate evaporation disk 73.Connecting bracket is additionally provided on collection warmware 83 75。

The middle part of condensate evaporation disk 73 has an axially extended threaded shank 731, which extends through thermal-arrest Simultaneously end nut 76 is connected and fixed for part 83, semiconductor chilling plate 82 and the cold part 81 of collection.

When the first liner carries out steam cooking, and the second liner is baked, scorched, steaming function baking, semiconductor refrigerating group Part work, the amount of heat that semiconductor chilling plate hot end generates reach condensate evaporation disk, condensate evaporation disk by cooling fin Condensed water in the first liner of re-evaporation；Middle blower rotation, drives air by cold cold end of collection, by the outlet air of middle wind guiding mechanism Port blowout, at this point, two-way is divided by the air-flow that outlet port is gone out, it is straight toward fore blow all the way, when the second door component is opened, A large amount of steam in second liner will up ascension, under road cold wind effect, the steam of ascension will also be reduced therewith toward fore blow Influence of the ascension steam to the operating display in the first door component.Another way cold wind, will be along the first door glass and second Gap flowing between door glass, substantially reduces down the temperature rise of the second door component.

Usually, when the first liner and the second liner neither work, semiconductor refrigerating component works independently, and the first liner also may be used As incubator, the temperature in the first liner is maintained.

Claims (9)

1. one kind scorches all-in-one machine, including

Rack (10)；

The first liner (1) with steam function is set on aforementioned rack (10), and bottom has condensate evaporation disk (73)；

At least with the second liner (2) of baking functions mode, it is set on aforementioned rack (10) and is located at below the first liner (1)；

First door component (3), the port set on aforementioned first liner (1) that can be opened and closed；And

Second door component (4), the port set on aforementioned second liner (2) that can be opened and closed；

It is characterized in that middle wind guiding mechanism (7) are equipped between first liner (1) and the second liner (2), induced draft fan in this Structure (7) includes

Middle wind scooper (71) has air-guiding aisle and the inlet end communicated with aforementioned air-guiding aisle and outlet side, the outlet side shape At the outlet port (711) having towards the second door component (4) opening direction；

Middle blower (72) is set on aforementioned middle wind scooper (71), for accelerating air to flow；And

Semiconductor refrigerating component (8) is set on aforementioned middle wind scooper (71) and with exposed collecting end of heat and positioned at air-guiding aisle Interior collection cold end；Collecting end of heat above-mentioned and condensate evaporation disk (73) thermal contact conductance above-mentioned.

2. according to claim 1 scorch all-in-one machine, it is characterised in that have door handle on first door component (3) (31), which is equipped with operating display (311).

3. according to claim 2 scorch all-in-one machine, it is characterised in that second door component (4) includes at least first Glass door (41) and the second glass door (42) being located on the inside of the first glass door (41), also, the first glass door above-mentioned (41) And second have gap between glass door (42), the tip portion of aforementioned first glass door (41) blocks going out for middle wind scooper (71) Wind port (711), so as to flow through aforementioned gap from the fraction that outlet port (711) come out.

4. according to claim 1 scorch all-in-one machine, it is characterised in that the semiconductor refrigerating component (8) includes

Collect cold part (81), inner end, which is extend into air-guiding aisle above-mentioned, forms cold (812) of multiple collection, and outer end forms collection cold plate (811), which is to collect cold end；

Semiconductor chilling plate (82) has cold end, hot end, negative terminals and positive terminal, cold end above-mentioned and collection cold plate (811) it is close to；And

Collect warmware (83), is tightly attached to the hot end of aforesaid semiconductor cooling piece (82), and the condensate evaporation disk (73) and collection Warmware (83) contact arrangement.

5. according to claim 4 scorch all-in-one machine, it is characterised in that the middle part of the condensate evaporation disk (73) has One axially extended threaded shank (731), the threaded shank (731) extend through collection warmware, semiconductor chilling plate (82) and the cold part of collection (81) and end is connected and fixed with nut (76).

6. according to claim 4 scorch all-in-one machine, it is characterised in that the periphery of the condensate evaporation disk (73) is equipped with Sealing ring (74) is cooperated with sealing with the first liner (1).

7. according to claim 4 scorch all-in-one machine, it is characterised in that the collection warmware (83) includes heat sink (832) And take shape in multiple cooling fins (831) on aforementioned heat sink (832), heat sink (832) above-mentioned and semiconductor chilling plate (82) it is close to, cooling fin (831) above-mentioned is collecting end of heat and contacts with condensate evaporation disk (73).

8. according to claim 1 scorch all-in-one machine, it is characterised in that the top of first liner (1) is equipped with upper wind-guiding Mechanism (5), wind guiding mechanism (5) includes upper wind scooper (51) and the upper fan (52) that is set in upper wind scooper (51) on this, on this Wind scooper (51) have exhaust end and and inlet end, the inlet end respectively with the exhaust end of the first liner (1) and the second liner (2) Exhaust end connection.

9. according to claim 1 scorch all-in-one machine, it is characterised in that the rear end of first liner (1) and be located at second The top of liner (2) be equipped with steam generator (6), the steam generator (6) respectively with the first liner (1) and the second liner (2) It is connected to and can supply.