CN214208039U - Condensation recovery system of steam cooking equipment - Google Patents

Abstract

The utility model belongs to the technical field of steam cooking equipment, concretely relates to steam cooking equipment's condensation recovery system. Comprises a condenser and a steam generator; a water return port is formed in the bottom of the steam generator; the steam inlet of the condenser is communicated with the steam outlet of the cooking cavity and is used for condensing high-temperature steam to generate low-temperature steam and condensate water; the steam outlet of the condenser is communicated with the exhaust channel and is used for exhausting low-temperature steam; and a condensed water outlet of the condenser is communicated with the water return port so that condensed water enters a waterway cycle of the steam cooking equipment. The utility model discloses can solve present steam cooking equipment positive displacement effectively big, the temperature is high, and the water tank once adds the shorter problem of water live time.

Description

Condensation recovery system of steam cooking equipment

Technical Field

The utility model belongs to the technical field of steam cooking equipment, concretely relates to steam cooking equipment's condensation recovery system.

Background

Steam cooking equipment, for example steam oven etc. in the use, steam that steam generator produced gets into the cavity and accomplishes the heat exchange with the edible material after, can be directly discharged the cavity by cooling system through the wind channel, and the front is generally discharged in current product design, and the temperature of gas outlet can reach 70 ℃ or even higher when steam volume is great, and user experience is relatively poor. In addition, because the steam is discharged out of the cavity after only once heat exchange with food, the volume of the water tank of the existing product is generally 1.2-1.4L, so that once water adding can only maintain the continuous work of the machine for 40-50 min, and if the machine is cooked for a long time, water adding needs to be carried out midway.

SUMMERY OF THE UTILITY MODEL

In order to solve present steam cooking equipment openly the displacement is big, and the temperature is high, and the water tank once adds the shorter problem of water live time, the utility model provides a steam cooking equipment's condensation recovery system.

The utility model discloses an adopt following scheme to realize:

a condensation recovery system of a steam cooking apparatus includes a condenser and a steam generator;

a water return port is formed in the bottom of the steam generator; the steam inlet of the condenser is communicated with the steam outlet of the cooking cavity and is used for condensing high-temperature steam to generate low-temperature steam and condensate water; the steam outlet of the condenser is communicated with the exhaust channel and is used for exhausting low-temperature steam; and a condensed water outlet of the condenser is communicated with the water return port so that condensed water enters a waterway cycle of the steam cooking equipment.

The condensing and recycling system of the steam cooking device of the utility model is further improved in that the condensing and recycling system also comprises a second water pump; the water return port is communicated with the water tank, the second water pump is arranged between the water return port and the water tank and used for pumping condensed water and stored water in the steam generator back to the water tank.

The condensing and recycling system of the steam cooking device of the utility model is further improved in that the condensing and recycling system also comprises a first water pump; the first water pump is arranged between the water tank and the steam generator and used for pumping water in the water tank into the steam generator.

The condensing and recycling system of the steam cooking equipment is further improved in that the condenser comprises a shell component with a condensing cavity and a cooling component;

the shell assembly is provided with a steam inlet for allowing high-temperature steam flowing out of the cooking cavity to flow into the condensation cavity and for allowing generated condensed water to flow out of the condensation cavity; the shell assembly is also provided with a steam outlet for discharging the generated low-temperature steam into an exhaust channel; the cooling assembly is arranged outside the condensation cavity and used for cooling the shell assembly.

It is right the utility model discloses a steam cooking equipment's condensation recovery system's further improvement part lies in, the condenser still includes the condensation subassembly, the condensation subassembly is located in the condensation intracavity, and with casing subassembly connects for the condensation high temperature steam.

The condensing and recycling system of the steam cooking device of the utility model is further improved in that the condenser also comprises a heat radiation component; the heat dissipation assembly is arranged outside the condensation cavity, connected with the shell assembly and used for dissipating heat of the shell assembly.

The condensing and recycling system of the steam cooking device of the utility model is further improved in that the shell component comprises a shell and a cover body; the cover body is covered on the shell to form a condensation cavity; one side of the cover body is connected with the condensation assembly, and the other side of the cover body, which is far away from the condensation assembly, is connected with the heat dissipation assembly.

The condensing and recycling system of the steam cooking device of the utility model is further improved in that a plurality of radiating fins are arranged on the shell; a plurality of the heat dissipation fins are arranged around the shell at intervals.

The condensing and recycling system of the steam cooking device of the utility model is further improved in that the condensing component comprises a plurality of condensing sheets; the plurality of condensation sheets are arranged in the condensation cavity at intervals, and the condensation sheets are connected with the shell assembly.

The steam cooking equipment of the utility model is further improved by the condensing and recycling system, which is characterized in that a plurality of condensing sheets are arranged in parallel at intervals in the condensing cavity to form a narrow steam channel and a wide steam channel which are vertical to each other.

It is right the utility model discloses a steam cooking equipment's condensation recovery system's further improvement part lies in, the quantity of narrow steam flow path is a plurality of, and is a plurality of narrow steam flow path is parallel to each other, every narrow steam flow path's steam flow direction with the play vapour direction of play vapour mouth is parallel.

It is right the utility model discloses a steam cooking equipment's condensation recovery system's further improvement part lies in, wide steam channel's quantity is a plurality of, and a plurality of wide steam channel is parallel to each other, every wide steam channel's steam flow direction with the admission direction of steam inlet is parallel.

The condensing and recycling system of the steam cooking device of the utility model is further improved in that the heat radiation component comprises a heat radiation plate and a plurality of heat radiation fins; the radiating fins are arranged on one side of the radiating plate at intervals, and the other side of the radiating plate, which is far away from the radiating fins, is connected with the shell assembly.

It is right that the utility model discloses a steam cooking equipment's condensation recovery system's further improvement is characterized in that, a plurality of the fin is parallel to each other the interval arrangement be in order to form mutually perpendicular's wide heat dissipation channel and narrow heat dissipation channel on the heating panel.

It is right the utility model discloses a steam cooking equipment's condensation recovery system's further improvement part lies in, the cooling subassembly is radiator fan.

It is right the utility model discloses a steam cooking equipment's condensation recovery system's further improvement part lies in, radiator fan's wind flow direction with radiator unit wide heat dissipation channel parallels.

Compared with the prior art, adopt above-mentioned scheme the beneficial effects of the utility model are that:

because the condenser is arranged between the steam outlet of the cooking cavity and the exhaust channel, and the steam inlet of the condenser is communicated with the steam outlet of the cooking cavity, high-temperature steam flowing out of the steam outlet of the cooking cavity can be condensed by the condenser to obtain low-temperature steam and condensed water; and because the steam outlet of the condenser is communicated with the exhaust channel, low-temperature steam flows out of the steam outlet of the condenser and enters the exhaust channel, so that the steam quantity exhausted from the front surface of the cooking equipment and the steam problem are reduced, and the problems of large front surface exhaust quantity and high temperature of the steam cooking equipment are solved.

And because the condensed water outlet of the condenser is communicated with the water return port, the condensed water can return to the steam generator, so that the utilization time of single water in the water tank is prolonged, and the problem that the service time of once water adding of the water tank of the conventional steam cooking equipment is short is solved. Still because the bottom of steam generator is located to the return water mouth, so the comdenstion water still has sealed effect to the return water mouth, avoids in steam that steam generator produced flows to the condenser through the return water mouth, and then has reduced the steam volume in the culinary art intracavity.

Drawings

Fig. 1 is a schematic diagram of a condensation recycling system of a steam cooking device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a condensation recycling system of a steam cooking device according to an embodiment of the present invention under a first vision;

fig. 3 is a schematic structural diagram of a condensation recycling system of a steam cooking device according to an embodiment of the present invention under a second vision;

fig. 4 is a schematic structural diagram of a condensation recycling system of a steam cooking device according to an embodiment of the present invention under a third vision;

FIG. 5 is an enlarged view of a portion of the second water pump, the evaporation generator of FIG. 4;

fig. 6 is a schematic structural diagram of a condenser in a condensing and recycling system of a steam cooking device according to an embodiment of the present invention in a visual sense, wherein arrows represent a steam flowing direction;

fig. 7 is a schematic structural diagram of a condenser in a condensation recycling system of a steam cooking device according to an embodiment of the present invention in another visual sense, in which arrows represent a steam flow direction;

fig. 8 is a cross-sectional view of a condenser in a condensing recovery system of a steam cooking apparatus according to an embodiment of the present invention, in which arrows indicate a steam flow direction;

fig. 9 is another sectional view of a condenser in a condensing recovery system of a steam cooking apparatus according to an embodiment of the present invention, in which arrows indicate a steam flow direction;

FIG. 10 is a schematic left side view of FIG. 7 with the arrows indicating the direction of steam flow;

FIG. 11 is a cross-sectional structural schematic view of the housing assembly;

FIG. 12 is a schematic view of the condensing assembly and the cover in a visual mode;

FIG. 13 is a schematic view of a condensing assembly and a cover under another vision;

fig. 14 is a schematic view of a heat dissipation assembly under one vision.

In the figure: 1. a condenser; 2. a steam generator; 3. a water tank; 4. a first water pump; 5. a second water pump; 11. A housing assembly; 12. a condensing assembly; 13. a cooling assembly; 14. a heat dissipating component; 21. a water return port; 111. A steam inlet; 112. a steam outlet; 113. a housing; 114. a cover body; 121. a condensation sheet; 141. a heat dissipation plate; 142. a heat sink; 1131. and (4) radiating fins.

Detailed Description

In order to make the above objects, features, advantages, etc. of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "axial", "radial", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The meaning of "plurality" is two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1 to 5, the present embodiment provides a condensation recycling system of a steam cooking apparatus, further comprising a condenser 1 and a steam generator 2;

the bottom of the steam generator 2 is provided with a water return port 21; the steam inlet of the condenser 1 is communicated with the steam outlet of the cooking cavity and is used for condensing high-temperature steam to generate low-temperature steam and condensate water; a steam outlet of the condenser 1 is communicated with an exhaust channel and is used for exhausting low-temperature steam; a condensed water outlet of the condenser 1 is communicated with a water return port 21 so that the condensed water enters a waterway cycle of the steam cooking device.

Because the condenser 1 is arranged between the steam outlet of the cooking cavity and the exhaust channel, and the steam inlet of the condenser 1 is communicated with the steam outlet of the cooking cavity, high-temperature steam flowing out of the steam outlet of the cooking cavity can be condensed by the condenser 1 to obtain low-temperature steam and condensed water; and because the steam outlet of the condenser 1 is communicated with the exhaust channel, low-temperature steam flows out of the steam outlet of the condenser 1 and then enters the exhaust channel, so that the steam quantity exhausted from the front surface of the cooking equipment and the steam problem are reduced, and the problems of large front surface exhaust quantity and high temperature of the steam cooking equipment are solved.

And because the condensed water outlet of the condenser 1 is communicated with the water return port 21, the condensed water can return to the steam generator 2, so that the utilization time of single water in the water tank is increased, and the problem that the service time of one-time water adding of the water tank of the conventional steam cooking equipment is short is solved. Still because return water mouth 21 locates steam generator 2's bottom, so the comdenstion water still has sealed effect to return water mouth 21, avoids steam that steam generator 2 produced to flow into condenser 1 through return water mouth 21 in, and then has reduced the steam volume in the culinary art intracavity.

Further, the condensation recovery system also comprises a second water pump 5; the return water port 21 is also communicated with the water tank 3, and the second water pump 5 is arranged between the return water port 21 and the water tank 3 and used for pumping condensed water and stored water in the steam generator 2 back to the water tank 3.

In the present embodiment, the water tank 3 is provided on the upper sidewall of the steam cooking device, and the steam generator 2 has a height difference from the rear sidewall of the steam cooking device, that is, the water tank 3 and the steam generator 2, and the water tank 3 is located above the steam generator 2, so in order to allow the condensed water flowing into the steam generator 2 to return to the water tank 3, the second water pump 5 is provided between the water returning port 21 and the water tank 3. The second water pump 5 can also be with the water that does not use up in the steam generator 2 to and the water tank 3 is taken back to the water of depositing in the circulating line, can not breed the bacterium because of residual water in order to guarantee that steam cooking equipment is inside, has increased the water tank once watered live time simultaneously.

Further, the condensation recovery system also comprises a first water pump 4; the first water pump 4 is disposed between the water tank 3 and the steam generator 2, and is used for pumping water in the water tank 3 into the steam generator 2.

As shown in fig. 1, when the actual temperature of the steam generator 2 is higher than the preset temperature, the control system of the steam cooking apparatus controls the first water pump 4 to start, and calculates the amount of water added into the steam generator 2 according to the time of the first water pump 4 and the water flow rate, so as to prevent the water from overflowing the steam generator 2.

After water is filled in the steam generator 2, the steam generator 2 is heated to generate steam, and the steam flows out from a steam outlet of the steam generator and directly enters the cooking cavity to exchange heat with food, so that the purpose of cooking the food is achieved; high-temperature steam in the cooking cavity flows out of a steam outlet of the cooking cavity and then enters a steam inlet of the condenser 1, the high-temperature steam is condensed to form low-temperature steam, and the low-temperature steam is exhausted through an exhaust channel and is exhausted from the front side of steam cooking equipment; the comdenstion water then flows to the return water mouth 21 of steam generator 2 from the comdenstion water export of condenser 1, seals return water mouth 21, avoids the steam that steam generator produced directly to enter into condenser 1 in, has reduced the number of times that first water pump 4 starts in the unit interval simultaneously, increases the watered live time of once in the water tank.

After the second water pump 5 is started, the condensed water in the water return pipeline and the stored water in the steam generator 2 are pumped back to the water tank 3, so that the residual water in the steam cooking equipment is reduced, and the service time of adding water into the water tank once is prolonged.

Further, as shown in fig. 6 to 14, the condenser 1 includes a housing assembly 11 having a condensation chamber, and a temperature reduction assembly 13;

the shell assembly 11 is provided with a steam inlet 111 for allowing high-temperature steam flowing out of the cooking cavity to flow into the condensation cavity and for allowing generated condensed water to flow out of the condensation cavity; the shell assembly 11 is also provided with a steam outlet 112 for discharging the generated low-temperature steam into an exhaust channel; the cooling assembly 13 is arranged outside the condensation cavity and used for cooling the shell assembly 11.

Preferably, cooling subassembly 13 is radiator fan, realizes the cooling to casing subassembly 11, ensures that the temperature in the condensation intracavity is less than the temperature of high-temperature steam, realizes better condensation effect.

Preferably, the air flowing direction of the heat dissipation fan is parallel to the wide heat dissipation channel of the heat dissipation assembly 14.

As shown in fig. 11, the housing assembly 11 includes a housing 113 and a cover 114; the cover 114 covers the shell 113 to form a condensation chamber; one side of the cover 114 is connected to the condensing assembly 12, and the other side of the cover 114 away from the condensing assembly 12 is connected to the heat sink assembly 14.

The condensation assembly 12 and the heat dissipation assembly 14 are connected through the cover 114, so that a better heat dissipation effect can be achieved on the condensation assembly 12, and further, the cooling of the condensation cavity is achieved, and the condensation effect is improved.

Wherein, a plurality of heat dissipation fins 1131 are disposed on the housing 113; a plurality of radiating fins 1131 set up around casing 113 at the interval, and the purpose accelerates the heat dissipation to casing 13, and then realizes the cooling to the condensation chamber, improves the condensation effect.

Further, as shown in fig. 12 and 13, the condenser 1 further includes a condensing assembly 12, and the condensing assembly 1 is disposed in the condensing cavity and connected to the housing assembly 11 for condensing the high-temperature steam. Because the condensation component 12 is located in the condensation cavity, it has a blocking effect on the flow of the high-temperature steam, so as to prolong the retention time of the high-temperature steam in the condensation cavity and improve the condensation effect.

Wherein, condensing unit 12 includes a plurality of condensing sheets 121; a plurality of condensation sheets 121 are arranged at intervals in the condensation chamber, and the condensation sheets 121 are connected with the shell assembly 11. The material of the condensation sheet 121 is preferably an aluminum alloy.

A plurality of condensing sheets 121 are arranged in parallel with each other at intervals in the condensing chamber to form narrow and wide steam channels perpendicular to each other.

The number of the narrow steam channels is multiple, and the multiple narrow steam channels are parallel to each other, and the steam flowing direction of each narrow steam channel is parallel to the steam outlet direction of the steam outlet 112. The purpose is to increase the blocking effect on the steam, ensure the retention time of the steam in the condensation cavity to be as long as possible and improve the condensation effect.

The number of the wide steam passages is plural, and the plural wide steam passages are parallel to each other, and the steam flow direction of each wide steam passage is parallel to the steam inlet direction of the steam inlet 111. So that the high-temperature steam enters the condensing cavity as soon as possible.

Further, as shown in fig. 14, the condenser 1 further includes a heat radiation assembly 14; the heat dissipation assembly 14 is disposed outside the condensation cavity and connected to the housing assembly 11 for dissipating heat from the housing assembly 11, so as to accelerate heat dissipation of the housing assembly 11 and further improve condensation effect.

Further, the heat dissipating module 14 includes a heat dissipating plate 141 and a plurality of heat dissipating fins 142; the plurality of heat dissipation fins 142 are arranged at intervals on one side of the heat dissipation plate 141, and the other side of the heat dissipation plate 141 facing away from the heat dissipation fins 142 is connected to the housing assembly 11.

The heat dissipation plate 141 and the heat dissipation fins 142 are made of aluminum alloy, and the heat dissipation plate 141 has the function of increasing the contact area between the heat dissipation assembly 14 and the hot surface of the semiconductor cooling plate 13; another aspect is to quickly transfer the high temperature of the housing assembly 11 to the heat sink 142. The heat sink 142 serves to rapidly dissipate heat.

A plurality of the heat radiating fins 142 are arranged in parallel to each other at intervals on the heat radiating plate 141 to form wide heat radiating passages and narrow heat radiating passages perpendicular to each other, for the purpose of improving heat radiating effect.

The steam generation and condensed water recovery process of this embodiment is as follows:

as shown in fig. 1 to 5, when the actual temperature of the steam generator 2 is higher than the preset temperature, the control system of the steam cooking apparatus controls the first water pump 4 to be started, and calculates the amount of water added into the steam generator 2 according to the time when the first water pump 4 is operated and the water flow rate, so as to prevent the water from overflowing the steam generator 2.

After water is filled in the steam generator 2, the steam generator 2 is heated to generate steam, and the steam flows out from a steam outlet of the steam generator and directly enters the cooking cavity to exchange heat with food, so that the purpose of cooking the food is achieved; after the high-temperature steam in the cooking cavity flows out from the steam outlet of the cooking cavity, the high-temperature steam enters the condensation cavity through the steam inlet 111 of the condenser 1, and meanwhile, the cooling component 13 (such as a cooling fan) is started to cool the shell component 11 and the cooling component 14.

The high-temperature steam entering the condensation chamber flows along the wide steam channel and the narrow steam channel of the condensation assembly 12, and because the temperature of the condensation sheet 121 and the temperature of the condensation chamber are lower than that of the high-temperature steam, the high-temperature steam is condensed in the flowing process of the condensation chamber, and low-temperature steam and condensed water are generated.

After flowing out from the steam outlet 112, the low-temperature steam enters the exhaust channel through the exhaust pipe and finally flows out from the front air outlet of the steam cooking device.

The comdenstion water is flowing out from steam inlet 111, and the wet return 21 department that enters into steam generator 2 bottom through the wet return seals wet return 21, avoids the steam that steam generator produced directly to enter into condenser 1 in, has reduced the number of times that first water pump 4 starts in the unit interval simultaneously, increases the water tank in once watered live time.

After the second water pump 5 is started, the condensed water in the water return pipeline and the stored water in the steam generator 2 are pumped back to the water tank 3, so that the residual water in the steam cooking equipment is reduced, and the service time of adding water into the water tank once is prolonged.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the described parent features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (16)

1. A condensate recovery system of a steam cooking apparatus, characterized by comprising a condenser (1) and a steam generator (2);

a water return port (21) is formed in the bottom of the steam generator (2); the steam inlet of the condenser (1) is communicated with the steam outlet of the cooking cavity and is used for condensing high-temperature steam to generate low-temperature steam and condensed water; a steam outlet of the condenser (1) is communicated with an exhaust channel and is used for exhausting low-temperature steam; and a condensed water outlet of the condenser (1) is communicated with the water return port (21) so that condensed water enters a waterway cycle of the steam cooking equipment.

2. Condensation recycling system of a steam cooking apparatus according to claim 1, characterized in that it further comprises a second water pump (5); the water return port (21) is communicated with the water tank (3), the second water pump (5) is arranged between the water return port (21) and the water tank (3) and used for pumping condensed water and stored water in the steam generator (2) back to the water tank (3).

3. Condensation recycling system of a steam cooking apparatus according to claim 1, characterized in that it further comprises a first water pump (4); the first water pump (4) is arranged between the water tank (3) and the steam generator (2) and is used for pumping water in the water tank (3) into the steam generator (2).

4. Condensation recycling system of a steam cooking device according to any of claims 1 to 3, characterized in that the condenser (1) comprises a housing assembly (11) with a condensation chamber, and a temperature reduction assembly (13);

the shell assembly (11) is provided with a steam inlet (111) for allowing high-temperature steam flowing out of the cooking cavity to flow into the condensation cavity and for allowing generated condensed water to flow out of the condensation cavity; the shell assembly (11) is also provided with a steam outlet (112) for discharging the generated low-temperature steam into an exhaust channel; the cooling assembly (13) is arranged outside the condensation cavity and used for cooling the shell assembly (11).

5. Condensation recycling system of a steam cooking device according to claim 4, characterized in that the condenser (1) further comprises a condensation assembly (12), the condensation assembly (12) being arranged in the condensation chamber and being connected to the housing assembly (11) for condensing high temperature steam.

6. Condensation recycling system of a steam cooking device according to claim 5, characterized in that the condenser (1) further comprises a heat dissipating assembly (14); the heat dissipation assembly (14) is arranged outside the condensation cavity, is connected with the shell assembly (11) and is used for dissipating heat of the shell assembly (11).

7. Condensation recycling system of a steam cooking device according to claim 6, characterized in that the housing assembly (11) comprises a housing (113) and a cover (114); the cover body (114) is covered on the shell (113) to form a condensation cavity; one side of the cover body (114) is connected with the condensation assembly (12), and the other side of the cover body (114) far away from the condensation assembly (12) is connected with the heat dissipation assembly (14).

8. Condensation recycling system of a steam cooking device according to claim 7, characterized in that the housing (113) is provided with a plurality of heat dissipating fins (1131); a plurality of the heat dissipation fins (1131) are arranged around the housing (113) at intervals.

9. Condensation recycling system of a steam cooking device according to claim 5, characterized in that the condensation assembly (12) comprises a plurality of condensation sheets (121); a plurality of the condensation sheets (121) are arranged in the condensation cavity at intervals, and the condensation sheets (121) are connected with the shell assembly (11).

10. Condensation recycling system of a steam cooking device according to claim 9, characterized in that a plurality of said condensation sheets (121) are arranged parallel to each other spaced apart in said condensation chamber to form mutually perpendicular narrow and wide steam channels.

11. A condensation recycling system of a steam cooking apparatus according to claim 10, wherein the number of the narrow steam passages is plural, and plural narrow steam passages are parallel to each other, and the steam flow direction of each narrow steam passage is parallel to the steam outlet direction of the steam outlet (112).

12. A condensation recycling system of a steam cooking apparatus according to claim 11, wherein the number of the wide steam passage is plural, and the plural wide steam passages are parallel to each other, and the steam flow direction of each of the wide steam passages is parallel to the steam inlet direction of the steam inlet (111).

13. Condensation recycling system of a steam cooking device according to claim 6, characterized in that said heat dissipating assembly (14) comprises a heat dissipating plate (141) and a plurality of heat dissipating fins (142); the radiating fins (142) are arranged on one side of the radiating plate (141) at intervals, and the other side, which is opposite to the radiating fins (142), of the radiating plate (141) is connected with the shell assembly (11).

14. The condensation recycling system of a steam cooking apparatus according to claim 13, wherein a plurality of the heat radiating fins (142) are arranged on the heat radiating plate (141) in parallel with each other at a spacing to form wide heat radiating passages and narrow heat radiating passages perpendicular to each other.

15. Condensation recycling system according to claim 14, characterized in that the supercooling component (13) is a cooling fan.

16. Condensation recycling system according to claim 15, characterized in that the wind flow direction of the radiator fan is parallel to the wide radiator channel of the radiator assembly (14).

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