CN109008590B

CN109008590B - Condensate water reflux structure of electric steaming furnace

Info

Publication number: CN109008590B
Application number: CN201811058913.3A
Authority: CN
Inventors: 王建斌; 赖建
Original assignee: Guangdong Galanz Enterprises Co Ltd; Guangdong Galanz Microwave Electric Manufacturing Co Ltd
Current assignee: Guangdong Galanz Enterprises Co Ltd; Guangdong Galanz Microwave Electric Manufacturing Co Ltd
Priority date: 2018-09-11
Filing date: 2018-09-11
Publication date: 2024-01-30
Anticipated expiration: 2038-09-11
Also published as: CN109008590A

Abstract

The condensate water reflux structure of the electric steaming furnace comprises an inner container, a steam generator, a water tank and a steam condensing box, wherein the steam condensing box is sequentially provided with an upper space, a middle space and a lower space from top to bottom; a plurality of middle exhaust holes communicated with the upper space are arranged between the upper space and the middle space, a plurality of bottom exhaust holes communicated with the lower space are arranged between the middle space and the lower space, the middle exhaust holes and the bottom exhaust holes are in one-to-one correspondence, the corresponding middle exhaust holes and the corresponding bottom exhaust holes are communicated through corresponding Kong Zhuxiang, a plurality of hole columns are respectively arranged in the middle space for storing water, and the upper space is communicated with the lower space through a plurality of hole columns; the upper space is communicated with the outside through a plurality of top exhaust holes; the middle space is respectively communicated with the steam generator and the water tank; the lower space is respectively communicated with the steam cooking chamber and the steam generator. The invention can effectively prevent scalding human body, save water resources, avoid frequent water supplement and improve cooking efficiency.

Description

Condensate water reflux structure of electric steaming furnace

Technical Field

The invention relates to an electric steam oven, in particular to a condensate water reflux structure of the electric steam oven.

Background

The electric steaming furnace is a cooking electric appliance which adopts an electric heating water mode to generate a large amount of high-temperature steam and heats food through the high-temperature steam; the electric steaming furnace can generate high-temperature steam while heating to continuously increase the pressure in the furnace chamber, and in order to avoid the overhigh pressure in the furnace chamber, a part of steam in the furnace chamber needs to be discharged outside the furnace chamber. The traditional scheme is as follows: the scheme of directly discharging high temperature steam to the outside of the cavity has the following problems: 1. when the human body carelessly touches the discharged high-temperature steam, the problem of scalding the skin can be caused; 2. the steam is continuously discharged, so that the water in the water tank is consumed too quickly, and long cooking time cannot be maintained; 3. waste water resources.

The Chinese patent document No. CN207152423U discloses a steam condensation recovery mechanism and steaming cooking equipment using the mechanism in 2018, 3 months and 20 days, and specifically discloses a steam condensation device comprising an exhaust fan, an exhaust channel communicated with an air outlet of the exhaust fan, and a steam condensation cavity, wherein a steam inlet hole and a steam outlet hole are arranged on the steam condensation cavity, and the air outlet hole is communicated with the exhaust channel; the air exhaust device also comprises an upper mounting plate, an air deflector and a steam heat exchange plate, wherein the upper mounting plate is positioned below the air deflector and the air exhaust channel is formed between the upper mounting plate and the air deflector; the steam heat exchange plate is provided with a concave cavity, and the steam heat exchange plate is connected with the air deflector in a sealing way, so that a steam condensation cavity is formed between the steam heat exchange plate and the air deflector, and the lower side surface of the steam heat exchange plate is positioned in the air exhaust channel; and a plurality of guide ribs are arranged on the air deflector at the positions opposite to the air outlet holes. In this structure, the condensation contact surface structure of steam is less, leads to the condensation effect unobvious, and the space volume that occupies is great moreover, is unfavorable for installing on small steaming cooking equipment.

Therefore, further improvements are needed.

Disclosure of Invention

The invention aims to provide a condensate water reflux structure of an electric steaming furnace, which has the advantages of simple and reasonable structure, effective prevention of scalding human body, water resource saving, avoidance of frequent water supplement, high cooking efficiency, reliable performance, compact structure and small volume, and overcomes the defects in the prior art.

The condensate water reflux structure of the electric steam oven designed according to the purpose comprises an inner container, a steam generator and a water tank, wherein the inner cavity of the inner container is a steam cooking chamber, the inner container is connected with the steam generator, and the water tank supplies water for the steam generator; the method is characterized in that: the steam condensing box is sequentially provided with an upper space, a middle space and a lower space from top to bottom; a plurality of middle exhaust holes communicated with the upper space are formed between the upper space and the middle space, a plurality of bottom exhaust holes communicated with the lower space are formed between the middle space and the lower space, the middle exhaust holes and the bottom exhaust holes are in one-to-one correspondence, the corresponding middle exhaust holes and the bottom exhaust holes are communicated through corresponding Kong Zhuxiang, a plurality of hole columns are respectively arranged in the middle space for storing water, and the upper space is communicated with the lower space through a plurality of hole columns; the upper space is communicated with the outside through a plurality of top exhaust holes; the middle space is respectively communicated with the steam generator and the water tank; the lower space is respectively communicated with the steam cooking chamber and the steam generator.

The steam condensation box is provided with a first water inlet for communicating with the water tank and a first water outlet for communicating with the steam generator corresponding to the middle space, and the position of the first water inlet is higher than that of the first water outlet.

The distance S between the first water outlet and the bottom wall in the middle space is more than or equal to 10mm.

The steam condensing box is provided with a steam discharge inlet for communicating the steam cooking chamber and a reflow hole for communicating the steam generator corresponding to the lower space, and the position of the steam discharge inlet is higher than the position of the reflow hole.

The lower space is provided with a concave curved surface, and the reflux hole is arranged at the bottommost part of the concave curved surface.

The upper space is provided with a water absorbing member.

The steam condensing box comprises a steam condensing shell and a water storage box, the water storage box is arranged in the inner cavity of the steam condensing shell and separates the inner cavity of the steam condensing shell into an upper space, a middle space and a lower space, and the middle space is the inner cavity of the water storage box; an upper partition plate is arranged in the inner cavity of the steam condensing shell and is limited to act on the top of the water storage box; the top exhaust hole is formed in the top of the steam condensing shell; a plurality of ventilation holes which correspond to and are communicated with the middle exhaust holes are formed in the upper partition plate; the first water inlet and/or the first water outlet are/is arranged on the water storage box; the steam discharge inlet and/or the backflow hole are/is arranged on the steam condensing shell.

The water storage box is provided with a plurality of hole columns, the middle vent holes are formed in the top of the water storage box and are communicated with the top openings of the corresponding hole columns, and the lower vent holes are formed in the bottom of the water storage box and are communicated with the bottom openings of the corresponding hole columns.

A water pump is arranged between the water tank and the steam condensing box, the water inlet end of the water pump is communicated with the water tank, and the water outlet end of the water pump is communicated with the inner cavity of the water storage box on the steam condensing box.

The steam generator is arranged at the bottom of the steam cooking chamber, and the water tank and the steam condensation box are arranged at the side part of the inner container; the inner container is provided with a steam outlet which is communicated with the lower space on the steam condensing box through a steam discharge pipe; the water tank is communicated with the middle space on the steam condensing box through a corresponding water pipe; the steam generator is communicated with the middle space on the steam condensation box through a corresponding third water pipe; the steam generator is communicated with the lower space on the steam condensation box through a condensate return pipe.

The bottom of the water tank and/or the bottom of the steam condensing box is higher than the top of the steam generator.

The invention has the following beneficial effects:

1. the high-temperature steam in the steam cooking chamber is condensed into low-temperature condensed water in the middle space, low-temperature gas is discharged from the top exhaust hole, and the condensed water is recycled, so that the problem that the high-temperature steam is discharged out of the oven cavity can be solved by the steam condensing box, the scalding phenomenon caused by the fact that people touch the high-temperature steam is effectively avoided, and the secondary influence of the steam on kitchen furniture, household appliances and the like can be avoided.

2. The high-temperature steam is condensed into condensed water and then flows back for recycling, so that water resources can be effectively saved, waste is avoided, and the environment-friendly requirement is met.

3. The continuous cyclic utilization of steam can effectively prolong the effective cooking time of a box of water, avoids the user from continuously adding water manually due to water consumption in the cooking process, and improves the cooking efficiency and the use experience.

4. In the middle space, high-temperature steam from the steam cooking chamber exchanges heat with normal-temperature water from the water tank to enable the high-temperature steam to be condensed into condensed water, the high-temperature water obtains a certain heating effect, and then the condensed water is supplied to the steam generator for use, so that the effect of heat recovery is achieved, the heating efficiency of the steam generator can be effectively improved, and the energy consumption of the steam generator can be reduced.

Drawings

Fig. 1-4 are perspective views of a partially assembled device in different orientations, respectively, according to an embodiment of the present invention.

Fig. 5 is an assembled perspective view, partially in section, of an embodiment of the present invention.

FIG. 6 is a partial top view of an embodiment of the present invention.

Fig. 7 is a front view, partially in section, of an embodiment of the present invention.

Fig. 8 is a schematic diagram illustrating an assembled structure of a vapor condensation box according to an embodiment of the invention.

Fig. 9 is an exploded view of a vapor condensation cartridge in accordance with an embodiment of the present invention.

Fig. 10 is a top view of a vapor condensation cartridge in accordance with an embodiment of the present invention.

Fig. 11 is a sectional view illustrating an operation state of the steam condensing case according to an embodiment of the present invention.

Fig. 12 and 13 are exploded cross-sectional views of different orientations of a vapor condensation cartridge in accordance with an embodiment of the present invention.

Fig. 14 is a perspective view illustrating a vapor condensation housing and a water storage cartridge assembled according to an embodiment of the present invention.

Fig. 15 is a schematic diagram of the operation of an embodiment of the present invention.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Referring to fig. 1-15, the condensate water reflux structure of the electric steam oven comprises an inner container 1, a steam generator 2, a water tank 3 and a steam condensation box A, wherein the inner cavity of the inner container 1 is a steam cooking chamber 1.1, the inner container 1 is connected with the steam generator 2, and the water tank 3 supplies water for the steam generator 2; the steam condensation box A is sequentially provided with an upper space A1, a middle space A2 and a lower space A3 from top to bottom; a plurality of middle vent holes 7.1 communicated with the upper space A1 are arranged between the upper space A1 and the middle space A2, a plurality of bottom vent holes 7.2 communicated with the lower space A3 are arranged between the middle space A2 and the lower space A3, the middle vent holes 7.1 are in one-to-one correspondence with the bottom vent holes 7.2, the corresponding middle vent holes 7.1 and the corresponding bottom vent holes 7.2 are communicated through corresponding hole columns 7.5, a plurality of hole columns 7.5 are respectively arranged in the middle space A2 for storing water, and the upper space A1 is communicated with the lower space A3 through a plurality of hole columns 7.5; the upper space A1 is communicated with the outside through a plurality of top exhaust holes 5.2; the middle space A2 is respectively communicated with the steam generator 2 and the water tank 3; the lower space A3 communicates with the steam cooking chamber 1.1 and the steam generator 2, respectively.

The inner cavity of the steam condensation box A is divided into an upper space A1, a middle space A2 and a lower space A3; wherein, a hole column 7.5 extending vertically is arranged in the middle space A2 for storing water so as to lead the upper space A1 to be communicated with the lower space A3; when the steam condensing box works, excessive high-temperature steam in the liner is discharged to the lower space A3 of the steam condensing box A and then rises to the hole column 7.5 in the middle space A2, when the steam condensing box passes through the hole column 7.5, normal-temperature cold water from the water tank 3 is arranged at the periphery of the hole column 7.5 and condenses the high-temperature steam, the condensed steam water flows downwards to the lower space A3 along the inner wall of the hole column 7.5, and finally flows back to the steam generator 2 for recycling after being conveyed; therefore, the steam condensing box A can prevent high-temperature steam from being directly discharged to the outside of the furnace body to scald a user, and can prolong the effective use time of one tank of water and achieve the effect of saving water resources. In addition, as the plurality of (a plurality of) mutually-spaced hole columns 7.5 are arranged, each hole column 7.5 is surrounded by normal-temperature cold water in the middle space A2, the condensation area contacted with high-temperature steam in the hole column 7.5 is larger, and the condensation effect is better. In addition, when the water of the steam generator 2 is used up to be added, the water pump 8 can provide fresh cold water from the water tank 3 to the middle space A2 in the steam condensing box A, so that the water in the middle space A2 is cooled, and a better condensing effect is achieved.

Further, the steam condensation box A is provided with a first water inlet 7.3 for communicating with the water tank 3 and a first water outlet 7.4 for communicating with the steam generator 2 corresponding to the middle space A2, and the position of the first water inlet 7.3 is higher than the position of the first water outlet 7.4, so that the middle space A2 is ensured to have certain water storage capacity.

Further, the distance S between the first water outlet 7.4 and the inner bottom wall of the middle space A2 is more than or equal to 10mm, so that the middle space A2 can store cold water with the height of at least 10mm, and high-temperature steam in the hole column 7.5 is condensed.

Further, the steam condensing box a is provided with a steam discharge inlet 5.6 for communicating with the steam cooking chamber 1.1 and a reflux hole 5.7 for communicating with the steam generator 2 corresponding to the lower space A3, and the position of the steam discharge inlet 5.6 is higher than the position of the Yu Huiliu hole 5.7.

Further, the bottom of the lower space A3 is provided with a concave curved surface 5.8, and the reflux hole 5.7 is formed in the bottommost part of the concave curved surface 5.8, so that condensed water can be gathered at the bottommost part of the steam condensation box A and completely reflux into the steam generator 2 from the condensed water outlet 5.7, the condensed water cannot remain in the steam condensation box A, and the freshness of the condensed water is ensured.

Further, the upper space A1 is provided with a water absorbing member 6, and the water absorbing member 6 is preferably a water absorbing sponge for improving the condensation rate of the steam.

Further, the steam condensation box A comprises a steam condensation shell 5 and a water storage box 7, the water storage box 7 is arranged in the middle of the inner cavity of the steam condensation shell 5, and the inner cavity of the steam condensation shell 5 is divided into an upper space A1, a middle space A2 and a lower space A3, wherein the middle space A2 is the inner cavity of the water storage box 7; an inner cavity of the steam condensing shell 5 is provided with an upper partition board 5.1, and the upper partition board 5.1 acts on the top of the water storage box 7 in a limiting way; the top exhaust hole 5.2 is arranged at the top of the steam condensing shell 5; a plurality of ventilation holes 5.3 which correspond to and are communicated with the middle exhaust holes 7.1 are formed in the upper partition plate 5.1; the first water inlet 7.3 and the first water outlet 7.4 are respectively arranged at the side part and the back part of the water storage box 7; the steam exhaust inlet 5.6 and the reflux hole 5.7 are respectively arranged at the lower part of the steam condensing shell 5, and the concave curved surface 5.8 is formed at the bottom of the steam condensing shell 5.

Further, the hole columns 7.5 are integrally formed by the water storage box 7, the middle exhaust hole 7.1 is formed at the top of the water storage box 7 and communicated with the top opening of the corresponding hole column 7.5, and the lower exhaust hole is formed at the bottom of the water storage box 7 and communicated with the bottom opening of the corresponding hole column 7.5.

Further, a water pump 8 is arranged between the water tank 3 and the steam condensing box A, the water inlet end of the water pump 8 is communicated with the water tank 3 through a first water pipe 9, and the water outlet end of the water pump 8 is connected with a first water inlet 7.3 on the steam condensing box A through a second water pipe 10, so that the water inlet end is communicated with the inner cavity of the water storage box 7; after the water pump 8 is electrified, water in the water tank 3 sequentially passes through the first water pipe and the second water pipe, and finally is injected into the middle space A2 of the steam condensing box A from the first water inlet 7.3.

Further, the steam generator 2 is arranged at the bottom of the steam cooking chamber 1.1, the water tank 3 and the steam condensation box A are arranged at two sides of the inner container 1, and the water pump 8 is arranged at the top of the inner container 1; the side wall of the liner 1 is provided with a steam outlet 12, and the steam outlet 12 is connected with a steam outlet inlet 5.6 on the steam condensing box A through a steam outlet pipe 13 to realize communication with the lower space A3; the water tank 3 is communicated with the middle space A2 on the steam condensing box A through corresponding water pipes (a first water pipe 9 and a second water pipe 10 in sequence); the steam generator 2 is communicated with the middle space A2 on the steam condensation box A through a corresponding third water pipe 11; the steam generator 2 communicates with the lower space A3 on the steam condensing box a through the condensate return pipe 14.

Further, the bottom of the water tank 3 and the bottom of the steam condensing box A are higher than the top of the steam generator 2, so that condensed water can flow into the steam generator 2 completely, condensed water cannot remain in the steam condensing box A, and the freshness of the condensed water is guaranteed.

The foregoing is a preferred embodiment of the invention showing and describing the general principles, features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, which have been described in the foregoing description merely illustrates the principles of the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The condensate water reflux structure of the electric steaming furnace comprises an inner container (1), a steam generator (2) and a water tank (3), wherein the inner cavity of the inner container (1) is a steam cooking chamber (1.1), the inner container (1) is connected with the steam generator (2), and the water tank (3) supplies water for the steam generator (2); the method is characterized in that: the steam condensing box (A) is sequentially provided with an upper space (A1), a middle space (A2) and a lower space (A3) from top to bottom; a plurality of middle exhaust holes (7.1) which are communicated with the upper space (A1) are arranged between the upper space (A1) and the middle space (A2), a plurality of bottom exhaust holes (7.2) which are communicated with the lower space (A3) are arranged between the middle space (A2) and the lower space (A3), the middle exhaust holes (7.1) and the bottom exhaust holes (7.2) are in one-to-one correspondence, the corresponding middle exhaust holes (7.1) and the corresponding bottom exhaust holes (7.2) are communicated through corresponding hole columns (7.5), a plurality of hole columns (7.5) are respectively arranged in the middle space (A2) for storing water, and the upper space (A1) is communicated with the lower space (A3) through a plurality of hole columns (7.5); the upper space (A1) is communicated with the outside through a plurality of top exhaust holes (5.2); the middle space (A2) is respectively communicated with the steam generator (2) and the water tank (3); the lower space (A3) is respectively communicated with the steam cooking chamber (1.1) and the steam generator (2);

the steam condensing box (A) is provided with a first water inlet (7.3) which is used for communicating with the water tank (3) and a first water outlet (7.4) which is used for communicating with the steam generator (2) corresponding to the middle space (A2), and the position of the first water inlet (7.3) is higher than that of the first water outlet (7.4);

the steam condensing box (A) is provided with a steam discharge inlet (5.6) for communicating with the steam cooking chamber (1.1) and a reflux hole (5.7) for communicating with the steam generator (2) corresponding to the lower space (A3), and the position of the steam discharge inlet (5.6) is higher than the position of the Yu Huiliu hole (5.7);

the lower space (A3) is provided with a concave curved surface (5.8), and the reflux hole (5.7) is formed at the bottommost part of the concave curved surface (5.8);

the upper space (A1) is provided with a water absorbing component (6);

the steam condensing box (A) comprises a steam condensing shell (5) and a water storage box (7), the water storage box (7) is arranged in the inner cavity of the steam condensing shell (5), and the inner cavity of the steam condensing shell (5) is separated into an upper space (A1), a middle space (A2) and a lower space (A3), wherein the middle space (A2) is the inner cavity of the water storage box (7); an inner cavity of the steam condensing shell (5) is provided with an upper partition plate (5.1), and the upper partition plate (5.1) is limited to act on the top of the water storage box (7); the top exhaust hole (5.2) is formed in the top of the steam condensing shell (5); a plurality of ventilation holes (5.3) which correspond to and are communicated with the middle exhaust holes (7.1) are formed in the upper partition plate (5.1); the first water inlet (7.3) and/or the first water outlet (7.4) are/is arranged on the water storage box (7); the steam exhaust inlet (5.6) and/or the reflux hole (5.7) are/is arranged on the steam condensing shell (5), and the concave curved surface (5.8) is formed at the bottom of the steam condensing shell 5.

2. The condensate water return structure of an electric steam oven according to claim 1, wherein: the distance S between the first water outlet (7.4) and the inner bottom wall of the middle space (A2) is more than or equal to 10mm.

3. The condensate water return structure of an electric steam oven according to claim 1, wherein: a plurality of hole columns (7.5) are arranged on the water storage box (7), the middle exhaust hole (7.1) is arranged at the top of the water storage box (7) and communicated with the top opening of the corresponding hole column (7.5), and the lower exhaust hole is arranged at the bottom of the water storage box (7) and communicated with the bottom opening of the corresponding hole column (7.5).

4. The condensate water return structure of an electric steam oven according to claim 1, wherein: a water pump (8) is arranged between the water tank (3) and the steam condensing box (A), the water inlet end of the water pump (8) is communicated with the water tank (3), and the water outlet end of the water pump (8) is communicated with the inner cavity of the water storage box (7) on the steam condensing box (A).

5. The condensate return structure of an electric steam boiler according to any one of claims 1 to 4, wherein: the steam generator (2) is arranged at the bottom of the steam cooking chamber (1.1), and the water tank (3) and the steam condensing box (A) are arranged at the side part of the liner (1); a steam outlet (12) is formed in the inner container (1), and the steam outlet (12) is communicated with a lower space (A3) on the steam condensing box (A) through a steam outlet pipe (13); the water tank (3) is communicated with a middle space (A2) on the steam condensing box (A) through a corresponding water pipe; the steam generator (2) is communicated with a middle space (A2) on the steam condensation box (A) through a corresponding third water pipe (11); the steam generator (2) is communicated with a lower space (A3) on the steam condensation box (A) through a condensate return pipe (14).