CN117547143A - Steaming and drinking integrated equipment and backwater control method thereof - Google Patents

Abstract

The invention belongs to the technical field of kitchen appliances, and discloses a steaming and drinking integrated device and a backwater control method thereof, wherein the steaming and drinking integrated device comprises a water purifying component and a steaming and drinking component, the water inlet end of the water purifying component is connected with a water supply pipeline for providing raw water, and the water purifying component comprises a filtering mechanism which is used for filtering the raw water to generate purified water; the steaming and drinking assembly is connected with the water outlet end of the water purifying assembly, the steaming and drinking assembly comprises a cooking mechanism and a drinking water mechanism, purified water can selectively flow to the cooking mechanism or the drinking water mechanism, and when the preset cooking water flow of the cooking mechanism is smaller than the purified water flow or the preset water outlet flow of the drinking water mechanism is smaller than the purified water flow, redundant purified water flows back to the water inlet end of the water purifying assembly from the water outlet end of the water purifying assembly. The steaming and drinking integrated equipment and the backwater control method thereof cancel the water tanks of the cooking mechanism and the drinking mechanism, avoid bacteria breeding in the water tanks, have compact structure, reduce occupied space and volume, reduce production cost and ensure the matching property of the water consumption of the steaming and drinking assembly and the water supply of the water purifying assembly.

Description

Steaming and drinking integrated equipment and backwater control method thereof

Technical Field

The invention relates to the technical field of kitchen appliances, in particular to steaming and drinking integrated equipment and a backwater control method thereof.

Background

With the development of modern cooking appliances and drinking appliances, electric steamers, water dispensers and water purifiers have become household appliances that are necessary for the home. The electric steam box converts water into high-temperature steam through the evaporator to cook food without using a gas stove; the water dispenser can set the required drinking water temperature and water receiving amount by a user, realizes instant hot water output, and brings a lot of convenience to the life of the user.

The existing electric steam box and water dispenser in the market are mostly operated independently, and all need the water tank to store water, because the water tank needs to be added with water frequently, the electric steam box and the water dispenser are not sealed, if the electric steam box and the water dispenser are not used for a long time, bacteria can be easily bred in the water tank. Moreover, the independently working electric steam box, the water dispenser and the water purifier occupy a certain kitchen space respectively, so that space waste is caused, and the production cost is increased.

If the electric steam box, the water dispenser and the water purifier are integrated together, the water purifying flow of the water purifier is difficult to be matched with the steam water consumption of the electric steam box and the water outlet flow of the water dispenser, so that the taste of cooked food and the water outlet convenience of the water dispenser are difficult to be ensured.

Disclosure of Invention

The invention aims to provide steaming and drinking integrated equipment, which is characterized in that a water purifying component is used for providing purified water for a cooking mechanism and a drinking mechanism, a water tank of the cooking mechanism and the drinking mechanism is omitted, bacteria breeding in the water tank is avoided, the structure is compact, the occupied space and the volume are reduced, the production cost is reduced, and the taste of cooked food and the convenience of drinking water can be ensured.

To achieve the purpose, the invention adopts the following technical scheme:

providing a steaming and drinking integrated device comprising:

the water purifying device comprises a water purifying component, wherein the water inlet end of the water purifying component is connected with a water supply pipeline for providing raw water, and the water purifying component comprises a filtering mechanism which is used for filtering the raw water to generate purified water;

evaporate drink the subassembly, evaporate drink the subassembly and connect the play water end of water purification subassembly, evaporate drink the subassembly and include cooking mechanism and drinking water mechanism, the water purification can selectively flow to cooking mechanism or drinking water mechanism, when cooking mechanism's the culinary art discharge of predetermineeing of water flow is less than water purification flow or drinking water mechanism predetermineeing the play water flow is less than water purification flow, unnecessary the water purification is by the play water end backward flow of water purification subassembly to the water inlet of water purification subassembly.

In one embodiment, the cooking mechanism comprises a steam generator for converting the clean water into cooking steam, the steaming and drinking assembly further comprises a reversing valve, a first outlet of the reversing valve is communicated with the cooking mechanism, a second outlet of the reversing valve is communicated with a drinking water mechanism, and the reversing valve is used for controlling the clean water to flow to the steam generator or the drinking water mechanism.

In one embodiment, the steaming and drinking assembly comprises a heating mechanism and a high-temperature gas-liquid reversing valve, wherein the heating mechanism is used for heating the purified water, the heating temperature of the heating mechanism is adjustable to form cooking steam, and the high-temperature gas-liquid reversing valve is used for controlling the heated purified water to flow to the drinking water mechanism or the cooking mechanism.

In one embodiment, the heating mechanism comprises a heating box and at least one temperature sensor, wherein the heating box is used for accommodating and heating the purified water, and the temperature sensor is arranged at the water inlet and/or the water outlet of the heating box.

In one embodiment, the steaming and drinking assembly further comprises a water delivery pipeline and a flowmeter and/or a flow control pump arranged on the water delivery pipeline, wherein the flow control pump is used for controlling the flow of the purified water in the water delivery pipeline so that the flow is equal to the preset cooking water flow or the preset water outlet flow, and the flowmeter is used for measuring the water consumption of the cooking mechanism and/or the drinking water mechanism.

In one embodiment, the water purifying assembly further comprises a water inlet pipeline, a first water outlet pipeline and a water return pipeline, one end of the water inlet pipeline is connected with the water supply pipeline, the other end of the water inlet pipeline is connected with the raw water inlet of the filtering mechanism, one end of the first water outlet pipeline is connected with the water purifying water outlet of the filtering mechanism, the other end of the first water outlet pipeline is connected with the steaming and drinking assembly, one end of the water return pipeline is connected with the first water outlet pipeline, the other end of the water return pipeline is connected with the water inlet pipeline, a return valve is arranged on the water return pipeline, and purified water in the first water outlet pipeline can flow back into the water inlet pipeline through the water return pipeline; and/or the number of the groups of groups,

the water purification assembly further comprises a second water outlet pipeline, one end of the second water outlet pipeline is connected with the wastewater outlet of the filtering mechanism, the other end of the second water outlet pipeline is communicated with the drainage pipeline, the steam-water separation mechanism is used for collecting condensate water generated by the cooking mechanism, and the steam-water separation mechanism is connected with the second water outlet pipeline so as to drain the condensate water into the drainage pipeline.

Another object of the present invention is to provide a water return control method of an integrated steaming and drinking device, which is used for controlling the integrated steaming and drinking device, ensuring the matching of the water consumption of a steaming and drinking component and the water supply of a water purifying component, and avoiding the waste of purified water or the accumulation of purified water in the steaming and drinking component.

To achieve the purpose, the invention adopts the following technical scheme:

the water return control method of the steaming and drinking integrated equipment is used for controlling the steaming and drinking integrated equipment, and comprises the following steps of:

step S1, a switch of a steaming and drinking assembly is turned on, and a water purifying assembly starts to work;

step S2, acquiring preset cooking water flow of the cooking mechanism or preset water outlet flow of the water drinking mechanism, and when the preset cooking water flow or the preset water outlet flow is smaller than the purified water flow of the purified water component, superfluous purified water flows back to the water inlet end of the purified water component from the water outlet end of the purified water component.

In one embodiment, the following step S2 is further included:

and S3, acquiring the water consumption of the cooking mechanism or the drinking water mechanism, and stopping working of the water purifying component when the water consumption is equal to the preset cooking water consumption of the cooking mechanism or the preset water outlet of the drinking water mechanism.

In one embodiment, when only the cooking mechanism is started to work, the purified water generated by the purified water component flows to the cooking mechanism;

when only the water drinking mechanism is started, the purified water flows to the water drinking mechanism;

when the water drinking mechanism is started when the cooking mechanism works, the supply of the purified water to the cooking mechanism is stopped to control the purified water to flow to the water drinking mechanism, meanwhile, the steam generator of the cooking mechanism stops working, and then, when the water consumption of the water drinking mechanism reaches the preset water yield, the supply of the purified water to the water drinking mechanism is stopped to control the purified water to flow to the cooking mechanism, and the steam generator resumes working.

In one embodiment, when only the cooking mechanism is started to operate, the preset cooking duration of the cooking mechanism is equal to the operating time of the steam generator; when the water drinking mechanism is started when the cooking mechanism works, the preset cooking time length is equal to the sum of the working time of the steam generator and the water supply time length of the water drinking mechanism.

The invention has the beneficial effects that:

the steaming and drinking integrated equipment provided by the invention has the advantages that the steaming and drinking assembly is connected with the water outlet end of the water purifying assembly, and the purified water flows to the steaming and drinking assembly; the steaming and drinking assembly comprises a cooking mechanism and a drinking water mechanism, wherein purified water can selectively flow to the cooking mechanism or the drinking water mechanism, purified water for generating cooking steam is provided for the cooking mechanism, or purified water which can directly flow out for drinking is provided for the drinking water mechanism, the cooking mechanism and the drinking water mechanism do not need to be provided with a water tank, bacteria are prevented from growing when the water tank is not used for a long time, and the steaming and drinking assembly is beneficial to the health of users. When the preset cooking water flow of the cooking mechanism is smaller than the water purification flow or the preset water outlet flow of the drinking water mechanism is smaller than the water purification flow, the redundant water flows back to the water inlet end of the water purification assembly from the water outlet end of the water purification assembly, so that the phenomenon that the taste of cooked foods is influenced due to overlarge steam quantity of the cooking mechanism caused by overlarge water purification flow is avoided, the phenomenon that the use experience of a user is influenced due to overlarge water outlet quantity of the drinking water mechanism is also avoided, and the risk that the excessive water cannot be completely used and remains in the steaming and drinking assembly is reduced; and the reflux of the redundant purified water can also participate in the filtration of the water purification assembly again, so that the cleanliness of the purified water is improved. The steaming and drinking integrated equipment combines the functions of the electric steam box, the water fountain and the water purifier, has compact structure compared with three independent equipment, simplifies the structure, saves the volume, is beneficial to releasing the kitchen space and can reduce the processing cost; convenient to use promotes user's use and experiences.

The backwater control method provided by the invention is used for controlling the steaming and drinking integrated equipment, and can ensure that the preset cooking water flow of the cooking mechanism and the preset water outlet flow of the drinking mechanism are matched with the purified water supply amount of the purified water component, so that purified water is prevented from being wasted or accumulated in the steaming and drinking component, and the cleanliness of purified water is improved; moreover, the cooking mechanism and the drinking water mechanism do not need to be provided with a water tank, so that bacteria are prevented from breeding when the water tank is not used for a long time, and the health of a user is facilitated.

Drawings

Fig. 1 is a schematic diagram of the working principle of a steaming and drinking integrated device according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a second working principle of the steaming and drinking integrated device according to the embodiment of the present invention;

fig. 3 is a schematic structural view of a steaming and drinking integrated device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a water flow direction of a water return control method according to an embodiment of the present invention;

fig. 5 is a second schematic diagram of a water flow direction of the water return control method according to the embodiment of the present invention.

In the figure:

1. a water purifying component; 11. a filtering mechanism; 12. a water inlet pipeline; 121. a low voltage switch; 122. a post-treatment filter element; 123. a water inlet valve; 124. a booster pump; 13. a first water outlet pipeline; 14. a water return line; 141. a return valve; 15. a second water outlet pipeline; 151. a waste water valve; 16. preprocessing a filter element;

2. a steaming component; 21. a cooking mechanism; 211. a steam generator; 22. a drinking water mechanism; 23. a reversing valve; 24. a heating mechanism; 241. a heating box; 242. a temperature sensor; 25. a high-temperature gas-liquid reversing valve; 26. a water delivery pipeline; 261. a flow meter; 262. a flow control pump; 27. a water-vapor separation mechanism; 28. a draining pump; 100. a box body.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are orientation or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

As shown in fig. 1 to 5, the present embodiment first provides a steaming and drinking integrated apparatus including a water purifying module 1 and a steaming and drinking module 2. The water inlet end of the water purifying assembly 1 is connected with a water supply pipeline for supplying raw water, and the water purifying assembly 1 comprises a filtering mechanism 11, wherein the filtering mechanism 11 is used for filtering the raw water to generate purified water. The steaming and drinking assembly 2 is connected with the water outlet end of the water purifying assembly 1, and the purified water flows to the steaming and drinking assembly 2; the steaming and drinking assembly 2 comprises a cooking mechanism 21 and a drinking water mechanism 22, wherein the purified water can selectively flow to the cooking mechanism 21 or the drinking water mechanism 22, so that purified water for generating cooking steam is provided for the cooking mechanism 21, or purified water which can directly flow out for drinking is provided for the drinking water mechanism 22, the cooking mechanism 21 and the drinking water mechanism 22 do not need to be provided with a water tank, bacteria are prevented from growing when the water tank is not used for a long time, and the steaming and drinking assembly is beneficial to the health of users.

When the preset cooking water flow of the cooking mechanism 21 is smaller than the water purification flow or the preset water outlet flow of the drinking water mechanism 22 is smaller than the water purification flow, the redundant water flows back to the water inlet end of the water purification assembly 1 from the water outlet end of the water purification assembly 1, so that the phenomenon that the taste of cooked food is influenced due to the overlarge steam quantity of the cooking mechanism 21 caused by overlarge water purification flow is avoided, the phenomenon that the use experience of a user is influenced due to the overlarge water outlet quantity of the drinking water mechanism 22 is also avoided, and the risk that the excessive water cannot be completely used and remains in the steaming and drinking assembly 2 is reduced; in addition, the reflux of the redundant purified water can also participate in the filtration of the water purifying component 1 again, thereby improving the cleanliness of the purified water.

Therefore, the steaming and drinking integrated equipment provided by the embodiment of the invention combines the functions of the electric steam box, the water fountain and the water purifier, has a compact structure compared with three independent equipment, simplifies the structure to save the volume, is beneficial to releasing the kitchen space and can reduce the processing cost; convenient to use promotes user's use and experiences.

Specifically, the filtration means 11 may use a reverse osmosis membrane cartridge (RO membrane) to purify and filter raw water. The filtering mechanism 11 may further be provided with a post-treatment filter element 122 for filtering the purified water purified by the reverse osmosis membrane filter element again to improve the filtering effect, and the post-treatment filter element 122 may be a carbon rod filter element (CTO filter element).

Preferably, a pretreatment filter element 16 can be further arranged at the upstream of the filtering mechanism 11, the pretreatment filter element 16 can adopt a melt-blown pp filter element and a CTO carbon rod composite filter element, the pretreatment filter element 16 can pretreat raw water, the cleanliness of the raw water entering the filtering mechanism 11 is improved, and the filtering efficiency of the filtering mechanism 11 can also be improved.

As shown in fig. 3, the steaming and drinking integrated equipment comprises a box body 100, a water purifying component 1 and a steaming and drinking component 2 are arranged in the box body 100, a drinking water mechanism 22 is arranged on one side of a cooking mechanism 21, and a filtering mechanism 11 of the water purifying component 1 is arranged below the cooking mechanism 21; preferably, the filter element of the filtering mechanism 11 is horizontally arranged to reduce the height dimension, so that the structure of the steaming and drinking integrated device is compact.

In one embodiment, the cooking mechanism 21 includes a steam generator 211, the steam generator 211 for converting clean water into cooking steam; the steaming and drinking assembly 2 further comprises a reversing valve 23, wherein a first outlet of the reversing valve 23 is communicated with the cooking mechanism 21, a second outlet of the reversing valve 23 is communicated with the drinking water mechanism 22, and the reversing valve 23 is used for controlling the flow of purified water to the steam generator 211 or the drinking water mechanism 22. The working principle of the steam generator 211 and the reversing control structure of the reversing valve 23 are not important in the present application, and are not described herein. Of course, in this embodiment, the steaming and drinking assembly 2 may further be provided with a heating mechanism 24 for heating the purified water of the drinking water mechanism 22, and in this case, the reversing valve 23 should be disposed upstream of the heating mechanism 24, and as shown in fig. 1, the purified water may flow to the heating mechanism 24 or the steam generator 211 under the action of the reversing valve 23.

In another embodiment, the steaming beverage assembly 2 comprises a heating mechanism 24 and a high-temperature gas-liquid reversing valve 25, wherein the heating mechanism 24 is used for heating purified water, and the heating temperature of the heating mechanism 24 is adjustable to form cooking steam; the high temperature gas-liquid switching valve 25 is used to control the flow of heated clean water to the drinking water mechanism 22 or the cooking mechanism 21, so that the steam generator 211 of the cooking mechanism 21 can be omitted, and the structure of the steaming and drinking integrated device can be further simplified as shown in fig. 2. At this time, a high temperature gas-liquid switching valve 25 is provided downstream of the heating mechanism 24 to control the flow direction of the cooking steam or the heated clean water.

In one embodiment, the heating mechanism 24 includes a heating box 241 and at least one temperature sensor 242, the heating box 241 is used for accommodating and heating the purified water, and the heating box 241 has a heating element (not shown), such as an electric heating rod, etc., which can raise the temperature of the purified water. The temperature sensor 242 is disposed at the water inlet and/or the water outlet of the heating box 241, the temperature sensor 242 of the water inlet detects the water inlet temperature, and the temperature sensor 242 of the water outlet detects the water outlet temperature, so that the heating temperature of the purified water can reach the drinking water temperature set by the user more precisely. The temperature control principle of the heating mechanism 24 is well known in the art, and the present embodiment is not described herein.

In one embodiment, the steaming and drinking assembly 2 further includes a water delivery pipeline 26 and a flow meter 261 and/or a flow control pump 262 disposed on the water delivery pipeline 26, wherein the flow control pump 262 is used for controlling the flow of purified water in the water delivery pipeline 26, so that the flow of purified water in the water delivery pipeline 26 is equal to a preset cooking water flow or a preset water outlet flow, and the steam quantity of the cooking mechanism 21 is ensured to meet the cooking requirement, or the water outlet flow of the drinking mechanism 22 is equal to the preset water outlet flow of the drinking mechanism 22; the flow meter 261 is used for measuring the water consumption of the cooking mechanism 21 and/or the drinking water mechanism 22, and when the water consumption of the cooking mechanism 21 or the drinking water mechanism 22 reaches a set value, the water purifying assembly 1 stops working.

In one embodiment, the water purifying assembly 1 further includes a water inlet pipeline 12, a first water outlet pipeline 13 and a water return pipeline 14, wherein one end of the water inlet pipeline 12 is connected to the water supply pipeline, and the other end is connected to the raw water inlet of the filtering mechanism 11. One end of the first water outlet pipeline 13 is connected with a purified water outlet of the filtering mechanism 11, and the other end of the first water outlet pipeline is connected with the steaming and drinking assembly 2 and is used for conveying purified water to the steaming and drinking assembly 2. One end of the water return pipeline 14 is connected with the first water outlet pipeline 13, the other end of the water return pipeline is connected with the water inlet pipeline 12, a return valve 141 is arranged on the water return pipeline 14, whether the water return pipeline 14 is communicated or not is controlled through the return valve 141, raw water in the water inlet pipeline 12 is prevented from directly entering the water return pipeline 14, and unidirectional circulation of the water return pipeline 14 is guaranteed. The clean water in the first water outlet pipeline 13 can flow back into the water inlet pipeline 12 through the water return pipeline 14, so that the normal operation of the steaming and drinking assembly 2 is prevented from being influenced by excessive clean water, and the excessive clean water is prevented from remaining in the steaming and drinking assembly 2.

Optionally, the water inlet pipeline 12 is provided with a low-pressure switch 121, a booster pump 124 and a water inlet valve 123, and when the user starts the water steaming component 2 and the low-pressure switch 121 detects that the water inlet pipeline 12 is communicated with the water supply pipeline, the water steaming component 2 controls the water inlet valve 123 to be opened through a control module (not shown in the figure), the booster pump 124 starts to work simultaneously, and raw water generates purified water through the filtering mechanism 11. The cooking mechanism 21 and the drinking water mechanism 22 each have an independent switch, and can independently control the operation of the water purification unit 1. Preferably, the other end of the water return line 14 remote from the first water outlet line 13 is disposed upstream of the booster pump 124. The structure and control principle of the control module are prior art in the field, and this implementation is not described here in detail.

In an embodiment, the water purifying assembly 1 further includes a second water outlet pipeline 15, one end of the second water outlet pipeline 15 is connected with the waste water outlet of the filtering mechanism 11, the other end of the second water outlet pipeline is communicated with the water draining pipeline, the steaming and drinking assembly 2 further includes a water-vapor separating mechanism 27 and a draining pump 28, the water-vapor separating mechanism 27 is used for collecting condensed water generated by the cooking mechanism 21, in addition, the water-vapor separating mechanism 27 can also collect large liquid drops in steam generated by the steam generator 211 or the heating mechanism 24, so as to avoid influencing the taste of cooked food.

The water-vapor separation mechanism 27 is connected with the second water outlet pipeline 15, and condensed water collected by the water-vapor separation mechanism 27 is discharged into the water outlet pipeline under the action of the water discharge pump 28. The second water outlet pipeline 15 is provided with a waste water valve 151 for controlling the on-off of the second water outlet pipeline 15, so that waste caused by directly discharging raw water from the second water outlet pipeline 15 when the filtering mechanism 11 fails is avoided.

The embodiment of the invention also provides a backwater control method which comprises the steaming and drinking integrated device. The backwater control method of the steaming and drinking integrated equipment comprises the following steps:

step S1, switching on a switch of the steaming and drinking assembly 2, and starting the water purifying assembly 1 to work;

step S2, obtaining a preset cooking water flow of the cooking mechanism 21 or a preset water outlet flow of the water drinking mechanism 22, and when the preset cooking water flow or the preset water outlet flow is smaller than the purified water flow of the water purifying component 1, the redundant purified water flows back from the water outlet end of the water purifying component 1 to the water inlet end of the water purifying component 1.

According to the backwater control method provided by the embodiment of the invention, the preset cooking water flow of the cooking mechanism 21 and the preset water outlet flow of the drinking water mechanism 22 are ensured to be matched with the purified water supply amount of the purified water component 1, so that purified water is prevented from being wasted or accumulated in the steaming and drinking component 2, and the cleanliness of the purified water is improved; moreover, the cooking mechanism 21 and the drinking water mechanism 22 do not need to be provided with water tanks, so that bacteria are prevented from breeding when the water tanks are not used for a long time, and the health of users is facilitated.

In one embodiment, after step S2, the method further includes the following steps:

step S3, obtain the water consumption of the cooking mechanism 21 or the drinking water mechanism 22, when the water consumption is equal to the preset cooking water consumption of the cooking mechanism 21 or the preset water outlet of the drinking water mechanism 22, it indicates that the work of the cooking mechanism 21 or the drinking water mechanism 22 is completed, at this time, the water purifying component 1 stops working, and the waste caused by the excessive water purifying provided by the water purifying component 1 is avoided.

In one embodiment, when only the cooking mechanism 21 is started to operate, the clean water generated by the clean water component 1 flows to the cooking mechanism 21; when only the water dispenser 22 is activated, the purified water flows to the water dispenser 22; when the water dispenser 22 is started up while the cooking mechanism 21 is operated, the reversing valve 23 is operated, the water purifier assembly 1 stops supplying the purified water to the cooking mechanism 21 to control the flow of the purified water to the water dispenser 22, and the steam generator 211 of the cooking mechanism 21 stops operating, and then, when the water consumption of the water dispenser 22 reaches the preset water yield, the reversing valve 23 is operated again, the water purifier assembly 1 stops supplying the purified water to the water dispenser 22 to control the flow of the purified water to the cooking mechanism 21, and the steam generator 211 resumes operating. That is, the steaming and drinking integrated device adopts a water-drinking priority operation mode, and the water supply sequence is reasonable because the water supply duration of the water drinking mechanism 22 is far less than the preset cooking duration of the cooking mechanism 21.

In one embodiment, when only the cooking mechanism 21 is activated to operate, the preset cooking time period of the cooking mechanism 21 is equal to the operation time of the steam generator 211, during which the water purifying assembly 1 continuously supplies purified water to the cooking mechanism 21 for use by the steam generator 211. When the water drinking mechanism 22 is started when the cooking mechanism 21 works, the preset cooking time length is equal to the sum of the working time of the steam generator 211 and the water supply time length of the water drinking mechanism 22, because the reversing valve 23 acts when the water drinking mechanism 22 is started, the purified water flowing out of the water purifying component 1 is controlled not to flow to the cooking mechanism 21 but to be supplied to the water drinking mechanism 22, at the moment, in order to avoid dry burning of the steam generator 211, the control module controls the steam generator 211 to pause, and when the water consumption of the water drinking mechanism 22 reaches the preset water yield, the reversing valve 23 acts again, and controls the purified water flowing out of the water purifying component 1 to flow to the steam generator 211 again, so that the preset cooking time length of the cooking mechanism 21 comprises the stop waiting time length of the steam generator 211 (namely the water supply time length of the water drinking mechanism 22), and the preset cooking time length is equal to the sum of the working time length of the steam generator 211 and the water supply time length of the water drinking mechanism 22, and the situation that the preset cooking time length is insufficient to cause insufficient cooking food is avoided.

It is to be understood that the above examples of the present invention are provided for clarity of illustration only and are not limiting of the embodiments of the present invention. Various obvious changes, rearrangements and substitutions can be made by those skilled in the art without departing from the scope of the invention. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims (10)

1. Evaporate integrative equipment of drink, its characterized in that includes:

the water purification device comprises a water purification assembly (1), wherein the water inlet end of the water purification assembly (1) is connected with a water supply pipeline for providing raw water, the water purification assembly (1) comprises a filtering mechanism (11), and the filtering mechanism (11) is used for filtering the raw water to generate purified water;

evaporate drink subassembly (2), evaporate drink subassembly (2) connect the play water end of water purification subassembly (1), evaporate drink subassembly (2) include cooking mechanism (21) and drinking water mechanism (22), clean water can selectively flow to cooking mechanism (21) or drinking water mechanism (22), work as the preset culinary art discharge of cooking mechanism (21) is less than the water purification flow or drinking water mechanism (22) predetermine the water outlet flow be less than the water purification flow when unnecessary the water purification by the play water end backward flow of water purification subassembly (1) to the inlet end of water purification subassembly (1).

2. The integrated steaming and drinking device according to claim 1, wherein the cooking mechanism (21) comprises a steam generator (211), the steam generator (211) is used for converting the purified water into cooking steam, the steaming and drinking assembly (2) further comprises a reversing valve (23), a first outlet of the reversing valve (23) is communicated with the cooking mechanism (21), a second outlet of the reversing valve (23) is communicated with the drinking water mechanism (22), and the reversing valve (23) is used for controlling the purified water to flow to the steam generator (211) or the drinking water mechanism (22).

3. The integrated steaming and drinking device according to claim 1, wherein the steaming and drinking assembly (2) comprises a heating mechanism (24) and a high-temperature gas-liquid reversing valve (25), the heating mechanism (24) is used for heating the purified water, the heating temperature of the heating mechanism (24) is adjustable to form cooking steam, and the high-temperature gas-liquid reversing valve (25) is used for controlling the heated purified water to flow to the water drinking mechanism (22) or the cooking mechanism (21).

4. A steaming and drinking integrated device according to claim 3, wherein the heating mechanism (24) comprises a heating tank (241) and at least one temperature sensor (242), the heating tank (241) is used for accommodating and heating the purified water, and the temperature sensor (242) is arranged at the water inlet and/or the water outlet of the heating tank (241).

5. The integrated steaming and drinking device according to claim 1, wherein the steaming and drinking assembly (2) further comprises a water delivery pipeline (26) and a flow meter (261) and/or a flow control pump (262) arranged on the water delivery pipeline (26), the flow control pump (262) is used for controlling the flow rate of the purified water in the water delivery pipeline (26) so that the flow rate is equal to the preset cooking water flow rate or the preset water outlet flow rate, and the flow meter (261) is used for metering the water consumption of the cooking mechanism (21) and/or the drinking water mechanism (22).

6. The integrated steaming and drinking device according to claim 1, wherein the water purifying component (1) further comprises a water inlet pipeline (12), a first water outlet pipeline (13) and a water return pipeline (14), one end of the water inlet pipeline (12) is connected with the water supply pipeline, the other end of the water inlet pipeline is connected with a raw water inlet of the filtering mechanism (11), one end of the first water outlet pipeline (13) is connected with a purified water outlet of the filtering mechanism (11), the other end of the first water outlet pipeline is connected with the steaming and drinking component (2), one end of the water return pipeline (14) is connected with the first water outlet pipeline (13), the other end of the water return pipeline (14) is connected with the water inlet pipeline (12), a return valve (141) is arranged on the water return pipeline (14), and purified water in the first water outlet pipeline (13) can flow back into the water inlet pipeline (12) through the water return pipeline (14); and/or the number of the groups of groups,

the water purification assembly (1) further comprises a second water outlet pipeline (15), one end of the second water outlet pipeline (15) is connected with a wastewater outlet of the filtering mechanism (11), the other end of the second water outlet pipeline is communicated with a drainage pipeline, the steaming and drinking assembly (2) further comprises a water-vapor separation mechanism (27), the water-vapor separation mechanism (27) is used for collecting condensate water generated by the cooking mechanism (21), and the water-vapor separation mechanism (27) is connected with the second water outlet pipeline (15) so as to drain the condensate water into the drainage pipeline.

7. A water return control method of a steaming and drinking integrated apparatus for controlling the steaming and drinking integrated apparatus according to any one of claims 1 to 6, the water return control method comprising the steps of:

s1, opening a switch of a steaming and drinking assembly (2), and starting a water purifying assembly (1) to work;

step S2, acquiring preset cooking water flow of a cooking mechanism (21) or preset water outlet flow of a water drinking mechanism (22), and when the preset cooking water flow or the preset water outlet flow is smaller than the purified water flow of the purified water component (1), enabling the excessive purified water to flow back to the water inlet end of the purified water component (1) from the water outlet end of the purified water component (1).

8. The water return control method according to claim 7, further comprising, after the step S2, the steps of:

and S3, acquiring the water consumption of the cooking mechanism (21) or the water drinking mechanism (22), and stopping the water purifying component (1) when the water consumption is equal to the preset cooking water consumption of the cooking mechanism (21) or the preset water outlet of the water drinking mechanism (22).

9. The backwater control method according to claim 7, wherein when only the cooking mechanism (21) is started to operate, the purified water generated by the water purifying assembly (1) flows to the cooking mechanism (21);

-when only the drinking means (22) is activated, the purified water flows towards the drinking means (22);

when the water drinking mechanism (22) is started when the cooking mechanism (21) works, the supply of the purified water to the cooking mechanism (21) is stopped to control the purified water to flow to the water drinking mechanism (22), meanwhile, the steam generator (211) of the cooking mechanism (21) stops working, and then, when the water consumption of the water drinking mechanism (22) reaches the preset water consumption, the supply of the purified water to the water drinking mechanism (22) is stopped to control the purified water to flow to the cooking mechanism (21), and the steam generator (211) resumes working.

10. The water return control method according to claim 9, wherein when only the cooking mechanism (21) is started to operate, a preset cooking duration of the cooking mechanism (21) is equal to an operating time of the steam generator (211); when the water drinking mechanism (22) is started when the cooking mechanism (21) works, the preset cooking time period is equal to the sum of the working time of the steam generator (211) and the water supply time period of the water drinking mechanism (22).