阅读说明：本技术 饮品设备出水加热系统、饮品加工设备和加热控制方法 (Water outlet heating system of beverage equipment, beverage processing equipment and heating control method ) 是由 安明波 阮秋合 陆世坚 庞承龙 于 2021-09-10 设计创作，主要内容包括：本发明公开一种饮品设备出水加热系统、饮品加工设备和加热控制方法,其中,饮品设备出水加热系统,包括水箱、水泵、连接所述水泵的进水口和所述水箱的第一管路、连接所述水泵的出水口的第二管路、第一加热装置、第二加热装置以及控制器,所述第一加热装置设于所述水箱内,所述第一加热装置包括加热功率不同的第一加热器和第二加热器,所述第二加热装置设于在所述第二管路上,所述控制器分别与所述水泵、所述第一加热装置以及第二加热装置电性连接。本发明技术方案能满足热水的需求,降低设备功率的损耗,节约成本。(The invention discloses a water outlet heating system of a beverage device, a beverage processing device and a heating control method, wherein the water outlet heating system of the beverage device comprises a water tank, a water pump, a first pipeline connected with a water inlet of the water pump and the water tank, a second pipeline connected with a water outlet of the water pump, a first heating device, a second heating device and a controller, the first heating device is arranged in the water tank, the first heating device comprises a first heater and a second heater which have different heating powers, the second heating device is arranged on the second pipeline, and the controller is respectively electrically connected with the water pump, the first heating device and the second heating device. The technical scheme of the invention can meet the requirement of hot water, reduce the loss of equipment power and save cost.)

1. A beverage appliance outlet heating system, comprising:

the water tank, the water pump, connect the water inlet of water pump with the first pipeline of water tank, connection the second pipeline, first heating device, second heating device and the controller of the delivery port of water pump, first heating device locates in the water tank, first heating device includes the different first heater and the second heater of heating power, second heating device locates on the second pipeline, the controller respectively with the water pump first heating device and second heating device electric connection, wherein, first heater with the second heater is all located the bottom of water tank, just first heater with the second heater is the electrothermal tube.

2. The beverage appliance outlet water heating system of claim 1, wherein the first heater and the second heater are both U-shaped electrical heating tubes or spiral electrical heating tubes.

3. The beverage appliance outlet heating system of claim 1, wherein the heating power of the first heater is no more than thirty percent of the heating power of the second heater.

4. The beverage appliance outlet heating system of claim 3, wherein the heating power of the second heating means is comparable to the sum of the heating power of the first heater and the heating power of the second heater.

5. The beverage appliance outlet heating system of claim 1, wherein a first dry-heating prevention device is disposed in the water tank, and the first dry-heating prevention device is configured to stop operation of the first heating device when a temperature in the water tank exceeds a predetermined threshold temperature.

6. The beverage appliance outlet heating system of claim 1, wherein a second anti-dry heating device is provided on the second heating device, the second anti-dry heating device being configured to stop operation of the second heating device when a temperature within the second heating device exceeds a predetermined threshold temperature.

7. The beverage appliance outlet heating system of claim 1, further comprising:

the electromagnetic valve is connected with the water tank, and the water pump is connected with the electromagnetic valve through the first pipeline;

the air pump assembly comprises an air pump and a one-way valve, the air pump is connected between the electromagnetic valve and the water pump through an air pipe, and the one-way valve is installed on the air pipe and conducted in the blowing direction of the air pump.

8. The beverage appliance outlet heating system of claim 7, wherein the first heater is powered at 500W and the second heater is powered at 2000W.

9. A beverage processing apparatus, comprising:

the beverage appliance outlet water heating system of any one of claims 1 to 8; and

the machine body is provided with a discharge module, and the discharge module is connected with the second pipeline to receive water flowing out of the beverage equipment water outlet heating system.

10. A heating control method, wherein the control method is implemented by the beverage device outlet water heating system of claim 1, and the heating control method comprises the following steps:

when the controller receives a heating instruction, the controller controls one of the second heater and the second heating device in the first heating device to start.

Technical Field

The invention relates to the technical field of beverage processing equipment, in particular to an effluent heating system of the beverage processing equipment, the beverage processing equipment and a heating control method.

Background

The water outlet heating system of the existing beverage processing equipment generally utilizes a heating block or a small boiler which is formed by die casting an electric heating tube and aluminum together to heat water to brew coffee, because the amount of hot water needed for brewing is small, the heating power is also small, the preheating time is long, the temperature can be caused by increasing the heating power, the temperature of the water with the needed amount can be quickly increased to be close to boiling by using an instant heating type liquid heater in the prior art, the instant heating effect is achieved, but if the water needs to be heated to be close to boiling in a short time, the power of the instant heater is large, and the energy consumption is high. The use cost is higher for frequently used users, in addition, practical scenes are also very limited, such as a household 2.5 square line (national standard), the bearing power is about 5 kilowatts, the power range of the beverage processing equipment can reduce the fire safety hidden danger in the range, the existing beverage processing equipment can not meet the requirements of quickly supplying heat and ensuring the power range, the use of the existing hot water energy storage device can ensure the use safety, but has the problems of complex structure and low conversion efficiency, and can not additionally add a cold water outlet system, if a user needs cold water, the user needs to additionally purchase heating equipment, the integral purchase machine cost and the waste of a placement space.

Disclosure of Invention

The invention mainly aims to provide a water outlet heating system of beverage equipment, which aims to meet the requirement of a user on hot water quickly through the water outlet heating system of the beverage equipment, reduce the overall energy consumption and save the cost.

In order to achieve the above object, the present invention provides a water heating system for a beverage device, comprising:

the water tank, the water pump, connect the water inlet of water pump with the first pipeline of water tank, connection the second pipeline, first heating device, second heating device and the controller of the delivery port of water pump, first heating device locates in the water tank, first heating device includes the different first heater and the second heater of heating power, second heating device locates on the second pipeline, the controller respectively with the water pump first heating device and second heating device electric connection, wherein, first heater with the second heater is all located the bottom of water tank, just first heater with the second heater is the electrothermal tube. .

Optionally, the first heater and the second heater are both U-shaped electric heating tubes or spiral electric heating tubes.

Optionally, the heating power of the first heater is no more than thirty percent of the heating power of the second heater.

Optionally, the heating power of the second heating device is equivalent to the sum of the heating power of the first heater and the heating power of the second heater.

Optionally, a first dry heating prevention device is arranged in the water tank, and the first dry heating prevention device is used for stopping the first heating device when the temperature in the water tank exceeds a preset threshold temperature.

Optionally, a second dry heating prevention device is arranged on the second heating device, and the second dry heating prevention device is configured to stop the operation of the second heating device when the temperature in the second heating device exceeds a preset threshold temperature.

Optionally, the water pump further comprises an electromagnetic valve, the electromagnetic valve is connected with the water tank, and the water pump is connected with the electromagnetic valve through the first pipeline;

the air pump assembly comprises an air pump and a one-way valve, the air pump is connected between the electromagnetic valve and the water pump through an air pipe, and the one-way valve is installed on the air pipe and conducted in the blowing direction of the air pump.

Optionally, the power of the first heater is 500W, and the power of the second heater is 2000W.

The invention also provides a beverage processing device, which comprises the above water outlet heating system; and

the machine body is provided with a discharge module, and the discharge module is connected with the second pipeline to receive water flowing out of the beverage equipment water outlet heating system.

The invention also provides a heating control method, which is realized by adopting the water outlet heating system of the beverage equipment, and comprises the following steps:

when the controller receives a heating instruction, the controller controls one of the second heater and the second heating device in the first heating device to start.

According to the technical scheme, the water tank, the water pump, the first pipeline connected with the water inlet of the water pump and the water tank, the second pipeline connected with the water outlet of the water pump, the first heating device, the second heating device and the controller are adopted, the water tank can store water, the first heater and the second heater which are arranged in the water tank and have different heating powers can heat the water in the water tank on one hand and can also keep the temperature of the heated water on the other hand, when the two second heating devices are matched, when hot water is needed, only the second heating device is needed to heat part of warm water, and the whole water tank is not needed to be heated. The requirement of a small amount of hot water can be met on the basis, the power consumption is reduced, and the cost is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic perspective view of a beverage processing apparatus according to an embodiment of the present invention with a side plate of the apparatus body removed;

FIG. 2 is a schematic perspective view of the water supply system of the beverage appliance of FIG. 1;

fig. 3 is a schematic perspective view of the water supply system of the beverage appliance of fig. 2 without the cover of the water tank.

Fig. 4 is a schematic perspective view of the water supply system of the beverage apparatus in fig. 2 from another angle.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				1000	Beverage processing equipment	330	First heating device
100	Machine body	331	First heater
				200	Discharging module	332	Second heater
300	Water outlet heating system of beverage equipment	340	First dry burning prevention device
				310	Water tank	350	Second heating device
311	Water outlet	360	Second dry burning prevention device
				320	Water pump	370	Liquid level detector
321	First pipeline	380	Electromagnetic valve
				322	Second pipeline	390	Inductor

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The water outlet heating system of the existing beverage processing equipment generally utilizes a heating block or a small boiler which is formed by die casting an electric heating tube and aluminum together to heat water to brew coffee, because the amount of hot water needed for brewing is small, the heating power is also small, the preheating time is long, the temperature can be caused by increasing the heating power, the temperature of the water with the needed amount can be quickly increased to be close to boiling by using an instant heating type liquid heater in the prior art, the instant heating effect is achieved, but if the water needs to be heated to be close to boiling in a short time, the power of the instant heater is large, and the energy consumption is high. The use cost is higher for frequently used users, in addition, practical scenes are also very limited, such as a household 2.5 square line (national standard), the bearing power is about 5.5 kilowatts, the power range of the beverage processing equipment can reduce the fire safety hidden danger in the range, the existing beverage processing equipment can not meet the requirements of quickly supplying heat and ensuring the power range, the existing hot water energy storage device can ensure the use safety, but has the problems of complex structure and low conversion efficiency, and a cold water outlet system can not be additionally arranged, and if a user needs cold water, the user needs to additionally purchase heating equipment, the machine purchasing cost is increased and the waste of a placement space is reduced.

The invention provides a water outlet heating system of a beverage device.

Referring to fig. 1 to 4, in an embodiment of the present invention, the heating system 300 includes a water tank 310, a water pump 320, a first pipe 321 connecting a water inlet of the water pump 320 and the water tank 310, a second pipe 322 connecting a water outlet 311 of the water pump 320, a first heating device 330, a second heating device 350, and a controller, wherein the first heating device 330 is disposed in the water tank 310, the first heating device 330 includes a first heater 331 and a second heater 332 with different heating powers, the second heating device 350 is disposed on the second pipe 322, and the controller is electrically connected to the water pump 320, the first heating device 330, and the second heating device 350, respectively.

A beverage is a liquid prepared by processing and suitable for people to drink, in particular to a liquid for quenching thirst, providing nutrition or refreshing. Such as carbonated beverages: the beverage is a bubble beverage formed by mixing carbon dioxide gas with various flavors, moisture, syrup, coloring matters, etc. Like cola, soda water, etc. Carbonated beverage: the main components comprise: carbonated water, citric acid and other acidic substances, white sugar and spices, and some contain the following coffee causal vegetable juice beverages: various fruit juices, fresh juices, vegetable juices, fruit and vegetable mixed juices, etc. Functional beverage: drinks containing various nutritional elements, such as vegetable protein drinks, can meet special requirements of human bodies; tea beverages; milk beverage: frequently drunk milk, yogurt, etc.

Referring to fig. 2 to 4, the water outlet heating system 300 of the beverage processing device 1000 can be used to provide a hot water source for the discharge module of the beverage processing device to meet the hot drink demand of the user, so as to facilitate the distribution of the water outlet. The water outlet heating system 300 of the beverage equipment can be further provided with a three-way valve, the three-way valve is electrically connected with the controller, and a plurality of cups of beverage can be made through the three-way valve, so that the use experience of a user can be improved. The three-way valve refers to a valve having one inflow port and a plurality of outflow ports, and the number of outflow ports can be selected according to the need, such as two, three, etc.

The water tank 310 may further be surrounded by a heat insulating layer, and the tank body has a cavity for storing clean water. The box is connected with a water supply pipeline, and water to be heated can enter the box from the water supply pipeline or be poured into the box from the top of the box.

Referring to fig. 3 to 4, a solenoid valve 380 may be disposed at the water outlet 311 of the water tank 310 for controlling the water outlet amount of the water tank 310, and the solenoid valve 380 is an automated basic element for controlling the flow of fluid by electromagnetic control, and belongs to an actuator. Generally used for controlling parameters such as flow direction, flow rate, speed and the like of the fluid. The solenoid valve 380 can be matched with different circuits to realize the expected control, and the precision and flexibility of the control can be ensured.

In another embodiment, the box body can be further provided with a water inlet which can be connected with external water supply equipment, such as a tap water pipe connected with the water purifier, and the water can be conveniently added into the box body.

In other embodiments, a water pump may be further disposed in the beverage processing device 1000 according to the requirement, for pumping the water in the external barrel water into the water tank 310, or for supplementing the water source.

The water pump 320 may be a diaphragm pump, and the diaphragm pump is used to receive the control signal of the regulator or the computer, change the flow rate of the regulated medium, and maintain the regulated parameters within the required range, so as to achieve the purpose of automation of the production process.

In this embodiment, a controller (not shown) is electrically connected to the water pump 320, the first heating device 330 and the second heating device 350, respectively. The first heating means 330 includes a first heater 331 and a second heater 332 having different heating powers; on one hand, the temperature of the water tank 310 can be quickly raised under the condition that the two first heaters 331 and the second heater 332 with different powers are heated together, and the requirement of hot water can be met; on the other hand, the hot water can be insulated after being heated to a certain power. While the second heating means 350 is arranged to satisfy the demand of a small amount of hot water on the basis, it can be understood that the first heating means 330 and the second heating means 350 are arranged to satisfy the demand of hot water quickly. Without loss of generality, as in a scenario where the first heater 331 and the second heater 332 of the first heating device 330 heat together to heat the water to 70 ℃, the first heater 331 with lower power can be used to maintain the water temperature, and when a user needs hot water with higher temperature, such as 90 ℃, the water pump 320 pumps the water in the water tank 310 to flow through the second heating device 350 to rapidly heat a small amount of water to the required temperature, which meets the requirement. Therefore, the power loss can be reduced without continuously starting the heating device, and the requirement of hot water can be quickly met.

In the domestic case, the bearing capacity of the electric energy meter and the low-voltage lines is required. The voltage of the civil electricity is 220V, the electric appliances in the kitchen are more, and the arrangement according to about 5.5 kilowatts is a relatively safe range. Further, because the beverage processing device 1000 is used by matching the first heating device 330 with the second heating device 350, the saved power of the whole machine can also configure a cold water outlet system for the beverage processing device 1000, thereby meeting various requirements. If cold water outlet system and play water heating system cooperation use can provide the water of ejection of compact module different temperatures, when guaranteeing safe in utilizationly, realize more diversified selection, improve user's experience and feel, improve the competitiveness of product, the buyer need not purchase in addition and outer equipment, practice thrift the space that cost and installation were placed.

According to the technical scheme of the invention, the water tank 310, the water pump 320, the first pipeline 321 connected with the water inlet of the water pump 320 and the water tank 310, the second pipeline 322 connected with the water outlet 311 of the water pump 320, the first heating device 330, the second heating device 350 and the controller are adopted, the water tank 310 can store water, the first heater 331 and the second heater 332 which are arranged in the water tank 310 and have different heating powers can heat the water in the water tank 310 on one hand and can also preserve heat of the heated water on the other hand, when the arrangement of the second heating device 350 is matched, only part of warm water needs to be heated through the second heating device 350, and the water tank 310 does not need to be heated integrally. The requirement of a small amount of hot water can be met on the basis, the power consumption is reduced, and the cost is saved.

Referring to fig. 3, further, the heating effect is good in order to increase the contact area of the first heating means 330 with the water in the water tank 310. In this embodiment, the first heater 331 and the second heater 332 are both disposed at the bottom of the water tank 310. It can be understood that the first heater 331 and the second heater 332 disposed at the bottom, when water is boiled, the water temperature will rise linearly, and the temperature of the bottom will rise faster because the bottom part is contacted to absorb heat first, in one case, when the temperature of the bottom rises to a certain temperature, the water at the bottom can be further heated by the second heating device 350, and the hot water efficiency is improved.

Specifically, the first heater 331 and the second heater 332 are both electric heating tubes.

In this embodiment, the first heater 331 and the second heater 332 are both U-shaped electric heating tubes or spiral electric heating tubes. The contact area of the two is large, and the efficiency of exchanging heat with water can be improved.

Further, in order to guarantee that water can be heated, waste caused by overhigh power is avoided. The heating power of the first heater 331 is not more than thirty percent of the heating power of the second heater 332. In the foregoing, the function of the second heating device 350 is introduced, and it is understood that in this situation, the first heating device 330 has the capability of heating water and also has the function of heat preservation, so as to avoid "large horse pulls small barrels", the heating power of the first heater 331 is not more than thirty percent of the heating power of the second heater 332, so that the two heaters can be simultaneously turned on to ensure the water heating requirement, and only the first heater 331 with small power needs to be turned on after the heating is finished, thereby reducing the energy consumption and saving the cost. Without loss of generality, in one case, two heaters with different powers are arranged in the box body, the first power is 500w, the second power is 2000w, the first heater 331 and the second heater 332 are turned on to heat water to boiling, the second heater 332 is turned off, the first heater 331 is turned on to keep the temperature, so that the water in the box body is kept in a warm water state, when hot water is needed, the box body is connected with one end of a water outlet pipe, the other end of the water outlet pipe is connected with an input end of a water pump 320, an instant heater is arranged outside the box body and connected with an input end of the water pump 320, and the warm water is heated by the instant heater and then flows out of the instant heater.

Further, in order to heat the water quickly, too high power is also avoided. The heating power of the second heating means 350 is equivalent to the sum of the heating power of the first heater 331 and the heating power of the second heater 332. In reference, the second heating device 350 may be an instantaneous water heater, which is a water heater that can heat running water rapidly through an electronic heating element and can control water temperature, flow rate, power, etc. through a circuit to make the water temperature reach a certain temperature. The heating is started and heated, waiting is not needed, and the heating can be started within a plurality of seconds generally. The heating element of the instant heater can adopt metal pipes and wires, and the heating pipe (wire) is directly soaked in water, so that the instant heater has high thermal efficiency, can quickly heat and is mature in matching; the glass tube is used for coating the resistive film on the outer wall of the glass tube, water flows through the inner wall of the glass tube, and water and electricity are separated; cast aluminium, the water route is kept apart with heating element completely, and the in-process that water flows in the pipeline is heated up gradually, is the "running water" heating principle of a low temperature circulation flow, has avoided the incrustation scale problem that high temperature still water heating brought.

In one embodiment, the power of the second heating device 350 is 2500W. The water can be heated, and waste caused by overhigh power is avoided. Specifically, a second heating device 350 is arranged outside the tank body and connected with the input end of the water pump 320, and the warm water in the water tank 310 is pumped by the water pump 320 and then passes through the second heating device 350 at a certain flow rate, so that the temperature is raised to the required temperature. For example, the water in the water tank 310 is maintained at about 70 ℃, the water pump 320 pumps the water in the water tank 310 through the first pipeline 321, and the water temperature is increased by about 20 ℃ when the water flows through the second heating device 350 at a speed of 30m/s, that is, the water temperature reaches about 90 ℃ to meet the use requirement.

Further, to avoid burning out the device at too high a temperature. A first dry-heating preventing device 340 is disposed in the water tank 310, and the first dry-heating preventing device 340 is configured to stop the operation of the first heating device 330 when the temperature in the water tank 310 exceeds a preset threshold temperature. The first dry burning prevention device 340 is connected in series with the first heating device 330, and when the temperature in the heating device reaches a threshold value, the first dry burning prevention device 340 turns off the switch of the heating device to stop the operation of the first heating device 330.

Referring to fig. 2, in order to ensure the sensing effect of the first dry burning prevention device 340 is good. The first dry burning prevention device 340 is disposed on a sidewall of the water tank 310 and near a bottom of the water tank 310. As described above, the first heating unit 330 is disposed at the bottom of the water tank 310, the temperature of the bottom rises most rapidly during heating, and the first dry-heating preventing unit 340 is disposed near the bottom to detect the time required for shortening the sensing time in the first time.

Referring to fig. 2 to 4, in order to avoid burning out the second heating means 350. The second heating device 350 is provided with a second dry burning prevention device 360, and the second dry burning prevention device 360 is used for stopping the second heating device 350 when the temperature in the second heating device 350 exceeds a preset threshold temperature. Specifically, the second heating device 350 has a liquid inlet end and a liquid outlet end, and in one embodiment, the liquid inlet end and the liquid outlet end are vertically located on the same side, so that the heating path through which the water flows is longer and the heating effect is better. The second dry heating prevention device 360 is arranged close to the liquid outlet end, when liquid flows through the liquid outlet end, the temperature reaches the highest heating value, and the second dry heating prevention device 360 can accurately detect the liquid at the position. In addition, the liquid outlet end is further provided with a sensor 390 for detecting whether the temperature of the liquid outlet end meets the requirement, if the temperature is too low, the sensor 390 can transmit a signal to the controller, and a user can know the condition through a control panel or a reaction device, so that the inspection is convenient.

Referring to fig. 3 to 4, in addition to avoid water shortage. The water tank 310 is provided with a liquid level detector 370, the liquid level detector 370 is arranged at the top of the water tank 310 opposite to the first heating device 330, and the liquid level detector 370 is electrically connected with the control device. For detecting the liquid level in the water tank 310. The liquid level detector 370 determines the liquid level condition and feeds back the liquid level condition to the control device by outputting the detected liquid level and liquid level signals to the voltage signal collected by the controller through the electrical signal, in this embodiment, the liquid level detector 370 is disposed on the top of the tank body, avoiding the first heating device 330, and effectively utilizing the space in the water tank 310, and in another embodiment, the liquid level detector 370 can also be disposed on the bottom or the side wall of the tank body and misplaced with the first heating device 330.

Referring to fig. 1, the present invention further provides a beverage processing apparatus 1000, where the beverage processing apparatus 1000 includes a body 100, a discharging module 200 disposed in the body 100, and a beverage apparatus water outlet heating system 300 connected to the discharging module 200, and the specific structure of the beverage processing apparatus 1000 refers to the above embodiments, and since the beverage processing apparatus 1000 adopts all technical solutions of all the above embodiments, the beverage processing apparatus at least has all beneficial effects brought by the technical solutions of the above embodiments, and no further description is provided herein. The discharging module 200 is connected to the second pipeline 322 to receive the water flowing out of the water heating system 300 of the beverage appliance.

The beverage processing device 1000 comprises a body 100, the beverage device outlet water heating system 300 is arranged on the body 100, the body 100 is further provided with a discharging module 200, and the discharging module 200 is connected with the beverage device outlet water heating system 300 to receive water flowing out of the beverage device outlet water heating system 300.

Wherein, ejection of compact module 200, including feeding mechanism and discharge mechanism, feeding mechanism is connected with discharge mechanism, and feeding mechanism can deposit powder such as coffee powder, milk tea powder to carry the powder to discharge mechanism in, discharge mechanism has the mixing chamber that can receive the powder and link to each other with beverage equipment play water heating system 300 and receive water, and beverage finished product forms the back in mixing chamber, and discharge mechanism's conveyor carries the beverage outside organism 100.

In an embodiment, beverage processing equipment 1000 can also locate a more cold water outlet system side by side, the power load setting of cold water outlet system is about 2500w, cold water outlet system and play water heating system cooperation are used and can be provided the water of the different temperatures of ejection of compact module, when guaranteeing safe in utilization, realize more diversified selection, improve user's experience and feel, improve the competitiveness of the product, the buyer need not purchase in addition and outer equipment, practice thrift the space that cost and installation were placed. Under the control of the whole power, the use safety can be ensured even for household.

The invention further provides a heating control method, which is realized by adopting the water outlet heating system 300 of the beverage equipment, and the heating control method comprises that when the controller receives a heating instruction, the controller controls one of the second heater 332 and the second heating device 350 in the first heating device 330 to start.

In a usage scenario, the beverage processing apparatus 1000 includes the beverage processing apparatus outlet water heating system 300 and other load apparatuses, and it can be understood from the foregoing description that, in a household situation, the power of the entire beverage processing apparatus 1000 is controlled to be about 5500w for safer use, which is also the power of the safer load in the household, and the beverage processing apparatus outlet water heating system 300 has the first heating device 330 of about 2500w and the second heating device 350 of about 2500w, which have the common power of 5000w, as in a case of simultaneous start-up, and the power of other devices of the beverage processing apparatus is added, which easily causes circuit overload and causes a safety hazard. The first heating device 330 and the second heating device 350 are designed to better meet the heating requirement to provide hot water quickly. Specifically, if a user clicks to take a cup of hot beverage through the control panel, the controller controls one of the second heater 332 and the second heating device 350 of the first heating device 330 to be activated when the controller receives a heating command. In one case, the controller may control the second heater 332 to start when the water tank 310 is in a heat preservation state; as another example, the first heater 331 and the second heater 332 in the first heating device 330 are in a heating state of being turned on simultaneously, after the water in the water tank 310 is heated to a certain temperature, the second heater 332 may be stopped, and the second heating device 350 may be turned on for further heating, in contrast, hot water may be provided to the user faster, and then the second heating device 350 may be turned off to continue to turn on the second heater 332 to make the water in the water tank 310 reach a preset temperature. In the process, the second heater 332 with higher power and the second heating device 350 are always kept to be started only, so that the safety of the beverage processing device 1000 is ensured even if other parts of the beverage processing device 1000 are started; on the other hand, the water outlet heating system 300 of the beverage device can provide hot water quickly, and the requirements of users are met. The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.