CN111762745A

CN111762745A - Beverage separator and beverage control method

Info

Publication number: CN111762745A
Application number: CN202010563585.3A
Authority: CN
Inventors: 万信超; 王万寿; 刘兴
Original assignee: Wuhan Sensor Electronics Co ltd
Current assignee: Wuhan Sensor Electronics Co ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-10-13

Abstract

A beverage separator comprises a beverage container, a fixing mechanism and a separating mechanism. The separating mechanism comprises a pump for driving the drink to flow and an electric control water valve for opening or closing the water outlet. When the pump works, the electric control water valve is opened, and the pipeline is in a dredging state. When the pump does not work, the electric control water valve is closed, and the pipeline is in a blocking state, so that the air tightness of the pipeline is ensured. The separating mechanism also comprises a low-voltage switch for detecting that the beverage is extracted. In addition, the invention provides a beverage control method, according to the instruction of separating the beverage, the pump driving the beverage to flow rotates forwards according to the first time, the electric control water valve is opened, after the first time is finished, the electric control water valve is closed, and the pump driving the beverage to flow rotates backwards according to the second time, so that the problem of residual beverage in the pipeline can be solved. And the electric control water valve is opened after the low-voltage switch receives the pressure of the drink, so that the starting point of the metering time is more reasonable.

Description

Beverage separator and beverage control method

Technical Field

The invention relates to a beverage separation technology, in particular to a beverage separator and a beverage control method.

Background

A beverage separator is a technique for separating a beverage from a larger container into a cup. For example, some cafeterias have similar devices to provide drinks to users. Of course, vending may also be done in conjunction with mobile payment technology. The equipment usually stores a certain amount of drinks which can not be digested for a short time, and the problem of drink quality assurance is involved. The reasons for affecting the quality of the beverage may be as follows: firstly, the air tightness of the pipeline for the flowing of the drinks is not good. Secondly, after the beverage is separated every time, the pipeline close to the outlet has partial residual beverage, the partial residual beverage is completely exposed in the air, when the beverage is separated next time, the device can flush the partial residual beverage into a cup, and the overall quality of the beverage received by a user can be reduced. Thirdly, the equipment is inconvenient to clean, resulting in incomplete cleaning.

Disclosure of Invention

One aspect of the present invention is to provide a beverage separator that solves at least one of the above problems.

Concretely, a beverage separator comprises a beverage container, a fixing mechanism and a separating mechanism. The beverage container is used for storing beverages, the fixing mechanism is used for fixing and connecting the beverage container and the separating mechanism, and the separating mechanism is used for separating the beverages in the beverage container. The separating mechanism comprises a peristaltic pump for driving the beverage to flow, an electric control water valve for opening or closing a water outlet, a one-way valve for one-way air inlet, a pipeline for beverage circulation and a circuit board for controlling the separating mechanism, one end of the pipeline of the peristaltic pump extends into the bottom of the beverage container, the other end of the pipeline of the peristaltic pump is communicated with the electric control water valve, the electric control water valve is arranged at the water outlet of the beverage container, the pipeline of the one-way valve is inserted into the beverage container but does not extend into the beverage, and the peristaltic pump and the electric control water valve are respectively and electrically connected with the. When the peristaltic pump works, the one-way valve admits air, the electric control water valve is opened, the pipeline is in a dredging state, the beverage can be separated from the beverage container, when the peristaltic pump does not work, the one-way valve does not admit air, the electric control water valve is closed, and the pipeline is in a blocking state.

The peristaltic pump conveys fluid by pressing a pipeline by rollers, only the pipeline part is in contact with the fluid, and the pump body is not in contact with the fluid. Therefore, only the pipe needs to be cleaned. Peristaltic pumps are suitable for relatively fine-flow beverages, such as: white spirit and red wine. Generally, an electric control water valve is not arranged in the beverage separator, the peristaltic pump can be separated from the beverage container when working, and beverages are stored in the beverage container when the peristaltic pump does not work. Air cannot be prevented from entering the drink container from the tube because the peristaltic pump has no valve. Even if the pressure of the roller to the pipeline is increased to improve the air tightness, the pipeline is more easily worn and has shorter service life when the pressure is higher. Furthermore, the tubes are cylindrical and when squeezed, tighten again, and have a slit through which air can enter the bottle. Therefore, the electric control water valve is added in the scheme, when the beverage container is in a storage state, the one-way valve and the peristaltic pump do not work, the electric control water valve plugs the pipeline, the beverage cannot circulate, air cannot enter the beverage container, and the air tightness of the separator when the beverage is in the storage state is guaranteed, so that the quality and the taste of the beverage are guaranteed. When the beverage is separated, the peristaltic pump pumps the beverage, air enters the bottled container from the one-way valve, and the beverage can be separated from the beverage container by opening the electric control water valve.

Another solution is suitable for drinks with a relatively large flow rate, for example: beer, cola, and the like. The beverage separator comprises a beverage container, a fixing mechanism and a separating mechanism, wherein the beverage container is used for storing beverages, the fixing mechanism is used for fixing and connecting the beverage container and the separating mechanism, and the separating mechanism is used for separating the beverages in the beverage container. The separating mechanism comprises an inflating pump for driving the beverage to flow, an electronic water valve for opening or closing the water outlet, an electronic air release valve for releasing air, a pipeline for the beverage to flow and a circuit board for controlling the separating mechanism, one end of the pipeline of the inflating pump is inserted into the beverage container and does not extend into the beverage, the electronic air release valve is connected with the inflating pump, one end of the pipeline of the electronic water valve extends into one end of the bottom of the beverage container, the other end of the pipeline of the electronic water valve is a beverage outlet, and the inflating pump, the electronic air release valve and the electronic water valve are respectively and electrically connected with.

The inflating pump is used for increasing air pressure in the beverage container to press the beverage out of the pipeline. Usually, when the inflating pump stops inflating, when the electrically controlled water valve is closed, the air pressure in the beverage container cannot be synchronously balanced with the air pressure outside the beverage container, and the air pressure in the beverage container is greater than the air pressure outside the beverage container, so that the beverage may reversely enter the inflating pump to cause the inflating pump to be polluted, which is not allowed, and therefore, the electronic air release valve needs to be added to balance the air pressure inside and outside the beverage container. When the inflating pump works, the electric control water valve is opened, and the electronic air release valve does not intake air or release air. When the inflating pump stops working, the electric control water valve is closed, and air in the beverage container flows out from the electronic air release valve, so that the air pressure inside and outside the beverage container is consistent. Similarly, the electric control water valve is added, when the beverage container is in a storage state, the electric control water valve plugs the pipeline, the beverage cannot circulate, air cannot enter the beverage container, and the air tightness of the separator when the beverage is in a storage state is guaranteed, so that the quality and the taste of the beverage are guaranteed.

Further, the beverage separator also comprises a flow meter electrically connected with the circuit board, and the flow meter is used for metering the amount of the beverage separated from the beverage container.

Preferably, the beverage separator further comprises a low-voltage switch electrically connected to the circuit board, and the low-voltage switch is disposed in the middle section of the electrically controlled water valve and the beverage container and used for sending a signal when the beverage pressure is sensed. A sub-switch is an electronic switch that can send a signal after a slight pressure is felt. The pipeline connected with the drink outlet in the drink container extends into the bottom of the container, and the drink in the drink container is changed in height, so that the air pressure is required to be added differently, and the time consumed for the drink to circulate in the pipeline may be different. Therefore, the electric control water valve is opened when the low-voltage switch senses the pressure of the drink, the measuring time is not influenced by the air pressure in the drink container, and the starting point of measuring the time is more reasonable when the low-voltage switch senses the pressure of the drink and opens the electric control water valve. The low-voltage switch has the advantages of simple principle, simple structure and lower price than a flowmeter, and compared with a metering scheme of the flowmeter, the scheme has more cost advantage.

Optionally, the beverage separator further comprises a trigger switch electrically connected to the circuit board, and the trigger switch is used for sending a signal for separating the beverage.

Optionally, the beverage separator further comprises a two-dimensional code.

The scheme that the pump for driving the beverage to flow is a peristaltic pump or an inflating pump is adopted, the pump body is arranged outside the bottled container, and only the pipeline for circulating the beverage in the beverage container is in direct contact with the bottled container, so that the equipment is very easy to clean.

In a second aspect of the present invention, a method for controlling a beverage is provided, which is based on a beverage separator, and is characterized in that the method for controlling the beverage comprises the following steps:

according to a command of separating the drinks, a pump for driving the drinks to flow rotates forwards according to first time, an electric control water valve is opened, the first time is a metering basis, the metering basis is the number of the drinks separated from the drink container, and the first time is in direct proportion to the number of the separated drinks;

and after the first time is finished, closing the electric control water valve, and reversely rotating the pump for driving the beverage to flow according to a second time, wherein the second time is the time for pumping the beverage back to the beverage container from the pipeline.

According to the scheme, when the beverage is separated every time, the pump for driving the beverage to flow positively separates the beverage from the beverage container into the cup, after separation is completed, the pump for driving the beverage to flow reversely pumps the beverage remaining in the pipeline back into the beverage container, and then the electric control water valve is closed, so that the problems of air tightness of the pipeline and beverage remaining in the pipeline are solved.

Furthermore, when the pump for driving the beverage to flow rotates forwards according to the first time, the electric control water valve is opened after the low-pressure switch signal is received.

By this step, the low pressure switch receives the pressure of the drink, and then the electrically controlled water valve is opened after the drink is determined to be pumped into the pipeline. For the automatic selling scene, the problem that the electric control water valve is opened after a user pays due to machine failure but no beverage is actually drawn out is solved.

Further, the first time is the starting point of time measurement when the low-voltage switch receives the signal.

Because the starting point of the flow takes the actual flowing time of the drink as the starting point, the time consumed by the circulation in the pipeline is avoided, and the metering is more reasonable and accurate.

Drawings

FIG. 1 is a schematic diagram of a peristaltic pump;

FIG. 2 is a schematic diagram of the air pump as a drive;

fig. 3 is another schematic diagram of the peristaltic pump as a drive.

Detailed Description

In order to make the technical solution of the present invention clearer and more practical, embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments without any inventive step, are within the scope of protection of the invention. In the present application, the drink may be wine, for example: white spirit, yellow wine, beer, wine, etc., drinks can also be beverages, such as: cola, sprite, orange juice, coffee, tea, and the beverage may be soybean milk, mung bean paste, or milk product.

As shown in fig. 1, the beverage separator includes a beverage container 10, a peristaltic pump 21, a one-way valve 22, an electrically controlled water valve 23, and a tube 31. One end of a pipeline of the peristaltic pump 21 extends into the bottom of the beverage container 10, the other end of the pipeline is communicated with the electric control water valve 23, the electric control water valve 23 is arranged at the water outlet of the beverage container 10, the pipeline of the one-way valve 22 is inserted into the bottle mouth of the beverage container, and the peristaltic pump 21 and the electric control water valve 23 are respectively controlled by an electric control system. In the beverage separation process, when the peristaltic pump 21 works, pressure difference is generated between the inside and the outside of the beverage container, the one-way valve is used for air inlet, and meanwhile, the electric control water valve is in an open state, so that the pipeline is dredged, and the beverage can be separated from the beverage container. When the peristaltic pump does not work, the beverage is in a storage state, the one-way valve does not admit air, and the electric control water valve is in a closed state, so that the water outlet is blocked, the beverage cannot circulate, air cannot enter the beverage container, the air tightness of the beverage separator is ensured, and the quality of the beverage is ensured.

As shown in fig. 2, the beverage separator includes a beverage container 10, an air pump 41, an electronic air release valve 42, an electrically controlled water valve 43 and a pipeline 51. One end of the pipe of the inflating pump 41 is inserted into the beverage container 10, and the insertion depth must be kept at a certain distance from the highest liquid level of the beverage. The electronic air release valve 42 can be respectively connected with the inflating pump 41 and the beverage container through a three-way connecting piece. When the inflating pump 41 inflates the beverage container, the electronic air-release valve 42 is in a closed state, i.e. air is not supplied or exhausted, and when the inflating pump 41 stops inflating the beverage container, the electronic air-release valve can be opened to release air in the beverage container, so that the air pressure inside and outside the beverage container is consistent. The electric control water valve 23 is arranged at the water outlet of the drink container. The inflating pump 41 and the electrically controlled water valve 43 are respectively controlled by an electric control system. In the beverage separation process, the inflating pump inflates the beverage container, the electric control water valve is opened, and the beverage container is pressed out from the beverage container by the pressure difference generated between the inside and the outside of the beverage container. When the inflating pump stops inflating, the electric control water valve is closed, the air pressure in the beverage container cannot instantly drop, the air pressure in the beverage container is larger than that of the beverage container, and the air can be discharged through the added electronic air release valve, so that the air pressure inside and outside the beverage container is consistent. In the scheme, the beverage is in a storage state, the inflating pump does not act, the electronic air release valve does not intake air or exhaust air, the electric control water valve is in a closed state, so that the water outlet is blocked, the beverage cannot circulate, air cannot enter the beverage container, the air tightness of the beverage separator is ensured, and the quality of the beverage is ensured.

The electrically controlled water valve K1 is connected to the water outlet via a pipe, which may be bent, and after each beverage is dispensed, the beverage may remain in the pipe from the electrically controlled water valve to the water outlet. When the beverage is taken out next time, the residual beverage in the pipeline is firstly flushed into the cup of the user, and the residual beverage is contacted with the air more fully and oxidized more quickly, so that the taste and the quality of the beverage are influenced more easily. Taking the peristaltic pump scheme as an example, when the beverage is discharged each time, the peristaltic pump rotates forward to separate the beverage from the beverage container into the cup of a user, after the beverage is dispensed, the peristaltic pump rotates reversely to pump the beverage remained in the pipeline back into the beverage container, and then the electric control water valve is closed, so that the problem that the beverage remained in the pipeline from the electric control water valve to the water outlet can be solved. The peristaltic pumps in the beverage separator that accomplish this function are two unidirectional peristaltic pumps. As shown in fig. 3, the two unidirectional peristaltic pumps are respectively connected with the pipeline through a three-way joint, one unidirectional peristaltic pump is responsible for pumping the beverage in the beverage container outwards, and the other unidirectional peristaltic pump is responsible for pumping the beverage remained near the water outlet back to the beverage container. Alternatively, the peristaltic pump in the beverage separator for realizing the function is a bidirectional peristaltic pump, so that the beverage in the beverage container can be pumped outwards, and the beverage remained near the water outlet can also be pumped back into the beverage container.

The beverage separator can be used for automatically separating beverages and realizing automatic vending of the beverages. Whether for the sole purpose of automatically separating drinks or for vending. It may be necessary to measure the separated amount of the beverage each time, and a conventional method is to add a measuring device such as a flow meter in the beverage separator to measure the flow rate of the beverage. This scheme may also provide another scheme. For example: the calculation is made according to the length of time the motor of the peristaltic pump is rotated. Thus, the amount of drink separated each time can be calculated based on the peristaltic pump action time without adding a flow meter. This metering is possible for less accurate applications, but may be less accurate than a flow meter for more accurate applications. One reason that experimental analysis affects the accuracy of the calculations may be time. Because the height of the beverage in the beverage container is changed all the time, the water yield is different when the same amount of air pressure is added, the air pressure added by the inflating pump is related to the time, the beverage is high, the beverage can be pressed out by the operating time of the inflating pump, and the lower the height of the beverage is, the longer the time consumed by the inflating pump for pressing out the beverage is. This results in a certain error in the time for calculation, which affects the calculation accuracy. To solve this problem, a low pressure switch may be provided in the container near the outlet, which senses the pressure when the beverage is pressed down on the tube, and thus sends a signal. The time of sending signals by the low-voltage switch is used as the starting point of timing, so that the accuracy of calculation can be measured through the flow. As shown in fig. 2, a low voltage switch K2 is provided near the outlet of the beverage.

The second aspect of the present invention also provides a control method.

The beverage control method is based on a beverage separator and comprises the following steps:

opening an electric control water valve according to a command of separating the beverage, and driving a pump for driving the beverage to flow to rotate positively according to first time, wherein the first time is in direct proportion to the separation amount of the beverage;

in this step, the instruction for separating the beverage may be an instruction triggered by a key switch of the beverage separator, or an instruction triggered by a two-dimensional code. The pump driving the flow of the beverage may not be limited to peristaltic pumps, inflation pumps. For example: the liquor is in the beverage container, and the beverage separator is defined as 20ml of liquor after receiving an instruction of separating the beverage each time, and the corresponding time length is 5 seconds. The first time is 5 seconds. Alternatively, the beverage separator is defined as discharging 60ml of white spirit after receiving the instruction of separating the beverage, and the corresponding time duration is 12 seconds, and the first time is 12 seconds. Or the power of the pump is different corresponding to the drink with large flow. For example: there is a cola in the drink container, and the drink separator is defined as 100ml of cola each time an instruction to separate a drink is received, which corresponds to a time period of 6 seconds. The first time is 6 seconds.

And after the first time is finished, the pump for driving the beverage to flow reversely rotates according to a second time, the second time is a fixed time, and the electric control water valve is closed after the second time is finished.

In this step, after the first time is over, the pump stops operating, the operation of separating the beverage is over, but there is a possibility that the beverage still remains in the pipe, and the remaining amount of the beverage, although small, is flushed into the cup when separating the beverage next time, which affects the quality of the beverage. The pump can thus be instructed to rotate in reverse to draw the portion of beverage back into the beverage container. For example: the pump was set to rotate in reverse for 3 seconds. The second time may be defined as 3 seconds, each time the pump is rotated in reverse for 3 seconds at this fixed time.

When the pump for driving the beverage to flow rotates forwards according to the first time, the electric control water valve is opened after the low-voltage switch signal is received.

By this step, the low pressure switch receives the pressure of the drink, and then the electrically controlled water valve is opened after the drink is determined to be pumped into the pipeline. For the automatic selling scene, machine faults are avoided, the electric control water valve is also opened after the user pays, but the problem that drinks are drawn out is avoided.

The beverage control method can further comprise the following steps:

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims

1. The utility model provides a beverage separator, includes beverage container, fixed establishment and separating mechanism, and beverage container is used for saving the drink, and fixed establishment is used for fixed and connect beverage container and separating mechanism, and separating mechanism is used for separating out the drink in the beverage container, its characterized in that: the separating mechanism comprises a peristaltic pump for driving the beverage to flow, an electric control water valve for opening or closing a water outlet, a one-way valve for one-way air inlet, a pipeline for beverage circulation and a circuit board for controlling the separating mechanism, one end of the pipeline of the peristaltic pump extends into the bottom of the beverage container, the other end of the pipeline of the peristaltic pump is communicated with the electric control water valve, the electric control water valve is arranged at the water outlet of the beverage container, the pipeline of the one-way valve is inserted into the beverage container but does not extend into the beverage, the peristaltic pump and the electric control water valve are respectively electrically connected with the circuit board, when the peristaltic pump works, the one-way valve enters air, the electric control water valve is opened, the pipeline is in a dredging state, the beverage can be separated from the beverage container, when the peristaltic pump does not work, the one.

2. The beverage separator of claim 1, wherein: it is replaceable, the separating mechanism is including the inflating pump that is used for driving the drink to flow, the automatically controlled water valve that is used for opening or closing the delivery port, the electron bleed valve that is used for disappointing, the pipeline that is used for the drink circulation and the circuit board that is used for controlling separating mechanism, during the pipeline one end of inflating pump inserted the drink container and did not stretch into the drink, the electron bleed valve was connected with the inflating pump, the pipeline one end of automatically controlled water valve was deepened the bottle bottom one end other end of drink container and is the drink export, inflating pump, electron bleed valve, automatically controlled water valve respectively with circuit board electric connection.

3. A beverage separator according to claim 1 or 2, wherein: the flow meter is electrically connected with the circuit board and used for metering the amount of the drink separated from the drink container.

4. A beverage separator according to claim 1 or 2, wherein: the beverage container is characterized by further comprising a low-voltage switch electrically connected with the circuit board, wherein the low-voltage switch is arranged in the middle section of the electric control water valve and the beverage container and used for sending signals when the beverage container feels the pressure of the beverage.

5. A beverage separator according to claim 1 or 2, wherein: the beverage separating device further comprises a trigger switch electrically connected with the circuit board, and the trigger switch is used for sending signals for separating beverages.

6. A beverage separator according to claim 1 or 2, wherein: the system also comprises a two-dimensional code.

7. A beverage separator according to claim 1 or 2, wherein: the beverage is wine, soybean milk, carbonated beverage, dairy product or fruit juice.

8. Beverage control method based on a beverage separator, characterized in that the control method comprises the following steps:

9. The method of beverage control according to claim 8, wherein: when the pump for driving the beverage to flow rotates forwards according to the first time, the electric control water valve is opened after the low-voltage switch signal is received.

10. The method of beverage control according to claim 9, wherein: the first time is the starting point of time measurement when the low-voltage switch receives the signal.