CN217528581U - Self-cleaning device of beverage equipment - Google Patents

Abstract

The utility model relates to a self-cleaning device of a beverage device, which comprises a water inlet flow path, a water outlet flow path and at least one cleaning flow path which are communicated in sequence, and also comprises a control piece, a first pump piece, a second pump piece, a heating piece, a cleaning water tank, a first gate valve, a second gate valve and a water outlet valve; the first pump piece is arranged on the water inlet flow path or the water passing flow path; the water outlet end of the cleaning flow path is communicated with a material box of the beverage equipment, and the second pump piece is communicated with the material box; the heating element is arranged on the water flowing path; the water inlet of the cleaning water tank is communicated with the water outlet end of the water passing flow path, and the water outlet is communicated with the water inlet end of the water passing flow path; the first selective valve is arranged on the cleaning flow path, and two ends of the second selective valve are respectively communicated with a water inlet of the cleaning water tank and a water outlet end of the water passing flow path; the water outlet valve is arranged at the water outlet of the cleaning water tank. The automatic cleaning device can automatically clean the beverage equipment material box, greatly reduce manual labor, improve cleaning efficiency and ensure good cleaning effect.

Description

Self-cleaning device of beverage equipment

Technical Field

The disclosure relates to the technical field of beverage equipment, in particular to a self-cleaning device of the beverage equipment.

Background

In beverage stores such as the current milk tea store, a corresponding beverage machine such as a milk tea machine is usually adopted to make milk tea. The milk tea has various tastes, so the milk tea machine also correspondingly has a plurality of material boxes, such as fruit juice material boxes, jam material boxes, milk material boxes, tea soup material boxes, syrup material boxes and the like with different tastes and different shapes.

For guaranteeing food sanitation safety, the milky tea shop needs to wash each magazine when business ends on the same day, adopts artifical manual abluent mode more at present, because the magazine is more, artifical abluent complex operation, work load is great, and the cleaning efficiency is low, and manual operation's cleaning performance varies from person to person, is difficult to guarantee good cleaning performance, is unfavorable for food sanitation safety.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems of the prior art, the self-cleaning device of the beverage equipment is provided. The automatic cleaning device can automatically clean the beverage equipment material box, greatly reduce manual labor, improve cleaning efficiency, ensure good cleaning effect and be beneficial to food sanitation and safety.

The self-cleaning device of the beverage equipment comprises a water inlet flow path, a water outlet flow path and at least one cleaning flow path which are sequentially communicated, and further comprises a control piece, a first pump piece, a second pump piece, a heating piece, a cleaning water tank, a first option valve, a second option valve and a water outlet valve;

the first pump piece is arranged on the water inlet flow path or the water passing flow path and is used for pumping cleaning liquid;

the water outlet end of the cleaning flow path is communicated with a material box of the beverage equipment and is used for injecting cleaning liquid into the material box;

the second pump piece is communicated with the material box and used for pumping out the cleaning liquid in the material box;

the heating element is arranged on the water flowing path and used for heating the cleaning liquid flowing through the water flowing path;

the water inlet of the cleaning water tank is communicated with the water outlet end of the water passing flow path, and the water outlet of the cleaning water tank is communicated with the water inlet end of the water passing flow path;

the first selective valve is arranged on the cleaning flow path, two ends of the second selective valve are respectively communicated with a water inlet of the cleaning water tank and a water outlet end of the water passing flow path, and the first selective valve and the second selective valve are used for controlling cleaning liquid in the water passing flow path to flow to the cleaning flow path or the cleaning water tank;

the water outlet valve is arranged at a water outlet of the cleaning water tank;

the control element is respectively in signal connection with the first pump element, the heating element, the first option valve, the second option valve and the water outlet valve.

Preferably, the control element is an industrial personal computer, a single chip microcomputer or a PLC.

Preferably, the self-cleaning apparatus further comprises:

and the third pump piece is arranged on the cleaning flow path, and two ends of the third pump piece are communicated with the material box to form circulating water flow.

Preferably, the self-cleaning apparatus further comprises:

and three interfaces of the Y-shaped three-way valve are respectively communicated with the material box, the second pump piece and the third pump piece.

Preferably, said first pumping element is a plunger pump, and said second pumping element and said third pumping element are peristaltic, gear or diaphragm pumps.

Preferably, the self-cleaning apparatus further comprises:

and the flow meter is arranged on the water flowing path and is in signal connection with the control piece.

Preferably, the heating element is an instantaneous boiler or an aqueous storage boiler.

Preferably, the self-cleaning apparatus further comprises:

and the liquid level sensor is arranged in the cleaning water tank and is in signal connection with the control piece.

Preferably, the self-cleaning apparatus further comprises:

the stirrer is arranged in the cleaning water tank and is in signal connection with the control piece.

Preferably, the self-cleaning apparatus further comprises:

the medicine bin is arranged above the cleaning water tank and communicated with the cleaning water tank;

and the electric baffle is arranged at the communication position of the medicine bin and the cleaning water tank and is in signal connection with the control piece.

The self-cleaning device of the beverage equipment has the advantages that:

1. the automatic washing device can control the starting and stopping of each pump piece and the opening and closing of the valve piece through the control piece so as to control the washing liquid to automatically wash each material box, thereby greatly reducing the manual labor, improving the washing efficiency, ensuring the good washing effect and being beneficial to the food sanitation and safety;

2. the cleaning liquid is heated by the heating element, so that the cleaning effect is better;

3. the flow direction of the cleaning liquid can be controlled according to the cleaning requirement, and if the cleaning liquid is required to be used for directly washing in the step, the cleaning liquid directly flows into the cleaning flow path to wash the corresponding material box; if the step needs to be washed by using the medicine, the medicine can be put into the washing water tank, the washing liquid is controlled to flow into the washing water tank, the medicine is fully mixed and dissolved in the washing liquid and then enters the material box through the washing flow path to wash the material box, the flow direction of the washing liquid can be controlled according to the washing requirements of different steps, and the flexibility is higher during use.

Drawings

FIG. 1 is a schematic diagram of a self-cleaning apparatus for a beverage appliance according to the present disclosure.

Description of reference numerals: 10-water inlet flow path, 20-water outlet flow path, 30-cleaning flow path, 40-first pump element, 50-heating element, 60-cleaning water tank, 70-first option valve, 80-second option valve, 90-water outlet valve, 100-second pump element, 110-third pump element, 120-Y type three-way valve and 130-flowmeter.

Detailed Description

As shown in fig. 1, the self-cleaning device of a beverage apparatus according to the present disclosure includes a water inlet flow path 10, a water outlet flow path 20, and at least one cleaning flow path 30, which are sequentially connected, where the number of the cleaning flow paths 30 corresponds to the number of material boxes of the beverage apparatus, each cleaning flow path 30 corresponds to one material box, and the water inlet flow path 10, the water outlet flow path 20, and the cleaning flow paths 30 are all flow paths inside a pipeline, and may be specifically a rigid plastic pipe or a flexible plastic pipe, providing an internal flow path for liquid to flow through.

The self-cleaning apparatus further comprises: a control member (not shown), a first pumping element 40, a second pumping element 100, a heating member 50, a washing water tank 60, a first gate valve 70, a second gate valve 80 and a water outlet valve 90.

The first pump member 40 is disposed on the water inlet flow path 10 or the water passing flow path 20 for pumping a cleaning solution, which is usually clear water, and when the water inlet flow path 10 is connected to an external water source, the first pump member 40 is activated to provide power to pump the external water source into the water inlet flow path 10.

The water outlet end of the cleaning flow path 30 is communicated with a material box of the beverage equipment, and the cleaning liquid flowing through the cleaning flow path 30 flows into the material box from the tail end to wash the material box.

The second pumping element 100 is in communication with the material box for providing an outward extraction power to extract the cleaning fluid from the material box, which is typically in communication with a water outlet nozzle of the beverage appliance.

The heating member 50 is provided on the water flow path 20, and the liquid flowing through the water flow path 20 flows into the heating member 50 to be heated.

The cleaning water tank 60 is a hollow liquid storage tank, the water inlet of the cleaning water tank 60 is communicated with the water outlet end of the water flowing path 20, the water outlet is communicated with the water inlet end of the water flowing path 20, so that an annular flow path is formed between the cleaning water tank 60 and the water flowing path 20, and liquid can flow into the cleaning water tank 60 from the water flowing path 20, dissolve medicines and then flow out of the water flowing path 20.

The first gate valves 70 are disposed on the cleaning flow paths 30, the first gate valves 70 are two-way valves, the number of the first gate valves 70 corresponds to the number of the cleaning flow paths 30, and each cleaning flow path 30 is correspondingly provided with one first gate valve 70 for controlling the on/off of the cleaning flow path 30. The two ends of the second selective valve 80 are respectively communicated with the water inlet of the cleaning water tank 60 and the water outlet of the water passing flow path 20, the second selective valve 80 is used for controlling the connection and disconnection between the cleaning water tank 60 and the water passing flow path 20, the first selective valve 70 and the second selective valve 80 are used for controlling the cleaning liquid in the water passing flow path 20 to flow to the cleaning flow path 30 or the cleaning water tank 60, and specifically, when the first selective valve 70 is opened and the second selective valve 80 is closed, the cleaning liquid in the water passing flow path 20 directly flows into the cleaning flow path 30; when the first gate valve 70 is closed and the second gate valve 80 is opened, the cleaning liquid in the water flow path 20 flows into the cleaning water tank 60.

The water outlet valve 90 is disposed at the water outlet of the cleaning water tank 60 and is used for controlling the opening and closing of the water outlet.

The control element is in signal connection with the first pumping element 40, the heating element 50, the first gating valve 70, the second gating valve 80 and the water outlet valve 90, and specifically, the control element can be a Programmable Controller, a single chip or a PLC (Programmable Logic Controller), which has a plurality of input/output interfaces to facilitate simultaneous control of a plurality of elements.

Further, in this embodiment, the self-cleaning apparatus further comprises:

the self-cleaning device further comprises a Y-shaped three-way valve 120, three interfaces of the Y-shaped three-way valve 120 are respectively communicated with the material box, the second pump 100 and the third pump 110, the second pump 100 extracts cleaning liquid washed inside the material box outwards, and the third pump 110 extracts the cleaning liquid in the material box and then flows back into the material box to form circularly flowing water flow between the third pump 110 and the material box so as to repeatedly wash the material box. The third pump element 110 can form a circulating water flow to repeatedly wash the material box, so that the cleaning effect is improved. The Y-type three-way valve 120 may facilitate communication between the material container, the second pumping element 100 and the third pumping element 110.

Further, in the present embodiment, the first pumping element 40 is a plunger pump, which provides sufficient power to pump the cleaning solution. The second pumping element 100 and the third pumping element 110 are peristaltic pumps, gear pumps or diaphragm pumps, all of which can be used to pump cleaning fluid to form stable water flow, and can be selectively set according to actual requirements.

Further, in this embodiment, the self-cleaning apparatus further comprises:

the flow meter 130 and the flow meter 130 are conventional liquid flow meters 130, and are disposed on the water flow path 20 and in signal connection with the control member, so as to monitor the liquid flow flowing through the water flow path 20 and input the liquid flow into the control member, thereby precisely controlling the washing liquid amount.

Further, in the present embodiment, the heating element 50 is an instant heating type boiler or a water storage type boiler, which can rapidly heat the cleaning solution.

Further, in this embodiment, the self-cleaning apparatus further comprises:

and a liquid level sensor (not shown in the figure) which is arranged in the cleaning water tank 60, is positioned at the upper part of the cleaning water tank 60, is in signal connection with a control part and is used for monitoring the liquid level inside the cleaning water tank 60 and avoiding the overflow of the cleaning water tank 60.

Further, in this embodiment, the self-cleaning apparatus further comprises:

the agitator (not shown in the figure), the agitator setting in wash water tank 60, and with control signal connection, specifically, the agitator select for use conventional stirring rake agitator can, its stirring rake rotates through motor drive and realizes mixing the stirring of liquid, the operation of the steerable agitator of control. The cleaning liquid can be stirred by the stirrer when the medicine is dissolved, so that the medicine is fully dissolved.

Further, in this embodiment, the self-cleaning apparatus further comprises:

the medicine storehouse (not shown in the figure) is a square storehouse structure with a hollow inner part and is used for placing medicines for cleaning, and the medicine storehouse is arranged above the cleaning water tank 60 and communicated with the cleaning water tank 60.

Electronic baffle, electronic baffle setting are in the intercommunication position of medicine storehouse and washing water tank 60, and with control signal connection, and electronic baffle can be conventional smooth type baffle or convertible baffle to convertible baffle is the example, and its level sets up intercommunication position department, and be connected with the motor, under the baffle horizontality, make the intercommunication position seal, when motor drive baffle rotates, the baffle gradually changes to the tilt state, makes the intercommunication position open, and the medicine in the medicine storehouse can fall into in washing water tank 60 this moment.

Foretell medicine storehouse and electric baffle structure, after putting into the medicine storehouse with the medicine in advance, the automatic of accessible control electric baffle realization medicine is put in, further reduces the human labor, improves the degree of automation of device.

The operation of the self-purging apparatus of the present embodiment will be fully described in conjunction with the above:

taking the milk tea machine equipment of a milk tea shop as an example, the number of the cleaning flow paths 30 is set according to the number of material boxes of the milk tea machine, as shown in fig. 1, the milk tea machine equipment has seven material boxes, namely three fruit juice material boxes, two jam material boxes/milk material boxes and one tea soup material box from left to right.

When the material box needs to be cleaned, the self-cleaning device of the embodiment is started, the water outlet valve 90 and the second selection valve 80 are both closed, the first selection valve 70 of each path is opened, the first pump 40 and the heating element 50 are both started, the first pump 40 pumps cleaning liquid, usually clean water, from the outside, the cleaning liquid flows through the water inlet flow path 10, the water passing flow path 20 and the cleaning flow path 30 in sequence, and is heated by the heating element 50 to form warm water, and then enters the corresponding material box to fill the material box (the amount of the injection liquid can be monitored by the flow meter 130 to prevent overflow), and the cleaning liquid flows into the material box to flush the material box in the process. The third pump element 110 is arranged in the cleaning flow path 30 of the first three paths as a circulating pump, so that after the material boxes of the first three paths are filled, the circulating pump pumps out cleaning liquid in the material boxes and then returns the cleaning liquid to the material boxes, and the material boxes are circularly washed, so that the cleaning effect is better. After lasting for one minute, the second pump 100 of each way is started to pump out the cleaning liquid in the material box, the cleaning liquid flows out through the water outlet nozzle of the beverage equipment and is discharged into a sewer from the drainage tray, and the primary washing process is completed.

Then, the first selective valve 70 of each path is closed, the second selective valve 80 and the water outlet valve 90 are opened, the cleaning liquid flows into the cleaning water tank 60 through the water flow path 20 after flowing in from the water inlet flow path 10, the liquid level height in the cleaning water tank 60 gradually rises, when the liquid level rises to a designated height, the liquid level sensor inputs a liquid level signal to the control part, the first pump part 40 of the control part stops, the second selective valve 80 is closed, the electric baffle is controlled to be opened at the same time, the medicine in the medicine bin falls into the cleaning water tank 60, and simultaneously the stirrer is started to fully dissolve the medicine in the cleaning liquid to form liquid medicine.

At this time, the control piece controls the water outlet valve 90 and the first gating valve 70 to be opened, the first pump piece 40 is started, the first pump piece 40 pumps out the liquid medicine in the cleaning water tank 60, the liquid medicine is heated by the heating piece 50 and then injected into each path of cleaning flow path 30, then the liquid medicine flows into each material box, the liquid medicine in the first three paths of cleaning flow paths 30 is pumped out by the circulating pump and then flows back into the material boxes, the material boxes are circularly washed, and the liquid medicine in the material boxes is pumped out through the second pump piece 100 after being fully soaked in each material box for 15 minutes.

And then repeating the primary washing process, and using clear water to wash the material box and each part for multiple times to complete the self-cleaning process of the beverage equipment.

The automatic cleaning device can control the starting and stopping of each pump piece and the opening and closing of the valve piece through the control piece so as to control the cleaning liquid to automatically wash each material box, thereby greatly reducing the manual labor, improving the cleaning efficiency, ensuring the good cleaning effect and being beneficial to the food sanitation and safety;

the cleaning liquid is heated by the heating element 50, so that the cleaning effect is better;

the flow direction of the cleaning liquid can be controlled according to the cleaning requirement, and if the cleaning liquid is required to be used for direct washing in the step, the cleaning liquid directly flows into the cleaning flow path 30 to wash the corresponding material box; if the step needs to be washed by using the medicine, the medicine can be put into the washing water tank 60, the washing liquid is controlled to flow into the washing water tank 60, the medicine is fully mixed and dissolved in the washing liquid and then enters the material box through the washing flow path 30 to wash the material box, the flow direction of the washing liquid can be controlled according to the washing requirements of different steps, and the flexibility is higher during use.

In the description of the present disclosure, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are used for convenience in describing and simplifying the present disclosure, and in the absence of a contrary explanation, these directional terms are not intended to indicate and imply that the device or element being referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be considered as limiting the scope of the present disclosure.

Various other modifications and changes may occur to those skilled in the art based on the foregoing teachings and concepts, and all such modifications and changes are intended to fall within the scope of the appended claims.

Claims (10)

1. A self-cleaning device of beverage equipment is characterized by comprising a water inlet flow path, a water outlet flow path and at least one cleaning flow path which are sequentially communicated, and further comprising a control piece, a first pump piece, a second pump piece, a heating piece, a cleaning water tank, a first gate valve, a second gate valve and a water outlet valve;

the first pump piece is arranged on the water inlet flow path or the water passing flow path and is used for pumping cleaning liquid;

the water outlet end of the cleaning flow path is communicated with a material box of the beverage equipment and is used for injecting cleaning liquid into the material box;

the second pump piece is communicated with the material box and used for pumping out the cleaning liquid in the material box;

the heating element is arranged on the water flowing path and used for heating the cleaning liquid flowing through the water flowing path;

the water inlet of the cleaning water tank is communicated with the water outlet end of the water passing flow path, and the water outlet of the cleaning water tank is communicated with the water inlet end of the water passing flow path;

the first selective valve is arranged on the cleaning flow path, two ends of the second selective valve are respectively communicated with a water inlet of the cleaning water tank and a water outlet end of the water passing flow path, and the first selective valve and the second selective valve are used for controlling cleaning liquid in the water passing flow path to flow to the cleaning flow path or the cleaning water tank;

the water outlet valve is arranged at a water outlet of the cleaning water tank;

the control element is in signal connection with the first pump element, the heating element, the first selective valve, the second selective valve and the water outlet valve respectively.

2. The self-cleaning apparatus of beverage equipment of claim 1, wherein the control element is an industrial personal computer, a single chip microcomputer, or a PLC.

3. The self-cleaning apparatus of a beverage facility of claim 2, further comprising:

and the third pump piece is arranged on the cleaning flow path, and two ends of the third pump piece are communicated with the material box and used for forming circulating water flow.

4. The self-cleaning apparatus of a beverage facility of claim 3, further comprising:

and three interfaces of the Y-shaped three-way valve are respectively communicated with the material box, the second pump piece and the third pump piece.

5. A self-cleaning apparatus according to claim 4, wherein the first pumping element is a plunger pump, and the second pumping element and the third pumping element are peristaltic, gear or diaphragm pumps.

6. The self-cleaning apparatus of a beverage facility of claim 1, further comprising:

and the flow meter is arranged on the water flowing path and is in signal connection with the control piece.

7. The self-cleaning apparatus of claim 1, wherein the heating element is a tankless boiler or a water storage boiler.

8. The self-cleaning apparatus of a beverage facility of claim 1, further comprising:

and the liquid level sensor is arranged in the cleaning water tank and is in signal connection with the control piece.

9. The self-cleaning apparatus of the beverage apparatus of claim 8, further comprising:

the stirrer is arranged in the cleaning water tank and is in signal connection with the control piece.

10. The self-cleaning apparatus of a beverage facility of claim 8 or 9, further comprising:

the medicine bin is arranged above the cleaning water tank and communicated with the cleaning water tank;

and the electric baffle is arranged at the communication position of the medicine bin and the cleaning water tank and is in signal connection with the control piece.

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