CN219500845U - Foaming system and foaming equipment - Google Patents

Abstract

The utility model discloses a foaming system and foaming equipment. A foaming system comprising: a steam line; the air pipeline is provided with an air flow control module for controlling air flow, and the tail end of the air pipeline is connected with the tail end of the steam pipeline to form a combined pipeline; and the foamer is connected with the merging pipeline. A foaming apparatus comprising: the foaming system is characterized in that the foaming system is a foaming system. According to the foaming system and the foaming equipment, the tail ends of the steam pipeline and the air pipeline are connected to form the combined pipeline, steam generated by the steam pipeline and air conveyed by the air pipeline are fully mixed in the combined pipeline and then are sprayed out of the foamer to foam, the air flow control module can control the air flow entering the foamer, so that the air flow entering the foamer can be regulated according to different foaming requirements, the foaming effect can be regulated, and the problem that the foaming effect is single and uncontrollable in the prior art is solved.

Description

Foaming system and foaming equipment

Technical Field

The utility model relates to the field of milk foaming equipment, in particular to a foaming system and foaming equipment.

Background

Foaming equipment such as pressure coffee machine on the market now mostly produces the mode of steam through instant heating type boiler, then carries steam through single pipeline, realizes the foaming function, and foaming in-process user's foaming skill directly influences the foaming effect, can't adjust the foaming effect through adjusting steam volume.

And the milk is pumped into the heating device by the water pump to heat the milk, a branch pipeline is added before the milk enters the heater to enter air, and the mixture of the milk and the air is heated and then conveyed into the milk cup. For example, the method and the device for producing milk foam or milk beverage with the authority of CN100512632C are based on the principle that by heating a mixture of milk and air, the mixture enters a user's milk cup through a conveying pipeline, the air quantity can be adjusted, but the milk is conveyed through a pipeline and passes through a water pump, so that milk stains are easily produced in a cavity of the pipeline and the water pump, and bacteria are produced under certain time and are very unhealthy to human body.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the utility model provides a foaming system and foaming equipment.

The utility model is realized by the following technical scheme:

in a first aspect, a foaming system comprises:

a steam line;

the air pipeline is provided with an air flow control module for controlling air flow, and the tail end of the air pipeline is connected with the tail end of the steam pipeline to form a combined pipeline;

and the foamer is connected with the merging pipeline.

According to the foaming system, the tail ends of the steam pipeline and the air pipeline are connected to form the combined pipeline, steam generated by the steam pipeline and air conveyed by the air pipeline are fully mixed in the combined pipeline and then are sprayed out of the foamer to foam, the air flow control module can control the air flow entering the foamer, so that the air flow entering the foamer is regulated according to different foaming requirements, the foaming effect is regulated, and the problem that the foaming effect is single and uncontrollable in the prior art is solved.

In one embodiment of the foregoing disclosure, the steam pipeline includes a heater and a steam control valve, an outlet of the heater is connected to the steam control valve, and the steam control valve is connected to a tail end of the air pipeline. The heater is utilized to heat water to form steam, and the steam control valve can control the steam to flow to the combining pipeline so as to realize the mixing with air.

In one embodiment, the steam pipeline comprises a water pump, and an outlet of the water pump is connected with an inlet of the heater. The water pump can pump water to the heater for heating.

In one embodiment, the steam pipeline comprises a liquid flowmeter, and the liquid flowmeter is connected with an inlet or an outlet of the water pump. The flow of water into the steam line can be read and recorded by a liquid flow meter.

In one embodiment of the above technical solution, the steam pipeline further includes a water tank, and an inlet of the water pump is connected with a water outlet of the water tank. The water tank can be used for holding normal-temperature water for standby.

In one embodiment of the above technical solution, the steam control valve is a three-way valve, an inlet of the three-way valve is connected with an outlet of the heater, and one of outlets of the three-way valve is connected with a tail end of the air pipeline. The three-way valve provides three interfaces, and can meet the requirements of inlet, outlet and discharge of redundant steam.

In one embodiment of the above technical solution, the steam pipeline further includes a water pan, and the water pan is connected with another outlet of the three-way valve. The residual steam can be discharged from the other outlet of the three-way valve for pressure relief and is received by the water receiving disc.

In one embodiment of the above technical solution, the air pipeline includes an air pump and a check valve, an outlet of the air pump is connected with an inlet of the air flow control module, an outlet of the air flow control module is connected with an inlet of the check valve, and an outlet of the check valve is connected with a tail end of the steam pipeline. The air pump can pump air into the air pipeline; the one-way valve may prevent steam in the steam line from entering the air line.

In one embodiment of the foregoing aspect, the air flow control module is an air flow meter. The air flow meter needs to have a function of controlling the air flow while being able to check the air flow rate.

In a second aspect, a foaming apparatus comprises: a foaming system according to any of the preceding claims.

The foaming system and the foaming equipment have the beneficial effects that:

according to the foaming system and the foaming equipment, the tail ends of the steam pipeline and the air pipeline are connected to form the combined pipeline, steam generated by the steam pipeline and air conveyed by the air pipeline are fully mixed in the combined pipeline and then are sprayed out of the foamer to foam, the air flow control module can control the air flow entering the foamer, so that the air flow entering the foamer can be regulated according to different foaming requirements, the foaming effect can be regulated, and the problem that the foaming effect is single and uncontrollable in the prior art is solved.

Drawings

FIG. 1 is a schematic connection diagram of a preferred construction of the foaming system of the present utility model.

Detailed Description

Terms of orientation such as up, down, left, right, front, rear, front, back, top, bottom, etc. mentioned or possible to be mentioned in the present specification are defined with respect to the configurations shown in the drawings, which are relative concepts, and thus may be changed according to different positions and different use states thereof. These and other directional terms should not be construed as limiting terms.

Referring to fig. 1, fig. 1 is a schematic connection diagram of a preferred structure of the foaming system of the present utility model.

In a first aspect, a foaming system comprises a steam line 1, an air line 2 and a foamer 3.

The air pipeline 2 is provided with an air flow control module 21 for controlling air flow, and the tail end of the air pipeline 2 is connected with the tail end of the steam pipeline 1 to form a merging pipeline 4.

The foamer 3 is connected to a combining line 4.

Through the tail end connection with steam pipe and air line 2 forms merging pipeline 4, and the steam that steam pipe produced and the air that air line 2 carried are in merging pipeline intensive mixing back, follow the foaming ware 3 blowout and foam, and air flow control module 21 can control the air flow that gets into to adjust the air quantity of getting into according to the foaming demand of difference, with the regulation foaming effect, solve foaming effect singleness and uncontrollable problem among the prior art.

In one embodiment, the steam line 1 comprises a heater 11 and a steam control valve 12, the outlet of the heater 11 being connected to the steam control valve 12, the steam control valve 12 being connected to the tail end of the air line 2. The heater 11 is used for heating water to form steam, and the steam control valve 12 can control the steam to flow to the combining pipeline so as to realize the mixing with air.

In particular, the heater 11 may be an instant heating boiler or a water tank boiler.

In one embodiment, the steam line 1 comprises a water pump 13, the outlet of the water pump 13 being connected to the inlet of the heater 11. The water pump 13 may pump water to the heater 11 for heating.

In one embodiment, the vapor line 1 includes a liquid flow meter 14, the liquid flow meter 14 being connected to an inlet or outlet of the water pump 13. The flow of water into the steam line 1 can be read and recorded by means of the liquid flow meter 14.

In one embodiment, the steam line 1 further comprises a water tank 15, the inlet of the water pump 13 being connected to the water outlet of the water tank 15. The water tank 15 can be used for holding normal temperature water for standby.

In one embodiment, the steam control valve 12 is a three-way valve, the inlet of which is connected to the outlet of the heater 11, and one of the outlets of which is connected to the tail end of the air line 2. The three-way valve provides three interfaces, and can meet the requirements of inlet, outlet and discharge of redundant steam.

In particular, the steam control valve 12 is a solenoid valve. The interface channel material of the electromagnetic valve is a metal material, so that the high-temperature and high-pressure requirements can be met.

In one embodiment, the steam line 1 further comprises a water tray 16, the water tray 16 being connected to the other outlet of the three-way valve. The remaining steam may be vented from the other outlet of the three-way valve and received by the drip tray 16.

When the steam function is used, the steam function is started, the channel 1-2 of the steam control valve 12 is opened, and steam smoothly enters the combining pipeline 4 to foam milk. When the steam function is turned off, the passage 2-3 of the steam control valve 12 is opened and the surplus steam is introduced into the drip tray 16 through the pressure release line 17.

Preferably, in order to avoid the reverse flow of steam or the reverse flow of foamed milk, the channels 1-2 and 2-3 may be preferably provided as unidirectional channels.

In one embodiment, the air line 2 comprises an air pump 22 and a non-return valve 23, the outlet of the air pump 22 is connected to the inlet of the air flow control module 21, the outlet of the air flow control module 21 is connected to the inlet of the non-return valve 23, and the outlet of the non-return valve 23 is connected to the tail end of the steam line 1. The air pump 22 is capable of pumping air into the air line 2; the check valve 23 prevents steam in the steam line 1 from entering the air line 2.

The on-off of the air pump 22 can realize different foaming effects by adjusting the air inflow of the air flow control module 21 according to the setting of the air flow.

The pipeline material in the air pipeline 2 can be a metal copper pipe or a plastic pressure-resistant pipe.

The check valve 23 and the steam control valve 13 can also avoid the problem that the frothed milk directly enters into the internal pipelines such as the water pump, the heater, the air pump and the like, and the unhygienic and thoroughly cleaning problem caused by backflow is avoided.

In one embodiment, the air flow control module 21 is an air flow meter. The air flow meter needs to have a function of controlling the air flow while being able to check the air flow rate.

The steam holes of the foamer 3 can be single holes or a plurality of holes, and the hole diameter is set to be 0.8-1.2mm. The steam in the steam pipeline 1 and the air in the air pipeline 2 are converged and mixed into a whole in the merging pipeline 4, and finally the mixed steam enters the foamer 3 and is sprayed out from the steam holes under the pushing of pressure to foam milk in the milk cup.

The working principle of the foaming system of the utility model is as follows:

after power-on, the user may turn on the preheat mode. The water in the water tank 15 is pumped into the heater 11 group by the water pump 13, the process liquid flowmeter 14 performs water intake statistics, and after the water reaches the set water amount, the water pump 13 stops pumping water. When the steam function is started, air of the air pump 22 passes through the one-way valve 23 after being metered by the air flow control module 21, and air of the air pipeline 2 and steam in the steam pipeline 1 are mixed into a whole to be used for foaming milk in a milk cup. After the foaming function is closed, the channels 2-3 of the steam control valve 12 are opened, and the residual steam is decompressed by the steam control valve 12 and enters the water receiving disc 16 through the decompression pipeline 17.

In a second aspect, a foaming apparatus comprises: the foaming system described above.

In particular embodiments, the frothing device may be a beverage machine, a coffee machine, or the like. The foaming equipment disclosed by the utility model has the advantages of easiness in control and good effect of milk foam foaming, enhancement of user experience, simple and reasonable structure, easiness in operation and capability of meeting the requirements of customers.

The foaming system and the foaming equipment have the beneficial effects that:

according to the foaming system and the foaming equipment, the tail ends of the steam pipeline and the air pipeline 2 are connected to form the merging pipeline 4, steam generated by the steam pipeline and air conveyed by the air pipeline 2 are fully mixed in the merging pipeline and then are sprayed out of the foamer 3 to foam, the air flow control module 21 can control the air flow entering the foamer, so that the air flow entering the foamer is regulated according to different foaming requirements, the foaming effect is regulated, and the problem that the foaming effect is single and uncontrollable in the prior art is solved.

The present utility model is not limited to the above-described embodiments, but, if various modifications or variations of the present utility model are not departing from the spirit and scope of the present utility model, the present utility model is intended to include such modifications and variations as fall within the scope of the claims and the equivalents thereof.

Claims (10)

1. A foaming system comprising:

a steam line;

the air pipeline is provided with an air flow control module for controlling air flow, and the tail end of the air pipeline is connected with the tail end of the steam pipeline to form a combined pipeline;

and the foamer is connected with the merging pipeline.

2. The foaming system of claim 1 wherein: the steam pipeline comprises a heater and a steam control valve, an outlet of the heater is connected with the steam control valve, and the steam control valve is connected with the tail end of the air pipeline.

3. The foaming system of claim 2 wherein: the steam pipeline comprises a water pump, and an outlet of the water pump is connected with an inlet of the heater.

4. A foaming system according to claim 3, characterized in that: the steam pipeline comprises a liquid flowmeter, and the liquid flowmeter is connected with an inlet or an outlet of the water pump.

5. A foaming system according to claim 3, characterized in that: the steam pipeline further comprises a water tank, and an inlet of the water pump is connected with a water outlet of the water tank.

6. The foaming system of any one of claims 2-5 wherein: the steam control valve is a three-way valve, an inlet of the three-way valve is connected with an outlet of the heater, and one outlet of the three-way valve is connected with the tail end of the air pipeline.

7. The foaming system of claim 6 wherein: the steam pipeline further comprises a water receiving disc, and the water receiving disc is connected with the other outlet of the three-way valve.

8. The foaming system of any one of claims 1-5 wherein: the air pipeline comprises an air pump and a one-way valve, an outlet of the air pump is connected with an inlet of the air flow control module, an outlet of the air flow control module is connected with an inlet of the one-way valve, and an outlet of the one-way valve is connected with the tail end of the steam pipeline.

9. The foaming system of claim 8 wherein: the air flow control module is an air flow meter.

10. A foaming apparatus comprising: the foaming system of any of claims 1-9.