CN218908391U - Automatic condiment bottle and automatic condiment feeding device using same - Google Patents

Abstract

The utility model discloses an automatic condiment bottle delivery device and an automatic condiment feeding device applying the same, wherein the automatic condiment bottle delivery device comprises a condiment bottle, two electromagnetic valves and an inflation unit; the electromagnetic valve is provided with at least two working positions and at least three through holes, the pumping and inflating unit is provided with at least an air outlet and an air inlet, the air outlet and the air inlet are respectively communicated with two electromagnetic valves through pipelines, the two electromagnetic valves are communicated with the seasoning bottle through pipelines, one through hole of the electromagnetic valve is communicated with the atmosphere, and the two electromagnetic valves are used for switching a positive pressure path and a negative pressure path; compared with the existing seasoning bottle with a certain automatic delivery function, the device only adopts one pumping and inflating unit and two electromagnetic valves, so that the seasoning bottle can be pumped or inflated, liquid can be discharged outwards or sucked inwards, and more pumping and inflating units are not needed, so that the device is simple in structure and greatly reduces cost.

Description

Automatic condiment bottle and automatic condiment feeding device using same

Technical Field

The utility model relates to the field of seasoning bottles, in particular to an automatic seasoning bottle delivering device and an automatic seasoning feeding device using the same.

Background

The flavoring is used as a necessary element in the cooking process, occupies a certain storage space in a kitchen, has extremely high use frequency, and simultaneously, provides higher requirements on the throwing time and the quantity control precision of the flavoring for ensuring delicious taste of the cooked dishes.

There is a prior art seasoning bottle in which solid seasoning is dissolved in water and stored, and an internal liquid seasoning is extruded by pressing in the seasoning bottle. The existing seasoning bottle has a certain automatic delivery function, however, the existing mechanism for pressing the inside of the bottle is generally complex in consideration of the fact that the pressure applied to the inside of the bottle needs to be continuously stable positive pressure or negative pressure, the overall manufacturing cost is high, and in addition, the stability and the accuracy of the pressure applying mechanism for controlling the pressure in the bottle are not high.

Disclosure of Invention

The technical problem to be solved by the utility model is to overcome the technical defects that in the prior art, the seasoning bottle cannot actively and outwards throw seasoning, the mechanism for pressing the seasoning into the bottle is high in complexity and high in manufacturing cost.

The utility model aims to solve the technical problems and provides an automatic seasoning bottle delivering device and an automatic seasoning feeding device using the same.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an automatic delivering seasoning bottle comprises a seasoning bottle, two electromagnetic valves and an air pumping and inflating unit; the electromagnetic valve is provided with at least two working positions and at least three through holes, the pumping and inflating unit is provided with at least an air outlet and an air inlet, the air outlet and the air inlet are respectively communicated with the two electromagnetic valves through pipelines, the two electromagnetic valves are respectively communicated with the seasoning bottle through pipelines, one through hole of the electromagnetic valve is communicated with the atmosphere, and the two electromagnetic valves are used for switching a positive pressure path and a negative pressure path; the positive pressure path is that external air sequentially enters the first electromagnetic valve and the pumping and inflating unit and enters the seasoning bottle through the second electromagnetic valve; the negative pressure path is that the gas in the seasoning bottle sequentially enters the first electromagnetic valve and the pumping and inflating unit and is discharged to the atmosphere through the second electromagnetic valve.

In the scheme, when the device is used for inflating the seasoning bottle, two electromagnetic valves are switched to a positive pressure path, the pumping and inflating unit is started, external gas enters the first electromagnetic valve through a port communicated with the atmosphere and is sucked into the pumping and inflating unit through the first electromagnetic valve, and gas enters the second electromagnetic valve through an air outlet of the pumping and inflating unit and enters the seasoning bottle through a port of the second electromagnetic valve, so that the seasoning bottle is inflated; when the device is used for pumping the seasoning bottle, the two electromagnetic valves are switched to a negative pressure path, the pumping and inflating unit is started, gas in the seasoning bottle is sucked into the first electromagnetic valve and enters the pumping and inflating unit through the first electromagnetic valve, the gas enters the second electromagnetic valve through the gas outlet of the pumping and inflating unit, and the gas is discharged to the atmosphere through a through hole of the second electromagnetic valve, so that the air pumping of the seasoning bottle is realized.

Compared with the existing seasoning bottle with a certain automatic delivery function, the seasoning bottle can be pumped or inflated by adopting only one pumping and inflating unit and two electromagnetic valves, so that the outward liquid discharge or inward liquid suction of the seasoning bottle can be realized, and more pumping and inflating units are not needed, so that the structure of the seasoning bottle is simple, and the cost is greatly reduced; the switching of the device is carried out on the electromagnetic valve, the pumping and inflating unit is not required to be repeatedly started or stopped or reversed in the switching process, the running stability of the pumping and inflating unit is ensured, the stable air source is favorably provided for the seasoning bottle, the pressure in the seasoning bottle is conveniently regulated, and the discharging quantity of the seasoning bottle is conveniently and accurately controlled.

Preferably, the electromagnetic valve is a two-position three-way valve, the two-position three-way valve is provided with a working port and two air ports, the working port can be communicated with one of the two air ports, the air outlet and the air inlet of the pumping and inflating unit are respectively communicated with the working ports of the two-position three-way valve, one air port of the two-position three-way valve is communicated with the seasoning bottle, and the other air port is communicated with the atmosphere.

In the scheme, the electromagnetic valve adopts a two-position three-way valve with lower cost, which is beneficial to reducing the overall manufacturing cost of the device, and adopts a universal standard component, thereby being convenient for mass assembly and later maintenance.

Preferably, the two-position three-way valve comprises a valve body with a switching cavity and a valve rod, three through holes are sequentially communicated with the switching cavity, the valve rod is provided with a notch, the valve rod is slidingly arranged in the switching cavity and is used for blocking the through holes, and one notch is matched with three through holes to form different passages.

In this scheme, the valve rod that has the breach slides in the switching chamber to make one of them through-port switch the intercommunication with two other through-ports.

Preferably, a reset spring is arranged between one end of the valve rod and the wall body of the switching cavity, and an electromagnetic driving device is arranged between the end of the valve rod and the wall body of the switching cavity.

In the scheme, the reset spring plays a role in pushing the valve rod to reset, and the electromagnetic driving device is used for driving the valve rod to move and compacting the reset spring so as to realize that the electromagnetic valve switches different passages.

Preferably, the seasoning bottle is provided with a sealed liquid storage cavity, the liquid storage cavity is provided with a liquid port and a gas port, and the electromagnetic valve is communicated with the gas port through a pipeline.

In the scheme, the seasoning bottle is airtight, and the electromagnetic valve applies positive pressure or negative pressure to the seasoning bottle through the pipeline and the gas port so as to enable liquid in the seasoning bottle to drain outwards or recover liquid inwards through the liquid port.

Preferably, the seasoning bottle is vertically placed, and the gas port is formed in the upper side of the seasoning bottle.

In this scheme, the gas mouth is located the apotheca upside, and the liquid that is located the apotheca downside is difficult to through the gas mouth of upside, is favorable to reducing the risk that liquid in the apotheca leaked through the gas mouth, has protected solenoid valve and pumping inflation unit, has prolonged device life.

Preferably, the seasoning bottle is vertically arranged, an inverted U-shaped pipeline is arranged in the inside and outside of the seasoning bottle in a communicating manner, one end of the U-shaped pipeline is arranged at the lower side of the inner cavity of the seasoning bottle, and the other end of the U-shaped pipeline is arranged at the outside of the seasoning bottle.

In this scheme, the outside export of U-shaped pipeline is the liquid mouth, adopts the U-shaped pipeline of inversion to form siphon effect in order to realize the energy-conserving outwards output liquid of stability, promptly when the apotheca outwards flowing back, once the U-shaped pipeline forms siphon effect, only need to supplement certain gas in the apotheca can, need not to apply high-pressure gas in the bottle, consequently, can save certain electric energy.

Preferably, the automatic condiment delivering bottle further comprises a distribution part, the distribution part is provided with at least two main through holes and a plurality of sub through holes, the number of the condiment bottles is at least two, the sub through holes are communicated with the condiment bottles one by one, and the two main through holes are communicated with the electromagnetic valve through pipelines respectively.

In this scheme, adopt a plurality of apothecary jar can realize the combination between the different condiments, adopt the reposition of redundant personnel part to divide the gas, make in the gas divides to every apothecary jar, can save the quantity of pipeline, the structure is clean and tidy, is convenient for clear up, management and maintenance.

Preferably, the pumping and inflating unit is an air pump.

An automatic feeding device comprises the automatic feeding seasoning bottle.

The automatic feeding device also comprises a switch device for controlling the switch of each seasoning bottle for discharging liquid, so that the accurate control of the discharging proportion of a plurality of seasoning bottles can be realized.

On the basis of conforming to the common knowledge in the field, the above preferred conditions can be arbitrarily combined to obtain the preferred examples of the utility model.

The utility model has the positive progress effects that: compared with the existing seasoning bottle with a certain automatic delivery function, the seasoning bottle can be pumped or inflated by only adopting one pumping and inflating unit and two electromagnetic valves, so that the outward liquid discharge or inward liquid suction of the seasoning bottle can be realized, and more pumping and inflating units are not needed, so that the structure of the seasoning bottle is simple, and the cost is greatly reduced; the switching of the device is carried out on the electromagnetic valve, the pumping and inflating unit is not required to be repeatedly started or stopped or reversed in the switching process, the running stability of the pumping and inflating unit is ensured, the stable air source is favorably provided for the seasoning bottle, the pressure in the seasoning bottle is conveniently regulated, and the discharging quantity of the seasoning bottle is conveniently and accurately controlled.

Drawings

Fig. 1 is a schematic view of an embodiment of an automatic condiment delivery device according to the present utility model.

FIG. 2 is a schematic illustration of the two-position three-way valve of the present utility model in a first operating position.

FIG. 3 is a schematic illustration of the two-position three-way valve of the present utility model in a second position.

Fig. 4 is a cross-sectional view of fig. 2.

Fig. 5 is a cross-sectional view of fig. 3.

Fig. 6 is a schematic diagram of a positive pressure path in the present utility model.

Fig. 7 is a schematic diagram of a negative pressure path in the present utility model.

Reference numerals illustrate:

seasoning bottle 10

Solenoid valve 11

Air pump 12

Two-position three-way valve 13

Switching chamber 16

Valve body 17

Valve stem 18

Notch 19

Return spring 20

Electromagnetic drive 21

Liquid port 22

Gas port 23

Eight-way valve 25

Air inlet 26

Air outlet 27

Detailed Description

The utility model will now be more fully described by way of example only and with reference to the accompanying drawings, but the utility model is not thereby limited to the scope of the examples.

FIGS. 1-7 illustrate an automatic delivery seasoning bottle of the present utility model, as shown in FIG. 1, comprising a seasoning bottle 10, two solenoid valves 11, and an inflation unit; the electromagnetic valve 11 is provided with at least two working positions and at least three through holes, the pumping and inflating unit is provided with at least an air outlet 27 and an air inlet 26, the air outlet 27 and the air inlet 26 are respectively communicated with the two electromagnetic valves 11 through pipelines, the two electromagnetic valves 11 are communicated with the seasoning bottle 10 through pipelines, one through hole of each electromagnetic valve 11 is communicated with the atmosphere, and the two electromagnetic valves 11 are used for switching a positive pressure path and a negative pressure path; as shown in fig. 6, the positive pressure path is that the external air sequentially enters the first electromagnetic valve 11 and the pumping and inflating unit and enters the seasoning bottle 10 through the second electromagnetic valve 11; as shown in fig. 7, the negative pressure path is that the gas in the seasoning bottle 10 sequentially enters the first solenoid valve 11, the pumping and inflating unit, and is discharged to the atmosphere through the second solenoid valve 11.

In this example, when the device inflates the seasoning bottle 10, the two electromagnetic valves 11 are switched to a positive pressure path, the pumping and inflating unit is started, external air enters the first electromagnetic valve 11 through a port communicated with the atmosphere and is sucked into the pumping and inflating unit through the first electromagnetic valve 11, air enters the second electromagnetic valve 11 through an air outlet 27 of the pumping and inflating unit and enters the seasoning bottle 10 through a port of the second electromagnetic valve 11, and inflation of the seasoning bottle 10 is realized; when the device is used for pumping the seasoning bottle 10, the two electromagnetic valves 11 are switched to a negative pressure path, the pumping and inflating unit is started, gas in the seasoning bottle 10 is sucked into the first electromagnetic valve 11, enters the pumping and inflating unit through the first electromagnetic valve 11, enters the second electromagnetic valve 11 through the gas outlet 27 of the pumping and inflating unit, and is discharged to the atmosphere through one through hole of the second electromagnetic valve 11, so that the air pumping of the seasoning bottle 10 is realized.

Compared with the existing seasoning bottle with a certain automatic delivery function, the seasoning bottle has the advantages that only one pumping and inflating unit and two electromagnetic valves 11 are adopted, so that the seasoning bottle 10 can be pumped or inflated, the outward liquid discharge or inward liquid suction of the seasoning bottle 10 can be realized, and more pumping and inflating units are not needed, so that the structure of the seasoning bottle is simple, and the cost is greatly reduced; the switching process of the device for pumping and inflating takes place in the electromagnetic valve 11, the pumping and inflating unit does not need to repeatedly start and stop or reverse in the switching process, the running stability of the pumping and inflating unit is guaranteed, the stable air source is favorably provided for the seasoning bottle 10, the pressure in the seasoning bottle 10 is conveniently regulated, and the discharging quantity of the seasoning bottle 10 is conveniently and accurately controlled.

Preferably, the electromagnetic valve 11 is a two-position three-way valve 13, the two-position three-way valve 13 is provided with a working port and two air ports, the working port can be communicated with one of the two air ports, the air outlet 27 and the air inlet 26 of the pumping and inflating unit are respectively communicated with the working ports of the two-position three-way valve 13, one air port of the two-position three-way valve 13 is communicated with the seasoning bottle 10, and the other air port is communicated with the atmosphere.

As shown in fig. 2 and 3, in this example, the working port of the two-position three-way valve 13 is a P1 interface, the two air ports are an a interface and a B interface, respectively, the two-position electromagnetic valve 11 switches the channels to enable the P1 interface to be communicated with the a interface or the B interface, and the electromagnetic valve 11 adopts the two-position three-way valve 13 with lower cost, which is beneficial to reducing the overall manufacturing cost of the device, and adopts a general standard component, thereby facilitating mass assembly and later maintenance.

As shown in fig. 4 and 5, the two-position three-way valve 13 preferably comprises a valve body 17 with a switching cavity 16 and a valve rod 18, wherein three ports are sequentially communicated with the switching cavity 16, the valve rod 18 is provided with a notch 19, the valve rod 18 is slidably arranged in the switching cavity 16 and is used for blocking the ports, and one notch 19 is matched with the three ports to form different passages.

In this example, a valve stem 18 having a notch 19 slides in the switching chamber 16 to place one of the ports in switching communication with the other two ports.

Preferably, a return spring 20 is provided between one end of the valve stem 18 and the wall of the switching chamber 16, and an electromagnetic drive 21 is provided between the end of the valve stem 18 and the wall of the switching chamber 16.

In this example, the return spring 20 plays a role of pushing the valve stem 18 to return, and the electromagnetic driving device 21 is used for driving the valve stem 18 to move and compact the return spring 20 so as to realize that the electromagnetic valve 11 switches different passages.

When the electromagnetic valves 11 are not electrified, the reset spring 20 pushes the valve rod 18 to the initial position, a positive pressure path is formed between the two electromagnetic valves 11 and the pumping and inflating unit, and the pumping and inflating unit can inflate the inside of the seasoning bottle 10 once being started; when the two electromagnetic valves 11 are electrified, the electromagnetic driving device 21 pushes the valve rod 18 to overcome the elastic force of the reset spring 20 and move in the switching cavity 16, so that a negative pressure path is formed between the two electromagnetic valves 11 and the pumping and inflating unit, and the pumping and inflating unit can pump air to the seasoning bottle 10 once being started.

Normally, the use frequency of the outward liquid discharge of the seasoning bottle 10 is higher than the use frequency of the inward liquid absorption of the seasoning bottle 10, so that in a normal state, the electromagnetic valve 11 is not electrified and always maintains a positive pressure path, a certain electric energy can be saved, when the outward liquid discharge is performed, the electromagnetic valve 11 does not need any adjustment, the pumping and inflating unit is directly started to complete the action, and the liquid discharge response of the seasoning bottle 10 is rapid.

In other embodiments of the present application, the electromagnetic valve 11 may also be in the form of a three-position four-way valve, which includes a P1 interface, an a interface, a B interface, and a C interface, where the P1 interface can be respectively communicated with the a interface, the B interface, and the C interface, the P1 is communicated with the pumping and inflating unit through a pipeline, one of the a interface, the B interface, and the C interface is communicated with the pumping and inflating unit through a pipeline, one of the interfaces is communicated with the atmosphere, and the last interface is plugged.

It should be noted that, the scheme adopting the two-position three-way valve 13 is most advantageous in terms of cost, but the form of the electromagnetic valve 11 is not limited to the three-position four-way valve and the two-position three-way valve 13, but also can be a four-position five-way valve, so long as one interface of the electromagnetic valve 11 can be mutually switched with at least two other interfaces, the air outlet 27 of the pumping and inflating unit can be communicated with the atmosphere, the air inlet 26 is communicated with the seasoning bottle 10, or the air outlet 27 is communicated with the seasoning bottle 10, and the air inlet 26 is communicated with the atmosphere.

Preferably, the seasoning bottle 10 is provided with a sealed liquid storage cavity, the liquid storage cavity is provided with a liquid port 22 and a gas port 23, and the electromagnetic valve 11 is communicated with the gas port 23 through a pipeline.

In this example, the seasoning bottle 10 is airtight, and the solenoid valve 11 applies positive pressure or negative pressure to the seasoning bottle 10 through the pipe and the gas port 23 to drain the liquid in the seasoning bottle 10 through the liquid port 22 or recover the liquid inwardly.

Specifically, the seasoning bottle 10 includes a cover and a bottle body, wherein the cover is detachably mounted at an opening of the bottle body to seal the bottle body, and when the cover is separated from the bottle body, the liquid seasoning can be injected into the bottle body.

Preferably, the seasoning bottle 10 is vertically placed, and the air port 23 is opened at the upper side of the seasoning bottle 10.

In this example, the gas port 23 is located on the upper side of the seasoning bottle 10, and the liquid located on the lower side of the seasoning bottle 10 is difficult to pass through the gas port 23 on the upper side, so that the risk that the liquid in the seasoning bottle 10 leaks out through the gas port 23 is reduced, the electromagnetic valve 11 and the pumping and inflating unit are protected, and the service life of the device is prolonged.

Preferably, the seasoning bottle 10 is vertically arranged, an inverted U-shaped pipeline is communicated inside and outside the seasoning bottle 10, one end of the U-shaped pipeline is arranged at the lower side of the inner cavity of the seasoning bottle 10, and the other end of the U-shaped pipeline is arranged outside the seasoning bottle 10.

In this example, the outlet of the U-shaped pipeline is the liquid port 22, and the inverted U-shaped pipeline is adopted to form a siphon effect so as to realize stable and energy-saving outward output of liquid, namely, when the seasoning bottle 10 is inflated, the liquid is discharged outwards through the U-shaped pipeline, once the U-shaped pipeline forms the siphon effect, the siphon effect can be stably maintained by only supplementing certain gas into the seasoning bottle 10 to maintain stable air pressure in the bottle, the liquid is spontaneously and stably discharged outwards, and high-pressure gas is not required to be applied in the bottle, so that certain electric energy can be saved. When the U-shaped pipeline is used for recycling liquid, the pumping and inflating unit applies negative pressure to the inside of the seasoning bottle 10 through the electromagnetic valve 11, and the liquid flows back into the seasoning bottle 10 through the U-shaped pipeline.

The pipe diameter of the U-shaped pipeline is smaller, the length is longer, namely the ratio of the length to the diameter is larger, the weight of the residual liquid in the U-shaped pipeline is smaller, and because the liquid in the U-shaped pipeline is sucked by the negative pressure in the seasoning bottle 10 and is subjected to the resistance of the inner surface of the U-shaped pipeline, when the seasoning bottle 10 stops absorbing the liquid or discharging the liquid, the liquid remained in the U-shaped pipeline is difficult to separate from the U-shaped pipeline, a liquid seal with better effect can be naturally formed, and the external dust and impurities are prevented from entering the seasoning bottle 10.

Preferably, the automatic seasoning bottle also comprises a flow dividing component, the flow dividing component is provided with at least two main through holes and a plurality of sub through holes, the number of the seasoning bottles 10 is at least two, the sub through holes are communicated with the seasoning bottles 10 one by one, and the two main through holes are respectively communicated with the electromagnetic valve 11 through pipelines.

In this example, the combination among different condiments can be realized by adopting a plurality of seasoning bottles 10, and the gas is split by adopting the splitting component, so that the gas is split into each seasoning bottle 10, the number of pipelines can be saved, the structure is neat, and the cleaning, the management and the maintenance are convenient.

As shown in fig. 1, specifically, in this embodiment, the number of the seasoning bottles 10 is six, the flow dividing component is an eight-way valve 25, two ends of the flow dividing component are provided with a first total interface and a second total interface, the sides of the flow dividing component are provided with six flow dividing interfaces, the first total interface and the second total interface are communicated with the six flow dividing interfaces and are used for dividing, the six flow dividing interfaces are in one-to-one correspondence with the gas ports 23 of the six seasoning bottles 10, the flow dividing interfaces are communicated with the gas ports 23 through pipelines, the first total interface is communicated with one port for inflating of the electromagnetic valve 11 through the pipelines, and the second total interface is communicated with one port for exhausting air of the electromagnetic valve 11 through the pipelines.

In other embodiments of the present application, the flow dividing member may also be in the form of a nine-way valve, and the number of the seasoning bottles 10 is seven, and it should be noted that the flow dividing member is not limited to the eight-way valve 25, and the number of the flow dividing interfaces of the flow dividing member is greater than or equal to the number of the seasoning bottles 10, so that the effect of dividing the gas into each seasoning bottle 10 by using the flow dividing member can be achieved.

As shown in fig. 1, the pumping and inflating unit is preferably an air pump 12.

The air pump 12 has an air outlet 27 and an air inlet 26, and the air pump 12 is activated to draw air in from the air inlet 26 and to discharge the air having the air outlet 27.

In other embodiments of the present application, the pumping and inflating unit may be a centrifugal air pump, and it should be noted that the pumping and inflating unit of the present application is not limited to the air pump described above, and only has the functions of pumping and sucking air, and can suck and discharge air.

An automatic feeding device comprises the automatic feeding seasoning bottle.

The automatic feeding device also comprises a switch device for controlling the switch of the liquid flowing out of each seasoning bottle 10, so that the accurate control of the discharging proportion of a plurality of seasoning bottles 10 can be realized.

In this embodiment, the automatic feeding device adopts the automatic feeding seasoning bottle 10, and the air pressure can control the outward discharging or inward sucking of the seasoning bottle 10, and the overall structure is simple, the cost is low, the reliability is high, and the automatic feeding device is convenient for being widely applied to the market.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the utility model, but such changes and modifications fall within the scope of the utility model.

Claims (10)

1. An automatic delivery seasoning bottle which is characterized in that: the device comprises a seasoning bottle, two electromagnetic valves and an air pumping and inflating unit; the electromagnetic valve is provided with at least two working positions and at least three through holes, the pumping and inflating unit is provided with at least an air outlet and an air inlet, the air outlet and the air inlet are respectively communicated with the two electromagnetic valves through pipelines, the two electromagnetic valves are respectively communicated with the seasoning bottle through pipelines, one through hole of the electromagnetic valve is communicated with the atmosphere, and the two electromagnetic valves are used for switching a positive pressure path and a negative pressure path;

the positive pressure path is that external air sequentially enters the first electromagnetic valve and the pumping and inflating unit and enters the seasoning bottle through the second electromagnetic valve;

the negative pressure path is that the gas in the seasoning bottle sequentially enters the first electromagnetic valve and the pumping and inflating unit and is discharged to the atmosphere through the second electromagnetic valve.

2. An automatic delivery seasoning bottle according to claim 1, wherein: the electromagnetic valve is a two-position three-way valve, the two-position three-way valve is provided with a working port and two air vents, the working port can be communicated with one of the two air vents, the air outlet and the air inlet of the pumping and inflating unit are respectively communicated with the working ports of the two-position three-way valve, one air vent of the two-position three-way valve is communicated with the seasoning bottle, and the other air vent is communicated with the atmosphere.

3. An automatic delivery seasoning bottle according to claim 2 wherein: the two-position three-way valve comprises a valve body with a switching cavity and a valve rod, wherein three through holes are sequentially communicated with the switching cavity, the valve rod is provided with a notch, the valve rod is slidably arranged in the switching cavity and is used for blocking the through holes, and one notch is matched with the three through holes to form different passages.

4. An automatic delivery seasoning bottle as claimed in claim 3 wherein: a reset spring is arranged between one end of the valve rod and the wall body of the switching cavity, and an electromagnetic driving device is arranged between the end of the valve rod and the wall body of the switching cavity.

5. An automatic delivery seasoning bottle according to claim 1, wherein: the seasoning bottle is provided with a sealed liquid storage cavity, the liquid storage cavity is provided with a liquid port and a gas port, and the electromagnetic valve is communicated with the gas port through a pipeline.

6. An automatic delivery spice jar as defined in claim 5 wherein: the seasoning bottle is vertically placed, and the gas port is formed in the upper side of the seasoning bottle.

7. An automatic delivery spice jar as defined in claim 5 wherein: the seasoning bottle is vertically arranged, an inverted U-shaped pipeline is arranged in the inside and outside of the seasoning bottle in a communicating mode, one end of the U-shaped pipeline is arranged on the lower side of the inner cavity of the seasoning bottle, and the other end of the U-shaped pipeline is arranged outside the seasoning bottle.

8. An automatic delivery seasoning bottle according to claim 1, wherein: the automatic condiment bottle delivery device comprises a condiment bottle, and is characterized by further comprising a distribution part, wherein the distribution part is provided with at least two main through holes and a plurality of sub through holes, the number of the condiment bottles is at least two, the sub through holes are communicated with the condiment bottles one by one, and the two main through holes are communicated with the electromagnetic valve through pipelines respectively.

9. An automatic delivery seasoning bottle according to claim 1, wherein: the pumping and inflating unit is an air pump.

10. An automatic feeding device which is characterized in that: comprising an automatic delivery condiment bottle as in any one of claims 1-9.

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