CN218738564U - Automatic seasoning bottle of throwing material and use its automatic feeding device - Google Patents

Abstract

The utility model discloses an automatic feeding seasoning bottle and an automatic feeding device using the same, wherein the automatic feeding seasoning bottle comprises a seasoning bottle, a solenoid valve and an air pumping and inflating unit; the solenoid valve has two work positions at least, and has five openings at least, takes out the unit of inflating and has gas outlet and air inlet at least, and gas outlet and air inlet all communicate the solenoid valve through the pipeline, and the solenoid valve passes through pipeline intercommunication apothecary jar, and an opening of solenoid valve is the opening of intercommunication atmospheric, and the solenoid valve is used for switching malleation route and negative pressure route. Compared with the automatic delivery seasoning bottle with a complex structure, the device is only provided with one pumping and inflating unit, and can pump or inflate the seasoning bottle so as to realize outward liquid discharge or inward liquid suction of the seasoning bottle, simplify the overall structure of the automatic delivery seasoning bottle, reduce the manufacturing cost and facilitate popularization in the market.

Description

Automatic seasoning bottle of throwing material and use its automatic feeding device

Technical Field

The utility model relates to a seasoning bottle field of relevance, in particular to automatic throw seasoning bottle of material and use its automatic feeding device.

Background

The seasoning is used as an essential element in the cooking process, not only occupies a certain storage space in a kitchen, but also has extremely high use frequency, and simultaneously puts higher requirements on the putting time and the quantity control precision of the seasoning for ensuring the delicious taste of cooked dishes.

There is a prior art seasoning bottle in which solid seasoning is dissolved in water and stored, and the liquid seasoning inside is squeezed out by applying pressure in the seasoning bottle. The existing seasoning bottle has a certain automatic delivery function, but the pressure applied to the bottle needs continuous and stable positive pressure or negative pressure, so the existing mechanism for applying pressure to the bottle is generally complex, 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.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome among the prior art the unable outside technical defect that puts in condiment and the mechanism complexity height of exerting pressure in to the bottle of initiatively of condiment bottle.

The utility model provides an automatic throw the condiment bottle of material and use its automatic feeding device to solve above-mentioned technical problem.

The utility model provides a technical scheme that above-mentioned technical problem adopted is: an automatic feeding seasoning bottle comprises a seasoning bottle, an electromagnetic valve and an air pumping and inflating unit; the electromagnetic valve is at least provided with two working positions and at least five ports, the pumping and inflating unit is at least provided with an air outlet and an air inlet, the air outlet and the air inlet are both communicated with the electromagnetic valve through pipelines, the electromagnetic valve is communicated with the seasoning bottle through a pipeline, one port of the electromagnetic valve is an open port communicated with the atmosphere, and the electromagnetic valve is used for switching a positive pressure path and a negative pressure path; the positive pressure path is that outside air enters the electromagnetic valve through the opening, enters the pumping and inflating unit, and finally returns to the electromagnetic valve and enters the seasoning bottle; the negative pressure path is that the gas in the seasoning bottle enters the electromagnetic valve, enters the pumping and inflating unit, finally returns to the electromagnetic valve and is exhausted to the atmosphere through the opening.

In the scheme, when the device inflates the seasoning bottle, the electromagnetic valve is switched to a positive pressure path, the air pumping and inflating unit is started, outside air is sucked into the electromagnetic valve through the open port and further sucked into the air pumping and inflating unit through the electromagnetic valve, the air returns to the electromagnetic valve through the air outlet of the air pumping and inflating unit and enters the seasoning bottle through the electromagnetic valve to apply positive pressure to the seasoning bottle; when the device is used for pumping air to the seasoning bottle, the electromagnetic valve is switched to a negative pressure path, the air pumping and inflating unit is started, the gas in the seasoning bottle is sucked into the electromagnetic valve and enters the air pumping and inflating unit through the electromagnetic valve, and the gas returns to the electromagnetic valve through the gas outlet of the air pumping and inflating unit and is discharged into the atmosphere through the open port of the electromagnetic valve.

Compared with the existing automatic delivery seasoning bottle with a complex structure, the scheme has the advantages that only one air pumping and inflating unit is arranged, so that the seasoning bottle can be pumped or inflated, liquid is discharged outwards or sucked inwards from the seasoning bottle, the integral structure of the automatic delivery seasoning bottle is simplified, the manufacturing cost is reduced, and the automatic delivery seasoning bottle is convenient to popularize in the market; this scheme is through setting up the solenoid valve to switching to bleeding or aerifing of seasoning bottle, take out to inflate unit self and need not to switch the gas flow direction, consequently take out to inflate the unit and need not frequently to open and stop, the reversal, guaranteed to take out the stability of inflating unit self operation, can provide stable air supply for the seasoning bottle, so that the adjustment with maintain the seasoning bottle internal pressure, be favorable to inside liquid stable outside discharge, make things convenient for the load of accurate control seasoning bottle.

Preferably, the electromagnetic valve is a two-position five-way valve, the two-position five-way valve is provided with two working ports, two air vents and one opening port, the air outlet and the air inlet of the pumping and inflating unit are respectively communicated with the two working ports, and the two air vents are both communicated with the seasoning bottle.

In this scheme, the solenoid valve chooses the general two-position five-way valve in market for use, has reduced the manufacturing threshold of this device, and the batch equipment of being convenient for is convenient for follow-up change and maintenance.

Preferably, the two working ports are respectively a first working port and a second working port, the two air vents are respectively an inflation port and an air suction port, the air outlet of the air suction and inflation unit is communicated with the first working port, and the air inlet is communicated with the second working port; the two-position five-way valve is switched to enable the first working port to be communicated with the inflation port, and the second working port to be communicated with the opening port to form the positive pressure path.

In this scheme, the malleation route intercommunication, the open mouth enters into two-position five-way valve through the open mouth, and the air is being flowed into by second working port and air inlet and is taking out the inflation unit to flow into two-position five-way valve again through gas outlet and first working port, and flow into in the seasoning bottle by the inflation inlet, in order to realize the inflated function of seasoning bottle.

Preferably, the two-position five-way valve is switched to enable the first working port to be communicated with the opening port, and the second working port to be communicated with the pumping port, so as to form the negative pressure path.

In this scheme, the negative pressure route intercommunication, the interior gas of condiment bottle passes through the extraction opening and gets into two-position five-way valve to in flowing into the unit of taking out and inflating by first working port and air inlet, gas flows into two-position five-way valve again through gas outlet and second working port, and flows out the atmosphere through the opening.

Preferably, the seasoning bottle is provided with a closed 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 this scheme, the apothecary jar is inclosed, and the solenoid valve applys malleation or negative pressure through pipeline and gas port to the apothecary jar to liquid passes through the liquid mouth and outwards drains off or inwards retrieves liquid in the apothecary jar.

Preferably, the automatic feeding seasoning bottle further comprises a shunting part, the shunting part is provided with at least two female ports and a plurality of sub ports, the number of the seasoning bottles is at least two, the sub ports are communicated with the seasoning bottles one by one, and the two female ports are communicated with the electromagnetic valve through pipelines respectively.

In this scheme, the reposition of redundant personnel part is used for shunting the gas of solenoid valve for malleation or the negative pressure of solenoid valve output all can act on a plurality of condiment bottles, has reduced the use of pipeline, and the structure is retrencied, is convenient for maintain.

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

Preferably, the two-position five-way valve comprises a valve body with a switching cavity and a valve rod, five through holes are sequentially communicated with the switching cavity, the valve rod is provided with two notches, the valve rod is slidably arranged in the switching cavity and used for blocking part of the through holes, and the two notches and the five through holes are mutually matched to form different passages.

In the scheme, the valve rod slides in the switching cavity, so that the two notches are matched with the five through holes respectively, and in the first working position, the valve rod blocks the through hole at one end, so that the two through holes at one side are communicated with the two through holes at the other side through the two notches to form a first group of internal passages; on the second work position, the opening of valve rod shutoff other end for two openings of one side communicate through two openings of two breachs and opposite side, with form the internal passage of second group.

Preferably, a return 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 part of the valve rod and the wall body of the switching cavity.

In this scheme, set up reset spring and be convenient for the reseing of valve rod, through setting up electromagnetic drive device, the activity of convenient to use electric power automatic control valve rod.

An automatic feeding device comprises the automatic feeding seasoning bottle.

The automatic feeding device also comprises a switch device to control the switch of the liquid flowing out of each seasoning bottle, and the accurate control of the discharging ratio of a plurality of seasoning bottles can be realized.

On the basis of the common knowledge in the field, the above preferred conditions can be combined at will to obtain the preferred embodiments of the present invention.

The utility model discloses an actively advance the effect and lie in: compared with the automatic delivery condiment bottle with a complex structure, the device of the utility model only has one air pumping and inflating unit, so that the condiment bottle can be pumped or inflated to discharge liquid outwards or suck liquid inwards, the whole structure of the automatic delivery condiment bottle is simplified, the manufacturing cost is reduced, and the device is convenient to popularize in the market; this device is through setting up the solenoid valve to switching to bleeding or aerifing of seasoning bottle, take out to inflate unit self and need not to switch the gas flow direction, consequently take out to inflate the unit and need not frequently to open and stop, the reversal, guaranteed to take out the stability of inflating unit self operation, can provide stable air supply for the seasoning bottle, so that the adjustment with maintain the seasoning bottle internal pressure, be favorable to inside liquid stable outside discharge, make things convenient for the load of accurate control seasoning bottle.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of the communication between the working positions of the two-position and five-way valve of the present invention.

Fig. 3 is a schematic view of the communication between the working positions of the two-position and five-way valve of the present invention during air exhaust.

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 the positive pressure path according to the present invention.

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

FIG. 8 is a schematic view of the two-position, six-way valve.

Description of reference numerals:

apothecary jar 10

Solenoid valve 11

Air pump 12

Two-position five-way valve 13

First working port 14

Second working port 15

Air charging port 16

Air extraction port 17

Opening 18

Liquid port 19

Gas port 20

Valve body 21

Valve stem 22

Switching chamber 23

Notch 24

Return spring 25

Electromagnetic drive 26

Eight-way valve 27

Air inlet 28

Air outlet 29

Through opening 30

Detailed Description

The present invention will be more clearly and completely described below by way of examples and with reference to the accompanying drawings, but the present invention is not limited thereto.

Fig. 1-7 show an embodiment of an automatic feeding seasoning bottle of the present invention, as shown in fig. 1, which includes a seasoning bottle 10, a solenoid valve 11 and an air pumping and inflating unit; the electromagnetic valve 11 is at least provided with two working positions and at least five through ports, the air pumping and inflating unit is at least provided with an air outlet 29 and an air inlet 28, the air outlet 29 and the air inlet 28 are both communicated with the electromagnetic valve 11 through pipelines, the electromagnetic valve 11 is communicated with the condiment bottle 10 through a pipeline, one through port of the electromagnetic valve 11 is an open port 18 communicated with the atmosphere, and the electromagnetic valve 11 is used for switching a positive pressure path and a negative pressure path; as shown in fig. 6, the positive pressure path is that the outside air enters the solenoid valve 11 through the open port 18, enters the pumping and inflating unit, and finally returns to the solenoid valve 11 and enters the seasoning bottle 10; as shown in fig. 7, the negative pressure path is such that the gas in the bottle 10 enters the solenoid valve 11, enters the pump-and-inflate unit, and finally returns to the solenoid valve 11 and is exhausted to the atmosphere through the open port 18.

In this example, when the apparatus inflates the seasoning bottle 10, the electromagnetic valve 11 is switched to the positive pressure path, the air pumping and inflating unit is started, the external air is sucked into the electromagnetic valve 11 through the open port 18 and further sucked into the air pumping and inflating unit through the electromagnetic valve 11, the air returns to the electromagnetic valve 11 through the air outlet 29 of the air pumping and inflating unit and enters the seasoning bottle 10 through the electromagnetic valve 11 to apply positive pressure to the seasoning bottle 10; when the device is used for pumping air to the seasoning bottle 10, the electromagnetic valve 11 is switched to a negative pressure path, the air pumping and inflating unit is started, the gas in the seasoning bottle 10 is sucked into the electromagnetic valve 11 and enters the air pumping and inflating unit through the electromagnetic valve 11, and the gas returns to the electromagnetic valve 11 through the gas outlet 29 of the air pumping and inflating unit and is exhausted to the atmosphere through the opening 18 of the electromagnetic valve 11.

Compared with the existing automatic delivery condiment bottle 10 with a complex structure, the scheme has the advantages that only one air pumping and inflating unit is arranged, the condiment bottle 10 can be pumped or inflated, so that the condiment bottle 10 can discharge liquid outwards or suck liquid inwards, the manufacturing cost is reduced, and the automatic delivery condiment bottle 10 is convenient to popularize in the market; this scheme is through setting up solenoid valve 11 to switching to bleeding or aerifing of seasoning bottle 10, take out to inflate unit self and need not to switch the gas flow direction, consequently take out to inflate the unit and need not frequently to open and stop, the reversal, the stability of taking out the operation of inflating unit self has been guaranteed, can provide stable air supply for seasoning bottle 10, so that adjust and maintain 10 internal pressures of seasoning bottle, be favorable to inside liquid stable outside discharge, make things convenient for the load of accurate control seasoning bottle 10.

As shown in fig. 2 and 3, preferably, the electromagnetic valve 11 is a two-position five-way valve 13, the two-position five-way valve 13 has two working ports, two air vents and an opening port 18, the air outlet 29 and the air inlet 28 of the pumping and inflating unit are respectively communicated with the two working ports, and the two air vents are both communicated with the seasoning bottle 10.

In the embodiment, the electromagnetic valve 11 is a two-position five-way valve 13 which is commonly used in the market, so that the manufacturing threshold of the device is reduced, the batch assembly is convenient, and the subsequent replacement and maintenance are convenient.

As shown in fig. 1 and fig. 2, preferably, the two working ports are a first working port 14 and a second working port 15, the two air ports are an inflation port 16 and an air suction port 17, respectively, an air outlet 29 of the air suction and inflation unit is communicated with the first working port 14, and an air inlet 28 is communicated with the second working port 15; the two-position, five-way valve 13 switches such that the first working port 14 communicates with the inflation port 16 and the second working port 15 communicates with the open port 18 to form a positive pressure path.

In this example, the positive pressure path is connected, the external air enters the two-position five-way valve 13 through the opening 18, and the air flows into the air pumping and inflating unit from the second working port 15 and the air inlet 28, and flows into the two-position five-way valve 13 again through the air outlet 29 and the first working port 14, and flows into the condiment bottle 10 from the inflating port 16, so as to realize the function of inflating the condiment bottle 10.

As shown in fig. 3, preferably, the two-position five-way valve 13 is switched so that the first working port 14 communicates with the open port 18, and the second working port 15 communicates with the suction port 17 to form a negative pressure path.

In this example, the negative pressure path is communicated, the gas in the seasoning bottle 10 enters the two-position five-way valve 13 through the suction port 17 and flows into the suction and inflation unit through the first working port 14 and the gas inlet 28, and the gas flows into the two-position five-way valve 13 again through the gas outlet 29 and the second working port 15 and flows out to the atmosphere through the open port 18.

In other embodiments of the present application, the electromagnetic valve 11 may further select a three-position five-way valve, which includes three working positions, that is, an inflation working position, a stop working position, and an air-bleeding working position, and the three-position five-way valve includes a P1 interface, a P2 interface, an a interface, a B interface, and a C interface, when the electromagnetic valve 11 is in the stop working position, the P1 interface and the P2 interface are not communicated with the a interface, the B interface, and the C interface, and are used to cut off the communication between the air-bleeding unit and the seasoning bottle 10, and when the electromagnetic valve 11 is in the inflation working position and the air-bleeding working position, the working positions of the two-position five-way valve 13 are consistent with each other, so as to inflate or deflate the seasoning bottle 10.

As shown in fig. 8, in other embodiments of the present application, the electromagnetic valve 11 may also be a two-position six-way valve, where the two-position flow valve includes a P1 port, a P2 port, an a port, a B port, a C port, and a D port, the P1 port and the P2 port are respectively connected to the air inlet 28 and the air outlet 29 of the pumping and inflating unit through pipes, the C port is connected to the apothecary jar 10 through a pipe, the D port is connected to the atmosphere, and the a port is connected to the apothecary jar 10 through a pipe, and the B port is connected to the atmosphere.

The two-position six-way valve has two working states, the first one is that the interior of the two-position six-way valve is switched to enable the P1 interface to be communicated with the C interface and the P2 interface to be communicated with the D interface, a positive pressure is formed at the moment, outside air enters the air pumping and inflating unit through the D interface and the P2 interface and flows into the seasoning bottle 10 through the P1 interface and the C interface to inflate the seasoning bottle 10.

And secondly, the two-position six-way valve is switched to enable the P1 interface to be communicated with the A interface, the P2 interface is communicated with the B interface to form a negative pressure path, and gas in the seasoning bottle 10 enters the air pumping and inflating unit through the B interface and the P2 interface and enters the seasoning bottle 10 through the P1 interface and the A interface so as to pump air in the seasoning bottle 10.

Preferably, the seasoning bottle 10 has a closed liquid storage cavity, the liquid storage cavity is provided with a liquid port 19 and a gas port 20, and the electromagnetic valve 11 is communicated with the gas port 20 through a pipeline.

In this example, the bottle 10 is closed, and the solenoid valve 11 applies positive or negative pressure to the bottle 10 through the line and the gas port 20 to drain the liquid from the bottle 10 to the outside or to recover the liquid from the bottle through the liquid port 19 to the inside.

Specifically, the seasoning bottle 10 includes a bottle body and a cover body, and the cover body is fastened to the opening of the bottle body to seal the inner cavity of the bottle body.

Preferably, the automatic seasoning bottle of throwing the material still includes the reposition of redundant personnel part, and the reposition of redundant personnel part has at least two female openings and a plurality of sub-opening, and the quantity of seasoning bottle 10 is two at least, and a plurality of sub-openings communicate in seasoning bottle 10 one by one, and two female openings are respectively through pipeline intercommunication solenoid valve 11.

In this example, the reposition of redundant personnel part is used for shunting the gas of solenoid valve 11 for the malleation or the negative pressure of solenoid valve 11 output all can act on a plurality of apothecary jar 10, have reduced the use of pipeline, and the structure is retrencied, is convenient for maintain.

As shown in fig. 1, specifically, the number of the seasoning bottles 10 is six, the eight-way valve 27 is used as the flow dividing component, the two ends of the eight-way valve have a first main interface and a second main interface, the side edge of the eight-way valve has six flow dividing interfaces, the first main interface and the second main interface are communicated with the six flow dividing interfaces for flow dividing, the six flow dividing interfaces correspond to the gas ports 20 of the six seasoning bottles 10 one by one, the flow dividing interfaces are communicated with the gas ports 20 through pipelines, the first main interface is communicated with one port of the electromagnetic valve 11 for inflation through a pipeline, and the second main interface is communicated with one port of the electromagnetic valve 11 for air suction through a pipeline.

It should be noted that the flow dividing component is not limited to the eight-way valve 27, and the number of flow dividing ports of the flow dividing component is greater than or equal to the number of the seasoning bottles 10, that is, the gas can be divided into each seasoning bottle 10 by the flow dividing component.

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

The air pump 12 has an air outlet 29 and an air inlet 28, and the air pump 12 is activated to draw air from the air inlet 28 and discharge the air through the air outlet 29.

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 above air pump, and the pumping and inflating unit can suck and discharge air as long as the pumping and sucking functions are provided at the same time.

As shown in fig. 4, preferably, the two-position five-way valve 13 includes a valve body 21 having a switching chamber 23 and a valve stem 22, the five ports are sequentially communicated with the switching chamber 23, the valve stem 22 is provided with two notches 24, the valve stem 22 is slidably disposed in the switching chamber 23 and is used for blocking part of the ports 30, and the two notches 24 and the five ports are mutually matched to form different passages.

In this example, the stem 22 slides in the switching chamber 23 so that the two notches 24 cooperate with the five through openings 30, respectively, and in the first operating position, the stem 22 blocks the through opening 30 at one end, so that the two through openings 30 on one side communicate with the two through openings 30 on the other side through the two notches 24 to form a first set of internal passages; in the second operating position, the valve stem 22 blocks the ports 30 at the other end, so that the two ports 30 on one side communicate with the two ports 30 on the other side through the two notches 24 to form a second set of internal passages.

As shown in fig. 4, it is preferable that a return spring 25 is provided between one end of the stem 22 and a wall of the switching chamber 23, and an electromagnetic driving device 26 is provided between an end of the stem 22 and the wall of the switching chamber 23.

In this example, a return spring 25 is provided to facilitate the return of the valve stem 22, and an electromagnetic drive 26 is provided to automatically control the movement of the valve stem 22 using electric power.

In the present embodiment, when the electromagnetic valve 11 is not energized, the electromagnetic valve 11 is maintained in a negative pressure path, and the air pumping and inflating unit exhausts the gas in the seasoning bottle 10 to the atmosphere; when the solenoid valve 11 is energized, the solenoid valve 11 is switched to the positive pressure path, and the pumping and inflating unit replenishes the external air into the seasoning bottle 10.

The electromagnetic valve 11 does not need to be electrified, the seasoning bottle 10 is communicated with the air inlet 28 of the air pumping and inflating unit through the electromagnetic valve 11, negative pressure can be generated in the seasoning bottle 10 as long as the air pumping and inflating unit is electrified, on one hand, the power cost can be effectively reduced, and on the other hand, the negative pressure can be applied to the seasoning bottle 10 by the air pumping and inflating unit, so that the risk of liquid leakage in the seasoning bottle 10 is reduced.

In other embodiments of the present application, when the solenoid valve 11 is not energized, the solenoid valve 11 remains in a positive pressure path; when the electromagnetic valve 11 is energized, the electromagnetic valve 11 is switched to the negative pressure path.

An automatic feeding device comprises the automatic feeding seasoning bottle.

The automatic feeding device further comprises a switch device to control the switch of the liquid flowing out of each seasoning bottle 10, and accurate control over discharging proportion of the plurality of seasoning bottles 10 can be achieved.

In this embodiment, the automatic feeding device adopts the automatic feeding seasoning bottle, and the seasoning bottle 10 can be controlled by air pressure to discharge outwards or suck inwards, so that the whole structure is simple, the cost is low, the reliability is high, and the automatic feeding device is convenient to be widely applied to the market.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention 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 spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic condiment bottle of throwing material which characterized in that: the device comprises a seasoning bottle, an electromagnetic valve and an air pumping and inflating unit; the electromagnetic valve is at least provided with two working positions and at least five ports, the pumping and inflating unit is at least provided with an air outlet and an air inlet, the air outlet and the air inlet are both communicated with the electromagnetic valve through pipelines, the electromagnetic valve is communicated with the seasoning bottle through a pipeline, one port of the electromagnetic valve is an open port communicated with the atmosphere, and the electromagnetic valve is used for switching a positive pressure path and a negative pressure path;

the positive pressure path is that outside air enters the electromagnetic valve through the opening, enters the pumping and inflating unit, and finally returns to the electromagnetic valve and enters the seasoning bottle;

the negative pressure path is that the gas in the seasoning bottle enters the electromagnetic valve, enters the pumping and inflating unit, finally returns to the electromagnetic valve and is exhausted to the atmosphere through the opening.

2. The self-feeding carafe as claimed in claim 1, wherein: the electromagnetic valve is a two-position five-way valve, the two-position five-way valve is provided with two working ports, two air vents and one opening port, the air outlet and the air inlet of the pumping and inflating unit are respectively communicated with the two working ports, and the two air vents are communicated with the seasoning bottle.

3. The self-feeding carafe as claimed in claim 2, wherein: the two working ports are respectively a first working port and a second working port, the two air vents are respectively an inflation port and an air exhaust port, the air outlet of the air exhaust and inflation unit is communicated with the first working port, and the air inlet is communicated with the second working port;

the two-position five-way valve is switched to enable the first working port to be communicated with the inflation port, and the second working port to be communicated with the opening port to form the positive pressure path.

4. An automatically feeding condiment bottle as recited in claim 3, wherein: the two-position five-way valve is switched to enable the first working port to be communicated with the opening port, and the second working port to be communicated with the suction port to form the negative pressure path.

5. The self-feeding carafe as claimed in claim 1, wherein: the seasoning bottle is provided with a closed 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. The self-feeding carafe as claimed in claim 1, wherein: the automatic condiment bottle of throwing material still includes the reposition of redundant personnel part, the reposition of redundant personnel part has two at least female openings and a plurality of sub-openings, the quantity of condiment bottle is two at least, and is a plurality of sub-opening communicate one by one in the condiment bottle, two female opening communicates through the pipeline respectively the solenoid valve.

7. The self-feeding carafe as claimed in claim 1, wherein: the air pumping and inflating unit is an air pump.

8. The self-feeding carafe as claimed in claim 2, wherein: the two-position five-way valve comprises a valve body and a valve rod, wherein the valve body is provided with a switching cavity, five through holes are sequentially communicated with the switching cavity, the valve rod is provided with two notches, the valve rod is slidably arranged in the switching cavity and used for plugging part of the through holes, and the two notches and the five through holes are mutually matched to form different passages.

9. The self-feeding carafe as claimed in claim 8, wherein: and a return 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 part of the valve rod and the wall body of the switching cavity.

10. The utility model provides an automatic throw material device which characterized in that: comprising an automatically dosed seasoning bottle according to any one of claims 1-9.

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