阅读说明：本技术 智能厨具 (Intelligent kitchen ware ) 是由 傅峰峰 江志强 吴居奇 于 2019-12-13 设计创作，主要内容包括：本发明提供一种智能厨具,包括烹饪器皿和用于自动添加调味料至烹饪器皿的调味料下料装置,所述烹饪器皿设有至少两个烹饪腔,每个烹饪腔各自设有腔口,所述调味料下料装置包括下料口,所述调味料下料装置还包括移动下料机构,所述移动下料机构驱动所述下料口移动至分别对准各个烹饪腔的腔口上方,即移动下料机构可驱动下料口移动至对准烹饪器皿的各个烹饪腔的腔口,所以调味料下料装置可直接添加调味料至烹饪器皿的各个烹饪腔中,而无需令调味料经烹饪器皿滑落进烹饪腔,因此能避免调味料粘附在烹饪器皿上。(The invention provides an intelligent kitchen ware which comprises a cooking vessel and a seasoning blanking device used for automatically adding seasonings to the cooking vessel, wherein the cooking vessel is provided with at least two cooking cavities, each cooking cavity is provided with a cavity opening, the seasoning blanking device comprises a blanking opening, the seasoning blanking device further comprises a movable blanking mechanism, the movable blanking mechanism drives the blanking opening to move to the position above the cavity opening aligned with each cooking cavity respectively, namely the movable blanking mechanism can drive the blanking opening to move to the position aligned with the cavity opening of each cooking cavity of the cooking vessel, so that the seasoning blanking device can directly add seasonings to each cooking cavity of the cooking vessel without sliding the seasonings into the cooking cavity through the cooking vessel, and the seasonings can be prevented from being adhered to the cooking vessel.)

1. Intelligent kitchen utensils and appliances, including cooking vessel and the seasoning unloader who is used for automatic adding seasoning to cooking vessel, cooking vessel is equipped with two at least culinary art chambeies, and every culinary art chamber is equipped with the accent separately, seasoning unloader includes feed opening, characterized by: the seasoning discharging device further comprises a movable discharging mechanism, and the movable discharging mechanism drives the discharging port to move to the upper part of the cavity opening aligned with each cooking cavity respectively.

2. The intelligent kitchen appliance according to claim 1, wherein: the seasoning blanking device comprises a telescopic pipe used for leading out the blanking opening, and the telescopic pipe stretches to adapt to the movement of the blanking opening.

3. The intelligent kitchen ware as claimed in claim 1, wherein the movable blanking mechanism comprises an electromagnet and an electromagnetic extension rod connected with the blanking opening, a return spring is mounted on the electromagnetic extension rod, and the movable blanking mechanism drives the blanking opening to move to different blanking positions specifically: when the electromagnet is electrified, the electromagnet generates magnetic force which repels/attracts the electromagnetic extension rod to drive the feed opening to move, and when the electromagnet is not electrified, the reset spring drives the electromagnetic extension rod to reset to drive the feed opening to reset.

4. The intelligent kitchen appliance according to claim 1, wherein: the feed opening has a plurality ofly, a plurality of feed openings receive removal unloading mechanism synchronous drive.

5. The intelligent kitchen appliance according to claim 4, wherein: the plurality of feed openings are arranged together and synchronously driven by the movable feed mechanism.

6. The intelligent kitchen appliance according to claim 4, wherein: the movable blanking mechanism is provided with a guide rail, and the plurality of blanking ports are driven by the movable blanking mechanism synchronously to move along the guide rail.

7. The intelligent kitchen appliance according to claim 4, wherein: among the plurality of feed openings, some are powder feed openings and/or some are liquid feed openings.

8. The intelligent kitchen appliance according to claim 1, wherein: the feed opening is a liquid feed opening.

9. The intelligent kitchen appliance according to claim 7 or 8, characterized in that: the seasoning blanking device comprises a liquid material bottle installation assembly and a liquid material discharging main pipeline communicated with the liquid material bottle installation assembly, the liquid material discharging main pipeline is communicated with an atomizing nozzle through a liquid material telescopic pipe, and a nozzle of the atomizing nozzle serves as a liquid material blanking port.

10. The intelligent kitchen appliance according to claim 9, wherein: the atomizing nozzle is communicated with the liquid material telescopic pipe through an electromagnetic pump.

11. The intelligent kitchen appliance according to claim 1, wherein: comprises a driving mechanism for driving the cooking vessel to move to the blanking position of the seasoning receiving blanking device.

12. The intelligent kitchen appliance according to claim 11, wherein: the moving direction of the feed opening is different from the moving direction of the cooking utensil.

Technical Field

The invention relates to the technical field of automatic control, in particular to an intelligent kitchen ware.

Background

At present, intelligent kitchen utensils on the market are usually provided with seasoning blanking devices, and when the intelligent kitchen utensils are used for cooking, the seasoning blanking devices are utilized to automatically add seasonings, so that full-automatic cooking is realized.

Patent document CN109674334A discloses an automatic cooking machine, which comprises two frying machine rollers and a frying machine swinging block, wherein the frying machine swinging block is used for opening and closing the openings of the two frying machine rollers, when seasoning is added, the frying machine swinging block rotates to open the opening of the frying machine roller needing to be added, and the frying machine swinging block needs to be rotated to the frying machine roller needing to be added, so that the seasoning firstly falls on the frying machine swinging block and then slides into the frying machine roller needing to be added through the frying machine swinging block under the action of gravity, but in the process that the seasoning slides into the frying machine roller through the frying machine swinging block, as part of the seasoning (such as soy sauce, oil consumption and tomato sauce) has adhesion, the seasoning is easy to adhere to the frying machine swinging block and cannot slide into the frying machine roller, and the taste of the fried dish is poor.

Disclosure of Invention

The technical problem to be solved by the invention is how to avoid the seasoning from being adhered to the swinging block of the cooking utensil.

In order to solve the technical problems, the invention provides an intelligent kitchen ware which comprises a cooking utensil and a seasoning blanking device used for automatically adding seasonings into the cooking utensil, wherein the cooking utensil is provided with at least two cooking cavities, each cooking cavity is provided with a cavity opening, the seasoning blanking device comprises a blanking opening, the seasoning blanking device further comprises a movable blanking mechanism, and the movable blanking mechanism drives the blanking openings to move to the positions above the cavity openings respectively aligned with the cooking cavities.

Preferably, the seasoning discharging device comprises a telescopic pipe for leading out the discharging opening, and the telescopic pipe stretches to adapt to the movement of the discharging opening.

Preferably, remove unloading mechanism and include the electro-magnet and connect the electromagnetism extension rod of feed opening, install reset spring on the electromagnetism extension rod, remove unloading mechanism drive the feed opening removes to different unloading positions specifically: when the electromagnet is electrified, the electromagnet generates magnetic force which repels/attracts the electromagnetic extension rod to drive the feed opening to move, and when the electromagnet is not electrified, the reset spring drives the electromagnetic extension rod to reset to drive the feed opening to reset.

Preferably, there are a plurality of feed openings, and the feed openings are driven synchronously by the movable feed mechanism.

Preferably, the plurality of feed openings are arranged together and synchronously driven by the movable feed mechanism.

Preferably, the movable blanking mechanism is provided with a guide rail, and the plurality of blanking ports are driven by the movable blanking mechanism to move along the guide rail synchronously.

Preferably, among the plurality of feed openings, some are powder feed openings and/or some are liquid feed openings.

Preferably, the feed opening is a liquid feed opening.

Preferably, the seasoning discharging device comprises a liquid material bottle installation assembly and a liquid material discharging main pipeline communicated with the liquid material bottle installation assembly, the liquid material discharging main pipeline is communicated with an atomizing nozzle through a liquid material telescopic pipe, and a nozzle of the atomizing nozzle is used as a liquid material discharging opening.

Preferably, the atomizing nozzle is communicated with the liquid material telescopic pipe through an electromagnetic pump.

Preferably, a driving mechanism for driving the cooking vessel to move to the position for receiving the seasoning blanking device.

Preferably, the direction of movement of the feed opening is different from the direction of movement of the cooking vessel.

The invention has the following beneficial effects: because remove the drive of unloading mechanism the feed opening removes to the accent top of aiming at each culinary art chamber respectively, so swing block only need open the accent of the culinary art chamber that needs to feed in raw material, and need not the culinary art chamber that the trend needs to feed in raw material, the seasoning unloader just can directly add the seasoning to the culinary art chamber that needs to feed in raw material, just so can avoid the seasoning to adhere on swing block.

Drawings

FIG. 1 is a schematic structural view of a seasoning discharging device;

FIG. 2 is an exploded view of a powdered seasoning dispensing module;

FIG. 3 is a schematic structural view of a powder bottle mounting assembly;

FIG. 4 is a longitudinal cross-sectional view of the discharge conduit and lifting top after insertion into the powder bottle mounting assembly;

FIG. 5 is a schematic view of a powder bottle mounted on the powder bottle mounting assembly shown in FIG. 4;

FIG. 6 is a schematic illustration of the lift plug of FIG. 5 after it has raised the containment ring;

fig. 7 is an exploded view of a liquid seasoning dispensing module;

FIG. 8 is a schematic structural view of a single-headed liquid feed bottle mounting assembly;

FIG. 9 is a longitudinal cross-sectional view of a liquid feed bottle mounted on the mounting body of the single-ended liquid feed bottle mounting assembly;

FIG. 10 is a longitudinal cross-sectional view of a liquid feed bottle mounted on a single-ended liquid feed bottle mounting assembly;

FIG. 11 is a schematic structural view of the thimble;

FIG. 12 is a schematic structural view of a telescopic blanking structure;

fig. 13 is a schematic diagram of a cooking vessel and seasoning blanking device of the smart cookware.

Description of reference numerals: 1-powdery seasoning blanking module; 2-liquid seasoning blanking module; 3-mounting a frame; 4-moving a blanking mechanism; 5-a feed opening of the powdery seasoning feed module; 6-a feed opening of the liquid seasoning feed module; 7-mounting seats; 8-powder bottle mounting assembly; 9-powder bottle; 10-a discharge pipeline of the powdery seasoning blanking module; 11-lifting top piece; 12-a magnetic component; 13-mounting a plate; 14-an electromagnet; 15-powder discharge main pipe; 16-a fan; 17-a first mounting body; 18-a first fixture; 19-a first flange; 20-a first longitudinal screw hole; 21-a locus of containment; 22-a lower side wall of the receptacle; 23-an upper side wall of the receptacle; 24-the top of the locus of containment; 25-the bottom of the receptacle; 26-powder discharge hole; 27-a hole sealing piece; 28-a frustoconical spring; 29-a stop collar; 30-an outer side wall of the first mounting body; 31-installation space; 32-powder discharge port; 33-a first collar; 34-a first transverse screw hole; 35-first marble screw; 36-the upper end of the hole sealing part protrudes; 37-the lower end of the hole sealing piece protrudes; 38-the mouth of the powder bottle; 39-the powder bottle is close to the bottle mouth; 40-a component mounting port; 41-large bottle mounting metal plate; 42-vial mounting sheet metal; 43-single-head mounting port; 44-double-head mounting port; 45-single-head liquid material bottle installation component; 46-a dual head liquid bottle mounting assembly; 47-liquid material bottle; 48-a discharge pipeline of the liquid seasoning blanking module; 49-solenoid valve; 50-liquid material discharge main pipeline; 51-a second mounting body; 52-a second fixture; 53-a second flange; 54-a second longitudinal screw hole; 55-a mounting portion; 56-side walls of the mounting portion; 57-a first liquid material outlet; 58-liquid material discharging cavity; 59-hollow structure; 60-liquid material discharge hole; 61-compression spring; 62-tabletting; 63-an outer side wall of the second mounting body; 64-temporary storage cavity; 65-the communication part of the liquid material discharging cavity and the temporary storage cavity; 66-vent; 67-a second collar; 68-a second transverse screw hole; 69-second ball screw; 70-a second liquid material outlet; 71-a thimble; 72-a mounting head; 73-motor mounting plate; 74-a guide rail; 75-cylindrical electromagnets; 76-an electromagnetic pump; 77-atomizing spray head; 78-a fastening member; 79-powder extension tube; 80-an electromagnetic extension rod; 81-a cooking vessel; 82-a drive mechanism; 83-a cooking cavity; 84-switching baffle; 85-air intake.

Detailed Description

Exemplary embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present application are shown in the drawings, it should be understood that the present application can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Seasoning unloader is as shown in fig. 1, including likepowder seasoning unloading module 1, liquid seasoning unloading module 2, mounting bracket 3 and removal unloading mechanism 4, likepowder seasoning unloading module 1, liquid seasoning unloading module 2 and removal unloading mechanism 4 are all installed on mounting bracket 3, the feed opening 5 of likepowder seasoning unloading module 1 and the feed opening 6 of liquid seasoning unloading module 2 are all established on removing unloading mechanism 4, utilize to remove unloading mechanism 4 can be these two feed openings 5, 6 remove and carry out the unloading again after the different unloading position.

Powdery seasoning unloading module 1 is as shown in fig. 2, including a mount pad 7, four subassembly installation mouths 40 have been seted up on the mount pad 7, powdery seasoning unloading module 1 equipment back, a powder bottle installation component 8 is installed in the embedding on every subassembly installation mouth 40, a powder bottle 9 has been inserted upside down at every powder bottle installation component 8 top, the bottom has stretched into a vertical ejection of compact pipeline 10, the department cover has one can follow the lift ejecting 11 that ejection of compact pipeline 10 reciprocated near the top of every ejection of compact pipeline 10 outer wall, the radial protrusion in bottom of every lift ejecting 11 extends there is magnetic part 12. The bottom of the mounting seat 7 is provided with a mounting plate 13, four electromagnets 14 are fixedly mounted on the mounting plate 13, the top ends of the electromagnets 14 are respectively aligned with the bottom ends of the magnetic components 12 of the lifting top pieces 11, and the lifting top pieces 11 and the electromagnets 14 form a driving device. The lower ends of all the discharging pipelines 10 are connected to the same powder discharging main pipeline 15, one end of the powder discharging main pipeline 15 is provided with a fan 16, and the other end of the powder discharging main pipeline is connected with a discharging opening 5 of the powdery seasoning discharging module 1.

The powder bottle mounting assembly 8 is shown in fig. 3 and includes a first mounting body 17 and a first fixing member 18, wherein the top of the first fixing member 18 is open, and the first mounting body 17 extends from the open top of the first fixing member 18 and is mounted in the first fixing member 18. The top end of the first fixing member 18 protrudes and extends radially to form a first flange 19, a plurality of first longitudinal screw holes 20 are formed in the first flange 19, after the powder bottle mounting component 8 is embedded in the component mounting port 40 of the mounting base 7 shown in fig. 2, the first flange 19 abuts against the edge of the component mounting port 40 of the mounting base 7, so that the powder bottle mounting component 8 cannot be completely embedded in the component mounting port 40, and after an installer screws a screw (not shown in the figure) matched with the first longitudinal screw hole 20 in the first longitudinal screw hole 20 on the first flange 19, the screw passes through the first longitudinal screw hole 20 and is screwed into the mounting base 7, so that the first fixing member 18 is fixedly mounted on the mounting base 7.

As shown in fig. 4, the first mounting body 17 has a middle portion formed with a receiving portion 21, a lower side wall 22 of the receiving portion 21 is shaped to fit the mouth of the powder bottle, and an upper side wall 23 is shaped to fit the mouth of the powder bottle, so that the powder bottle can be inserted upside down in the receiving portion 21. The top 24 of the accommodating part 21 is open, the bottom 25 is sealed, and a plurality of powder discharge holes 26 are formed on the lower side wall 22 near the bottom 25. The powder bottle mounting assembly 8 further includes an annular hole sealing member 27, a truncated cone spring 28 and a limiting ring 29, a mounting space 31 for mounting the hole sealing member 27, the truncated cone spring 28 and the limiting ring 29 is reserved between the outer side wall 30 of the first mounting body 17 and the upper and lower side walls 23, 22 of the accommodating portion 21, and the bottom of the mounting space 31 is open. The bottom of the first fixing member 18 is provided with a powder outlet 32, and after the open bottom of the mounting space 31 of the first mounting body 17 is aligned with the powder outlet 32 of the first fixing member 18, the outer side wall 30 of the mounting body 17 abuts against the bottom of the first fixing member 18. The outer side wall 30 of the first mounting main body 17 protrudes outwards to form a first retainer ring 33, a first transverse screw hole 34 is formed in the side wall of the first fixing piece 18, the first mounting main body 17 extends into the first fixing piece 18, an installer screws in the first transverse screw hole 34 into a first marble screw 35 matched with the first transverse screw hole 34, the first marble screw 35 penetrates through the first transverse screw hole 34 and then abuts against the outer side wall 30 of the first mounting main body 17, the bottom end of the first marble screw 35 abuts against the top end of the first retainer ring 33, and therefore the first marble screw 35 can block the first mounting main body 17. In this embodiment, three first transverse screw holes 34 and three first ball screws 35 are provided on one powder bottle mounting assembly 8, and the three first transverse screw holes 34 are uniformly distributed around the side wall of the first fixing member 18, so that only one of the first transverse screw holes 34 and the first ball screws 35 is shown in fig. 4 due to the angle.

The hole sealing piece 27 is sleeved outside the lower side wall 22 of the accommodating part 21, the truncated cone spring 28 is sleeved outside the lower side wall 22 and the upper side wall 23 of the accommodating part 21, the upper end and the lower end of the hole sealing piece 27 respectively protrude and extend in the radial direction to form an upper protruding part 36 and a lower protruding part 37, the upper protruding part 36 of the hole sealing piece 27 abuts against the bottom of the truncated cone spring 28, and the limiting ring 29 is installed between the lower protruding part 37 of the hole sealing piece 27 and the bottom of the first fixing piece 18. In the initial state, the truncated cone spring 28 applies downward thrust to the upper end protruding portion 36 of the hole sealing member 27, so that the lower end surface of the lower end protruding portion 37 of the hole sealing member 27 abuts against the upper end surface of the limiting ring 29, and at this time, the hole sealing member 27 is just sleeved on the outer end of the powder discharge hole 26 of the accommodating portion 21, thereby sealing the powder discharge hole 26. After the discharge pipe 10 and the lifting top part 11 sleeved on the outer wall of the discharge pipe pass through the powder discharge port 32 of the first fixing part 18, the discharge pipe and the lifting top part 11 jointly abut against the lower end surface of the lower end protruding part 37 of the hole sealing part 27, that is, the lower end protruding part 3 of the hole sealing part 27 has a part extending out of the discharge pipe 10, and the part is abutted by the lifting top part 11.

As shown in fig. 5, the powder bottle 9 is inserted upside down in the accommodating portion 21, the bottle opening 38 of the powder bottle 9 extends into the lower space of the accommodating portion 21, the bottle opening 39 of the powder bottle 9 adjacent to the bottle opening 39 extends into the upper space of the accommodating portion 21, and the bottle opening 39 of the powder bottle 9 adjacent to the bottle opening is pressed against the upper side wall 23 of the accommodating portion 21, so that a gap is left between the bottle opening 38 of the powder bottle 9 and the bottom 25 of the accommodating portion 21, and the powder in the powder bottle 9 can fall into the accommodating portion 21 from the gap. Since the sealing member 27 is sleeved on the outer end of the powder discharge hole 26 of the accommodating portion 21 in the initial state, so as to seal the powder discharge hole 26, the powder in the powder bottle 9 can not be discharged from the accommodating portion 21 after falling into the accommodating portion 21, that is, the powder seasoning discharging module 1 can not discharge.

When the powdery seasoning blanking module 1 is required to be blanked, a PLC (programmable logic controller) (not shown in the figure) controls a related circuit to enable the electromagnet 14 to be electrified, after the electromagnet 14 is electrified, magnetic force which is repulsive to the magnetic part 12 of the lifting top piece 11 is generated, and the magnetic force can apply upward thrust to the magnetic part 12. Since the electromagnet 14 is fixedly mounted on the mounting plate 13 of the mounting base 7, the electromagnet 14 will not move downward due to the repulsive magnetic force with the magnetic component 12, and therefore the magnetic component 12 will be pushed upward by the magnetic force, so that the lifting top 11 will move upward along the discharge pipe 10. As shown in fig. 6, the lifting top piece 11 moves upward to push the lower protruding portion 37 of the hole sealing piece 27 upward, so that the hole sealing piece 27 moves upward along the lower sidewall 22 of the accommodating portion 21; because the first fixing member 18 is fixedly mounted on the mounting seat 7, and the first ball screw 35 blocks the first mounting body 17 so that the first mounting body 17 of the first mounting body 17 cannot fall off from the first fixing member 18, when the hole sealing member 27 moves upward, the protruding portion 36 of the upper end thereof compresses the truncated conical spring 28 upward and cannot eject the truncated conical spring 28 upward out of the first mounting body 17, and at this time, the hole sealing member 27 moves upward away from the outer end of the powder discharge hole 26 of the accommodating portion 21, so that the powder in the accommodating portion 21 can be discharged into the discharge pipe 10 through the powder discharge hole 26. Because the lifting top piece 11 and the electromagnet 14 are arranged outside the discharging pipeline 10, the lower end protruding part 37 of the hole sealing piece 27 is provided with a part extending out of the discharging pipeline 10 so as to be upwards jacked by the lifting top piece 11, so that after the lifting top piece 11 jacks up the hole sealing piece 27 to enable the hole sealing piece 27 to move away from the outer end of the discharging hole 26, the powdery seasoning discharged through the discharging hole 26 can be directly discharged from the discharging pipeline 10, and cannot be adhered to the lifting top piece 11 and the electromagnet 14 outside the discharging pipeline 10, so that the powdery seasoning is prevented from being adhered to the lifting top piece 11 and the electromagnet 14, and the lifting top piece 11 and the electromagnet 14 are arranged outside the discharging pipeline 10 to enable the discharging hole 26 not to be blocked after the hole sealing piece 27 is moved away, namely, the discharging space is not reduced, so that higher discharging efficiency is obtained.

In this embodiment, the bottom 25 of the accommodating portion 21 protrudes upwards in a conical shape, that is, the accommodating portion 21 is provided with an inclined surface having a bottom for receiving the powder discharge hole 26, so that the powder can smoothly slide down along the conical bottom 25 to the powder discharge hole 26 near the bottom 25 of the lower sidewall 22 of the accommodating portion 21 after falling into the accommodating portion 21, and thus the powder can be smoothly discharged from the accommodating portion 21. After the powder is discharged from the accommodating part 21 to the discharge pipeline 10, the powder falls into the powder discharge main pipeline 15 through the discharge pipeline 10, and at the moment, the PLC controls the relevant circuit to start the fan 16, so that the powder in the powder discharge main pipeline 15 is blown to the discharge opening 5 of the powder seasoning discharge module 1 for discharging.

After the blanking of the powdery seasoning blanking module 1 is completed, the PLC controller controls the relevant circuit to power off the electromagnet 14, after the electromagnet 14 is powered off, the magnetic force repulsive to the magnetic part 12 of the lifting top part 11 disappears, that is, upward thrust is not applied to the magnetic part 12, at this time, the truncated cone spring 28 is reset, and in the resetting process, the truncated cone spring 28 applies downward thrust to the upper end convex part 36 of the hole sealing part 27, so that the lifting top part 11, the magnetic part 12 and the hole sealing part 27 move downward under the action of gravity and the thrust to reset, so that the lower end surface of the lower end convex part 37 of the hole sealing part 27 is propped against the upper end surface of the limit ring 29 again, and the hole sealing part 27 is sleeved on the outer end of the powder discharge hole 26 of the accommodating part 21 again, thereby resealing the powder discharge hole 26.

Liquid seasoning unloading module 2 is as shown in fig. 7, including a big bottle installation panel beating 41 and a small bottle installation panel beating 42, two single-end installing port 43 and a double-end installing port 44 have been seted up on the big bottle installation panel beating 41, a double-end installing port 44 has been seted up on the small bottle installation panel beating 42, liquid seasoning unloading module 2 assembles the back, a single-end liquid material bottle installation component 45 is installed in the embedding on every single-end installing port 43, a double-end liquid material bottle installation component 46 is installed in the embedding on every double-end installing port 44, a liquid material bottle 47 has been inserted upside down at every single-end liquid material bottle installation component 45 top, the bottom is connected with a ejection of compact pipeline 48, two liquid material bottles 47 have been inserted upside down at every double-end liquid material bottle installation component 46 top, the bottom is connected with a ejection of compact. The lower end of each discharge pipeline 48 is provided with an electromagnetic valve 49, the lower ends of all the discharge pipelines 48 are connected to the side wall of the same liquid material discharge main pipeline 50, and the discharge port of the liquid material discharge main pipeline 50 is connected with the discharge port 6 of the liquid seasoning blanking module 2.

The single-ended liquid bottle mounting assembly 45 is shown in fig. 8, and includes a second mounting body 51 and a second fixing member 52, wherein the second fixing member 52 is open at the top, and the second mounting body 51 extends from the open top of the second fixing member 52 and is mounted in the second fixing member 52. The top end of the second fixing member 52 protrudes and extends radially to form a second flange 53, the second flange 53 is provided with a plurality of second longitudinal screw holes 54, after the liquid material bottle installation component 45 is embedded into the single-head installation opening 43 on the large bottle installation sheet metal 41 shown in fig. 7, the second flange 53 abuts against the edge of the single-head installation opening 43 of the large bottle installation sheet metal 41, so that the liquid material bottle installation component 45 cannot be completely embedded into the single-head installation opening 43, after an installer screws a screw (not shown in the figure) matched with the second longitudinal screw hole 54 into the second longitudinal screw hole 54 on the second flange 53, the screw passes through the second longitudinal screw hole 54 and is screwed into the large bottle installation sheet metal 41, and the second fixing member 52 is fixedly installed on the large bottle installation sheet metal 41.

As shown in fig. 9, the second mounting body 51 has a mounting portion 55 formed at a middle portion thereof, and a sidewall 56 of the mounting portion 55 is shaped to fit a mouth of the liquid bottle 47, so that the liquid bottle 47 can be inserted upside down into the mounting portion 55. The installation portion 55 is open at the top, and the bottom is seted up and is run through first liquid material discharge gate 57 of second installation main part 51 bottom, forms liquid material ejection of compact chamber 58 between the bottom of this first liquid material discharge gate 57 and second installation main part 51, and the bottom of installation portion 55 installs inside hollow structure 59, and this hollow structure 59 covers in the first liquid material discharge gate 57 top of installation portion 55 bottom, and a plurality of liquid material discharge openings 60 have been seted up to the position that is close to the installation portion 55 bottom of hollow structure 59's lateral wall. The pressing piece 62 is elastically mounted to the inner top end of the hollow structure 59 by a compression spring 61, and in an initial state, the compression spring 61 applies a downward pushing force to the pressing piece 62 so that the pressing piece 62 covers the first liquid material outlet 57 at the bottom of the mounting portion 55. A temporary storage cavity 64 for temporarily storing liquid materials is formed between the outer side wall 63 of the second mounting main body 51 and the side wall 56 of the mounting portion 55, the side surface of the liquid material discharging cavity 58 is communicated with the temporary storage cavity 64, a communication part 65 between the temporary storage cavity 64 and the liquid material discharging cavity 58 is communicated with a vent 66 leading to outside air through an air inlet part 85 of the temporary storage cavity 64, the position of the air inlet part 85 is higher than the communication part 65, and the vent 66 is formed in the outer side wall 63 of the second mounting main body 51.

As shown in fig. 10, the outer sidewall 63 of the second mounting body 51 protrudes outward to form a second retaining ring 67, a second transverse screw hole 68 is formed on the sidewall of the second fixing member 52, after the second mounting body 51 is installed in the second fixing member 52 in an extending manner, an installer screws a second marble screw 69 in the second transverse screw hole 68, the second marble screw 69 passes through the second transverse screw hole 68 and abuts against the outer sidewall 63 of the second mounting body 51, and the bottom end of the second marble screw 69 abuts against the top end of the second retaining ring 67, so that the second marble screw 69 can block the second mounting body 51. In this embodiment, three second transverse screw holes 68 and three second ball screws 69 are provided on the single-ended liquid material bottle mounting assembly 45, and the three second transverse screw holes 68 are uniformly distributed around the side wall of the second fixing member 52, so that only one of the second transverse screw holes 68 and the second ball screws 69 is shown in fig. 10 due to the angle.

The bottom of the second fixing member 52 is provided with a second liquid outlet 70, an ejector pin 71 is installed in the second liquid outlet 70, the discharging pipeline 48 is installed below the second liquid outlet 70 of the second fixing member 52 through an installation head 72, and the installation head 72 abuts against the ejector pin 71. After the second mounting body 51 is inserted into the second fixing member 52, the thimble 71 penetrates through the liquid discharging cavity 58 of the second mounting body 51 to jack up the pressing sheet 62 covering the first liquid discharging hole 57 at the bottom of the mounting portion 55, because the second fixing member 52 is fixedly mounted on the large bottle mounting metal plate 41, and the second ball screw 69 blocks the second mounting body 51 so that the second mounting body 51 does not fall off from the second fixing member 52, the pressing sheet 62 will compress the compression spring 61 when being jacked up and will not jack up the second mounting body 51 through the compression spring 61, that is, the pressing sheet 62 is moved away from the first liquid discharging hole 57 at the bottom of the mounting portion 55, so that the first liquid discharging hole 57 is communicated with the liquid discharging hole 60, and thus the liquid in the liquid bottle 47 can flow into the liquid discharging cavity 58 through the liquid discharging hole 60 and the first liquid discharging hole 57.

As shown in fig. 11, the bottom of the thimble 71 is hollow, so that the liquid material flows into the liquid material discharging cavity 58 and then flows into the discharging pipe 48 through the hollow part of the thimble 71 in the second liquid material discharging hole 70, and thus the first liquid material discharging hole 57, the liquid material discharging cavity 58, the second liquid material discharging hole 70 and the discharging pipe 48 form a discharging channel of the liquid seasoning discharging module 2. In the initial state, the electromagnetic valve 49 at the lower end of the discharging pipeline 48 is closed, the discharging channel is filled with the liquid material, and in the process that the discharging channel is filled with the liquid material, the liquid material flows into the temporary storage cavity 64 through the communication part 65 at the same time until the liquid level of the liquid material in the temporary storage cavity 64 exceeds the communication part 65, that is, the communication part 65 is blocked. In the process that the liquid material flows out from the liquid material bottle 47, the external air enters the liquid material bottle 47 through the air inlet 66, the air inlet 85, the communication part 65, the liquid material discharging cavity 58, the first liquid material discharging hole 57 and the liquid material discharging hole 60 in sequence, so that at the moment that the communication part 65 is blocked, the air pressure in the liquid material bottle 47 is the same as the external atmospheric pressure, and therefore the liquid material in the liquid material bottle 47 continuously flows out to the temporary storage cavity 64, but after the liquid material in the liquid material bottle 47 continuously flows out, the air space in the liquid material bottle 47 is enlarged, so that negative pressure (the air pressure is smaller than the atmospheric pressure) can be formed in the liquid material bottle 47, and the liquid material in the liquid material bottle 47 cannot continuously flow out, so that a balanced state is formed.

When the liquid seasoning blanking module 2 is required to blank, the PLC controls the relevant circuit to open the electromagnetic valve 49, at the moment, the interior of the liquid seasoning bottle 47 keeps negative pressure, however, since the air inlet 85 of the temporary storage chamber 64 is connected to the outside air through the air opening 66 to provide air pressure, the liquid in the temporary storage chamber 64 and the discharging channel flows into the liquid discharging main pipe 50, then the liquid is discharged through the discharge opening 6 connected with the liquid material discharge main pipeline 50, the liquid level in the temporary storage cavity 64 is lowered in the discharging process until the communication part 65 is exposed, at the moment, the outside air enters the liquid material bottle 47 through the air opening 66, the air inlet part 85, the communication part 65, the liquid material discharge cavity 58, the first liquid material discharge hole 57 and the liquid material discharge hole 60 in sequence, so that the inside of the liquid material bottle 47 is not negative pressure any more, therefore, the liquid material in the liquid material bottle 47 can be discharged smoothly, i.e. the liquid seasoning blanking module 2 can be blanked smoothly.

After the blanking of the liquid seasoning blanking module 2 is completed, the PLC controller controls the relevant circuit to close the electromagnetic valve 49, so that the liquid material fills the discharging channel again, and the liquid material flows into the temporary storage cavity 64 again to block the communication part 65, and the negative pressure is formed again in the liquid material bottle 47 after the communication part 65 is blocked, so that the liquid material in the liquid material bottle 47 cannot be discharged continuously, and a balanced state is formed again.

In this embodiment, the difference between the single-headed liquid bottle mounting assembly 45 and the double-headed liquid bottle mounting assembly 46 lies in that the number of the second mounting main bodies 51 is different, and the number of the second fixing members 52 is different, and the structures of the second mounting main bodies 51 are the same, and the structures of the second fixing members 52 are the same, so detailed structures of the double-headed liquid bottle mounting assembly 46 are not described again.

As shown in fig. 12, the movable blanking mechanism 4 includes a motor mounting plate 73, a guide rail 74 and a cylindrical electromagnet 75 are mounted on the motor mounting plate 73, an electromagnetic pump 76 is slidably mounted on the guide rail 74, a feed inlet of the electromagnetic pump 76 is connected to the liquid material discharge main pipe 50 through a liquid material telescopic pipe (not shown), a discharge outlet is connected to an atomizing nozzle 77, and a nozzle of the atomizing nozzle 77 is a blanking port 6 of the liquid seasoning blanking module 2. The powder telescopic pipe 79 is fixed on the electromagnetic pump 76 through a fixed connection part 78, the powder telescopic pipe 79 is connected with the powder discharge main pipeline 15, and the outlet of the powder telescopic pipe 79 is the discharge opening 5 of the powder seasoning discharge module 1. The cylindrical electromagnet 75 is provided with an extensible electromagnetic extension rod 80, the electromagnetic extension rod 80 is connected with the fixed connection piece 78, and a return spring (not shown in the figure) for returning the electromagnetic extension rod 80 is arranged inside the electromagnet 75. If the PLC controls the relevant circuit to electrify the cylindrical electromagnet 75, the cylindrical electromagnet 75 drives the electromagnetic extension rod 80 to extend out, so that the fixed connection piece 78 is pushed to move in the direction away from the cylindrical electromagnet 75, and the fixed connection piece 78 drives the electromagnetic pump 76, the atomizing spray head 77 and the powder extension pipe 79 to move in the direction away from the cylindrical electromagnet 75 on the guide rail 74; if the PLC controller controls the relevant circuits to enable the cylindrical electromagnet 75 to lose power, the electromagnetic extension rod 80 is reset and retracted under the action of the reset spring, so that the fixed connection piece 78 is driven to move towards the direction close to the cylindrical electromagnet 75, and the fixed connection piece 78 drives the electromagnetic pump 76, the atomizing spray head 77 and the powder extension pipe 79 to move towards the direction close to the cylindrical electromagnet 75 along the guide rail 74. Therefore, the movable blanking mechanism 4 can move the blanking port 5 of the powdery seasoning blanking module 1 and the blanking port 6 of the liquid seasoning blanking module 2 to different blanking positions for blanking.

The seasoning blanking device is used as a part of an intelligent kitchen tool, as shown in fig. 13, the intelligent kitchen tool further comprises a cooking utensil 81 and a driving mechanism 82 for driving the cooking utensil 81 to move, the cooking utensil 81 comprises two cooking cavities 83, each of the two cooking cavities 83 is provided with a cavity, and a switching baffle 84 is arranged at the two cavities. When seasonings need to be added into the two cooking cavities 83 of the cooking utensil 81, the PLC controls the related circuits to enable the driving mechanism 82 to move the cooking utensil 81 to the position below the movable discharging mechanism 4 of the seasoning discharging device, then enables the switching baffle 84 to rotate to open the cavity opening of the first cooking cavity 83 and close the cavity opening of the second cooking cavity 83, then enables the movable discharging mechanism 4 to drive the two discharging openings 5 and 6 to move to the position above the cavity opening of the first cooking cavity 83 of the cooking utensil 81 for discharging, enables the switching baffle 84 to rotate to close the cavity opening of the first cooking cavity 83 and open the cavity opening of the second cooking cavity 83 after discharging is completed, and then enables the movable discharging mechanism 4 to drive the two discharging openings 5 and 6 to move to the position above the cavity opening of the second cooking cavity 83 of the cooking utensil 81 for discharging. Therefore, the seasoning discharging device can directly add the seasoning into each cooking cavity 83 of the cooking vessel 81 by moving the discharging structure 4 to align the discharging ports 5 and 6 with the openings of each cooking cavity 83 of the cooking vessel 81, without sliding the seasoning into the cooking cavity 83 through the switching baffle 84 of the cooking vessel 81, thereby preventing the seasoning from adhering to the cooking vessel 91. In the above-mentioned blanking process, the liquid material telescopic tube and the powder material telescopic tube 79 are telescopic to adapt to the movement of the blanking ports 5 and 6, and the moving direction of the blanking ports 5 and 6 is different from the moving direction of the cooking utensil 81.

After the two cooking cavities 83 of the cooking utensil 81 are completely blanked, the PLC controller controls the relevant circuits to rotate the switching baffle 84 to close the openings of the two cooking cavities 83, and at this time, the two cooking cavities 83 in the cooking utensil 81 can be simultaneously cooked.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the protection scope of the present application, and although the present application is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application.