CN212972699U - Noodle cooking mechanism - Google Patents

Abstract

The utility model relates to a noodless culinary art mechanism belongs to rice wheaten food processing equipment field, and it is inconvenient to have the operation to prior art, and the lower problem of work efficiency adopts technical scheme as follows: a noodle cooking mechanism comprises a main bracket, a supply system and a heating system, wherein the supply system and the heating system are connected to the main bracket; the feeding system comprises a storage system and a conveying system, the storage system comprises a storage cavity for storing the main food box, the conveying system is used for conveying the main food box and conveying the semi-finished noodles in the main food box to the heating system; the heating system comprises heating cavities, wherein a screen is arranged in each heating cavity, so that semi-finished noodles or other food materials are heated by water until the semi-finished noodles or other food materials are cooked and then are thrown in. The noodle semi-finished product or other food materials are cooked in a matched mode through the supply system and the heating system, a manipulator in the prior art is omitted, a plurality of noodle semi-finished products or other food materials can be thrown and heated simultaneously, the operation is convenient and fast, and the working efficiency can be improved.

Description

Noodle cooking mechanism

Technical Field

The utility model belongs to rice and flour food processing equipment field, in particular to noodless culinary art mechanism.

Background

With the pace of life increasing, more and more salary families expect to solve eating problems in a quick and convenient manner. Every person likes different foods, some people like eating cooked wheaten food, and some people like eating rice, but because the cooked wheaten food is complex in production process, long in production time and short in preservation time, the salary group who wants to save time but likes eating cooked wheaten food is often prohibited.

The existing automatic noodle cooking and selling machine can solve the problems and comprises a noodle bin noodle supply system, a finished product supply system, an automatic noodle cooking system, a soup filling system, a seasoning supply system, an empty bowl conveying system, a manipulator and an automatic control system; under the condition of a user menu, the automatic control system is driven by a servo motor to control the noodle bin to work for the noodle supply system, and push out the corresponding noodle types packaged by bowls; then the manipulator is controlled by the automatic control system to convey the pushed noodle semi-finished product to the automatic noodle boiling system, and the automatic noodle boiling system automatically boils noodles at the moment; meanwhile, the manipulator conveys the empty bowls pushed out from the empty bowl conveying system to a chain conveying mechanism of a finished product supply system; according to the taste selected by the user, the manipulator conveys the seasonings (such as eggs, beef, shredded meat and the like) pushed out by the seasoning supply system to an empty bowl on the chain conveying mechanism in the previous action; and conveying the noodles cooked in the automatic noodle cooking system to a bowl with seasonings on a chain conveying mechanism, controlling whether a soup filling system adds soup into the bowl or not according to the selection of a user, and finally conveying the finished noodles to a finished noodle outlet by the chain conveying mechanism. In the use process, each system of the automatic noodle cooking and selling machine is associated with the manipulator, the manipulator is excessively relied on, the operation is not convenient, and the working efficiency is lower.

SUMMERY OF THE UTILITY MODEL

There is the inconvenient operation to prior art, the lower problem of work efficiency, the utility model provides a noodless culinary art mechanism can overcome the problem that prior art exists.

The utility model adopts the technical scheme as follows: a noodle cooking mechanism comprising a main support with a support platform and connected thereto: a supply system for supplying semi-finished noodles or other food materials, and a heating system for heating the semi-finished noodles or other food materials;

the supply system comprises a storage system and a carrying system matched with the storage system for use, the storage system comprises at least one group of storage mechanisms consisting of a plurality of storage cavities, the storage cavities are used for storing the staple food boxes filled with semi-finished noodles or other food materials, the carrying system is used for carrying the staple food boxes and transporting the semi-finished noodles in the staple food boxes to the heating system;

the heating system comprises a plurality of heating cavities which are used for containing water and have a heating function, a screen used for bearing the semi-finished noodles or other food materials is arranged in each heating cavity, and the screen can rotate outwards, so that the semi-finished noodles or other food materials are heated by the water until the semi-finished noodles or other food materials are ripe and then are thrown in; the heating chamber is connected with water supply system and drainage system respectively, water supply system independently supplies water to the heating chamber, drainage system makes the independent drainage of heating chamber.

The utility model discloses noodless culinary art mechanism passes through feed system, heating system cooperation and accomplishes the culinary art of noodless semi-manufactured goods or other edible materials, has left out the manipulator that plays the connection effect among the prior art, can put in simultaneously and heat many copies noodless semi-manufactured goods or other edible materials, and the simple operation, and can improve work efficiency.

Further, noodless culinary art mechanism is still including supplying the bowl system, supply bowl system movable to connect on the main support for to supporting platform input noodle bowl, its storage bowl chamber including being equipped with noodle bowl, store up bowl chamber bottom opening, store up and be equipped with the bowl mechanism of throwing that is used for throwing in noodle bowl on the chamber wall of bowl chamber, make at every turn to throw in a noodle bowl, through heating noodless or other edible material after ripe put in to noodle bowl. Bowl

The noodle cooking mechanism further comprises an auxiliary material adding system, the auxiliary material adding system comprises a marinating material adding system and a soup material adding system, the marinating material adding system comprises a plurality of accommodating cavities for accommodating marinating materials and a plurality of conveying channels located on one side of the accommodating cavities, a feeding mechanism is arranged above each accommodating cavity and used for conveying the marinating materials in the accommodating cavities to the conveying channels, and the marinating materials are conveyed into the noodle bowls on the supporting table through the conveying channels; the soup base adding system comprises a plurality of soup bases containing cavities and a plurality of soup base storage cavities with heating functions, the quantity of the soup base storage cavities is matched with the quantity of the soup base containing cavities, each soup base containing cavity is connected with each soup base storage cavity through a connecting pipe with an electric control valve, so that the soup bases are conveyed to the soup base storage cavities from the soup base containing cavities, and one side of each soup base storage cavity is provided with a fixing pipe for quantitatively putting in soup bases in a noodle bowl. The auxiliary material adding system adds the marinating materials and the soup bases into the noodle bowl, so that mistakes can be avoided, and the adding time can be saved.

Furthermore, the opening of the storage cavity faces downwards, an opening and closing structure is arranged on the cavity wall of the storage cavity, the opening and closing structure limits two adjacent staple food boxes located at the lowermost end of the storage cavity, and the carrying system can be matched with the opening and closing structure for use; when the carrying system is matched with the opening and closing structure, the opening and closing structure loosens the first staple food box located at the lowermost end of the storage cavity, and simultaneously limits the second staple food box adjacent to the first staple food box, so that one staple food box drops in each matching process, and the staple food box drops from the opening of the storage cavity and is carried by the carrying system and moves along with the carrying system. The opening and closing structure is of a mechanical structure, so that only one staple food box drops when the carrying system is matched with the opening and closing structure, and therefore the storage mechanism has high accuracy and good stability.

Furthermore, the carrying system comprises a transversely moving support capable of moving transversely, a moving support capable of moving back and forth along the transversely moving support is arranged on the transversely moving support, a rotating support capable of rotating back and forth is arranged on the moving support, and the rotating support is used for receiving the staple food boxes falling from the opening of the storage cavity; the joint of the movable support and the rotating support is also provided with a pushing structure capable of moving up and down, and the pushing structure is matched with the opening and closing structure when moving up. After the transverse moving support and the moving support drive the rotating support to move left and right in a plane, the pushing structure can be accurately matched with the opening and closing structure, and the rotating support can be aligned to the position where the staple food box drops, so that the staple food box is prevented from dropping outside.

Furthermore, the water supply system comprises a water storage tank and at least one water distribution tank internally provided with a heating device, wherein the water storage tank is connected with the water distribution tank through a communicating pipe with an electric control valve so as to quantitatively deliver water to the water distribution tank; the water distribution box is provided with water supply pipes matched with the heating cavities in number so as to supply water to the heating cavities; the drainage system comprises a waste water tank, each heating cavity is connected with a drainage pipe, and the waste water tank is connected with the heating cavities through the drainage pipes so that the heating cavities can respectively drain waste water. The water distribution box is adopted to convey hot water into the heating cavity, so that the heating time can be saved, and the heating efficiency can be improved; every heating chamber corresponds a delivery pipe and carries in order to be accurate, and every heating chamber matches a drain pipe to realize independent row waste water, this makes each other not influence between the heating chamber, but a plurality of heating chambers simultaneous working can improve heating efficiency.

Furthermore, the bowl throwing mechanism comprises an upper shifting fork assembly, a lower shifting fork assembly and a transmission assembly, wherein the upper shifting fork assembly and the lower shifting fork assembly are arranged up and down, and the transmission assembly drives the upper shifting fork assembly and the lower shifting fork assembly to respectively swing horizontally; the lower shifting fork assembly is used for limiting a first noodle bowl at the opening of the bowl storage cavity, and the upper shifting fork assembly is used for limiting a second noodle bowl adjacent to the first noodle bowl; the transmission assembly drives the lower shifting fork assembly to swing outwards, the limit of the first noodle bowl is removed, the upper shifting fork assembly limits the second noodle bowl, and only the first noodle bowl falls; the transmission assembly drives the lower shifting fork assembly to swing back and drives the upper shifting fork assembly to swing outwards, the limit of the second noodle bowl is removed, the lower shifting fork assembly returns, and the noodle bowl in the bowl storage cavity falls until the second noodle bowl is limited by the lower shifting fork assembly. The bowl throwing mechanism enables the noodle bowls in the bowl storage cavity to be thrown one by one, so that the noodle bowls overlapped with each other are prevented from being wasted, and the noodle bowls are prevented from interfering with each other.

The feeding mechanism comprises a connecting rod assembly and a feeding spoon which is rotatably connected to the lower end of the connecting rod assembly through a rotating shaft, the connecting rod assembly drives the feeding spoon in a vertical state to vertically extend into the accommodating cavity until the outer wall of the feeding spoon touches the bottom wall of the accommodating cavity and then rotates, and then the feeding spoon is in a horizontal state so as to pick up halogen materials; the connecting rod assembly drives the throwing spoon to ascend and translate, and when the throwing spoon is located above the conveying channel, the connecting rod assembly drives the throwing spoon to rotate downwards, and the pot-stewed material is thrown into the conveying channel. The throwing spoon rotates after touching the bottom wall of the accommodating cavity, so that solid materials and liquid soup can be contained in the marinating materials taken each time; the feeding mechanism can ensure that the amount of the halogen material fed each time is basically consistent, and the purpose of quantitatively feeding the halogen material can be achieved.

Furthermore, the auxiliary material adding system also comprises a batching adding system, the batching adding system comprises a plurality of batching containing cavities, and the lower part of each batching containing cavity is provided with a material releasing mechanism for quantitatively releasing batching materials into the noodle bowl; the material releasing mechanism comprises an upper inserting plate structure and a lower inserting plate structure which are arranged up and down, the upper inserting plate structure and the lower inserting plate structure respectively comprise an upper inserting plate and a lower inserting plate which penetrate through the wall of the lower cavity of the ingredient containing cavity, and the upper inserting plate and the lower inserting plate are meshed with a driving gear driven by a motor through a rack so as to realize the horizontal movement of the upper inserting plate and the lower inserting plate; when the ingredients are put in, the lower inserting plate seals the bottom of the ingredients containing cavity, the upper inserting plate moves away, the ingredients fall down to fill the space of the ingredients containing cavity between the upper inserting plate and the lower inserting plate, the upper inserting plate moves back, and the lower inserting plate moves away to quantitatively put the ingredients. The ingredients refer to scallion, ginger, garlic, caraway and the like, and the arranged material releasing mechanism can realize quantitative feeding according to the needs.

Furthermore, a plurality of through grooves are formed in the supporting platform, the noodle cooking mechanism further comprises a bowl pushing mechanism arranged on the supporting platform, the bowl pushing mechanism comprises a pushing block which is located in the through grooves and can move along the through grooves, the pushing block is connected with a connecting rod located below the supporting platform and moves back and forth along the connecting rod, and a noodle bowl is pushed out forwards. After the noodles, the soup bases, the marinating materials and the ingredients are placed in the noodle bowl, the noodle bowl can be manufactured, the manufactured noodles need to be pushed forwards to leave a position, the space utilization efficiency is improved, and the supply efficiency is further improved.

Further, the noodle cooking mechanism further comprises an air exhaust system, the air exhaust system comprises an air exhaust cover capable of generating negative pressure and an air exhaust cover communicated with the air exhaust cover, the air exhaust cover is located above the screen, steam generated by the heating cavity is exhausted through the negative pressure, and the air exhaust cover is located below the water storage tank and used for exhausting steam exhausted from the air exhaust cover. The steam may affect the shape of the pasta in the staple food cartridge, and the steam is vented to reduce the effect.

The utility model discloses beneficial effect who has: the utility model discloses noodless culinary art mechanism passes through feed system, heating system and supplies the cooperation of bowl system to accomplish the culinary art of noodless semi-manufactured goods or other edible materials, has left out the manipulator that plays the connection effect among the prior art, can put in simultaneously and heat many copies noodless semi-manufactured goods or other edible materials, and the simple operation, and can improve work efficiency.

Drawings

FIG. 1 is a schematic view of the whole structure of a noodle cooking mechanism;

FIG. 2 is a schematic diagram of a feed system configuration;

FIG. 3 is a schematic structural diagram of a bowl supply system;

FIG. 4 is a schematic structural view of an auxiliary material addition system;

FIG. 5 is a schematic structural view of a bowl pushing mechanism;

fig. 6 is a schematic view of a part of the structure of the marinade adding system and the soup adding system;

FIG. 7 is a schematic view of a portion of the ingredient addition system;

FIG. 8 is a schematic view of the handling system in engagement with the storage chamber;

FIG. 9 is a schematic view of a water supply system and a drainage system;

in the figure, 1-main support;

11-a support platform; 111-through slots; 112-bowl pushing mechanism; 113-a push block; 114-a connecting rod;

2-a storage mechanism;

21-a storage chamber; 211-an open-close structure; 22-a main food box; 22A-a first main food box; 22B-a second main hamper;

3-a handling system;

31-a traverse bracket; 32-moving the support; 33-rotating the support; 34-a pushing structure;

4-a heating system;

41-heating cavity; 42-a screen mesh;

5-a bowl supply system;

51-a bowl storage cavity; 52-a noodle bowl; 53-bowl throwing mechanism; 531-upper fork assembly; 532-lower fork assembly; 533-a transmission assembly;

6-an auxiliary material adding system;

61-a brine addition system; 611-a containing cavity; 612-a transport channel; 613-a throwing mechanism; 614-linkage assembly; 615-throwing spoon; 62-soup base adding system; 621-soup material containing cavity; 622-soup stock storage cavity; 623-connecting pipe; 624-fixed tube; 63-ingredient addition system; 631-ingredient holding chamber; 632-a material release mechanism; 6321-upper board; 6322-lower insert plate;

7-a water supply system;

71-a water storage tank; 72-a water distribution box; 73-a water supply pipe;

8-a drainage system;

81-a waste water tank; 82-a drain pipe;

9-an air exhaust system;

91-air extraction hood; 92-exhaust hood.

Detailed Description

The technical solutions of the embodiments of the present invention are explained and illustrated below with reference to the drawings of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

The noodle cooking mechanism of the present embodiment, as shown in fig. 1 to 9, includes a main stand 1 with a support platform 11 and: a supply system for supplying a semifinished product of noodles or other food material, a heating system 4 for heating the semifinished product of noodles or other food material, a bowl supply system 5 for supplying a bowl 52 of noodles;

the supply system comprises a storage system and a carrying system 3 matched with the storage system for use, the storage system comprises two groups of storage mechanisms 2 consisting of a plurality of storage cavities 21, the storage cavities 21 are used for storing main food boxes 22 filled with semi-finished noodles or other food materials, the carrying system 3 is used for carrying the main food boxes 22 and transporting the semi-finished noodles in the main food boxes 22 to the heating system 4;

the heating system 4 comprises a plurality of heating cavities 41 used for containing water and having a heating function, a screen 42 used for bearing the semi-finished noodles or other food materials is arranged in each heating cavity 41, and the screen 42 can rotate outwards, so that the semi-finished noodles or other food materials are heated by the water until the semi-finished noodles or other food materials are ripe and then are thrown into a noodle bowl 52; the heating cavity 41 is respectively connected with a water supply system 7 and a water drainage system 8, the water supply system 7 independently supplies water to the heating cavity 41, and the water drainage system 8 independently drains water from the heating cavity 41;

supply bowl system 5, movable connects on main support 1 for to supporting platform 11 throw in noodle bowl 52, its including the storage bowl chamber 51 that is equipped with noodle bowl 52, store up bowl chamber 51 bottom opening, store up and be equipped with the bowl mechanism 53 of throwing that is used for throwing in noodle bowl 52 on the chamber wall of bowl chamber 51, make and throw in a noodle bowl 52 at every turn, through heating noodle or other edible material after ripe put in noodle bowl 52.

The noodle cooking mechanism further comprises an auxiliary material adding system 6, the auxiliary material adding system 6 comprises a marinating material adding system 61 and a soup material adding system 62, the marinating material adding system 61 comprises a plurality of containing cavities 611 for containing marinating materials and a plurality of conveying channels 612 located on one side of the containing cavities 611, a feeding mechanism 613 is arranged above each containing cavity 611 and used for conveying the marinating materials in the containing cavities 611 to the conveying channels 612, and the marinating materials are conveyed into the noodle bowls 52 on the supporting table through the conveying channels 612; the soup base adding system 62 comprises a plurality of soup base containing cavities 621 and a plurality of soup base storing cavities 622 with heating functions, the number of the soup base storing cavities 622 is matched with that of the soup base containing cavities 621, each soup base containing cavity 621 is connected with each soup base storing cavity 622 through a connecting pipe 623 with an electric control valve, so that soup bases are conveyed from the soup base containing cavities 621 to the soup base storing cavities 622, and one side of each soup base storing cavity 622 is provided with a fixed pipe 624 for quantitatively putting in soup bases in the noodle bowl 52. The auxiliary material adding system 6 adds the marinating materials and the soup materials to the noodle bowl 52, so that mistakes can be avoided, and the adding time can be saved.

The opening of the storage cavity 21 faces downwards, an opening and closing structure 211 is arranged on the cavity wall of the storage cavity 21, the opening and closing structure 211 limits two adjacent staple food boxes at the lowest end of the storage cavity 21, and the carrying system 3 can be matched with the opening and closing structure 211 for use; when the carrying system 3 is matched with the opening and closing structure 211, the opening and closing structure 211 loosens the first staple food box 22A located at the lowermost end of the storage cavity 21, and simultaneously limits the second staple food box 22B adjacent to the first staple food box 22A, so that one staple food box falls off during matching at each time, and the staple food box 22 falls off from the opening of the storage cavity 21 and is carried by the carrying system 3 and moves along with the carrying system 3. The opening and closing structure 211 is a mechanical structure, so that only one staple food box falls off when the carrying system 3 is matched with the opening and closing structure 211, and therefore, the storage mechanism 2 has higher accuracy and better stability.

The conveying system 3 comprises a transversely-moving transverse support 31, a moving support 32 capable of moving back and forth along the transverse support 31 is arranged on the transverse support 31, a rotating support 33 capable of rotating back and forth is arranged on the moving support 32, and the rotating support 33 is used for receiving the staple food boxes 22 falling from the opening of the storage cavity 21; the connection part of the moving bracket 32 and the rotating bracket 33 is also provided with a pushing structure 34 capable of moving up and down, and the pushing structure 34 is matched with the opening and closing structure 211 when moving up. After the transverse moving support 31 and the moving support 32 drive the rotating support 33 to move back and forth and left and right in a plane, the pushing structure 34 can be accurately matched with the opening and closing structure 211, and the rotating support 33 can be aligned to the dropping position of the staple food box 22, so that the staple food box 22 is prevented from dropping outside.

The water supply system 7 comprises a water storage tank 71 and two water distribution tanks 72 internally provided with heating devices, wherein the water storage tank 71 is connected with the water distribution tanks 72 through a communicating pipe with an electric control valve so as to quantitatively deliver water to the water distribution tanks 72; the water distribution box 72 is provided with water supply pipes 73 the number of which is matched with that of the heating cavities 41 so as to supply water to the heating cavities 41; the drainage system 8 comprises a waste water tank 81, a drain pipe 82 is connected to each heating chamber 41, and the waste water tank 81 is connected to the heating chambers 41 through the drain pipes 82, so that the heating chambers 41 are respectively drained of waste water. The water distribution box 72 is adopted to convey hot water into the heating cavity 41, so that the heating time can be saved, and the heating efficiency can be improved; each heating cavity 41 corresponds to one water supply pipe 73 for accurate conveying, each heating cavity 41 is matched with one water discharge pipe 82 for realizing independent waste water discharge, so that the heating cavities 41 are not influenced mutually, a plurality of heating cavities 41 can work simultaneously, and the heating efficiency can be improved.

The bowl throwing mechanism 53 comprises an upper shifting fork assembly 531 and a lower shifting fork assembly 532 which are arranged up and down, and a transmission assembly 533 which drives the upper shifting fork assembly 531 and the lower shifting fork assembly 532 to respectively swing horizontally; the lower shifting fork assembly 532 is used for limiting a first noodle bowl at the opening of the bowl storage cavity 51, and the upper shifting fork assembly 531 is used for limiting a second noodle bowl adjacent to the first noodle bowl; the transmission component 533 drives the lower shifting fork component 532 to swing outwards, the limit of the first bowl is released, the upper shifting fork component 531 limits the second bowl, and only the first bowl falls; the transmission component 533 drives the lower shifting fork component 532 to swing back and simultaneously drives the upper shifting fork component 531 to swing outwards, so that the limitation on the second noodle bowl is removed, the lower shifting fork component 532 returns, and the noodle bowl 52 in the bowl storage cavity 51 falls down until the second noodle bowl is limited by the lower shifting fork component 532. The bowl throwing mechanism enables the noodle bowls in the bowl storage cavity to be thrown one by one, so that the noodle bowls overlapped with each other are prevented from being wasted, and the noodle bowls are prevented from interfering with each other.

The throwing mechanism 613 comprises a connecting rod assembly 614 and a throwing spoon 615 which is rotatably connected to the lower end of the connecting rod assembly 614 through a rotating shaft, the connecting rod assembly 614 drives the throwing spoon 615 in a vertical state to vertically extend into the accommodating cavity 611 until the outer wall of the throwing spoon 615 touches the bottom wall of the accommodating cavity 611 and rotates to be in a horizontal state so as to pick up halogen materials; the connecting rod assembly 614 drives the throwing spoon 615 to ascend and translate until the throwing spoon 615 is located above the conveying channel 612, and the connecting rod assembly 614 drives the throwing spoon 615 to rotate downwards to throw the halogen materials into the conveying channel 612. The feeding spoon 615 rotates after touching the bottom wall of the containing cavity 611, so that solid materials and liquid soup exist in the marinating materials taken each time; the feeding mechanism 613 can make the amount of the halogen material fed each time substantially consistent, so as to achieve the purpose of quantitatively feeding the halogen material.

The auxiliary material adding system 6 further comprises an ingredient adding system 63, the ingredient adding system 63 comprises a plurality of ingredient containing cavities 631, and a releasing mechanism 632 is arranged at the lower part of each ingredient containing cavity 631 and used for quantitatively releasing ingredients into the noodle bowl 52; the material releasing mechanism 632 comprises an upper inserting plate structure and a lower inserting plate structure which are arranged up and down, the upper inserting plate structure and the lower inserting plate structure respectively comprise an upper inserting plate 6321 and a lower inserting plate 6322 which penetrate through the wall of the lower cavity of the ingredient containing cavity 631, and the upper inserting plate 6321 and the lower inserting plate 6322 are meshed with a driving gear driven by a motor through a rack so as to realize the horizontal movement of the upper inserting plate 6321 and the lower inserting plate 6322; when the ingredients are dosed, the lower insert plate 6322 closes the bottom of the ingredient containing cavity 631, the upper insert plate 6321 is moved away, the ingredients fall to fill the space between the ingredient containing cavity 631 and the upper insert plates 6321 and 6322, the upper insert plate 6321 moves back, and the lower insert plate 6322 is moved away to dose the ingredients. The ingredients refer to scallion, ginger, garlic, caraway and the like, and the material releasing mechanism 632 can realize quantitative feeding according to the requirement.

The supporting platform 11 is provided with a plurality of through grooves 111, the noodle cooking mechanism further comprises a bowl pushing mechanism 112 arranged on the supporting platform 11, the bowl pushing mechanism 112 comprises a pushing block 113 which is positioned in the through grooves 111 and can move along the through grooves 111, and the pushing block 113 is connected with a connecting rod 114 positioned below the supporting platform 11 and can move back and forth along the connecting rod 114 to push out the noodle bowl 52 forwards. After the noodles, soup bases, marinating materials and ingredients are placed in the noodle bowl 52, the noodle bowl completes making, and the made noodles need to be pushed forwards to leave a position, so that the space utilization efficiency is improved, and the supply efficiency is further improved.

The noodle cooking mechanism further comprises an air extraction system 9, the air extraction system 9 comprises an air extraction cover 91 capable of generating negative pressure and an air exhaust cover 92 communicated with the air extraction cover 91, the air extraction cover 91 is located above the screen 42 and used for extracting steam generated by the heating cavity 41 through the negative pressure, and the air exhaust cover 92 is located below the water storage tank 71 and used for exhausting steam extracted by the air extraction cover 91. The steam may affect the shape of the pasta in the staple food cartridge, and the steam is vented to reduce the effect.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the drawings and the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (10)

1. A noodle cooking mechanism comprising a main support with a support platform and connected thereto: a supply system for supplying semi-finished noodles or other food materials, and a heating system for heating the semi-finished noodles or other food materials; the method is characterized in that:

the supply system comprises a storage system and a carrying system matched with the storage system for use, the storage system comprises at least one group of storage mechanisms consisting of a plurality of storage cavities, the storage cavities are used for storing the staple food boxes filled with semi-finished noodles or other food materials, the carrying system is used for carrying the staple food boxes and transporting the semi-finished noodles in the staple food boxes to the heating system;

the heating system comprises a plurality of heating cavities which are used for containing water and have a heating function, a screen used for bearing the semi-finished noodles or other food materials is arranged in each heating cavity, and the screen can rotate outwards, so that the semi-finished noodles or other food materials are heated by the water until the semi-finished noodles or other food materials are ripe and then are thrown in; the heating chamber is connected with water supply system and drainage system respectively, water supply system independently supplies water to the heating chamber, drainage system makes the independent drainage of heating chamber.

2. The noodle cooking mechanism according to claim 1, further comprising a bowl supply system movably connected to the main support for supplying a noodle bowl to the support platform, wherein the bowl supply system comprises a bowl storage cavity in which the noodle bowl is arranged, the bottom of the bowl storage cavity is open, and a bowl supply mechanism for supplying the noodle bowl is arranged on the wall of the bowl storage cavity, so that one noodle bowl is supplied each time, and noodles or other food materials after being heated and matured are supplied to the noodle bowl.

3. The noodle cooking mechanism according to claim 2, further comprising an auxiliary material adding system, wherein the auxiliary material adding system comprises a marinating material adding system and a soup material adding system, the marinating material adding system comprises a plurality of accommodating cavities for accommodating marinating materials and a plurality of conveying channels positioned on one side of the accommodating cavities, a feeding mechanism is arranged above each accommodating cavity and used for conveying the marinating materials in the accommodating cavities to the conveying channels, and the marinating materials are conveyed to the noodle bowls on the supporting table through the conveying channels; the soup base adding system comprises a plurality of soup bases containing cavities and a plurality of soup base storage cavities with heating functions, the quantity of the soup base storage cavities is matched with the quantity of the soup base containing cavities, each soup base containing cavity is connected with each soup base storage cavity through a connecting pipe with an electric control valve, so that the soup bases are conveyed to the soup base storage cavities from the soup base containing cavities, and one side of each soup base storage cavity is provided with a fixing pipe for quantitatively putting in soup bases in a noodle bowl.

4. The noodle cooking mechanism according to claim 2 or 3, wherein the storage chamber is open downwards, an opening and closing structure is arranged on the wall of the storage chamber, the opening and closing structure limits two adjacent staple food boxes at the lowest end of the storage chamber, and the carrying system can be matched with the opening and closing structure for use; when the carrying system is matched with the opening and closing structure, the opening and closing structure loosens the first staple food box located at the lowermost end of the storage cavity, and simultaneously limits the second staple food box adjacent to the first staple food box, so that one staple food box drops in each matching process, and the staple food box drops from the opening of the storage cavity and is carried by the carrying system and moves along with the carrying system.

5. The noodle cooking mechanism of claim 4 wherein the handling system comprises a transversely movable traverse carriage having a movable carriage movable back and forth along the traverse carriage, the movable carriage having a rotatable carriage rotatable back and forth on the movable carriage, the rotatable carriage adapted to receive a staple cartridge dropped from the opening of the storage chamber; the joint of the movable support and the rotating support is also provided with a pushing structure capable of moving up and down, and the pushing structure is matched with the opening and closing structure when moving up.

6. The noodle cooking mechanism according to claim 2 or 3, wherein the water supply system comprises a water storage tank and at least one water distribution tank with a built-in heating device, the water storage tank is connected with the water distribution tank through a communicating pipe with an electrically controlled valve to quantitatively supply water to the water distribution tank; the water distribution box is provided with water supply pipes matched with the heating cavities in number so as to supply water to the heating cavities; the drainage system comprises a waste water tank, each heating cavity is connected with a drainage pipe, and the waste water tank is connected with the heating cavities through the drainage pipes so that the heating cavities can respectively drain waste water.

7. The noodle cooking mechanism according to claim 2 or 3, wherein the bowl throwing mechanism comprises an upper fork assembly and a lower fork assembly arranged up and down, and a transmission assembly driving the upper fork assembly and the lower fork assembly to respectively swing horizontally; the lower shifting fork assembly is used for limiting a first noodle bowl at the opening of the bowl storage cavity, and the upper shifting fork assembly is used for limiting a second noodle bowl adjacent to the first noodle bowl; the transmission assembly drives the lower shifting fork assembly to swing outwards, the limit of the first noodle bowl is removed, the upper shifting fork assembly limits the second noodle bowl, and only the first noodle bowl falls; the transmission assembly drives the lower shifting fork assembly to swing back and drives the upper shifting fork assembly to swing outwards, the limit of the second noodle bowl is removed, the lower shifting fork assembly returns, and the noodle bowl in the bowl storage cavity falls until the second noodle bowl is limited by the lower shifting fork assembly.

8. The noodle cooking mechanism according to claim 3, wherein the throwing mechanism comprises a connecting rod assembly and a throwing spoon rotatably connected to the lower end of the connecting rod assembly through a rotating shaft, the connecting rod assembly drives the throwing spoon in a vertical state to vertically extend into the accommodating cavity until the outer wall of the throwing spoon touches the bottom wall of the accommodating cavity and then is in a horizontal state after rotating so as to pick up the marinated materials; the connecting rod assembly drives the throwing spoon to ascend and translate, and when the throwing spoon is located above the conveying channel, the connecting rod assembly drives the throwing spoon to rotate downwards, and the pot-stewed material is thrown into the conveying channel.

9. The noodle cooking mechanism of claim 3 wherein the ingredient addition system further comprises an ingredient addition system comprising a plurality of ingredient holding chambers, each ingredient holding chamber having a lower portion provided with a material release mechanism for dosing ingredients into the noodle bowl; the material releasing mechanism comprises an upper inserting plate structure and a lower inserting plate structure which are arranged up and down, the upper inserting plate structure and the lower inserting plate structure respectively comprise an upper inserting plate and a lower inserting plate which penetrate through the wall of the lower cavity of the ingredient containing cavity, and the upper inserting plate and the lower inserting plate are meshed with a driving gear driven by a motor through a rack so as to realize the horizontal movement of the upper inserting plate and the lower inserting plate; when the ingredients are put in, the lower inserting plate seals the bottom of the ingredients containing cavity, the upper inserting plate moves away, the ingredients fall down to fill the space of the ingredients containing cavity between the upper inserting plate and the lower inserting plate, the upper inserting plate moves back, and the lower inserting plate moves away to quantitatively put the ingredients.

10. The noodle cooking mechanism of claim 1 wherein the support platform has a plurality of through slots, the noodle cooking mechanism further comprising a bowl pushing mechanism disposed on the support platform, the bowl pushing mechanism comprising a push block located in and movable along the through slots, the push block being connected to and movable back and forth along a link located below the support platform to push the noodle bowl forward; noodle cooking mechanism still includes air exhaust system, air exhaust system including can produce the exhaust hood of negative pressure and with the exhaust hood of exhaust hood intercommunication, the exhaust hood is located the screen cloth top, takes away the steam that the heating chamber produced through the negative pressure, the exhaust hood is located main water tank below for the steam that takes out the exhaust hood and take out.

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