CN218219894U - Automatic noodle boiling machine - Google Patents

Abstract

The utility model provides an automatic noodle cooking machine, which comprises a machine table; the noodle cooking device is arranged on the machine table and is used for receiving the noodles to be cooked and heating the noodles to be cooked into cooked noodles; the lower device is arranged on the machine table, is positioned on the adding surface side of the noodle boiling device and is used for inputting noodles to be boiled into the noodle boiling device; the finished product conveying device is arranged on the machine table, is positioned on the noodle outlet side of the noodle cooking device, and is used for receiving the cooked noodles output by the noodle cooking device and conveying the cooked noodles to a product outlet; the automatic noodle cooking machine further comprises a soup adding device and a feeding device, wherein the soup adding device and the feeding device are arranged on the machine table and distributed along the conveying direction of the finished product conveying device, and the soup adding device is used for adding soup and auxiliary materials to the cooked noodles before the cooked noodles are conveyed to the outlet, so that automatic noodle cooking is realized.

Description

Automatic noodle boiling machine

Technical Field

The utility model relates to a wheaten food processing equipment technical field, in particular to automatic boil face machine.

Background

With the pace of life increasing, people are more and more interested in food products with shorter cooking time. Particularly, when fast food is selected, the wheaten food is popular among people as a food with relatively short cooking time. However, the labor cost is gradually increased, the current noodle restaurant needs multi-post manual service, the cooking efficiency of the noodles is too low, and the noodle restaurant does not meet the requirements of the modern society.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic boil face machine aims at solving the problem of how to automatically boil the face.

In order to achieve the above object, the present application provides an automatic noodle cooking machine, comprising: a machine platform; the noodle cooking device is arranged on the machine table and is used for receiving the noodles to be cooked and heating the noodles to be cooked into cooked noodles; the lower device is arranged on the machine table, is positioned on the adding surface side of the noodle boiling device and is used for inputting noodles to be boiled into the noodle boiling device; the finished product conveying device is arranged on the machine table, is positioned on the noodle outlet side of the noodle cooking device, and is used for receiving the cooked noodles output by the noodle cooking device and conveying the cooked noodles to a product outlet; the automatic noodle cooking machine further comprises a soup adding device and a feeding device, wherein the soup adding device and the feeding device are arranged on the machine table and distributed along the conveying direction of the finished product conveying device, and are used for adding soup and adding auxiliary materials to the cooked noodles before the cooked noodles are conveyed to the outlet.

Compared with the prior art, this application passes through following device to it waits to boil noodless to boil the input of face device, it treats to boil noodless heat treatment to boil the face device, boils to export finished product conveyer department after becoming cooked noodless thoroughly, again by finished product conveyer will cook the noodless and convey in proper order as required and add in hot water device and the feeding device, pass through at last the output of product mouth to realize automatic face of cooking.

In a preferred embodiment, the noodle-cooking device comprises: the upper edge of the noodle boiling pot is provided with a non-magnetic track; at least one moving assembly slidably disposed on an upper side of the non-magnetic track; the face basket assembly is connected with the motion assembly in a one-to-one rotating mode; at least one magnetic driving component which is arranged at the lower side of the non-magnetic track in a sliding way and is magnetically dragged with the moving component; the transmission chain is arranged around the periphery of the noodle cooker and is connected with the magnetic driving assembly; a power assembly in chain drive connection with the drive chain; the transmission chain works under the driving action of the power assembly, so that the magnetic driving assembly drives the moving assembly to move on the non-magnetic track under the traction of magnetic force.

In a preferred embodiment, the magnetic driving assembly comprises a magnetic driving part, wherein the upper end surface of the magnetic driving part is provided with a containing groove, a magnetic block and a mounting piece, and the mounting piece is positioned above the containing groove; the lower side surface of the mounting part is magnetically connected with the magnetic block; the magnetic block is located in the accommodating groove and has a rotating gap with the accommodating groove.

In a preferred embodiment, the magnetic driving assembly further comprises a connecting shaft and a movable sleeve, wherein the lower end of the connecting shaft is detachably connected with the transmission chain; the upper end of the movable sleeve is connected with the magnetic driving part, and the lower end of the movable sleeve is provided with a movable groove; the movable sleeve is sleeved outside the connecting shaft through the movable groove, and a movable gap is formed between the movable sleeve and the connecting shaft.

In a preferred embodiment, the nonmagnetic track has an out-of-plane position; the face basket assembly has a face boiling state and a face inverting state relative to the movement assembly; the lifting basket device is arranged between the noodle boiling device and the finished product conveying device and is arranged corresponding to the noodle outlet position; when the motion assembly moves to the noodle outlet position, the motion assembly triggers the basket lifting device to work, and the noodle basket assembly is switched from the noodle boiling state to the noodle inverting state under the action of the basket lifting device, so that cooked noodles are output to the finished product conveying device.

In a preferred embodiment, the basket lifting device comprises a fixed plate, a reset assembly, a mounting frame, a rotating piece, a rotating motor and a basket lifting rod, wherein the fixed plate is connected with the machine table; the fixed end of the resetting component is fixedly connected with the fixed plate, and the rotating end of the resetting component is fixedly connected with the mounting rack;

the mounting rack is provided with the rotating motor and the rotating piece, and the rotating piece and the rotating motor are respectively positioned on two sides of the reset assembly; the rotating piece enables the mounting frame to rotate relative to the fixed end of the resetting component under the triggering of the moving component.

In a preferred embodiment, the automatic noodle cooking machine further comprises a noodle bowl output device, wherein the noodle bowl output device is arranged corresponding to the product outlet and is used for outputting a noodle bowl into the finished product conveying device or pushing the noodle bowl filled with cooked noodles out of the product outlet;

the finished product conveying device is provided with a first conveying direction and a second conveying direction, the first conveying direction is from the noodle cooking device to the noodle bowl output device, and the second conveying direction is from the noodle bowl output device to the noodle cooking device.

In a preferred embodiment, the finished product conveying device is provided with a conveying module, and the conveying module moves along a first conveying direction or a second conveying direction and is used for receiving and conveying the noodle bowls to the noodle boiling device, the soup adding device, the feeding device and the discharging port.

In a preferred embodiment, the machine is divided into a first area, a second area and a third area, and the first area and the third area are respectively located on two opposite sides of the second area and are arranged in a close proximity manner; the first region, the second region and the third region are arranged in parallel; the underlying device is within the first region; the noodle boiling device, the soup adding device, the feeding device and the noodle bowl output device are all sequentially positioned in a second area; the product conveyor is within a third zone.

In a preferred embodiment, the lower device comprises a flour pocket separating mechanism, a noodle transferring mechanism and a conveying mechanism; the flour pocket separating mechanism is arranged corresponding to the soup adding device and the feeding device and is used for separating the lowest layer face pocket from the flour pocket stacking; the noodle transferring mechanism is arranged corresponding to the noodle boiling device and is used for inputting the noodles to be boiled in the noodle pocket into the noodle boiling device; the conveying mechanism is arranged between the flour pocket separating mechanism and the noodle transferring mechanism and used for moving the flour pockets of the flour pocket separating mechanism to the noodle transferring mechanism one by one.

For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without undue limitation to the invention. In the drawings:

FIG. 1 is a schematic perspective view of an automatic noodle cooker of the present application;

FIG. 2 is a top view of the automatic noodle maker of the present application;

FIG. 3 is a perspective view of the noodle cooking device of the present application;

FIG. 4 is a schematic illustration of the coupling of the drive train of the present application to the power assembly;

FIG. 5 is a schematic view of the motion assembly and magnetic drive assembly of the present application;

FIG. 6 is one of the schematic views of the mechanism of the present application;

FIG. 7 is a second schematic view of the mechanism of the present application;

fig. 8 is a third schematic view of the mechanism for inverting the surface of the present application.

Detailed Description

In order to better illustrate the present invention, the present invention is described in further detail below with reference to the accompanying drawings.

It should be understood that the embodiments described are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the embodiments in the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the present application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the claims that follow. In the description of the present application, it is to be understood that the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not necessarily used to describe a particular order or sequence, nor are they to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Further, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated object, indicating that there may be three relationships, for example, a and/or B, which may indicate: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Referring to fig. 1 to 8, the present application provides an automatic noodle cooking machine, which includes: a machine table 10; a noodle cooking device 20, which is arranged on the machine table 10 and is used for receiving the noodles to be cooked and heating the noodles to be cooked to obtain cooked noodles; the lower device 30 is arranged on the machine table 10, is positioned on the heating surface side of the noodle boiling device 20, and is used for inputting noodles to be boiled into the noodle boiling device 20; a finished product conveying device 40, which is arranged on the machine table 10 and is positioned on the side of the noodle outlet of the noodle cooking device 20, and is used for receiving the cooked noodles output by the noodle cooking device 20 and conveying the cooked noodles to a product outlet; the automatic noodle cooking machine further comprises a soup adding device 50 and a feeding device 60, wherein the soup adding device 50 and the feeding device 60 are arranged on the machine table 10 and distributed along the conveying direction of the finished product conveying device 40, and are used for adding soup and auxiliary materials to the cooked noodles before the cooked noodles are conveyed to the outlet.

Specifically, the following device 30 of the present application is responsible for inputting noodles to be cooked into the noodle cooking device 20, the noodle cooking device 20 has continuously heated hot water therein, the noodles to be cooked in the noodle cooking device 20 are heated, cooked into cooked noodles and then output to the finished product conveying device 40, the cooked noodles are conveyed into the soup adding device 50 and the feeding device 60 in sequence by the finished product conveying device 40 according to requirements, and finally output through the product outlet, thereby realizing automatic noodle cooking. The automatic noodle cooking machine of the present application is not limited to noodle cooking, and may be used for processing dumplings, wontons, and the like.

In one embodiment, the noodle-cooking device 20 comprises: the upper edge of the noodle boiling pot is provided with a non-magnetic track 201; at least one moving component 210, which is arranged on the upper side of the non-magnetic track 201 in a sliding way; at least one face basket assembly 220, which is connected with the motion assembly 210 in a one-to-one rotation manner; at least one magnetic driving component 230, which is slidably disposed on the lower side of the non-magnetic track 201 and magnetically dragged with the moving component 210; a transmission chain 240 surrounding the periphery of the noodle cooker, wherein the transmission chain 240 is connected with the magnetic driving assembly 230; a power assembly 250 in driving connection with the drive chain 240; the transmission chain 240 works under the driving action of the power assembly 250, so that the magnetic driving assembly 230 drives the moving assembly 210 to move on the non-magnetic track 201 under the magnetic traction.

Specifically, the flour basket assembly 220 is soaked in a flour boiling pot and contains noodles, the power assembly 250 is electrically operated to drive the transmission chain 240 to operate, when the transmission chain 240 operates, the magnetic driving assembly 230 is driven to operate synchronously, so that the magnetic driving assembly 230 rotates around the periphery of the flour boiling pot, and under the magnetic traction of the magnetic driving assembly 230, the moving assembly 210 moves synchronously on the non-magnetic track 201, so that the flour basket assembly 220 can move in the flour boiling pot, so that the flour basket assembly 220 can go to a specified position to carry noodles and pour noodles, and can simulate a flour boiling effect; in addition, when the moving assembly 210 needs to be replaced, cleaned or maintained, the moving assembly 210 can be directly pulled out, other parts do not need to be operated, and maintenance is convenient.

Further, the magnetic driving assembly 230 includes a magnetic driving part 231, which has an upper end surface provided with a receiving groove 2311, a magnetic block 2312 and a mounting part 2313, wherein the mounting part 2313 is located above the receiving groove 2311; the underside of said mount 2313 is magnetically coupled to said magnetic block 2312; the magnetic block 2312 is located in the accommodating groove 2311 and has a rotation gap with the accommodating groove 2311. The magnetic block 2312 of the present application is magnetically connected with the mounting member 2313, but not rigidly connected, so that during the movement of the moving assembly 210 and the magnetic driving assembly 230 of the present application, even if a turning position is encountered, the moving assembly 210 drives the magnetic block 2312 to perform a self-rotation movement in the receiving groove 2311, so that the turning of the moving assembly 210 becomes smooth.

Preferably, the magnetic driving assembly 230 further comprises a connecting shaft 2314 and a movable sleeve 2315, wherein the lower end of the connecting shaft 2314 is detachably connected with the transmission chain 240; the upper end of the movable sleeve 2315 is connected with the magnetic driving part 231, and the lower end of the movable sleeve 2315 is provided with a movable groove; the movable sleeve 2315 is sleeved outside the connecting shaft 2314 through the movable groove, and a movable gap is formed between the movable sleeve 2315 and the connecting shaft 2314. The magnetic driving assembly 230 of the present application is detachably connected to the transmission chain 240 through the connecting shaft 2314, so that the transmission chain 240 can drive the magnetic driving portion 231 to move when moving; moreover, due to the movable gap, the movable sleeve 2315 can rotate relative to the connecting shaft 2314; during the movement of the magnetic driving assembly 230, even if the magnetic driving assembly 230 encounters a turning position, the connecting shaft 2314 can rotate in the movable sleeve 2315, so that the turning of the magnetic driving assembly 230 becomes smooth, and the problem of jamming does not exist.

Specifically, the movable sleeve 2315 is internally provided with a movable groove, the aperture of the movable groove is larger than the diameter of the connecting shaft 2314, the lower end of the connecting shaft 2314 is provided with two elastic fork-opening portions, the two fork-opening portions are provided with mounting holes, and when the mounting holes are used for mounting and connecting with the transmission chain 240, the two fork-opening portions are elastic, so that the two fork-opening portions can be opened under the action of elasticity to be in abutting contact with the inner wall of the movable sleeve 2315, thereby preventing the movable sleeve 2315 from loosening and sliding downwards and not influencing the relative rotation of the movable sleeve 2315.

In one embodiment, the lower sides of a plurality of said motion assemblies 210 are slidably connected to the upper sides of said non-magnetic motion tracks; the upper sides of a plurality of the magnetic driving components 230 are connected with the lower sides of the non-magnetic moving tracks in a sliding mode. Specifically, the lower side of the moving component 210 and the upper side of the magnetic driving component 230 may be provided with a bull's eye bearing, and the sliding connection between the moving component 210 and the magnetic driving component and the non-magnetic moving track is realized by using a universal ball on the bull's eye bearing, so as to reduce friction and abnormal sound during the moving process.

In one embodiment, the nonmagnetic track 201 has an out-of-plane position; the basket assembly 220 has a cooked-face state and a reverse-face state relative to the motion assembly 210; a basket apparatus 70 disposed between the noodle boiling apparatus 20 and the finished product transport apparatus 40, the basket apparatus 70 being disposed in correspondence with the noodle exit position; when the motion assembly 210 is moved to the out-of-plane position, the motion assembly 210 triggers the basket apparatus 70 to operate, and the basket assembly 220 is switched from the cooked state to the inverted state by the basket apparatus 70, so that the cooked noodles are output onto the finished transport apparatus 40.

Specifically, the movement assembly 210 runs in the non-magnetic track 201, when all noodles in the noodle cooker are cooked, the movement assembly 210 moves to the noodle outlet position, and the movement assembly 210 triggers the basket assembly to operate, so that the noodle basket assembly 220 is switched from the noodle cooking state to the noodle inverting state under the action of the basket assembly, and the noodle inverting operation is completed.

Further, the basket lifting device 70 comprises a fixing plate 71 connected to the machine platform 10, a reset component 72, a mounting frame 73, a rotating component 74, a rotating motor 75 and a basket rod 76 rotatably connected to the rotating motor 75; the fixed end of the resetting component 72 is fixedly connected with the fixing plate 71, and the rotating end of the resetting component 72 is fixedly connected with the mounting frame 73; the mounting bracket 73 is provided with the rotating motor 75 and the rotating piece 74, and the rotating piece 74 and the rotating motor 75 are respectively positioned at two sides of the resetting component 72; the rotating member 74 rotates the mounting bracket 73 relative to the fixed end of the reset assembly 72 under the trigger of the moving assembly 210.

In one embodiment, the basket apparatus 70 comprises a guide surface member 77, the guide surface member 77 is disposed obliquely from top to bottom, and the guide surface member 77 is fixedly connected to the upper side of the mounting frame 73; when the motion assembly 210 is moved to the out-facing position and the pack assembly 220 is in the inverted position, the pack assembly 220 abuts the upper end of the guide 77. The instant application utilizes the above-mentioned manner to pour the cooked noodles of the noodle basket assembly 220 into the noodle guide 77, and then guide the noodles into the noodle bowl of the product conveyor 40 via the noodle guide 77.

The dough pouring process is specifically that a plurality of the motion assemblies 210 run in the non-magnetic track 201, the dough basket assemblies 220 connected with the motion assemblies 210 in a rotating mode run in the dough cooker, and after the noodles of all the dough basket assemblies 220 in the dough cooker are cooked, the motion assembly 210 where the dough basket assembly 220 needing to be taken out of the dough cooker is located moves to a dough outlet position;

during the movement of the motion assembly 210 to the out-of-plane position, the rotation element 74 moves along the triggering surface 211 of the motion assembly 210, which is near the outer side, into the gap 212, so as to gradually rotate the entire mounting bracket 73 relative to the reset assembly 72, thereby rotating the basket lifting rod 76 to the lifting side of the motion assembly 210 in preparation for lifting the engagement portion 221 of the face basket assembly 220;

when the basket rod 76 rotates to the lifting side of the motion assembly 210, the sensing switch arranged on the mounting rack 73 senses the sensing piece and then generates an in-position signal and sends the in-position signal to the control module, and the control module receives and generates a motor working signal and a shutdown signal according to the in-position signal; wherein the shutdown signal is sent to the driving motor of the power assembly 250 to shutdown, so as to control the movement assembly 210 to stop moving, and at the same time, the motor operation signal is sent to the rotating motor 75 to drive the rotating motor 75 to operate, so that the basket lifting rod 76 lifts the noodle basket assembly 220, and the cooked noodles are poured into the noodle guide 77 and then are guided into the noodle bowl via the noodle guide 77;

after the face-reversing operation is completed, the rotating motor 75 drives the lifting basket bar 76 to reposition, so that the face basket assembly 220 is switched from the face-reversing state to the face-boiling state by the lifting basket bar 76; the driving motor is restarted, the transmission chain 240 moves, and the moving assembly 210 continues to move on the non-magnetic track 201, so that the rotating element 74 is released from the notch 212, and the mounting frame 73 is switched from the working position to the reset position under the action of the reset assembly 72, so as to perform the next round of operation.

Through the mode, the noodle in the noodle cooker can be transferred to the noodle bowl without using a manipulator.

In addition, the transmission chain 240 is used to surround the periphery of the noodle cooker and is matched with the power assembly 250, so that the noodle cooker is not limited to be circular any more while the space on the outer periphery side of the transmission chain 240 is reasonably utilized, and the universality is enhanced.

In one embodiment, the automatic noodle cooker further comprises a noodle bowl output device 80, wherein the noodle bowl output device 80 is arranged corresponding to the product outlet and is used for outputting a noodle bowl into the finished product conveying device 40 or pushing out the noodle bowl filled with cooked noodles to the product outlet; the product conveying device 40 has a first conveying direction from the noodle cooking device 20 to the noodle bowl output device 80, and a second conveying direction from the noodle bowl output device 80 to the noodle cooking device 20.

In one embodiment, the finished product conveyor 40 is provided with a conveying module moving in a first conveying direction or a second conveying direction for receiving and conveying the noodle bowls to the noodle boiling device 20, the soup adding device 50, the feeding device 60 and the discharge port.

This application conveys the noodle bowl one by one through noodle bowl output device 80 on the finished product conveyer 40, borrow by the module of transporting on the finished product conveyer 40 transports the noodle bowl along second direction of transfer and boils a device 20 department, and the receipt has boiled noodless, again according to the demand, moves one by one along first direction of transfer and adds hot water device 50 and feeding device 60 department, adds as required to noodle hot water and auxiliary material.

In one embodiment, the machine 10 is divided into a first area, a second area and a third area, and the first area and the third area are respectively located on two opposite sides of the second area and are arranged in close proximity; the first region, the second region and the third region are arranged in parallel; the lower device 30 is located in the first region; the noodle boiling device 20, the soup adding device 50, the feeding device 60 and the noodle bowl output device 80 are all sequentially positioned in a second area; the product conveyor 40 is in a third zone.

The noodle cooking device 20, the lower device 30, the finished product conveying device 40, the soup adding device 50, the feeding device 60 and the noodle bowl output device 80 are reasonably divided into areas through the arrangement of the first area, the second area and the third area, so that the devices can be reasonably integrated on the same equipment in combination with a noodle cooking process.

In one embodiment, the lower device 30 includes a pocket separating mechanism 310, a noodle transferring mechanism 320, and a conveying mechanism 330; the flour pocket separating mechanism 310 is arranged corresponding to the soup adding device 50 and the feeding device 60 and is used for separating the lowest layer of flour pocket from the flour pocket stacking; the noodle transferring mechanism 320 is arranged corresponding to the noodle boiling device 20 and is used for inputting the noodles to be boiled in the noodle pocket into the noodle boiling device 20; the conveying mechanism 330 is disposed between the dough pocket separating mechanism 310 and the noodle transferring mechanism 320, and is configured to move the dough pockets of the dough pocket separating mechanism 310 one by one to the noodle transferring mechanism 320.

Specifically, the bread separating mechanism 310 has a plurality of flour containers arranged in a stacked manner; the two oppositely arranged separating assemblies are arranged on the base; the two separating assemblies are respectively arranged on two opposite sides of the noodle containing container at the lowermost layer and have a mutually converted separating state and a locking state; the jacking device is positioned below the flour containing container; two driving components are arranged on two opposite sides of the jacking device; when the jacking device rises and is positioned at a triggering position, the two driving assemblies respectively drive the two separating assemblies to be switched from a locking state to a separating state; when the jacking device descends, the two separating assemblies are switched from the separating state to the locking state.

Specifically, the stand is provided with a plurality of flour containing containers which are arranged in a stacked mode, two opposite sides of the lowest flour containing container are respectively provided with a separating assembly, and the two separating assemblies are arranged oppositely; when the two separating assemblies are in a locking state, the two separating assemblies abut against the noodle containing containers and are used for supporting the plurality of noodle containing containers; when the lowest face container needs to be separated, the jacking device makes ascending movement until the lifting device stops ascending when reaching the trigger position, at the moment, the two driving assemblies arranged on the two opposite sides of the jacking device respectively drive the two separating assemblies to be switched from a locking state to a separating state, the two separating assemblies are separated from the face container and do not bear and fix the lowest face container, and the lowest face container falls onto the jacking device after being separated; and finally, when the jacking device descends, the two separating assemblies are switched from the separated state to the locked state to support and fix the face container on the penultimate layer, so that the separation of the face container on the lowermost layer is completed. This application can accomplish the separation through above-mentioned mode, and whole journey does not need the operation of people's hand, jacking device's elevating movement can realize automaticly according to signal control.

In addition, the pannier separating mechanism 310 may have other structures, which are not limited in this application.

In one embodiment, the feeding device 60 can be a motor combined with a noodle throwing spoon, and the noodle throwing spoon is driven to feed the noodles contained in the noodle containing pocket into the noodle basket assembly 220 by the aid of the motor which is powered on.

In the description of the present invention, it should be understood that the terms "vertical", "horizontal", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the scope of the present invention.

If the terms "first," "second," etc. are used herein to define parts, those skilled in the art will recognize that: the use of "first" and "second" is merely for convenience in describing the invention and to simplify the description, and the words are not intended to have a special meaning unless otherwise stated.

The present invention is not limited to the above embodiment, and if various modifications or variations of the present invention are not departed from the spirit and scope of the present invention, provided they fall within the scope of the claims and the equivalent technical scope of the present invention, then the present invention is also intended to include such modifications and variations.

Claims (10)

1. An automatic noodle cooking machine, comprising:

a machine platform;

the noodle cooking device is arranged on the machine table and is used for receiving the noodles to be cooked and heating the noodles to be cooked into cooked noodles; the lower device is arranged on the machine platform, is positioned on the heating surface side of the noodle boiling device and is used for inputting noodles to be boiled into the noodle boiling device;

the finished product conveying device is arranged on the machine table, is positioned on the noodle outlet side of the noodle cooking device, and is used for receiving the cooked noodles output by the noodle cooking device and conveying the cooked noodles to a product outlet;

the automatic noodle cooking machine further comprises a soup adding device and a feeding device, wherein the soup adding device and the feeding device are arranged on the machine table and distributed along the conveying direction of the finished product conveying device, and are used for adding soup and adding auxiliary materials to the cooked noodles before the cooked noodles are conveyed to the outlet.

2. The automatic noodle cooking device of claim 1, wherein the noodle cooking means comprises:

the upper edge of the noodle boiling pot is provided with a non-magnetic track;

at least one moving assembly slidably disposed on an upper side of the nonmagnetic track;

the face basket assembly is connected with the motion assembly in a one-to-one rotating mode;

at least one magnetic driving component which is arranged at the lower side of the non-magnetic track in a sliding way and is magnetically dragged with the moving component;

the transmission chain is arranged around the periphery of the noodle cooker and is connected with the magnetic driving assembly;

a power assembly in chain drive connection with the drive chain;

the transmission chain works under the driving action of the power assembly, so that the magnetic driving assembly drives the moving assembly to move on the non-magnetic track under the traction of magnetic force.

3. The automatic noodle cooking machine according to claim 2, wherein:

the magnetic driving assembly comprises a magnetic driving part, the upper end surface of the magnetic driving part is provided with an accommodating groove, a magnetic block and an installation part, and the installation part is positioned above the accommodating groove; the lower side surface of the mounting part is magnetically connected with the magnetic block; the magnetic block is located in the accommodating groove, and a rotating gap is formed between the magnetic block and the accommodating groove.

4. The automatic noodle cooking machine according to claim 3, wherein:

the magnetic driving component also comprises a connecting shaft and a movable sleeve, wherein,

the lower end of the connecting shaft is detachably connected with the transmission chain;

the upper end of the movable sleeve is connected with the magnetic driving part, and the lower end of the movable sleeve is provided with a movable groove; the movable sleeve is sleeved outside the connecting shaft through the movable groove, and a movable gap is formed between the movable sleeve and the connecting shaft.

5. The automatic noodle cooking machine according to claim 2, wherein:

the non-magnetic track has a face-out position;

the face basket assembly has a face boiling state and a face inverting state relative to the movement assembly;

the automatic noodle cooking machine also comprises a basket lifting device which is arranged between the noodle cooking device and the finished product conveying device, and the basket lifting device is arranged corresponding to the noodle outlet position;

when the motion assembly moves to the noodle outlet position, the motion assembly triggers the basket lifting device to work, and the noodle basket assembly is switched from the noodle boiling state to the noodle inverting state under the action of the basket lifting device, so that cooked noodles are output to the finished product conveying device.

6. The automatic noodle cooking machine according to claim 5, wherein:

the basket lifting device comprises a fixed plate, a reset assembly, a mounting frame, a rotating part, a rotating motor and a basket lifting rod, wherein the fixed plate is connected with the machine table; wherein the content of the first and second substances,

the fixed end of the resetting component is fixedly connected with the fixed plate, and the rotating end of the resetting component is fixedly connected with the mounting rack;

the mounting rack is provided with the rotating motor and the rotating piece, and the rotating piece and the rotating motor are respectively positioned on two sides of the reset assembly; the rotating piece enables the mounting frame to rotate relative to the fixed end of the resetting component under the triggering of the moving component.

7. The automatic noodle cooking machine according to claim 1, wherein:

the automatic noodle cooking machine also comprises a noodle bowl output device, wherein the noodle bowl output device is arranged corresponding to the product outlet and is used for outputting a noodle bowl into the finished product conveying device or pushing the noodle bowl filled with cooked noodles out of the product outlet;

the finished product conveying device is provided with a first conveying direction and a second conveying direction, the first conveying direction is from the noodle boiling device to the noodle bowl output device, and the second conveying direction is from the noodle bowl output device to the noodle boiling device.

8. The automatic noodle cooker according to claim 7, wherein:

and the finished product conveying device is provided with a conveying module which moves along a first conveying direction or a second conveying direction and is used for receiving and conveying the noodle bowls to the noodle boiling device, the soup adding device, the feeding device and the discharge port.

9. The automatic noodle cooker according to claim 7, wherein:

the machine table is divided into a first area, a second area and a third area, and the first area and the third area are respectively positioned at two opposite sides of the second area and are arranged in a close proximity mode; the first region, the second region and the third region are arranged in parallel with each other;

the lower device is located in the first area;

the noodle boiling device, the soup adding device, the feeding device and the noodle bowl output device are all sequentially positioned in a second area;

the product conveyor is within a third zone.

10. The automatic noodle cooker according to claim 8, wherein:

the lower device comprises a flour pocket separating mechanism, a noodle transferring mechanism and a conveying mechanism;

the flour pocket separating mechanism is arranged corresponding to the soup adding device and the feeding device and is used for separating the lowest layer face pocket from the flour pocket stacking;

the noodle transferring mechanism is arranged corresponding to the noodle boiling device and is used for inputting the noodles to be boiled in the noodle pocket into the noodle boiling device;

the conveying mechanism is arranged between the flour pocket separating mechanism and the noodle transferring mechanism and used for moving the flour pockets of the flour pocket separating mechanism to the noodle transferring mechanism one by one.

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