CN220023998U - Noodle box, noodle machine and intelligent meal making equipment - Google Patents

Abstract

The utility model discloses a noodle falling box, a noodle machine and intelligent meal making equipment, which are applied to the noodle machine, wherein the noodle falling box comprises a box body and a scraping component; the box body is provided with a storage cavity, and the bottom part of the storage cavity penetrates through to form a discharge hole; according to the technical scheme, when the falling surface box is arranged below, the rotating shafts are driven to rotate by external driving force, the transmission parts are driven by the transmission parts to rotate, the scraping plates rotate around the two rotating shafts under the driving of the transmission parts at the two sides so as to scrape the flour in the box to a position close to the discharge hole, the flour in the box can be more comprehensively discharged from the discharge hole, and the problem that more accumulated flour at the bottom in the box cannot be discharged, and further the flour is deteriorated due to overlong time is avoided; in addition, the two ends of the scraping plate are respectively connected with the two transmission parts, so that larger resistance can be born in the scraping process, and the structure is stable and reliable.

Description

Noodle box, noodle machine and intelligent meal making equipment

Technical Field

The utility model relates to the technical field of intelligent meal selling machines, in particular to a flour falling box, a noodle machine and intelligent meal making equipment.

Background

The intelligent meal making equipment is provided with a flour falling box, a flour mixing device and a flour pressing device, flour is stored in the flour falling box, the flour mixing device is arranged below the flour falling box and used for receiving the flour falling from the flour falling box, mixing the flour with water, conveying the well-mixed flour to the flour pressing device and pressing the well-mixed flour into noodles, and finally cooking the well-mixed flour to provide the users for eating.

However, in the existing intelligent meal making equipment, after the surface of the flour falling box is finished, a large amount of flour is adhered to the corners, the bottom wall and even the side walls in the box body, and the residual quantity of the flour is large.

Disclosure of Invention

The utility model mainly aims to provide a flour falling box which aims at reducing the residual quantity of flour in flour falling.

In order to achieve the above purpose, the present utility model provides a noodle falling box, which is applied to a noodle machine, wherein the noodle falling box comprises a box body and a scraping component; wherein,

the box body is provided with a storage cavity, and the bottom part of the storage cavity penetrates through to form a discharge hole;

the scraping assembly comprises two rotating shafts, two transmission parts and a scraping plate, the two rotating shafts are rotatably arranged in the storage cavity, the two rotating shafts extend along the length direction, the two rotating shafts are arranged at intervals in the width direction, and the discharge port is arranged on the same side of the two rotating shafts in the width direction;

the two rotating shafts are respectively provided with a transmission part at two ends in the length direction, the two transmission parts are respectively in annular arrangement, the two transmission parts are respectively matched with the two transmission parts of the rotating shafts at the corresponding sides, the scraping plates are arranged in an extending mode along the length direction, two ends of the scraping plates are respectively connected with the transmission parts at the corresponding sides, and the scraping plates do circular motion along with the two transmission parts.

In an embodiment of the present utility model, each of the transmission parts includes a sprocket, each of the transmission members includes a chain, each of the chains cooperates with the sprocket on the corresponding side of the two rotation shafts, and each of the chains performs a circular motion under the drive of the sprocket on the corresponding side of the two rotation shafts.

In an embodiment of the present utility model, each chain includes a plurality of links connected in sequence, each link includes two link plates disposed opposite to each other and two connecting members connecting the two link plates, and both ends of the scraper are fixedly connected with a link plate of one link in the chain on the corresponding side, respectively.

In an embodiment of the present utility model, two ends of the scraping plate are respectively integrally formed with the link plates in the corresponding links.

In an embodiment of the utility model, the scraper is provided with a first side and a second side which are oppositely arranged in the movement direction of the transmission piece, and the first side and/or the second side of the scraper are/is bent towards the side where the two rotation shafts are located so as to form a scraper part.

In an embodiment of the utility model, a silica gel layer is disposed on a surface of the scraping plate facing away from the two rotating shafts.

In an embodiment of the utility model, the flour falling box further comprises a conveying device, wherein the conveying device is at least partially installed in the storage cavity, and the conveying device is used for conveying flour in the storage cavity to the discharge hole.

In an embodiment of the present utility model, the conveying device includes a first auger and a second auger sequentially disposed along the length direction, where the first auger and the second auger are located on the same side of the two rotation shafts in the width direction, one end of the first auger is connected with one end of the second auger, the other end of the first auger is rotatably connected with a cavity wall of the storage cavity, the other end of the second auger is rotatably connected with the cavity wall of the storage cavity, the discharge port is located at a connection position of the first auger and the second auger, and the first auger and the second auger are opposite in rotation direction and are both used for conveying flour in the storage cavity like the discharge port.

In an embodiment of the present utility model, a cavity bottom of the storage cavity is concavely provided with a conveying groove, the conveying groove is extended along the length direction, a bottom portion of the conveying groove penetrates through to form the discharge hole, and the first auger and the second auger are arranged in the conveying groove.

In an embodiment of the utility model, the falling box further comprises a cover body, the cross section of the cover body is in a U-shaped arrangement, the cover body is fixedly connected with the cavity bottom of the storage cavity, the cover body covers the discharge hole, a mounting channel extending along the length direction is formed between the cover body and the cavity bottom of the storage cavity in a surrounding mode, and the first auger and the second auger extend into the mounting channel and are connected.

In an embodiment of the utility model, the flour falling box comprises two groups of scraping assemblies, the two scraping assemblies are both arranged in the storage cavity, the two groups of scraping assemblies are positioned at two sides of the discharge hole in the width direction, and the two scraping assemblies are used for scraping flour in the storage cavity to the discharge hole.

The utility model also provides a noodle machine, which comprises a dough kneading device, a dough pressing device and a dough falling box, wherein the dough falling box is used for conveying flour into the dough kneading device;

the falling box comprises a box body and a scraping assembly; wherein,

the box body is provided with a storage cavity, and the bottom part of the storage cavity penetrates through to form a discharge hole;

the scraping assembly comprises two rotating shafts, two transmission parts and a scraping plate, the two rotating shafts are rotatably arranged in the storage cavity, the two rotating shafts extend along the length direction, the two rotating shafts are arranged at intervals in the width direction, and the discharge port is arranged on the same side of the two rotating shafts in the width direction;

the two rotating shafts are respectively provided with a transmission part at two ends in the length direction, the two transmission parts are respectively in annular arrangement, the two transmission parts are respectively matched with the two transmission parts of the rotating shafts at the corresponding sides, the scraping plates are arranged in an extending mode along the length direction, two ends of the scraping plates are respectively connected with the transmission parts at the corresponding sides, and the scraping plates do circular motion along with the two transmission parts.

The utility model also provides intelligent meal making equipment, which comprises the noodle machine.

When the flour falling box is arranged below, the rotating shafts are rotated under the action of external driving force, the transmission parts are driven to rotate by the transmission parts, and the scraping plates are driven by the transmission parts at two sides to rotate around the two rotating shafts so as to scrape flour in the box body to a position close to the discharge hole.

According to the scheme, the flour in the box body can be scraped to the discharge port under the scraping action of the scraping plate, so that the flour can fall from the discharge port conveniently, and smooth discharge is ensured; in addition, the flour in the box body can be more comprehensively discharged from the discharge hole, so that the problem that the flour is deteriorated due to overlong time due to the fact that more accumulated flour at the bottom of the box body cannot be discharged is avoided; in addition, the two ends of the scraping plate are respectively connected with the two transmission parts, so that larger resistance can be born in the scraping process, and the structure is stable and reliable.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a structure of an embodiment of a drop box according to the present utility model;

FIG. 2 is an exploded view of one embodiment of a drop box of the present utility model;

FIG. 3 is a schematic view of a scraping assembly in a drop box according to the present utility model;

FIG. 4 is an enlarged view of FIG. 3 at A;

fig. 5 is a schematic structural view of a conveying device in the drop-face box of the present utility model.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Fall box	1222	Chain plate
11	Box body	1223	Connecting piece
				113	Storage cavity	123	Scraper blade
114	Discharge port	1231	First side
				115	Conveying groove	1232	Second side
12	Scraping assembly	1233	Scraping surface
				121	Rotating shaft	1234	Silica gel layer
1210	Transmission part	13	Conveying device
				1211	Sprocket wheel	131	First auger
122	Transmission piece	132	Second auger
				1220	Chain	14	Cover body
1221	Chain link	141	Mounting channel

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

A noodle falling box 100 is applied to a noodle machine, wherein the noodle falling box 100 comprises a box body 11 and a scraping assembly 12; wherein, the box body 11 has a length direction and a width direction, the box body 11 is provided with a storage cavity 113, and the bottom part of the storage cavity 113 is penetrated to form a discharge hole 114; the scraping assembly 12 comprises two rotating shafts 121, two transmission parts 122 and a scraping plate 123, wherein the two rotating shafts 121 are rotatably arranged in the storage cavity 113, the two rotating shafts 121 extend along the length direction, the two rotating shafts 121 are arranged at intervals in the width direction, and the discharge port 114 is arranged on the same side of the two rotating shafts 121 in the width direction; the two ends of the two rotating shafts 121 in the length direction are provided with transmission parts 1210, the two transmission parts 122 are in annular arrangement, the two transmission parts 122 are respectively matched with the transmission parts 1210 of the two rotating shafts 121 on the corresponding sides, the scraping plates 123 extend and are arranged along the length direction, the two ends of the scraping plates 123 are respectively connected with the transmission parts 122 on the corresponding sides, and the scraping plates 123 do circular motion along with the two transmission parts 122.

The box 11 may be made of plastic, metal, glass, ceramic, etc., and the box 11 is generally square to facilitate scraping flour toward the outlet. The extending direction of the long side of the box 11 corresponds to the length direction, and the extending direction of the wide side of the box 11 corresponds to the width direction, however, the box 11 may also be cylindrical, polygonal, or the like, and the length direction and the width direction of the box 11 are freely defined, and the material and the shape of the box 11 are not specifically limited.

The rotation shaft 121 may be driven by a motor, and an output shaft of the motor is coaxially connected with one end of the rotation shaft 121, or may be coaxially fixed, or may be driven by a transmission mechanism such as a gear mechanism or a sprocket 1211 mechanism, and the rotation shaft 121 may be driven by manpower, for example, one end of the rotation shaft 121 extends out of the case 11, and a user fixes the rotation shaft 121 via a rocker and swings the rocker to drive the rotation shaft 121.

The transmission portion 1210 of the rotation shaft 121 has various structures, for example, the transmission portion 1210 is a sprocket 1211, the transmission member 122 is correspondingly provided as a chain 1220 matched with the sprocket 1211, for example, the transmission portion 1210 is a belt pulley, the transmission member 122 is correspondingly provided as a belt matched with the belt pulley, and the specific structures of the transmission portion 1210 and the transmission member 122 are numerous and are not listed herein.

The scraping plate 123 may be made of metal, plastic or other materials, the scraping plate 123 may be detachably connected with the transmission member 122, so that the scraping plate 123 can be cleaned after being detached, the residual flour on the surface of the scraping plate 123 is removed, the scraping plate 123 may be detachably connected with the transmission member 122, for example, integrally formed, welded or the like, and the method is not particularly limited.

When the flour falling box 100 in the utility model is used for the lower surface, the rotating shafts 121 are rotated under the action of external driving force, the transmission parts 1210 drive the transmission parts 122 to rotate, and the scraping plates 123 are driven by the transmission parts 122 at the two sides to rotate around the two rotating shafts 121 so as to scrape the flour in the box body 11 to a position close to the discharge hole 114.

According to the scheme, flour in the box body 11 can be scraped to the discharge port 114 under the scraping action of the scraping plate 123, so that the flour can conveniently fall from the discharge port 114, and smooth discharge is ensured; in addition, the flour in the box body 11 can be more comprehensively discharged from the discharge hole 114, so that the problem that the flour surface is deteriorated due to overlong time due to the fact that more accumulated flour in the bottom of the box body 11 cannot be discharged is avoided; in addition, the two ends of the scraping plate 123 are respectively connected with the two transmission parts 122, so that larger resistance can be born in the scraping process, and the structure is stable and reliable.

In some embodiments of the present utility model, each transmission portion 1210 includes a pulley, and each transmission member 122 includes a belt, and each belt is engaged with the pulley on the corresponding side of the two rotating shafts 121, and each belt moves circumferentially under the driving of the pulley on the corresponding side of the two rotating shafts 121. So set up, when scraper blade 123 receives great resistance, the belt slips with the belt pulley to can avoid the motor overload, play the effect of protection motor.

In other embodiments of the present utility model, each transmission portion 1210 includes a sprocket 1211, each transmission member 122 includes a chain 1220, and each chain 1220 cooperates with the sprocket 1211 on the corresponding side of the two rotating shafts 121, and each chain 1220 moves circumferentially under the drive of the sprocket 1211 on the corresponding side of the two rotating shafts 121. So set up, drive chain 1220 through sprocket 1211 rotates, and the structure reliability is high, and the maximum load that can bear is higher.

The chain 1220 includes a plurality of links 1221 connected in sequence, each link 1221 includes two link plates 1222 disposed opposite to each other and two connecting members 1223 connecting the two link plates 1222, and the blade 123 may be connected to the link plates 1222 of the link 1221 or may be connected to the connecting members 1223, and the strength of connection with the blade 123 may be higher considering that the link plates 1222 have a larger volume than the link plates 1221, so that in some embodiments of the present utility model, both ends of the blade 123 are fixedly connected to the link plates 1222 of one link 1221 of the chain 1220 on the corresponding side, respectively.

Here, the blade 123 may be connected to the plate surface of the link plate 1222 at both ends, or may be connected to the side surface of the link plate 1222, which is not particularly limited.

In some embodiments of the present utility model, the two ends of the blade 123 are each integrally formed with a link plate 1222 in a corresponding link 1221. In this way, the connection strength between the scraping plate 123 and the chain 1220 is higher, and the fracture of the connection part between the scraping plate 123 and the chain 1220 when the scraping plate 123 is blocked is avoided.

Further, in some embodiments of the present utility model, the scraper 123 has a first side 1231 and a second side 1232 opposite to each other in the moving direction of the driving member 122, and the first side 1231 and/or the second side 1232 of the scraper 123 are bent toward the sides of the two rotating shafts 121 to form the scraping surface portion 1233. So set up, through the shaving area of shaving face 1233 increase scraper 123, improve shaving efficiency.

In order to make the scraper 123 scrape the flour in the box 11 to the vicinity of the discharge port 114 more comprehensively, the movement track of the scraper 123 needs to be as close to the bottom wall of the box 11 as possible, when the scraper 123 is far away from the bottom wall of the box 11, the flour out of the flour falling box 100 is not comprehensive enough, when the scraper 123 is close to the bottom wall of the box 11, the required processing precision requirement is high, and the scraper 123 and the bottom wall of the box 11 are likely to scrape each other to generate friction due to the processing error problem, so that noise is caused. Like this scraper blade 123 is at pivoted in-process, and silica gel layer 1234 can laminate with the diapire of box body 11, and more comprehensive scraping surface to avoid scraper blade 123 and box body 11 wearing and tearing mutually and the problem that the noise produced.

Considering that the flour falls down from the discharge port 114 under the self-gravity of the flour after the scraping assembly 12 scrapes the flour near the discharge port 114, the flour may form a block and cause the discharge port 114 to be blocked, in some embodiments of the present utility model, the flour-falling box 100 further includes a conveying device 13, at least partially installed in the storage cavity 113, and the conveying device 13 is used for conveying the flour in the storage cavity 113 to the discharge port 114. So set up, scrape material subassembly 12 after scraping the flour near discharge gate 114, conveyor 13 cooperation is with the flour from the storage chamber 113 in to the discharge gate 114, has guaranteed that the ejection of compact is stable unblocked.

The above-mentioned conveyor 13 has various structures, for example, this conveyor 13 includes the conveyer belt, and the diapire of box body 11 runs through there is the installation passageway, and the conveyer belt cooperation is installed in the installation passageway and is left discharge gate 114 in the one end of conveyor 13's direction of delivery, and scraper is scraping the flour to the conveyer belt to carry flour to discharge gate 114 by the conveyer belt, and when the flour piece was in discharge gate 114 department, the conveyer belt was pressed with the inner wall of box body 11 and is acted on the flour piece and crushed it to make flour free fall by discharge gate 114.

Further, in order to make the discharging speed of the drop box 100 more uniform and stable, in some embodiments of the present utility model, the conveying device 13 includes a first auger 131 and a second auger 132 sequentially disposed along a length direction, the first auger 131 and the second auger 132 are located on the same side of the two rotation shafts 121 in a width direction, one end of the first auger 131 is connected with one end of the second auger 132, the other end of the first auger 131 is rotatably connected with a cavity wall of the storage cavity 113, the other end of the second auger 132 is rotatably connected with a cavity wall of the storage cavity 113, the discharging hole 114 is located at a connection position of the first auger 131 and the second auger 132, and the first auger 131 and the second auger 132 are opposite in rotation direction and are both used for conveying flour in the storage cavity 113 like the discharging hole 114.

Through above-mentioned scheme, scrape material subassembly 12 after scraping enough flour near discharge gate 114, first auger 131 and second auger 132 rotate, and the direction of delivery of first auger 131 and second auger 132 is opposite, and the hookup location of first auger 131 and second auger 132 is located discharge gate 114 department, first auger 131 and second auger 132 carry the flour to discharge gate 114 department, thereby make the flour can fall down from discharge gate 114 evenly, and first auger 131 and second auger 132 can also grind the flour piece in the transportation process, avoid discharge gate 114 to block up.

Considering that the amount of flour around the first auger 131 and the second auger 132 is small, the flour is accumulated between the first auger 131 and the second auger 132 and the scraping assembly 12, and residues are caused, therefore, in some embodiments of the present utility model, a conveying groove 115 is concavely formed at the bottom of the storage cavity 113, the conveying groove 115 is extended along the length direction, a discharge hole 114 is formed through a bottom portion of the conveying groove 115, and the first auger 131 and the second auger 132 are disposed in the conveying groove 115. So set up, scrape material subassembly 12 can be completely with the flour scrape into conveyer trough 115 in to carry to discharge gate 114 by first auger 131 and second auger 132, avoided the emergence of above-mentioned flour residue problem.

Further, in some embodiments of the present utility model, the drop box 100 further includes a cover 14, the cross section of the cover 14 is in a U-shape, the cover 14 is fixedly connected with the bottom of the storage cavity 113, the cover 14 covers the discharge hole 114, a mounting channel 141 extending along the length direction is formed between the cover 14 and the bottom of the storage cavity 113, and the first auger 131 and the second auger 132 extend into the mounting channel and are connected.

Through the above scheme, flour needs to enter the conveying groove 115 from two sides of the cover body 14, is conveyed to the position, below the cover body 14, of the conveying groove 115 by the first auger 131 and the second auger 132, and falls down from the discharge hole 114, so that the problem that the discharging speed of the flour falling box 100 is reduced along with the reduction of the flour amount in the box body 11 due to the fact that the flour above the discharge hole 114 directly bypasses the connection part of the first auger 131 and the second auger 132 and is discharged from the discharge hole 114 can be avoided, and the discharging speed of the flour falling box 100 is more uniform.

In some embodiments of the present utility model, the axes of the first auger 131 and the second auger 132 extend along the length direction, and the scraping assembly 12 is provided with two scraping assemblies respectively located at two sides of the first auger 131 and the second auger 132 in the width direction. So arranged that, in this way,

in an embodiment of the present utility model, the drop surface box 100 includes two sets of scraping assemblies 12, the two scraping assemblies 12 are both installed in the storage cavity 113, the two sets of scraping assemblies 12 are located at two sides of the discharge port 114 in the width direction, and the two scraping assemblies 12 are used for scraping the flour in the storage cavity 113 toward the discharge port 114. So set up, the powder is scraped to the position close to discharge gate 114 by two scraping assemblies 1212, scrapes the material efficiency higher.

The utility model also provides a noodle machine, which comprises a dough kneading device, a dough pressing device and a dough dropping box 100, wherein the dough dropping box 100 is used for conveying flour into the dough kneading device.

In some embodiments of the present utility model, the dough mixing device is provided with a feed inlet and a dough outlet, and the dough mixing device is further provided with a dough mixing cavity communicated with the feed inlet and the dough outlet, wherein the feed inlet is in butt joint with the discharge port 114 so as to receive flour falling into the dough box 100. The water pipe is fixedly arranged on the outer surface of the dough kneading device and extends into the dough kneading cavity, water and flour with preset proportions are respectively added into the dough kneading cavity through the dough falling box 100 and the water pipe, and dough is formed through processing of the dough kneading device so as to facilitate subsequent processing. The feeding end of the dough extruding device is in butt joint with the dough outlet, and the dough extruding device is used for receiving the dough processed by the dough mixing device and extruding the dough into noodles.

The utility model also provides intelligent meal making equipment, which comprises a noodle machine, wherein the intelligent meal making equipment can be used for making raw noodles and cooked food, and in some embodiments of the utility model, the intelligent meal making equipment further comprises a shell, a lower bowl device, a lower food material device, a lower seasoning device, a heating device and a belt conveying device, wherein the lower bowl device, the lower food material device, the lower seasoning device, the heating device and the belt conveying device are arranged in the shell, the belt conveying device is provided with a lower bowl station, a lower seasoning station and a heating station, the lower bowl device is used for making noodles in the bowl at the lower food material station, the lower seasoning device is used for seasoning in the bowl at the lower seasoning station, and the heating device is used for heating food materials in the bowl at the heating station.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. A noodle falling box, which is applied to a noodle machine, and is characterized by comprising a box body and a scraping component; wherein,

the box body is provided with a storage cavity, and the bottom part of the storage cavity penetrates through to form a discharge hole;

the scraping assembly comprises two rotating shafts, two transmission parts and a scraping plate, the two rotating shafts are rotatably arranged in the storage cavity, the two rotating shafts extend along the length direction, the two rotating shafts are arranged at intervals in the width direction, and the discharge port is arranged on the same side of the two rotating shafts in the width direction;

the two rotating shafts are respectively provided with a transmission part at two ends in the length direction, the two transmission parts are respectively in annular arrangement, the two transmission parts are respectively matched with the two transmission parts of the rotating shafts at the corresponding sides, the scraping plates are arranged in an extending mode along the length direction, two ends of the scraping plates are respectively connected with the transmission parts at the corresponding sides, and the scraping plates do circular motion along with the two transmission parts.

2. The drop box of claim 1, wherein each of the transmission parts comprises a sprocket, each of the transmission members comprises a chain, each of the chains cooperates with the sprocket on the corresponding side of the two rotating shafts, and each of the chains moves in a circular manner under the drive of the sprocket on the corresponding side of the two rotating shafts.

3. The drop box of claim 2, wherein each chain comprises a plurality of links connected in sequence, each link comprises two link plates arranged oppositely and two connecting pieces for connecting the two link plates, and two ends of the scraper are fixedly connected with the link plate of one link in the corresponding side chain respectively.

4. The drop box of claim 1, wherein the scraper has a first side and a second side disposed opposite to each other in a direction of movement of the transmission member, and the first side and/or the second side of the scraper is bent toward a side where the two rotation shafts are located to form a scraper portion.

5. The drop box according to claim 1 or 4, wherein the surfaces of the scraping plates facing away from the two rotating shafts are provided with silica gel layers; and/or the number of the groups of groups,

the falling box comprises two groups of scraping assemblies, the two groups of scraping assemblies are arranged in the storage cavity, the two groups of scraping assemblies are positioned on two sides of the discharge hole in the width direction, and the two scraping assemblies are used for scraping flour in the storage cavity to the discharge hole.

6. The drop box of claim 1, further comprising a conveyor at least partially mounted within the storage cavity for conveying flour within the storage cavity toward the outlet.

7. The drop box according to claim 6, wherein the conveying device comprises a first auger and a second auger which are sequentially arranged along the length direction, the first auger and the second auger are positioned on the same side of the two rotating shafts in the width direction, one end of the first auger is connected with one end of the second auger, the other end of the first auger is rotatably connected with the cavity wall of the storage cavity, the other end of the second auger is rotatably connected with the cavity wall of the storage cavity, the discharge port is positioned at the joint of the first auger and the second auger, and the first auger and the second auger are opposite in rotation direction and are both used for conveying flour in the storage cavity like the discharge port.

8. The drop box according to claim 7, wherein a conveying groove is concavely formed in the bottom of the storage cavity, the conveying groove extends along the length direction, the bottom of the conveying groove penetrates through to form the discharge hole, and the first auger and the second auger are arranged in the conveying groove; and/or the number of the groups of groups,

the falling box further comprises a cover body, the cross section of the cover body is U-shaped, the cover body is fixedly connected with the cavity bottom of the storage cavity, the cover body covers the discharge hole, an installation channel extending along the length direction is formed between the cover body and the cavity bottom of the storage cavity in a surrounding mode, and the first auger and the second auger extend into the installation channel and are connected.

9. A noodle machine comprising a dough mixing device, a dough pressing device and a dough drop box according to any one of claims 1 to 8 for conveying flour into the dough mixing device.

10. An intelligent eating apparatus comprising the noodle machine of claim 9.