CN112918793A

CN112918793A - Multi-station high-speed automatic bowl falling and noodle entering device

Info

Publication number: CN112918793A
Application number: CN202110129429.0A
Authority: CN
Inventors: 吴海奇
Original assignee: Shangbaotai Machinery Technology Kunshan Co Ltd
Current assignee: Shangbaotai Machinery Technology Kunshan Co Ltd
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2021-06-08

Abstract

The invention relates to the technical field of instant food processing equipment, in particular to a multi-station high-speed automatic bowl falling and noodle entering device which comprises a first conveying mechanism, a bowl separating mechanism, a bowl sucking mechanism, a noodle pushing mechanism, a rotary drum mechanism, a second conveying mechanism, a bowl receiving mechanism and a control mechanism, wherein the bowl separating mechanism is arranged on the first conveying mechanism; the bowl sucking mechanism is arranged between the bowl separating mechanism and the first conveying mechanism; the dough pushing mechanism can reciprocate along the transmission direction of the first conveying mechanism; the rotary drum mechanism is arranged above the conveying mechanism; the bowl receiving mechanism is arranged on the second conveying mechanism in a reciprocating manner; the control mechanism is mechanically connected with the first conveying mechanism, the bowl separating mechanism, the bowl sucking mechanism, the dough pushing mechanism, the rotary drum mechanism, the second conveying mechanism and the bowl receiving mechanism. The multi-station high-speed automatic bowl and noodle dropping device provided by the invention has the advantages of stable and reliable work, high operation safety and higher productivity, and solves the problems that the noodle dropping machine in the prior art has lower noodle dropping efficiency and larger limitation and cannot meet the increasing production requirement.

Description

Multi-station high-speed automatic bowl falling and noodle entering device

Technical Field

The invention relates to the technical field of instant food processing equipment, in particular to a multi-station high-speed automatic bowl and noodle dropping device.

Background

At present, automatic assembly line operation is usually adopted for production and processing of instant noodles, the operation of loading the instant noodles into the noodle bowls can be completed after a plurality of processing procedures, and the bowl dropping machine in the prior art can only realize the operation of correspondingly loading single-row noodle blocks into the single-row noodle bowls once, but cannot synchronously realize the operation of simultaneously loading multiple or multiple rows of noodle blocks into multiple rows of noodle bowls, so that a manufacturer correspondingly improves the running speed of the bowl dropping machine in order to improve the productivity, but the method has great limitation, when the running speed of the bowl dropping machine exceeds the rated running speed, the working stability of the bowl dropping machine can be greatly influenced, and the bowl dropping machine is in a high-load working state for a long time, the fault rate can also greatly increase, and the service life of the bowl dropping machine is reduced.

Disclosure of Invention

Aiming at the technical problems, the invention provides a multi-station high-speed automatic bowl and noodle dropping device, which aims to solve the problems that in the prior art, a bowl dropping machine has low noodle dropping efficiency and large limitation and cannot meet the increasing production requirement.

In order to achieve the purpose, the invention adopts the technical scheme that:

the invention provides a multi-station high-speed automatic bowl falling and noodle entering device which comprises a first conveying mechanism, a bowl separating mechanism, a bowl sucking mechanism, a noodle pushing mechanism, a rotary drum mechanism, a second conveying mechanism, a bowl receiving mechanism and a control mechanism, wherein the first conveying mechanism is used for conveying noodle blocks, the bowl separating mechanism is used for separating a plurality of stacked noodle bowls one by one, the bowl sucking mechanism is used for assisting the bowl sucking mechanism in achieving noodle entering operation; the bowl distributing mechanism is movably arranged above the first conveying mechanism in the vertical direction; the bowl sucking mechanism is arranged on the rack, the bowl sucking mechanism is movably arranged between the bowl separating mechanism and the first conveying mechanism in the vertical direction, and the bowl sucking mechanism and the bowl separating mechanism are correspondingly arranged; the dough pushing mechanism is movably arranged between the bowl distributing mechanism and the first conveying mechanism and can reciprocate along the transmission direction of the first conveying mechanism; the rotary drum mechanism is rotatably arranged above the first conveying mechanism, and the bowl sucking mechanism is arranged on the rotary drum mechanism; the second conveying mechanism is in transmission connection with the first conveying mechanism; the bowl receiving mechanism is arranged on the second conveying mechanism in a reciprocating manner in the vertical direction, and the bowl receiving mechanism and the bowl sucking mechanism are correspondingly arranged; the control mechanism is mechanically connected with the first conveying mechanism, the bowl distributing mechanism, the bowl sucking mechanism, the dough pushing mechanism, the rotary drum mechanism, the second conveying mechanism and the bowl receiving mechanism.

The invention provides a multi-station high-speed automatic bowl falling and noodle entering device, further comprising a bowl distributing mechanism, a bowl feeding mechanism and a bowl feeding mechanism, wherein the bowl distributing mechanism comprises a plurality of positioning parts, a plurality of upper clamping transmission assemblies, a plurality of middle clamping transmission assemblies and a plurality of lower clamping transmission assemblies; all the positioning parts are arranged in rows at equal intervals; the upper clamp transmission assembly is movably arranged above the positioning part in the horizontal direction; the middle clamp transmission assembly is movably arranged on two sides of the positioning part in the horizontal direction and the vertical direction; the lower clamp transmission assembly is movably arranged below the positioning part in the horizontal direction and the vertical direction.

The invention provides a multi-station high-speed automatic bowl-falling noodle-entering device, further comprising an upper clamp transmission assembly, a lower clamp cam, an upper clamp cam rocker arm, an upper clamp driving connecting rod and an upper clamp connecting rod crank, wherein the upper clamp transmission assembly comprises an upper clamp, an upper clamp cam rocker arm, an upper clamp driving connecting rod and an upper clamp connecting rod crank; the upper clamping cam is rotatably arranged in the rack; one end of the upper clamping cam rocker is in transmission connection with the upper clamping cam; one end of the upper clamp driving connecting rod is in transmission connection with the other end of the upper clamp cam rocker arm; the upper clamp connecting rod crank is in transmission connection with the other end of the upper clamp driving connecting rod; the upper clamp is movably arranged above the positioning part through the upper clamp driving connecting rod; the middle clamp transmission assembly comprises a middle clamp, a middle clamp cam rocker arm, a middle clamp driving connecting rod and a middle clamp connecting rod crank; the middle clamping cam is rotatably arranged in the rack; one end of the middle clamping cam rocker is in transmission connection with the middle clamping cam; one end of the middle clamping driving connecting rod is in transmission connection with the other end of the middle clamping cam rocker arm; the middle clamp connecting rod crank is in transmission connection with the other end of the middle clamp driving connecting rod; the middle clamp is movably arranged at two sides of the positioning part through the middle clamp driving connecting rod; the lower clamp transmission assembly comprises a lower clamp, a lower clamp cam rocker arm, a lower clamp driving connecting rod and a lower clamp connecting rod crank; the lower clamping cam is rotatably arranged in the rack; one end of the lower clamping cam rocker is in transmission connection with the lower clamping cam; one end of the lower clamp driving connecting rod is in transmission connection with the other end of the lower clamp cam rocker arm; the lower clamp connecting rod crank is in transmission connection with the other end of the lower clamp driving connecting rod; the lower clamp is movably arranged below the positioning part through the lower clamp driving connecting rod.

The invention provides a multi-station high-speed automatic bowl falling and noodle entering device.A bowl sucking mechanism comprises a plurality of bowl sucking shafts, a plurality of telescopic driving assemblies and a plurality of silica gel suckers; the bowl sucking shaft passes through but flexible drive assembly set up in reciprocating motion in the vertical direction in the rotary drum mechanism, the one end of bowl sucking shaft with flexible drive assembly transmission is connected, the other end detachably of bowl sucking shaft is provided with the silica gel sucking disc, the silica gel sucking disc with divide bowl mechanism to correspond the setting.

The invention provides a multi-station high-speed automatic bowl falling and noodle entering device, further, two rows of a plurality of bowl sucking shafts are arranged on a rotary drum mechanism, the two rows of the plurality of the bowl sucking shafts are arranged in a centrosymmetric mode, and the plurality of the bowl sucking shafts are arranged at equal intervals.

The invention provides a multi-station high-speed automatic bowl and noodle dropping device, further comprising a noodle pushing mechanism, a plurality of noodle pushing linear driving assemblies, a plurality of noodle pushing rotary driving assemblies and a plurality of push claws, wherein the noodle pushing mechanism comprises a speed reducer; the speed reducer is in transmission connection with the push surface linear driving assembly; the push surface rotation driving assembly is in transmission connection with the push surface linear driving assembly; one end of the push claw is detachably connected with the push surface rotation driving assembly, the other end of the push claw is a free end, the push claw can reciprocate along the conveying direction of the first conveying mechanism through the push surface linear driving assembly, and the push claw can rotate along one end of the push claw through the push surface rotation driving assembly.

The invention provides a multi-station high-speed automatic bowl and noodle dropping device, further comprising a noodle pushing linear driving assembly, a noodle pushing mechanism and a noodle pushing mechanism, wherein the noodle pushing linear driving assembly comprises a noodle pushing cam, a noodle pushing cam rocker arm, a noodle pushing connecting rod and a linear bearing; the push surface cam is rotatably arranged in the rack; one end of the push surface cam rocker arm is in transmission connection with the push surface cam, and the other end of the push surface cam rocker arm is in transmission connection with one end of the push surface connecting rod; one end of the push surface rotation driving component is in transmission connection with the other end of the push surface connecting rod through the linear bearing.

The invention provides a multi-station high-speed automatic bowl and noodle dropping device, further comprising a noodle pushing rotary driving assembly, a noodle pushing rotary driving assembly and a noodle pushing mechanism, wherein the noodle pushing rotary driving assembly comprises a noodle pushing rotary cam, a push claw cam rocker arm and a push claw connecting rod; the push surface rotating cam is rotatably arranged in the rack; one end of the push claw cam rocker is in transmission connection with the push surface rotating cam, and the other end of the push claw cam rocker is in transmission connection with the push surface linear driving assembly; one end of the push claw connecting rod is in transmission connection with the push claw cam rocker arm, and the other end of the push claw connecting rod is in transmission connection with the push claw.

The invention provides a multi-station high-speed automatic bowl and noodle dropping device, further comprising a divider, a drum transmission shaft, a plurality of bowl clamps, a plurality of bowl clamp driving assemblies, a plurality of top surface parts and a plurality of top surface driving assemblies, wherein the drum mechanism comprises a plurality of disc racks; the rotating drum transmission shaft is in transmission connection with the divider, and the rotating drum transmission shaft is rotatably arranged on the rack through the divider; all the bowl clamps are arranged on the transmission shaft of the rotary drum at equal intervals, and the bowl clamps are arranged in two rows; all the bowl clamp driving assemblies are arranged on the rotary drum transmission shaft, the bowl clamp driving assemblies are in transmission connection with the bowl clamps, and the bowl clamps can reciprocate along the vertical direction through the bowl clamp driving assemblies; the top surface part is arranged on the transmission shaft of the rotary drum, and the top surface part is arranged corresponding to the bowl clamp; the top surface driving assembly is arranged on the transmission shaft of the rotary drum, is in transmission connection with the top surface part, and can reciprocate along the vertical direction through the top surface driving assembly.

The invention provides a multi-station high-speed automatic bowl falling and noodle entering device.A bowl receiving mechanism comprises a plurality of bowl receiving trays, a plurality of bowl receiving ejector rods and a plurality of bowl receiving driving assemblies; all the bowl receiving driving assemblies are arranged on the second conveying mechanism and arranged in rows; one end of the bowl receiving ejector rod is in transmission connection with the bowl receiving driving assembly, the bowl receiving ejector rod is arranged corresponding to the bowl receiving driving assembly, and the bowl receiving ejector rod can reciprocate along the vertical direction through the bowl receiving driving assembly; the bowl receiving tray is arranged at the other end of the bowl receiving ejector rod.

The technical scheme has the following advantages or beneficial effects:

the invention provides a multi-station high-speed automatic bowl falling and noodle entering device which comprises a first conveying mechanism, a bowl separating mechanism, a bowl sucking mechanism, a noodle pushing mechanism, a rotary drum mechanism, a second conveying mechanism, a bowl receiving mechanism and a control mechanism, wherein the bowl sucking mechanism is arranged on the first conveying mechanism; the bowl distributing mechanism is movably arranged above the conveying mechanism; the bowl sucking mechanism is movably arranged between the bowl separating mechanism and the conveying mechanism and corresponds to the bowl separating mechanism; the dough pushing mechanism is movably arranged between the bowl separating mechanism and the conveying mechanism and can reciprocate along the conveying direction of the conveying mechanism; the rotary drum mechanism is rotatably arranged above the conveying mechanism, and the bowl sucking mechanism is arranged on the rotary drum mechanism; the second conveying mechanism is in transmission connection with the first conveying mechanism; the bowl receiving mechanism is arranged on the second conveying mechanism in a reciprocating motion manner and corresponds to the bowl sucking mechanism; the control mechanism is mechanically connected with the first conveying mechanism, the bowl separating mechanism, the bowl sucking mechanism, the dough pushing mechanism, the rotary drum mechanism, the second conveying mechanism and the bowl receiving mechanism. According to the invention, firstly, the bowl separating mechanism is arranged, so that the stacked noodle bowls are quickly separated, and the working efficiency is improved; secondly, the arrangement of the bowl sucking mechanism and the rotary drum mechanism enables the noodle bowl to be accurately adsorbed after being detached, and the rotary drum mechanism is matched to realize quick and accurate noodle entering operation of the instant noodles; thirdly, the arrangement of the noodle pushing mechanism can assist the noodle sucking mechanism and the rotary drum mechanism to realize more accurate and ordered noodle feeding operation, so that the working reliability of the bowl falling device is ensured, and the working efficiency of the bowl falling device is further improved; finally, the arrangement of the bowl receiving mechanism enables the noodle bowls which finish noodle entering operation to be stably and reliably transferred to the second conveying mechanism, and the working reliability of the bowl falling device is further improved.

Drawings

The invention and its features, aspects and advantages will become more apparent from reading the following detailed description of non-limiting embodiments with reference to the accompanying drawings. Like reference symbols in the various drawings indicate like elements. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention.

Fig. 1 is a schematic diagram of a part of structure of an upper clamp transmission assembly in a bowl distributing mechanism of a multi-station high-speed automatic bowl falling and noodle entering device provided by embodiment 1 of the invention;

fig. 2 is a schematic diagram of a part of a structure of a middle clamp transmission assembly in a bowl distributing mechanism of the multi-station high-speed automatic bowl and noodle dropping device provided by the embodiment 1 of the invention;

fig. 3 is a schematic diagram of a part of structure of a lower clamp transmission assembly in a bowl distributing mechanism of the multi-station high-speed automatic bowl and noodle dropping device provided by the embodiment 1 of the invention;

fig. 4 is a schematic diagram of a partial structure of a bowl distributing mechanism in the multi-station high-speed automatic bowl falling and noodle entering device provided by embodiment 1 of the invention;

fig. 5 is a schematic diagram of the operation of the work flow of the bowl distributing mechanism in the multi-station high-speed automatic bowl falling and noodle entering device provided by embodiment 1 of the invention;

FIG. 6 is a schematic diagram of a part of the structure of a bowl sucking mechanism in the multi-station high-speed automatic bowl falling and entering device provided by embodiment 1 of the invention;

fig. 7 is a schematic diagram of a partial structure of a telescopic driving assembly in a bowl sucking mechanism of the multi-station high-speed automatic bowl and noodle dropping device provided in embodiment 1 of the present invention;

fig. 8 is a schematic diagram of a part of structure of a noodle pushing mechanism in the multi-station high-speed automatic bowl-falling and noodle-entering device provided by the embodiment 1 of the invention;

fig. 9 is a schematic diagram of a partial structure of a push surface linear driving assembly in a push surface mechanism of a multi-station high-speed automatic bowl and noodle dropping device provided in embodiment 1 of the present invention;

fig. 10 is a schematic diagram of a partial structure of a push surface rotation driving assembly in a push surface mechanism of a multi-station high-speed automatic bowl-falling and noodle-entering device provided by embodiment 1 of the invention;

FIG. 11 is a schematic diagram of a part of the structure of a drum mechanism in the multi-station high-speed automatic bowl-dropping noodle-entering device provided by the embodiment 1 of the invention;

fig. 12 is a schematic diagram of a part of the structure of a bowl clamp driving assembly in a drum mechanism of the multi-station high-speed automatic bowl and noodle dropping device provided in embodiment 1 of the invention;

fig. 13 is a schematic diagram of a part of the structure of a top surface driving assembly in a drum mechanism of a multi-station high-speed automatic bowl and noodle dropping device provided in embodiment 1 of the invention;

fig. 14 is a schematic diagram of a part of structure of a bowl receiving mechanism in the multi-station high-speed automatic bowl falling and noodle entering device provided by the embodiment 1 of the invention;

fig. 15 is a schematic diagram of a part of structure of a bowl receiving driving assembly in a bowl receiving mechanism of the multi-station high-speed automatic bowl and noodle dropping device provided in embodiment 1 of the invention.

Detailed Description

In the following, the technical solutions in the embodiments of the present invention are clearly and completely described with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the invention without making creative efforts, belong to the protection scope of the invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as being fixed or detachable or integrally connected; they may be mechanically coupled, directly coupled, indirectly coupled through intervening media, or may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

the bowl falling machine in the prior art can only realize the operation of correspondingly loading single-row dough blocks into single-row dough bowls at a time, but cannot synchronously realize that multiple times or multiple rows of dough blocks are simultaneously arranged in multiple rows of dough bowls, so that a manufacturer correspondingly improves the running speed of the bowl falling machine for improving the productivity, but the method has great limitation, when the running speed of the bowl falling machine exceeds the rated running speed, the working stability of the bowl falling machine can be greatly influenced, and the fault rate of the bowl falling machine can also greatly rise under the working state of high load for a long time, so that the service life of the bowl falling machine is shortened.

In order to solve the above technical problems, a multi-station high-speed automatic bowl dropping and noodle entering device provided in embodiment 1 of the present invention is understood by referring to fig. 1 to 15, and includes a first conveying mechanism (not shown in the drawings) for conveying noodle blocks, a bowl separating mechanism 1 for separating a plurality of stacked noodle bowls one by one, a bowl sucking mechanism 2, a noodle pushing mechanism 3 for assisting the bowl sucking mechanism 2 to implement noodle entering operation, a rotary drum mechanism 4 for turning over the noodle bowls, a second conveying mechanism (not shown in the drawings) for conveying the noodle bowls which have completed noodle entering, a bowl receiving mechanism 5, and a control mechanism; the bowl distributing mechanism 1 is movably arranged above the first conveying mechanism in the vertical direction; the bowl sucking mechanism 2 is arranged on the frame, the bowl sucking mechanism 2 is movably arranged between the bowl separating mechanism 1 and the first conveying mechanism in the vertical direction, and the bowl sucking mechanism 2 is arranged corresponding to the bowl separating mechanism 1; the dough pushing mechanism 3 is movably arranged between the bowl separating mechanism 1 and the first conveying mechanism, and the dough pushing mechanism 3 can reciprocate along the transmission direction of the first conveying mechanism; the rotary drum mechanism 4 is rotatably arranged above the first conveying mechanism, and the bowl sucking mechanism 2 is arranged on the rotary drum mechanism 4; the second conveying mechanism is in transmission connection with the first conveying mechanism; the bowl receiving mechanism 5 is arranged on the second conveying mechanism in a reciprocating manner in the vertical direction, and the bowl receiving mechanism 5 and the bowl sucking mechanism 2 are arranged correspondingly; the control mechanism is mechanically connected with the first conveying mechanism, the bowl distributing mechanism 1, the bowl sucking mechanism 2, the dough pushing mechanism 3, the rotary drum mechanism 4, the second conveying mechanism and the bowl receiving mechanism 5.

When the multi-station high-speed automatic bowl falling and noodle entering device is used, noodle blocks arranged in rows are sequentially conveyed to the direction of the bowl sucking mechanism 2 through the first conveying mechanism, meanwhile, the bowl separating mechanism 1 separates the stacked instant noodle bowls one by one, the bowl sucking mechanism 2 sucks the separated noodle bowls, the separated noodle bowls are rotated to the noodle block through the rotary drum mechanism 4, the noodle bowls are reversely buckled onto the noodle blocks through the bowl sucking mechanism 2, the noodle pushing mechanism 3 assists the bowl sucking mechanism 2 and the rotary mechanism to realize noodle bowl entering operation of the noodle blocks together, then the bowl receiving mechanism 5 works to realize butt joint of the noodle bowls which are subjected to noodle entering, and the noodle bowls provided with the noodle blocks are butt-jointed to the second conveying mechanism and conveyed to the next station.

According to the multi-station high-speed automatic bowl falling and noodle entering device provided by the invention, firstly, the bowl separating mechanism 1 is arranged, so that the quick splitting of the stacked noodle bowls is realized, the manual splitting operation of the noodle bowls is avoided, and the working efficiency is improved; secondly, the arrangement of the bowl absorbing mechanism 2 and the rotary drum mechanism 4 enables the noodle bowls to be accurately absorbed after being split, and the bowl absorbing mechanism 2 is matched with the rotary drum mechanism 4 to realize quick and accurate noodle entering operation of the instant noodles, in the implementation, the bowl absorbing mechanism 2 can specifically absorb two rows of noodle bowls, and the number of the specifically absorbed noodle bowls can be set according to actual production requirements; thirdly, the dough pushing mechanism 3 can quickly and accurately push the dough blocks on the first conveying mechanism to the bowl sucking mechanism 2, so that the bowl sucking mechanism 2 and the rotary drum mechanism 4 are assisted to realize more accurate and ordered dough entering operation, the working reliability of the bowl dropping device is ensured, and the working efficiency of the bowl dropping device is further improved; finally, the arrangement of the bowl receiving mechanism 5 enables the noodle bowls which finish noodle entering operation to be stably and reliably transferred onto the second conveying mechanism, so that the condition that the noodle bowls are separated from the noodle bowls due to violence or unstable conveying operation of the noodle bowls filled with the noodle blocks is avoided, and the working reliability of the bowl falling device is further improved. In addition, control mechanism's setting not only can realize each operating device's automatic operation, can also realize each operating device's high-efficient real time monitoring, when certain operating device broke down or potential safety hazard, the emergence of dangerous accident is avoided to the bowl device that falls in operating personnel accessible control mechanism emergency braking, has guaranteed the operational safety of device, and operating personnel still can realize falling the research of each operating mode of bowl device and corresponding parameter through control mechanism to establish the basis for further optimizing the bowl device that falls. Therefore, the multi-station high-speed automatic bowl and noodle dropping device provided by the invention has the advantages of stable and reliable work, high operation safety and higher productivity, and solves the problems that the noodle dropping machine in the prior art has lower noodle dropping efficiency and larger limitation and cannot meet the increasing production requirement.

In order to further improve the working efficiency of the bowl dropping device, the multi-station high-speed automatic bowl dropping and noodle entering device provided by the embodiment is further understood by combining fig. 1 to 5, and the bowl distributing mechanism 1 includes a plurality of positioning portions 11, a plurality of upper clamp transmission assemblies 12, a plurality of middle clamp transmission assemblies 13 and a plurality of lower clamp transmission assemblies 14; all the positioning parts 11 are arranged in rows at equal intervals; the upper clamp transmission assembly 12 is movably arranged above the positioning part 11 in the horizontal direction; the middle clamping transmission assembly 13 is movably arranged at two sides of the positioning part 11 in the horizontal direction and the vertical direction; the lower clamp transmission assembly 14 is movably disposed below the positioning portion 11 in the horizontal direction and the vertical direction. Wherein, the upper clamp transmission assembly 12 comprises an upper clamp 121, an upper clamp cam 122, an upper clamp cam rocker arm 123, an upper clamp driving connecting rod 124 and an upper clamp connecting rod crank 125; the upper clamping cam 122 is rotatably arranged in the machine frame; one end of the upper clamping cam rocker arm 123 is in transmission connection with the upper clamping cam 122; one end of the upper clamp driving connecting rod 124 is in transmission connection with the other end of the upper clamp cam rocker arm 123; the upper clamp connecting rod crank 125 is in transmission connection with the other end of the upper clamp driving connecting rod 124; the upper clamp 121 is movably arranged above the positioning part 11 through an upper clamp driving connecting rod 124; the middle clamp transmission assembly 13 comprises a middle clamp 131, a middle clamp cam 132, a middle clamp cam rocker arm 133, a middle clamp driving connecting rod 134 and a middle clamp connecting rod crank 135; the middle clamping cam 132 is rotatably arranged in the machine frame; one end of the middle clamping cam rocker arm 133 is in transmission connection with the middle clamping cam 132; one end of the middle clamping driving connecting rod 134 is in transmission connection with the other end of the middle clamping cam rocker 133; the middle clamping connecting rod crank 135 is in transmission connection with the other end of the middle clamping driving connecting rod 134; the middle clamp 131 is movably arranged at two sides of the positioning part 11 through a middle clamp driving connecting rod 134; the lower clamp transmission assembly 14 comprises a lower clamp 141, a lower clamp cam 142, a lower clamp cam rocker 143, a lower clamp driving connecting rod 144 and a lower clamp connecting rod crank 145; the lower clamping cam 142 is rotatably arranged in the frame; one end of the lower clamping cam rocker 143 is in transmission connection with the lower clamping cam 142; one end of the lower clamp driving connecting rod 144 is in transmission connection with the other end of the lower clamp cam rocker 143; the lower clamp connecting rod crank 145 is in transmission connection with the other end of the lower clamp driving connecting rod 144; the lower clip 141 is movably disposed below the positioning part 11 by a lower clip driving link 144.

In this embodiment, two rows of noodle bowls are specifically used for performing bowl separating operation synchronously, and the bowl separating operation principle of the two rows of noodle bowls is the same, and only one row is taken as an example for description. When the stacked noodle bowls are arranged in the positioning part 11, the positioning part 11 not only performs positioning operation, but also plays a role in guiding the noodle bowls into the upper clamp transmission assembly 12, when the noodle bowls fall into the upper clamp 121, the upper clamp 121 and the middle clamp 131 are opened towards two sides simultaneously, and the noodle bowls fall onto the lower clamp 141; then, the upper clamp 121 and the middle clamp 131 are closed simultaneously; then the middle clamp 131 and the lower clamp 141 descend simultaneously, and a noodle bowl on the lower clamp 141 is drawn downwards; then, the lower clamp 141 is opened towards two sides, and the noodle bowl falls to the bowl suction mechanism 2; with lower clip 141 closed; finally, the middle clamp 131 and the lower clamp 141 return to the initial position at the same time, and a new work cycle is performed. Wherein, the operating principle of the upper clamping transmission assembly 12 is specifically as follows: the upper clamp cam 122 rotates within a preset range to drive the upper clamp cam rocker 123 to swing within the preset range, and the cam rocker and the upper clamp connecting rod crank 125 drive the upper clamp driving connecting rod 124 to move within the preset range, so that the upper clamp 121 finally moves within the preset range. The opening and closing operation principles of the middle clip 131 and the lower clip 141 are the same as those of the upper clip 121, and are not described herein again. Through the arrangement, the stacked noodle bowls can be quickly and reliably separated one by one through the linkage operation of the upper clamp 121, the middle clamp 131, the lower clamp 141 and the corresponding transmission assemblies, so that the efficiency of noodle bowl separation operation is further improved; and the upper clamp transmission assembly 12, the middle clamp transmission assembly 13 and the lower clamp transmission assembly 14 corresponding to the upper clamp 121, the middle clamp 131 and the lower clamp 141 have the same structure and working principle and are all cam rocker arm and crank link mechanisms.

The multi-station high-speed automatic bowl and noodle dropping device provided by the embodiment is further understood by referring to fig. 6 to 7, and the bowl sucking mechanism 2 includes a plurality of bowl sucking shafts 21, a plurality of telescopic driving assemblies 22 and a plurality of silica gel suckers 23; the bowl sucking shaft 21 is arranged on the rotary drum mechanism 4 in a reciprocating manner in the vertical direction through the telescopic driving component 22, one end of the bowl sucking shaft 21 is in transmission connection with the telescopic driving component 22, the other end of the bowl sucking shaft 21 is detachably provided with a silica gel sucker 23, and the silica gel sucker 23 is arranged corresponding to the bowl separating mechanism 1. Further, the drum mechanism 4 is provided with two rows of a plurality of cup suction shafts 21, the two rows of the cup suction shafts 21 are arranged in a central symmetry manner, and the cup suction shafts 21 are arranged at equal intervals. Similarly, in the present embodiment, two sets of the suction cup shafts 21 are correspondingly provided, and only the working principle of one set of the suction cup shafts 21 and the components thereof will be described here. When the stacked noodle bowls are separated one by one, the bottommost noodle bowl falls to the bowl sucking mechanism 2, meanwhile, the telescopic driving component 22 drives the bowl sucking shaft 21 to synchronously move upwards to the highest position, the noodle bowl falls into the silica gel sucker 23 arranged at the top of the bowl sucking shaft 21, and after the noodle bowl is sucked by the silica gel sucker 23, the telescopic driving component 22 works again to drive the bowl sucking shaft 21 to move downwards to the lowest position; then the rotary drum mechanism 4 works, the bowl sucking shaft 21 adsorbed with a row of noodle bowls is driven to overturn 180 degrees of components of the bowl sucking shaft, the mouth of each adsorbed noodle bowl is downward, the noodle pushing mechanism 3 synchronously pushes two rows of noodle blocks to a preset position, the noodle bowls can move downwards to cover the noodle blocks, then the rotary drum mechanism 4 overturns 180 degrees again, another group of noodle bowls in central symmetry can move downwards to cover the noodle blocks, after the noodle bowls are covered, the rotary drum mechanism 4 clamps the noodle bowls 43, meanwhile, the noodle blocks in the noodle bowls are propped, the noodle blocks are prevented from being separated from the noodle bowls, and then the noodle bowls which are overturned and are filled with the noodle blocks are supported by the bowl receiving mechanism 5 and are conveyed to the next station. Therefore, the invention can realize the whole-course high-speed automation and intellectualization of the dough entering by arranging a plurality of suction cup shafts 21 and telescopic driving components 22 and matching with the rotary drum mechanism 4; the arrangement of the silica gel sucker 23 enables the adsorption of the noodle bowl to be more stable and reliable, and the working reliability of the noodle bowl adsorption device is further improved; in addition, two rows of noodle bowls which are arranged on the rotary drum mechanism 4 in a centrosymmetric manner enable the adsorption of the noodle bowls and the subsequent noodle entering to be in seamless connection, so that the working efficiency of the noodle bowl sucking device is further improved.

In order to further improve the working efficiency of the noodle placing operation of the bowl placing device, the multi-station high-speed automatic bowl placing device provided by the embodiment is further understood with reference to fig. 8 to 10, and the noodle pushing mechanism 3 includes a speed reducer 31, a plurality of noodle pushing linear driving assemblies 32, a plurality of noodle pushing rotary driving assemblies 33 and a plurality of pushing claws 34; the speed reducer 31 is in transmission connection with the push surface linear driving assembly 32; the push surface rotary driving component 33 is in transmission connection with the push surface linear driving component 32; one end of the push claw 34 is detachably connected with the push surface rotation driving assembly 33, the other end of the push claw 34 is a free end, the push claw 34 can reciprocate along the conveying direction of the first conveying mechanism through the push surface linear driving assembly 32, and the push claw 34 can rotate along one end of the push claw 34 through the push surface rotation driving assembly 33. The push surface linear driving assembly 32 comprises a push surface cam 321, a push surface cam rocker 322, a push surface connecting rod 323 and a linear bearing 324; the push cam 321 is rotatably arranged in the frame; one end of the push cam rocker 322 is in transmission connection with the push cam 321, and the other end of the push cam rocker 322 is in transmission connection with one end of the push connecting rod 323; one end of the push surface rotation driving component 33 is in transmission connection with the other end of the push surface connecting rod 323 through a linear bearing 324. Through setting up speed reducer 31, a plurality of push away a straight line drive assembly 32, a plurality of push away a rotation drive assembly 33 and a plurality of pusher dog 34, when the absorption operation of the face bowl is accomplished to suction bowl mechanism 2, rotary drum mechanism 4 drives the face bowl upset 180, meanwhile, speed reducer 31 drive pushes away a straight line drive assembly 32 work, make push away a straight line drive assembly 32 can drive pusher dog 34 and slide along the spout that sets for on the first conveying mechanism, specifically, pusher dog 34 can promote two rows of face pieces simultaneously and locate to remove to suction bowl mechanism 2 in this implementation, thereby cooperation suction bowl mechanism 2 and rotary drum mechanism 4 realize the operation that the face piece goes into the face bowl fast. The working principle of the push surface linear driving assembly 32 is specifically as follows: the dough pushing cam 321 rotates within a preset range and drives the dough pushing cam rocker 322 to swing within the preset range, the dough pushing cam rocker 322 drives the dough pushing connecting rod 323 to move within the preset range, and finally the dough pushing claw 34 linearly reciprocates in the chute of the first conveying mechanism through the dough pushing connecting rod 323, the corresponding dough pushing slider 325 and the linear bearing 324, so that the continuous, stable and reliable linear reciprocating motion of the dough pushing claw 34 is ensured, and the working efficiency of the dough falling device dough inserting operation is further improved.

Considering that the bowl sucking mechanism 2 runs downwards to buckle the noodle blocks while the push claw 34 performs noodle pushing operation, at this time, interference may occur between the push claw 34 and the bowl sucking mechanism 2, which may cause the bowl dropping device to fail to operate normally, therefore, in order to further improve the working safety of the bowl dropping device, the multi-station high-speed automatic bowl dropping and noodle entering device provided by the embodiment is further understood with reference to fig. 10, and the noodle pushing rotation driving assembly 33 includes a noodle pushing rotation cam 331, a claw pushing cam rocker arm 332 and a claw pushing connecting rod 333; the push surface rotating cam 331 is rotatably arranged in the frame; one end of the push claw cam rocker arm 332 is in transmission connection with the push surface rotating cam 331, and the other end of the push claw cam rocker arm 332 is in transmission connection with the push surface linear driving assembly 32; one end of the pawl connecting rod 333 is in transmission connection with the pawl cam rocker 332, and the other end of the pawl connecting rod 333 is in transmission connection with the pawl 34. Through the arrangement of the push surface rotating cam 331, the push claw cam rocker arm 332 and the push claw connecting rod 333, when the push claw 34 pushes two rows of noodle blocks to be kneaded to the bowl sucking mechanism 2, the bowl sucking mechanism 2 operates downwards to buckle the noodle blocks, meanwhile, the push surface rotating cam 331 rotates within a preset range, the push claw cam rocker arm 332 is driven to swing within the preset range, then the push claw connecting rod 333 is driven to move within the preset range, and finally the rotation of the push claw 34 within the preset range is realized.

In order to further improve the operational reliability and the noodle entering efficiency of the bowl dropping device, the multi-station high-speed automatic bowl dropping and noodle entering device provided in this embodiment is further understood with reference to fig. 11 to 13, the revolving drum mechanism 4 includes a divider 41, a revolving drum transmission shaft 42, a plurality of bowl clamps 43, a plurality of bowl clamp driving assemblies 44, a plurality of top surface portions 45 and a plurality of top surface driving assemblies 46; the drum transmission shaft 42 is in transmission connection with the divider 41, and the drum transmission shaft 42 is rotatably arranged on the rack through the divider 41; all the bowl clamps 43 are arranged on the rotary drum transmission shaft 42 at equal intervals, and all the bowl clamps 43 are arranged in two rows; all the bowl clamp driving assemblies 44 are arranged on the rotary drum transmission shaft 42, the bowl clamp driving assemblies 44 are in transmission connection with the bowl clamps 43, and the bowl clamps 43 can reciprocate along the vertical direction through the bowl clamp driving assemblies 44; the top surface part 45 is arranged on the rotary drum transmission shaft 42, and the top surface part 45 is arranged corresponding to the bowl clamp 43; the top surface driving assembly 46 is arranged on the drum transmission shaft 42, the top surface driving assembly 46 is in transmission connection with the top surface portion 45, and the top surface portion 45 can reciprocate along the vertical direction through the top surface driving assembly 46. By arranging the divider 41, the rotary drum transmission shaft 42, the bowl clamps 43, the bowl clamp driving assemblies 44, the top surface portions 45 and the top surface driving assemblies 46, when the noodle blocks are pushed to the bowl sucking mechanism 2 by the noodle pushing mechanism 3, meanwhile, the divider 41 drives the rotary drum transmission shaft 42 to turn 180 degrees so as to turn all a row of adsorbed noodle bowls upside down, and the noodle bowls are placed downwards so that the noodle bowls can be turned upside down on the noodle blocks, subsequently, the bowl clamp driving assemblies 44 and the top surface driving assemblies 46 work synchronously, the bowl clamp driving assemblies 44 drive the bowl clamps 43 to clamp the noodle bowls, the top surface driving assemblies 46 synchronously drive the top surface portions 45 to push the noodle blocks into the noodle bowls, so that the noodle blocks are prevented from being separated from the noodle bowls, and then the divider 41 drives the rotary drum transmission shaft 42 to turn 180 degrees again so as to complete the operation of the noodle bowls of the second group, the same noodle bowls and the same top surface of the noodle blocks. Through the setting, make the face piece more convenient reliable with the income face operation of noodle bowl, and can realize the synchronous quick income face of multirow noodle bowl in step through setting up multirow noodle bowl on rotary drum transmission shaft 42, specifically be provided with two rows of noodle bowls in this embodiment, can design the multirow according to concrete output demand in the actual production, thereby improve the operational reliability and the income face efficiency that fall the bowl device to a great extent.

In order to further improve the stability of the conveying operation of the noodle bowls after entering, the multi-station high-speed automatic bowl dropping and noodle entering device provided by the embodiment is further understood with reference to fig. 14-15, and the bowl receiving mechanism 5 comprises a plurality of bowl receiving trays 51, a plurality of bowl receiving ejector rods 52 and a plurality of bowl receiving driving assemblies 53; all the bowl receiving driving assemblies 53 are arranged on the second conveying mechanism, and all the bowl receiving driving assemblies 53 are arranged in rows; one end of the bowl receiving ejector rod 52 is in transmission connection with the bowl receiving driving assembly 53, the bowl receiving ejector rod 52 is arranged corresponding to the bowl receiving driving assembly 53, and the bowl receiving ejector rod 52 can reciprocate along the vertical direction through the bowl receiving driving assembly 53; the bowl receiving tray 51 is arranged at the other end of the bowl receiving ejector rod 52. Through set up a plurality of bowl tray 51 that connect on second conveying mechanism, connect bowl ejector pin 52 and connect bowl drive assembly 53, after the income face operation that the dough piece and face bowl accomplish to correspond, connect bowl drive assembly 53 work, the drive connects bowl ejector pin 52 to upwards stretch out, thereby it upwards ejecting to drive and connect bowl tray 51, connect bowl tray 51 just in time can realize the butt joint with the bottom of face bowl, adsorb the bottom of face bowl, and the face bowl that drives the completion income face under second conveying mechanism's effect is carried to next station. Through the setting, specifically, connect bowl drive assembly 53 in this embodiment can be vertical telescopic cylinder, connect bowl tray 51 can be the tray of making by silica gel for the face bowl of face is gone into in the completion can be carried to next station more reliable and more stable, avoids it because carry unreliable, leads to the face piece to deviate from in the face bowl and leads to the fact the phenomenon of unable normal operation of going on, thereby has further improved the operational reliability and the security of the device that falls to the bowl.

In summary, according to the multi-station high-speed automatic bowl falling and noodle entering device provided by the invention, firstly, the bowl separating mechanism is arranged, so that the quick splitting of the stacked noodle bowls is realized, the manual splitting operation of the noodle bowls is avoided, and the working efficiency is improved; secondly, the arrangement of the bowl sucking mechanism and the rotary drum mechanism enables the noodle bowl to be accurately adsorbed after being disassembled, and the rotary drum mechanism is matched to realize quick and accurate noodle block entering operation; thirdly, the arrangement of the noodle pushing mechanism can assist the noodle sucking mechanism and the rotary drum mechanism to realize more accurate and ordered noodle feeding operation, so that the working efficiency of the bowl falling device is further improved; finally, the arrangement of the bowl receiving mechanism enables the noodle bowls which finish noodle entering operation to be stably and reliably transferred to the second conveying mechanism, so that the condition that the noodle bowls filled with noodle blocks are separated from the noodle bowls due to violence or unstable conveying operation is avoided, and the working reliability of the bowl falling device is further improved.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings, or any other related technical fields, are included in the scope of the present invention.

Claims

1. A multi-station high-speed automatic bowl falling and noodle entering device is characterized by comprising a first conveying mechanism for conveying noodle blocks, a bowl separating mechanism for separating a plurality of stacked noodle bowls one by one, a bowl sucking mechanism, a noodle pushing mechanism for assisting the bowl sucking mechanism to realize noodle entering operation, a rotary drum mechanism for turning over the noodle bowls, a second conveying mechanism for conveying the noodle bowls after noodle entering is completed, a bowl receiving mechanism and a control mechanism;

the bowl distributing mechanism is movably arranged above the first conveying mechanism in the vertical direction;

the bowl sucking mechanism is arranged on the rack, the bowl sucking mechanism is movably arranged between the bowl separating mechanism and the first conveying mechanism in the vertical direction, and the bowl sucking mechanism and the bowl separating mechanism are correspondingly arranged;

the dough pushing mechanism is movably arranged between the bowl distributing mechanism and the first conveying mechanism and can reciprocate along the transmission direction of the first conveying mechanism;

the rotary drum mechanism is rotatably arranged above the first conveying mechanism, and the bowl sucking mechanism is arranged on the rotary drum mechanism;

the second conveying mechanism is in transmission connection with the first conveying mechanism;

the bowl receiving mechanism is arranged on the second conveying mechanism in a reciprocating manner in the vertical direction, and the bowl receiving mechanism and the bowl sucking mechanism are correspondingly arranged;

the control mechanism is mechanically connected with the first conveying mechanism, the bowl distributing mechanism, the bowl sucking mechanism, the dough pushing mechanism, the rotary drum mechanism, the second conveying mechanism and the bowl receiving mechanism.

2. The multi-station high-speed automatic bowl falling and noodle entering device according to claim 1, wherein the bowl distributing mechanism comprises a plurality of positioning parts, a plurality of upper clamp transmission assemblies, a plurality of middle clamp transmission assemblies and a plurality of lower clamp transmission assemblies; all the positioning parts are arranged in rows at equal intervals; the upper clamp transmission assembly is movably arranged above the positioning part in the horizontal direction; the middle clamp transmission assembly is movably arranged on two sides of the positioning part in the horizontal direction and the vertical direction; the lower clamp transmission assembly is movably arranged below the positioning part in the horizontal direction and the vertical direction.

3. The multi-station high-speed automatic bowl and noodle dropping device according to claim 2, wherein the upper clamp transmission assembly comprises an upper clamp, an upper clamp cam rocker arm, an upper clamp driving connecting rod and an upper clamp connecting rod crank; the upper clamping cam is rotatably arranged in the rack; one end of the upper clamping cam rocker is in transmission connection with the upper clamping cam; one end of the upper clamp driving connecting rod is in transmission connection with the other end of the upper clamp cam rocker arm; the upper clamp connecting rod crank is in transmission connection with the other end of the upper clamp driving connecting rod; the upper clamp is movably arranged above the positioning part through the upper clamp driving connecting rod;

the middle clamp transmission assembly comprises a middle clamp, a middle clamp cam rocker arm, a middle clamp driving connecting rod and a middle clamp connecting rod crank; the middle clamping cam is rotatably arranged in the rack; one end of the middle clamping cam rocker is in transmission connection with the middle clamping cam; one end of the middle clamping driving connecting rod is in transmission connection with the other end of the middle clamping cam rocker arm; the middle clamp connecting rod crank is in transmission connection with the other end of the middle clamp driving connecting rod; the middle clamp is movably arranged at two sides of the positioning part through the middle clamp driving connecting rod;

the lower clamp transmission assembly comprises a lower clamp, a lower clamp cam rocker arm, a lower clamp driving connecting rod and a lower clamp connecting rod crank; the lower clamping cam is rotatably arranged in the rack; one end of the lower clamping cam rocker is in transmission connection with the lower clamping cam; one end of the lower clamp driving connecting rod is in transmission connection with the other end of the lower clamp cam rocker arm; the lower clamp connecting rod crank is in transmission connection with the other end of the lower clamp driving connecting rod; the lower clamp is movably arranged below the positioning part through the lower clamp driving connecting rod.

4. The multi-station high-speed automatic bowl and noodle dropping device according to claim 1, wherein the bowl sucking mechanism comprises a plurality of bowl sucking shafts, a plurality of telescopic driving assemblies and a plurality of silica gel suckers; the bowl sucking shaft passes through but flexible drive assembly set up in reciprocating motion in the vertical direction in the rotary drum mechanism, the one end of bowl sucking shaft with flexible drive assembly transmission is connected, the other end detachably of bowl sucking shaft is provided with the silica gel sucking disc, the silica gel sucking disc with divide bowl mechanism to correspond the setting.

5. The multi-station high-speed automatic bowl falling and noodle entering device according to claim 4, wherein the drum mechanism is provided with two rows of the plurality of the bowl sucking shafts, the two rows of the plurality of the bowl sucking shafts are arranged in a central symmetry manner, and the plurality of the bowl sucking shafts are arranged at equal intervals.

6. The multi-station high-speed automatic bowl and noodle dropping device according to claim 1, wherein the noodle pushing mechanism comprises a speed reducer, a plurality of noodle pushing linear driving assemblies, a plurality of noodle pushing rotary driving assemblies and a plurality of push claws; the speed reducer is in transmission connection with the push surface linear driving assembly; the push surface rotation driving assembly is in transmission connection with the push surface linear driving assembly; one end of the push claw is detachably connected with the push surface rotation driving assembly, the other end of the push claw is a free end, the push claw can reciprocate along the conveying direction of the first conveying mechanism through the push surface linear driving assembly, and the push claw can rotate along one end of the push claw through the push surface rotation driving assembly.

7. The multi-station high-speed automatic bowl and noodle falling device according to claim 6, wherein the push surface linear driving assembly comprises a push surface cam, a push surface cam rocker arm, a push surface connecting rod and a linear bearing; the push surface cam is rotatably arranged in the rack; one end of the push surface cam rocker arm is in transmission connection with the push surface cam, and the other end of the push surface cam rocker arm is in transmission connection with one end of the push surface connecting rod; one end of the push surface rotation driving component is in transmission connection with the other end of the push surface connecting rod through the linear bearing.

8. The multi-station high-speed automatic bowl and noodle dropping device according to claim 6, wherein the push surface rotation driving assembly comprises a push surface rotation cam, a push claw cam rocker arm and a push claw connecting rod; the push surface rotating cam is rotatably arranged in the rack; one end of the push claw cam rocker is in transmission connection with the push surface rotating cam, and the other end of the push claw cam rocker is in transmission connection with the push surface linear driving assembly; one end of the push claw connecting rod is in transmission connection with the push claw cam rocker arm, and the other end of the push claw connecting rod is in transmission connection with the push claw.

9. A multi-station high-speed automatic bowl-dropping and noodle-entering device according to any one of claims 1 to 8, wherein the drum mechanism comprises a divider, a drum transmission shaft, a plurality of bowl clamps, a plurality of bowl clamp driving assemblies, a plurality of top surface parts and a plurality of top surface driving assemblies; the rotating drum transmission shaft is in transmission connection with the divider, and the rotating drum transmission shaft is rotatably arranged on the rack through the divider; all the bowl clamps are arranged on the transmission shaft of the rotary drum at equal intervals, and the bowl clamps are arranged in two rows; all the bowl clamp driving assemblies are arranged on the rotary drum transmission shaft, the bowl clamp driving assemblies are in transmission connection with the bowl clamps, and the bowl clamps can reciprocate along the vertical direction through the bowl clamp driving assemblies; the top surface part is arranged on the transmission shaft of the rotary drum, and the top surface part is arranged corresponding to the bowl clamp; the top surface driving assembly is arranged on the transmission shaft of the rotary drum, is in transmission connection with the top surface part, and can reciprocate along the vertical direction through the top surface driving assembly.

10. The multi-station high-speed automatic bowl falling and noodle entering device according to any one of claims 1 to 8, wherein the bowl receiving mechanism comprises a plurality of bowl receiving trays, a plurality of bowl receiving ejector rods and a plurality of bowl receiving driving assemblies; all the bowl receiving driving assemblies are arranged on the second conveying mechanism and arranged in rows; one end of the bowl receiving ejector rod is in transmission connection with the bowl receiving driving assembly, the bowl receiving ejector rod is arranged corresponding to the bowl receiving driving assembly, and the bowl receiving ejector rod can reciprocate along the vertical direction through the bowl receiving driving assembly; the bowl receiving tray is arranged at the other end of the bowl receiving ejector rod.