CN211091597U - Automatic semi-dry noodle forming machine - Google Patents

Abstract

The utility model discloses an automatic semi-dry noodle forming machine, which comprises a power supply and a controller, wherein the power supply is electrically connected with the controller, and the machine also comprises a frame, a rod feeding mechanism, a rod hanging mechanism, a noodle feeding mechanism, a first conveying chain, a cutting mechanism and a wet noodle conveying mechanism, wherein a rod feeding cavity, a rod hanging cavity and a noodle feeding cavity are sequentially formed in the frame from left to right; the rod feeding mechanism is arranged in the rod feeding cavity to convey the noodle rod; the hanging rod mechanism is arranged in the hanging rod cavity and corresponds to the output end of the surface rod of the rod feeding mechanism; the noodle conveying mechanism is arranged in the noodle conveying cavity and corresponds to the output end of the hanging rod mechanism, and the output end of the noodle conveying mechanism is connected with the first conveying chain to convey the noodles to the drying chamber; the cutting mechanism is fixed on the rack and positioned above the hanging rod mechanism; the wet face conveying mechanism is arranged on one side of the cutting mechanism close to the rod feeding mechanism and corresponds to the cutting mechanism. The utility model discloses can automatic fixed length cut, automatic transport, automatic peg, realize half dry face one shot forming.

Description

Automatic semi-dry noodle forming machine

Technical Field

The utility model relates to an automation equipment technical field, more specifically the utility model relates to a half dry face automatic molding machine that says so.

Background

In recent years, with the rapid development of economy in China, the requirements of people on food are higher and higher, and people do not limit convenience and convenience but pay more and more attention to the taste and the nutritional value of food. Therefore, products such as semi-dry noodles, wet noodles and the like at the high end of the flour products are more and more popular with domestic consumers, and the consumption proportion of the products is also increased.

However, since the domestic technology for producing semi-dry noodles is still relatively laggard and cannot form a certain market scale, the semi-dry noodles produced by traditional industrial production and small workshops have the defects of single nutrient content, less yield, difficulty in guaranteeing the food sanitation of noodles and incapability of meeting the requirements of consumers and market development. Although some flour product production enterprises in China can produce semi-dry noodles with certain quality at present, the processing technology and key equipment of the semi-dry noodles are mainly in a manual semi-automatic processing mode or depend on advanced equipment imported from abroad. The condition increases the production cost of enterprises, and the price of the produced semi-dry noodle finished product is higher.

Therefore, it is an urgent problem to provide an automatic molding machine for semi-dry noodles with high efficiency and low cost.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a half dry face automatic molding machine has solved the artifical or semi-automatic peg technique of traditional half dry face production not enough on efficiency scheduling problem, can automatic fixed length cut, automatic transport, automatic peg, has realized half dry face one shot forming.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic semi-dry noodle forming machine comprises a power supply and a controller, wherein the power supply is electrically connected with the controller, the machine also comprises a frame, a rod conveying mechanism, a rod hanging mechanism, a noodle conveying mechanism, a first conveying chain, a cutting mechanism and a wet noodle conveying mechanism,

a rod feeding cavity, a rod hanging cavity and a surface feeding cavity are sequentially formed in the rack from left to right;

the rod feeding mechanism is arranged in the rod feeding cavity to convey noodle rods;

the hanging rod mechanism is arranged in the hanging rod cavity and corresponds to the output end of the surface rod of the rod feeding mechanism;

the noodle conveying mechanism is arranged in the noodle conveying cavity and corresponds to the output end of the hanging rod mechanism, and the output end of the noodle conveying mechanism is connected with the first conveying chain to convey noodles to the drying chamber;

the cutting mechanism is fixed on the rack and positioned above the hanging rod mechanism;

the wet surface conveying mechanism is arranged on one side of the cutting mechanism close to the rod feeding mechanism and corresponds to the cutting mechanism;

the rod feeding mechanism, the rod hanging mechanism, the noodle feeding mechanism and the cutting mechanism are respectively electrically connected with the controller.

Further, the rod feeding mechanism comprises a first driving wheel, a first idle wheel, a second conveying chain, a first speed reducing motor, a first V-shaped belt, a plurality of first rod feeding assemblies, a noodle rod storage cavity, a rod clamping plate and a first sensor,

the first driving wheel and the first idler wheel on one side below the first driving wheel are arranged on the rack and connected through the second conveying chain; the first driving wheel is in transmission connection with the first speed reducing motor below the first driving wheel through the first V-shaped belt;

a plurality of first conveying rod assemblies are arranged outside the second conveying chain in a close sequence;

the second conveying chain is provided with a noodle rod storage cavity fixed on the rack on one side so as to provide noodle rods for the first conveying rod assembly;

the clamping rod plates are arranged on the rack and distributed along the tangential direction of the first driving wheel;

the first sensor is installed on the rack and is arranged below the clamping rod plate to correspond to the clamping rod plate; the first sensor is electrically connected with the controller, and the controller is electrically connected with the first speed reduction motor.

Furthermore, the first rod feeding assembly comprises three square plates and a U-shaped plate, and the three square plates and the U-shaped plate are sequentially and tightly connected into a whole.

Further, the hanging rod mechanism comprises a second driving wheel, a third idle wheel, a fourth idle wheel, a third conveying chain, a second speed reducing motor, a second V-shaped belt, a plurality of second rod conveying assemblies, a hanging rod angle adjusting plate and a second sensor,

the second driving wheel, the third idler wheel and the fourth idler wheel are arranged on the rack to form a triangle and are connected through the third conveying chain; the second driving wheel is in transmission connection with a second speed reducing motor below the second driving wheel through a second V-shaped belt;

the second conveying rod assemblies are arranged outside the third conveying chain at equal intervals;

the hanging rod angle adjusting plate is mounted on the rack and is close to the fourth idler wheel;

the second sensor is arranged on the frame and corresponds to the fourth idler wheel; the second sensor is electrically connected with the controller, and the controller is electrically connected with the second speed reduction motor.

Furthermore, the second rod feeding assembly comprises a first clamping block and a second clamping block, the length of the second clamping block is larger than that of the first clamping block, and a surface rod is clamped between the first clamping block and the second clamping block.

Further, the face conveying mechanism comprises a third driving wheel, a fifth idle wheel, a sixth idle wheel, a seventh idle wheel, an eighth idle wheel, a fourth conveying chain, a third speed reducing motor, a third V-shaped belt, a third clamping block, a guide plate, a supporting plate and a third sensor,

the third driving wheel, the fifth idler wheel, the sixth idler wheel and the eighth idler wheel are sequentially mounted on the rack from bottom to top, and the third driving wheel, the fifth idler wheel, the sixth idler wheel, the seventh idler wheel and the eighth idler wheel are connected through the fourth conveying chain; the third driving wheel is in transmission connection with the third speed reducing motor fixed on the rack through the third V-shaped belt;

the third clamping blocks are installed on the outer side of the fourth conveying chain between the fifth idler wheel and the eighth idler wheel at equal intervals;

the guide plate is fixed on the rack and positioned on the inner side of the fourth conveying chain between the fifth idler wheel and the eighth idler wheel;

the seventh idler pulley is fixed on the guide plate through the support plate;

the third sensor is arranged on the frame and corresponds to the fifth idle wheel; the third sensor is electrically connected with the controller, and the controller is electrically connected with the third speed reduction motor.

Further, the cutting mechanism comprises a cutting mechanism body and a bracket, and the cutting mechanism body is fixed on the rack through the bracket; the cutting mechanism body comprises a cutter component, a roller component, a bearing group, a first gear, a second gear, a fourth speed reducing motor and a fourth sensor,

the cutter assembly and the roller assembly are mounted and supported on the bracket through the bearing group, the extending end of the cutter shaft of the cutter assembly extends out of the bracket, and the end part of the cutter shaft is provided with the first gear;

the extension end of the roller shaft of the roller assembly extends out of the bracket, the end part of the extension end of the roller shaft is provided with the second gear, and the first gear is meshed with the second gear;

the output end of the fourth speed reducing motor is fixedly connected with the cutter assembly into a whole; the fourth sensor is arranged on the rack and corresponds to the cutter assembly; the fourth sensor is electrically connected with the controller, and the controller is electrically connected with the fourth speed reduction motor.

Furthermore, wet face conveying mechanism includes bracing piece and wet face conveyer belt, the bracing piece supports wet face conveyer belt one end is in order to convey wet face extremely shutdown mechanism.

Further, the controller is of the model number SIMATICS 7-200.

Through taking above scheme, the beneficial effects of the utility model are that:

the utility model discloses a full automatization, high efficiency, the automatic cutout peg mechanism that satisfies the actual production demand, this mechanism mechanical part by send rod mechanism, shutdown mechanism, peg mechanism, send face mechanism and frame to constitute, can automatic fixed length cut, automatic transport, automatic peg, realized half-dry face one shot forming, this mechanism is the important link and the key node that realize half-dry face automated production, has great realistic meaning to the industrial production of whole half-dry face.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic diagram of the overall structure of an automatic semi-dry noodle forming machine according to the present invention;

fig. 2 is a schematic structural view of a rod feeding mechanism of an automatic semi-dry noodle forming machine provided by the present invention;

fig. 3 is a schematic structural view of a hanging rod mechanism of an automatic semi-dry noodle forming machine provided by the utility model;

fig. 4 is a schematic structural view of a noodle feeding mechanism of an automatic semi-dry noodle forming machine provided by the present invention;

fig. 5 is a schematic structural diagram of a cutting mechanism of an automatic semi-dry noodle forming machine according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-5, the embodiment of the utility model discloses an automatic semi-dry noodle forming machine, which comprises a power supply and a controller, wherein the power supply is electrically connected with the controller, the machine further comprises a frame 1, a rod feeding mechanism 2, a rod hanging mechanism 3, a surface feeding mechanism 4, a first conveying chain 5, a cutting mechanism 6 and a wet noodle conveying mechanism 7, and a rod feeding cavity, a rod hanging cavity and a noodle feeding cavity are sequentially formed in the frame 1 from left to right; the rod feeding mechanism 2 is arranged in the rod feeding cavity to feed the noodle rods; the hanging rod mechanism 3 is arranged in the hanging rod cavity and corresponds to the output end of the surface rod of the rod feeding mechanism 2; the noodle conveying mechanism 4 is arranged in the noodle conveying cavity and corresponds to the output end of the hanging rod mechanism 3, and the output end of the noodle conveying mechanism 4 is connected with the first conveying chain 5 to convey the noodles to the drying chamber; the cutting mechanism 6 is fixed on the frame 1 and is positioned above the hanging rod mechanism 3; the wet face conveying mechanism 7 is arranged on one side of the cutting mechanism 6 close to the rod feeding mechanism 2 and corresponds to the cutting mechanism 6; the rod feeding mechanism 2, the rod hanging mechanism 3, the surface feeding mechanism 4 and the cutting mechanism 6 are respectively electrically connected with the controller. The utility model discloses a full automatization, high efficiency, the automatic cutout peg mechanism who satisfies the actual production demand, this mechanism mechanical part is by sending pole mechanism 2, shutdown mechanism 6, peg mechanism 3, send face mechanism 4 and frame 1 to constitute, can cut by automatic fixed length, automatic transport, automatic peg, has realized half-dry face one shot forming, and this mechanism is the important link and the key node that realize half-dry face automated production, has great realistic meaning to the industrial production of whole half-dry face.

Specifically, the rod conveying mechanism 2 comprises a first driving wheel 21, a first idle wheel 22, a second conveying chain 23, a first speed reduction motor 24, a first V-shaped belt 25, a plurality of first rod conveying assemblies, a noodle rod storage cavity 26, a rod clamping plate 27 and a first sensor 28, wherein the first driving wheel 21 and the first idle wheel 22 on one side below the first driving wheel are installed on the rack 1 and connected through the second conveying chain 23; the first driving wheel 21 is in transmission connection with a first speed reducing motor 24 below the first driving wheel through a first V-shaped belt 25; a plurality of first feed rod assemblies are arranged outside the second conveying chain 23 in a close sequence; the second conveying chain 23 is provided with a noodle rod storage cavity 26 fixed on the frame 1 at one side to provide noodle rods for the first feeding rod component; the clamping rod plates 27 are arranged on the frame 1 and distributed along the tangential direction of the first driving wheel 21; the first sensor 28 is installed on the frame 1 and is arranged below the clamping rod plate 27 to correspond to the clamping rod plate; the first sensor 28 is electrically connected to the controller, which is electrically connected to the first reduction motor 24. Wherein, the first send the pole subassembly to include three square boards 29 and a U type board 210, three square boards 29 and U type board 210 be in proper order zonulae occludens as an organic whole. When the noodle hanging rod mechanism operates, the rod conveying mechanism 2 mainly drives the first driving wheel 21 through the first speed reducing motor 24, the first driving wheel 21 drives the second conveying chain 23 to enable the first idle wheel 22 to rotate, the whole conveying chain starts to move, then the first rod conveying assembly on the second conveying chain 23 also starts to move, when the noodle hanging rod mechanism moves to the position of the noodle rod storage cavity 26, the U-shaped plate 210 structure in the first rod conveying assembly can automatically take out noodle rods, the noodle rods are conveyed to the top end through the second conveying chain 23 and then conveyed to the rod hanging mechanism 3 through the rod clamping plate 27 arranged on the tangential direction of the first driving wheel 21, and the first sensor 28 is arranged on the rack 1 near the rod clamping plate 27 and used for detecting a noodle rod signal to control the start and stop of the first speed reducing motor 24.

Specifically, the hanging rod mechanism 3 comprises a second driving wheel 31, a third idle wheel 32, a fourth idle wheel 33, a third conveying chain 34, a second speed reducing motor 35, a second V-shaped belt 36, a plurality of second rod conveying assemblies, a hanging rod angle adjusting plate 37 and a second sensor 38, wherein the second driving wheel 31, the third idle wheel 32 and the fourth idle wheel 33 are arranged on the frame 1 to form a triangular shape and are connected through the third conveying chain 34; the second driving wheel 31 is in transmission connection with a second speed reducing motor 35 below the second driving wheel through a second V-shaped belt 36; a plurality of second feed rod assemblies are arranged outside the third conveying chain 34 at equal intervals; the hanging rod angle adjusting plate 37 is arranged on the frame 1 and is close to the fourth idle wheel 33; the second sensor 38 is mounted on the frame 1 and corresponds to the fourth idle wheel 33; the second sensor 38 is electrically connected to the controller, and the controller is electrically connected to the second reduction motor 35. The second rod feeding assembly comprises a first fixture block 39 and a second fixture block 310, the length of the second fixture block 310 is larger than that of the first fixture block 39, and a surface rod is clamped between the first fixture block 39 and the second fixture block 310. When the noodle maker operates, the hanging rod mechanism 3 mainly drives the second driving wheel 31 through the second speed reducing motor 35, the second driving wheel 31 drives the third conveying chain 34 to enable the third idle wheel 32 and the fourth idle wheel 33 to rotate, so that the whole conveying chain starts to move, and then the second hanging rod assembly on the third conveying chain 34 also starts to move, when the second hanging rod assembly grabs the noodle rod conveyed by the rod conveying mechanism 2, the wet noodle cut-off mechanism 6 can timely cut off through judgment of the second sensor 38, the fixed-length wet noodle can automatically fall onto the noodle rod, the noodle rod is conveyed to the front end of the hanging rod mechanism 3 through the third conveying chain 34, and then is conveyed to the noodle conveying mechanism 4 through the hanging rod angle adjusting plate 37.

Specifically, the face conveying mechanism 4 includes a third driving wheel 41, a fifth idle wheel 42, a sixth idle wheel 43, a seventh idle wheel 44, an eighth idle wheel 45, a fourth conveying chain 46, a third speed reduction motor 47, a third V-belt 48, a third block 49, a guide plate 410, a support plate 411 and a third sensor 412, the third driving wheel 41, the fifth idle wheel 42, the sixth idle wheel 43 and the eighth idle wheel 45 are sequentially mounted on the frame 1 from bottom to top, and the third driving wheel 41, the fifth idle wheel 42, the sixth idle wheel 43, the seventh idle wheel 44 and the eighth idle wheel 45 are connected through the fourth conveying chain 46; the third driving wheel 41 is in transmission connection with a third speed reducing motor 47 fixed on the frame 1 through a third V-shaped belt 48; the third clamping blocks 49 are installed at equal intervals outside the fourth conveying chain 46 between the fifth idle wheel 42 and the eighth idle wheel 45; the guide plate 410 is fixed on the frame 1 and is positioned inside the fourth conveying chain 46 between the fifth idler pulley 42 and the eighth idler pulley 45; the seventh idle gear 44 is fixed to the guide plate 410 by a support plate 411; a third sensor 412 is mounted on the frame 1 and corresponds to the fifth idler pulley 42; the third sensor 412 is electrically connected to the controller, and the controller is electrically connected to the third reduction motor 47. When the noodle drying machine operates, the noodle conveying mechanism 4 mainly drives the third driving wheel 41 through the third speed reducing motor 47, the third driving wheel 41 drives the fourth conveying chain 46 to enable the four idle wheels to rotate, the whole conveying chain starts to move, then the third clamping block 49 on the fourth conveying chain starts to move, noodle rods conveyed from the hanging rod mechanism 3 automatically fall to the third clamping block 49 of the noodle conveying mechanism 4 through the hanging rod angle adjusting plate 37, then the noodle rods ascend to the highest point along with the movement of the fourth conveying chain 46 and are conveyed to the first conveying chain 5, and then the noodle rods are conveyed to the drying chamber to be dried finally.

Specifically, the cutting mechanism 6 comprises a cutting mechanism body and a bracket 61, and the cutting mechanism body is fixed on the rack 1 through the bracket 61; the cutting mechanism body comprises a cutter assembly 62, a roller assembly 63, a bearing group 64, a first gear 65, a second gear 66, a fourth speed reducing motor 67 and a fourth sensor, wherein the cutter assembly 62 and the roller assembly 63 are mounted and supported on the bracket 61 through the bearing group 64, the extension end of the cutter shaft of the cutter assembly 62 extends out of the bracket 61, and the end part of the cutter shaft is provided with the first gear 65; the roller shaft extending end of the roller assembly 63 extends out of the bracket 61, the end part of the roller shaft extends out of the bracket 61, a second gear 66 is arranged on the end part of the roller shaft, and a first gear 65 is meshed with the second gear 66; the output end of the fourth speed reducing motor 67 is fixedly connected with the cutter component 62 into a whole; the fourth sensor is arranged on the frame 1 and corresponds to the cutter component 62; the fourth sensor is electrically connected with the controller, and the controller is electrically connected with the fourth speed reduction motor 67. When the cutting mechanism 6 is operated, the cutter assembly 62 is driven to rotate by the fourth speed reduction motor 67, the first gear 65 on the cutter assembly 62 drives the second gear 66, the second gear 66 drives the roller assembly 63 to rotate, the wet noodles on the roller assembly 63 naturally fall under the action of the rotating force, after the cutter assembly 62 rotates for a circle, the wet noodles are naturally cut off, and the cut wet noodles fall onto the noodle rod on the hanging rod mechanism 3.

Specifically, the wet noodle conveying mechanism 7 includes a support rod 71 and a wet noodle conveying belt 72, and the support rod 71 is supported at one end of the wet noodle conveying belt 72 to convey the wet noodle to the cutting mechanism 6.

Specifically, the controller is model number SIMATICS 7-200.

The working process of the utility model is as follows:

the wet noodles are conveyed to the roller assembly 63 of the cutting mechanism 6 from the wet noodle conveying belt 72, and naturally fall along with the rotating roller assembly 63, after the cutter assembly 62 rotates for one circle, the wet noodles can be cut at a natural fixed length, the cut wet noodles can fall onto noodle rods on the hanging rod mechanism 3, the noodle rods are obtained from the noodle rod storage cavity 26 through a U-shaped plate 210 on the rod conveying mechanism and are conveyed to the hanging rod mechanism 3 through a second conveying chain 23, the noodle rods on the hanging rod mechanism 3 are conveyed to the noodle conveying mechanism 4 through a third conveying chain 34 after obtaining the wet noodles, and are finally conveyed to a drying chamber through a first conveying chain 5 for final drying treatment, and the whole system is respectively provided with a first sensor 28, a second sensor 38, a third sensor 412 and a fourth sensor at the running joint of the rod conveying mechanism 2, the hanging rod mechanism 3, the noodle conveying mechanism 4 and the cutting mechanism 6 to timely detect the running positions of the noodle rods, thereby controlling the start and stop of the respective speed reducing motors.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. An automatic semi-dry noodle forming machine comprises a power supply and a controller, wherein the power supply is electrically connected with the controller, and the machine is characterized by also comprising a frame, a rod conveying mechanism, a rod hanging mechanism, a noodle conveying mechanism, a first conveying chain, a cutting mechanism and a wet noodle conveying mechanism,

a rod feeding cavity, a rod hanging cavity and a surface feeding cavity are sequentially formed in the rack from left to right;

the rod feeding mechanism is arranged in the rod feeding cavity to convey noodle rods;

the hanging rod mechanism is arranged in the hanging rod cavity and corresponds to the output end of the surface rod of the rod feeding mechanism;

the noodle conveying mechanism is arranged in the noodle conveying cavity and corresponds to the output end of the hanging rod mechanism, and the output end of the noodle conveying mechanism is connected with the first conveying chain to convey noodles to the drying chamber;

the cutting mechanism is fixed on the rack and positioned above the hanging rod mechanism;

the wet surface conveying mechanism is arranged on one side of the cutting mechanism close to the rod feeding mechanism and corresponds to the cutting mechanism;

the rod feeding mechanism, the rod hanging mechanism, the noodle feeding mechanism and the cutting mechanism are respectively electrically connected with the controller.

2. The automatic semi-dry noodle forming machine according to claim 1, wherein the bar feeding mechanism comprises a first driving wheel, a first idle wheel, a second conveying chain, a first speed reduction motor, a first V-shaped belt, a plurality of first bar feeding assemblies, a noodle bar storage chamber, a bar clamping plate and a first sensor,

the first driving wheel and the first idler wheel on one side below the first driving wheel are arranged on the rack and connected through the second conveying chain; the first driving wheel is in transmission connection with the first speed reducing motor below the first driving wheel through the first V-shaped belt;

a plurality of first conveying rod assemblies are arranged outside the second conveying chain in a close sequence;

the second conveying chain is provided with a noodle rod storage cavity fixed on the rack on one side so as to provide noodle rods for the first conveying rod assembly;

the clamping rod plates are arranged on the rack and distributed along the tangential direction of the first driving wheel;

the first sensor is installed on the rack and is arranged below the clamping rod plate to correspond to the clamping rod plate; the first sensor is electrically connected with the controller, and the controller is electrically connected with the first speed reduction motor.

3. The automatic semi-dry noodle forming machine according to claim 2, wherein the first feeding rod assembly comprises three square plates and a U-shaped plate, and the three square plates and the U-shaped plate are sequentially and tightly connected into a whole.

4. The automatic semi-dry noodle forming machine according to claim 1, wherein the hanging bar mechanism comprises a second driving wheel, a third idle wheel, a fourth idle wheel, a third conveying chain, a second speed reduction motor, a second V-shaped belt, a plurality of second bar feeding assemblies, a hanging bar angle adjusting plate and a second sensor,

the second driving wheel, the third idler wheel and the fourth idler wheel are arranged on the rack to form a triangle and are connected through the third conveying chain; the second driving wheel is in transmission connection with a second speed reducing motor below the second driving wheel through a second V-shaped belt;

the second conveying rod assemblies are arranged outside the third conveying chain at equal intervals;

the hanging rod angle adjusting plate is mounted on the rack and is close to the fourth idler wheel;

the second sensor is arranged on the frame and corresponds to the fourth idler wheel; the second sensor is electrically connected with the controller, and the controller is electrically connected with the second speed reduction motor.

5. The automatic semi-dry noodle forming machine according to claim 4, wherein the second rod feeding assembly comprises a first clamping block and a second clamping block, the length of the second clamping block is larger than that of the first clamping block, and a noodle rod is clamped between the first clamping block and the second clamping block.

6. The automatic semi-dry noodle forming machine according to claim 1, wherein the noodle conveying mechanism comprises a third driving wheel, a fifth idle wheel, a sixth idle wheel, a seventh idle wheel, an eighth idle wheel, a fourth conveying chain, a third speed reduction motor, a third V-shaped belt, a third clamping block, a guide plate, a support plate and a third sensor,

the third driving wheel, the fifth idler wheel, the sixth idler wheel and the eighth idler wheel are sequentially mounted on the rack from bottom to top, and the third driving wheel, the fifth idler wheel, the sixth idler wheel, the seventh idler wheel and the eighth idler wheel are connected through the fourth conveying chain; the third driving wheel is in transmission connection with the third speed reducing motor fixed on the rack through the third V-shaped belt;

the third clamping blocks are installed on the outer side of the fourth conveying chain between the fifth idler wheel and the eighth idler wheel at equal intervals;

the guide plate is fixed on the rack and positioned on the inner side of the fourth conveying chain between the fifth idler wheel and the eighth idler wheel;

the seventh idler pulley is fixed on the guide plate through the support plate;

the third sensor is arranged on the frame and corresponds to the fifth idle wheel; the third sensor is electrically connected with the controller, and the controller is electrically connected with the third speed reduction motor.

7. The automatic semi-dry noodle forming machine according to claim 1, wherein the cutting mechanism comprises a cutting mechanism body and a bracket, the cutting mechanism body is fixed on the frame through the bracket; the cutting mechanism body comprises a cutter component, a roller component, a bearing group, a first gear, a second gear, a fourth speed reducing motor and a fourth sensor,

the cutter assembly and the roller assembly are mounted and supported on the bracket through the bearing group, the extending end of the cutter shaft of the cutter assembly extends out of the bracket, and the end part of the cutter shaft is provided with the first gear;

the extension end of the roller shaft of the roller assembly extends out of the bracket, the end part of the extension end of the roller shaft is provided with the second gear, and the first gear is meshed with the second gear;

the output end of the fourth speed reducing motor is fixedly connected with the cutter assembly into a whole; the fourth sensor is arranged on the rack and corresponds to the cutter assembly; the fourth sensor is electrically connected with the controller, and the controller is electrically connected with the fourth speed reduction motor.

8. The automatic semi-dry noodle forming machine according to claim 1, wherein the wet noodle conveying mechanism comprises a support bar and a wet noodle conveyor, the support bar being supported at one end of the wet noodle conveyor to convey the wet noodle to the cutting mechanism.

9. An automatic machine for forming semi-dry noodles according to claim 1, wherein said controller is of the type SIMATICS 7-200.

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