CN218898114U - Vermicelli strip machine - Google Patents

Abstract

The utility model discloses a noodle machine, which comprises a first chain, a gear and a supporting rail, wherein the first chain is in a closed curve shape and is used for conveying fine dried noodles, the gear is meshed with the first chain, the supporting rail is used for tensioning the first chain in a matched mode with the gear, and supporting feet are arranged at the bottom of the supporting rail; the top of the support rail is provided with a rail groove arranged along the path of the support rail; the first chain is arranged in the track groove in a walking way, and the gear abuts against the first chain and tightens the first chain so that the first chain can be driven to walk in the track groove through the gear; the gear is driven to rotate by a driver. According to the utility model, the first chain is tensioned through the support rail and the gear, and then the first chain is driven by the driver to drive the gear to walk, so that the first chain can transmit the dried noodles hung on the support rail, the position of the dried noodles is not required to be manually moved, time and labor are saved, and the length of the first chain can be designed according to the requirement, so that the purpose of hanging more dried noodles is achieved.

Description

Vermicelli strip machine

Technical Field

The utility model relates to a vermicelli device, in particular to a vermicelli machine.

Background

Noodles originate in China and have been made for over four thousand years. The noodles are health care food which is simple to prepare, convenient to eat and rich in nutrition, can be eaten as staple food and fast food, and are accepted and favored by people in the world. After the noodles are manufactured, the noodles to be beaten out need to be cut off by an automatic cutting mechanism when the noodles reach a certain length before the noodles are manufactured, the noodles to be cut off are hung on the hanging rods, one hanging rod is hung fully, the hanging rod is replaced continuously, the hanging rods need to be manually moved along the axis direction of the hanging rod in order to ensure that the noodles are uniform when the noodles are hung on the hanging rod, time and labor are wasted, uniformity of the noodles cannot be guaranteed, the length of the hanging rod is limited, and the hanging rod needs to be continuously replaced.

Disclosure of Invention

1. Technical problem to be solved by the utility model

The utility model aims to overcome the defects, and provides a noodle machine which adopts the technical scheme of the utility model, has the advantages of simple structure and convenient connection, the first chain is tensioned through the support rail and the gear, and then the gear is driven by the driver to drive the first chain to walk, so that the first chain can transmit the dried noodles hung on the support rail, the position of the dried noodles does not need to be manually moved, the time and the labor are saved, and the length of the first chain can be designed according to the requirement, so that the aim of hanging more dried noodles is fulfilled.

2. Technical proposal

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model relates to a noodle machine, which comprises a first chain, a gear and a supporting rail, wherein the first chain is in a closed curve shape and is used for conveying fine dried noodles, the gear is used for being meshed with the first chain, the supporting rail is used for being matched with the gear to tension the first chain, and supporting feet are arranged at the bottom of the supporting rail; the top of the support rail is provided with a rail groove arranged along the path of the support rail; the first chain is arranged in the track groove in a walking way, and the gear abuts against the first chain and tightens the first chain so that the first chain can be driven to walk in the track groove through the gear; the gear is driven to rotate by a driver.

Further, the support rail is a first rail in a closed curve shape, and a gear mounting groove communicated with the rail groove and used for accommodating the gear is formed in the first rail; the gear position is adjustably arranged in the gear mounting groove; the driver is adjustably arranged on a base fixedly connected with the supporting leg along the position adjustment direction of the gear, so that the gear is ensured to be always abutted against the first chain and always tensioned by adjusting the position of the gear; the first rail is optionally provided with a cover plate for covering the gear mounting groove to protect the gear.

Further, a flexible noodle rod for bearing the noodle is arranged above the first track so as to avoid the noodle from contacting with the first chain; the flexible fine dried noodle rod is in a closed curve shape; the curved path of the flexible noodle rod is consistent with the curved path of the first chain, and the flexible noodle rod is connected with the first chain, so that the flexible noodle rod can walk along with the first chain.

Still further, the first chain includes a plurality of joint pins, some or all of which extend upward to form a limit post for connection with the flexible noodle rod; the bottom of the flexible fine dried noodle rod is provided with a containing groove arranged along the curve path of the flexible fine dried noodle rod; the flexible fine dried noodle rod is connected with the first chain in an inserting mode of the limiting column and the accommodating groove, and the flexible fine dried noodle rod is tensioned on the limiting column.

Further, the first rail comprises a large U-shaped rail, a small U-shaped rail and two turning heads, the small U-shaped rail is positioned in the large U-shaped rail, and a first connecting end of the small U-shaped rail is connected with a first connecting end of the large U-shaped rail and a second connecting end of the small U-shaped rail is connected with a second connecting end of the large U-shaped rail through the turning heads; the gear mounting groove is formed in the turning head.

Further, a gear mounting groove is formed in the top of the first track; the bottom of the gear mounting groove is provided with a shaft hole penetrating through the first rail; a gear installation shaft is arranged in the shaft hole in a penetrating way, and the upper part of the gear installation shaft is connected with a first bearing seat through a first bearing; the first bearing seat is adjustably arranged at the bottom of the first track along the length direction of the shaft hole; the upper end of the gear installation shaft is fixedly connected with the gear; the lower part of the gear installation shaft is connected with a second bearing seat through a second bearing; the second bearing is arranged on the base in a position adjustable along the length direction of the shaft hole; the driver is arranged on the base in a position adjustable along the length direction of the shaft hole; the driver is in transmission connection with the lower end of the gear installation shaft.

Further, at least one first mounting hole is formed in the first bearing seat; at least one second mounting hole is formed in the second bearing; at least one third mounting hole is formed in the driver;

an adapter seat is arranged between the first rail and the first bearing seat, a first waist-shaped shaft hole is arranged on the adapter seat at a position corresponding to the shaft hole, a waist-shaped countersink is arranged on the adapter seat corresponding to the first mounting hole, and a first waist-shaped hole is arranged on the base corresponding to the second mounting hole; the base is provided with a second waist-shaped hole corresponding to the third mounting hole; the length direction of the kidney-shaped countersunk head hole, the length direction of the first kidney-shaped shaft hole, the length direction of the first kidney-shaped hole and the length direction of the second kidney-shaped hole are all arranged along the length direction of the shaft hole;

the adapter seat is sleeved outside the gear installation shaft through a first kidney-shaped shaft hole, and is fixedly arranged at the bottom of the first track; the first bearing seat and the adapter seat are fixedly connected with a first nut after passing through the kidney-shaped countersunk head hole and the first mounting hole through a first connecting bolt; the second bearing and the base are fixedly connected with a second nut after passing through the second mounting hole and the first kidney-shaped hole through a second connecting bolt; the driver and the base are connected in a mode of fixedly connecting with a third nut after penetrating through a third mounting hole and a second kidney-shaped hole through a third connecting bolt.

Further, the support rail is a second rail with an open curve shape; the gear position is adjustably arranged between the first end and the second end of the second track, and the driver is adjustably arranged on the base fixedly connected with the supporting leg along the gear position adjusting direction, so that the gear is ensured to be always abutted against the first chain and always tensioned by adjusting the position of the gear.

Further, a plurality of gears are arranged, the gears are meshed with the first chain, and the gears are connected with the driver through a transmission mechanism so as to drive the gears to rotate together through the driver.

Further, the support rail is connected with the base through support legs; casters are optionally provided on the base.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

according to the noodle machine, the driver of the noodle machine works to drive the gear to rotate, and the first chain is arranged in the track groove in a walking way, and the gear abuts against the first chain and tightens the first chain, so that the first chain can be driven to walk in the track groove through the gear, after the cut noodles are hung on the first chain, the cut noodles can be transmitted to the next position through the first chain, further, the cut noodles can be sequentially hung on the first chain, the positions of the noodles do not need to be manually moved, and the length of the first chain can be designed according to requirements, so that the aim of hanging more noodles is fulfilled.

Drawings

FIG. 1 is a schematic view of a fine dried noodle machine according to an embodiment 1 of the present utility model;

FIG. 2 is a schematic view showing the connection between the first rail and the base in embodiment 1 of the vermicelli maker according to the present utility model;

FIG. 3 is a schematic view showing the connection of the gear mounting shaft and the first rail in embodiment 1 of the vermicelli machine according to the present utility model;

FIG. 4 is a schematic view showing the connection of the gear mounting shaft and the driver in embodiment 1 of the vermicelli machine according to the present utility model;

fig. 5 is a cross-sectional view showing the connection of the first rail, the first chain and the flexible noodle rod in embodiment 1 of a noodle maker according to the present utility model;

fig. 6 is a schematic structural view of an embodiment 2 of a vermicelli maker according to the present utility model;

fig. 7 is a cross-sectional view showing connection of the second rail and the first chain in embodiment 2 of the vermicelli maker according to the present utility model.

Reference numerals in the schematic drawings illustrate: 1. supporting feet; 2. a track groove; 3. a first chain; 4. a gear; 5. a driver; 5-1, a third mounting hole; 6. a first track; 6-1, a gear installation groove; 6-2, a shaft hole; 7. a cover plate; 8. a base; 8-1, a first kidney-shaped hole; 8-2, a second kidney-shaped hole; 8-3, a second waist-shaped shaft hole; 8-4, a third waist-shaped shaft hole; 9. a flexible noodle rod; 9-1, a containing groove; 10. a limit column; 11. a gear mounting shaft; 12. a first bearing seat; 12-1, a first mounting hole; 13. an adapter; 14. an adjusting bolt; 15. a driven gear; 16. a drive gear; 17. a second chain; 18. a second bearing seat; 18-1, a second mounting hole; 19. an adapter; 19-1, a first kidney-shaped shaft hole; 19-2, waist-shaped countersunk holes; 20. a second track; 21. a speed reducer.

Detailed Description

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings and examples.

Example 1

Referring to fig. 1, a vermicelli machine of this embodiment includes a first chain 3 for conveying fine dried noodles in a closed curve, a gear 4 for meshing with the first chain 3, a support rail for tensioning the first chain 3 in cooperation with the gear 4, and a driver 5 for driving the gear 4 to rotate.

Continuing to figure 1, the bottom of the support rail is provided with support feet 1; the supporting feet 1 are used for supporting the supporting tracks, in order to avoid the supporting feet 1 from affecting the traveling of the fine dried noodles on the supporting tracks, the width of the supporting tracks is required to be larger than that of the supporting feet 1, namely, the projection of the supporting tracks on the horizontal plane can cover the projection of the supporting feet 1 on the horizontal plane; the support leg 1 is a columnar structure, and a plurality of support legs 1 are provided at intervals along the path of the support rail, but the support leg 1 may be a plate-like structure.

In some embodiments, in order to make the placement of the vermicelli machine more stable, the supporting rail is connected with the base 8 through the supporting feet 1, specifically, the base 8 is in a frame structure; in order to make the noodle machine more convenient to carry, casters (not shown) may be provided on the base 8 at four corners of the base 8, where the casters may be directional wheels, universal wheels, wheels with brakes, or the like.

The top of the support rail is provided with a rail groove 2 arranged along the path of the support rail; the first chain 3 is arranged in the track groove 2 in a walking way, the gear 4 abuts against the first chain 3 and tightens the first chain 3, so that the first chain 3 can be driven to walk in the track groove 2 through the gear 4; the gear 4 is driven to rotate by a driver 5; the specific connection structure of the driver 5 and the gear 4 is various, and the output shaft of the driver 5 extends into the gear mounting groove 6-1 to be connected with the gear 4; the upper end of the gear installation shaft 11 extends into the gear installation groove 6-1 to be connected with the gear 4, the lower end of the gear installation shaft 11 is connected with the output shaft of the driver 5, or the lower end of the gear installation shaft 11 is connected with the output shaft of the driver 5 through a speed reducer, or the lower end of the gear installation shaft 11 is connected with the output shaft of the driver 5 through a belt transmission mechanism or a chain transmission mechanism.

The driver 5 works to drive the gear 4 to rotate, because the first chain 3 can be arranged in the track groove 2 in a walking way, and the gear 4 is tightly abutted against the first chain 3 and tightens the first chain 3, the gear 4 can drive the first chain 3 to walk in the track groove 2, so that the cut fine dried noodles can be transmitted to the next position by the first chain 3 after being hung on the first chain 3, further, the cut fine dried noodles can be sequentially hung on the first chain 3, the fine dried noodles do not need to be manually moved, and the length of the first chain can be designed according to the requirement, so that the purpose of hanging more fine dried noodles is achieved.

In some embodiments, the support rail is used to support the first chain 3 and tension the first chain 3, and the support rail may be linear or curved; in order to enable the fine dried noodles to circularly move under the drive of the first chain 3, the supporting rail is a first rail 6 in a closed curve shape, and a gear mounting groove 6-1 communicated with the rail groove 2 and used for accommodating the gear 4 is arranged on the first rail 6; the gear 4 is hidden in the supporting track, so that the blockage of the gear 4 to the running of the fine dried noodles can be avoided, and the fine dried noodles can run circularly along the curved path of the supporting track under the drive of the first chain 3; the gear mounting groove 6-1 may be provided on the top of the first rail 6 or may be provided on the bottom of the first rail 6.

In this embodiment, the first track 6 is an integral structure, and includes a large U-shaped track, a small U-shaped track and two turning heads, where the small U-shaped track is located in the large U-shaped track, and a first connection end of the small U-shaped track is connected with a first connection end of the large U-shaped track, and a second connection end of the small U-shaped track is connected with a second connection end of the large U-shaped track through the turning heads; the gear mounting groove 6-1 is provided on the elbow.

In some embodiments, the first rail 6 may be optionally provided with a cover 7 for covering the gear mounting groove 6-1 to protect the gear 4, and the gear mounting groove 6-1 may be prevented from being exposed by the cover 7 when considering the problem that the gear mounting groove 6-1 is open and the gear 4 may be contaminated.

In some embodiments, the first chain 3 directly carries the dried noodles, although the purpose of enabling the cut dried noodles to be sequentially hung on the first chain can be achieved theoretically, in consideration of food sanitation and other factors, the first chain 3 cannot be lubricated, and thus the service life of the noodle machine can be affected, so that in order to solve the above problem, the purpose of enabling the cut dried noodles to be sequentially hung on the first chain and guaranteeing the service life of the first chain is achieved, which is that: a flexible noodle rod 9 for bearing the noodle is arranged above the first track 6 so as to avoid the noodle from contacting with the first chain 3; the flexible fine dried noodle rod 9 is in a closed curve shape; the curved path of the flexible vermicelli rod 9 coincides with the curved path of the first chain 3, and the flexible vermicelli rod 9 is connected with the first chain 3 so that the flexible vermicelli rod 9 can walk together with the first chain 3; the flexible noodle rod 9 is used for bearing the noodle, so that the noodle can be prevented from directly contacting the first chain 3, and in order to ensure that the noodle can not contact the first chain 3, the projection of the flexible noodle rod 9 on the horizontal plane can be required to cover the projection of the first chain 3 on the horizontal plane, and of course, the flexible noodle rod 9 can also be required to be arranged at the top of the first track 6, and the first chain 3 is arranged in a cavity formed by the flexible noodle rod 9 and the track groove 2; in addition, since the flexible noodle rod 9 is flexible, the flexible noodle rod 9 can be deformed, and the flexible noodle rod 9 can walk along with the first chain 3, and in this embodiment, the flexible noodle rod 9 is made of a silica gel material.

Specifically, the connection structure of the first chain 3 and the flexible noodle rod 9 is as follows: referring to fig. 5, the first chain 3 comprises a plurality of joint pins, some or all of which extend upwards to form a limit post 10 for connection with the flexible fine dried noodle rod 9; the bottom of the flexible fine dried noodle rod is provided with a corresponding limit post 10 to be provided with a jack, so that the flexible fine dried noodle rod can be connected with the first chain 3 in a plugging manner through the limit post 10 and the jack; considering the problem that the jack is processed corresponding to the limit post 10 at the bottom of the flexible fine dried noodle rod, the time and the labor are wasted, the bottom of the flexible fine dried noodle rod 9 is provided with the accommodating groove 9-1 arranged along the curve path of the flexible fine dried noodle rod 9, the accommodating groove is fast to process, and the accommodating groove does not need to be processed in one-to-one correspondence with the limit post 10; the flexible fine dried noodle rod 9 is connected with the first chain 3 in a way of being spliced with the accommodating groove 9-1 through the limiting column 10, wherein the flexible fine dried noodle rod 9 is tensioned on the limiting column 10.

In some embodiments, the gears 4 are used to drive the first chain 3 to walk and tension the first chain 3, the number of the gears 4 may be one or more, for one gear 4, corresponding to one driver 5, and for a plurality of gears 4, the gears 4 may be controlled independently, i.e. one gear 4 corresponds to one driver 5, or the gears 4 may be linked, i.e. the gears 4 correspond to one driver 5, and the driver 5 is connected to the gears 4 through a transmission mechanism, so that the gears 4 are driven to rotate together by the driver 5.

In some embodiments, referring to fig. 3 and 2, after the noodle machine is used for a long time, the first chain is loosened, so that the gear 4 cannot drive the first chain 3 to walk, in order to solve the above problem, it is ensured that the gear 4 is always close to the first chain 3 and always tightens the first chain 3, and it is proposed that: the gear 4 is adjustably arranged in the gear mounting groove 6-1; the driver 5 is arranged on a base 8 for fixing with the supporting leg 1 in a position adjustable way along the position adjusting direction of the gear 4.

Specifically, the top of the first track 6 is provided with a gear mounting groove 6-1, the groove bottom of the gear mounting groove 6-1 is provided with a shaft hole 6-2 penetrating through the first track, specifically, the top of the turning head is provided with the gear mounting groove 6-1, and the shaft hole 6-2 penetrates through the turning head; a gear installation shaft 11 is arranged in the shaft hole 6-2 in a penetrating way, and the aperture of the shaft hole 6-2 is larger than the diameter of the gear installation shaft 11; the upper part of the gear installation shaft 11 is connected with a first bearing seat 12 through a first bearing; the first bearing seat 12 is adjustably arranged at the bottom of the first track 6, and in particular, the first bearing seat 12 is arranged at the bottom of the elbow; the upper end of the gear installation shaft 11 is fixedly connected with the gear 4; the lower part of the gear installation shaft 11 is connected with a second bearing 18 through a second bearing; the second bearing seat 18 is arranged on the base 8 in a position adjustable manner; the driver 5 is arranged on the base 8 in a position adjustable way; the driver 5 is in transmission connection with the lower end of the gear mounting shaft 11.

Specifically, the connection structure between the first bearing seat 12 and the first rail 6, the second bearing seat 18 and the base 8, and the driver 5 and the base 8 is as follows: the first bearing seat 12 is provided with at least one first mounting hole 12-1; at least one second mounting hole 18-1 is provided on the second bearing seat 18; the driver 5 is provided with at least one third mounting hole 5-1;

an adapter seat 19 is arranged between the first rail 6 and the first bearing seat 12, a first kidney-shaped shaft hole 19-1 is arranged on the adapter seat 19 at a position corresponding to the shaft hole 6-2, and a kidney-shaped countersunk head hole 19-2 is arranged on the adapter seat 19 corresponding to the first mounting hole 12-1; specifically, the adapter seat 19 is formed by fixedly connecting a first adapter plate and a second adapter plate together; the upper end of the first kidney-shaped shaft hole 19-1 is arranged on the first adapter plate, and the lower end of the first kidney-shaped shaft hole 19-1 is arranged on the second adapter plate; the large kidney-shaped hole of the kidney-shaped countersunk head hole 19-2 is arranged on the first adapter plate, and the small kidney-shaped hole of the kidney-shaped countersunk head hole 19-2 is arranged on the second adapter plate;

the base 8 is provided with a first waist-shaped hole 8-1 corresponding to the second mounting hole 18-1; the base 8 is provided with a second waist-shaped hole 8-2 corresponding to the third mounting hole 5-1; the length direction of the kidney-shaped countersunk head hole 19-2, the length direction of the first kidney-shaped shaft hole 19-1, the length direction of the first kidney-shaped hole 8-1 and the length direction of the second kidney-shaped hole 8-2 are consistent;

the adapter 19 is sleeved outside the gear installation shaft 11 through a first kidney-shaped shaft hole 19-1, and the adapter 19 is fixedly arranged at the bottom of the first track 6, specifically, the adapter 19 is fixedly arranged at the bottom of the elbow; the first bearing seat 12 and the adapter seat 19 are fixedly connected with a first nut after passing through the kidney-shaped countersunk holes 19-2 and the first mounting holes 12-1 through a first connecting bolt; the second bearing seat 18 and the base 8 are fixedly connected with a second nut after passing through the second mounting hole 18-1 and the first kidney-shaped hole 8-1 through a second connecting bolt; the driver 5 and the base 8 are fixedly connected with a third nut after passing through the third mounting hole 5-1 and the second kidney-shaped hole 8-2 through a third connecting bolt.

Specifically, the structure of the transmission connection between the driver 5 and the lower end of the gear installation shaft 11 is as follows: referring to fig. 4 and 2, the lower end of the gear mounting shaft 11 is in transmission connection with the output shaft of the driver 5 through a chain transmission assembly; specifically, a second kidney-shaped shaft hole 8-3 for the gear installation shaft 11 to pass through and a third kidney-shaped shaft hole 8-4 for the output shaft of the driver 5 to pass through are formed in the base, and the length direction of the third kidney-shaped shaft hole 8-4 and the length direction of the second kidney-shaped shaft hole 8-3 are consistent with the length direction of the first kidney-shaped shaft hole 1 9-1; the chain transmission assembly comprises a driven gear 15, a driving gear 16 and a second chain 17, wherein the lower end of the gear installation shaft 11 passes through the second kidney-shaped shaft hole 8-3 and then is fixedly connected with the driven gear 15, and the output shaft of the driver 5 passes through the third kidney-shaped shaft hole 8-4 and then is fixedly connected with the driving gear 16; the second chain 17 is tensioned between the driven gear 15 and the driving gear 16; further, gears 4 are arranged in the gear mounting grooves 6-1 of the two elbow heads, two corresponding gear mounting shafts 11 are arranged, and two groups of corresponding chain transmission components are arranged.

Example 2

The basic structure of the vermicelli machine of this embodiment is the same as that of embodiment 1, and the difference is that: referring to fig. 6 and 7, the support rail is a second rail 20 having an open curve shape; the gear 4 is arranged between the first end and the second end of the second track 20; specifically, the support rail comprises a small U-shaped rail, an L-shaped rail, a straight rail and two turning heads, wherein one end of the small U-shaped rail is connected with one end of the L-shaped rail, and the other end of the small U-shaped rail is connected with one end of the straight rail through the turning heads; the other end of the L-shaped track and the other end of the straight track are the first and second ends of the second track 20, respectively.

In order to ensure that the gear wheel always abuts against the first chain 3 and always tightens the first chain 3 by adjusting the position of the gear wheel 4, the gear wheel 4 is adjustably positioned between the first end and the second end of the second rail 20, and the driver 5 is adjustably positioned on the base 8 for fixedly connecting with the supporting leg 1 along the position adjustment direction of the gear wheel 4; specifically, the gear 4 is connected with the output end of the speed reducer 21, the speed reducer 21 is fixedly arranged on the driver 5, and the output shaft of the driver 5 is connected with the input end of the speed reducer 21; the driver 5 is provided with at least one third mounting hole 5-1; the base 8 is provided with a second waist-shaped hole 8-2 corresponding to the third mounting hole 5-1; the driver 5 and the base 8 are fixedly connected with a third nut after passing through the third mounting hole 5-1 and the second kidney-shaped hole 8-2 through a third connecting bolt.

The noodle machine disclosed by the utility model is simple in structure and ingenious in design, the first chain is tensioned through the support rail and the gear, and then the first chain is driven by the driver to drive the gear to walk, so that the first chain can transmit the noodles hung on the support rail, the positions of the noodles do not need to be manually moved, time and labor are saved, and the length of the first chain can be designed according to the requirements, so that the aim of hanging more noodles is fulfilled.

The utility model and its embodiments have been described above by way of illustration and not limitation, and the utility model is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present utility model.

Claims (10)

1. A vermicelli strip machine, characterized in that: the fine dried noodles conveying device comprises a first chain, a gear and a supporting rail, wherein the first chain is in a closed curve shape and used for conveying fine dried noodles, the gear is used for being meshed with the first chain, the supporting rail is used for being matched with the gear to tension the first chain, and supporting feet are arranged at the bottom of the supporting rail; the top of the support rail is provided with a rail groove arranged along the path of the support rail; the first chain is arranged in the track groove in a walking way, and the gear abuts against the first chain and tightens the first chain so that the first chain can be driven to walk in the track groove through the gear; the gear is driven to rotate by a driver.

2. A vermicelli machine according to claim 1, wherein: the support rail is a first rail in a closed curve shape, and a gear mounting groove communicated with the rail groove and used for accommodating the gear is formed in the first rail; the gear position is adjustably arranged in the gear mounting groove; the driver is adjustably arranged on a base fixedly connected with the supporting leg along the position adjustment direction of the gear, so that the gear is ensured to be always abutted against the first chain and always tensioned by adjusting the position of the gear; the first rail is optionally provided with a cover plate for covering the gear mounting groove to protect the gear.

3. A vermicelli machine according to claim 2, wherein: a flexible noodle rod for bearing the noodle to avoid the noodle from contacting the first chain is arranged above the first track; the flexible fine dried noodle rod is in a closed curve shape; the curved path of the flexible noodle rod is consistent with the curved path of the first chain, and the flexible noodle rod is connected with the first chain, so that the flexible noodle rod can walk along with the first chain.

4. A vermicelli machine according to claim 3, wherein: the first chain comprises a plurality of joint pins, and part or all of the joint pins extend upwards to form a limit column used for being connected with the flexible fine dried noodle rod; the bottom of the flexible fine dried noodle rod is provided with a containing groove arranged along the curve path of the flexible fine dried noodle rod; the flexible fine dried noodle rod is connected with the first chain in an inserting mode of the limiting column and the accommodating groove, and the flexible fine dried noodle rod is tensioned on the limiting column.

5. A vermicelli machine according to claim 2, wherein: the first rail comprises a large U-shaped rail, a small U-shaped rail and two turning heads, the small U-shaped rail is positioned in the large U-shaped rail, and a first connecting end of the small U-shaped rail is connected with a first connecting end of the large U-shaped rail and a second connecting end of the small U-shaped rail is connected with a second connecting end of the large U-shaped rail through the turning heads; the gear mounting groove is formed in the turning head.

6. A vermicelli machine according to claim 2, wherein: the top of the first track is provided with a gear mounting groove; the bottom of the gear mounting groove is provided with a shaft hole penetrating through the first rail; a gear installation shaft is arranged in the shaft hole in a penetrating way, and the upper part of the gear installation shaft is connected with a first bearing seat through a first bearing; the first bearing seat is adjustably arranged at the bottom of the first track along the length direction of the shaft hole; the upper end of the gear installation shaft is fixedly connected with the gear; the lower part of the gear installation shaft is connected with a second bearing seat through a second bearing; the second bearing is arranged on the base in a position adjustable along the length direction of the shaft hole; the driver is arranged on the base in a position adjustable along the length direction of the shaft hole; the driver is in transmission connection with the lower end of the gear installation shaft.

7. A vermicelli machine according to claim 6, wherein: at least one first mounting hole is formed in the first bearing seat; at least one second mounting hole is formed in the second bearing; at least one third mounting hole is formed in the driver;

an adapter seat is arranged between the first rail and the first bearing seat, a first waist-shaped shaft hole is arranged on the adapter seat at a position corresponding to the shaft hole, a waist-shaped countersink is arranged on the adapter seat corresponding to the first mounting hole, and a first waist-shaped hole is arranged on the base corresponding to the second mounting hole; the base is provided with a second waist-shaped hole corresponding to the third mounting hole; the length direction of the kidney-shaped countersunk head hole, the length direction of the first kidney-shaped shaft hole, the length direction of the first kidney-shaped hole and the length direction of the second kidney-shaped hole are all arranged along the length direction of the shaft hole;

the adapter seat is sleeved outside the gear installation shaft through a first kidney-shaped shaft hole, and is fixedly arranged at the bottom of the first track; the first bearing seat and the adapter seat are fixedly connected with a first nut after passing through the kidney-shaped countersunk head hole and the first mounting hole through a first connecting bolt; the second bearing and the base are fixedly connected with a second nut after passing through the second mounting hole and the first kidney-shaped hole through a second connecting bolt; the driver and the base are connected in a mode of fixedly connecting with a third nut after penetrating through a third mounting hole and a second kidney-shaped hole through a third connecting bolt.

8. A vermicelli machine according to claim 1, wherein: the support rail is a second rail in an open curve shape; the gear position is adjustably arranged between the first end and the second end of the second track, and the driver is adjustably arranged on the base fixedly connected with the supporting leg along the gear position adjusting direction, so that the gear is ensured to be always abutted against the first chain and always tensioned by adjusting the position of the gear.

9. A vermicelli machine according to claim 1, wherein: the gears are provided with a plurality of gears, the gears are meshed with the first chain, and the gears are connected with the driver through a transmission mechanism so that the gears are driven to rotate together through the driver.

10. A vermicelli machine according to claim 1, wherein: the support rail is connected with the base through support feet; casters are optionally provided on the base.

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