CN220843275U - Conveying structure of seasoning sealing machine - Google Patents

Abstract

The utility model discloses a conveying structure of a seasoning sealing machine, which comprises a first conveying mechanism and a second conveying mechanism, wherein the first conveying mechanism comprises a first conveying belt, the second conveying mechanism comprises a second conveying belt, the conveying direction of the second conveying belt is perpendicular to the conveying direction of the first conveying belt, a push plate is horizontally arranged above the first conveying belt in a sliding manner, a door-type supporting frame is arranged on a fixed frame above the second conveying belt, a plurality of separation assemblies are horizontally arranged on the door-type supporting frame in a sliding manner, the separation assemblies are arrayed along the width direction of the second conveying belt, and the sliding direction of each separation assembly is perpendicular to the conveying direction of the second conveying belt. The first stop lever assembly, the second stop lever assembly and the plurality of baffles can adjust the width of the conveying channel according to the specification of the packaging container, so that the width of the conveying channel is slightly larger than the size of the packaging container, and the packaging container is effectively prevented from being displaced or inclined in the conveying process.

Description

Conveying structure of seasoning sealing machine

Technical Field

The utility model relates to the technical field of conveying equipment, in particular to a conveying structure of a seasoning sealing machine.

Background

Flavoring, also known as seasoning, refers to a food ingredient that is used to improve taste by adding small amounts to other foods. It includes single flavoring such as soy sauce, salt, sauce flavor, and compound flavoring such as chicken essence flavoring. The flavoring is packaged and sealed after being prepared, the sealing machine is quite common in food processing factories, is a machine for sealing a container filled with a packaged material, and is used for sealing the packaging container after the product is filled into the packaging container so as to ensure that the product can be sealed and stored, maintain the quality of the product and avoid the loss of the product.

In order to improve the working efficiency of the sealing machine, sealing machines capable of sealing a plurality of packaging containers simultaneously are available on the market, and the plurality of packaging containers are operated to a sealing position for sealing through a conveying mechanism provided with a plurality of channels. In the existing multi-channel conveying mechanism, the distance between a plurality of channels cannot be adjusted, so that the smaller-size packaging containers are inclined in the conveying process and are not orderly arranged, the sealing edge is inclined, and the sealing effect is poor.

Disclosure of utility model

In view of the above problems, the present utility model aims to provide a conveying structure of a flavoring sealing machine, so as to solve the problems that the distance between a plurality of channels in the existing conveying mechanism cannot be adjusted, so that a smaller-sized packaging container tilts during conveying, and the sealing edge tilts and the sealing effect is poor.

The utility model is realized in the following way:

The utility model provides a conveying structure of seasoning capper, including first conveying mechanism and second conveying mechanism, first conveying mechanism includes first conveyer belt, second conveying mechanism includes the second conveyer belt, the direction of delivery of second conveyer belt sets up perpendicularly with the direction of delivery of first conveyer belt, the top horizontal slip of first conveyer belt is equipped with the push pedal that is used for transferring the packaging container on the first conveyer belt to the second conveyer belt, the direction of sliding of push pedal is perpendicular with the direction of delivery of first conveyer belt, the top mount of second conveyer belt is equipped with the gate-type support frame, horizontal slip is equipped with a plurality of separation subassembly on the gate-type support frame, a plurality of separation subassembly are arranged along the width direction of second conveyer belt, the direction of sliding of every separation subassembly is perpendicular with the direction of delivery of second conveyer belt.

Further, the quantity of gate-type support frame is a plurality of, and a plurality of gate-type support frames are arranged along the direction of delivery of second conveyer belt, and every gate-type support frame is including standing in the vertical beam of second transport both sides and striding the crossbeam of establishing between two vertical beams, and the length direction of crossbeam is perpendicular with the direction of delivery of second conveyer belt.

Further, the separation assembly comprises a partition plate arranged above the second conveying belt and a plurality of sliding seats fixed at the top of the partition plate, the sliding seats are arranged along the length direction of the partition plate, and the sliding seats are slidably sleeved on the outer side of the cross beam.

Further, the slide is C-shaped structure, and threaded holes are all offered to roof and lateral wall of slide.

Further, the first conveying mechanism further comprises a first frame, a first driving roller and a first driven roller are horizontally arranged on the first frame in a rotating mode, the first driving roller and the first driven roller are respectively located at two ends of the first frame, and the first conveying belt is sleeved on the outer sides of the first driving roller and the first driven roller.

Further, a plurality of telescopic rods are arranged on the first frame in a horizontal sliding mode, the axial direction of each telescopic rod is perpendicular to the conveying direction of the first conveying belt, the fixed ends of the telescopic rods are arranged on one side, far away from the second conveying belt, of the first frame, and the number and the positions of the telescopic rods are arranged corresponding to the partition plates.

Further, the two sides of the first rack are provided with first stop lever assemblies relatively, the first stop lever assemblies are connected with the first rack in a sliding mode, and the sliding direction of the first stop lever assemblies is perpendicular to the conveying direction of the first conveying belt.

Further, the end plate is fixedly arranged at one end of the first frame and is arranged at one end close to the output end of the first conveying belt.

Further, the second conveying mechanism further comprises a second frame, a second driving roller and a second driven roller are horizontally arranged on the second frame in a rotating mode, the second driving roller and the second driven roller are respectively located at two ends of the second frame, and the second conveying belt is sleeved on the outer sides of the driving roller and the driven roller.

Further, the two sides of the second frame are provided with second stop lever assemblies oppositely, the second stop lever assemblies are in sliding connection with the second frame, and the sliding direction of the second stop lever assemblies is perpendicular to the conveying direction of the second conveying belt.

The beneficial effects of the utility model are as follows:

According to the conveying structure of the seasoning sealing machine, the first stop lever assembly arranged on the first conveying mechanism, the second stop lever assembly arranged on the second conveying mechanism and the plurality of baffles can adjust the width of the conveying channel according to the specification of the packaging container to be conveyed, so that the width of the conveying channel is slightly larger than the size of the packaging container, the packaging container is effectively prevented from being displaced or inclined in the conveying process, a plurality of packaging containers are orderly arranged along the conveying channel, a good foundation is laid for the subsequent sealing process, and the sealing edge is orderly ensured, and the sealing effect is attractive; the push plate is arranged in a sliding way, so that a plurality of packaging containers on the first conveying belt are simultaneously transferred to the second conveying belt, the conversion from single-channel conveying to multi-channel conveying is realized, the automation degree is high, and manual moving is not needed; the telescopic link sets up with the division board relatively, ensures that the interval between the packing container on the first conveyer belt is unanimous with the distance between the baffle on the second conveyer belt, is favorable to the push pedal to accurately propelling movement respectively to a plurality of packing containers in the conveying channel that corresponds.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a schematic perspective view of a first conveying mechanism according to the present utility model;

FIG. 4 is a schematic perspective view of a second conveying mechanism according to the present utility model;

Fig. 5 is a top view of a second conveyor mechanism of the present utility model.

Reference numerals illustrate:

1. A first conveying mechanism; 11. a first conveyor belt; 12. a push plate; 13. a first frame; 14. a first drive roll; 15. a first driven roller; 16. a first driving motor; 17. an L-shaped support frame; 171. vertical support; 172. a cross brace; 173. a sliding table; 174. a slide block; 18. an end plate; 19. a first bar assembly; 191. a support; 192. an outer fixing plate; 193. an inner fixing plate; 194. a connecting rod; 195. a stop lever; 2. a second conveying mechanism; 21. a second conveyor belt; 22. a door type supporting frame; 221. a vertical beam; 222. a cross beam; 23. a partition assembly; 231. a partition plate; 232. a slide; 233. a handle; 24. a second frame; 25. a second drive roll; 26. a second driven roller; 27. a second driving motor; 28. a second bar assembly; 3. a telescopic rod; 4. a bottom plate; 5. and (5) packaging containers.

Detailed Description

The technical solutions in the embodiments of the present utility model are clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

As shown in fig. 1, the conveying structure of the seasoning sealing machine of the utility model comprises a first conveying mechanism 1 and a second conveying mechanism 2, wherein the first conveying mechanism 1 comprises a first conveying belt 11, the second conveying mechanism 2 comprises a second conveying belt 21, the conveying direction of the second conveying belt 21 is perpendicular to the conveying direction of the first conveying belt 11, a push plate 12 for transferring the packaging containers 5 on the first conveying belt 11 to the second conveying belt 21 is horizontally arranged above the first conveying belt 11 in a sliding manner, the sliding direction of the push plate 12 is perpendicular to the conveying direction of the first conveying belt 11, a door type supporting frame 22 is arranged on a fixing frame above the second conveying belt 21, a plurality of separation assemblies 23 are horizontally arranged on the door type supporting frame 22 in a sliding manner, and the sliding direction of each separation assembly 23 is perpendicular to the conveying direction of the second conveying belt 21.

As shown in fig. 1 and 2, the first conveyor belt 11 and the second conveyor belt 21 are both disposed horizontally, and the conveying directions of the first conveyor belt 11 and the second conveyor belt 21 are respectively indicated by arrows in fig. 2, and the conveying direction of the first conveyor belt 11 is perpendicular to the conveying direction of the second conveyor belt 21.

As shown in fig. 1 to 3, the first conveying mechanism 1 further includes a first frame 13, a first driving roller 14 and a first driven roller 15 are horizontally rotatably disposed on the first frame 13, the first driving roller 14 and the first driven roller 15 are respectively located at two ends of the first frame 13, and the first conveying belt 11 is sleeved on the outer sides of the first driving roller 14 and the first driven roller 15. The first frame 13 is also fixedly provided with a first driving motor 16, and the output shaft of the first driving motor 16 is fixedly provided with a first driving roller 14. The first driving motor 16 is started, the output shaft of the first driving motor 16 rotates to drive the first driving roller 14 to rotate, and the first driving roller 14 rotates to drive the first conveying belt 11 and the first driven roller 15 to rotate.

As shown in fig. 1 to 3, a push plate 12 for transferring the packaging containers 5 on the first conveyor belt 11 to the second conveyor belt 21 is provided above the first conveyor belt 11 so as to horizontally slide, and the sliding direction of the push plate 12 is perpendicular to the conveying direction of the first conveyor belt 11. In this embodiment, an L-shaped supporting frame 17 is fixedly arranged on the first frame 13, the L-shaped supporting frame 17 is close to the output end of the first conveying belt 11, the L-shaped supporting frame 17 includes a vertical support 171 and a horizontal support 172 that are vertically arranged, an electric linear sliding table 173 is fixedly arranged below the horizontal support 172, the electric linear sliding table 173 can be a lead screw sliding table 173, a rack-and-pinion sliding table 173 or a synchronous belt sliding table 173 that are sold in the market, and the electric linear sliding table 173 is not described in detail herein. The bottom of the sliding block 174 of the electric linear sliding table 173 is fixedly connected with the top of the pushing plate 12, the electric linear sliding table 173 is started, the sliding block 174 moves to drive the pushing plate 12 fixedly connected with the electric linear sliding table 173 to synchronously move, and then the pushing plate 12 pushes the plurality of packaging containers 5 on the first conveying belt 11 onto the second conveying belt 21, so that the transfer of the packaging containers 5 is completed. Preferably, the push plate 12 in this embodiment is of an L-shaped structure, and the push plate 12 is provided with a long hole through which the telescopic rod 3 passes, and the L-shaped push plate 12 has greater strength and rigidity and is not easy to deform after long-term use compared with the existing flat plate structure. An end plate 18 is also fixedly arranged at one end of the first frame 13, the end plate 18 being arranged at one end close to the output end of the first conveyor belt 11, the end plate 18 being arranged to prevent the packaging containers 5 on the first conveyor belt 11 from falling off the output end of the first conveyor belt 11. In this embodiment, the end plate 18 has a U-shaped structure, and the U-shaped opening faces the output end of the first frame 13, so as to improve the strength and the height thereof, prevent the packaging containers 5 on the first conveyor belt 11 from colliding with the end plate 18 for multiple times to deform or damage the packaging containers, and facilitate prolonging the service life thereof.

The two sides of the first frame 13 are oppositely provided with first stop lever assemblies 19, the first stop lever assemblies 19 are in sliding connection with the first frame 13, and the sliding direction of the first stop lever assemblies 19 is perpendicular to the conveying direction of the first conveying belt 11. The first bar assembly 19 is slidably connected to the holders 191 provided at both sides of the first frame 13, the number of the holders 191 is plural, and the holders 191 are arranged along the length direction of the first frame 13. Wherein, the holders 191 at both sides of the first frame 13 are symmetrically arranged. The first bar assembly 19 includes an outer fixing plate 192, an inner fixing plate 193, a connecting rod 194 and two bars 195, the outer fixing plate 192 is provided with a U-shaped groove, the inner fixing plate 193 is embedded in the U-shaped groove of the outer fixing plate 192, a containing space for the two bars 195 to pass through is formed between the top of the inner fixing plate 193 and the top of the U-shaped groove of the outer fixing plate 192, and between the bottom of the inner fixing plate 193 and the bottom of the U-shaped groove of the outer fixing plate 192. One end of the connection rod 194 sequentially passes through the outer fixing plate 192 and the inner fixing plate 193 and fixedly connects the two, thereby fixing the blocking rod 195 in the receiving space. The other end of the connecting rod 194 is arranged in the support 191 in a penetrating way and is connected with the support 191 in a sliding way, the connecting rod 194 and the support 191 are fixed by using bolts after being adjusted in position, the position of the stop rod 195 and the first rack 13 is adjusted by adjusting the position relation between the connecting rod 194 and the support 191, and a plurality of packaging containers 5 are used between the stop rods 195 on two sides of the first rack 13. Therefore, the distance between the two first stop lever assemblies 19 can be adjusted according to different widths of the packaging containers 5, so that the packaging container 5 conveying device is suitable for conveying packaging containers 5 with different specifications. Preferably, the distance between the two side stop bars 195 is slightly larger than the size of the packaging container 5, so that the situation that the distance between the stop bars 195 on the first conveying belt 11 cannot be adjusted is avoided, and when the packaging container 5 with smaller size is conveyed, the packaging container 5 is inclined, skewed, displaced and the like in the conveying process in the wider conveying channel. In addition, in order to prevent the bar 195 from being bent, warped, etc. due to the excessively long length, a plurality of inner fixing plates 193, outer fixing plates 192, and connecting rods 194 are provided in the length direction of the bar 195, so that the bar 195 is maintained horizontal and straight, and the inner fixing plates 193 and the outer fixing plates 192 play a role in supporting and clamping a plurality of positions of the bar 195, improving the stability of the bar 195, preventing sagging or deformation thereof, etc.

As shown in fig. 4 and 5, the second conveying mechanism 2 further includes a second frame 24, a second driving roller 25 and a second driven roller 26 are horizontally rotatably disposed on the second frame 24, the second driving roller 25 and the second driven roller 26 are respectively located at two ends of the second frame 24, and the second conveying belt 21 is sleeved on the outer sides of the second driving roller 25 and the second driven roller 26. The second frame 24 is also fixedly provided with a second driving motor 27, and the output shaft of the second driving motor 27 is fixedly provided with a second driving roller 25. The second driving motor 27 is started, the output shaft of the second driving motor 27 rotates to drive the second driving roller 25 to rotate, and the second driving roller 25 rotates to drive the second conveying belt 21 and the second driven roller 26 to rotate. The two sides of the second frame 24 are oppositely provided with second stop lever assemblies 28, the second stop lever assemblies 28 are in sliding connection with the second frame 24, and the sliding direction of the second stop lever assemblies 28 is perpendicular to the conveying direction of the second conveying belt 21. The structure of the second bar assembly 28 is identical to that of the first bar assembly 19 and will not be described again.

The upper fixing frame of the second conveying belt 21 is provided with a plurality of gate type supporting frames 22, the gate type supporting frames 22 are arranged in a plurality of mode, the gate type supporting frames 22 are arranged along the conveying direction of the second conveying belt 21, each gate type supporting frame 22 comprises vertical beams 221 vertically arranged on two sides of the second conveying belt 21 and a cross beam 222 crossing between the two vertical beams 221, and the length direction of the cross beam 222 is perpendicular to the conveying direction of the second conveying belt 21.

The door type supporting frame 22 is horizontally provided with a plurality of separation assemblies 23 in a sliding manner, the plurality of separation assemblies 23 are arranged along the width direction of the second conveying belt 21, and the sliding direction of each separation assembly 23 is perpendicular to the conveying direction of the second conveying belt 21. In the present embodiment, as shown in fig. 4 and 5, the number of the separation assemblies 23 is two and is merely illustrative, and the number of the separation assemblies 23 can be designed according to the actual requirement, which is not limited thereto. The separation assembly 23 includes a partition plate 231 disposed above the second conveyor belt 21, and a plurality of sliding carriages 232 fixed on top of the partition plate 231, wherein the sliding carriages 232 are arranged along the length direction of the partition plate 231, and the sliding carriages 232 are slidably sleeved on the outer sides of the cross beams 222. The sliding seat 232 is of a C-shaped structure, the top wall and the side wall of the sliding seat 232 are provided with threaded holes, and a handle 233 used for loosening or fastening the sliding seat 232 and the cross beam 222 is screwed in the threaded holes so as to be convenient for a user to hold and screw.

As shown in fig. 1 to 3, the first frame 13 is further provided with a plurality of telescopic rods 3 in a horizontally sliding manner, the axial direction of the telescopic rods 3 is perpendicular to the conveying direction of the first conveying belt 11, the fixed ends of the telescopic rods 3 are arranged on one side of the first frame 13 far away from the second conveying belt 21, and the number and positions of the telescopic rods 3 are arranged corresponding to the partition plates 231. A chute is formed in one side of the first frame 13 away from the second frame 24, and the length direction of the chute is parallel to the length direction of the first frame 13. The bottom of the telescopic rod 3 is fixedly connected with a bottom plate 4, the bottom plate 4 slides along the length direction of the chute, and the bottom plate 4, the telescopic rod 3 and the first rack 13 are fixed through bolts and nuts after the bottom plate 4 slides in place. The telescopic rod 3 can be one of an electric push rod, an electro-hydraulic push rod, an air cylinder or a hydraulic cylinder, and is not limited herein, so that the telescopic rod 3 has a telescopic function. The movable end of the telescopic rod 3 faces the second conveyor belt 21, and the telescopic rod 3 is arranged for blocking the packaging containers 5 on the first conveyor belt 11, so that a plurality of packaging containers 5 which are to run to the output end of the first conveyor belt 11 are prevented from being piled together. The first frame 13 is provided with a photoelectric sensor (not shown) for detecting the packaging containers 5, and when the photoelectric sensor detects that the packaging containers 5 are running to the output end of the first conveyor belt 11, the plurality of telescopic rods 3 are extended so as to block the packaging containers 5 from moving forward along with the conveyor belt and to enable the plurality of containers to be arranged at intervals. The number and the position of the telescopic rods 3 are correspondingly set with the partition plates 231, so that a plurality of packaging containers 5 on the first conveying belt 11 are arranged at intervals, the arrangement of the plurality of packaging containers 5 is consistent with that of the conveying channels on the second conveying belt 21, and the push plate 12 is ensured to accurately push the plurality of packaging containers 5 arranged on the first conveying belt 11 into the corresponding channels on the second conveying belt 21.

According to the conveying structure of the seasoning sealing machine, before use, an operator firstly adjusts the distance between the first stop lever assemblies 19 on two sides in the first conveying mechanism 1, the distance between the telescopic rods 3 and the distance between the partition plates 231 in the second conveying mechanism 2 according to the size of the packaging containers 5, so that the width of a conveying channel on the first conveying belt 11 and the width of a conveying channel on the second conveying belt 21 are matched with the size of the packaging containers 5, the packaging containers 5 are orderly conveyed, the positions of the telescopic rods 3 and the positions of the partition plates 231 are respectively arranged correspondingly, so that the packaging containers 5 are arranged at intervals to prevent accumulation, and the packaging containers 5 on the first conveying belt 11 are opposite to the conveying channel on the second conveying belt 21; starting the first driving motor 16 and the second driving motor 27, placing the packaging containers 5 on the first conveying belt 11 by an operator, when the first packaging containers 5 are moved to be close to the end plate 18, respectively blocking the corresponding packaging containers 5 by the telescopic rods 3, then moving the push plate 12 towards the second rack 24 and pushing the plurality of packaging containers 5 on the first conveying belt 11 to move onto the second conveying belt 21, and at the moment, just pushing the plurality of packaging containers 5 on the first conveying belt 11 into the corresponding conveying channels respectively, and moving to a sealing station to perform sealing operation under the driving of the second conveying belt 21; thereafter, the push plate 12 and the telescopic rod 3 are contracted and ready for the next cycle.

While the utility model has been described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit of the utility model, and it is intended to cover the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a conveying structure of seasoning capper, its characterized in that includes first conveying mechanism (1) and second conveying mechanism (2), first conveying mechanism (1) includes first conveyer belt (11), second conveying mechanism (2) include second conveyer belt (21), the direction of delivery of second conveyer belt (21) with the direction of delivery of first conveyer belt (11) sets up perpendicularly, the top horizontal slip of first conveyer belt (11) is equipped with and is used for with packing container (5) on first conveyer belt (11) shift to push pedal (12) of second conveyer belt (21), the direction of sliding of push pedal (12) with the direction of delivery of first conveyer belt (11) is perpendicular, the top mount of second conveyer belt (21) is equipped with portal frame (22), horizontal slip is equipped with a plurality of separation subassembly (23) on portal frame (22), a plurality of separation subassembly (23) are followed the direction of width of second conveyer belt (21) is arranged, every separation subassembly (23) the direction of sliding of second conveyer belt (21) is perpendicular to the direction of delivery of second conveyer belt (21).

2. The conveying structure of a seasoning sealer according to claim 1, wherein the number of the gate-type supporting frames (22) is plural, the gate-type supporting frames (22) are arranged along the conveying direction of the second conveying belt (21), each gate-type supporting frame (22) comprises a vertical beam (221) standing on both sides of the second conveying belt and a cross beam (222) straddling between the two vertical beams (221), and the length direction of the cross beam (222) is perpendicular to the conveying direction of the second conveying belt (21).

3. The seasoning sealer delivery structure according to claim 2, wherein the partitioning member (23) comprises a partition plate (231) disposed above the second conveyor belt (21) and a plurality of sliding carriages (232) fixed on top of the partition plate (231), the sliding carriages (232) being arranged along a length direction of the partition plate (231), the sliding carriages (232) being slidably fitted on an outer side of the cross beam (222).

4. A conveying structure of a condiment sealing machine as claimed in claim 3, wherein the sliding seat (232) is of a C-shaped structure, and the top wall and the side wall of the sliding seat (232) are provided with threaded holes.

5. A conveying structure of a seasoning sealing machine according to claim 3, wherein the first conveying mechanism (1) further comprises a first frame (13), a first driving roller (14) and a first driven roller (15) are horizontally arranged on the first frame (13) in a rotating mode, the first driving roller (14) and the first driven roller (15) are respectively located at two ends of the first frame (13), and the first conveying belt (11) is sleeved on the outer sides of the first driving roller (14) and the first driven roller (15).

6. The conveying structure of a seasoning sealing machine according to claim 5, wherein a plurality of telescopic rods (3) are further horizontally arranged on the first frame (13) in a sliding manner, the axial direction of each telescopic rod (3) is perpendicular to the conveying direction of the first conveying belt (11), fixed ends of the telescopic rods (3) are arranged on one side, far away from the second conveying belt (21), of the first frame (13), and the number and positions of the telescopic rods (3) are arranged corresponding to those of the partition plates (231).

7. The conveying structure of a seasoning sealing machine according to claim 5, wherein first stop lever assemblies (19) are oppositely arranged on two sides of the first frame (13), the first stop lever assemblies (19) are in sliding connection with the first frame (13), and the sliding direction of the first stop lever assemblies (19) is perpendicular to the conveying direction of the first conveying belt (11).

8. The conveying structure of a seasoning sealer according to claim 5, characterized in that an end plate (18) is further fixedly provided at one end of the first frame (13), the end plate (18) being provided at one end near the output end of the first conveyor belt (11).

9. The conveying structure of the seasoning sealing machine according to claim 1 or 2, wherein the second conveying mechanism (2) further comprises a second frame (24), a second driving roller (25) and a second driven roller (26) are horizontally arranged on the second frame (24) in a rotating mode, the second driving roller (25) and the second driven roller (26) are respectively located at two ends of the second frame (24), and the second conveying belt (21) is sleeved on the outer sides of the driving roller and the driven roller.

10. The conveying structure of the seasoning sealing machine according to claim 9, wherein second stop lever assemblies (28) are oppositely arranged on two sides of the second frame (24), the second stop lever assemblies (28) are in sliding connection with the second frame (24), and the sliding direction of the second stop lever assemblies (28) is perpendicular to the conveying direction of the second conveying belt (21).