CN219729406U - Synchronous vertical lifting conveying type curing oven - Google Patents

Abstract

The utility model discloses a synchronous vertical lifting conveying type curing oven which comprises a base, wherein a circulation driving mechanism, a first material circulation module and a second material circulation module are arranged on the base, the first material circulation module and the second material circulation module are arranged side by side, each of the first material circulation module and the second material circulation module comprises two groups of chain plate circulation mechanisms which are oppositely arranged, and each circulation driving mechanism comprises a circulation driving assembly and two groups of circulation reversing transmission assemblies. According to the utility model, the two link plate driving shafts of the first material circulation module are simultaneously controlled to rotate by adopting one circulation main shaft, and the other ends of the two link plate driving shafts of the first material circulation module are in transmission connection with the two link plate driving shafts of the second material circulation module through the reverse transmission assembly, so that synchronous operation of the first material circulation module and the second material circulation module is controlled by the same circulation driving mechanism, and the working stability of the curing furnace is improved.

Description

Synchronous vertical lifting conveying type curing oven

Technical Field

The utility model relates to the technical field of curing equipment, in particular to a synchronous vertical lifting conveying type curing furnace.

Background

A curing oven is a device that enhances the stress of the material bond by heating, curing, and drying. The existing curing oven generally sends a workpiece into the curing oven through a feeding machine, and then the workpiece is lifted by two groups of material circulation modules with opposite running directions. The two groups of material circulation modules in the existing curing oven are usually driven to work respectively by two independent driving systems, the driving structure leads to huge equipment volume and high manufacturing cost, and the synchronism of the two groups of material circulation modules is poor, so that the balance of materials is low during curing movement, the situation of clamping or blanking caused by dislocation is easy to occur, and the working stability of the curing oven is affected.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides a synchronous vertical lifting conveying type curing furnace, which can improve the synchronism and stability of a material flow carrier of the curing furnace, reduce the manufacturing cost of the curing furnace, improve the production efficiency of enterprises and reduce the occupied area of the curing furnace.

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

the utility model provides a synchronous vertical lift conveying formula curing oven, includes the base, be equipped with circulation actuating mechanism, first material circulation module and second material circulation module on the base, first material circulation module and second material circulation module set up side by side, first material circulation module and second material circulation module all are including the link joint circulation mechanism that two sets of relatively set up, form material elevating channel respectively between two sets of link joint circulation mechanisms of first material circulation module and second material circulation module, every group link joint circulation mechanism's the outside all is equipped with hot-blast heating module, every group link joint circulation mechanism all is including a link joint driving shaft, a link joint driven shaft and two risers, link joint driving shaft and link joint driven shaft pass through the bearing parallel arrangement between two risers that correspond, circulation actuating mechanism includes circulation actuating mechanism and two sets of circulation reversing drive assembly, circulation actuating mechanism includes circulation actuating motor and the main shaft that is rotated by circulation actuating motor drive, the both ends of circulation main shaft pass through respectively with two link joint driving shaft of first material circulation module and the same end drive connection of two link joint driving shaft drive of two link joint reversing rotation channels that the opposite direction of rotation of the opposite direction of the material driving shaft of the two link joint of the corresponding material circulation module respectively, and this two link joint reversing drive shaft and the opposite direction of the material driving shaft of the two material circulation module of the opposite to the second material driving shaft of the link joint drive shaft. Through adopting a circulation main shaft to control two link joint driving shafts of first material circulation module simultaneously and rotate to realize two sets of link joint circulation mechanism synchronous operation of first material circulation module, through making the other end of two link joint driving shafts of first material circulation module pass through reverse drive assembly and two link joint driving shafts transmission connection of second material circulation module, thereby realize through the synchronous operation of same set of circulation actuating mechanism control first material circulation module and second material circulation module, simplified the structure of curing oven, reduced the manufacturing cost of curing oven, improved the job stabilization nature of curing oven.

As a preferred technical scheme, every group link joint circulation mechanism still includes two parallel arrangement's circulation chain, all be equipped with the circulation gear on link joint driving shaft and the link joint driven shaft, circulation chain cover is located on the circulation gear, same group be equipped with parallel arrangement's link joint between two circulation chains of link joint circulation mechanism, be equipped with the loading board that is used for bearing the material on the link joint.

As a preferred technical scheme, circulation reverse drive assembly includes first drive gear, second drive gear, third drive gear, fourth drive gear and fifth drive gear, first drive gear and the link joint driving shaft fixed connection of first material circulation module, second drive gear is connected with first drive gear meshing, third drive gear and second drive gear are duplex gear, fifth drive gear and the link joint driving shaft one end fixed connection of second material circulation module, third drive gear and fourth drive gear meshing are connected, fourth drive gear and fifth drive gear meshing are connected.

As a preferable technical scheme, the first transmission gear and the second transmission gear have the same number of teeth, the third transmission gear, the fourth transmission gear and the fifth transmission gear have the same number of teeth, and the third transmission gear, the fourth transmission gear and the fifth transmission gear are vertically arranged.

As a preferred technical scheme, be equipped with the slide rail that the level set up on the base, it is equipped with the slide to slide on the slide rail, link joint circulation mechanism that first material circulation module and second material circulation module are located same one side installs on the slide, be equipped with on the base and be used for controlling slide along the gliding left and right adjusting screw of slide rail, left and right adjusting screw's one end is equipped with the regulating wheel.

As a preferred technical scheme, the pan feeding end of first material circulation module is equipped with pan feeding transport mechanism, the discharge end of second material circulation module all is equipped with ejection of compact transport mechanism, pan feeding transport mechanism and ejection of compact transport mechanism all include material transmission motor, by material transmission motor control pivoted material transmission main shaft and by two material transmission chains of material transmission main shaft control synchronous motion, two material transmission chains parallel interval sets up.

As a preferred technical scheme, pan feeding transport mechanism locates one side of first material circulation module upper end, pan feeding transport mechanism's top is equipped with the feeding pushing equipment who is used for pushing the material to first material circulation module from pan feeding transport mechanism, one side of second material circulation module upper end is located to ejection of compact transport mechanism, ejection of compact transport mechanism's top is equipped with the ejection of compact pushing equipment who is used for pushing the material to ejection of compact transport mechanism from second material circulation module, the below between first material circulation module and the second material circulation module is equipped with moves material pushing equipment, feeding pushing equipment, ejection of compact pushing equipment and move material pushing equipment all including pushing motor, by pushing motor control pivoted pushing main shaft and by two pushing chains of pushing main shaft control synchronous motion, two pushing chains parallel interval sets up, just all be equipped with on the two pushing chains and can follow pushing rod of pushing chain activity.

As a preferable technical scheme, the circulation driving assembly is arranged on one side, far away from the second material circulation module, of the first material circulation module. The circulation driving assembly is arranged on one side of the first material circulation module, away from the second material circulation module, so that the circulation driving motor is away from the hot air heating module, the condition that the working efficiency of the circulation driving motor is reduced due to overhigh temperature is avoided, and the working stability of the curing oven is further improved.

As a preferable technical scheme, the circulation driving motor drives the circulation main shaft to rotate through a bevel gear.

As a preferred technical scheme, still be equipped with the tensile force adjustment mechanism who is used for adjusting circulation chain tensile force on the riser, tensile force adjustment mechanism includes tension adjustment screw, compression spring and square nut, be equipped with the mounting hole of vertical extension on the riser, square nut locates in the mounting hole to can follow the length direction of mounting hole and slide, the both ends of link joint driven shaft all are equipped with the through-hole that corresponds with tension adjustment screw, in the mounting hole that corresponds is located respectively at the both ends of the link joint driven shaft of first material circulation module and second material circulation module, tension adjustment screw's one end runs through the riser and stretches into in the mounting hole to pass through-hole and square nut threaded connection on the link joint driven shaft, tension adjustment screw's between square nut and the link joint driven shaft outside is located to the compression spring cover. When the chain tension adjusting device works, the square nut slides up and down in the mounting hole by rotating the tension adjusting screw, so that the pressure of the pressure spring between the square nut and the driven shaft of the chain plate is changed, and the purpose of changing the tension of the circulating chain is achieved.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the two chain plate driving shafts of the first material circulation module are controlled to rotate simultaneously by adopting one circulation main shaft, so that the synchronous work of the two groups of chain plate circulating mechanisms of the first material circulation module is realized, the other ends of the two chain plate driving shafts of the first material circulation module are in transmission connection with the two chain plate driving shafts of the second material circulation module through the reverse transmission assembly, the synchronous work of the first material circulation module and the second material circulation module is controlled by the same set of circulation driving mechanisms, the structure of the curing oven is simplified, the manufacturing cost of the curing oven is reduced, the working stability of the curing oven is improved, and the occupied area of the curing oven is also reduced.

For a clearer description of the structural features, technical means, and specific objects and functions achieved by the present utility model, the present utility model will be further described in detail with reference to the accompanying drawings and specific embodiments:

drawings

FIG. 1 is an assembled block diagram of an embodiment of the present utility model;

FIG. 2 is an internal block diagram of an embodiment of the present utility model;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is an assembled block diagram of a reverse flow transmission assembly according to an embodiment of the present utility model;

fig. 5 is an enlarged schematic view at B in fig. 4.

The attached drawings are used for identifying and describing:

10. base 11, slide rail 12, slide

13. Left and right adjusting screw 20, circulation driving mechanism 21, circulation driving motor

22. A main circulation shaft 23, a first transmission gear 24, a second transmission gear

25. Third transmission gear 26, fourth transmission gear 27, fifth transmission gear

30. First material circulation module 31, second material circulation module 32 and chain plate circulation mechanism

321. Riser 322, link plate driving shaft 323 and link plate driven shaft

324. Circulation chain 325, chain plate 326 and material carrying plate

327. Mounting hole 328, tension adjusting screw 329, compression spring

330. Square nut 40, hot air heating module 50 and feeding and conveying mechanism

51. Discharge conveying mechanism 52, material conveying motor 53 and material conveying main shaft

54. Material conveying chain 60, feeding and pushing mechanism 61 and material moving and pushing mechanism

62. Discharge pushing mechanism 63, pushing motor 64 and pushing main shaft

65. A pushing chain 66 and a pushing rod.

Detailed Description

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and to simplify the description, and do not indicate or imply that the positions or elements referred to must have specific directions, be configured and operated in specific directions, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood as appropriate by those of ordinary skill in the art.

As shown in fig. 1-5, the synchronous vertical lifting conveying type curing oven comprises a base 10, wherein a circulation driving mechanism 20, a first material circulation module 30 and a second material circulation module 31 are arranged on the base 10, the first material circulation module 30 and the second material circulation module 31 are arranged side by side, the first material circulation module 30 and the second material circulation module 31 respectively comprise two sets of link plate circulating mechanisms 32 which are oppositely arranged, material lifting channels are respectively formed between the two sets of link plate circulating mechanisms 32 of the first material circulation module 30 and the second material circulation module 31, a hot air heating module 40 is arranged on the outer side of each set of link plate circulating mechanisms 32, and products in the material lifting channels on two sides are uniformly heated through the hot air heating module 40 during operation. Each group of chain plate circulating mechanism 32 comprises a chain plate driving shaft 322, a chain plate driven shaft 323 and two vertical plates 321, the chain plate driving shafts 322 and the chain plate driven shafts 323 are arranged between the corresponding two vertical plates 321 in parallel through bearings, the circulation driving mechanism 20 comprises a circulation driving assembly and two groups of circulation reversing transmission assemblies, the circulation driving assembly comprises a circulation driving motor 21 and a circulation main shaft 22 driven to rotate by the circulation driving motor 21, two ends of the circulation main shaft 22 are respectively connected with the same end of the two chain plate driving shafts 322 of the first material circulation module 30 through bevel gears in a driving manner and drive the two chain plate driving shafts 322 to synchronously and reversely rotate, the other ends of the two chain plate driving shafts 322 are respectively connected with the two chain plate driving shafts 322 of the second material circulation module 31 through corresponding circulation reversing transmission assemblies in a transmission manner, and the running directions of the material lifting channels of the first material circulation module 30 and the second material circulation module 31 are opposite. In the present utility model, the circulation driving assembly is disposed at a side of the first material circulation module 30 away from the second material circulation module 31, and the circulation driving motor 21 drives the circulation spindle 22 to rotate through a bevel gear. Through making the circulation drive assembly locate one side that first material circulation module 30 kept away from second material circulation module 31 to circulation driving motor 21 keeps away from hot-blast heating module 40, avoids circulation driving motor 21 to lead to the condition that work efficiency descends because of the high temperature, thereby has further improved the stability of curing oven work.

In the utility model, a horizontally arranged slide rail 11 is arranged on a base 10, a slide seat 12 is slidably arranged on the slide rail 11, a chain plate circulating mechanism 32 positioned on the same side of a first material circulating module 30 and a second material circulating module 31 is arranged on the slide seat 12, a left adjusting screw 13 and a right adjusting screw 13 for controlling the slide seat 12 to slide along the slide rail 11 are arranged on the base 10, and one end of the left adjusting screw 13 and one end of the right adjusting screw are provided with adjusting wheels. During operation, the sliding seat 12 can slide on the sliding rail 11 by rotating the left and right adjusting screw 13, so that the width of the material lifting channel is adjusted, and the curing furnace is suitable for carriers with different specifications.

Specifically, each group of the link plate circulation mechanism 32 further comprises two circulation chains 324 arranged in parallel, circulation gears are arranged on the link plate driving shaft 322 and the link plate driven shaft 323, the circulation chains 324 are sleeved on the circulation gears, parallel link plates 325 are arranged between the two circulation chains 324 of the same group of the link plate circulation mechanism 32, and a material carrying plate 326 for carrying materials is arranged on the link plates 325. The vertical plate 321 is further provided with a tension adjusting mechanism for adjusting tension of the circulating chain 324, the tension adjusting mechanism comprises a tension adjusting screw 328, a pressure spring 329 and a square nut 330, the vertical plate 321 is provided with a vertically extending mounting hole 327, the square nut 330 is arranged in the mounting hole 327 and can slide along the length direction of the mounting hole 327, two ends of a chain plate driven shaft 323 are respectively provided with a through hole corresponding to the tension adjusting screw 328, two ends of the chain plate driven shafts 323 of the first material circulation module 30 and the second material circulation module 31 are respectively arranged in the corresponding mounting hole 327, one end of the tension adjusting screw 328 penetrates through the vertical plate 321 and stretches into the mounting hole 327 and penetrates through the through hole on the chain plate driven shaft 327 to be in threaded connection with the square nut 330, and the pressure spring 329 is sleeved on the outer side of the tension adjusting screw 328 between the square nut 330 and the chain plate driven shaft 323. In operation, the square nut 330 slides up and down in the mounting hole 327 by rotating the tension adjusting screw 328, so as to change the pressure of the pressure spring 329 between the square nut 330 and the chain plate driven shaft 323, thereby achieving the purpose of changing the tension of the circulating chain 324.

Specifically, the reverse circulation transmission assembly includes a first transmission gear 23, a second transmission gear 24, a third transmission gear 25, a fourth transmission gear 26 and a fifth transmission gear 27, the first transmission gear 23 is fixedly connected with a link plate driving shaft 322 of the first material circulation module 30, the second transmission gear 24 is meshed with the first transmission gear 23, the third transmission gear 25 and the second transmission gear 24 are duplex gears, the fifth transmission gear 27 is fixedly connected with one end of a link plate driving shaft 322 of the second material circulation module 31, the third transmission gear 25 is meshed with the fourth transmission gear 26, and the fourth transmission gear 26 is meshed with the fifth transmission gear 27. In the present utility model, the first transmission gear 23 and the second transmission gear 24 have the same number of teeth, and the third transmission gear 25, the fourth transmission gear 26 and the fifth transmission gear 27 have the same number of teeth. The third transmission gear 25, the fourth transmission gear 26 and the fifth transmission gear 27 are vertically arranged.

Specifically, the feeding end of the first material circulation module 30 is provided with a feeding conveying mechanism 50, the discharging end of the second material circulation module 31 is provided with a discharging conveying mechanism 51, the feeding conveying mechanism 50 and the discharging conveying mechanism 51 each comprise a material conveying motor 52, a material conveying main shaft 53 controlled to rotate by the material conveying motor 52, and two material conveying chains 54 controlled to synchronously move by the material conveying main shaft 53, and the two material conveying chains 54 are arranged at parallel intervals. The feeding conveying mechanism 50 is arranged on one side of the upper end of the first material circulation module 30, a feeding pushing mechanism 60 for pushing materials from the feeding conveying mechanism 50 to the first material circulation module 30 is arranged above the feeding conveying mechanism 50, the discharging conveying mechanism 51 is arranged on one side of the upper end of the second material circulation module 31, a discharging pushing mechanism 62 for pushing materials from the second material circulation module 31 to the discharging conveying mechanism 51 is arranged above the discharging conveying mechanism 51, a material moving pushing mechanism 61 is arranged below the first material circulation module 30 and the second material circulation module 31, the feeding pushing mechanism 60, the discharging pushing mechanism 62 and the material moving pushing mechanism 61 comprise a pushing motor 63, a pushing main shaft 64 controlled to rotate by the pushing motor 63 and two pushing chains 65 controlled to synchronously move by the pushing main shaft 64, the two pushing chains 65 are arranged at a parallel interval, and pushing rods 66 capable of moving along with the pushing chains 65 are arranged on the two pushing chains 65.

In operation, the carrier storing the material is conveyed to the feeding end of the first material circulation module 30 through the feeding conveying mechanism 50, then the feeding pushing mechanism 60 pushes the carrier from the feeding conveying mechanism 50 to the upper layer carrier plate of the two sets of chain plate circulating mechanisms 32 of the first material circulation module 30 through the pushing rod 66, the first material circulation module 30 vertically moves downwards under the driving of the circulation driving mechanism 20, meanwhile, the second material circulation module 31 on the other side vertically moves upwards under the driving of the circulation driving mechanism 20, when the carrier reaches the lowest layer of the first material circulation module 30, the material moving pushing mechanism 61 pushes the carrier from the first material circulation module 30 to the second material circulation module 31, and when the carrier reaches the highest layer of the second material circulation module 31, the carrier is pushed to the material discharging conveying mechanism 51 through the material discharging pushing mechanism 62, so that the curing process of the material is completed.

In summary, the utility model adopts the one circulation main shaft to simultaneously control the rotation of the two chain plate driving shafts of the first material circulation module, thereby realizing the synchronous operation of the two groups of chain plate circulating mechanisms of the first material circulation module, and the other end of the two chain plate driving shafts of the first material circulation module is in transmission connection with the two chain plate driving shafts of the second material circulation module through the reverse transmission assembly, thereby realizing the synchronous operation of the first material circulation module and the second material circulation module through the same set of circulation driving mechanism, simplifying the structure of the curing furnace, reducing the manufacturing cost of the curing furnace, improving the working stability of the curing furnace and reducing the occupied area of the curing furnace.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, so any modifications, equivalents, improvements, etc. of the above embodiments according to the present utility model are still within the scope of the present utility model.

Claims (10)

1. The utility model provides a synchronous vertical lift conveying formula curing oven, includes the base, be equipped with circulation actuating mechanism, first material circulation module and second material circulation module on the base, first material circulation module and second material circulation module set up side by side, first material circulation module and second material circulation module all are including the link joint circulation mechanism that two sets of relatively set up, form material elevating channel respectively between two sets of link joint circulation mechanisms of first material circulation module and second material circulation module, every group link joint circulation mechanism's the outside all is equipped with hot-blast heating module, every group link joint circulation mechanism all is including a link joint driving shaft, a link joint driven shaft and two risers, link joint driving shaft and link joint driven shaft pass through the bearing parallel arrangement between two risers that correspond, its characterized in that, circulation actuating mechanism includes circulation actuating motor and two sets of circulation reversing drive assembly, circulation actuating shaft's both ends are connected through the same end drive of the driving shaft drive of two link joint driving shafts that respectively with first material circulation module of bevel gear and second material circulation module to this two end and the same end drive shaft drive of two material circulation drive shaft that the same end drive shaft drive of synchronous rotation, and the opposite direction of rotation of the two material circulation drive shaft through the opposite direction of the corresponding material driving shaft and the two material circulation module and the opposite to the two material flow driving shaft of the second material reverse drive shaft that the link joint of the second material module.

2. The synchronous vertical lifting conveying type curing oven according to claim 1, wherein each group of chain plate circulating mechanisms further comprises two circulating chains which are arranged in parallel, a circulating gear is arranged on a driving shaft of each chain plate and a driven shaft of each chain plate, the circulating chains are sleeved on the circulating gear, a chain plate which is arranged in parallel is arranged between the two circulating chains of the same group of chain plate circulating mechanisms, and a material carrying plate for carrying materials is arranged on each chain plate.

3. The synchronous vertical lifting conveying type curing oven according to claim 1, wherein the circulation reversing transmission assembly comprises a first transmission gear, a second transmission gear, a third transmission gear, a fourth transmission gear and a fifth transmission gear, the first transmission gear is fixedly connected with a chain plate driving shaft of the first material circulation module, the second transmission gear is meshed with the first transmission gear, the third transmission gear and the second transmission gear are duplex gears, the fifth transmission gear is fixedly connected with one end of the chain plate driving shaft of the second material circulation module, the third transmission gear is meshed with the fourth transmission gear, and the fourth transmission gear is meshed with the fifth transmission gear.

4. The synchronous vertical lift conveying type curing oven according to claim 3, wherein the first transmission gear and the second transmission gear have the same number of teeth, the third transmission gear, the fourth transmission gear and the fifth transmission gear have the same number of teeth, and the third transmission gear, the fourth transmission gear and the fifth transmission gear are vertically arranged.

5. The synchronous vertical lifting conveying type curing oven according to claim 1, wherein a horizontally arranged slide rail is arranged on the base, a slide seat is arranged on the slide rail in a sliding mode, a chain plate circulating mechanism of the first material circulating module and the second material circulating module, which are located on the same side, is arranged on the slide seat, a left adjusting screw and a right adjusting screw for controlling the slide seat to slide along the slide rail are arranged on the base, and one end of the left adjusting screw and one end of the right adjusting screw are provided with adjusting wheels.

6. The synchronous vertical lifting conveying type curing oven according to claim 1, wherein the feeding end of the first material circulation module is provided with a feeding conveying mechanism, the discharging end of the second material circulation module is provided with a discharging conveying mechanism, and the feeding conveying mechanism and the discharging conveying mechanism comprise a material conveying motor, a material conveying main shaft controlled to rotate by the material conveying motor and two material conveying chains controlled to synchronously move by the material conveying main shaft, and the two material conveying chains are arranged at parallel intervals.

7. The synchronous vertical lifting conveying type curing oven according to claim 6, wherein the feeding conveying mechanism is arranged on one side of the upper end of the first material circulation module, a feeding pushing mechanism for pushing materials from the feeding conveying mechanism to the first material circulation module is arranged above the feeding conveying mechanism, the discharging conveying mechanism is arranged on one side of the upper end of the second material circulation module, a discharging pushing mechanism for pushing materials from the second material circulation module to the discharging conveying mechanism is arranged above the discharging conveying mechanism, a material moving pushing mechanism is arranged below the first material circulation module and the second material circulation module, and the feeding pushing mechanism, the discharging pushing mechanism and the material moving pushing mechanism all comprise a pushing motor, a pushing main shaft controlled to rotate by the pushing motor and two pushing chains controlled to synchronously move by the pushing main shaft, the two pushing chains are arranged at parallel intervals, and pushing rods capable of moving along with the pushing chains are arranged on the two pushing chains.

8. The synchronous vertical lift conveying type curing oven according to claim 1, wherein the circulation driving assembly is arranged on one side of the first material circulation module far away from the second material circulation module.

9. The synchronized vertical lift transport type curing oven of claim 8, wherein the transfer drive motor drives the transfer spindle to rotate via a bevel gear.

10. The synchronous vertical lifting conveying type curing oven according to claim 2, wherein the vertical plate is further provided with a tension adjusting mechanism for adjusting tension of the circulating chain, the tension adjusting mechanism comprises a tension adjusting screw rod, a pressure spring and square nuts, the vertical plate is provided with vertically extending mounting holes, the square nuts are arranged in the mounting holes and can slide along the length direction of the mounting holes, two ends of a driven shaft of the chain plate are respectively provided with through holes corresponding to the tension adjusting screw rod, two ends of driven shafts of the chain plate of the first material circulation module and the second material circulation module are respectively arranged in the corresponding mounting holes, one end of the tension adjusting screw rod penetrates through the vertical plate and stretches into the mounting holes, and is in threaded connection with the square nuts through the through holes on the driven shaft of the chain plate, and the pressure spring is sleeved on the outer side of the tension adjusting screw rod between the square nuts and the driven shaft of the chain plate.