CN112298919A - Take return line of rapid disassembly structure - Google Patents

Abstract

The invention provides a backflow line with a quick-release structure, which comprises a first conveying device and a second conveying device, wherein the first conveying device is arranged at the upper end of a rack and used for feeding materials, the second conveying device is arranged at the lower end of the rack and used for backflow, the first conveying device and the second conveying device are respectively provided with a conveying belt conveying mechanism and a driving mechanism, the conveying belt conveying mechanism comprises a first conveying belt conveying component and a second conveying belt conveying component which are oppositely arranged, the first conveying belt conveying component is arranged at the output end of the driving mechanism, and a first transmission component for transmission is arranged between the first conveying belt conveying component and the second conveying belt conveying component so as to enable the first conveying belt conveying component and the second conveying belt conveying component to synchronously convey; the first transmission assembly is provided with a quick-release structure, so that the conveyor belts on the first conveyor belt conveying assembly and the second conveyor belt conveying assembly can be quickly detached by detaching the quick-release structure. The return line with the quick-release structure is simple in structure and convenient to operate, and quick detachment and replacement of the conveyor belt are realized.

Description

Take return line of rapid disassembly structure

Technical Field

The invention relates to the technical field of conveying equipment, in particular to a return line with a quick-release structure.

Background

Conveyor lines typically convey articles by way of conveyor belts, which are worn items that often require removal and replacement of the conveyor belt over time. However, the conventional conveyor belt is troublesome to disassemble and replace, workers need to disassemble the driving assembly and other parts in the rack firstly to disassemble the conveyor belt, then need to reinstall each part during installation, and need to adjust the tension of the conveyor belt in order to ensure the reliability of the conveyor belt, and the like, so that certain inconvenience is brought to replacement and use.

Therefore, a need exists for a return line that allows for quick removal and replacement of the conveyor belt.

Disclosure of Invention

The invention aims to provide a return line with a quick-release structure, which can quickly detach and replace a conveyor belt.

In order to achieve the purpose, the invention provides a backflow line with a quick-release structure, which comprises a first conveying device and a second conveying device, wherein the first conveying device is arranged at the upper end of a rack and used for feeding materials, the second conveying device is arranged at the lower end of the rack and used for backflow, the first conveying device and the second conveying device are respectively provided with a conveying belt conveying mechanism and a driving mechanism, the conveying belt conveying mechanism comprises a first conveying belt conveying component and a second conveying belt conveying component which are oppositely arranged, the first conveying belt conveying component is arranged at the output end of the driving mechanism, a first transmission component for transmission is arranged between the first conveying belt conveying component and the second conveying belt conveying component, and the first conveying belt conveying component and the second conveying belt conveying component are synchronously conveyed through the first transmission component; the first transmission assembly is provided with a quick-release structure, so that the conveyor belts on the first conveyor belt conveying assembly and the second conveyor belt conveying assembly can be quickly detached by detaching the quick-release structure.

Compared with the prior art, the return line with the quick-release structure comprises a first conveying device located at the upper end of the rack and a second conveying device located at the lower end of the rack, and the first conveying device and the second conveying device drive the conveying belt conveying mechanism to convey workpieces through the driving mechanism. Because the phenomenon that the conveyer belt on the conveyer belt conveying mechanism needs to be changed when can appear ageing in the use, consequently, increase the quick detach structure and change the conveyer belt with dismantling fast on conveyer belt conveying mechanism. The conveying belt conveying mechanism comprises a first conveying belt conveying assembly and a second conveying belt conveying assembly which are arranged oppositely, a first transmission assembly which enables the first conveying belt conveying assembly and the second conveying belt conveying assembly to be in synchronous transmission is arranged between the first conveying belt conveying assembly and the second conveying belt conveying assembly, a quick-release structure is arranged on the first transmission assembly, and the conveying belts on the first conveying belt conveying assembly and the second conveying belt conveying assembly can be quickly detached by detaching the quick-release structure. The return line with the quick-release structure is simple in structure and convenient to operate, can realize quick detachment and replacement of the conveyor belt, and greatly facilitates replacement of the conveyor belt.

Preferably, the first transmission assembly comprises a first shaft connected to the first conveyor belt conveying assembly and a second shaft connected to the second conveyor belt conveying assembly, and the quick release structure is connected between the first shaft and the second shaft.

Preferably, the quick-release structure comprises a coupler, the first shaft body and the second shaft body can synchronously drive the first conveyor belt conveying assembly and the second conveyor belt conveying assembly by means of the coupler, and the conveyor belts on the first conveyor belt conveying assembly and the second conveyor belt conveying assembly can be quickly detached by means of the coupler.

Preferably, the first conveyor belt conveying assembly is provided with a first synchronizing wheel matched with the first shaft body, and one end of the first shaft body, which is far away from the coupler, penetrates through the first synchronizing wheel and is fixed on the rack; and a second synchronous wheel matched with the second shaft body is arranged on the second conveyor belt conveying component, and one end, far away from the coupler, of the second shaft body penetrates through the second synchronous wheel and is fixed on the rack.

Preferably, still be provided with on the first conveyer and get material jacking device, get material jacking device including set up in two climbing mechanisms of frame both sides relatively, be provided with the second transmission subassembly between two climbing mechanisms, borrow by the second transmission subassembly so that two climbing mechanisms move in step.

Preferably, the jacking mechanism comprises a power part and a material taking part connected to the power part, the material taking part is provided with a material taking part used for taking materials, the material taking part is close to the conveying belt conveying mechanism so that the carrier conveyed from the conveying belt conveying mechanism passes through the material taking part, and the power part acts to jack the carrier in the material taking part.

Preferably, get the material piece and be connected with the power piece through a mounting panel, get material jacking device still includes the backup pad, and the mounting panel is gliding to be installed in the backup pad, and the one end of mounting panel is connected with first driving piece, is provided with the second driving piece with first driving piece complex in the backup pad, and the power piece action is so that first driving piece and second driving piece transmission fit.

Preferably, the first driving member is a rack, the second driving member is a gear engaged with the rack, the second transmission assembly is installed between the two gears oppositely arranged, the power member acts to enable the rack and the gear to be engaged for transmission, and the two gears are enabled to be synchronously transmitted by virtue of the second transmission assembly, so that the jacking mechanisms on the two sides are enabled to be synchronously lifted.

Preferably, the supporting plate is provided with a first limiting member engaged with the mounting plate, so as to limit the sliding stroke of the mounting plate on the supporting plate by means of the first limiting member.

Get material jacking device bottom and be provided with the chassis, get material jacking device and be liftable install in the chassis of adjusting, be provided with in the backup pad with chassis complex second locating part, borrow by the adjusting position of second locating part in order to restrict getting material jacking device.

Drawings

Fig. 1 is a schematic structural diagram of a return line with a quick release structure according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the reclaiming jacking apparatus of fig. 1 with the reclaiming jacking apparatus removed.

Fig. 3 is a schematic structural diagram of a material taking and lifting device and a first conveying device according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the conveyor belt conveying mechanism and the first transmission assembly in fig. 3.

Fig. 5 is a schematic structural diagram of another embodiment in fig. 4.

Fig. 6 is an exploded view of fig. 5.

Fig. 7 is an exploded view of the first transmission assembly of fig. 5.

Fig. 8 is a schematic structural diagram of the material taking and jacking device in fig. 3.

Fig. 9 is a schematic view of the jacking mechanism of fig. 8 engaged with the support plate.

Fig. 10 is a schematic structural view of the jacking mechanism of fig. 8.

Fig. 11 is a schematic structural view of the lifting device in fig. 2.

Description of reference numerals:

100. a return line with a quick release structure; 101. a frame; 102. a carrier;

10. a first conveying device; 11. a first conveyor belt transport assembly; 111. a first synchronizing wheel; 112. a first conveyor belt; 113. a first backing plate; 12. a second conveyor belt transport assembly; 121. a second synchronizing wheel; 122. a second conveyor belt; 123. a fixing member; 124. a second backing plate; 13. a first transmission assembly; 131. a coupling; 132. a first shaft body; 133. a second shaft body; 14. a drive mechanism; 141. a drive motor; 142. a first transmission member; 143. a second transmission member; 144. a third transmission member;

20. a second conveying device;

30. a material taking jacking device; 301. a support plate; 3011. avoiding the concave part; 302. a chassis; 3021. an adjustment hole; 31. a jacking mechanism; 311. mounting a plate; 312. a power member; 313. taking a material part; 3131. a material taking part; 314. a first driving member; 32. a second driving member; 33. a first slide assembly; 34. a first limit piece; 35. a second limiting member; 36. a second transmission assembly; 37. positioning a sensing assembly; 38. the buffer material blocking assembly;

40. a blocking mechanism;

50. a lifting device; 51. a base; 52. a transport mechanism; 53. a material blocking part; 54. a lifting cylinder; 55. a lifting guide rod.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 to 3, the present invention provides a backflow line 100 with a quick release structure, which includes a first conveyor 10 disposed at an upper end of a frame 101 for feeding and a second conveyor 20 disposed at a lower end of the frame 101 for backflow. Wherein, the first conveying device 10 and the second conveying device 20 are both provided with a conveyor belt conveying mechanism and a driving mechanism 14, and the driving mechanism 14 is used for driving the conveyor belt conveying mechanism to convey the objects. Specifically, the conveyor belt conveying mechanism comprises a first conveyor belt conveying assembly 11 and a second conveyor belt conveying assembly 12 which are oppositely arranged, the first conveyor belt conveying assembly 11 is located on one side of the rack 101, and the second conveyor belt conveying assembly 12 is located on the other side of the rack 101. The first conveyor belt conveying assembly 11 is located at an output end of the driving mechanism 14, a first transmission assembly 13 for transmission is arranged between the first conveyor belt conveying assembly 11 and the second conveyor belt conveying assembly 12, and the first conveyor belt conveying assembly 11 and the second conveyor belt conveying assembly 12 can synchronously convey through the first transmission assembly 13. The first transmission assembly 13 is provided with a quick release structure, so that the conveyor belts on the first conveyor belt conveying assembly 11 and the second conveyor belt conveying assembly 12 can be quickly detached by detaching the quick release structure.

After the technical scheme is adopted, the return line 100 with the quick release structure comprises the first conveying device 10 positioned at the upper end of the rack 101 and the second conveying device 20 positioned at the lower end of the rack 101, wherein the first conveying device 10 and the second conveying device 20 respectively drive the conveyor belt conveying mechanism to convey workpieces through the respective driving mechanisms 14. Because the phenomenon that the conveyer belt on the conveyer belt conveying mechanism needs to be changed when can appear ageing in the use, consequently, increase the quick detach structure and change the conveyer belt with dismantling fast on conveyer belt conveying mechanism. The conveying belt conveying mechanism comprises a first conveying belt conveying assembly 11 and a second conveying belt conveying assembly 12 which are oppositely arranged, a first transmission assembly 13 which enables the first conveying belt conveying assembly 11 and the second conveying belt conveying assembly 12 to synchronously drive is arranged between the first conveying belt conveying assembly 11 and the second conveying belt conveying assembly 12, a quick-release structure is arranged on the first transmission assembly 13, and conveying belts on the first conveying belt conveying assembly 11 and the second conveying belt conveying assembly 12 can be quickly detached by detaching the quick-release structure. The return line 100 with the quick-release structure has a simple structure, is convenient to operate, can realize quick detachment and replacement of the conveyor belt, and greatly facilitates the replacement of the conveyor belt.

Referring to fig. 3 to 7, in some alternative embodiments, the first transmission assembly 13 includes a first shaft 132 connected to the first conveyor belt conveying assembly 11 and a second shaft 133 connected to the second conveyor belt conveying assembly 12, and the quick release structure is connected between the first shaft 132 and the second shaft 133. Specifically, the quick release structure includes a coupler 131, i.e., the coupler 131 is connected between a first shaft 132 and a second shaft 133. The coupling 131 enables the first shaft 132 and the second shaft 133 to synchronously drive the first belt conveyor assembly 11 and the second belt conveyor assembly 12, and the coupling 131 can be removed to quickly remove the belts on the first belt conveyor assembly 11 and the second belt conveyor assembly 12. It can be understood that the shaft coupling 131 is disposed between the first shaft 132 and the second shaft 133, which not only enables the first belt conveyor assembly 11 and the second belt conveyor assembly 12 to convey synchronously, but also enables the belts on the first belt conveyor assembly 11 and the second belt conveyor assembly 12 to be quickly and conveniently detached by detaching the shaft coupling 131. Each conveyor transport may be provided with a first drive assembly 13.

Referring to fig. 4 to 6, in some alternative embodiments, the first belt conveyor assembly 11 is provided with a first synchronizing wheel 111 engaged with the first shaft 132, and an end of the first shaft 132 away from the coupler 131 penetrates through the first synchronizing wheel 111 and is fixed on the frame 101. The second belt conveying assembly 12 is provided with a second synchronizing wheel 121 engaged with the second shaft 133, and one end of the second shaft 133 away from the coupler 131 passes through the second synchronizing wheel 121 and is fixed to the frame 101. Wherein the first belt conveyor assembly 11 comprises a first synchronizing wheel 111, a first conveyor belt 112 and a first pad 113. The first synchronizing wheel 111 is engaged with the first shaft 132, and the first shaft 132 passes through the first synchronizing wheel 111 to rotatably mount the first synchronizing wheel 111 on the frame 101. The first conveyor belt 112 is wound around the first timing wheel 111, and the first pad 113 supports the first conveyor belt 112. The driving mechanism 14 includes a driving motor 141, a first transmission member 142, a second transmission member 143, and a third transmission member 144, and each of the first transmission member 142, the second transmission member 143, and the third transmission member 144 may be gears engaged with each other. The first transmission member 142 is located at the output end of the driving motor 141, the second transmission member 143 is engaged with the first transmission member 142, and the third transmission member 144 is engaged with the first shaft 132 passing through the frame 101 and engaged with the second transmission member 143. The second belt conveyor assembly 12 includes a second timing wheel 121, a second conveyor belt 122, a fixture 123, and a second tie plate 124. The second synchronizing wheel 121 is matched with the second shaft body 133, the second shaft body 133 passes through the second synchronizing wheel 121 to rotatably mount the second synchronizing wheel 121 on the rack 101, and the fixing member 123 is used for fixing the second synchronizing wheel 121 and the rack 101. The second belt 122 is wound around the second timing wheel 121, and the second pad 124 supports the second belt 122. Specifically, the driving motor 141 is operated to operate the first transmission member 142, so as to drive the second transmission member 143 and the third transmission member 144 to engage for transmission; the third transmission member 144 drives the first transmission assembly 13 to move, so as to drive the first belt conveyor assembly 11 and the second belt conveyor assembly 12 to move synchronously, so that the first belt conveyor 112 and the second belt conveyor 122 are driven on the rack 101 to convey the objects.

Referring to fig. 3, 8 to 10, in some alternative embodiments, a material taking and lifting device 30 may be further disposed on the first conveying device 10, and the carrier 102 conveyed on the first conveying device 10 may be lifted by the material taking and lifting device 30 without affecting the continuous conveying on the first conveying device 10 of the other following carriers 102. The material taking jacking device 30 comprises two jacking mechanisms 31 oppositely arranged on two sides of the rack 101, a second transmission assembly 36 is arranged between the two jacking mechanisms 31, and the two jacking mechanisms 31 synchronously move by means of the second transmission assembly 36. Specifically, the jacking mechanism 31 includes a power member 312 and a material extracting member 313 connected to the power member 312. The material taking part 313 is provided with a material taking part 3131 for taking materials, the material taking part 3131 is close to the conveyor belt conveying mechanism so that the carrier 102 conveyed from the conveyor belt conveying mechanism passes through the material taking part 3131, and the power part 312 acts to lift up the carrier 102 in the material taking part 3131. The material taking and jacking device 30 further comprises supporting plates 301, and the supporting plates 301 are installed on two sides of the rack 101 and used for installing the jacking mechanisms 31. The material taking part 313 is connected with the power part 312 through a mounting plate 311, and the mounting plate 311 is slidably mounted on the supporting plate 301 through the first sliding component 33 under the action of the power part 312. An avoiding concave part 3011 for the material taking part 313 to move up and down is formed in the supporting plate 301, and the avoiding concave part 3011 is formed in the supporting plate 301, so that the mounting plate 311 can better drive the material taking part 313 to move up and down and slide, and the structure is more compact.

One end of the mounting plate 311 is connected with a first driving member 314, the supporting plate 301 is provided with a second driving member 32 matched with the first driving member 314, and the power member 312 acts to enable the first driving member 314 to be matched with the second driving member 32 in a transmission manner.

Referring to fig. 3, 8 to 10, in some alternative embodiments, the power element 312 may be an air cylinder, an output end of the air cylinder is fixed on the supporting plate 301, a cylinder body of the air cylinder is mounted on the mounting plate 311, and the air cylinder drives the mounting plate 311 to perform a lifting motion on the supporting plate 301 under a reaction force of the air cylinder. The cylinder body of the air cylinder is arranged on the mounting plate 311, the output end of the air cylinder is fixed on the support plate 301, the mounting space of the air cylinder on the support plate 301 can be saved, the structure is more compact, and the design is reasonable. A first driving member 314 is mounted at one end of the mounting plate 311, the first driving member 314 is a rack, the second driving member 32 is a gear engaged with the rack, and the gear is mounted on the support plate 301. A second transmission assembly 36 is disposed between two gears oppositely disposed on the supporting plate 301, the power element 312 acts to make the rack and the gears mesh for transmission, and the two gears on the two sides of the supporting plate 301 are synchronously transmitted by the second transmission assembly 36, so that the lifting mechanisms 31 on the two sides are synchronously lifted. On the other hand, the take-out member 313 has one end mounted on the mounting plate 311 and the other end facing the carrier 102 conveyed on the first conveyor 10. One end of the material taking component 313 facing the carrier 102 is provided with a concave material taking part 3131, the material taking part 3131 is arranged on the first conveyor belt 112 and the second conveyor belt 122, and the carrier 102 can pass through the material taking parts 3131 on the first conveyor belt 112 and the second conveyor belt 122 in the conveying process. When the power component 312 operates, the jacking mechanisms 31 on two sides of the supporting plate 301 synchronously operate under the action of the second transmission assembly 36 to simultaneously jack the carrier 102 on the first transmission device 10, so that other mechanisms can detect or process the workpiece on the carrier 102, and the subsequent transmission of other carriers 102 on the first transmission device 10 is not affected, thereby greatly improving the production efficiency.

Referring to fig. 3, 8 to 10, in some optional embodiments, a first limiting member 34 cooperating with the mounting plate 311 is disposed on the supporting plate 301, and the sliding stroke of the mounting plate 311 on the supporting plate 301 is limited by the first limiting member 34. The first limiting member 34 is disposed on the supporting plate 301, so that the power member 312 drives the mounting plate 311 to lift without directly impacting the supporting plate 301, which is safer and more stable. The bottom of the material taking and jacking device 30 is provided with a bottom frame 302, the bottom frame 302 is used for supporting and fixing the supporting plate 301, the supporting plate 301 of the material taking and jacking device 30 is arranged on the bottom frame 302 in a lifting and adjusting mode, and the bottom frame 302 is provided with an adjusting hole 3021 which can be adjusted in height with the supporting plate 301. The supporting plate 301 is provided with a second limiting member 35 engaged with the bottom frame 302, so as to limit the adjusting position of the material taking and lifting device 30 by means of the second limiting member 35. According to the thickness of the carrier 102, the height of the material taking jacking device 30 is adjusted while the material taking piece 313 is replaced, so that interference in transmission of subsequent carriers 102 after the material taking jacking device 30 jacks the carrier 102 is avoided, the structure is simple, and the design is reasonable.

Referring to fig. 3, 8 to 10, in some optional embodiments, the reclaiming and jacking device 30 further includes a positioning sensing assembly 37 for monitoring the position of the carrier 102 and a buffer stop assembly 38 for stopping the material, and the buffer stop assembly 38 receives a signal from the positioning sensing assembly 37 to operate, so that the carrier 102 conveyed on the first conveyor 10 is stopped on the first conveyor 10. The positioning sensing assembly 37 and the buffer stop assembly 38 are arranged, so that the carrier 102 can be smoothly conveyed and lifted on the first conveying device 10.

Referring to fig. 3, in some alternative embodiments, a blocking mechanism 40 for blocking the material is disposed on the first conveying device 10, the material feeding or the conveyance of the carriers 102 on the first conveying device 10 can be suspended by the blocking mechanism 40, so as to prevent the carriers 102 on the first conveying device 10 from colliding with each other when the material taking and lifting device 30 takes the material for lifting, and the blocking mechanism 40 may be a cylinder blocking mechanism.

Referring to fig. 1, 2 and 11, in some alternative embodiments, the lifting device 50 is disposed at two ends of the frame 101 and is connected to the first conveyor 10 and the second conveyor 20, so that the carrier 102 can flow back from the first conveyor 10 to the second conveyor 20 through the lifting device 50. Specifically, the lifting device 50 includes a conveying mechanism 52, a material blocking member 53, a base 51, a lifting cylinder 54, and a lifting guide rod 55. The conveying mechanism 52 and the material blocking member 53 are arranged on the base 51, the plurality of lifting guide rods 55 are used for supporting the base 51, and the lifting cylinder 54 acts to enable the base 51 and the conveying mechanism 52 thereon to move up and down along the lifting guide rods 55. A belt conveying mechanism for conveying the carrier 102 is provided on the first conveyor 10. The carrier 102 is transported on the conveyor belt conveying mechanism, and after the workpiece on the carrier 102 to be conveyed on the conveyor belt conveying mechanism is processed and taken away, the carrier 102 is unloaded. The lifting cylinder 54 acts to enable the conveying mechanism 52 to abut against the belt conveying mechanism so as to abut the empty carrier 102 on the belt conveying mechanism onto the conveying mechanism 52, and the material blocking piece 53 blocks the material so that the carrier 102 can stay on the conveying mechanism 52. Then, the lift cylinder 54 is operated to make the transfer mechanism 52 abut against the second transfer device 20 along with the lowering of the lift guide 55 to a certain height, so that the carrier 102 on the transfer mechanism 52 can be reflowed. Another lifting device 50 raises the empty carrier 102 to a certain height for recovery. The lifting device 50 is disposed at two ends, and can be used for butting the first conveying device 10 and the second conveying device 20, so that the carrier 102 can realize the backflow from the first conveying device 10 to the second conveying device 20.

As shown in fig. 1 to 11, the return line 100 with the quick release structure of the present invention includes a first conveyor 10 located at an upper end of a rack 101 and a second conveyor 20 located at a lower end of the rack 101, and the first conveyor 10 and the second conveyor 20 respectively drive a conveyor belt conveying mechanism through respective driving mechanisms 14 to convey workpieces. Because the phenomenon that the conveyer belt on the conveyer belt conveying mechanism needs to be changed when can appear ageing in the use, consequently, increase the quick detach structure and change the conveyer belt with dismantling fast on conveyer belt conveying mechanism. The conveying belt conveying mechanism comprises a first conveying belt conveying assembly 11 and a second conveying belt conveying assembly 12 which are oppositely arranged, a first transmission assembly 13 which enables the first conveying belt conveying assembly 11 and the second conveying belt conveying assembly 12 to synchronously drive is arranged between the first conveying belt conveying assembly 11 and the second conveying belt conveying assembly 12, a quick-release structure is arranged on the first transmission assembly 13, and conveying belts on the first conveying belt conveying assembly 11 and the second conveying belt conveying assembly 12 can be quickly detached by detaching the quick-release structure. The return line 100 with the quick-release structure has a simple structure, is convenient to operate, can realize quick detachment and replacement of the conveyor belt, and greatly facilitates the replacement of the conveyor belt. On the other hand, the return line 100 with the quick release structure of the present invention is provided with the material taking and jacking device 30 on the first conveying device 10, so that the carrier 102 on the first conveying device 10 can be lifted, the workpiece in the carrier 102 can be processed or detected on the first conveying device 10, and other carriers 102 can continue to be conveyed on the first conveying device 10, thereby greatly improving the production efficiency. The return line 100 with the quick release structure not only realizes quick detachment and replacement of the conveyor belt, but also realizes return of the carrier 102 between the first conveyor 10 and the second conveyor 20, and greatly improves the production efficiency.

The above disclosure is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, so that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.

Claims (10)

1. A backflow line with a quick-release structure is characterized by comprising a first conveying device and a second conveying device, wherein the first conveying device is arranged at the upper end of a rack and used for feeding materials, the second conveying device is arranged at the lower end of the rack and used for backflow, the first conveying device and the second conveying device are both provided with a conveying belt conveying mechanism and a driving mechanism, the conveying belt conveying mechanism comprises a first conveying belt conveying assembly and a second conveying belt conveying assembly which are oppositely arranged, the first conveying belt conveying assembly is arranged at the output end of the driving mechanism, a first transmission assembly used for transmission is arranged between the first conveying belt conveying assembly and the second conveying belt conveying assembly, and the first conveying belt conveying assembly and the second conveying belt conveying assembly are synchronously conveyed through the first transmission assembly; the first transmission assembly is provided with a quick-release structure, and the quick-release structure is disassembled to enable the conveying belts on the first conveying belt conveying assembly and the second conveying belt conveying assembly to be quickly disassembled.

2. The return line with a quick release structure as claimed in claim 1, wherein the first transmission assembly comprises a first shaft connected to the first conveyor belt conveying assembly and a second shaft connected to the second conveyor belt conveying assembly, and the quick release structure is connected between the first shaft and the second shaft.

3. The return line with a quick release structure as claimed in claim 2, wherein the quick release structure comprises a coupling, the first and second shafts can synchronously drive the first and second conveyor belt conveying assemblies by means of the coupling, and the first and second conveyor belt conveying assemblies can be quickly detached by detaching the coupling.

4. The return line with the quick release structure as claimed in claim 3, wherein the first conveyor belt conveying assembly is provided with a first synchronizing wheel cooperating with the first shaft, and one end of the first shaft, which is far away from the coupler, passes through the first synchronizing wheel and is fixed on the frame; and a second synchronous wheel matched with the second shaft body is arranged on the second conveyor belt conveying component, and one end, far away from the coupler, of the second shaft body penetrates through the second synchronous wheel and is fixed on the rack.

5. The return line with the quick release structure as claimed in claim 1, wherein the first conveying device is further provided with a material taking jacking device, the material taking jacking device comprises two jacking mechanisms oppositely disposed at two sides of the rack, a second transmission assembly is disposed between the two jacking mechanisms, and the two jacking mechanisms are synchronously operated by the second transmission assembly.

6. The return line with a quick release structure as claimed in claim 5, wherein the jacking mechanism comprises a power member and a material taking member connected to the power member, the material taking member is provided with a material taking part for taking materials, the material taking part is close to the conveyor belt conveying mechanism so that the carrier conveyed from the conveyor belt conveying mechanism passes through the material taking part, and the power member acts to jack the carrier in the material taking part.

7. The backflow line with the quick release structure as claimed in claim 6, wherein the material taking and jacking device further comprises a support plate, the material taking part is connected with the power part through a mounting plate, the mounting plate is slidably mounted on the support plate, one end of the mounting plate is connected with a first driving part, a second driving part matched with the first driving part is arranged on the support plate, and the power part acts to enable the first driving part and the second driving part to be in transmission fit.

8. The fluid return line with a quick release structure according to claim 7, wherein the first driving member is a rack, the second driving member is a gear engaged with the rack, the second transmission assembly is installed between the two gears, the power member is operated to drive the rack to be engaged with the gear, and the two gears are driven by the second transmission assembly to be synchronously driven, so that the lifting mechanisms on two sides are synchronously lifted.

9. The return line with a quick release structure according to claim 7, wherein the support plate is provided with a first limiting member engaged with the mounting plate, and the first limiting member is used to limit a sliding stroke of the mounting plate on the support plate.

10. The return line with the quick release structure as claimed in claim 7, wherein a bottom frame is disposed at the bottom of the material taking jacking device, the material taking jacking device is installed on the bottom frame in a manner of being adjustable in height, a second limiting member is disposed on the supporting plate and is engaged with the bottom frame, and the second limiting member is used to limit the adjusting position of the material taking jacking device.

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