CN219401174U - Oil sealing machine for casing - Google Patents

Abstract

The utility model discloses an oil sealing machine for a casing, which relates to the technical field of mechanical automation and comprises a machine table, a conveying line mechanism, a material taking mechanism, an oil sealing mechanism, a detection mechanism, a backflow mechanism and a sealing ring mechanism; the conveying line mechanism is arranged on the machine table, and the material taking mechanism and the reflow mechanism are respectively arranged above the inlet end and the outlet end of the conveying line mechanism; the oil seal mechanism and the detection mechanism are respectively arranged beside the material taking mechanism and on the machine table, the oil seal mechanism comprises a material taking unit and an oiling unit, and the oiling unit is arranged beside the material taking unit; the detection mechanism comprises a pressure sensor and a displacement sensor, wherein the displacement sensor is arranged below the pressure sensor; the sealing ring mechanism comprises an identification unit, a transmission unit and a detection unit, wherein the transmission unit is arranged at the output end of the identification unit, and the detection unit is arranged above the transmission unit; the shell can be oil sealed with low cost and high efficiency.

Description

Oil sealing machine for casing

Technical Field

The utility model relates to the technical field of mechanical automation, in particular to an oil sealing machine.

Background

Along with the rapid development of the mechanical automation industry, the application of oil seal equipment is more and more extensive, and especially the application of the oil seal equipment on a shell is more and more popular, so that the shell in the current market is more and more required to carry out oil seal finishing processing, and the market potential is larger.

In the traditional process of oil sealing the shell, defective products are required to be recovered manually, so that the production cost is increased, and the working efficiency is slow; in addition, in the process of oil sealing the shell, the sealing ring is extremely easy to be reversely assembled, and needs to be manually corrected, so that the production efficiency is low; in view of this situation, there is a need for an oil seal housing machine that ameliorates the above problems.

Disclosure of Invention

The utility model aims to overcome the defects of high production cost and low production efficiency and provide an oil sealing machine which mainly comprises a conveying line mechanism, a material taking mechanism, an oil sealing mechanism, a detection mechanism, a backflow mechanism and a sealing ring mechanism, wherein the conveying line mechanism is used for conveying a machine shell, the material taking mechanism is used for taking and placing the machine shell, the oil sealing mechanism is used for sealing the machine shell, the detection mechanism is used for detecting defective products, and the backflow mechanism is used for recovering the defective products; the purpose of circularly, efficiently and inexpensively oil-sealing the shell is achieved.

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

an oil sealing machine for a casing comprises a machine table, a conveying line mechanism for conveying the casing, a material taking mechanism for taking and placing the casing, an oil sealing mechanism for the oil sealing casing, a detection mechanism for detecting defective products, a backflow mechanism for recovering the defective products and a sealing ring mechanism; the conveying line mechanism is arranged on the machine table, and the material taking mechanism and the reflow mechanism are respectively arranged above the inlet end and the outlet end of the conveying line mechanism; the oil seal mechanism and the detection mechanism are respectively arranged beside the material taking mechanism and on the machine table, the oil seal mechanism comprises a material taking unit and an oiling unit, and the oiling unit is arranged beside the material taking unit; the detection mechanism comprises a pressure sensor and a displacement sensor, wherein the displacement sensor is arranged below the pressure sensor; the sealing ring mechanism comprises an identification unit, a conveying unit and a detection unit, wherein the conveying unit is arranged at the output end of the identification unit, and the detection unit is arranged above the conveying unit.

Preferably, the conveyor line mechanism comprises a plurality of conveyor belts, a conveyor plate, an inductor and a code reader; the conveying ship plate is detachably arranged on the plurality of conveying belts, and is provided with a plurality of notches for placing the shell; the sensor is arranged between two adjacent conveyor belts, and the code reader is arranged at one side of the plurality of conveyor belts.

Preferably, the material taking mechanism comprises a transverse pneumatic clamping jaw for clamping the machine shell, a transverse driving motor for driving the transverse pneumatic clamping jaw, a vertical driving motor for driving the transverse driving motor, a longitudinal driving motor for driving the vertical driving motor, a sliding rail, a plurality of supporting struts for supporting the sliding rail and a press-fit groove for placing the machine shell; the plurality of support posts are arranged on the machine table, the sliding rail is arranged at the top ends of the support posts, and the vertical driving motor is arranged on the sliding rail; the transverse driving motor is arranged at the output end of the vertical driving motor, and the transverse pneumatic clamping jaw is arranged at the output end of the transverse driving motor; the press-fit groove is arranged below the oil seal mechanism.

Preferably, the material taking unit comprises a fixing frame, a press-fit head for sleeving a sealing ring, a longitudinal driving cylinder for driving the press-fit head and a longitudinal sliding rail for sliding the press-fit head; the longitudinal sliding rail is arranged on the fixing frame, the longitudinal driving cylinder is arranged on one side of the longitudinal sliding rail, and the press-fit head is arranged on the longitudinal sliding rail; the material taking unit is arranged beside the press-fit groove.

Preferably, the oiling unit comprises a plurality of oil storage pipes, a left coating block and a right coating block; the left coating block and the right coating block are respectively provided with oil storage cotton, and the right coating block is provided with a plurality of oil inlet holes which are used for being connected with the plurality of oil storage pipes.

Preferably, the displacement sensor is arranged at the bottom end of the inside of the fixing frame and is beside the press-fit groove; the pressure sensor is arranged on the press fitting head.

Preferably, the sealing ring mechanism comprises a storage bin for storing sealing rings and a conveying plate for conveying the sealing rings; the conveying plate is arranged at the outlet end of the storage bin, the identification unit is arranged at the output end of the conveying plate, and the identification unit comprises an identification head and a fixed bracket; the fixed bracket is arranged beside the conveying plate, and the identification head is arranged on the fixed bracket.

Preferably, the conveying unit comprises a rotary clamping jaw, a traversing cylinder for driving the rotary clamping jaw, a vertical motor for driving the traversing cylinder, and a supporting column for supporting the vertical motor; the support column is arranged on the machine table, the vertical motor is arranged at the top end of the support column, the transverse moving cylinder is arranged below the vertical motor, and the rotary clamping jaw is arranged at the output end of the transverse moving cylinder.

Preferably, the detection unit comprises a detection head for detecting the sealing ring, a support rod for supporting the detection head, a visual display for displaying the image of the detection head and a support frame for placing the visual display; the supporting rod and the supporting frame are respectively arranged on the machine table, and the detection head and the visual display are respectively arranged on the supporting rod and the supporting frame.

Preferably, the reflow mechanism comprises a pneumatic clamping jaw for clamping defective products, a driving motor for driving the pneumatic clamping jaw, a supporting bracket for supporting the driving motor, a reflow bin for storing the defective products, a reflow transmission line for transmitting the defective products, a sliding rail for sliding the driving motor and a motor for driving the sliding rail; the pneumatic clamping jaw is arranged at the output end of the driving motor, the driving motor is arranged on the supporting bracket, and the supporting bracket is arranged on the machine table; the reflow transmission line is arranged beside the plurality of conveyor belts and below the pneumatic clamping jaw, and the reflow bin is arranged at the output end of the reflow transmission line.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the conveying line mechanism realizes the function of conveying the shell and ensures the timeliness of conveying the shell; the material taking mechanism realizes the function of taking and placing the shell, and the taking and placing are accurate and quick; the oil seal mechanism realizes the function of an oil seal shell, fully lubricates the sealing ring, accurately seals the shell with oil, and has a simple structure; the detection mechanism realizes the function of detecting defective products, the defective products are detected in multiple aspects, and the detection result is more accurate; the reflux mechanism realizes the function of recovering defective products, and solves the technical problem that the production efficiency is reduced due to manual recovery of defective products; the design of the oil sealing machine casing makes up the defects of the prior art, meets the industrial design requirement, and has wide application value.

In order to more clearly illustrate the structural features and efficacy of the present utility model, a detailed description thereof will be given below with reference to the accompanying drawings and examples.

Drawings

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

FIG. 2 is a schematic view of a second perspective of the present utility model;

FIG. 3 is a schematic perspective view of the take-off mechanism of the present utility model;

FIG. 4 is a schematic perspective view of a material taking unit according to the present utility model;

FIG. 5 is a schematic perspective view of the oiling unit of the present utility model;

FIG. 6 is a schematic perspective view of a seal ring mechanism of the present utility model.

The attached drawings are used for identifying and describing:

in the figure: 1. a machine table; 10. a housing; 2. a conveyor line mechanism; 20. a conveyor belt; 21. a transport ship plate; 210. a notch; 22. an inductor; 23. a code reader; 3. a material taking mechanism; 30. a transverse pneumatic clamping jaw; 31. a transverse driving motor; 32. a vertical driving motor; 33. a longitudinal driving motor; 34. a slide rail; 35. a support post; 36. a press-fit groove; 4. an oil seal mechanism; 40. a material taking unit; 401. a fixing frame; 402. pressing the head; 403. a longitudinal driving cylinder; 404. a longitudinal slide rail; 41. an oiling unit; 410. an oil storage pipe; 411. left coating block; 4110. oil storage cotton; 412. right coating block; 4120. an oil inlet hole; 5. a detection mechanism; 50. a pressure sensor; 51. a displacement sensor; 6. a reflow mechanism; 60. pneumatic clamping jaws; 61. a driving motor; 62. a support bracket; 63. a reflux bin; 64. a return transmission line; 65. a slide rail; 66. a motor; 7. a seal ring mechanism; 70. an identification unit; 701. identifying a head; 702. a fixed bracket; 71. a transfer unit; 710. rotating the clamping jaw; 711. a traversing cylinder; 712. a vertical motor; 713. a support column; 72. a detection unit; 720. a detection head; 721. a support rod; 722. a visual display; 723. a support frame; 73. a storage bin; 74. and a transfer plate.

Detailed Description

The utility model is as shown in fig. 1 to 6, an oil sealing machine comprises a machine table 1, a conveying line mechanism 2 for conveying a machine shell 10, a material taking mechanism 3 for taking and placing the machine shell 10, an oil sealing mechanism 4 for oil sealing the machine shell 10, a detection mechanism 5 for detecting defective products, a reflux mechanism 6 for recovering the defective products and a sealing ring mechanism 7; the conveying line mechanism 2 is arranged on the machine table 1, and the material taking mechanism 3 and the reflow mechanism 6 are respectively arranged above the inlet end and the outlet end of the conveying line mechanism 2; the oil seal mechanism 4 and the detection mechanism 5 are respectively arranged beside the material taking mechanism 3 and on the machine table 1, the oil seal mechanism 4 comprises a material taking unit 40 and an oiling unit 41, and the oiling unit 41 is arranged beside the material taking unit 40; the detection mechanism 5 includes a pressure sensor 50 and a displacement sensor 51, the displacement sensor 51 being mounted below the pressure sensor 50; the seal ring mechanism 7 comprises a recognition unit 70, a transmission unit 71 and a detection unit 72, wherein the transmission unit 71 is arranged at the output end of the recognition unit 70, and the detection unit 72 is arranged above the transmission unit 71; wherein:

the conveyor line mechanism 2 includes a plurality of conveyor belts 20, a conveyor plate 21, an inductor 22, and a code reader 23; the conveyor belts 20 are installed on the machine 1, the conveying ship plate 21 is detachably installed on the conveyor belts 20, and the conveying ship plate 21 is provided with a plurality of notches 210 for placing the machine shell 10; the sensor 22 is disposed between two adjacent conveyor belts 20, and the code reader 23 is disposed at one side of the plurality of conveyor belts 20; the sensor 22 is used for sensing whether the conveying ship plates 21 are arranged on the plurality of conveying belts 20, the code reader 23 is used for reading information of the machine shell 10, a plurality of conveying ship plates 21 can be sequentially arranged on the plurality of conveying belts 20, and the number of notches on the conveying ship plates 21 can be adjusted according to the different numbers of the machine shell 10.

The material taking mechanism 3 comprises a transverse pneumatic clamping jaw 30 for clamping the machine shell 10, a transverse driving motor 31 for driving the transverse pneumatic clamping jaw 30, a vertical driving motor 32 for driving the transverse driving motor 31, a longitudinal driving motor 33 for driving the vertical driving motor 32, a sliding rail 34, a plurality of supporting struts 35 for supporting the sliding rail 34 and a press-fit groove 36 for placing the machine shell 10; the plurality of support posts 35 are mounted on the machine 1, the slide rail 34 is mounted on the top end of the support posts 35, and the vertical driving motor 32 is mounted on the slide rail 34; the transverse driving motor 31 is arranged at the output end of the vertical driving motor 32, and the transverse pneumatic clamping jaw 30 is arranged at the output end of the transverse driving motor 31; the press-fit groove 36 is installed below the oil seal mechanism 4; the transverse pneumatic clamping jaw 30 can realize transverse, vertical and longitudinal reciprocating motion under the driving of the transverse driving motor 31, the vertical driving motor 32 and the longitudinal driving motor 33, the shell 10 is accurately placed in the press-fit groove 36, the transverse pneumatic clamping jaw 30 can realize the overturning function of the shell 10 through rotation, the whole material taking process is automatic, the material taking speed is high, and the throwing precision is high.

The material taking unit 40 includes a fixing frame 401, a press-fitting head 402 for housing a sealing ring (not shown), a longitudinal driving cylinder 403 for driving the press-fitting head 402, and a longitudinal slide rail 404 for sliding the press-fitting head 402; the longitudinal slide rail 404 is mounted on the fixing frame 401, the longitudinal driving cylinder 403 is mounted on one side of the longitudinal slide rail 404, the press-fitting head 402 is mounted on the longitudinal slide rail 404, and the material taking unit 40 is mounted beside the press-fitting groove 36; the needle is arranged in the press fitting head 402, so that the sealing ring can be conveniently taken and placed, the press fitting head 402 can rotate, and the sealing ring can be conveniently and comprehensively smeared with an oil layer; design benefit, the dismouting of being convenient for has very strong practicality simultaneously.

The oiling unit 41 comprises a plurality of oil storage pipes 410, a left coating block 411 and a right coating block 412; the left coating block 411 and the right coating block 412 are respectively provided with an oil storage cotton 4110, and the right coating block 412 is provided with a plurality of oil inlet holes 4120 for connecting with the plurality of oil storage pipes 410; the seal ring can fully smear an oil layer after passing through the oil storage cotton 4110, and the oil storage pipe 410 gives the oil storage cotton 4110 a sufficient oil amount at any time, so that the normal work of an oiling process is ensured, and the oil amount is not required to be manually supplemented; greatly facilitates the use of people.

The displacement sensor 51 is installed at the bottom end of the inside of the fixing frame 401 and is located beside the press-fit groove 36; the pressure sensor 50 is mounted on the press-fitting head 402; the occupied space of the equipment is saved, and the space is saved.

The sealing ring mechanism 7 comprises a storage bin 73 for storing sealing rings and a conveying plate 74 for conveying the sealing rings; the conveying plate 74 is installed at the outlet end of the storage bin 73, the recognition unit 70 is installed at the output end of the conveying plate 74, and the recognition unit 70 includes a recognition head 701 and a fixing bracket 702; the fixed bracket 702 is installed beside the transfer plate 74, and the identification head 701 is installed on the fixed bracket 702; the identifying unit 70 is used for identifying whether the sealing ring is mounted on the conveying plate 74, and when the sealing ring is mounted on the conveying plate 74, the sealing ring is conveyed by the conveying unit 71, so that the situation that the conveying unit 71 does not effectively convey the sealing ring is prevented; and the transportation efficiency of the sealing ring is improved.

The transfer unit 71 includes a rotating jaw 710, a traversing cylinder 711 for driving the rotating jaw 710, a vertical motor 712 for driving the traversing cylinder 711, and a supporting column 713 for supporting the vertical motor 712; the support column 713 is mounted on the machine 1, the vertical motor 712 is mounted on the top end of the support column 713, the traversing cylinder 711 is mounted below the vertical motor 712, and the rotating clamping jaw 710 is mounted on the output end of the traversing cylinder 711; the rotary clamping jaw 710 can convey the sealing ring under the driving of the transverse moving air cylinder 711 and the vertical motor 712, and the sealing ring which is reversely placed can be reset to be placed in the forward direction by the rotary clamping jaw 710, so that the conveying operation can be completed without manual overturning, the production efficiency is greatly improved, the labor intensity of workers is reduced, and the quality of products can be effectively ensured.

The detecting unit 72 includes a detecting head 720 for detecting a sealing ring, a supporting rod 721 for supporting the detecting head 720, a visual display 722 for displaying an image of the detecting head 720, and a supporting frame 723 for placing the visual display; the supporting rod 721 and the supporting frame 723 are respectively installed on the machine 1, and the detecting head 720 and the visual display 722 are respectively installed on the supporting rod 721 and the supporting frame 723; the detecting unit 72 is used for detecting whether the current sealing ring is reversely placed, and the visual display 722 can display the state of the current sealing ring in real time, so that the current sealing ring is convenient for a user to observe, various living demands can be met, and the appearance is attractive.

The reflow mechanism 6 comprises a pneumatic clamping jaw 60 for clamping defective products, a driving motor 61 for driving the pneumatic clamping jaw 60, a supporting bracket 62 for supporting the driving motor 61, a reflow bin 63 for storing the defective products, a reflow transmission line 64 for transmitting the defective products, a sliding rail 65 for sliding the driving motor 61 and a motor 66 for driving the sliding rail; the pneumatic clamping jaw 60 is arranged at the output end of the driving motor 61, the driving motor 61 is arranged on the supporting bracket 62, and the supporting bracket 62 is arranged on the machine table 1; the reflux transmission line 64 is arranged beside the plurality of conveyor belts 20 and below the pneumatic clamping jaw 60, and the reflux bin 63 is arranged at the output end of the reflux transmission line 64; solves the technical problem of reducing production efficiency by manually recycling defective products, and has wide application value.

The oil is sealed into the shell machine, and the working principle is as follows:

the plurality of conveyor belts of the conveyor belt mechanism convey a conveying ship plate carrying the shell to the lower part of the material taking mechanism, the transverse pneumatic clamping jaw of the material taking mechanism clamps the shell on the conveying ship plate and overturns the shell under the drive of the transverse driving motor, and the vertical driving motor and the longitudinal driving motor of the material taking mechanism are coordinated together to convey the shell into the press-fit groove; when the identification unit identifies that the sealing ring is arranged at the outlet end of the storage bin, the sealing ring is conveyed to the conveying unit, the detection unit detects the positive and negative conditions of the sealing ring and displays the positive and negative conditions through the visual display, and if the detection unit detects that the sealing ring is reversely placed, the rotary clamping jaw of the conveying unit rotates the sealing ring to be positively placed through rotation; the material taking unit conveys the sealing ring into the oiling unit, and the material taking unit places the sealing ring on the shell after the oiling unit fully oils the sealing ring; the pressure sensor and the displacement sensor detect parameters of the sealing ring and are used for judging whether the oil seal is pressed in place, and if the oil seal is detected to be not pressed in place, defective products are recovered through the backflow mechanism.

The design key point of the utility model is that the oil seal machine is more compact in structure and more perfect in function by combining the machine table, the conveying line mechanism, the material taking mechanism, the oil seal mechanism, the detection mechanism, the reflux mechanism and the sealing ring mechanism; through the design of the pressure sensor and the displacement sensor, the detection is jointly matched in multiple aspects to judge whether the oil seal is pressed in place, so that the accuracy of judging defective products is improved;

the design of the material taking unit and the oiling unit fully realizes the oiling operation of the sealing ring, saves labor, and has high oiling speed and accuracy; on the premise of improving the original production efficiency, the operation is easier; thereby saving the cost to a great extent.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims (10)

1. The oil sealing machine is characterized by comprising a machine table, a conveying line mechanism for conveying the machine shell, a material taking mechanism for taking and placing the machine shell, an oil sealing mechanism for oil sealing the machine shell, a detection mechanism for detecting defective products, a reflux mechanism for recovering the defective products and a sealing ring mechanism; the conveying line mechanism is arranged on the machine table, and the material taking mechanism and the reflow mechanism are respectively arranged above the inlet end and the outlet end of the conveying line mechanism; the oil seal mechanism and the detection mechanism are respectively arranged beside the material taking mechanism and on the machine table, the oil seal mechanism comprises a material taking unit and an oiling unit, and the oiling unit is arranged beside the material taking unit; the detection mechanism comprises a pressure sensor and a displacement sensor, wherein the displacement sensor is arranged below the pressure sensor; the sealing ring mechanism comprises an identification unit, a conveying unit and a detection unit, wherein the conveying unit is arranged at the output end of the identification unit, and the detection unit is arranged above the conveying unit.

2. The oil intake enclosure of claim 1, wherein the conveyor line mechanism comprises a plurality of conveyor belts, a conveyor deck, an inductor, and a code reader; the conveying ship plate is detachably arranged on the plurality of conveying belts, and is provided with a plurality of notches for placing the shell; the sensor is arranged between two adjacent conveyor belts, and the code reader is arranged at one side of the plurality of conveyor belts.

3. The oil-in-chassis machine according to claim 1, wherein the material taking mechanism comprises a transverse pneumatic clamping jaw for clamping the chassis, a transverse driving motor for driving the transverse pneumatic clamping jaw, a vertical driving motor for driving the transverse driving motor, a longitudinal driving motor for driving the vertical driving motor, a sliding rail, a plurality of supporting struts for supporting the sliding rail, and a press-fit groove for placing the chassis; the plurality of support posts are arranged on the machine table, the sliding rail is arranged at the top ends of the support posts, and the vertical driving motor is arranged on the sliding rail; the transverse driving motor is arranged at the output end of the vertical driving motor, and the transverse pneumatic clamping jaw is arranged at the output end of the transverse driving motor; the press-fit groove is arranged below the oil seal mechanism.

4. The oil-in-machine housing of claim 3, wherein the material-taking unit comprises a fixing frame, a press-fitting head for sleeving the sealing ring, a longitudinal driving cylinder for driving the press-fitting head, and a longitudinal sliding rail for sliding the press-fitting head; the longitudinal sliding rail is arranged on the fixing frame, the longitudinal driving cylinder is arranged on one side of the longitudinal sliding rail, and the press-fit head is arranged on the longitudinal sliding rail; the material taking unit is arranged beside the press-fit groove.

5. The oil-in-chassis machine according to claim 1, wherein the oiling unit comprises a plurality of oil storage pipes, a left coating block and a right coating block; the left coating block and the right coating block are respectively provided with oil storage cotton, and the right coating block is provided with a plurality of oil inlet holes which are used for being connected with the plurality of oil storage pipes.

6. The oil-in-chassis machine according to claim 4, wherein the displacement sensor is installed at the bottom end of the inside of the fixing frame and beside the press-fit groove; the pressure sensor is arranged on the press fitting head.

7. The oil seal in-housing machine of claim 1, wherein the seal ring mechanism comprises a storage bin for storing seal rings and a transfer plate for transferring the seal rings; the conveying plate is arranged at the outlet end of the storage bin, the identification unit is arranged at the output end of the conveying plate, and the identification unit comprises an identification head and a fixed bracket; the fixed bracket is arranged beside the conveying plate, and the identification head is arranged on the fixed bracket.

8. The oil-in-chassis machine according to claim 1, wherein the transfer unit includes a rotating jaw, a traversing cylinder for driving the rotating jaw, a vertical motor for driving the traversing cylinder, a support column for supporting the vertical motor; the support column is arranged on the machine table, the vertical motor is arranged at the top end of the support column, the transverse moving cylinder is arranged below the vertical motor, and the rotary clamping jaw is arranged at the output end of the transverse moving cylinder.

9. The oil-in-machine housing according to claim 1, wherein the detection unit includes a detection head for detecting the seal ring, a support rod for supporting the detection head, a visual display for displaying an image of the detection head, and a support frame for placing the visual display; the supporting rod and the supporting frame are respectively arranged on the machine table, and the detection head and the visual display are respectively arranged on the supporting rod and the supporting frame.

10. The oil-in-chassis machine according to claim 2, wherein the reflow mechanism comprises a pneumatic clamping jaw for clamping defective products, a driving motor for driving the pneumatic clamping jaw, a supporting bracket for supporting the driving motor, a reflow bin for storing the defective products, a reflow transmission line for transmitting the defective products, a sliding rail for sliding the driving motor, and a motor for driving the sliding rail; the pneumatic clamping jaw is arranged at the output end of the driving motor, the driving motor is arranged on the supporting bracket, and the supporting bracket is arranged on the machine table; the reflow transmission line is arranged beside the plurality of conveyor belts and below the pneumatic clamping jaw, and the reflow bin is arranged at the output end of the reflow transmission line.