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CN-224198115-U - Multi-row machine following type cutter mechanism

CN224198115UCN 224198115 UCN224198115 UCN 224198115UCN-224198115-U

Abstract

The multi-row machine following type cutter mechanism comprises a blanking auxiliary assembly, a continuous cutter assembly, a blanking sorting chute assembly and a blanking chute cooling assembly, wherein the blanking auxiliary assembly and the blanking chute cooling assembly are fixed above the continuous cutter assembly, and the blanking sorting chute assembly is arranged below the continuous cutter assembly. The continuous cutter assembly comprises a driving mechanism, a rotating mechanism, a synchronous transmission mechanism, a bearing, a first eccentric shaft, a first gear, a second eccentric shaft, a second gear, a connecting block, a linear sliding rail structure, a cutter structure and a fixing seat. Compared with the prior art, the utility model adds the eccentric mechanism in the continuous cutter assembly, and drives the eccentric mechanism through gear transmission, so that the male die and the female die of the cutter do circumferential track type cutting movement, and the continuous cutting of the strip bag at the same notch is realized.

Inventors

  • LIU XIAOHUI

Assignees

  • 上海欧朔智能包装科技有限公司

Dates

Publication Date
20260505
Application Date
20250515

Claims (8)

  1. 1. The multi-row machine following type cutter mechanism is characterized by comprising a blanking auxiliary assembly (100), a continuous cutter assembly (200), a blanking sorting chute assembly (300) and a blanking chute cooling assembly (400), wherein the blanking auxiliary assembly (100) and the blanking chute cooling assembly (400) are fixed above the continuous cutter assembly (200), and the blanking sorting chute assembly (300) is arranged below the continuous cutter assembly (200); the continuous cutter assembly (200) comprises a driving mechanism (210), a rotating mechanism (220), a synchronous transmission mechanism (230), bearings (240), a first eccentric shaft (250), a first gear (260), a second eccentric shaft (270), a second gear (280), a connecting block (290), a linear slide rail structure (2100), a cutter structure (2200) and a fixing seat (2300), wherein the driving mechanism (210) is connected with the rotating mechanism (220), the synchronous transmission mechanism (230) is respectively arranged at two ends of the rotating mechanism (220), the synchronous transmission mechanism (230) and the first gear (260) are connected with two ends of the first eccentric shaft (250), the bearings (240) are arranged at two sides of the first eccentric shaft (250) and the second eccentric shaft (270), the first gear (260) and the second gear (280) are connected, the connecting block (290) is connected with the first eccentric shaft (250) and the second eccentric shaft (270), the linear slide rail structure (2100) is fixed on the fixing seat (2300), and the linear slide rail structure (2200) is connected with the linear slide rail structure (2100).
  2. 2. The multi-row machine following type cutter mechanism according to claim 1, wherein the driving mechanism (210) comprises a servo motor speed reducer (211), a speed reducer fixing plate (212), a first sprocket (213), a second sprocket (214) and a chain (215), the servo motor speed reducer (211) is fixed on the speed reducer fixing plate (212), the servo motor speed reducer (211) is connected with the first sprocket (213), the first sprocket (213) is connected with the second sprocket (214) through the chain (215), and the second sprocket (214) is connected with the rotating mechanism (220).
  3. 3. The multi-row machine following type cutter mechanism according to claim 1, wherein the rotating mechanism (220) comprises a supporting plate (221), a transmission shaft (222), bearing seats (223) and a fixing plate (224), the bearing seats (223) are arranged at two ends of the transmission shaft (222), the bearing seats (223) are connected with the fixing plate (224), and the fixing plate (224) is connected with the supporting plate (221).
  4. 4. A multi-row machine following cutter mechanism according to claim 3, wherein the synchronous transmission mechanism (230) comprises a first synchronous wheel (231), a second synchronous wheel (232) and a synchronous belt (233), the first synchronous wheel (231) is connected with the transmission shaft (222), the first synchronous wheel (231) is connected with the second synchronous wheel (232) through the synchronous belt (233), and the second synchronous wheel (232) is connected with two ends of the first eccentric shaft (250).
  5. 5. The multi-row machine following cutter mechanism according to claim 1, wherein the cutter structure (2200) comprises a cutter male tool holder (2210), a cutter male tool (2220), a cutter female tool holder (2230), a cutter female tool (2240) and a floating joint (2250), the cutter male tool (2220) is connected with the cutter male tool holder (2210) through the floating joint (2250), and the cutter female tool holder (2230) is provided with the cutter female tool (2240).
  6. 6. The multi-row machine following cutter mechanism according to claim 5, wherein the linear slide structure (2100) comprises a slide (2110) and a slide (2120), the slide (2120) is connected with the slide (2110), the slide (2110) is connected with a cutter female die holder (2230) through a connecting block (290), and the slide (2120) is connected with a cutter male die holder (2210).
  7. 7. The multi-row machine following cutter mechanism according to claim 1, wherein the blanking auxiliary assembly (100) comprises a blanking servo motor speed reducer (110), a frame (120), a coupler (130), a gear swing rod (140), a blanking first gear (150), a first transmission gear (160), a second transmission gear (170), a blanking second gear (180), a driven shaft (190), a connecting shaft (1100), a transition gear shaft (1200), a limiting block (1300), a blanking transmission shaft (1400), a rubber covered roller (1500), an adjusting block (1600) and a driven swing rod (1700), the blanking servo motor speed reducer (110) is fixed on the frame (120), the blanking servo motor speed reducer (110) is connected with the connecting shaft (1100) through the coupler (130), the connecting shaft (1100) is connected with the gear swing rod (140) and the blanking first gear (150), the transition gear shaft (1200) is connected with the gear (140) and the blanking second gear (180), the blanking first gear (150) is connected with the blanking first gear (160) through the coupler (160), the novel automatic feeding device is characterized in that the first transmission gear (160) and the second transmission gear (170) are connected with the gear swing rod (140), the second transmission gear (170) is connected with one end of the feeding transmission shaft (1400), the rubber covered roller (1500) is arranged on the feeding transmission shaft (1400), the other end of the feeding transmission shaft (1400) is connected with the driven swing rod (1700), the driven swing rod (1700) is connected with the driven shaft (190), the limiting block (1300) is connected with the feeding transmission shaft (1400), and the adjusting block (1600) is connected with the gear swing rod (140) through an adjusting bolt.
  8. 8. The multi-row machine following cutter mechanism according to claim 7, wherein a sliding groove (121) is formed in the frame (120), and the sliding groove (121) is connected with the blanking transmission shaft (1400).

Description

Multi-row machine following type cutter mechanism Technical Field The utility model relates to the field of packaging equipment, in particular to a multi-row machine following type cutter mechanism. Background Because traditional multiseriate packagine machine is in order to realize continuous type and walk bag production, then cutter mechanism need with horizontal seal a kind reciprocal follow-up operation, but cutter reciprocating type follow need lead screw or hold-in range mechanism drive cutter mechanism do up-and-down motion to lead to the cost higher, and the installation space that needs is great. To solve the above problems, we have made a series of improvements. Disclosure of utility model The present utility model is directed to a multi-row machine following cutter mechanism that overcomes the above-mentioned drawbacks and deficiencies of the prior art. The multi-row machine following type cutter mechanism comprises a blanking auxiliary assembly, a continuous cutter assembly, a blanking sorting chute assembly and a blanking chute cooling assembly, wherein the blanking auxiliary assembly and the blanking chute cooling assembly are fixed above the continuous cutter assembly, and the blanking sorting chute assembly is arranged below the continuous cutter assembly; The continuous cutter assembly comprises a driving mechanism, a rotating mechanism, a synchronous transmission mechanism, bearings, a first eccentric shaft, a first gear, a second eccentric shaft, a second gear, a connecting block, a linear sliding rail structure, a cutter structure and a fixing seat, wherein the driving mechanism is connected with the rotating mechanism, the synchronous transmission mechanism is respectively arranged at two ends of the rotating mechanism, the synchronous transmission mechanism and the first gear are connected with two ends of the first eccentric shaft, the bearings are arranged at two sides of the first eccentric shaft and two sides of the second eccentric shaft, the first gear is connected with the second gear, the connecting block is connected with the first eccentric shaft and the second eccentric shaft, the linear sliding rail structure is fixed on the fixing seat, and the cutter structure is connected with the linear sliding rail structure. Further, the driving mechanism comprises a servo motor speed reducer, a speed reducer fixing plate, a first sprocket, a second sprocket and a chain, wherein the servo motor speed reducer is fixed on the speed reducer fixing plate, the servo motor speed reducer is connected with the first sprocket, the first sprocket is connected with the second sprocket through the chain, and the second sprocket is connected with the rotating mechanism. Further, the rotating mechanism comprises a supporting plate, a transmission shaft, bearing seats and a fixing plate, wherein the bearing seats are arranged at two ends of the transmission shaft and are connected with the fixing plate, and the fixing plate is connected with the supporting plate. Further, the synchronous transmission mechanism comprises a first synchronous wheel, a second synchronous wheel and a synchronous belt, wherein the first synchronous wheel is connected with the transmission shaft, the first synchronous wheel is connected with the second synchronous wheel through the synchronous belt, and the second synchronous wheel is connected with two ends of the first eccentric shaft. The cutter structure comprises a cutter male die cutter seat, a cutter male die, a cutter female die cutter seat, a cutter female die and a floating joint, wherein the cutter male die is connected with the cutter male die cutter seat through the floating joint, and the cutter female die cutter seat is provided with the cutter female die. Further, the linear slide rail structure comprises a slide rail and a slide block, wherein the slide block is connected with the slide rail, the slide rail is connected with the cutter female die cutter seat through a connecting block, and the slide block is connected with the cutter male die cutter seat. Further, the blanking auxiliary assembly comprises a blanking servo motor speed reducer, a frame, a coupler, a gear swing rod, a first blanking gear, a first transmission gear, a second blanking gear, a driven shaft, a connecting shaft, a transition gear shaft, a limiting block, a blanking transmission shaft, a rubber covered roller, an adjusting block and a driven swing rod, wherein the blanking servo motor speed reducer is fixed on the frame and is connected with the connecting shaft through the coupler, the connecting shaft is connected with the gear swing rod and the first blanking gear, the transition gear shaft is connected with the gear swing rod and the second blanking gear, the lower parts of the first blanking gear and the second blanking gear are respectively connected with the first transmission gear, the first transmission gear and the second transmission gear are connected with the gear swin