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CN-224225439-U - String stacking mechanism for string object group

CN224225439UCN 224225439 UCN224225439 UCN 224225439UCN-224225439-U

Abstract

The utility model provides a string stacking mechanism for string objects, which comprises a string assembling component and a string stacking component, wherein the string assembling component comprises a sliding groove and a feeding component, the sliding groove is arranged at the tail end of the feeding component, the string stacking component comprises a loading box, a string stacking area and a temporary storage area are arranged on the loading box, and the temporary storage area is communicated with the sliding groove. The feeding assembly releases objects to the temporary storage area along the sliding groove to form a string of objects, the side push rods arranged in the temporary storage area push the string of objects to the string stacking area, a plurality of string of objects are orderly arranged in the string stacking area to form an object combination with a planar structure, and the main push rods arranged in the string stacking area push the object combination away from the string stacking area. The string assembly and the string stacking assembly provided by the utility model improve the string stacking efficiency of objects nested and filled under the cooperation of the string assembly and the string stacking assembly, and meet the requirement of improving the production efficiency.

Inventors

  • LI BAOCHENG
  • FU DIANQIN
  • ZHAO BINGWEI

Assignees

  • 超越创科(广州)智能控制系统有限公司

Dates

Publication Date
20260512
Application Date
20250515

Claims (10)

  1. 1. A string stacking mechanism for a string of objects, comprising: A cluster assembly (110), the cluster assembly (110) comprising a chute (1120) and a feed assembly (1130), the chute (1120) being disposed at an end of the feed assembly (1130); The stacking assembly (120), wherein the stacking assembly (120) comprises a loading box (1210), a stacking area (1201) and a temporary storage area (1202) are arranged on the loading box (1210), and the temporary storage area (1202) is communicated with a sliding groove (1120); The feeding assembly (1130) releases objects to the temporary storage area (1202) along the sliding groove (1120) to form a string of objects, the side pushing rods (1231) arranged in the temporary storage area (1202) push the string of objects to the string stacking area (1201), a plurality of strings of objects are orderly arranged in the string stacking area (1201) to form an object combination with a planar structure, and the main pushing rods (1220) arranged in the string stacking area (1201) push the object combination away from the string stacking area (1201).
  2. 2. The string stacking mechanism of claim 1, wherein the loading box (1210) comprises a bottom plate (1211), a front baffle (1212) and a partition plate (1213), wherein the front baffle (1212) and the partition plate (1213) are vertically arranged, and the partition plate (1213) divides an area above the bottom plate (1211) into a string stacking area (1201) and a temporary storage area (1202).
  3. 3. A string-forming object group string-stacking mechanism as claimed in claim 2, characterized in that the dividing plate (1213) is spaced from the base plate (1211) and forms a first conveying channel for accommodating the string-forming objects, a second gate (1233) is provided at the first conveying channel, and the second gate (1233) is closed during the construction of the temporary storage area (1202) into the string-forming objects.
  4. 4. A bunching mechanism for a bunched object set according to claim 3, wherein a second conveying channel for accommodating the object combination is arranged on the front baffle (1212), a first gate (1232) is arranged at the second conveying channel, and the first gate (1232) is closed during the process of building the object combination in the bunching area (1201).
  5. 5. The string stacking mechanism of claim 4, wherein the feeding assembly (1130) comprises a feeding conduit (1131), a buffer tube (1132) and a string tube (1133), wherein a string clamping jaw (220) is arranged between the buffer tube (1132) and the string tube (1133), and a string gate (210) is arranged between the string tube (1133) and the chute (1120).
  6. 6. The string stacking mechanism of a string of objects as recited in claim 5, wherein the string gate (210) comprises a gate loading plate (211), an end block (212), a gate plate (213) and a gate cylinder (214), the gate loading plate (211) is connected with the chute (1120), the end block (212) is connected with the string tube (1133), a lateral port is arranged on the end block (212), the gate cylinder (214) pushes the gate plate (213) to insert into the lateral port, and the gate plate (213) isolates a communication state between the string tube (1133) and the chute (1120).
  7. 7. The string stacking mechanism of claim 6, wherein the string holding jaw (220) comprises a holding jaw cylinder (221), a third holding jaw (222) and a holding jaw loading plate (223), the holding jaw loading plate (223) is arranged on the string tube (1133), the tail end of the buffer tube (1132) is provided with a U-shaped plate, two ends of the U-shaped plate are connected with the holding jaw loading plate (223) to form a spacing area, and the third holding jaw (222) moves in the spacing area.
  8. 8. The string stack mechanism of claim 7, wherein the number of said feeding assemblies (1130) is two, and the cross-sectional area of the port on the side of said chute (1120) that communicates with both feeding assemblies (1130) is at least two times greater than the cross-sectional area of the port of said chute (1120) that communicates with the register (1202).
  9. 9. A string stacking mechanism as claimed in claim 8 wherein the side walls of said loading magazine (1210) are provided with side plates (1214), said side plates (1214) being arranged parallel to the dividing plates (1213), said main pusher (1220) being movable along the gap between the side plates (1214) and the dividing plates (1213).
  10. 10. A bunching mechanism as claimed in claim 9, wherein a pallet unit (1240) is further provided below the base plate (1211); The support plate unit (1240) comprises a support plate (1241), a sliding substrate (1243) and a second pushing rod (1242), the support plate (1241) slides on the end face of the bottom plate (1211) far away from the main pushing rod (1220), the support plate (1241) is connected with the second pushing rod (1242) through the sliding substrate (1243), and the second pushing rod (1242) pushes the support plate (1241) to extend out of the loading box (1210) and lift an object combination pushed away from the stacking area (1201) by the main pushing rod (1220).

Description

String stacking mechanism for string object group Technical Field The utility model belongs to the technical field of string packing of string-forming object groups, and particularly relates to a string stacking mechanism of string-forming object groups. Background Many products in the production industry adopt structures such as cones or round tables which can be nested and stacked into strings, for example, disposable water cups, line manufacturing enterprises in the textile industry use a large number of hollow conical workpieces of plastic, and the like. These structures require stacking of the strings prior to boxing, thereby reducing space occupation of the nested stacked-string structures and improving the transport efficiency of the nested stacked-string structures. The string structure adopted in the prior art has single function, can only finish single-row string stacking actions and also needs to be manually arranged for a lot of time, so that the preparation work before boxing is finished, and the whole string object string boxing treatment efficiency is low, so that the whole production efficiency is insufficient. Disclosure of utility model The utility model provides a string stacking mechanism for string-forming object groups, which aims to solve the problems that the existing string stacking mechanism is single in function, can only complete single-row string stacking action, cannot complete subsequent arrangement and arrangement, and is low in processing efficiency of string-forming object group box assembly, so that the overall production efficiency is insufficient. The utility model is realized in such a way that a string-forming object group string stacking mechanism comprises: the string assembly comprises a chute and a feeding assembly, and the chute is arranged at the tail end of the feeding assembly; the stacking assembly comprises a loading box, wherein a stacking area and a temporary storage area are arranged on the loading box, and the temporary storage area is communicated with the chute. The feeding assembly releases objects to the temporary storage area along the sliding groove to form a string of objects, the side push rods arranged in the temporary storage area push the string of objects to the string stacking area, a plurality of string of objects are orderly arranged in the string stacking area to form an object combination with a planar structure, and the main push rods arranged in the string stacking area push the object combination away from the string stacking area. Preferably, the loading box comprises a bottom plate, a front baffle plate and a partition plate, wherein the front baffle plate and the partition plate are vertically arranged, and the partition plate divides the area above the bottom plate into a string stacking area and a temporary storage area. Preferably, the partition plates and the bottom plate are distributed at intervals to form a first conveying channel for accommodating the objects in a string, a second gate is arranged at the first conveying channel, and the second gate is closed in the process of constructing the temporary storage area into the objects in the string. Preferably, a second conveying channel for accommodating the object combination is arranged on the front baffle, a first gate is arranged at the second conveying channel, and the first gate is closed in the process of building the object combination in the bunching area. Preferably, the feeding assembly comprises a feeding guide pipe, a buffer pipe and a string assembling pipe, a string assembling clamping jaw is arranged between the buffer pipe and the string assembling pipe, and a string assembling gate is arranged between the string assembling pipe and the sliding groove. Preferably, the group's serial gate includes gate loading board, end block, flashboard and gate cylinder, gate loading board is connected with group's cluster pipe, end block is connected with group's cluster pipe, be equipped with the side port on the end block, gate cylinder promotes the flashboard and inserts the side port, the isolated group of flashboard is managed and the spout between the intercommunication state. Preferably, the group string clamping jaw comprises a clamping jaw cylinder, a third clamping jaw and a clamping jaw loading plate, the clamping jaw loading plate is arranged on the group string pipe, a U-shaped plate is arranged at the tail end of the buffer pipe, two ends of the U-shaped plate are connected with the clamping jaw loading plate to form a spacing area, and the third clamping jaw moves in the spacing area. Preferably, the number of the feeding components is two, and the cross-sectional area of a port on one side, which is communicated with the two feeding components, of the sliding groove is at least two times larger than the cross-sectional area of a port, which is communicated with the temporary storage area, of the sliding groove. Preferably, the side wall of the loading box is