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CN-224210414-U - Rotary shuttle transportation die receiving equipment

CN224210414UCN 224210414 UCN224210414 UCN 224210414UCN-224210414-U

Abstract

The utility model discloses a rotary shuttle transportation die receiving device which comprises a rotary device and a die, wherein the rotary device is arranged on an injection molding machine, at least one die lifting positioning device is arranged on the rotary device, and the die is arranged on the die lifting positioning device and is matched with the injection molding machine. According to the rotary shuttle transportation die receiving equipment, the rotary device is arranged on one side of the injection molding machine, two dies are arranged on the rotary device, the injection molding machine and a worker are respectively located on one corresponding die side, the two dies are transposed back and forth on the injection molding machine and the worker under the reciprocating transportation of the rotary device, when the die at one end is at a receiving angle, the die at the other end is in a strip loading effect, the problem of long waiting time of the worker or frequent running of the worker is avoided, the production efficiency is improved, and in addition, the cost of the injection molding machine and the die can be saved in the same production efficiency of the traditional production mode.

Inventors

  • Request for anonymity
  • Request for anonymity
  • Request for anonymity

Assignees

  • 太仓久本机械科技有限公司

Dates

Publication Date
20260508
Application Date
20250521

Claims (10)

  1. 1. The rotary shuttle mold connecting device is characterized by comprising the following components: The rotary device (1), the rotary device (1) is arranged on the injection molding machine (3), at least one die lifting positioning device (2) is arranged on the rotary device (1), The die (4) is arranged on the die lifting positioning device (2) and is matched with the injection molding machine (3).
  2. 2. The rotary shuttle mold connecting device according to claim 1, wherein the mold lifting and positioning device (2) comprises a group of beams (21), a group of lifting modules (22) and a lifting driving mechanism (23), the beams (21) are oppositely arranged on the rotary device (1), the lifting driving mechanism (23) is arranged on the beams (21), and the output end of the lifting driving mechanism is connected with the lifting modules (22).
  3. 3. The rotary shuttle mold receiving apparatus according to claim 2, wherein the lifting module (22) comprises a mold mounting plate (221), the mold mounting plate (221) is provided with a set of mold mounting guide holes (222) for mounting the mold (4), a set of descending guide shafts (223), a set of ascending guide positioning shafts (224), a set of lifting cylinder flanges (225) and mold mounting positioning blocks (226), the descending guide shafts (223) are matched with descending positioning holes (32) on a lower mounting plate (31) of the injection molding machine (3), the ascending guide positioning shafts (224) are matched with ascending positioning holes (211) on the cross beam (21), and the lifting driving mechanism (23) is connected with the lifting cylinder flanges (225).
  4. 4. The rotary shuttle mold receiving apparatus as claimed in claim 3, wherein said lifting guide positioning shaft (224) is provided with a positioning ring (2241).
  5. 5. The rotary shuttle mold receiving apparatus as claimed in claim 3, wherein said mold mounting plate (221) is further provided with a lift position sensing assembly (226).
  6. 6. The rotary shuttle mold receiving apparatus according to claim 1, wherein said injection molding machine (3) is further provided with a set of mold locking means (33) for locking the mold (4).
  7. 7. The rotary shuttle mold receiving apparatus according to claim 6, wherein a mold locking position sensing mechanism (34) for detecting a position is provided on the injection molding machine (3).
  8. 8. The rotary shuttle mold connecting device according to claim 1, wherein the rotary device (1) comprises a rotary driving mechanism (11) and a rotary turntable (12), the rotary turntable (12) is arranged above the rotary driving mechanism (11), and the cross beam (21) is arranged on the rotary turntable (12).
  9. 9. The rotary shuttle mold receiving apparatus according to claim 8, wherein a rotary gear (121) is provided below the rotary table (12), the rotary gear (121) is meshed with a driving gear (1101) in the rotary driving mechanism (11), and a limit bump (122) is provided inside the rotary gear (121).
  10. 10. The rotary shuttle mold receiving apparatus according to claim 9, wherein a limit flange (111) for limiting the position of the limit projection (122) is provided on one side of the disk at the top of the rotary drive mechanism (11).

Description

Rotary shuttle transportation die receiving equipment Technical Field The utility model belongs to the technical field of sealing strips, and particularly relates to a rotary shuttle transportation die receiving device. Background Along with the increase of the market demand of automobiles, the demand of sealing elements installed on automobiles is also increased, and the production of one set of sealing elements needs to pass through a plurality of production procedures, wherein the sealing element joint angle molding procedure has long processing waiting time due to the process specificity. If the number of the injection molding machines is increased, and a worker performs bar loading production on another device within the processing waiting time of one injection molding machine, the worker also needs to walk back and forth between the two devices. Thus resulting in waste of manpower and reduction of production efficiency. Disclosure of utility model The utility model aims to overcome the defects, and aims to provide the rotary shuttle transportation die connecting equipment which improves the production efficiency and saves the cost of an injection molding machine and a die within the same production efficiency as the conventional production mode. In order to achieve the above purpose, the utility model provides a rotary shuttle transportation die receiving device, comprising: The rotating device is arranged on the injection molding machine and is provided with at least one die lifting and positioning device, The mould is arranged on the mould lifting and positioning device and is matched with the injection molding machine. According to the rotary shuttle transportation die receiving equipment, the rotary device is arranged on one side of the injection molding machine, two dies are arranged on the rotary device, the injection molding machine and a worker are respectively located on one corresponding die side, the two dies are transposed back and forth on the injection molding machine and the worker under the reciprocating transportation of the rotary device, when the die at one end is at a receiving angle, the die at the other end is in a strip loading effect, the problem of long waiting time of the worker or frequent running of the worker is avoided, the production efficiency is improved, and in addition, the cost of the injection molding machine and the die can be saved in the same production efficiency of the traditional production mode. The die lifting positioning device comprises a group of cross beams, a group of lifting modules and a lifting driving mechanism, wherein the cross beams are oppositely arranged on the rotating device, the lifting driving mechanism is arranged on the cross beams, and the output end of the lifting driving mechanism is connected with the lifting modules. Further, the lifting module comprises a mould mounting plate, wherein the mould mounting plate is provided with a group of mould mounting guide holes for mould mounting, a group of descending guide shafts, a group of ascending guide positioning shafts, a group of lifting cylinder flanges and a mould mounting positioning block, the descending guide shafts are matched with descending positioning holes on a lower mounting plate of the injection molding machine, the ascending guide positioning shafts are matched with ascending positioning holes on the cross beam, and the lifting driving mechanism is connected with the lifting cylinder flanges. When the lifting mechanism works, the lifting driving mechanism drives the lifting module to descend, and the lifting module is matched and positioned with the descending positioning hole on the injection molding machine through the descending guide shaft. When the beam rises, the rising guide positioning shaft is matched with the rising positioning hole on the beam to finish positioning. Furthermore, a positioning ring is arranged on the ascending guide positioning shaft. The setting of holding ring can prevent effectively that elevating gear from directly dropping on ground because of the trouble. Preferably, the die mounting plate is further provided with a lifting position sensing assembly. The lifting position sensing assembly is arranged, so that the lifting position can be detected. Furthermore, the injection molding machine is also provided with a group of mold locking devices for locking the mold. The setting of mode locking device can play fine fixed action to the mould, increases the stability of its subsequent processing. Further preferably, the injection molding machine is provided with a mold locking position sensing mechanism for detecting the position. In addition, the rotating device comprises a rotating driving mechanism and a rotating turntable, wherein the rotating turntable is arranged above the rotating driving mechanism, and the cross beam is arranged on the rotating turntable. The rotary turntable is characterized in that a rotary gear is arranged below the rot