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CN-224208719-U - Gold jewelry laser automatic processing equipment

CN224208719UCN 224208719 UCN224208719 UCN 224208719UCN-224208719-U

Abstract

The utility model provides gold jewelry laser automatic processing equipment which comprises a table body, wherein a first guide rail and a second guide rail are fixedly arranged on the table body, the first guide rail and the second guide rail are both arranged along a first direction, the first guide rail and the second guide rail are distributed on two sides of the table body, a first driving assembly is arranged on the first guide rail, a second driving assembly is arranged on the second guide rail, a third guide rail is movably arranged between the first guide rail and the second guide rail, the third guide rail is connected with the first driving assembly and the second driving assembly, and the first driving assembly and the second driving assembly can drive the third guide rail to move along the first direction. The utility model can accurately position the laser rust removing position, adapt to diversified processing requirements of complex curved surfaces, gaps and the like of gold ornaments, and avoid the limitation of the traditional fixing station.

Inventors

  • MENG FEI

Assignees

  • 武汉新金首饰制造有限公司

Dates

Publication Date
20260508
Application Date
20250523

Claims (8)

  1. 1. The utility model provides a gold jewelry laser automated processing equipment, its characterized in that, includes stage body (1), fixed mounting has first guide rail (2) and second guide rail (3) on stage body (1), first guide rail (2) all arrange along first direction with second guide rail (3), first guide rail (2) and second guide rail (3) distribute in the both sides of stage body (1), install first actuating assembly on first guide rail (2), install second actuating assembly on second guide rail (3), movable mounting has third guide rail (4) between first guide rail (2) and second guide rail (3), first actuating assembly and second actuating assembly are connected to third guide rail (4), first actuating assembly and second actuating assembly can drive third guide rail (4) along first direction removal, install third actuating assembly on third guide rail (4) movable mounting processing assembly (5), but third actuating assembly connects and carries out processing assembly (52) along the first direction of moving on the second actuating assembly of moving along the first direction of laser processing (5).
  2. 2. The gold jewelry laser automatic processing equipment according to claim 1, wherein the first driving assembly comprises a first sliding table (21) movably mounted on the first guide rail (2), a first belt (22) is mounted on the first guide rail (2), the length direction of the first belt (22) is parallel to the first direction, the length of the first belt (22) is greater than that of the first guide rail (2), two ends of the first belt (22) are fixedly connected with two ends of the first guide rail (2) respectively, and when the first sliding table (21) is displaced to any position on the first guide rail (2) along the first direction, a first joint area which is co-located on a first vertical surface with the first sliding table (21) can be formed on the first belt (22).
  3. 3. The gold jewelry laser automatic processing equipment according to claim 2, wherein two first rotating shafts (23) are rotatably installed on the first sliding table (21), first rollers capable of limiting the side edges of the first belt (22) and simultaneously rolling along the first guide rail (2) are installed at the end parts of the two first rotating shafts (23), the outer wall of the first rotating shaft (23) is attached to the upper surface of the first belt (22), a first motor (25) is fixedly installed on the first sliding table (21), a first belt pulley (26) is fixedly installed at the output end of the first motor (25), the outer wall of the first belt pulley (26) is attached to the lower surface of the first belt (22), the two first rotating shafts (23) are located on two sides of the first belt pulley (26), and a first connection area of the first belt (22) is jointly formed between the two first rotating shafts (23) and the first belt pulley (26).
  4. 4. A gold jewelry laser automated processing device according to claim 3, wherein the second driving assembly comprises a second sliding table (31) movably mounted on the second guide rail (3), a second belt is mounted on the second guide rail (3), the length direction of the second belt is parallel to the second direction, the length of the second belt is greater than that of the second guide rail (3), two ends of the second belt are fixedly connected with two ends of the second guide rail (3) respectively, and when the second sliding table (31) is displaced to any position on the second guide rail (3) along the first direction, the second belt can form a second connection area which is co-located on the first vertical surface with the second sliding table (31).
  5. 5. The gold jewelry laser automatic processing device according to claim 4, wherein two second rotating shafts are rotatably installed on the second sliding table (31), second rollers capable of limiting the side edges of the second belt and simultaneously rolling along the second guide rail (3) are installed at the end parts of the two second rotating shafts, the outer wall of the second rotating shaft is attached to the upper surface of the second belt, a second motor is fixedly installed on the second sliding table (31), a second belt pulley is fixedly installed at the output end of the second motor, the outer wall of the second belt pulley is attached to the lower surface of the second belt, the two second rotating shafts are located at two sides of the second belt pulley, and a second connection area of the second belt is jointly formed between the two second rotating shafts and the second belt pulley.
  6. 6. The gold jewelry laser automatic processing device according to claim 5, wherein the third driving assembly comprises a third sliding table (41) movably mounted on the third guide rail (4), a third belt (42) is mounted on the third guide rail (4), the length direction of the third belt (42) is parallel to the second direction, the length of the third belt (42) is greater than that of the third guide rail (4), two ends of the third belt (42) are fixedly connected with two ends of the third guide rail (4) respectively, and when the third sliding table (41) is displaced to any position on the third guide rail (4) along the second direction, a third connection area which is in a second vertical plane with the third sliding table (41) is formed on the third belt (42), and the second vertical plane is perpendicular to the first vertical plane.
  7. 7. The automatic gold jewelry laser processing device according to claim 6, wherein two third rotating shafts (43) are rotatably installed on the third sliding table (41), the end parts of the two third rotating shafts (43) are respectively provided with a third roller capable of limiting the side edge of the third belt (42) and simultaneously rolling along the third guide rail (4), the outer wall of the third rotating shaft (43) is attached to the upper surface of the third belt (42), a third motor (45) is fixedly installed on the third sliding table (41), a third belt pulley (46) is fixedly installed at the output end of the third motor (45), the outer wall of the third belt pulley (46) is attached to the lower surface of the third belt (42), the two third rotating shafts (43) are located on two sides of the third belt pulley (46), and a third connection area of the third belt (42) is jointly formed between the two third rotating shafts (43) and the third belt pulley (46).
  8. 8. The gold jewelry laser automatic processing device according to claim 7, wherein the processing assembly (5) comprises a cylinder (51), the cylinder (51) is fixedly mounted on the third sliding table (41), and an output end of the cylinder (51) is fixedly connected with the laser derusting machine (52).

Description

Gold jewelry laser automatic processing equipment Technical Field The utility model relates to the technical field of gold processing, in particular to gold jewelry laser automatic processing equipment. Background In the field of gold processing, the traditional rust removal process such as chemical acid washing is easy to corrode a substrate, pollute the environment and mechanically polish the surface easy to scratch. The traditional laser rust removing equipment has the problems of insufficient movement flexibility, poor transmission stability, limited long-stroke processing and the like, and the traditional equipment has the defects in the aspects of multi-axis linkage capacity, transmission mechanism reliability, processing adaptability and cost. Disclosure of utility model Aiming at the problems, the utility model provides gold jewelry laser automatic processing equipment. In order to solve the problems, the utility model adopts the following technical scheme: The utility model provides a gold jewelry laser automated processing equipment, includes the stage body, fixed mounting has first guide rail and second guide rail on the stage body, first guide rail and second guide rail all are arranged along first direction, first guide rail and second guide rail distribute in the both sides of stage body, install first drive assembly on the first guide rail, install second drive assembly on the second guide rail, movable mounting has the third guide rail between first guide rail and the second guide rail, first drive assembly and second drive assembly are connected to the third guide rail, first drive assembly and second drive assembly can order about the third guide rail to remove along first direction, install third drive assembly on the third guide rail, movable mounting has processing subassembly on the third guide rail, third drive assembly connects processing subassembly and can order about the processing subassembly to remove along the second direction of perpendicular to first direction, install the laser rust cleaning machine that can process gold on the processing subassembly. Preferably, the first driving assembly comprises a first sliding table movably mounted on a first guide rail, a first belt is mounted on the first guide rail, the length direction of the first belt is parallel to the first direction, the length of the first belt is larger than that of the first guide rail, two ends of the first belt are fixedly connected with two ends of the first guide rail respectively, and when the first sliding table moves to any position on the first guide rail along the first direction, a first connection area which is co-located on a first vertical surface with the first sliding table can be formed on the first belt. Preferably, the first slipway is gone up to rotate and is installed two first pivots, two the tip of first pivot is all installed and can be carried out spacing and simultaneously along the first gyro wheel of first guide rail rolling to the side of first belt, and the outer wall of first pivot is leaned on the upper surface of first belt, fixed mounting has first motor on the first slipway, the output fixed mounting of first motor has first belt pulley, the outer wall of first belt pulley is leaned on the lower surface of first belt, two first pivots are located the both sides of first belt pulley, two jointly form the first linking area of first belt between first pivot and the first belt pulley. Preferably, the second driving assembly comprises a second sliding table movably mounted on a second guide rail, a second belt is mounted on the second guide rail, the length direction of the second belt is parallel to the second direction, the length of the second belt is larger than that of the second guide rail, two ends of the second belt are fixedly connected with two ends of the second guide rail respectively, and when the second sliding table moves to any position on the second guide rail along the first direction, a second connection area which is co-located on a first vertical surface with the second sliding table can be formed on the second belt. Preferably, two second rotating shafts are rotatably arranged on the second sliding table, second rollers capable of limiting the side edges of the second belt and simultaneously rolling along the second guide rail are arranged at the end parts of the second rotating shafts, the outer wall of each second rotating shaft is attached to the upper surface of the second belt, a second motor is fixedly arranged on the second sliding table, a second belt pulley is fixedly arranged at the output end of each second motor, the outer wall of each second belt pulley is attached to the lower surface of each second belt, the two second rotating shafts are located on two sides of each second belt pulley, and a second connection area of each second belt is jointly formed between each second rotating shaft and each second belt pulley. Preferably, the third drivi