Search

CN-116387934-B - Automatic laminating equipment of two iron shells in general terminal material area

CN116387934BCN 116387934 BCN116387934 BCN 116387934BCN-116387934-B

Abstract

The invention provides general automatic laminating equipment for double iron shells of terminal material strips, which comprises a bottom plate, a lower shell laminating mechanism, an upper shell laminating mechanism and a terminal material strip transplanting module, wherein the lower shell laminating mechanism is arranged on the bottom plate and comprises a lower shell transplanting module, a lower shell cutting module and a lower shell laminating module, and the upper shell laminating mechanism comprises an upper shell transplanting module, an upper shell cutting module and an upper shell laminating module. The automatic feeding, cutting and attaching of the upper shell are realized through the upper shell attaching mechanism, the conveying of the terminal material belt is realized through the terminal material belt transplanting module, and the attaching of the shielding shell is realized through the lower shell attaching mechanism and the upper shell attaching mechanism.

Inventors

  • WANG JIANKUN
  • HU BANG

Assignees

  • 富加宜连接器(东莞)有限公司

Dates

Publication Date
20260505
Application Date
20230324

Claims (10)

  1. 1. The universal automatic laminating equipment for the double iron shells of the terminal material strips is characterized by comprising a bottom plate (1), a lower shell laminating mechanism, an upper shell laminating mechanism and a terminal material strip transplanting module (4), wherein the lower shell laminating mechanism is arranged on the bottom plate (1), the lower shell laminating mechanism comprises a lower shell transplanting module (2), a lower shell cutting module (3) and a lower shell laminating module (5), the lower shell transplanting module (2) and the lower shell cutting module (3) are arranged on one side of the terminal material strip transplanting module (4), and the lower shell cutting module (3) is arranged at the tail end of the lower shell transplanting module (2), and the lower shell laminating module (5) is arranged at the upper end and the lower end of the terminal material strip transplanting module (4) corresponding to the lower shell cutting module (3); the upper shell laminating mechanism comprises an upper shell transplanting module (6), an upper shell cutting module (7) and an upper shell laminating module (8), wherein the upper shell transplanting module (6) and the upper shell cutting module (7) are arranged on one side of the terminal material belt transplanting module (4), the upper shell cutting module (7) is arranged at the tail end of the upper shell transplanting module (6), and the upper shell laminating module (8) is arranged at the upper and lower ends of the terminal material belt transplanting module (4) corresponding to the upper shell cutting module (7); The lower shell transplanting module (2) comprises a lower shell conveying rail and a lower shell driving assembly, wherein the lower shell driving assembly comprises a lower shell transplanting driving motor (22), a lower shell driving motor bracket (23) and a lower shell driving gear piece (24), the lower shell driving motor bracket (23) is arranged on the first bracket (9), sliding grooves are symmetrically formed in the inner side wall of the lower shell driving motor bracket (23), a lower shell driving motor mounting plate (25) is connected in the sliding grooves in a sliding manner, the lower shell transplanting driving motor (22) is arranged on the lower shell driving motor mounting plate (25), a lower shell driving gear piece (24) is arranged on a motor shaft of the lower shell transplanting driving motor (22), and the lower shell driving gear piece (24) is positioned on the lower shell rail plate (21) and matched with a lower shell material belt; The lower end of the lower shell driving motor mounting plate (25) is provided with a spring mounting hole, the spring mounting hole is provided with a spring, and the lower end of the spring is connected with the bottom of the lower shell driving motor bracket (23); the upper end of the lower shell driving motor mounting plate (25) is also in fit contact with a first adjusting mechanism (26) arranged at the upper end of the lower shell driving motor bracket (23); The terminal material belt transplanting module (4) comprises a conveying track support plate (41) arranged on the first bracket (9) and terminal material belt driving components (42) arranged on a feeding end and a discharging end of the conveying track support plate (41), wherein the conveying track support plate (41) is symmetrically arranged, a pressing plate is arranged on the conveying track support plate (41), and a corresponding channel is arranged between the pressing plate and the conveying track support plate (41); The terminal material belt driving assembly (42) comprises a material pulling driving cylinder (43), a sliding plate (44), a first lifting cylinder (45), an L-shaped lifting plate (46) and a driving block (47), wherein the material pulling driving cylinder (43) is arranged on the first bracket (9), the material pulling driving cylinder (43) is connected with the sliding plate (44) which is arranged on the sliding rail in a sliding manner, the sliding plate (44) is provided with an L-shaped plate, the L-shaped plate is provided with a first lifting cylinder (45), the first lifting cylinder (45) is connected with the L-shaped lifting plate (46) which is arranged on the back of the L-shaped plate in a sliding manner, the driving block (47) is arranged at the lower end of the L-shaped lifting plate (46), and the driving block (47) is positioned above the conveying track support plate (41) and is matched with a terminal material belt on the conveying track support plate (41); the lower shell laminating module (5) comprises a lower shell grabbing module (51) and a lower shell pressing component (52) which are matched with each other; The lower shell grabbing module (51) comprises a transverse moving assembly and a jacking grabbing assembly arranged on the transverse moving assembly; the upper shell transplanting module (6) has the same structure as the lower shell transplanting module (2); The upper shell laminating module (8) comprises an upper shell grabbing module (81) and a supporting component (82) which are matched, the upper shell grabbing module (81) is located above the terminal material belt transplanting module (4), and the supporting component (82) is located below the terminal material belt transplanting module (4); The upper shell grabbing module (81) comprises an upper shell transverse transplanting module (86) and an upper shell grabbing module (87) arranged on the upper shell transverse transplanting module (86), the upper shell transverse transplanting module (86) is similar to the lower shell grabbing module in structure, and the upper shell grabbing module (87) is similar to the jacking grabbing module in structure.
  2. 2. The universal automatic laminating equipment for the terminal material belt double iron shells, as set forth in claim 1, is characterized in that the lower shell conveying track comprises a lower shell transplanting track plate (21), the lower shell transplanting track plate (21) is arranged on the first bracket (9) through a plurality of base plates, a pressing plate is arranged on the lower shell transplanting track plate (21), and a corresponding channel for conveying the lower shell material belt is arranged between the pressing plate and the lower shell transplanting track plate (21).
  3. 3. The universal automatic laminating equipment for the terminal strip double iron shells is characterized in that the lower shell cutting module (3) comprises a first cutting cylinder (31), a first cutting cylinder support (32), a first cutting upper die (33), a first cutting upper die (34) and a first cutting tool (35), wherein the first cutting cylinder support (32) is arranged on the first support (9), the first cutting cylinder support (32) is provided with a first cutting cylinder (31), a piston rod of the first cutting cylinder (31) extends downwards and is connected with the first cutting upper die (33), the first support (9) at the lower end of the first cutting upper die (33) is provided with a first cutting upper die (34), the first cutting upper die (33) and the first cutting upper die (34) are connected through a guide pillar, and the discharge end of the first cutting upper die (33) is also provided with the first cutting tool (35); The novel waste cutting machine is characterized in that a U-shaped blanking plate (10) is further arranged on a first support (9) at the position of the first cutting tool (35), and a waste barrel is arranged on a bottom plate (1) at the lower end of the U-shaped blanking plate (10).
  4. 4. The automatic laminating equipment for the universal terminal strip double iron shells of claim 1, wherein the lower shell grabbing module (51) is arranged at the lower end of the conveying track support plate (41), and the lower shell pressing assembly (52) is arranged above the conveying track support plate (41).
  5. 5. The universal automatic laminating equipment for the terminal strip double iron shells of claim 4, wherein the transverse moving assembly comprises a transverse transplanting fixing seat (511) and a transverse grabbing driving motor arranged on the transverse transplanting fixing seat (511), the transverse grabbing driving motor is in transmission connection with a screw rod arranged on the transverse transplanting fixing seat (511), a transverse sliding plate (512) is arranged on the screw rod, the jacking grabbing assembly comprises a jacking air cylinder (513) arranged on the transverse sliding plate (512), the upper end of the jacking air cylinder (513) is connected with a jacking seat (515) arranged on the jacking bracket (514) in a sliding mode, a suction nozzle seat (516) is arranged at the upper end of the jacking seat (515), and a plurality of suction nozzles (517) and a plurality of positioning pins are arranged on the suction nozzle seat (516).
  6. 6. The universal automatic laminating equipment for the terminal strip double iron shells of claim 4, wherein the lower shell pressing assembly (52) comprises a pressing support (521), a pressing cylinder (522), a pressing moving plate (523) and a pressing seat (524), the pressing cylinder (522) is arranged at the top end of the pressing support (521), the pressing cylinder (522) is connected with the pressing moving plate (523) arranged on the pressing support (521) in a sliding manner, and the pressing seat (524) is arranged at the lower end of the pressing moving plate (523).
  7. 7. The automatic laminating equipment for the universal terminal strip double iron shells of claim 1, wherein the upper shell cutting module (7) comprises a first cutting assembly for disassembling an upper shell and a second cutting assembly for disassembling waste materials, the first cutting assembly is arranged at the lower end of the upper shell transplanting module (6), and the second cutting assembly is arranged above the tail end of the upper shell transplanting module (6).
  8. 8. The automatic laminating equipment of two iron shells of a general terminal material area of claim 7, wherein first cutting assembly include cut fixed bolster (71), cut and be provided with second cutting cylinder (72) on fixed bolster (71), second cutting cylinder (72) with slide and set up cut seat (73) in cutting fixed bolster (71), cut seat (73) on be provided with second cutting blade a (74), second cutting blade a (74) with set up the second cutting blade b (75) on last casing transplanting module (6) and cut seat (73) on still be provided with the pilot pin.
  9. 9. The automatic laminating equipment of two iron shells of general terminal material area of claim 7, wherein second cutting assembly include third cut cylinder (76), third cut cylinder (76) through cut fixed extension board (77) setting up on last casing transplanting module (6), third cut cylinder (76) lower extreme be provided with cut fixed extension board (77) sliding connection's slide, the slide lower extreme be provided with third cutting blade (78).
  10. 10. The automatic laminating equipment for the universal terminal strip double iron shells according to claim 1, wherein the supporting component (82) comprises a driving cylinder (83), the driving cylinder (83) is arranged on a supporting bracket (84), and the driving cylinder (83) is connected with a supporting seat (85) which is arranged on the supporting bracket (84) in a sliding manner.

Description

Automatic laminating equipment of two iron shells in general terminal material area Technical Field The invention relates to the technical field of connector processing equipment, in particular to universal automatic laminating equipment for double iron shells of terminal material strips. Background In order to avoid signal interference, the connector terminal is generally attached to the upper shell and the lower shell on the terminal material belt, and the prior art is mainly attached manually, so that the connector terminal is low in efficiency, and the problem that an iron shell is easy to deform during attachment is solved. Disclosure of Invention Aiming at the defects of the prior art, the invention provides universal automatic laminating equipment for double iron shells of terminal material belts. The technical scheme is that the universal automatic terminal material tape laminating equipment comprises a bottom plate, a lower shell laminating mechanism, an upper shell laminating mechanism and a terminal material tape transplanting module, wherein the lower shell laminating mechanism is arranged on the bottom plate, the lower shell laminating mechanism comprises a lower shell transplanting module, a lower shell cutting module and a lower shell laminating module, the lower shell transplanting module and the lower shell cutting module are arranged on one side of the terminal material tape transplanting module, the lower shell cutting module is arranged at the tail end of the lower shell transplanting module, and the lower shell laminating module is arranged at the upper end and the lower end of the terminal material tape transplanting module corresponding to the lower shell cutting module. The upper shell attaching mechanism comprises an upper shell transplanting module, an upper shell cutting module and an upper shell attaching module, wherein the upper shell transplanting module and the upper shell cutting module are arranged on one side of the terminal material belt transplanting module, the upper shell cutting module is arranged at the tail end of the upper shell transplanting module, and the upper shell attaching module is arranged at the upper end and the lower end of the terminal material belt transplanting module corresponding to the upper shell cutting module. Preferably, the lower housing transplanting module comprises a lower housing conveying rail and a lower housing driving assembly. Preferably, the lower shell conveying track comprises a lower shell transplanting track plate, the lower shell transplanting track plate is arranged on the first support through a plurality of base plates, pressing plates are symmetrically arranged on the lower shell transplanting track plate, and a corresponding channel for conveying a lower shell material belt is arranged between the pressing plates and the lower shell transplanting track plate. The lower shell driving assembly comprises a lower shell transplanting driving motor, a lower shell driving motor support and a lower shell driving gear piece, wherein the lower shell driving motor support is further arranged on the first support at the rear side of the lower shell transplanting track plate, sliding grooves are symmetrically formed in the inner side wall of the lower shell driving motor support, a lower shell driving motor mounting plate is connected in a sliding mode in the sliding grooves, the lower shell transplanting driving motor is arranged on the lower shell driving motor mounting plate, the lower shell driving gear piece is arranged on a motor shaft of the lower shell transplanting driving motor, and the lower shell driving gear piece is located above the lower shell transplanting track plate and matched with a lower shell material belt. Preferably, the lower end of the lower shell driving motor mounting plate is provided with a spring mounting hole, the spring mounting hole is provided with a spring, the lower end of the spring is connected with the bottom of the lower shell driving motor support, and the lower shell driving motor mounting plate is sprung up through the spring, so that the lower shell driving gear piece is separated from the material hole of the lower shell material belt. Preferably, the upper end of the lower shell driving motor mounting plate is also in fit contact with a first adjusting mechanism arranged at the upper end of the lower shell driving motor support, and when the rack of the lower shell driving gear sheet is clamped with the material belt hole of the lower shell, the lower shell driving motor mounting plate is pressed downwards through the first adjusting mechanism, so that the lower shell driving gear sheet is prevented from falling off the material hole of the lower shell material belt under the action of the spring. The lower shell cutting module comprises a first cutting cylinder, a first cutting cylinder support, a first cutting upper die, a first cutting lower die and a first cutting tool, wherein the fi