CN109128771B - Deformation assembly device for belleville springs on ticket clips - Google Patents

Abstract

The invention discloses a deformation assembly device of a belleville spring on a ticket clamp, which comprises a rack and a mold circulating moving assembly arranged on the rack, and is characterized in that: the feeding device comprises a die ejector block, and is characterized by further comprising a spring feeder, a spring pressing cylinder and a feeding block, wherein the conveying end of the spring pressing cylinder is connected with a spring pressing ejector rod, two ends of the feeding block are respectively provided with a spring pressing cavity used for the spring pressing ejector rod to pass through, the spring pressing cavities are communicated with the spring feeder, two sides of the feeding block are respectively vertically and slidably provided with a guide sleeve connecting piece, a spring guide sleeve is arranged below the feeding block on the guide sleeve connecting piece, the lower part of the spring guide sleeve is provided with a group of wedge parts, a butt joint block which is formed between the two wedge parts and corresponds to the die ejector block, and the upper side surface of the spring guide sleeve is provided with a spring channel which passes through the butt joint block. The invention provides a deformation assembly device for a belleville spring on a wallet, which realizes automatic assembly of the belleville spring on the wallet, reduces labor intensity and improves production efficiency.

Description

Deformation assembly device for belleville springs on ticket clips

Technical Field

The invention relates to the field of ticket clamp assembly, in particular to a deformation assembly device for a belleville spring on a ticket clamp.

Background

The ticket clamp is assembled by two clamping pieces, a belleville spring and a pin. The traditional wallet is assembled by hand, on one hand, the quality cannot be controlled, the productivity is low, on the other hand, the labor intensity is high, and meanwhile, fingers of operators are damaged during long-time assembly.

For this reason, chinese patent publication No. CN107984221a discloses an automatic clip assembling machine, which comprises a frame, a rotating disc, a clip mounting mechanism, a spring mounting mechanism, a pin pressing mechanism and a material taking mechanism are arranged on the frame, the rotating disc is connected with a rotary driving device, a clip seat is mounted on the rotating disc, the clip mounting mechanism is connected with the clip input mechanism, the spring mounting mechanism is connected with the spring input mechanism, the pin pressing mechanism is connected with the pin input mechanism, the pin mounting mechanism comprises a pin feeding seat and a pin pushing rod, the pin pushing rod is connected with a fourth driving device, a first channel is arranged on the pin feeding seat, and the automatic clip assembling machine is characterized in that a pin clamping device is further arranged on the pin feeding seat.

Disclosure of Invention

Aiming at the current state of the art, the invention provides the deformation assembly device for the belleville springs on the ticket clips, which realizes the automatic assembly of the belleville springs on the ticket clips, reduces the labor intensity and improves the production efficiency.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a belleville spring's deformation assembly device on wallet, including the frame, set up the mould circulation on the frame and remove the subassembly, this mould circulation removes the subassembly and includes the circulation track, slide and set up a plurality of moulds on the circulation track, every mould includes the removal carrier, set up two pairs of submodules of arranging side by side on the removal carrier, every submodule includes a set of symmetrical arrangement and is used for holding the slip clamp splice of two clamping pieces, slide and erect the kicking block between two slip clamp splice, the top of kicking block is formed with the semicircle groove that is used for the pin to sit, its characterized in that: the device comprises a rack, a spring feeder, a spring assembly support arranged on the rack, a spring pressing support arranged above the spring assembly support, a spring pressing cylinder arranged above the spring pressing support, a spring pressing ejector rod connected to the conveying end of the spring pressing cylinder, a feeding block fixedly arranged below the spring assembly support, a spring pressing cavity for the spring pressing ejector rod to pass through, a spring pressing cavity communicated with the spring feeder, a spring side wall stop block rotatably arranged on the outer side wall of the feeding block, a spring bottom stop block rotatably arranged at the bottom of the feeding block, guide sleeve connecting pieces vertically and slidably arranged on two sides of the feeding block, guide sleeve lifting cylinders connected with the guide sleeve connecting pieces, a spring guide sleeve arranged below the feeding block and arranged on the guide sleeve connecting pieces, a group of wedge-shaped parts oppositely arranged for limiting the upper ends of the clamping pieces, and a butt joint block formed between the two wedge-shaped parts and corresponding to the die ejector block, a spring channel passing through the butt joint block, and a semicircular groove formed on the upper side surface of the die ejector block after the butt joint block is compressed by the butterfly spring channel, and the butt joint groove formed on the corresponding side surface of the die ejector block after the butt joint block.

As an improvement, the lower part of the deformation assembly device of the belleville spring on the ticket clip is provided with a pin penetrating mechanism, the pin penetrating mechanism comprises a pin feeder and a group of pin penetrating fixing seats which are arranged oppositely below the spring guide sleeve, one pin penetrating fixing seat is provided with a guide support in a sliding manner, the guide support is connected with a guide cylinder, a group of guide pin cylinders are arranged on the guide support in parallel, the output end of each guide pin cylinder is connected with a guide pin, the other pin penetrating fixing seat is provided with a pin penetrating support in a sliding manner, the pin penetrating support is connected with a sliding cylinder, a group of pin penetrating cylinders are arranged on the pin penetrating support in parallel, a group of pin penetrating guide seats which are opposite to the pin penetrating cylinders are arranged on the pin penetrating support in parallel, a pin penetrating guide seat is internally provided with a pin penetrating guide seat communicated with the lower part of the pin penetrating guide seat, the output end of the pin penetrating cylinder is connected with a pin penetrating thimble which is penetrated in the pin guide seat, the upper part of the pin penetrating guide seat is connected with the pin feeder, and the side part of the pin penetrating guide seat is provided with a pin limiting cylinder, and the output end of the limiting rod of the limiting cylinder is connected with a limiting rod which is penetrated in the pin guide seat.

The sliding clamping block is characterized in that two seating grooves for seating the sub-die are formed in the moving carrier in parallel, a group of parallel guide posts penetrating through the seating grooves are arranged on the moving carrier in a penetrating mode, the sliding clamping block is arranged on the parallel guide posts in a sliding mode, a spring is arranged between the groove walls of the seating grooves and the outer side walls of the sliding clamping block on the parallel guide posts, when the clamping piece is inserted into a gap between the sliding clamping block and the jacking block, the sliding clamping block can compress the spring to move on the parallel guide posts, clamping of the clamping piece is achieved, and meanwhile, the sliding clamping block can automatically reset under the action of the spring when the clamping piece is pulled out.

And the opposite side surfaces of the sliding clamping blocks are wedge-shaped, triangular blocks are arranged between the sliding clamping blocks on the movable carrier, the outer side walls of the triangular blocks are contacted with the wedge-shaped surfaces of the sliding clamping blocks, and collision between the two sliding clamping blocks is avoided by arranging the triangular blocks.

The circular track is square, the mould circular moving assembly also comprises a circular moving cylinder which is arranged at the end part of the square circular track, the output end of the circular moving cylinder is provided with a pushing plate for pushing each mould on one side of the square circular track, when the mould needs to move forward by a distance, the circulating moving cylinders at the corners of the square circulating rail continuously act, and the pushing plate drives a row of moulds on the square circulating rail to move forward by a distance at the same time, so that the mould can move circularly on the square circulating rail.

Compared with the prior art, the invention has the advantages that: the die circulation moving assembly moves the die to the lower part of the spring guide sleeve in a circulating way, the spring feeder conveys the belleville springs to the spring pressing cavity of the feeding block one by one, the bottom baffle block and the side wall baffle block the belleville springs, when the die loaded with the clamping pieces moves to the lower part of the spring guide sleeve, the guide sleeve lifting cylinder drives the lower part of the spring guide sleeve, the upper ends of the clamping pieces on the die enter between the wedge-shaped part of the spring guide sleeve and the butt joint block, so that the clamping pieces are in an opened state, meanwhile, the butt joint block of the spring guide sleeve is in butt joint with the top part of the top block of the die, the spring pressing cylinder acts, the spring pressing ejector rod descends, the baffle block at the bottom of the spring is opened, the belleville springs in the spring pressing cavity are pushed into the spring channel of the spring guide sleeve, and finally pressed into the clamping pieces of which the die is opened through the spring channel, so that the assembly of the belleville springs is realized, the labor intensity is reduced, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a deformed assembly device for a belleville spring on a ticket holder in an automatic ticket holder assembly machine according to an embodiment of the invention;

FIG. 2 is a schematic top view of the positional relationship of the ticket holder automatic assembling machine according to the embodiment of the invention;

FIG. 3 is an enlarged view of a portion of FIG. 1 at A;

FIG. 4 is a schematic view of the pin penetrating mechanism of FIG. 3;

FIG. 5 is a cross-sectional view of a pin penetrating mechanism in an embodiment of the invention;

FIG. 6 is a schematic view of the spring guide sleeve of FIG. 3;

FIG. 7 is a schematic view of a mold in an embodiment of the invention.

Description of the embodiments

The invention is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1 to 7, the automatic ticket holder assembling machine in this embodiment includes a frame 6, a mold circulation moving assembly 80 disposed on the frame 6, a clip automatic pair access mold mechanism 1, a belleville spring deformation assembling device 2, a pin penetrating mechanism 3, a pin two-end flattening mechanism 4, a finished product discharging and stacking mechanism 5, and a controller 61 disposed on the frame 6, wherein the ticket holder is assembled by a clip 71, a belleville spring 72 and a pin 73.

As shown in fig. 3, the deformation assembling device 2 of the belleville spring includes a spring feeder 21, a spring assembling bracket 22 disposed on the frame 6, a spring pressing bracket 23 disposed above the spring assembling bracket 22, a spring pressing cylinder 231 disposed above the spring pressing bracket 23, a spring pressing rod 232 connected to a conveying end of the spring pressing cylinder 231, a feeding block 24 disposed below the spring assembling bracket 22, a spring pressing cavity 243 formed at two ends of the feeding block 24 for passing through the spring pressing rod 232, the spring pressing cavity 243 and the spring feeder 21 are connected, a spring sidewall stopper 241 is rotatably disposed on an outer sidewall of the feeding block 24, a spring bottom stopper 242 is rotatably disposed at a bottom of the feeding block 24, guide sleeve connectors 222 are vertically and slidably disposed at two sides of the feeding block 24, a guide sleeve lifting cylinder 221 connected to the guide sleeve connectors 222 is disposed on the guide sleeve connectors 222, a spring guide sleeve 25 is disposed below the feeding block 24, a set of wedge-shaped parts 254 for limiting an upper end of the clamping piece 71 are formed at a lower portion, a pair of wedge-shaped blocks 254 are formed between the two wedge-shaped blocks 254 and a corresponding to the guide sleeve groove 251, and a compression channel 251 is formed at a side face of the wedge-shaped groove 251 is formed at the side face of the guide sleeve groove of the die, and the wedge-shaped groove is formed at the side face of the wedge-shaped groove is gradually reduced to the side of the wedge-shaped groove 251, and the wedge-shaped groove is formed at the side of the wedge-shaped groove is opposite to the wedge-shaped groove, and the wedge shaped groove is formed at the wedge-shaped groove has a corresponding groove has a groove, and has a shape, and a shape is formed.

In addition, the mold circulating moving assembly 80 includes a circulating rail, a plurality of molds 8 slidably disposed on the circulating rail, each mold 8 includes a moving carrier 81, two pairs of sub-molds disposed on the moving carrier 81 in parallel, each sub-mold includes a set of sliding clamping blocks 83 symmetrically disposed for accommodating the two clamping pieces 71, a top block 84 slidably erected between the two sliding clamping blocks 83, and a semicircular groove 841 for seating the pin 73 is formed at the top of the top block 84.

Preferably, the circulation track is square, the die circulation moving assembly 80 further comprises a circulation moving cylinder, the circulation moving cylinder is arranged at the end part of the square circulation track, the output end of the circulation moving cylinder is provided with a pushing plate 801 for pushing each die on one side of the square circulation track, when the die 8 needs to move forward by one distance, the circulation moving cylinder at each end corner of the square circulation track continuously acts, and the pushing plate 801 drives a row of dies on the square circulation track to move forward by one distance simultaneously, so that the circulation movement of the die 8 above the square circulation track is realized.

Further, two seating grooves 82 for seating the sub-mold are formed in the moving carrier 81 in parallel, a group of parallel guide posts 85 penetrating through the seating grooves 82 are formed in the moving carrier 81 in a penetrating mode, the sliding clamping blocks 83 are arranged on the parallel guide posts 85 in a sliding mode, springs 86 are arranged between the groove walls of the seating grooves 82 and the outer side walls of the sliding clamping blocks 83 on the parallel guide posts 85, when the clamping pieces 71 are inserted into gaps between the sliding clamping blocks 83 and the top blocks 84, the sliding clamping blocks 83 can compress the springs 86 to move on the parallel guide posts 85, clamping of the clamping pieces 71 is achieved, and meanwhile, when the clamping pieces 71 are pulled out, the sliding clamping blocks 83 can automatically reset under the action of the springs 86.

Further, opposite sides of the sliding clamping blocks 83 are wedge-shaped, triangular blocks 87 are arranged between the sliding clamping blocks 83 on the moving carrier 81, outer side walls of the triangular blocks 87 are contacted with wedge-shaped surfaces of the sliding clamping blocks 83, and collision between the two sliding clamping blocks 83 is avoided through the triangular blocks 87.

In addition, the pin penetrating mechanism 3 includes a pin feeder 31 and a set of pin penetrating fixing seats 32 which are oppositely arranged below the spring guide sleeve 25, wherein a guide support 322 is slidably arranged on one pin penetrating fixing seat, the guide support 322 is connected with a guide cylinder 321, a set of guide pin cylinders 33 are arranged on the guide support 322 in parallel, the output end of each guide pin cylinder 33 is connected with a guide pin 331, a pin penetrating support 323 is slidably arranged on the other pin penetrating fixing seat, the pin penetrating support 232 is connected with a sliding cylinder 34, a set of pin penetrating cylinders 35 are arranged on the pin penetrating support 323 in parallel, a set of pin penetrating guide seats 36 which are opposite to the pin penetrating cylinders 35 are arranged on the pin penetrating support 323 in parallel, a pin waiting bin is formed in the pin penetrating guide seats 36, a pin penetrating thimble 351 which is communicated with the lower part of the pin waiting bin is arranged on the pin penetrating guide seats 36, the upper part of the pin waiting bin is connected with the pin feeder 31, a pin limiting cylinder 37 is arranged on the side part of the pin penetrating guide seat 36, and the output end of the limiting cylinder 37 is connected with a limiting rod 371 which is arranged in the pin passage.

In the assembling process of the belleville springs 72, the belleville springs 72 are conveyed to the position of the spring pressing cavity 243 of the feeding block 24 one by the spring feeder 21, meanwhile, the belleville springs 72 located in the spring pressing cavity 243 are supported by the spring bottom stop block 242, the belleville springs 72 are blocked by the spring side wall stop block 241, when the die 8 loaded with the clamping pieces 71 moves to the position below the spring guide sleeve 25, the guide sleeve lifting cylinder 221 drives the position below the spring guide sleeve 25, the upper ends of the clamping pieces 71 on the die 8 enter between the wedge-shaped parts 254 of the spring guide sleeve 25 and the abutting blocks 252, so that the clamping pieces 71 are in an opened state, meanwhile, the abutting blocks 252 of the spring guide sleeve 25 abut against the tops of the jacking blocks 84 of the die 8, the splicing grooves 253 and the semicircular grooves 841 form through holes convenient for the pins 73 to pass, then the spring pressing cylinder 231 acts, the spring pressing rod 232 descends, the spring bottom stop block 242 opens, the belleville springs 72 in the spring pressing cavity 243 enter the spring channel 251, the spring 72 is pushed into the spring channel 251, the spring 72 is finally pressed into the clamping piece 71 opened by the spring guide sleeve 25 through the spring channel 251, and the clamping piece 72 is pressed into the clamping piece 71.

In addition, in the pin threading process, the pin feeder 31 conveys the pins 73 into the pin waiting bin, after the belleville springs 72 are assembled, at this time, the pin threading holes on the clamping pieces 71 are opposite to the through holes formed by the splicing grooves 253 and the semicircular grooves 841, in the pin threading process, the guide cylinder 321 pushes the guide pin cylinder 33 to move rapidly, the guide pins 331 of the guide pin cylinder 33 firstly penetrate through the pin threading holes on the clamping pieces 71, the guide pins 331 achieve pre-threading, so that the pin threading holes on the two clamping pieces 71 are aligned, the sliding cylinder 34 can drive the pin threading cylinders 35 to move rapidly to position the pin threading cylinders 35, then the pin threading cylinders 35 move in the pin passage with the pin threading pins 351, the limit rods 371 on the pin limiting cylinders 37 withdraw from the pin passage, the pin threading pins 351 push the pins 73 on the lower portions of the pin waiting bin to push the pin threading holes of the clamping pieces 71, and meanwhile, the guide pins 331 gradually withdraw from the pin threading holes with the guide pins 331, and finally, the pin threading is completed.

In summary, the mould circulation moving assembly 80 moves the mould 8 to the below of the spring guide sleeve 25 in a circulation way, the spring feeder 21 conveys the belleville springs 72 to the position of the spring pressing cavity 243 of the feeding block 24 one by one, the spring bottom check block 242 and the spring side wall check block 241 block the belleville springs 72, when the mould 8 loaded with the clamping pieces 71 moves to the below of the spring guide sleeve 25, the guide sleeve lifting cylinder 221 drives the below of the spring guide sleeve 25, the upper ends of the clamping pieces 71 on the mould 8 enter between the wedge-shaped parts 254 of the spring guide sleeve 25 and the butting blocks 252, so that the clamping pieces 71 are in an opened state, meanwhile, the butting blocks 252 of the spring guide sleeve 25 and the top parts of the top blocks 84 of the mould 8 are butted, the spring pressing cylinder 231 acts, the spring pressing ejector rods 232 move downwards, the spring bottom check block 242 is opened, the belleville springs 72 in the spring pressing cavity 243 are pushed into the spring channel 251, and the belleville springs 72 are finally pressed into the clamping pieces 71 opened by the mould 8 through the spring channel 251, so that the assembly of the belleville springs 72 is realized, the labor intensity is reduced, and the production efficiency is improved.

Claims (5)

1. The utility model provides a belleville spring's deformation assembly device on ticket holder, including frame (6), mould circulation remove subassembly (80) that sets up on frame (6), this mould circulation removes subassembly (80) including circulation track, slide and set up a plurality of moulds (8) on circulation track, every mould (8) are including removing carrier (81), set up two pairs of submodules of arranging side by side on removing carrier (81), every submodule includes a set of symmetrical arrangement is used for holding the slip clamp splice (83) of two clamping pieces (71), slide and erect kicking block (84) between two slip clamp splice (83), the top of kicking block (84) is formed with semicircular groove (841) that are used for pin (73) to sit, its characterized in that: the device further comprises a spring feeder (21), a spring assembly bracket (22) arranged on the frame (6), a spring pressing bracket (23) arranged above the spring assembly bracket (22), a spring pressing cylinder (231) arranged above the spring pressing bracket (23), a guide sleeve connecting piece (222) vertically and slidably arranged at two sides of the spring pressing bracket (23), a spring pressing ejector rod (232) connected with a conveying end of the spring pressing cylinder (231), a feeding block (24) fixedly arranged below the spring assembly bracket (22), a spring pressing cavity (243) for the spring pressing ejector rod (232) to pass through formed at two ends of the feeding block (24), the spring pressing cavity (243) is communicated with the spring feeder (21), a spring side wall stop block (241) is rotationally arranged on the outer side wall of the feeding block (24), a spring bottom stop block (242) is rotationally arranged at the bottom of the feeding block (24), a guide sleeve lifting cylinder (221) connected with the guide sleeve connecting piece (222) is arranged on two sides of the spring assembly bracket (22), a spring guide sleeve (25) arranged below the guide sleeve connecting piece (24), and a wedge-shaped part (71) is arranged at the lower part of the guide sleeve connecting piece (222) and is arranged at the opposite wedge-shaped part (71) of the clamping part (71) formed by opposite to the wedge-shaped part (71) The butt joint block (252) is formed between the two wedge-shaped parts (254) and corresponds to the jacking block (84) of the die (8), a spring channel (251) penetrating through the butt joint block (252) is formed on the upper side face of the spring guide sleeve (25), the inlet to the outlet of the spring channel (251) are gradually reduced, the belleville springs (72) are compressed into an installed shape after passing through the spring channel (251), and a splicing groove (253) corresponding to the semicircular groove (841) of the jacking block (84) is formed on the lower side face of the butt joint block (252).

2. The deformation assembly device for a ticket-clip belleville spring of claim 1, wherein: the lower part of the deformation assembly device of the belleville spring on the ticket clamp is provided with a pin penetrating mechanism (3), the pin penetrating mechanism (3) comprises a pin feeder (31) and a group of pin penetrating fixing seats (32) which are arranged oppositely below the spring guide sleeve (25), one pin penetrating fixing seat is provided with a guide support (322) in a sliding manner, the guide support (322) is connected with a guide cylinder (321), a group of guide pin cylinders (33) are arranged on the guide support (322) in parallel, the output end of the guide pin cylinders (33) is connected with a guide pin (331), the other pin penetrating fixing seat is provided with a pin penetrating support (323) in a sliding manner, the pin penetrating support (323) is connected with a sliding cylinder (34), a group of pin penetrating cylinders (35) are arranged on the pin penetrating support (323) in parallel, a group of pin penetrating guide seats (36) which are opposite to the pin penetrating cylinders (35) are arranged in parallel, a pin penetrating channel which is communicated with the lower part of the pin to be fed, the pin penetrating guide seat (36) is formed in the pin penetrating guide seats (36), the pin penetrating guide seats (35) are provided with pin channels which are communicated with the lower part of the pin to be fed through the pin receiving bin, the pin feeder is provided with the pin (37) in the output end of the pin guide seats (35) which is connected with the guide cylinder (37), the output end of the pin limiting cylinder (37) is connected with a limiting rod (371) penetrating through the pin channel.

3. The deformation assembly device for a ticket-clip belleville spring of claim 1, wherein: two seating grooves (82) for seating the sub-mold are formed in the movable carrier (81) in parallel, a group of parallel guide posts (85) penetrating through the seating grooves (82) are arranged on the movable carrier (81) in a penetrating mode, the sliding clamping blocks (83) are arranged on the parallel guide posts (85) in a sliding mode, and springs (86) are arranged between the groove walls of the seating grooves (82) and the outer side walls of the sliding clamping blocks (83) on the parallel guide posts (85).

4. A deformation assembly device for a ticket clip belleville spring as set forth in claim 3 wherein: the opposite side faces of the sliding clamping blocks (83) are wedge-shaped, triangular blocks (87) are arranged between the sliding clamping blocks (83) on the movable carrier (81), and the outer side walls of the triangular blocks (87) are contacted with the wedge-shaped faces of the sliding clamping blocks (83).

5. The deformation assembly device for a ticket-clip belleville spring of claim 1, wherein: the circulation track is square, the mould circulation removes subassembly (80) still including circulation and removes the jar, and circulation removes the jar setting in square circulation track's tip, and circulation removes the output of jar and is provided with the push plate (801) that are used for promoting each mould on square circulation track one side.