CN111993050A

CN111993050A - Automatic cover closing assembly equipment for circuit breaker

Info

Publication number: CN111993050A
Application number: CN202010971413.XA
Authority: CN
Inventors: 赵宗礼; 赵哲
Original assignee: Benlong Automatic Technology Co ltd
Current assignee: Benlong Automatic Technology Co ltd
Priority date: 2020-09-16
Filing date: 2020-09-16
Publication date: 2020-11-27

Abstract

The invention discloses automatic cover closing assembly equipment for a circuit breaker, which solves the problem that the cover closing of the circuit breaker is still manually assembled at the present stage. The device comprises a main conveying line, a lower cover pushing device, an upper cover feeding device, an upper cover conveying line, an upper cover turning mechanism, an upper cover pushing mechanism, an upper cover clamping and covering mechanism and a cover closing and pushing device; the upper cover tilting mechanism remains to change the station and change back station including remaining to press from both sides the station, it is located the terminal exit and the upper cover of upper cover transfer chain to wait to change the station, upper cover tilting mechanism works and waits to change the reciprocal upset action between the station and the station after changing to overturn to the opening down with the opening that is used for the upper cover up, with the lower cover immigration close cover on the station, the upper cover upset that will supply makes its opening down again, close the upper cover to the upper cover at last, the cover closes full automation operation, be suitable for the cover stage of closing after the assembly is accomplished in the automatic assembly line of miniature circuit breaker.

Description

Automatic cover closing assembly equipment for circuit breaker

Technical Field

The invention relates to the field of circuit breaker assembling equipment, in particular to automatic cover closing assembling equipment for a circuit breaker.

Background

Nowadays, a miniature circuit breaker is a common control switch in life and production, and the assembly of the circuit breaker is very important. The circuit breaker generally comprises an upper cover and a lower cover, wherein a plurality of assembling holes and inserting columns are arranged on the upper cover and the lower cover, and the upper cover and the lower cover are inserted into the assembling holes through the inserting columns to realize cover closing. The inside components and parts that are used for placing the circuit breaker of lower cover, only place the arc piece usually in the upper cover, treat that all components and parts are placed and finish to upper cover and lower cover after, close the lid with upper cover and lower cover at last. At the lid stage of closing at the circuit breaker assembly, adopt artifical manual to close two casings and cover the technical effect who plays the installation body, but manual assembly's technical scheme efficiency is lower like this, can influence the assembly efficiency of whole circuit breaker to a great extent. The assembly of current circuit breaker usually adopts manual assembly, and especially close the lid link, because there are several technical problems difficult to solve in the lid link a bit, for example: 1. in the cover closing process, the upper cover or the lower cover needs to be turned over to enable the openings of the upper cover and the lower cover to face oppositely, the process is complicated, and the automation difficulty is high; 2. the fact that parts fall out or are loosened in the conveying process before the cover is closed cannot be guaranteed, and the breaker cannot be used after the cover is closed; 3. in the circuit breakers with certain structures, the lower cover needs to be closed and assembled; 4. in the circuit breaker of some structures, upper cover parts such as arc striking pieces need to be placed in the upper cover, otherwise, the use effect of the finished circuit breaker after the cover is closed has certain loss. The above problems are only partial problems, and thus, there is a great difficulty in automatically combining caps.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects of the prior art, the invention provides automatic cover closing assembly equipment for a circuit breaker, which solves the problem that the cover closing of the circuit breaker is still manually assembled in the prior art.

The technical scheme of the invention is as follows: the device comprises a main conveying line, a lower cover pushing device, an upper cover feeding device, an upper cover conveying line, an upper cover turning mechanism, an upper cover pushing mechanism, an upper cover clamping and covering mechanism and a cover closing and pushing device; the initial section of the main conveying line is used for supplying lower covers with upward conveying openings, the lower cover conveying line is communicated with the main conveying line, the lower cover pushing device is arranged on one side of the main conveying line and pushes the lower covers on the main conveying line to the lower cover conveying line, and the lower cover conveying line is provided with a cover closing station for positioning the lower covers; the upper cover feeding device is arranged at the starting end of the upper cover conveying line and is used for arranging and supplying the upper cover with the upward opening to the upper cover conveying line, the upper cover overturning mechanism comprises a station to be turned and a station to be turned back, the upper cover clamping and covering mechanism comprises a station to be clamped, the station to be turned is located at the tail end outlet of the upper cover conveying line and receives the upper cover, the upper cover overturning mechanism is used for turning the opening of the upper cover upwards to the opening downwards between the station to be turned and the station to be turned back, the upper cover ejecting mechanism is arranged on the upper cover overturning mechanism and is used for ejecting the upper cover of the station to be clamped to the station to be clamped, and the upper cover clamping and covering mechanism is arranged on one side of the lower cover conveying line and is used for clamping the upper cover to be covered on the lower cover of the station to be clamped.

Adopt above-mentioned technical scheme, with the lower cover immigration close on covering the station, the upper cover upset with the supply makes its opening down again, close the upper cover to covering last at last, solved in the miniature circuit breaker assembly the puzzlement that upper cover and lower cover still adopted the workman to operate, the lid closes full automation operation, assembly efficiency promotes obviously, reduce operation workman's quantity by a wide margin, assembly quality steadily promotes, be suitable for the cover stage of closing after the assembly is accomplished in the automatic assembly line of miniature circuit breaker.

The invention further comprises the following steps: the upper cover turnover mechanism comprises a turnover table, a turnover central shaft and a turnover driving assembly connected with the turnover table, wherein the turnover central shaft penetrates through and is fixed at the central position of the turnover table, and the turnover central shaft is connected with the turnover driving assembly and is connected with the turnover driving assembly to drive the turnover central shaft to rotate back and forth for 180 degrees around the shaft center; the turnover table comprises two mounting seats with a central included angle of 180 degrees, the station to be turned and the station after turning are positioned on the two mounting seats under the non-turning state of the turnover table, and the two mounting seats are mutually switched between the station to be turned and the station after turning when the turnover table is turned; the mounting base is provided with an inlet, an outlet and a limiting structure for limiting the upper cover in the turning process, the inlet of the mounting base positioned on the to-be-turned station is communicated with the upper cover conveying line so as to input the upper cover into the mounting base, and the inlet and the outlet are arranged along the input direction of the upper cover; the upper cover pushing mechanism is movably arranged between the post-rotation station and the station to be clamped and abuts against the upper cover on the post-rotation station in the moving process, and the station to be clamped is located at an outlet of the post-rotation station.

By adopting the further arrangement, the turnover driving assembly drives the turnover table to turn over back and forth, the upper cover on the mounting seat can be switched between the station to be turned and the station after turning, and the design of the turnover process is ingenious; the mounting seat on the to-be-turned station can receive the next upper cover which is not turned over from the upper cover conveying line, meanwhile, the upper cover to be turned over is pushed out to the to-be-clamped station through the upper cover pushing-out mechanism, the conveying route of the upper cover input and output upper cover turning mechanism is formed, the design is reasonable and orderly, input and output are carried out synchronously, the work efficiency is obviously improved, and the working process is efficient and compact.

The invention further provides that: the overturning driving assembly comprises an overturning driving cylinder, an overturning bearing seat, an overturning gear and an overturning rack, the overturning central shaft is rotatably installed on the overturning bearing seat, the overturning gear is fixedly sleeved on the end part of the overturning central shaft, the overturning rack is fixedly connected with an output shaft of the overturning driving cylinder, and the overturning rack is meshed with the overturning gear.

By adopting the above further arrangement, the overturning driving cylinder extends out or retracts to drive the overturning rack to move back and forth, so that the meshed overturning gear drives the overturning platform to overturn back and forth, the gear transmission is stable, and the work is reliable.

Still further arrangements of the invention are: the feeding device for the upper cover parts is arranged on one side of the upper cover conveying line and is used for loading the upper cover parts into the upper cover of the upper cover conveying line; the upper cover part feeding device comprises an upper cover part vibrating disc, an upper cover part vibrating material channel, an upper cover part moving module and a suction nozzle piece, wherein an outlet of the upper cover part vibrating disc is communicated with the upper cover part vibrating material channel, the suction nozzle piece is installed on the upper cover part moving module, and the upper cover part moving module drives the suction nozzle piece to suck the upper cover part on the upper cover part vibrating material channel into an upper cover of the upper cover conveying line.

By adopting the above further arrangement, the function of installing the upper cover part into the upper cover is provided, the circuit breaker structure is suitable for the circuit breaker structure needing to install the upper cover part in the upper cover, and the application range is expanded.

Still further arrangements of the invention are: treat still to be provided with on the commentaries on classics station and detect the upper cover part detection mechanism whether the upper cover of waiting to change the station is packed into the upper cover part, be located and still communicate and be provided with upper cover waste product collection feed bin in the mount pad exit of waiting to change the station, the entry of upper cover waste product collection feed bin, the export of waiting to change the station and the export of upper cover transfer chain form the collineation setting, upper cover part detection mechanism still with upper cover tilting mechanism signal connection to send the signal of the once upset of pause when being used for upper cover part detection mechanism to detect not packing into the upper cover part and send the signal of operation upset to give upper cover tilting mechanism and upper cover part detection mechanism when detecting the upper cover part of packing into.

Adopt above-mentioned still further setting, upper cover part detection mechanism detects the upper cover part, and when detecting unqualifiedly, upper cover tilting mechanism does not overturn, and then the next upper cover of treating the upset directly releases treat the unqualified upper cover of commentaries on classics station to the upper cover waste product collection feed bin in, the upper cover of avoiding not packing into the upper cover part gets into one process down, design benefit has ensured the integrality that the upper cover part was packed into, improves off-the-shelf quality.

Still further arrangements of the invention are: the upper cover clamping and covering mechanism comprises an XZ shaft upper cover moving module and a material distributing tray positioned on a station to be clamped, the material distributing tray is used for placing an upper cover turned over on the station to be clamped, the XZ shaft upper cover moving module is movably arranged between the station to be clamped and a station for covering, a material taking positioning plate is fixedly connected to an output shaft of the XZ shaft upper cover moving module and is in contact with the bottom surface of the upper cover in an attaching manner, material taking guide blocks are respectively and fixedly arranged at the upper part and the lower part of the clamped upper cover of the material taking positioning plate, a correcting probe, a pneumatic clamping jaw and a material releasing driving cylinder are fixedly arranged on the material taking positioning plate, the correcting probe is vertically arranged and penetrates through a riveting hole in the upper cover of the station to be clamped when the material taking positioning plate moves down to form the positioning of the upper cover, and the pneumatic clamping jaw is clamped at two sides of the shoulder part of the upper cover, the stripping driving cylinder is vertically installed, and an output shaft of the stripping driving cylinder runs to move down and move the upper cover after the upper cover moving module operates and covers at a cover closing station so as to be used for separating the upper cover from the correction probe.

Adopt above-mentioned still further setting, the upper cover after the upset is placed to waiting to press from both sides the branch material tray in the station on, gets material guide block and fixes a position upper portion and lower part of the upper cover, and pneumatic clamping jaw fixes a position upper cover shoulder, and the mode that the correction probe adopted the riveting hole that penetrates in the upper cover fixes a position, and the location is accurate, and simple structure can not destroy original circuit breaker structure moreover, and stability when snatching has also obtained corresponding assurance.

Still further arrangements of the invention are: the upper cover conveying line comprises an upper cover material channel, a material channel support, a right-angle gland, a plurality of pawls, pawl tension springs, ratchet rods and pawl driving cylinders, wherein the upper cover with an upward conveying opening is arranged on the upper cover material channel; the pawl driving cylinder is characterized in that the pawl moves forwards along with the ratchet rod in the operation stroke, the pawl tension spring is in a free state, the pawl protrudes out of the upper cover material channel, and the pawl is abutted against the upper cover in the upper cover material channel in the conveying direction of the material channel to form the conveying of the pawl to the upper cover; the pawl driving cylinder is in the stroke that resets, the pawl moves back along with the ratchet rod, the pawl contacts and butts the bottom surface of carrying the upper cover in the upper cover material way and the pressurized rotation, the pawl extension spring atress is tensile, until the pawl breaks away from with the contact of upper cover after, the pawl resets because of the tensile recovery of pawl extension spring.

By adopting the above further arrangement, the pawl is in a 'return' shaped motion track, the pawl can push the upper cover in the upper cover material channel to convey forwards, so that the upper cover can be pushed to enter a station to be rotated and to push out an unqualified product on the station to be rotated, the pawl is separated from the contact with the upper cover and returns to enter the next conveying period, the conveying mode is different from a vibration feeding mode, the upper cover part is more suitable for installation, the loosening of the upper cover part can be avoided, and the upper cover part is also suitable for pushing the unqualified product on the station to be rotated.

Still further arrangements of the invention are: a lower cover switching-on mechanism for switching on the lower cover is arranged on one side of the lower cover conveying line and comprises a switching-on lifting cylinder, a lifting plate, a shifting piece and a shifting driving cylinder, wherein the switching-on lifting cylinder is vertically installed, an output shaft of the switching-on lifting cylinder is in linkage connection with the lifting plate, the shifting driving cylinder is fixedly installed on the lifting plate, the shifting piece is rotatably connected to the lifting plate, and the shifting piece is connected with an output shaft of the shifting driving cylinder; the lifting plate is provided with a shifting bearing seat, a shifting rotating shaft penetrates through the shifting bearing seat in a rotating mode, the shifting rotating shaft is in transmission connection with an output shaft of a shifting driving cylinder through a gear rack pair, and the shifting piece is in linkage connection with the shifting rotating shaft; the poking piece comprises a poking rod and a driving plate, the poking rod is positioned on the edge of the poking plate, and the driving plate is in linkage connection with the poking rotating shaft.

By adopting the above further setting, the switching-on lifting cylinder drives the lifting plate to move, so that the shifting part is close to the switching-on position of the lower cover, and then the driving cylinder is shifted to drive the shifting part to shift, thereby providing the function of switching on the lower cover, being suitable for the circuit breaker structure of which the lower cover can be closed only when switching on is needed, and enlarging the application range.

Still further arrangements of the invention are: the lower cover visual detection mechanism and the lower cover waste product collection mechanism are arranged in sequence in front of the lower cover switching-on mechanism according to the conveying direction of the lower cover conveying line, the lower cover waste product collection mechanism is also provided with a lower cover waste product ejecting mechanism on the opposite side, the lower cover visual detection mechanism is electrically connected with the lower cover waste product collection mechanism and the lower cover waste product ejecting mechanism respectively, and the lower cover visual detection mechanism sends waste signals to the lower cover waste product collection mechanism and the lower cover waste product ejecting mechanism respectively to control the lower cover waste product ejecting mechanism to eject waste products into the lower cover waste product collection mechanism when detecting that the lower cover internal parts are unqualified in installation.

Adopt above-mentioned still further setting, lower cover visual detection mechanism can detect whether the installation of lower cover internal part is accurate to can reject to the lower cover waste product collection mechanism in through lower cover waste product ejecting mechanism that the installation is accurate, lower cover visual detection mechanism can accurately discern the integrality of internal part installation, carries out quality judgement to the lower cover, is favorable to promoting off-the-shelf quality.

Still further arrangements of the invention are: the cover closing and pushing device is arranged on one side of the lower cover conveying line and pushes finished products which are closed on the lower cover conveying line to the main conveying line.

By adopting the above further arrangement, the main conveying line is used as a main line conveying line, is suitable for a circuit breaker assembly line and is convenient for conveying a finished product to the next procedure.

Drawings

FIG. 1 is a schematic structural view of an upper cover according to the present invention;

FIG. 2 is a first schematic structural diagram in accordance with an embodiment of the present invention;

FIG. 3 is a second schematic structural diagram in accordance with an embodiment of the present invention;

FIG. 4 is a third schematic structural view according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a portion of a structure according to an embodiment of the present invention;

FIG. 6 is a first schematic structural diagram of the upper cover turnover mechanism, the upper cover push-out mechanism and the upper cover clamping and covering mechanism of the invention;

FIG. 7 is a second schematic structural view of the upper cover turnover mechanism, the upper cover push-out mechanism and the upper cover clamping and covering mechanism of the invention;

FIG. 8 is a schematic structural view of the upper cover turnover mechanism and the upper cover push-out mechanism of the present invention;

FIG. 9 is a schematic structural view of the cover turnover mechanism of the present invention;

FIG. 10 is a schematic view showing the structure of a feeding device for upper lid parts according to the present invention;

FIG. 11 is a first schematic structural view of a material clamping and covering mechanism of the upper cover of the present invention;

FIG. 12 is a second schematic structural view of the upper cover material clamping and covering mechanism of the present invention;

FIG. 13 is a schematic view of the structure of the upper cover conveying line of the present invention;

FIG. 14 is a schematic view of a portion of the lid conveying line of the present invention;

FIG. 15 is a schematic view of the structure of the present invention near the position of the lower lid transport line;

FIG. 16 is a schematic structural view of the lower cover closing mechanism of the present invention;

wherein, the main conveyor line 1, the lower cover conveyor line 2, the lower cover pushing device 11, the upper cover feeding device 3, the upper cover conveyor line 4, the upper cover turning mechanism 5, the upper cover ejecting mechanism 6, the upper cover clamping and covering mechanism 7, the cover closing station 21, the waiting station 511, the turning station 512, the waiting station 71, the turning table 51, the turning center shaft 52, the turning driving component 53, the mounting seat 513, the limit structure 514, the convex edge 5141, the cover plate 5142, the spring tongue 5143, the turning driving cylinder 531, the turning bearing seat 532, the turning gear 533, the turning rack 534, the upper cover ejecting fork 61, the ejecting fork bracket 62, the slide block guide rail pair 63, the upper cover ejecting cylinder 64, the upper cover part feeding device 8, the upper cover part vibrating disk 81, the upper cover part vibrating channel 82, the upper cover part moving module 83, the suction nozzle 84, the upper cover waste collecting and collecting bin 54, the XZ-axis upper cover moving module 72, the material separating tray 73, the device comprises a material taking positioning plate 74, a material taking guide block 75, a correcting probe 76, a pneumatic clamping jaw 77, a material removing driving cylinder 78, a material channel bracket 41, a right-angle gland 42, a pawl 43, a pawl tension spring 44, a ratchet rod 45, a pawl driving cylinder 46, a pawl shaft 47, a lower cover closing mechanism 22, a closing lifting cylinder 221, a lifting plate 222, a toggle member 223, a toggle driving cylinder 224, a toggle shaft bearing 225, a toggle rotating shaft 226, a gear and rack pair 227, a toggle rod 2231, a toggle plate 2232, a lower cover visual detection mechanism 23, a lower cover waste collection mechanism 24, a lower cover waste pushing mechanism 25, a lower cover collection bin 241, a lower cover material bin gate 242, a bin gate opening and closing cylinder 243, a finger cylinder 26, an XZ-axis lower cover conveying and moving module 27, a lower cover conveying bottom plate 28, a shifting hole 251, an upper cover vibrating plate 31 and a cover closing pushing device 9.

Detailed Description

As shown in fig. 1 to 9, the automatic cover closing and assembling device for a circuit breaker includes an opening, a bottom surface opposite to the opening, a shoulder, two sides, an upper portion and a lower portion, wherein the upper portion is located at a position where a handle is located, the lower portion is located at a position where a guide rail is connected, the shoulder is located at a step surface near the upper portion, and the two sides are located at side positions between the upper portion and the lower portion. The automatic cover closing assembly equipment for the circuit breaker comprises a main conveying line 1, a lower cover conveying line 2, a lower cover pushing device 11, an upper cover feeding device 3, an upper cover conveying line 4, an upper cover overturning mechanism 5, an upper cover pushing mechanism 6 and an upper cover clamping and covering mechanism 7; the initial section of the main conveying line 1 is used for supplying a lower cover with an upward conveying opening, required parts in the lower cover are assembled in the lower cover through an upper process, the lower cover conveying line 2 is communicated with the main conveying line 1, the lower cover pushing device 11 is arranged on one side of the main conveying line 1 and used for pushing the lower cover on the main conveying line 1 to the lower cover conveying line 2, and the lower cover conveying line 2 is provided with a cover closing station 21 for positioning the lower cover. The starting end of the upper cover conveying line 4 is provided with an upper cover feeding device 3, the upper cover feeding device 3 is used for supplying upper covers with upward openings to the upper cover conveying line 4 in an arranging manner, and the tail end of the upper cover conveying line 4 is provided with an upper cover turning mechanism 5; the upper cover turnover mechanism 5 comprises a station 511 to be turned and a station 512 after turning, the upper cover clamping and covering mechanism 7 comprises a station 71 to be clamped, the station 511 to be turned is positioned at the outlet at the tail end of the upper cover conveying line 4 and receives the upper cover, the upper cover turnover mechanism 5 performs reciprocating turnover action between the station 511 to be turned and the station 512 after turning, and the upper cover is turned over from the opening to the opening downwards in the process; the upper cover pushing mechanism 6 is arranged on the upper cover overturning mechanism 5 and used for pushing an upper cover of the post-rotation station 512 to the station 71 to be clamped, and the upper cover clamping and covering mechanism 7 is arranged on one side of the lower cover conveying line 2 and used for clamping the upper cover of the station 71 to be clamped and covering the lower cover of the cover closing station 21. A cover closing pushing device 9 is arranged on one side of the lower cover conveying line 2, and the cover closing pushing device 9 is used for pushing finished products which are closed on the lower cover conveying line 2 to return to the main conveying line 1. The lower cover conveying route is that the lower cover is input by the main conveying line 1 and pushed to the lower cover conveying line 2 by the lower cover pushing device 11, and the lower cover is positioned by the cover closing station 21 of the lower cover conveying line 2 to wait for cover closing; the conveying route of the upper cover is supplied by an upper cover feeding device 3, the upper cover is conveyed to a to-be-rotated station 511 of an upper cover turnover mechanism 5 through an upper cover conveying line 4, the upper cover turnover mechanism 5 turns over and then reaches a to-be-rotated station 512, an upper cover push-out mechanism 6 pushes the upper cover to-be-clamped station 71, and an upper cover clamping and covering mechanism 7 clamps the upper cover on the to-be-clamped station 71 to a lower cover on a cover closing station 21 for closing the cover; the whole finished product after the cover closing is pushed back to the main conveying line 1 by the cover closing pushing device 9.

The upper cover turning mechanism 5 comprises a turning table 51, a turning central shaft 52 and a turning driving assembly 53 connected with the turning table 51, wherein the turning central shaft 52 is fixed on the central position of the turning table 51 in a penetrating way, the turning central shaft 52 is connected with the turning driving assembly 53 and the turning central shaft 52 is driven by the connection of the turning driving assembly 53 to rotate 180 degrees back and forth around the shaft center. The overturning platform 51 comprises two mounting seats 513 with a central included angle of 180 degrees, namely the two mounting seats 513 are arranged on two opposite surfaces around an overturning central shaft 52, and the two mounting seats are mutually backed; the to-be-rotated station 511 and the to-be-rotated station 512 are respectively located on the two mounting seats 513 in the non-inverted state of the overturning platform 51, and the two mounting seats 513 rotate when the overturning platform 51 is inverted and are switched between the to-be-rotated station 511 and the to-be-rotated station 512. The mounting base 513 is provided with an inlet, an outlet and a limiting structure 514 for limiting the upper cover in the turning process, the inlet of the mounting base 513 positioned on the to-be-turned station 511 is communicated with the upper cover conveying line 4 so as to input the upper cover to the mounting base 513, and the inlet and the outlet are arranged along the input direction of the upper cover, so that the upper cover conveying line 4 can convey the upper cover to the to-be-turned station 511; the upper cover push-out mechanism 6 is movably arranged between the post-rotation station 512 and the station 71 to be clamped and abuts against the upper cover on the post-rotation station 512 in the moving process, and the station 71 to be clamped is positioned at the outlet of the post-rotation station 512, so that the station 71 to be clamped can be pushed out of the post-rotation station 512 through the upper cover push-out mechanism 6. When the mounting base 513 on the rotating station 511 receives the upper cover, the overturning driving assembly 53 operates to drive the overturning platform 51 to rotate 180 degrees around the overturning central shaft 52, so that the mounting base 513 rotates and overturns to the post-rotating station 512, the limiting structure 514 ensures that the upper cover cannot derail in the overturning process, and the upper cover pushing mechanism 6 pushes the post-rotating station 512 to the station 71 to be clamped. In addition, during the turning process, the mounting base 513 on the post-turning station 512 is turned over to the station 511 to be turned over, and then receives the next upper cover. The upper cover is continuously received, overturned and sent out in the overturning operation process, the process is very compact, and the operation efficiency is high.

As shown in fig. 9, the limiting structure 514 includes a protruding rib 5141 protruding from two sides of the mounting seat 513 and a cover plate 5142 fixed on the protruding rib 5141, the cover plate 5142 is abutted against the bottom surface of the upper cover at the mounting seat 513, and the protruding rib 5141 is further provided with an elastic tongue 5143 elastically clamping the side surface of the upper cover at the mounting seat 513. The working face of mount pad 513 contacts the opening of the upper cover, and apron 5142 contacts and supports the bottom surface of upper cover, and bead 5141 matches the thickness of upper cover and is located the both sides of upper cover, and bullet tongue 5143 is to the elastic contact of upper cover both sides to carry out spacingly in circumferential direction and the radial direction to the upper cover upset in-process, avoid the upper cover to drop at the upset in-process, can ensure again that the upper cover can follow the entry of mount pad 513 and the direction of export and push in, break away from.

As shown in fig. 9, the overturning driving assembly 53 includes an overturning driving cylinder 531, an overturning bearing seat 532, an overturning gear 533 and an overturning rack 534, the overturning bearing seat 532 is fixedly disposed, the overturning central shaft 52 penetrates into the overturning bearing seat 532 and is rotatably connected with the overturning bearing seat 532 through a bearing, the overturning gear 533 is fixedly sleeved on an end portion of the overturning central shaft 52, the overturning rack 534 is fixedly connected with an output shaft of the overturning driving cylinder 531, and the overturning rack 534 is meshed with the overturning gear 533. In the driving process of the overturning driving cylinder 531, the output shaft of the overturning driving cylinder extends out or retracts to drive the overturning rack 534 to move linearly back and forth, and the meshed overturning gear 533 rotates forward and backward, so that the overturning central shaft 52 drives the overturning platform 51 to overturn forward and backward.

As shown in fig. 6 to 8, the upper lid pushing mechanism 6 includes an upper lid pushing fork 61, a pushing fork bracket 62, a slider rail pair 63, and a fixedly installed upper lid pushing cylinder 64, the slider rail pair 63 is installed on both sides of the post-rotation station 512 and the waiting-to-be-clamped station 71, the pushing fork bracket 62 is installed on the slider rail pair 63, the upper lid pushing fork 61 is fixed on the pushing fork bracket 62, and the upper lid pushing fork 61 is C-shaped and is in contact with the upper part of the upper lid and both sides of the shoulder portion when in operation. The upper cover pushing cylinder 64 drives the pushing fork bracket 62 to slide on the slide block guide rail pair 63, the upper cover pushing fork 61 is close to the upper part and two sides of the shoulder of the upper cover of the post-turning station 512, pushes the upper cover to the station 71 to be clamped, and then returns before the overturning platform 51 overturns. The C-shaped upper cover pushing fork 61 forms a semi-surrounding shape for the upper cover, so that the upper cover does not deviate in the moving process.

As shown in fig. 10, in order to adapt to the situation that the upper cover parts need to be placed in the upper covers of the circuit breakers with certain specifications, the invention further comprises an upper cover part feeding device 8, wherein the upper cover part feeding device 8 is arranged at one side of the upper cover conveying line 4 and is used for loading the upper cover parts into the upper covers of the upper cover conveying line 4. The upper cover part feeding device 8 comprises an upper cover part vibration disc 81, an upper cover part vibration material channel 82, an upper cover part moving module 83 and a suction nozzle piece 84, wherein the upper cover part vibration disc 81 is used for vibration feeding, an outlet of the upper cover part vibration disc 81 is communicated with the upper cover part vibration material channel 82, and the suction nozzle piece 84 is installed on the upper cover part moving module 83. The upper cover part moving module 83 drives the suction nozzle 84 to move, so as to suck and move the upper cover parts on the upper cover part vibrating channel 82 into the upper cover designated position of the upper cover conveying line 4. The upper cover part is usually an arc striking sheet, and can also be other parts needing to be arranged in the upper cover.

As shown in fig. 5-9, in order to ensure that the upper cover part is surely installed in the upper cover, an upper cover part detecting mechanism for detecting whether the upper cover is installed in the upper cover part is further provided on the to-be-transferred station 511, an upper cover waste collecting bin 54 is further provided in communication with an outlet of the mounting base 513 on the to-be-transferred station 511, an inlet of the upper cover waste collecting bin 54, an outlet of the to-be-transferred station 511 and an outlet of the upper cover conveyor line 4 form a collinear arrangement, and the upper cover part detecting mechanism is further in signal connection with the upper cover turnover mechanism 5 for sending a signal of suspending turning once to the upper cover turnover mechanism 5 when the upper cover part detecting mechanism detects that the upper cover part is installed, and sending a signal of operating turning to the upper cover turnover mechanism 5 when the upper cover part detecting mechanism detects that the upper cover part is installed. The upper cover part detection mechanism is a distance sensor which is aligned with the position of the upper cover part of the station 511 to be rotated. The upper cover part detection mechanism detects whether an upper cover on the station 511 to be turned is loaded with an upper cover part, the detection range does not detect that the upper cover part is not qualified, when the upper cover part is unqualified, a signal is sent to the upper cover turning mechanism 5 to pause and turn once, so that the upper cover is kept in the station 511 to be turned, and because the inlet of the upper cover waste collecting bin 54, the outlet of the station 511 to be turned and the outlet of the upper cover conveying line 4 are positioned on the same straight line, when the next upper cover to be turned enters the station 511 to be turned again, the unqualified upper cover of the station 511 to be turned can be pushed out into the upper cover waste collecting bin 54 in a clockwise manner, and the upper cover part detection mechanism detects the newly pushed upper cover and calculates and sends a signal to the upper cover turning mechanism 5 to turn over or not.

As shown in fig. 11 and 12, the upper cover clamping and covering mechanism 7 includes an XZ-axis upper cover moving module 72 and a material distributing tray 73 located on the to-be-clamped station 71, the material distributing tray 73 is used for placing the turned upper cover on the to-be-clamped station 71, so the material distributing tray 73 contacts the opening of the upper cover, the XZ-axis upper cover moving module 72 can perform lifting and translation movements, so the material distributing tray moves between the to-be-clamped station 71 and the cover closing station 21, a material taking positioning plate 74 is fixedly connected to an output shaft of the XZ-axis upper cover moving module 72, the material taking positioning plate 74 is located above the upper cover and contacts the bottom surface of the upper cover in an attaching manner, material taking guide blocks 75 are respectively and fixedly installed at the positions of the upper part and the lower part of the clamped upper cover by the positioning plate 74, a correction probe 76, a pneumatic clamping jaw 77 and a material removing driving cylinder 78 are fixedly installed on the material taking positioning plate 74, the correction probe 76 is vertically installed and penetrates through a riveting hole 71 in the upper cover to form a fixed position of the In the position, the pneumatic clamping jaws 77 are clamped on two sides of the shoulder part of the upper cover, the stripping driving air cylinder 78 is vertically installed, and the output shaft of the stripping driving air cylinder runs to lower the upper cover after the cover closing moving module 72 operates the cover closing station 21 so as to be used for separating the upper cover from the correcting probe 76. The flipped upper cover is placed into the waiting-to-clamp station 71 between the dispensing tray 73 and the dispensing positioning plate 74. In order to ensure the cover closing accuracy, multi-azimuth positioning or limiting is carried out, the upper part and the lower part of the upper cover are positioned through the material taking guide block 75, the pneumatic clamping jaw 77 clamps the shoulder part of the upper cover for positioning, and the correcting probe 76 is positioned in a mode of penetrating into a riveting hole in the upper cover. After positioning is finished, the upper cover is driven by the XZ-axis upper cover moving module 72 to rise from the station 71 to be clamped firstly, then translate to the position above the cover closing station 21, and then descend to the cover closing station 21 to cover the upper cover to the lower cover; after the cover is closed, the material-removing driving cylinder 78 runs, the output shaft of the material-removing driving cylinder pushes down the upper cover to act, and the correction probe 76 is separated from the upper cover to simultaneously keep the upper cover in a closed original position.

As shown in fig. 13 and 14, the upper cover conveying line 4 includes an upper cover material channel, a material channel support 41, a right-angle gland 42, a plurality of pawls 43, pawl tension springs 44, a ratchet rod 45 and a pawl driving cylinder 46, wherein an upper cover with an upward conveying opening is arranged on the upper cover material channel, the material channel support 41 is arranged at the bottom of the upper cover material channel, the right-angle gland 42 is arranged at the side edge and the top of the upper cover material channel and is fixedly mounted on the material channel support 41, the pawl driving cylinder 46 is fixedly mounted on the material channel support 41, an output shaft of the pawl driving cylinder 46 is linked with the ratchet rod 45, the ratchet rod 45 is slidably arranged on the material channel support 41, the plurality of pawls 43 are mounted on the ratchet rod 45 at intervals, the upper cover is placed at intervals of adjacent pawls 45, a shaft 47 is arranged on the pawls 43, the pawls 43 and the ratchet rod 45 form a rotating fit, and two ends of the pawl tension springs 44 are respectively. The conveying process of the upper cover conveying line 4 comprises the following steps: when the pawl tension spring 44 is in a free state, the pawl 43 protrudes out of the upper cover material channel, so that the pawl 43 can abut against an upper cover in the upper cover material channel in the conveying direction of the material channel, and can specifically contact with the rear part of the shoulder of the upper cover, and after the pawl driving cylinder 46 drives and operates, the pawl 43 is driven to move forward along with the ratchet rod 45, so that the conveying forward of the pawl 43 to the upper cover is formed by a distance equivalent to the size of the upper cover. In the reset stroke of the pawl driving cylinder 46, the pawl 43 moves backwards along with the ratchet rod 45, the pawl 43 is in contact and abutted with the bottom surface of the upper conveying cover in the upper cover material channel to rotate under pressure, the upper conveying cover in the upper cover material channel is kept in position due to the limiting effect of the right-angle gland 42, the pawl tension spring 44 is stressed and stretched until the pawl 43 is separated from the contact with the upper cover, the pawl 43 protrudes out of the upper cover material channel again, and the pawl tension spring 44 is restored to a free state. In the whole cycle process, the pawl 43 is in a 'return' type motion track, the upper cover only moves forward by a distance of one upper cover size after running for one cycle, and the pawl 43 is separated from the contact with the upper cover and then returns to enter the next conveying cycle. The pawl 43 pushes the upper lid forward in the upper lid material path, so as to push the upper lid into the waiting position 511 and push the unqualified upper lid in the waiting position 511 into the lid waste collecting bin 54. The conveying mode is different from a vibration feeding mode, positioning is not needed when the upper cover part is installed, the upper cover part is prevented from loosening in the vibration process, and the conveying mode is also suitable for pushing unqualified products on the position 511 to be rotated.

As shown in fig. 15 and 16, a lower cover switching-on mechanism 22 for performing switching-on operation on a lower cover is arranged on one side of the lower cover conveying line 2, the lower cover switching-on mechanism 22 includes a switching-on lifting cylinder 221, a lifting plate 222, a toggle member 223 and a toggle driving cylinder 224, the switching-on lifting cylinder 221 is vertically installed, an output shaft of the switching-on lifting cylinder is in linkage connection with the lifting plate 222, the toggle driving cylinder 224 is fixedly installed on the lifting plate 222, the toggle member 223 is rotatably connected to the lifting plate 222, and the toggle member 223 is connected to the output shaft of the toggle driving cylinder 224; a toggle bearing seat 225 is fixedly arranged on the lifting plate 222, a toggle rotating shaft 226 penetrates through the toggle bearing seat 225 in a rotating manner, the toggle rotating shaft 226 is in transmission connection with an output shaft of a toggle driving cylinder 224 through a gear rack pair 227, and a toggle piece 223 is in linkage connection with the toggle rotating shaft 225; the toggle part comprises a toggle rod 2231 and a dial 2232, the toggle rod 2231 is located on the edge of the dial 2232, and the dial 2232 is linked with the toggle rotating shaft 226. The closing lifting cylinder 221 drives the lifting plate 222 to move, so that the toggle member 223 approaches to the closing position of the lower cover, then the toggle driving cylinder 224 is in transmission connection through the rack-and-pinion 227 to drive the toggle rotating shaft 226 to rotate, the toggle member 2232 is in linkage rotation with the toggle rotating shaft, and the toggle member 2231 is in contact with and toggles a handle of the lower cover, so that the lower cover is closed.

Whether the installation of the lower cover parts in the lower cover is completely detected before the lower cover is closed is judged, a lower cover visual detection mechanism 23 and a lower cover waste product collection mechanism 24 are further arranged on one side of the lower cover conveying line 2, the lower cover visual detection mechanism 23 and the lower cover waste product collection mechanism 24 are arranged in front of the lower cover closing mechanism 22 in sequence along the conveying direction of the lower cover conveying line 2, a lower cover waste product push-out mechanism 25 is further arranged on the opposite side of the lower cover waste product collection mechanism 24, and the lower cover visual detection mechanism 23 is electrically connected with the lower cover waste product collection mechanism 24 and the lower cover waste product push-out mechanism 25 respectively. When the lower cover visual detection mechanism 23 detects that the internal components of the lower cover are not installed properly, waste signals are sent to the lower cover waste collection mechanism 24 and the lower cover waste pushing mechanism 25 respectively, and the lower cover waste pushing mechanism 25 pushes out the waste to be collected in the lower cover waste collection mechanism 24.

Lower cover waste product collection mechanism 24 opens and close cylinder 243 including lower cover collection feed bin 241, lower cover collection passageway, lower cover bin gate 242 and bin gate, and bin gate opens and closes cylinder 243 is vertical installation and its output shaft and is connected with lower cover bin gate 242 linkage, and lower cover bin gate 242 removes and sets up on lower cover collection passageway in order to open and close lower cover collection passageway, and lower cover collection feed bin 242 is located the rear end of lower cover collection passageway in order to receive the lower cover waste product through lower cover bin gate 242. The lower cover bin gate 242 is normally closed, and when the lower cover visual inspection mechanism 23 detects that the internal components of the lower cover are not properly installed, the lower cover bin gate 242 opens the lower cover collecting channel, and the lower cover waste pushing mechanism 25 pushes waste into the lower cover collecting bin 242.

The lower cover conveying line 2 comprises a lower cover conveying bottom plate 28, a finger cylinder 26 and an XZ-axis lower cover conveying moving module 27, the finger cylinder 26 is fixed on an output shaft of the XZ-axis lower cover conveying moving module 27 to be controlled to move, and a displacement hole 251 for the finger cylinder 26 to move in the output shaft direction is formed in the lower cover conveying bottom plate 28. The conveying process of the lower cover conveying line 2 is that the output shaft of the finger cylinder 26 is firstly opened, the XZ-axis lower cover conveying and moving module 27 drives the output shaft of the finger cylinder 26 to penetrate out from the lower part of the shifting hole, the output shaft of the finger cylinder 26 clamps the upper cover on the lower cover conveying bottom plate 28, and the XZ-axis lower cover conveying and moving module 27 drives the finger cylinder 26 to translate according to the conveying direction. In the whole conveying process of the lower cover conveying line 2, the lower cover firstly passes through the door of the lower cover bin door 242 from the lower part of the lower cover visual detection mechanism 23, then passes through the lower part of the lower cover closing mechanism 22, and finally reaches the cover closing station 21. The lower cover is clamped and conveyed by the finger cylinder 26, the conveying stability is higher, and the parts in the lower cover are prevented from shaking and falling off.

The upper cover feeding device 3 includes an upper cover vibrating tray 31 for vibrating the upper cover with its output opening facing upward to the upper cover conveying line 4.

The lower cover pushing device 11, the lower cover waste pushing mechanism 25 and the cover closing pushing device 9 respectively comprise a pushing head and a pushing head driving cylinder, the pushing head is fixedly arranged on an output shaft of the pushing head driving cylinder, the pushing head driving cylinder is arranged on one side of a position of a product to be pushed out, and the moving direction of the pushing head is the pushing direction of the product.

Claims

1. The utility model provides an automatic rigging equipment that closes of circuit breaker which characterized in that: the device comprises a main conveying line, a lower cover pushing device, an upper cover feeding device, an upper cover conveying line, an upper cover turning mechanism, an upper cover pushing mechanism and an upper cover clamping and covering mechanism;

the initial section of the main conveying line is used for supplying lower covers with upward conveying openings, the lower cover conveying line is communicated with the main conveying line, the lower cover pushing device is arranged on one side of the main conveying line and pushes the lower covers on the main conveying line to the lower cover conveying line, and the lower cover conveying line is provided with a cover closing station for positioning the lower covers;

the upper cover feeding device is arranged at the starting end of the upper cover conveying line and is used for arranging and supplying the upper cover with the upward opening to the upper cover conveying line, the upper cover overturning mechanism comprises a station to be turned and a station to be turned back, the upper cover clamping and covering mechanism comprises a station to be clamped, the station to be turned is located at the tail end outlet of the upper cover conveying line and receives the upper cover, the upper cover overturning mechanism is used for turning the opening of the upper cover upwards to the opening downwards between the station to be turned and the station to be turned back, the upper cover ejecting mechanism is arranged on the upper cover overturning mechanism and is used for ejecting the upper cover of the station to be clamped to the station to be clamped, and the upper cover clamping and covering mechanism is arranged on one side of the lower cover conveying line and is used for clamping the upper cover to be covered on the lower cover of the station to be clamped.

2. The automatic cover closing and assembling device for the circuit breaker according to claim 1, wherein: the upper cover turnover mechanism comprises a turnover table, a turnover central shaft and a turnover driving assembly connected with the turnover table, wherein the turnover central shaft penetrates through and is fixed at the central position of the turnover table, and the turnover central shaft is connected with the turnover driving assembly and is connected with the turnover driving assembly to drive the turnover central shaft to rotate back and forth for 180 degrees around the shaft center; the turnover table comprises two mounting seats with a central included angle of 180 degrees, the station to be turned and the station after turning are positioned on the two mounting seats under the non-turning state of the turnover table, and the two mounting seats are mutually switched between the station to be turned and the station after turning when the turnover table is turned; the mounting base is provided with an inlet, an outlet and a limiting structure for limiting the upper cover in the turning process, the inlet of the mounting base positioned on the to-be-turned station is communicated with the upper cover conveying line so as to input the upper cover into the mounting base, and the inlet and the outlet are arranged along the input direction of the upper cover; the upper cover pushing mechanism is movably arranged between the post-rotation station and the station to be clamped and abuts against the upper cover on the post-rotation station in the moving process, and the station to be clamped is located at an outlet of the post-rotation station.

3. The automatic cover closing and assembling device for the circuit breaker according to claim 2, wherein: the overturning driving assembly comprises an overturning driving cylinder, an overturning bearing seat, an overturning gear and an overturning rack, the overturning central shaft is rotatably installed on the overturning bearing seat, the overturning gear is fixedly sleeved outside the end part of the overturning central shaft, the overturning rack is fixedly connected with an output shaft of the overturning driving cylinder, and the overturning rack is meshed with the overturning gear.

4. The automatic cover closing and assembling device for the circuit breaker according to claim 1 or 2, wherein: the feeding device for the upper cover parts is arranged on one side of the upper cover conveying line and is used for loading the upper cover parts into the upper cover of the upper cover conveying line; the upper cover part feeding device comprises an upper cover part vibrating disc, an upper cover part vibrating material channel, an upper cover part moving module and a suction nozzle piece, wherein an outlet of the upper cover part vibrating disc is communicated with the upper cover part vibrating material channel, the suction nozzle piece is installed on the upper cover part moving module, and the upper cover part moving module drives the suction nozzle piece to suck the upper cover part on the upper cover part vibrating material channel into an upper cover of the upper cover conveying line.

5. The automatic cover closing and assembling device for the circuit breaker according to claim 4, wherein: treat to be provided with on the commentaries on classics station and detect whether the upper cover of waiting to change station upper cover is packed into upper cover part detection mechanism of upper cover part, be located and still communicate and be provided with upper cover waste product collection feed bin in the mount pad exit of waiting to change on the station, the entry of upper cover waste product collection feed bin, the export of waiting to change the station and the export of upper cover transfer chain form the collineation setting, upper cover part detection mechanism still with upper cover tilting mechanism signal connection to send the signal of the once upset of pause when being used for upper cover part detection mechanism to detect not packing into the upper cover part and send the signal of operation upset to give upper cover tilting mechanism and upper cover part detection mechanism when detecting the upper cover part of packing into.

6. The automatic cover closing and assembling device for the circuit breaker according to claim 1 or 2, wherein: the upper cover clamping and covering mechanism comprises an XZ shaft upper cover moving module and a distributing tray positioned on a station to be clamped, the distributing tray is used for placing an upper cover turned over on the station to be clamped, the XZ shaft upper cover moving module is movably arranged between the station to be clamped and a station for covering, a material taking positioning plate is fixedly connected to an output shaft of the XZ shaft upper cover moving module and is in contact with the bottom surface of the upper cover in an attaching manner, material taking guide blocks are respectively and fixedly arranged at the positions of the upper part and the lower part of the clamped upper cover of the material taking positioning plate, a correcting probe, a pneumatic clamping jaw and a material releasing driving cylinder are fixedly arranged on the material taking positioning plate, the correcting probe is vertically arranged and penetrates through a riveting hole in the upper cover of the station to be clamped when the material taking positioning plate moves down to position the upper cover, and the pneumatic clamping jaw is clamped at two sides of the shoulder part of the upper cover, the stripping driving cylinder is vertically installed, and an output shaft of the stripping driving cylinder runs to move down and move the upper cover after the upper cover moving module operates and covers at a cover closing station so as to be used for separating the upper cover from the correction probe.

7. The automatic cover closing and assembling device for the circuit breaker according to claim 1 or 2, wherein: the upper cover conveying line comprises an upper cover material channel, a material channel support, a right-angle gland, a plurality of pawls, pawl tension springs, ratchet rods and pawl driving cylinders, wherein the upper cover with an upward conveying opening is arranged on the upper cover material channel; the pawl driving cylinder is characterized in that the pawl moves forwards along with the ratchet rod in the operation stroke, the pawl tension spring is in a free state, the pawl protrudes out of the upper cover material channel, and the pawl is abutted against the upper cover in the upper cover material channel in the conveying direction of the material channel to form the conveying of the pawl to the upper cover; the pawl driving cylinder is in the stroke that resets, the pawl moves back along with the ratchet rod, the pawl contacts and butts the bottom surface of carrying the upper cover in the upper cover material way and the pressurized rotation, the pawl extension spring atress is tensile, until the pawl breaks away from with the contact of upper cover after, the pawl resets because of the tensile recovery of pawl extension spring.

8. The automatic cover closing and assembling device for the circuit breaker according to claim 1 or 2, wherein: the lower cover switching-on mechanism is arranged on one side of the lower cover conveying line and comprises a switching-on lifting cylinder, a lifting plate, a shifting piece and a shifting driving cylinder, the switching-on lifting cylinder is vertically installed, an output shaft of the switching-on lifting cylinder is in linkage connection with the lifting plate, the shifting driving cylinder is fixedly installed on the lifting plate, the shifting piece is rotatably connected to the lifting plate, and the shifting piece is connected with an output shaft of the shifting driving cylinder; the lifting plate is provided with a shifting bearing seat, a shifting rotating shaft penetrates through the shifting bearing seat in a rotating mode, the shifting rotating shaft is in transmission connection with an output shaft of a shifting driving cylinder through a gear rack pair, and the shifting piece is in linkage connection with the shifting rotating shaft; the poking piece comprises a poking rod and a driving plate, the poking rod is positioned on the edge of the poking plate, and the driving plate is in linkage connection with the poking rotating shaft.

9. The automatic cover closing and assembling device for the circuit breaker according to claim 8, wherein: the automatic feeding device is characterized in that a lower cover visual detection mechanism and a lower cover waste product collection mechanism are further arranged on one side of the lower cover conveying line, the lower cover visual detection mechanism and the lower cover waste product collection mechanism are sequentially arranged in front of a lower cover switching-on mechanism according to the conveying direction of the lower cover conveying line, a lower cover waste product ejecting mechanism is further arranged on the opposite side of the lower cover waste product collection mechanism, the lower cover visual detection mechanism is electrically connected with the lower cover waste product collection mechanism and the lower cover waste product ejecting mechanism respectively, and when the lower cover visual detection mechanism detects that the installation of the inner part of the lower cover is unqualified, a waste signal is sent to the lower cover waste product collection mechanism and the lower cover waste product ejecting mechanism to control the lower cover waste product ejecting mechanism to eject waste products into the.

10. The automatic cover closing and assembling device for the circuit breaker according to claim 1 or 2, wherein: the cover closing and pushing device is arranged on one side of the lower cover conveying line and pushes finished products which are closed on the lower cover conveying line to the main conveying line.