CN110523859A - SFP network communication connector shell automatic riveting device and production and assembly technique - Google Patents

Abstract

It includes organic frame, upper and lower covers combination unit, middle partition bottom riveting device, interval piece tail portion riveting device, turnover device, detection device, the first discharging device and the second discharging device that the present invention, which discloses a kind of SFP network communication connector shell automatic riveting device and production and assembly technique, the equipment,；By cooperating the upper and lower covers using automatic riveting device to combine the unit, middle partition bottom riveting device, interval piece tail portion riveting device, turnover device, detection device, first discharging device, second discharging device and each conveying robot, automatically cover assembly and lower cover component can be combined automatically, riveted, overturning, detection and discharging, high degree of automation, effectively reduce manpower consuming, it greatly improves work efficiency, and product quality is guaranteed, the mass production of multiplex roles formula SFP network communication connector shell high quality high stable can be achieved in the present invention, more benefits are brought for manufacturing enterprise.

Description

SFP network communication connector shell automatic riveting device and production and assembly technique

Technical field

The present invention relates to connector production field technologies, refer in particular to a kind of automatic riveting of SFP network communication connector shell Connect equipment and production and assembly technique.

Background technique

In data communication and telecom communication route, the corresponding interface seat grafting in SFP module and communication system assemble with Realize signal communication.Small plug-type light emitting/telecommunication transceiver module (Small Form-Factor Pluggable, abridge SFP) It is a kind of common optical electrical transceiver communication module, which has hot plug, replacement convenient for safeguarding, small and exquisite feature, for reality The now quickly hot plug of above-mentioned SFP module, it will usually SFP network communication connector structure be set for SFP module, so that referring to can The function of realizing fast fastening between the corresponding interface seat on communication system, quickly unbutton connection.

With the continuous improvement of device integration, need to install interface type SFP network communication connection in many equipment at present Device has at least two interfaces on this connector, and to meet the use demand of user, the shielding shell of this connector is usual It include the components such as lower cover, upper cover, middle partition and elastic slice, however, in the prior art, these components are usually using artificial auxiliary Various devices are helped to complete, the degree of automation is low, low efficiency, time and effort consuming, and product quality cannot be guaranteed.

Summary of the invention

In view of this, in view of the deficiencies of the prior art, the present invention aims to provide a kind of SFP network communications It is complete to can effectively solve the existing various devices of use human assistance for connector shell automatic riveting device and production and assembly technique There is low efficiency, labor intensive in the mode at shielding shell assembling.

To achieve the above object, the present invention is using following technical solution:

A kind of SFP network communication connector shell automatic riveting device, including organic frame, upper and lower covers combination unit, middle partition bottom Portion's riveting device, interval piece tail portion riveting device, turnover device, detection device, the first discharging device and the second discharging device； There is workbench, the lower section of workbench has control cabinet in the rack；Upper and lower covers combination unit, middle partition bottom riveted dress It sets, interval piece tail portion riveting device, turnover device and detection device are successively arranged at intervals on workbench and connect with control cabinet It connects；First discharging device and the second discharging device are all set in the outside on workbench and being located at detection device, the first discharging Device and the second discharging device are connect with control cabinet；Upper and lower covers combination unit front side is other, middle partition bottom riveting device Front side by and the front side of interval piece tail portion riveting device by be provided with the first conveying robot for clamping cover assembly, Each first conveying robot all has clamping jaw device and connect with control cabinet, and upper and lower covers combination unit rear side by, detection The second conveying robot for lower cover component to be sucked is provided with by the front side of device, each second conveying robot all has suction Mouth device is simultaneously connect with control cabinet.

As a preferred embodiment, upper and lower covers combination unit include support base, it is left movable block, right movable block, preceding Movable block and rear movable block, the left movable block, right movable block, preceding movable block and rear movable block are actively set to support base respectively Left side, right side, front side and rear side, left movable block, right movable block, preceding movable block and rear movable block are respectively by corresponding driving machine Structure drives the center close to or far from support base.

As a preferred embodiment, the middle partition bottom riveting device includes the first lower die and the first upper mold；This One lower die can be set on workbench to fore-aft travel, and the first lower die drives front and back movable back and forth by the first driving mechanism, this One upper mold is fitted to each other with the first lower die, and the first upper mold can be arranged on workbench up and downly, and the first upper mold is by the second driving Mechanism drives movable back and forth up and down.

As a preferred embodiment, interval piece tail portion riveting device includes the second lower die and the second upper mold；This Two lower dies can be set on workbench to fore-aft travel, and the second lower die drives front and back movable back and forth by third driving mechanism, this Two upper molds are fitted to each other with the second lower die, and the second upper mold can be arranged on workbench up and downly, and the second upper mold is by the 4th driving Mechanism drives movable back and forth up and down.

As a preferred embodiment, the turnover device includes pedestal, allocation mechanism, rotating seat and rotary cylinder；It should Pedestal has blow tank, which is set to by the side of blow tank, which can be rotatably arranged in blow tank back and forth One end above, the upper and lower surface of rotating seat all has product placement position, which is set on pedestal and drives rotation Seat carrys out back rotation.

As a preferred embodiment, the detection device includes fixing seat, sliding seat, detection pressing plate and detection sensing Device；The fixing seat is fixed on the table, which can control actively is set in fixing seat back and forth, and sliding seat is by the 5th Driving mechanism drives and left and right is movable back and forth, the detection pressing plate can front and back be actively set to the top of sliding seat, detection back and forth Pressing plate is driven by the 6th driving mechanism and front and back is movable back and forth, which is fixed in fixing seat and is suspended from detection pressing plate Top.

As a preferred embodiment, first discharging device and the second discharging device are belt type conveyer structure, should The conveying direction of first discharging device and the second discharging device is orthogonal.

As a preferred embodiment, the clamping jaw device includes mounting base, cylinder and two clamping jaws, is opened up in the mounting base There is mounting hole, the bottom surface of mounting base, which is extended, there are multiple positioning columns, which is set in mounting base, which can open each other It is set in mounting hole with closing, cylinder drives two clamping jaws to open and close each other.

A kind of production and assembly technique of SFP network communication connector shell, comprising the following steps:

(1) elastic slice is gone out by the punch forming of elastic slice stamping die mechanism, under the action of the first transport mechanism, elastic slice and its material strip transmission In to elastic slice mould in riveting mechanism, at the same time, middle partition is gone out by middle partition stamping mould machine structure punch forming, in the second conveyer Under the action of structure, middle partition and its material strip are sent in elastic slice mould in riveting mechanism；

(2) by riveting mechanism work in elastic slice mould by elastic slice riveted in interval on piece, and centering partition carries out bending and molding and structure At middle spacer element, under the action of the second transport mechanism, middle spacer element and its material strip are sent to riveting in middle partition assembly mould It closes in mechanism；At the same time, lower cover is gone out by the punch forming of lower cover stamping die mechanism, under the action of third transport mechanism, lower cover And its material strip is sent in middle partition assembly mould in riveting mechanism；

(3) middle spacer element riveted is formed into lower cover component on lower lid by riveting mechanism work in middle partition assembly mould, then Lower cover component is sent into aforementioned SFP network communication connector shell automatic riveting device；At the same time, by upper cover stamping mould machine Structure punch forming goes out upper cover, and forms cover assembly after the corresponding elastic slice of riveted, then send cover assembly to aforementioned SFP network In communications connectors shell automatic riveting device；

(4) in SFP network communication connector shell automatic riveting device, firstly, by corresponding second conveying robot will under Cap assemblies are picked up and are put into upper and lower covers combination unit, then, are picked up cover assembly simultaneously by corresponding first conveying robot It is put into upper and lower covers combination unit, so that cover assembly is placed in lower cover component, then combining the unit work by upper and lower covers will be upper Cap assemblies and lower cover component are combined；

(5) after cover assembly and lower cover component are combined, cover assembly is clamped by corresponding first conveying robot, so that The cover assembly and lower cover component combined combine the unit in immigration in the riveting device of partition bottom from upper and lower covers, then, The bottom of middle partition bottom riveting device work centering partition carries out stake-fastening on lower lid；

(6) cover assembly is clamped by corresponding first conveying robot, so that completing the cover assembly and lower cover of first time riveted Therefrom partition bottom riveting device moves into the riveting device of interval piece tail portion component, then, the work of interval piece tail portion riveting device The tail portion of centering partition carries out stake-fastening on upper lid；

(7) cover assembly is clamped by corresponding first conveying robot, so that completing the cover assembly and lower cover of second of riveted Therefrom partition tail portion riveting device moves into turnover device component, and then, turnover device work carries out 180 ° of overturning to product, makes Obtain lower cover component upward；

(8) lower cover component is sucked by corresponding second conveying robot so that complete riveted cover assembly and lower cover component from Turnover device moves into detection device, it is then detected that device works to product testing, to judge whether riveted assembling is qualified；

(9) if product is qualified, lower cover component is sucked by corresponding second conveying robot, so that product moves into the by detection device One discharging device is simultaneously exported by the first discharging device, if product is unqualified, lower cover group is sucked by corresponding second conveying robot Part, so that product is moved into the second discharging device by detection device and exported by the second discharging device.

The present invention has obvious advantages and beneficial effects compared with the existing technology, specifically, by above-mentioned technical proposal Known to:

Upper and lower covers combination unit, the middle partition bottom riveting device, the tail portion riveting of interval piece of automatic riveting device are utilized by cooperating Attach together set, turnover device, detection device, the first discharging device, the second discharging device and each conveying robot, can be automatic right Cover assembly and lower cover component combined automatically, riveted, overturning, detection and discharging, various instead of the human assistance of tradition The mode that device is completed, high degree of automation effectively reduce manpower consuming, greatly improve work efficiency, and make product Quality is guaranteed, and the high-volume that multiplex roles formula SFP network communication connector shell high quality high stable can be achieved in the present invention is raw It produces, brings more benefits for manufacturing enterprise.

In order to explain the structural features and functions of the invention more clearly, come with reference to the accompanying drawing with specific embodiment to this hair It is bright to be described in detail.

Detailed description of the invention

Fig. 1 is the assembling schematic perspective view of the preferred embodiments of the invention；

Fig. 2 is the assembling schematic perspective view of another angle of the preferred embodiments of the invention；

Fig. 3 is the enlarged diagram that upper and lower covers combine the unit in the preferred embodiments of the invention；

Fig. 4 is the enlarged diagram of middle partition bottom riveting device in the preferred embodiments of the invention；

Fig. 5 is the enlarged diagram of interval piece tail portion riveting device in the preferred embodiments of the invention；

Fig. 6 is the enlarged diagram of turnover device in the preferred embodiments of the invention；

Fig. 7 is the enlarged diagram of another angle of turnover device in the preferred embodiments of the invention；

Fig. 8 is the enlarged diagram of detection device in the preferred embodiments of the invention；

Fig. 9 is the enlarged diagram of clamping jaw device in the preferred embodiments of the invention；

Figure 10 is another angle enlargement schematic diagram of clamping jaw device in the preferred embodiments of the invention；

Figure 11 is the stereoscopic schematic diagram before upper cover does not combine with lower cover in the preferred embodiments of the invention；

Figure 12 is the stereoscopic schematic diagram in the preferred embodiments of the invention after upper cover and lower cover combination.

Description of drawing identification:

10, rack 11, workbench

12, control cabinet 20, upper and lower covers combination unit

21, support base 22, left movable block

23, right movable block 24, preceding movable block

25, rear movable block 26, driving mechanism

30, middle partition bottom riveting device 31, the first lower die

32, the first upper mold 33, the first driving mechanism

34, the second driving mechanism 40, interval piece tail portion riveting device

41, the second lower die 42, the second upper mold

43, third driving mechanism 44, the 4th driving mechanism

50, turnover device 51, pedestal

52, allocation mechanism 53, rotating seat

54, rotary cylinder 501, blow tank

502, product disposes position 60, detection device

61, fixing seat 62, sliding seat

63, pressing plate 64, detection sensor are detected

65, the 5th driving mechanism 66, the 6th driving mechanism

70, the first discharging device 80, the second discharging device

91, lower cover component 92, cover assembly

901, elastic slice 902, middle partition

903, lower cover 904, upper cover

905, elastic slice 10 ', the first conveying robot

11 ', clamping jaw device 111 ', mounting base

112 ', cylinder 113 ', clamping jaw

101, mounting hole 102, positioning column

20 ', second conveying robot 21 ', nozzle unit.

Specific embodiment

It please refers to shown in Fig. 1 to Figure 12, that show a kind of SFP network communication connectors of the preferred embodiments of the invention The specific structure of shell automatic riveting device, including organic frame 10, upper and lower covers combine the unit 20, middle partition bottom riveting device 30, interval piece tail portion riveting device 40, turnover device 50, detection device 60, the first discharging device 70 and the second discharging device 80。

There is workbench 11, the lower section of workbench 11 has control cabinet 12 in the rack 10；Upper and lower covers combination unit 20, Middle partition bottom riveting device 30, interval piece tail portion riveting device 40, turnover device 50 and detection device 60 are successively spaced setting It is connect on workbench 11 and with control cabinet 12, specifically:

As shown in figure 3, the upper and lower covers combination unit 20 includes support base 21, left movable block 22, right movable block 23, preceding activity Block 24 and rear movable block 25, left movable block 22, right movable block 23, preceding movable block 24 and the rear movable block 25 are actively arranged respectively In the left side of support base 21, right side, front side and rear side, left movable block 22, right movable block 23, preceding movable block 24 and rear movable block 25 The center close to or far from support base 21 is driven by corresponding driving mechanism 26 respectively, driving mechanism 26 is cylinder, when combination, under Cap assemblies 91 and cover assembly 92 are successively superimposed on support base 21.

As shown in figure 4, the middle partition bottom riveting device 30 includes the first lower die 31 and the first upper mold 32；This first Lower die 31 can be set to fore-aft travel on workbench 11, and the first lower die 31 drives front and back to live back and forth by the first driving mechanism 33 Dynamic, which is fitted to each other with the first lower die 31, and the first upper mold 32 can be arranged up and downly on workbench 11, and first It is movable back and forth up and down that upper mold 32 is driven by the second driving mechanism 34, in the present embodiment, the first driving mechanism 33 and the second driving Mechanism 34 is cylinder.

As shown in figure 5, interval piece tail portion riveting device 40 includes the second lower die 41 and the second upper mold 42；This second Lower die 41 can be set to fore-aft travel on workbench 11, and the second lower die 41 drives front and back to live back and forth by third driving mechanism 43 Dynamic, which is fitted to each other with the second lower die 41, and the second upper mold 42 can be arranged up and downly on workbench 11, and second It is movable back and forth up and down that upper mold 42 is driven by the 4th driving mechanism 44, in the present embodiment, third driving mechanism 43 and the 4th driving Mechanism 44 is cylinder.

As shown in Figure 6 and Figure 7, the turnover device 50 includes pedestal 51, allocation mechanism 52, rotating seat 53 and rotary pneumatic Cylinder 54；The pedestal 51 has blow tank 501, which is set to by the side of blow tank 501, which can be back and forth It is rotatably arranged in above one end of blow tank 501, the upper and lower surface of rotating seat 53 all has product placement position 502, the rotation Cylinder 54 is set on pedestal 51 and rotating seat 53 is driven to carry out back rotation.

As shown in figure 8, the detection device 60 includes fixing seat 61, sliding seat 62, detection pressing plate 63 and detection sensing Device 64；The fixing seat 61 is fixed on workbench 11, which can control actively is set in fixing seat 61 back and forth, living Dynamic seat 62 is driven by the 5th driving mechanism 65 and left and right is movable back and forth, the detection pressing plate 63 can before and after be actively set to work back and forth The top of dynamic seat 62, detection pressing plate 63 is driven by the 6th driving mechanism 66 and front and back is movable back and forth, and the detection sensor 64 is fixed In in fixing seat 61 and be suspended from detection pressing plate 63 top, in the present embodiment, the 5th driving mechanism 65 and the 6th driving mechanism 66 be cylinder.

First discharging device 70 and the second discharging device 80 are all set on workbench 11 and are located at detection device 60 Outside, the first discharging device 70 and the second discharging device 80 are connect with control cabinet 12, the first discharging device 70 and the second discharging Device 80 is respectively used to output qualified products and substandard product；In the present embodiment, first discharging device 70 and second Discharging device 80 is belt type conveyer structure, and the conveying direction of first discharging device 70 and the second discharging device 80 hangs down mutually Directly.

The front side of upper and lower covers combination unit 20 is other, by front side of middle partition bottom riveting device 30 and the tail portion riveting of interval piece Attach together the first conveying robot 10 ' set and be provided with by 40 front side for clamping cover assembly 92, each first handling machinery Hand 10 ' all has clamping jaw device 11 ' and connect with control cabinet 12, and upper and lower covers combination unit 20 rear side by, detection device The second conveying robot 20 ' for lower cover component 91 to be sucked is provided with by 60 front side, each second conveying robot 20 ' is It is connect with nozzle unit 21 ' and with control cabinet 12.

Specifically, as shown in Figure 9 and Figure 10, the clamping jaw device 11 ' includes mounting base 111 ', cylinder 112 ' and two Clamping jaw 113 ', the mounting base 111 ' above offer mounting hole 101, and the bottom surface of mounting base 111 ', which is extended, multiple positioning columns 102, The cylinder 112 ' is set in mounting base 111 ', which can be opened and closed to be set in mounting hole 101 each other, cylinder 112 ' two clamping jaws 113 ' of drive open and close each other.

The invention also discloses a kind of production and assembly techniques of SFP network communication connector shell, comprising the following steps:

(1) elastic slice 901 is gone out by the punch forming of elastic slice stamping die mechanism, under the action of the first transport mechanism, elastic slice 901 and its material Band is sent in elastic slice mould in riveting mechanism, at the same time, goes out middle partition 902, In by middle partition stamping mould machine structure punch forming Under the action of second transport mechanism, middle partition 902 and its material strip are sent in elastic slice mould in riveting mechanism.

(2) it is worked by 901 riveted of elastic slice on middle partition 902 by riveting mechanism in elastic slice mould, and centering partition 902 carries out Bending and molding and spacer element in constituting, under the action of the second transport mechanism, middle spacer element and its material strip are sent to interval In piece assembly mould in riveting mechanism；At the same time, lower cover 903 is gone out by the punch forming of lower cover stamping die mechanism, in third conveyer Under the action of structure, lower cover 903 and its material strip are sent in middle partition assembly mould in riveting mechanism.

(3) middle spacer element riveted is formed into lower cover group on lower cover 903 by riveting mechanism work in middle partition assembly mould Then part 91 send lower cover component 91 into aforementioned SFP network communication connector shell automatic riveting device；At the same time, by The punch forming of upper cover stamping die mechanism goes out upper cover 904, and cover assembly 92 is formed after the corresponding elastic slice 905 of riveted, then will be upper Cap assemblies 92 are sent into aforementioned SFP network communication connector shell automatic riveting device.

(4) in SFP network communication connector shell automatic riveting device, firstly, by corresponding second conveying robot Lower cover component 91 is picked up and is put into upper and lower covers combination unit 20 by 20 ', then, will by corresponding first conveying robot 10 ' Cover assembly 92 is picked up and is put into upper and lower covers combination unit 20 so that cover assembly 92 is placed in lower cover component 91, then by Cover assembly 92 and lower cover component 91 are combined in 20 work of upper and lower covers combination unit.

(5) it after cover assembly 92 and lower cover component 91 are combined, is clamped by corresponding first conveying robot 10 ' Cap assemblies 92, so that the cover assembly 92 and lower cover component 91 combined the partition bottom from 20 immigration of upper and lower covers combination unit In portion's riveting device 30, then, the bottom of the work centering partition 902 of middle partition bottom riveting device 30 carries out stake-fastening under On lid 903.

(6) cover assembly 92 is clamped by corresponding first conveying robot 10 ', so that completing the upper cover group of first time riveted Therefrom partition bottom riveting device 30 moves into interval piece tail portion riveting device 40 for part 92 and lower cover component 91, then, middle partition The tail portion of the work centering partition 902 of tail portion riveting device 40 carries out stake-fastening in upper cover 904.

(7) cover assembly 92 is clamped by corresponding first conveying robot 10 ', so that completing the upper cover group of second of riveted Therefrom partition tail portion riveting device 40 moves into turnover device 50 for part 92 and lower cover component 91, then, the work pair of turnover device 50 Product carries out 180 ° of overturning, so that lower cover component 91 is upward.

(8) lower cover component 91 is sucked by corresponding second conveying robot 20 ', so that completing 92 He of cover assembly of riveted Lower cover component 91 moves into detection device 60 from turnover device 50, it is then detected that device 60 works to product testing, to judge riveting Whether qualified it is combined dress.

(9) if product is qualified, lower cover component 91 is sucked by corresponding second conveying robot 20 ', so that product is by detecting Device 60 moves into the first discharging device 70 and is exported by the first discharging device 70, if product is unqualified, is carried by corresponding second Lower cover component 91 is sucked in manipulator 20 ', so that product is moved into the second discharging device 80 by detection device 60 and filled by the second discharging Set 80 outputs.

Design focal point of the invention is: by cooperating upper and lower covers combination unit, middle partition using automatic riveting device Bottom riveting device, interval piece tail portion riveting device, turnover device, detection device, the first discharging device, the second discharging device with And each conveying robot, cover assembly and lower cover component can be combined automatically automatically, riveted, overturning, detection and discharging, Instead of the mode that the various devices of human assistance of tradition are completed, high degree of automation effectively reduces manpower consuming, mentions significantly High working efficiency, and product quality is guaranteed, multiplex roles formula SFP network communication connector shell can be achieved in the present invention The mass production of high quality high stable brings more benefits for manufacturing enterprise.

The above described is only a preferred embodiment of the present invention, be not intended to limit the scope of the present invention, Therefore any subtle modifications, equivalent variations and modifications to the above embodiments according to the technical essence of the invention, still Belong in the range of technical solution of the present invention.

Claims (9)

1. a kind of SFP network communication connector shell automatic riveting device, it is characterised in that: combined including organic frame, upper and lower covers Device, middle partition bottom riveting device, interval piece tail portion riveting device, turnover device, detection device, the first discharging device and Second discharging device；There is workbench, the lower section of workbench has control cabinet in the rack；Upper and lower covers combination unit, interval Piece bottom riveting device, interval piece tail portion riveting device, turnover device and detection device are successively arranged at intervals on workbench simultaneously It is connect with control cabinet；First discharging device and the second discharging device are all set on workbench and are located at the outer of detection device Side, the first discharging device and the second discharging device are connect with control cabinet；The front side of upper and lower covers combination unit is other, middle partition bottom First for clamping cover assembly is provided with by the front side of portion's riveting device and by the front side of interval piece tail portion riveting device Conveying robot, each first conveying robot all have clamping jaw device and connect with control cabinet, and upper and lower covers combination unit The second conveying robot for lower cover component to be sucked, each second carrying implement are provided with by rear side, by the front side of detection device Tool hand all has nozzle unit and connect with control cabinet.

2. SFP network communication connector shell automatic riveting device according to claim 1, it is characterised in that: on described Lower cover combination unit includes support base, left movable block, right movable block, preceding movable block and rear movable block, the left movable block, right work Motion block, preceding movable block and rear movable block are actively set to left side, right side, front side and the rear side of support base respectively, left movable block, Right movable block, preceding movable block and rear movable block are driven the center close to or far from support base by corresponding driving mechanism respectively.

3. SFP network communication connector shell automatic riveting device according to claim 1, it is characterised in that: in described Partition bottom riveting device includes the first lower die and the first upper mold；First lower die can be set to workbench to fore-aft travel On, the first lower die drives front and back movable back and forth by the first driving mechanism, which is fitted to each other with the first lower die, on first Mould can be arranged on workbench up and downly, and it is movable back and forth up and down that the first upper mold is driven by the second driving mechanism.

4. SFP network communication connector shell automatic riveting device according to claim 1, it is characterised in that: in described Partition tail portion riveting device includes the second lower die and the second upper mold；Second lower die can be set to workbench to fore-aft travel On, the second lower die drives front and back movable back and forth by third driving mechanism, which is fitted to each other with the second lower die, on second Mould can be arranged on workbench up and downly, and it is movable back and forth up and down that the second upper mold is driven by the 4th driving mechanism.

5. SFP network communication connector shell automatic riveting device according to claim 1, it is characterised in that: described to turn over Rotary device includes pedestal, allocation mechanism, rotating seat and rotary cylinder；The pedestal has blow tank, which is set to By the side of blow tank, which can be rotatably arranged in back and forth above one end of blow tank, and the upper and lower surface of rotating seat has There is product to dispose position, which is set on pedestal and rotating seat is driven to carry out back rotation.

6. SFP network communication connector shell automatic riveting device according to claim 1, it is characterised in that: the inspection Surveying device includes fixing seat, sliding seat, detection pressing plate and detection sensor；The fixing seat is fixed on the table, the activity Seat can control actively to be set in fixing seat back and forth, and sliding seat is driven by the 5th driving mechanism and left and right is movable back and forth, the inspection Survey pressing plate can front and back be actively set to the top of sliding seat back and forth, detection pressing plate by the 6th driving mechanism drive and front and back back and forth Activity, the detection sensor are fixed in fixing seat and are suspended from the top of detection pressing plate.

7. SFP network communication connector shell automatic riveting device according to claim 1, it is characterised in that: described One discharging device and the second discharging device are belt type conveyer structure, the conveying of first discharging device and the second discharging device Direction is orthogonal.

8. SFP network communication connector shell automatic riveting device according to claim 1, it is characterised in that: the folder Jaw arrangement includes mounting base, cylinder and two clamping jaws, offers mounting hole in the mounting base, the bottom surface of mounting base extend have it is more A positioning column, the cylinder are set in mounting base, which can be opened and closed to be set in mounting hole each other, and cylinder drives two folders Pawl opens and closes each other.

9. a kind of production and assembly technique of SFP network communication connector shell, it is characterised in that: the following steps are included:

(1) elastic slice is gone out by the punch forming of elastic slice stamping die mechanism, under the action of the first transport mechanism, elastic slice and its material strip transmission In to elastic slice mould in riveting mechanism, at the same time, middle partition is gone out by middle partition stamping mould machine structure punch forming, in the second conveyer Under the action of structure, middle partition and its material strip are sent in elastic slice mould in riveting mechanism；

(2) by riveting mechanism work in elastic slice mould by elastic slice riveted in interval on piece, and centering partition carries out bending and molding and structure At middle spacer element, under the action of the second transport mechanism, middle spacer element and its material strip are sent to riveting in middle partition assembly mould It closes in mechanism；At the same time, lower cover is gone out by the punch forming of lower cover stamping die mechanism, under the action of third transport mechanism, lower cover And its material strip is sent in middle partition assembly mould in riveting mechanism；

(3) middle spacer element riveted is formed into lower cover component on lower lid by riveting mechanism work in middle partition assembly mould, then Lower cover component is sent into SFP network communication connector shell automatic riveting device as claimed in any one of claims 1 to 8； At the same time, upper cover is gone out by the punch forming of upper cover stamping die mechanism, and forms cover assembly after the corresponding elastic slice of riveted, then will Cover assembly is sent into SFP network communication connector shell automatic riveting device as claimed in any one of claims 1 to 8；

(4) in SFP network communication connector shell automatic riveting device, firstly, by corresponding second conveying robot will under Cap assemblies are picked up and are put into upper and lower covers combination unit, then, are picked up cover assembly simultaneously by corresponding first conveying robot It is put into upper and lower covers combination unit, so that cover assembly is placed in lower cover component, then combining the unit work by upper and lower covers will be upper Cap assemblies and lower cover component are combined；

(5) after cover assembly and lower cover component are combined, cover assembly is clamped by corresponding first conveying robot, so that The cover assembly and lower cover component combined combine the unit in immigration in the riveting device of partition bottom from upper and lower covers, then, The bottom of middle partition bottom riveting device work centering partition carries out stake-fastening on lower lid；

(6) cover assembly is clamped by corresponding first conveying robot, so that completing the cover assembly and lower cover of first time riveted Therefrom partition bottom riveting device moves into the riveting device of interval piece tail portion component, then, the work of interval piece tail portion riveting device The tail portion of centering partition carries out stake-fastening on upper lid；

(7) cover assembly is clamped by corresponding first conveying robot, so that completing the cover assembly and lower cover of second of riveted Therefrom partition tail portion riveting device moves into turnover device component, and then, turnover device work carries out 180 ° of overturning to product, makes Obtain lower cover component upward；

(8) lower cover component is sucked by corresponding second conveying robot so that complete riveted cover assembly and lower cover component from Turnover device moves into detection device, it is then detected that device works to product testing, to judge whether riveted assembling is qualified；

(9) if product is qualified, lower cover component is sucked by corresponding second conveying robot, so that product moves into the by detection device One discharging device is simultaneously exported by the first discharging device, if product is unqualified, lower cover group is sucked by corresponding second conveying robot Part, so that product is moved into the second discharging device by detection device and exported by the second discharging device.