CN211789952U

CN211789952U - Spring and small rubber core assembling mechanism for assembling SD card connector

Info

Publication number: CN211789952U
Application number: CN202020727271.8U
Authority: CN
Inventors: 周家烨
Original assignee: Dongguan Kesheng Electronics Co ltd
Current assignee: Dongguan Kesheng Electronics Co ltd
Priority date: 2020-05-06
Filing date: 2020-05-06
Publication date: 2020-10-27
Anticipated expiration: 2030-05-06

Abstract

The utility model discloses a spring and little gluey core equipment assembly devices for SD card connector equipment, which comprises a supporting fram, the support frame facial make-up is equipped with the little gluey core material loading subassembly that is used for gluing little gluey core material loading, is used for the spring material loading subassembly with spring material loading, is used for gluing little gluey core and spring transport to the rotatory little gluey core assembly subassembly that pushes away on the material subassembly, is used for gluing little gluey core and spring and will assemble the spring of accomplishing and glue the rotatory material subassembly that pushes away in the place ahead of core to the processing station with little and be used for pressing from rotatory material subassembly clamp to get the spring of accomplishing and glue little gluey core and carry to the clamp of carrying out the equipment on the processing station and get the material loading subassembly. The utility model discloses an automatic assembly material loading of spring and little gluey core effectively improves production efficiency, reduces labour's consumption.

Description

Spring and small rubber core assembling mechanism for assembling SD card connector

Technical Field

The utility model relates to an automatic change kludge field, in particular to a spring and little gluey core equipment assembly devices for SD card connector equipment.

Background

In the field of electronic devices, an SD card is a very small flash memory card, and is widely used in various mainstream mobile phones and other portable digital devices, and an SD card connector is used to connect the SD card with the mobile phones or the digital devices. The SD card connector comprises a semi-finished plastic shell, a spring, a small rubber core, a hook pin and an iron shell.

The spring and the small rubber core in the existing SD card connector are mostly assembled manually, so that the production efficiency is low, the labor consumption is high, the production quality cannot be guaranteed, and the production requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem to the defect that exists among the above-mentioned prior art, provide a spring and little gluey core equipment assembly devices for SD card connector equipment to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model discloses the technical scheme who takes as follows: the utility model provides a spring and little gluey core equipment assembly devices for SD card connector equipment, includes the support frame, the support frame facial make-up is equipped with the little gluey core material loading subassembly that is used for gluing the core transport material loading for a short time, is used for the spring material loading subassembly with the spring transport material loading, is used for gluing core and spring transport to the rotatory little gluey core assembly subassembly that pushes away on the material subassembly for a short time, is used for gluing core and spring for a short time and assembling the spring of accomplishing and gluing the rotatory material subassembly that pushes away in the place ahead of processing station of core and being used for pressing from both sides the rotatory material subassembly that pushes away the spring of accomplishing and glue core and the little gluey core of pushing away and carry out the clamp of equipment and get the material loading.

As a further elaboration of the above technical solution:

in the technical scheme, the small rubber core feeding assembly comprises a feeding vibration disc, a feeding placing table, a first deviation rectifying assembly, a second deviation rectifying assembly and a third deviation rectifying assembly, wherein the feeding vibration disc and the feeding placing table are both arranged on a supporting frame, the feeding placing table is provided with a feeding station, the first deviation rectifying assembly Y is arranged on the feeding placing table in a Y direction, the second deviation rectifying assembly X is arranged on the feeding placing table in a X direction, and the third deviation rectifying assembly Z is arranged on the feeding placing table.

In the technical scheme, the first deviation rectifying assembly, the second deviation rectifying assembly and the third deviation rectifying assembly respectively comprise a deviation rectifying tongue block and a deviation rectifying driving cylinder, the deviation rectifying tongue block is arranged on the feeding placing table along the X direction/Y direction/Z direction, and the deviation rectifying driving cylinder is arranged below the feeding placing table and is in transmission connection with the deviation rectifying tongue block, so that the deviation rectifying tongue block is driven to move along the X direction/Y direction/Z direction to rectify and position the small rubber core conveyed to the feeding station.

In the technical scheme, the small rubber core assembly of the spring comprises a first transverse moving assembly, a first longitudinal moving assembly and a first clamping assembly, the first transverse moving assembly is arranged on the support frame, the first longitudinal moving assembly is arranged on the first transverse moving assembly, the first clamping assembly is arranged on the first longitudinal moving assembly, and the small rubber core and the spring are sequentially conveyed to the rotary pushing assembly after the small rubber core and the spring are sequentially clamped on the first longitudinal moving assembly.

In the above technical scheme, first lateral shifting subassembly includes first mounting panel, horizontal slider, horizontal slide rail, transversely drives actuating cylinder and second mounting panel, first mounting panel is installed on the support frame, horizontal slider with transversely drive actuating cylinder and all install on the first mounting panel, horizontal slide rail with horizontal slider sliding connection, the second mounting panel with horizontal slider fixed connection, transversely drive actuating cylinder with second mounting panel fixed connection, thereby the drive the lateral motion of second mounting panel.

In the above technical scheme, the first longitudinal movement assembly comprises a longitudinal sliding plate, a longitudinal sliding block and a longitudinal driving cylinder, the longitudinal sliding plate and the longitudinal driving cylinder are both arranged on the second mounting plate, the longitudinal sliding block is connected with the longitudinal sliding plate in a sliding manner, and the longitudinal driving cylinder is connected with the longitudinal sliding block in a transmission manner so as to drive the longitudinal sliding block to move up and down.

In the technical scheme, the first clamping assembly comprises a clamping cylinder and a clamping jaw, the clamping cylinder is mounted on the longitudinal sliding block, the clamping jaw is mounted at the lower end of the clamping cylinder, the clamping cylinder is in transmission connection with the clamping jaw, and therefore the clamping jaw is driven to open or contract.

In the above technical scheme, rotatory material subassembly that pushes away places the platform including pushing away material subassembly, revolving cylinder and equipment, revolving cylinder installs on the support frame, the equipment is placed the platform and is installed revolving cylinder is last, the equipment is placed bench symmetry and is equipped with two jigs that are used for placing little gluey core and spring, it installs to push away the material subassembly the equipment is placed bench and respectively with corresponding jig one-to-one, revolving cylinder with the equipment is placed a transmission and is connected, thereby drives the equipment is placed the platform and is taken place to rotate.

In the above technical solution, the pushing assembly includes a pushing cylinder, a pushing seat, a pressing tongue plate and a pushing tongue plate, the pushing cylinder is mounted on the assembly placing table, the pushing seat is mounted on two sides of the pushing cylinder, the pressing tongue plate is mounted at the front end of the pushing seat and perpendicular to the jig on the assembly placing table, the pushing tongue plate is mounted on the pushing seat, the other side of the pushing seat is in contact with a spring placed in the jig, the pushing cylinder drives the pushing seat to move forward, the pushing tongue plate is driven to move toward the spring and drive the pressing tongue plate to move perpendicular to the spring, and the pushing tongue plate pushes the spring to move toward the small glue core in a matching manner, and cooperates with the pressing spring and the small glue core.

In the technical scheme, the clamping feeding assembly comprises a second transverse moving assembly, a second longitudinal moving assembly and a second clamping assembly, the second transverse moving assembly is arranged on the supporting frame, the second longitudinal moving assembly is arranged on the second transverse moving assembly, and the second clamping assembly is arranged on the second longitudinal moving assembly and clamps the small rubber cores and the springs which are assembled and conveyed to the processing station for assembly.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a core and spring material loading subassembly are glued respectively to the little core and the spring transport material loading of gluing to the small rubber, the little rubber core equipment subassembly of spring is glued core and spring transport to the rotation and is pushed away the material subassembly on the rotatory material subassembly that pushes away and assemble little rubber core and spring that will assemble the completion and glue the rotatory the place ahead of core to the processing station for a short time, press from both sides to get the material loading subassembly and press from both sides the spring of equipment completion and glue the core for a short time and carry to the processing station for equipment from the rotation and push away the material subassembly clamp, realize the automatic assembly material loading of spring and little rubber core, effectively improve production efficiency, reduce labour's consumption.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the middle and small rubber core feeding assembly of the present invention at another angle;

fig. 3 is a partial structural view at a in fig. 1.

In the figure: 1. a support frame; 2. a small rubber core feeding assembly; 21. a feeding vibration disc; 22. a loading placing table; 23. a first deviation rectifying assembly; 24. a second deviation rectifying component; 25. a third deviation rectifying assembly; 231. a deviation rectifying tongue block; 232. a deviation rectifying driving cylinder; 3. a spring small rubber core assembly; 31. a first lateral movement assembly; 311. a first mounting plate; 312. a transverse slide block; 313. a transverse slide rail; 314. a transverse driving cylinder; 315. a second mounting plate; 32. a first longitudinal movement assembly; 321. a longitudinal slide; 322. A longitudinal slide block; 323. a longitudinal driving cylinder; 33. a first grasping assembly; 331. a clamping cylinder; 332. a clamping jaw; 4. a spring loading assembly; 5. rotating the pushing assembly; 51. a material pushing assembly; 511. a material pushing cylinder; 512. a pushing seat; 513. pressing a tongue plate; 514. a tongue pushing plate; 52. a rotating cylinder; 53. assembling a placing table; 6. clamping a feeding assembly; 61. a second lateral movement assembly; 62. a second longitudinal movement assembly; 63. a second grasping assembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The embodiments described by referring to the drawings are exemplary and intended to be used for explaining the present application and are not to be construed as limiting the present application. In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and thus should not be considered limiting. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate. In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

As shown in fig. 1 to 3, a spring and small rubber core assembling mechanism for assembling an SD card connector comprises a support frame 1, wherein the support frame 1 is provided with a small rubber core feeding assembly 2 for conveying and feeding a small rubber core, a spring feeding assembly 4 for conveying and feeding a spring, a spring small rubber core assembling assembly 3 for conveying the small rubber core and the spring to a rotary pushing assembly, a rotary pushing assembly 5 for assembling the small rubber core and the spring and rotating the assembled spring and small rubber core to the front of a processing station, and a clamping and feeding assembly 6 for clamping the assembled spring and small rubber core from the rotary pushing assembly 5 and conveying the assembled spring and small rubber core to the processing station for assembly, so that automatic assembling and feeding of the spring and the small rubber core are realized, production efficiency is effectively improved, and labor consumption is reduced.

Wherein, as shown in fig. 1, the small rubber core feeding assembly 2 comprises a feeding vibration disc 21, a feeding placing table 22, a first deviation rectifying assembly 23, a second deviation rectifying assembly 24 and a third deviation rectifying assembly 25, the feeding vibration disc 21 and the feeding placing table 22 are both arranged on the support frame 1, a feeding station 221 is arranged on the feeding placing table 22, the first deviation rectifying assembly 23Y is arranged on the feeding placing table 22, the second deviation rectifying assembly 24X is arranged on the feeding placing table 22, and the third deviation rectifying assembly 25Z is arranged on the feeding placing table 22.

Specifically, as shown in fig. 1 and fig. 2, the first deviation rectifying assembly 23, the second deviation rectifying assembly 24 and the third deviation rectifying assembly 25 each include a deviation rectifying tongue block 231 and a deviation rectifying driving cylinder 232, the deviation rectifying tongue block 231 is mounted on the feeding placing table 22 along the X direction/Y direction/Z direction, and the deviation rectifying driving cylinder 232 is mounted below the feeding placing table 22 and is in transmission connection with the deviation rectifying tongue block 231, so as to drive the deviation rectifying tongue block 231 to move along the X direction/Y direction/Z direction, and perform deviation rectifying and positioning on the small rubber cores conveyed to the feeding station 221. In this embodiment, the structure and the operation principle of the spring feeding assembly 4 are the same as those of the small rubber core feeding assembly 2, and therefore, the description thereof is omitted.

In this embodiment, as shown in fig. 1, the small rubber core assembly 3 of the spring includes a first lateral movement assembly 31, a first longitudinal movement assembly 32 and a first clamping assembly 33, the first lateral movement assembly 31 is installed on the support frame 1, the first longitudinal movement assembly 32 is installed on the first lateral movement assembly 31, the first clamping assembly 33 is installed on the first longitudinal movement assembly 32 and sequentially clamps the small rubber core and the spring, and then sequentially conveys the small rubber core and the spring to the rotary pushing assembly 5.

Specifically, the first transverse moving assembly 31 includes a first mounting plate 311, a transverse sliding block 312, a transverse sliding rail 313, a transverse driving cylinder 314 and a second mounting plate 315, the first mounting plate 311 is installed on the support frame 1, the transverse sliding block 312 and the transverse driving cylinder 314 are both installed on the first mounting plate 311, the transverse sliding rail 313 is connected with the transverse sliding block 312 in a sliding manner, the second mounting plate 315 is connected with the transverse sliding block 312 in a fixed manner, and the transverse driving cylinder 314 is connected with the second mounting plate 315 in a fixed manner, so as to drive the transverse movement of the second mounting plate 315.

Specifically, the first longitudinal moving assembly 32 includes a longitudinal sliding plate 321, a longitudinal sliding block 322, and a longitudinal driving cylinder 323, wherein the longitudinal sliding plate 321 and the longitudinal driving cylinder 323 are both mounted on the second mounting plate 315, the longitudinal sliding block 322 is slidably connected to the longitudinal sliding plate 321, and the longitudinal driving cylinder 323 is in transmission connection with the longitudinal sliding block 322, so as to drive the longitudinal sliding block 322 to move up and down.

Specifically, the first clamping assembly 33 comprises a clamping cylinder 331 and a clamping jaw 332, the clamping cylinder 331 is installed on the longitudinal sliding block 322, the clamping jaw 332 is installed at the lower end of the clamping cylinder 331, and the clamping cylinder 331 is in transmission connection with the clamping jaw 332, so as to drive the clamping jaw 332 to expand or contract.

In this embodiment, as shown in fig. 3, the rotary material pushing assembly 5 includes a material pushing assembly 51, a rotary cylinder 52 and an assembling and placing table 53, the rotary cylinder 52 is installed on the support frame 1, the assembling and placing table 53 is installed on the rotary cylinder 52, two jigs 54 for placing small rubber cores and springs are symmetrically arranged on the assembling and placing table 53, the material pushing assembly 51 is installed on the assembling and placing table 53 and respectively corresponds to the corresponding jigs 54 one by one, and the rotary cylinder 52 is in transmission connection with the assembling and placing table 53, so as to drive the assembling and placing table 53 to rotate.

Specifically, the pushing assembly 51 includes a pushing cylinder 511, a pushing seat 512, a pressing tongue plate 513 and a pushing tongue plate 514, the pushing cylinder 511 is mounted on the assembly placing table 53, the pushing seat 512 is mounted on two sides of the pushing cylinder 511, the pressing tongue plate 513 is mounted at the front end of the pushing seat 513 and perpendicular to the assembly placing table 53, the jig 54 is disposed on the assembly placing table 53, the pushing tongue plate 514 is mounted on the pushing seat 5152, the other side of the pushing seat is placed on the jig 54, and the pushing cylinder 511 drives the pushing seat 512 to move forward to drive the pushing tongue plate 514 to move toward the spring and transmit the vertical spring of the pressing tongue plate 513 to move, so that the pushing tongue plate 514 pushes the spring to move toward the small glue core to cooperate with the pressing tongue plate 513 to press the spring and the small glue core.

Specifically, as shown in fig. 1, the clamping and feeding assembly 6 includes a second transverse moving assembly 61, a second longitudinal moving assembly 62 and a second clamping assembly 63, the second transverse moving assembly 61 is mounted on the support frame 1, the second longitudinal moving assembly 62 is mounted on the second transverse moving assembly 61, and the second clamping assembly 63 is mounted on the second longitudinal moving assembly 62 and clamps the assembled small rubber cores and springs to convey the small rubber cores and springs to the processing station for assembly. The structure and operation principle of the second transverse moving assembly 61 and the second longitudinal moving assembly 62 are the same as those of the first transverse moving assembly 31 and the first longitudinal moving assembly 32, and therefore, the detailed description thereof is omitted. The structure and operation principle of the second clamping assembly 63 are well known to those skilled in the art, and therefore, will not be described herein.

The utility model discloses a core and spring delivery material loading are glued respectively to the little to core and spring material loading subassembly 2 and spring material loading subassembly 3, the core is glued to the little core equipment subassembly 4 of gluing of spring is carried little core and spring and is pushed away the rotatory material subassembly 5 that pushes away on the material subassembly 5 that pushes away and assemble little core and the spring of accomplishing the equipment and the rotatory place ahead to the processing station of little core, press from both sides and get material loading subassembly 6 and press from the rotatory spring and the little core of gluing of pushing away material subassembly 5 clamp completion and carry to the processing station on assemble, realize the automatic assembly material loading of spring and little core of gluing, effectively improve production efficiency, reduce labour's consumption.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a spring and little gluey core equipment assembly devices for SD card connector equipment which characterized in that, includes the support frame, the support frame facial make-up is equipped with the little gluey core material loading subassembly that is used for gluing the core transport material loading with a little, is used for the spring material loading subassembly with the spring transport material loading with a little, is used for gluing core and spring transport to the rotatory little gluey core assembly subassembly that pushes away on the material subassembly with a little, is used for gluing core and spring equipment and will assemble the rotatory material subassembly that pushes away in the place ahead of processing station of the spring and the little gluey core that accomplishes and be used for pressing from both sides the rotatory material subassembly clamp and get the spring of accomplishing and glue core and carry to the clamp of assembling and get the material loading subassembly on the processing station.

2. The assembling mechanism for assembling the spring and the small rubber core used for assembling the SD card connector according to claim 1, wherein the small rubber core loading assembly comprises a loading vibration disc, a loading placing table, a first deviation correcting assembly, a second deviation correcting assembly and a third deviation correcting assembly, the loading vibration disc and the loading placing table are both arranged on the support frame, a loading station is arranged on the loading placing table, the first deviation correcting assembly Y is arranged on the loading placing table, the second deviation correcting assembly X is arranged on the loading placing table, and the third deviation correcting assembly Z is arranged on the loading placing table.

3. The assembling mechanism for assembling the spring and the small rubber core of the SD card connector as claimed in claim 2, wherein the first deviation rectifying component, the second deviation rectifying component and the third deviation rectifying component each comprise a deviation rectifying tongue block and a deviation rectifying driving cylinder, the deviation rectifying tongue block is mounted on the loading placing table along the X direction/Y direction/Z direction, and the deviation rectifying driving cylinder is mounted below the loading placing table and is in transmission connection with the deviation rectifying tongue block, so as to drive the deviation rectifying tongue block to move along the X direction/Y direction/Z direction, and perform deviation rectifying and positioning on the small rubber core conveyed to the loading station.

4. The assembling mechanism for assembling the spring and the small rubber core of the SD card connector as claimed in claim 1, wherein the assembly for assembling the small rubber core of the spring comprises a first transverse moving component, a first longitudinal moving component and a first clamping component, the first transverse moving component is arranged on the supporting frame, the first longitudinal moving component is arranged on the first transverse moving component, and the first clamping component is arranged on the first longitudinal moving component and sequentially conveys the small rubber core and the spring to the rotary pushing component after sequentially clamping the small rubber core and the spring.

5. The assembling mechanism of claim 4, wherein the first lateral moving component comprises a first mounting plate, a lateral sliding block, a lateral sliding rail, a lateral driving cylinder and a second mounting plate, the first mounting plate is mounted on the supporting frame, the lateral sliding block and the lateral driving cylinder are mounted on the first mounting plate, the lateral sliding rail is slidably connected with the lateral sliding block, the second mounting plate is fixedly connected with the lateral sliding block, and the lateral driving cylinder is fixedly connected with the second mounting plate, so as to drive the lateral movement of the second mounting plate.

6. The assembling mechanism for assembling spring and small plastic core of SD card connector as claimed in claim 5, wherein said first longitudinal moving assembly comprises a longitudinal sliding plate, a longitudinal sliding block and a longitudinal driving cylinder, said longitudinal sliding plate and said longitudinal driving cylinder are mounted on said second mounting plate, said longitudinal sliding block is slidably connected to said longitudinal sliding plate, said longitudinal driving cylinder is drivingly connected to said longitudinal sliding block, thereby driving said longitudinal sliding block to move up and down.

7. The assembling mechanism of claim 6, wherein the first clamping assembly comprises a clamping cylinder and a clamping jaw, the clamping cylinder is mounted on the longitudinal sliding block, the clamping jaw is mounted at the lower end of the clamping cylinder, and the clamping cylinder is in transmission connection with the clamping jaw to drive the clamping jaw to open or contract.

8. The assembling mechanism for assembling the spring and the small rubber core of the SD card connector according to claim 1, wherein the rotary pushing assembly comprises a pushing assembly, a rotary cylinder and an assembling and placing table, the rotary cylinder is mounted on the supporting frame, the assembling and placing table is mounted on the rotary cylinder, two jigs for placing the small rubber core and the spring are symmetrically arranged on the assembling and placing table, the pushing assembly is mounted on the assembling and placing table and respectively corresponds to the corresponding jigs one by one, and the rotary cylinder is in transmission connection with the assembling and placing table so as to drive the assembling and placing table to rotate.

9. The assembly mechanism of claim 8 for assembling a spring and a small rubber core of an SD card connector, it is characterized in that the pushing component comprises a pushing cylinder, a pushing seat, a pressing tongue plate and a pushing tongue plate, the pushing cylinder is arranged on the assembling and placing table, the pushing seats are respectively arranged on two sides of the pushing cylinder, the material pressing tongue plate is arranged at the front end of the pushing seat and is vertical to the jig on the assembling and placing table, the pushing tongue plate is arranged on the pushing seat and the other side of the pushing tongue plate is contacted with a spring arranged in the jig, the pushing cylinder drives the pushing seat to move forwards, the pushing tongue plate is driven to move towards the spring and drives the pressing tongue plate to move perpendicular to the spring, and the pushing tongue plate pushes the spring to move towards the small rubber core in a matching mode to match with the pressing tongue plate pressing and buckling spring and the small rubber core.

10. The assembling mechanism of claim 1, wherein the clamping and feeding assembly comprises a second traverse assembly, a second longitudinal moving assembly and a second clamping assembly, the second traverse assembly is mounted on the supporting frame, the second longitudinal moving assembly is mounted on the second traverse assembly, and the second clamping assembly is mounted on the second longitudinal moving assembly and clamps the assembled small plastic core and the spring to convey the small plastic core and the spring to the processing station for assembling.