CN114628939B - Connector - Google Patents

Abstract

The application discloses a connector which is not loosened before assembly and is firmer after assembly. The application comprises an insulating body, wherein a first insulating seat and a second insulating seat are arranged in a cavity of the insulating body, the first insulating seat comprises a top plate and side walls, the side walls are arranged on two sides of the top plate, and a limiting and fixing structure is arranged between the first insulating seat and the second insulating seat; the limiting and fixing structure is arranged on the inner side of the side wall, a slot and a groove intersecting with the slot are formed in the inner side of the side wall, a socket of the slot faces the second insulating seat, a convex column matched with the slot is arranged at one end, close to the first insulating seat, of the outer side of the second insulating seat, and a positioning block matched with the groove of the side wall is arranged at the end portion of the outer side of the second insulating seat. The connector assembly process has the advantages of up-down, left-right, front-back limiting fixation and stability reinforcement.

Description

Connector

Technical Field

The application relates to the technical field of connectors, in particular to a limiting and fixing structure of a connector assembled by an upper insulating seat and a lower insulating seat.

Background

The connecting seat is widely applied to various electronic products, and along with the light-weight and miniaturized development trend of the electronic products, the requirements on the structure of the products are increased, and the requirements on stable structure and easy assembly and processing of the products are required to be met. The current connector comprises an upper plastic seat and a lower plastic seat, wherein a plurality of conductive terminals are respectively arranged on the upper plastic seat and the lower plastic seat, the conductive terminals are arranged in an insulating body, the upper plastic seat and the lower plastic seat are required to be fixed in the insulating body, and the conventional connector Top IM & Bot IM semi-assembly is not provided with the functions of up-down, left-right, front-back limiting and fixing at the same time, and the fixing can be ensured only by further assembly at Housing.

At present, top IM (upper terminal plastic seat) and Bot IM (bottom terminal plastic seat) need to pass through four plastic columns on plastic, and upper and lower IM (terminal module) parts are respectively complementarily paired on a separation sheet to carry out left and right limiting and front and rear limiting fixation; in the case of semi-assembled IM, the semi-finished product is easily loosened up and down, and thus Housing (Housing assembly) is required to encase the IM to secure the semi-assembled IM terminals, and thus improvements to existing connectors are required.

Disclosure of Invention

In order to solve the problems existing in the prior art, the application aims to provide a connector, wherein a Top IM (upper module) is provided with an upper limit fixing buckle, a lower limit fixing buckle, a front limit fixing groove, a rear limit fixing groove, a left limit fixing groove and a right limit fixing groove; the Bot IM (bottom module) is provided with matched upper and lower limiting fixing clamping strips and front, back, left and right limiting fixing convex grooves; when the IM is semi-assembled, the IM is fixed in an up-down limiting manner, and is fixed in a front-back and left-right limiting manner, and when the IM is semi-assembled, the IM is fixed in an up-down, left-right and front-back limiting manner, the IM is not loose before the assembly of Housing, and the IM is more firm after the Housing is assembled.

In order to achieve the above purpose, the application adopts the following technical scheme:

the application comprises an insulating body, wherein a first insulating seat and a second insulating seat are arranged in a cavity of the insulating body, the first insulating seat comprises a top plate and side walls, the side walls are arranged on two sides of the top plate, and a limiting and fixing structure is arranged between the first insulating seat and the second insulating seat;

the limiting and fixing structure is arranged on the inner side of the side wall, a slot and a groove intersecting with the slot are formed in the inner side of the side wall, a socket of the slot faces the second insulating seat, a convex column matched with the slot is arranged at one end, close to the first insulating seat, of the outer side of the second insulating seat, and a positioning block matched with the groove of the side wall is arranged at the end portion of the outer side of the second insulating seat.

Further, in some embodiments, the limiting fixing structure includes a slot and a groove on the side wall, and a convex column and a positioning block on the second insulating base;

the grooves of the side wall comprise a first groove and a second groove which are arranged at intervals on the same plane, and the first groove, the second groove and the slot are communicated and intersected; the convex column is arranged in the slot, and the slot is embedded with the convex column so as to position the convex column front and back; the inner bottoms of the slots on the two sides are abutted against the surfaces of the convex columns, and the matched slots and the convex columns position the first insulating seat and the second insulating seat back and forth and left and right.

Further, in some embodiments, the first insulating base further comprises a rear plate disposed between the sidewall ends of the top plate on both sides; the side walls on two sides of the top plate and the rear plate at the end part are enclosed to form a containing space, and a second insulating seat is arranged in the containing space of the first insulating seat.

Further, in some embodiments, the second groove is disposed adjacent to the rear plate, the first groove is disposed at an end of the side wall away from the rear plate, a front wall of the first groove is spaced from an end of the side wall by a certain distance, an upper surface of the first groove is disposed on the top plate, and a lower side edge of the first groove away from the top plate is provided with a first buckle protruding inwards;

the upper surface setting of second recess is on the roof, and the lower side that the roof was kept away from to the second recess is equipped with the second buckle of inwards protruding, and first buckle and second buckle form double-fastener structure.

Further, in some embodiments, the positioning block on the second insulating base includes a first positioning block and a second positioning block, the first positioning block and the second positioning block are disposed on two sides of the protruding column on the second insulating base, and the first positioning block and the second positioning block are respectively disposed in a matching manner with the first groove and the second groove on the side wall;

the cross sections of the first positioning block and the second positioning block are of inclined plane structures (for example, right trapezoid shapes), the widths of the lower planes of the first positioning block and the second positioning block are larger than the widths of the upper planes, the first positioning block and the second positioning block can be easily inserted in assembly, the lower planes of the first positioning block and the second positioning block are respectively abutted against the first buckle and the second buckle after being inserted, and the first buckle and the second buckle can be prevented from withdrawing to form a stopping structure.

Further, in some embodiments, the side surface of the first positioning block abuts against the front wall of the first groove, and the side surface of the second positioning block abuts against the top plate surface, so as to position the second insulating seat and the first insulating seat back and forth;

the upper surface of the first positioning block embedded in the first groove abuts against the surface of the top plate, the first buckle on the side edge of the first groove is clamped with the lower surface of the first positioning block far away from the top plate, and the side surface of one end of the first positioning block far away from the convex column is closely adjacent to the front wall of the first groove;

the upper surface of the second positioning block embedded in the second groove is abutted against the surface of the top plate, the second buckle on the side edge of the second groove is clamped with the lower surface of the second positioning block far away from the top plate, and the side surface of one end of the second positioning block far away from the convex column is closely adjacent to the rear plate; the first buckle is clamped with the first positioning block, the second buckle is clamped with the second positioning block, the second insulating seat and the first insulating seat are further positioned up and down, and the double-buckle structure enables the first insulating seat and the second insulating seat to be positioned up and down.

Further, in some embodiments, the first shielding shell, the second shielding shell and the inner shell are sleeved in the first shielding shell through the second shielding shell, an insulating body is arranged in the inner shell, and the first shielding shell is arranged on the substrate.

Further, in some embodiments, the first insulating base is provided with a first terminal module, the second insulating base is provided with a second terminal module, and the contact end of the second terminal module and the first terminal module is arranged in the insulating body.

Further, in some embodiments, the slot is located between the first groove and the second groove; the interval vacancy between first recess and the second recess of coplanar forms the slot, and the notch of slot is kept away from the roof setting, and the notch of first recess and second recess sets up towards the roof, and the width of first recess and second recess is equal, and the slot width is greater than the width of first recess, second recess.

Further, in some embodiments, the widths of the first positioning block and the second positioning block are smaller than the widths of the convex columns, the thicknesses of the first positioning block and the second positioning block are smaller than the thicknesses of the convex columns, and the lengths of the first positioning block and the second positioning block are larger than the lengths of the convex columns.

The application is applied to the half-assembly process of the Top IM and the Bot IM of the T03 connector, and simultaneously has the functions of limiting and fixing up and down, left and right and front and back, and can fix the half-assembly IM without holding; the fixation can be added by mounting the holding device, and the IM stability of the half group can be reinforced. The technology reduces cost/personnel/process/turnover, reduces half-group jig and personnel investment (reduces station jig and manpower investment); the turnover and half-assembly of parts are reduced, and the quality is better ensured.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is an exploded view of an embodiment of the present application;

FIG. 3 is a schematic perspective view of an insulating base portion according to an embodiment of the present application;

FIG. 4 is an exploded view of an insulating base portion according to an embodiment of the present application;

FIG. 5 is an enlarged schematic view of an insulating base portion according to an embodiment of the present application;

FIG. 6 is a cross-sectional view of an insulating base portion according to an embodiment of the present application;

FIG. 7 is a schematic perspective view of an insulating base portion according to an embodiment of the present application;

FIG. 8 is a transverse cross-sectional view of an insulating base portion according to an embodiment of the present application;

fig. 9 is a longitudinal cross-sectional view of an insulating seat portion according to an embodiment of the present application;

fig. 10 is a partial enlarged view of an insulating base portion according to an embodiment of the present application.

Description of the main part of the figure, part symbols:

first shield shell 11, base plate 12, second shield shell 13, inner shell 14, insulator 15, inner bottom 17, first insulator 21, second clip 22, slot 23, first groove 24, second insulator 26, second positioning block 27, stud 28, second terminal module 31, first terminal module 32, second groove 35, first clip 36, first positioning block 37, top plate 41, side wall 42, and rear plate 43.

Detailed Description

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. So that the manner in which the features and advantages of the application, as well as the manner in which the features and advantages of the application are attained and can be understood in detail, a more particular description of the application, briefly summarized below, may be had by reference to the appended drawings and detailed description thereof which follow.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "front," "rear," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Referring to the drawings, the application comprises a first shielding shell 11, a second shielding shell 13 and an inner shell 14, wherein the inner shell 14 is sleeved in the first shielding shell 11 through the second shielding shell 13, and an insulating body 15 is arranged in the inner shell 14; the first insulating base 21 and the second insulating base 26 are disposed in the cavity of the insulating body 15, and the first shielding shell 11 is disposed on the substrate 12.

The first insulating base 21 comprises a top plate 41, side walls 42 and a rear plate 43, wherein the side walls 42 perpendicular to the top plate 41 are arranged on two sides of the top plate 41, the rear plate 43 perpendicular to the top plate 41 is arranged at one end of the top plate 41, and the rear plate 43 is arranged between the end parts of the side walls 42 on two sides of the top plate 41; the side walls 42 on the two sides of the top plate 41 and the rear plate 43 at the end part are enclosed to form a containing space, and the containing space of the first insulating seat 21 is internally provided with a second insulating seat 26; a limiting and fixing structure is arranged between the first insulating seat 21 and the second insulating seat 26.

The first positioning block 37 and the second positioning block 27 are of inclined structures, the width of the lower plane of the first positioning block 37 and the width of the lower plane of the second positioning block 27 are larger than the width of the upper plane, and the lower planes of the first positioning block 37 and the second positioning block 27 are inserted and then respectively abutted against the first buckle 36 and the second buckle 22 to form a retaining structure.

Further, the limiting and fixing structure is arranged on the inner side of the side wall 42, the inner side of the side wall 42 is provided with a slot 23 and a groove intersecting with the slot 23, and the socket of the slot 23 faces the second insulating seat 26; the outer side of the second insulating seat 26 is provided with a convex column 28 matched with the slot 23 at one end close to the first insulating seat 21, and the outer side end of the second insulating seat 26 is provided with a positioning block matched with the groove of the side wall 42; the limiting and fixing structure comprises a slot 23 and a groove on the side wall 42, a convex column 28 and a positioning block on the second insulating base 26.

The grooves of the side wall 42 comprise a first groove 24 and a second groove 35, and the first groove 24 and the second groove 35 are communicated and intersected with the slot 23; two sides of the convex column 28 are adjacent to the inner wall of the slot 23, and the slot 23 is embedded with the convex column 28 so as to position the convex column 28 front and back; the inner bottoms 17 of the slots 23 at the two sides are abutted against the surfaces of the convex columns 28, so that the convex columns 28 are positioned left and right, and the first insulating seat 21 and the second insulating seat 26 are positioned front and back and left and right through the matched slots 23 and the convex columns 28.

The second groove 35 is disposed adjacent to the rear plate 43, the first groove 24 is disposed at an end of the side wall 42 remote from the rear plate 43, and the front wall of the first groove 24 is spaced apart from an end of the side wall 42; the upper surface of the first groove 24 is arranged on the top plate 41, and the lower side edge of the first groove 24 away from the top plate 41 is provided with a first buckle 36 which protrudes inwards; the upper surface of the second groove 35 is disposed on the top plate 41, the lower side edge of the second groove 35 away from the top plate 41 is provided with a second buckle 22 protruding inwards, and the first buckle 36 and the second buckle 22 form a double buckle structure.

The positioning blocks on the second insulating base 26 comprise a first positioning block 37 and a second positioning block 27, the first positioning block 37 and the second positioning block 27 are arranged on two sides of the convex column 28 on the second insulating base 26, and the first positioning block 37 and the second positioning block 27 are respectively matched with the first groove 24 and the second groove 35 on the side wall 42. The upper side edge of the first positioning block 37 embedded in the first groove 24 abuts against the surface of the top plate 41, the first buckle 36 on the lower side edge of the first groove 24 is clamped with the lower surface of the first positioning block 37 far away from the top plate 41, and the side surface of one end of the first positioning block 37 far away from the convex column 28 is close to the front wall of the first groove 24; the upper side edge of the second positioning block 27 embedded in the second groove 35 abuts against the surface of the top plate 41, the second buckle 22 on the lower side edge of the second groove 35 is clamped with the lower surface of the second positioning block 27 far away from the top plate 41, and the side surface of one end, far away from the convex column 28, of the second positioning block 27 is closely adjacent to the rear plate 43.

The first buckle 36 is engaged with the first positioning block 37 and the second buckle 22 is engaged with the second positioning block 27, so that the second insulating seat 26 and the first insulating seat 21 are positioned up and down; the side surface of the first positioning block 37 is closely adjacent to the front wall of the first groove 24, the side surface of the second positioning block 27 abuts against the surface of the top plate 41, and then the second insulating seat 26 and the first insulating seat 21 are positioned back and forth, the double-fastening structure enables the first insulating seat 21 and the second insulating seat 26 to be fixed firmly, and the connector enables the first insulating seat 21 and the second insulating seat 26 (the second terminal module 31 and the first terminal module 32) to be positioned back and forth, left and right, up and down through the concave-convex groove.

The slot 23 is located between the first recess 24 and the second recess 35; the gap between the first groove 24 and the second groove 35 on the same plane forms a slot 23, the notch of the slot 23 is far away from the top plate 41, the notch of the first groove 24 and the notch of the second groove 35 are arranged towards the top plate 41, the width of the first groove 24 and the width of the second groove 35 are equal, and the width of the slot 23 is larger than the width of the first groove 24 and the width of the second groove 35.

The widths of the first positioning block 37 and the second positioning block 27 are smaller than the width of the convex column 28, the thicknesses of the first positioning block 37 and the second positioning block 27 are smaller than the thickness of the convex column 28, and the lengths of the first positioning block 37 and the second positioning block 27 are larger than the length of the convex column 28.

Further, the first insulating base 21 is provided with a first terminal module 32, the second insulating base 26 is provided with a second terminal module 31, and the contact ends of the second terminal module 31 and the first terminal module 32 are disposed in the insulating body 15.

The Top IM and the Bot IM are semi-assembled and simultaneously provided with the upper, lower, left, right, front and rear limiting and fixing functions, and the semi-assembled IM can be fixed without Housing assembly; fixing can be added by mounting the Housing, and the stability of half-group IM (terminal module) can be reinforced.

The foregoing examples have shown only a few preferred embodiments of the application, which are described in some detail and it is to be understood that this application is not limited to the forms disclosed herein, but is not to be construed as limited to other examples, but is capable of use in various other combinations, modifications and environments and is capable of changes within the spirit of the application described herein, either by way of the foregoing teachings or by way of the knowledge of the relevant art, and is not therefore to be interpreted as limiting the scope of the application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the spirit and scope of the present application, which is within the scope of the appended claims. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (8)

1. A connector, comprising: the insulation body (15), the first insulation seat (21) and the second insulation seat (26) are arranged in the cavity of the insulation body (15), and the insulation body is characterized in that the first insulation seat (21) comprises a top plate (41) and side walls (42), the side walls (42) are arranged on two sides of the top plate (41), and a limiting and fixing structure is arranged between the first insulation seat (21) and the second insulation seat (26);

the limiting and fixing structure is arranged on the inner side of the side wall (42), a slot (23) and a groove intersecting with the slot (23) are formed in the inner side of the side wall (42), a socket of the slot (23) faces the second insulating seat (26), a convex column (28) matched with the slot (23) is arranged at one end, close to the first insulating seat (21), of the outer side of the second insulating seat (26), and a positioning block matched with the groove of the side wall (42) is arranged at the end part of the outer side of the second insulating seat (26);

the limiting and fixing structure comprises the slot (23) and the groove on the side wall (42), and the convex column (28) and the positioning block on the second insulating seat (26);

the grooves of the side walls (42) comprise first grooves (24) and second grooves (35) which are arranged at intervals on the same plane, and the first grooves (24) and the second grooves (35) are communicated with the slots (23); the convex column (28) is arranged in the slot (23), and the slot (23) is embedded with the convex column (28) so as to position the convex column (28) front and back; the inner bottom (17) of the slot (23) is abutted against the surface of the convex column (28), and the matched slot (23) and the convex column (28) position the first insulating seat (21) and the second insulating seat (26) front and back and left and right;

the positioning blocks on the second insulating seat (26) comprise a first positioning block (37) and a second positioning block (27), the side surfaces of the first positioning block (37) are closely adjacent to the front wall of the first groove (24), and the side surfaces of the second positioning block (27) are abutted against the surface of the top plate (41) so as to position the second insulating seat (26) and the first insulating seat (21) front and back;

the upper surface of the first positioning block (37) embedded in the first groove (24) is abutted against the surface of the top plate (41), the first buckle (36) on the side edge of the first groove (24) is clamped with the lower surface of the first positioning block (37) away from the top plate (41), and the side surface of the first positioning block (37) away from one end of the convex column (28) is closely adjacent to the front wall of the first groove (24);

the upper surface of the second positioning block (27) embedded in the second groove (35) abuts against the surface of the top plate (41), a second buckle (22) on the side edge of the second groove (35) is clamped with the lower surface of the second positioning block (27) far away from the top plate (41), and the side surface of the second positioning block (27) far away from one end of the convex column (28) is closely adjacent to the rear plate (43); the first buckle (36) is engaged with the first positioning block (37), the second buckle (22) is engaged with the second positioning block (27), and then the second insulating seat (26) and the first insulating seat (21) are positioned up and down.

2. A connector according to claim 1, wherein said first insulating base (21) further comprises said rear plate (43), said rear plate (43) being disposed between ends of said side walls (42) on both sides of said top plate (41); the side walls (42) on two sides of the top plate (41) and the rear plate (43) at the end part enclose a containing space, and the second insulating seat (26) is arranged in the containing space of the first insulating seat (21).

3. A connector according to claim 1, wherein the second recess (35) is provided adjacent to the rear plate (43), the first recess (24) is provided at an end of the side wall (42) remote from the rear plate (43), a front wall of the first recess (24) is spaced from an end of the side wall (42), an upper surface of the first recess (24) is provided on the top plate (41), and a lower side edge of the first recess (24) remote from the top plate (41) is provided with the first catch (36) protruding inward;

the upper surface of second recess (35) is provided with on roof (41), second recess (35) keep away from the lower side of roof (41) is equipped with inwards protruding second buckle (22), first buckle (36) with second buckle (22) form double-buckle structure.

4. A connector according to claim 1, wherein the first positioning block (37) and the second positioning block (27) are arranged on two sides of the convex column (28) on the second insulating base (26), and the first positioning block (37) and the second positioning block (27) are respectively matched with the first groove (24) and the second groove (35) on the side wall (42);

the first positioning block (37) and the second positioning block (27) are of inclined-plane structures, the width of the lower plane of the first positioning block (37) and the width of the lower plane of the second positioning block (27) are larger than the width of the upper plane, and the lower planes of the first positioning block (37) and the second positioning block (27) are inserted and then respectively abutted against the first buckle (36) and the second buckle (22) to form a retaining structure.

5. A connector according to claim 1, characterized in that the connector comprises a first shielding shell (11), a second shielding shell (13) and an inner shell (14), wherein the inner shell (14) is sleeved in the first shielding shell (11) through the second shielding shell (13), the insulating body (15) is arranged in the inner shell (14), and the first shielding shell (11) is arranged on a substrate (12).

6. A connector according to claim 5, wherein the first insulating base (21) is provided with a first terminal module (32), the second insulating base (26) is provided with a second terminal module (31), and the contact ends of the second terminal module (31) and the first terminal module (32) are arranged in the insulating body (15).

7. A connector according to claim 1, wherein the slot (23) is located between the first recess (24) and the second recess (35); the clearance vacancy between first recess (24) with second recess (35) of coplanar forms slot (23), the notch of slot (23) is kept away from roof (41) sets up, first recess (24) with the notch of second recess (35) is towards roof (41) sets up, first recess (24) with the width of second recess (35) is equal, slot (23) width is greater than first recess (24) the width of second recess (35).

8. A connector according to claim 4, wherein the first positioning block (37) and the second positioning block (27) have a width smaller than the width of the boss (28), the first positioning block (37) and the second positioning block (27) have a thickness smaller than the boss (28), and the first positioning block (37) and the second positioning block (27) have a length larger than the boss (28).