CN212676502U - MINI type horizontal FAKRA connector - Google Patents

Abstract

The utility model discloses a horizontal FAKRA connector of MINI type, which comprises an outer shell, the zinc alloy upper seat, the zinc alloy is lower, a plurality of long insulators, a plurality of short insulators, a plurality of long terminal, a plurality of short terminal and separation baffle, zinc alloy upper seat and zinc alloy lower seat set up about and hold the intracavity of acceping of locating the shell, the zinc alloy upper seat contains main part and a plurality of long outer tube on integrated into one piece's the zinc alloy, the zinc alloy lower seat contains main part and a plurality of short outer tube under integrated into one piece's the zinc alloy, a plurality of long terminal respectively the one-to-one insert locate in a plurality of long insulators and install in zinc alloy upper body and a plurality of long outer tube, a plurality of short terminal respectively the one-to-insert locate in a plurality of short insulators and install under zinc alloy in main part and a plurality of short outer tubes, so the structure sets up, reach and simplify production technology flow, improve production efficiency's effective fruit.

Description

MINI type horizontal FAKRA connector

Technical Field

The utility model relates to a connector technical field especially relates to a horizontal FAKRA connector of MINI type for car.

Background

The FAKRA connector is a connector part widely adopted in automobiles at present, and is generally applied to a GPS (global positioning system), a remote control system, a vehicle-mounted telephone system, a satellite radio, vehicle-mounted Internet access and the like. The horizontal FAKRA connector establishes a unified connector system and standard based on SMB connector interface FAKRA (automatic expert group), and meets the high-performance and safety requirements of the current automobile industry.

The conventional FAKRA connector comprises a shell and a pin module inserted into the shell, wherein a single outer pipe is arranged on a pin seat body of the pin module to form a single-socket connector, or a plurality of round outer pipes formed by punching are assembled after the pin seat body is molded to form a multi-socket connector, so that the single-socket connector has the following problem that the application range of the single-socket connector is limited, and when a plurality of connecting sockets are needed, if a plurality of single-socket connectors are combined together for use, the defects that the signal transmission effect is influenced due to lack of connection and easiness in loosening exist among the single-socket connectors; although the multi-socket connector can be applied to the requirement of multi-connection sockets, the molding process and the process are complex, so that the cost is increased during batch production, and the requirement and the development of cost reduction and efficiency improvement are not met.

Therefore, it is necessary to design a new MINI horizontal FAKRA connector to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a horizontal FAKRA connector of MINI type simplifies production process flow, improves production efficiency.

Based on this, the utility model provides a MINI type horizontal FAKRA connector, including shell, zinc alloy upper seat, zinc alloy lower seat, a plurality of long insulators, a plurality of short insulators, a plurality of long terminals, a plurality of short terminals and separating baffle, wherein, the shell has a containing cavity from the front end face and runs through to the rear end face, the zinc alloy upper seat and the zinc alloy lower seat are arranged from top to bottom and are contained in the containing cavity, the zinc alloy upper seat comprises a zinc alloy upper main body and a plurality of long outer tubes integrated with the zinc alloy upper main body, the zinc alloy lower seat comprises a zinc alloy lower main body and a plurality of short outer tubes integrated with the zinc alloy lower main body, the plurality of long terminals are respectively inserted into the plurality of long insulators and are arranged in the zinc alloy upper main body and the plurality of long outer tubes one by one, the plurality of short terminals are respectively inserted into the plurality of short insulators one by one and are arranged in the zinc alloy lower main body and the plurality of short outer tubes one by one, the separation baffle is arranged between the long terminals and the short terminals.

In the above technical scheme, the zinc alloy upper main body is provided with an accommodating cavity located below the plurality of long outer tubes, and the zinc alloy lower main body is arranged in the accommodating cavity.

In the above technical scheme, a bottom plate coated on the outer sides of the lower surfaces of the long outer tubes is arranged below the long outer tubes, the bottom plate forms a top wall of the accommodating cavity, and the upper surface of the zinc alloy lower main body abuts against the lower surface of the bottom plate.

In the technical scheme, the lower surface of the bottom plate is provided with a positioning groove in an upward concave manner, and the upper surface of the zinc alloy lower main body is provided with a positioning convex column which is matched with the positioning groove in an upward convex manner.

In the above technical scheme, a clamping member is arranged between the two sides of the upper zinc alloy seat and the lower zinc alloy seat and the side wall of the accommodating cavity, and the clamping member fixes the upper zinc alloy seat and the lower zinc alloy seat in the accommodating cavity.

In the above technical scheme, the clamping member is a U-shaped clamping pin, the lower surface of the housing is concavely provided with a clamping groove communicated with the accommodating cavity, and the clamping pin is inserted from the clamping groove and is in interference clamping with the bottom plate and two sides of the zinc alloy lower main body.

In the above technical solution, the long insulator is provided with a first base, a first holding portion disposed above the first base, and a long inner tube extending forward from the first holding portion, the outer surface of the long inner tube is provided with a plurality of first ribs, and the first ribs are in interference fixed fit with the zinc alloy upper body.

In the above technical solution, the short insulator is provided with a second base, a second holding portion disposed above the second base, and a short inner tube extending forward from the second holding portion, the outer surface of the short inner tube is provided with a plurality of second ribs, and the second ribs are in interference fixed fit with the zinc alloy lower body.

In the above technical solution, the separation baffle is made of zinc alloy, and is provided with a main body portion and a pin portion extending downward from a lower end edge of the main body portion, an accommodating groove is concavely formed in a lower surface of the zinc alloy upper main body, the main body portion of the separation baffle is inserted into the accommodating groove, and the pin portion is exposed out of the lower surface of the zinc alloy upper main body.

In the above technical solution, the plurality of long terminals respectively have first pins exposed out of the long insulator, the plurality of short terminals respectively have second pins exposed out of the short insulator, the second pins and the first pins are arranged in a front-back manner, and the separation baffle is disposed between the first pins and the second pins.

The utility model discloses the horizontal FAKRA connector of MINI type, which comprises an outer shell, the zinc alloy upper seat, the zinc alloy is lower, a plurality of long insulators, a plurality of short insulators, a plurality of long terminals, a plurality of short terminals and separation baffle, zinc alloy upper seat and zinc alloy set up about down and hold the intracavity of acceping of locating the shell, the zinc alloy upper seat contains main part and a plurality of long outer tube on integrated into one piece's the zinc alloy, zinc alloy is lower to contain main part and a plurality of short outer tube under integrated into one piece's the zinc alloy, a plurality of long terminals respectively the one-to-one insert locate in a plurality of long insulators and install in zinc alloy upper main part and a plurality of long outer tube, a plurality of short terminals respectively the one-to-insert locate in a plurality of short insulators and install under zinc alloy in main part and a plurality of short outer tubes, so the structure sets up, reach and simplify production process flow, improve production efficiency's effective effect.

Drawings

FIG. 1 is an exploded view of the MINI horizontal FAKRA connector of the present invention;

FIG. 2 is a view showing the structure of the upper zinc alloy base and the lower zinc alloy base of FIG. 1;

FIG. 3 is an assembled view of a portion of the structure of FIG. 1;

FIG. 4 is a schematic view of the retaining member of FIG. 1 shown prior to installation in a zinc alloy upper housing;

fig. 5 is an assembled structural view of fig. 1.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, the present invention discloses a MINI horizontal FAKRA connector, which includes a housing 1, a zinc alloy upper seat 2, a zinc alloy lower seat 3, a plurality of long insulators 4, a plurality of short insulators 5, a plurality of long terminals 6, a plurality of short terminals 7, and a separating baffle 8, wherein in this embodiment, the number of the long terminals 6 and the short terminals 7 is two, so the number of the long insulators 4 and the short insulators 5 corresponding thereto is also two. In other embodiments, the number may be set differently according to actual needs, and is not limited to the embodiment and the drawings.

The housing 1 is provided with an accommodating cavity 10 penetrating through the front end face to the rear end face from the front end face, the zinc alloy upper seat 2 and the zinc alloy lower seat 3 are vertically arranged and accommodated in the accommodating cavity 10, the two long insulators 4 are arranged in the zinc alloy upper seat 2, the two short insulators 5 are arranged in the zinc alloy lower seat 3, the two long terminals 6 are respectively arranged in the two long insulators 4, and the two short terminals 7 are respectively arranged in the two short insulators 5.

Specifically, the zinc alloy upper seat 2 includes a zinc alloy upper main body 21 and a plurality of long outer tubes 22 integrally formed with the zinc alloy upper main body 21, and the number of the long outer tubes 22 is two corresponding to the two long terminals 6 and the two long insulators 4; the zinc alloy lower base 3 includes a zinc alloy lower body 31 and a plurality of short outer tubes 32 integrally formed with the zinc alloy lower body 31, and the number of the short outer tubes 32 is two corresponding to the two short terminals 7 and the two short insulators 5.

The two long terminals 6 are respectively inserted into the two long insulators 4 in a one-to-one correspondence manner and then are installed in the zinc alloy upper main body 21 and the two long outer tubes 22 together, and the two short terminals 7 are respectively inserted into the two short insulators 5 in a one-to-one correspondence manner and then are installed in the zinc alloy lower main body 31 and the two short outer tubes 32 together. The two long terminals 6 respectively have first pins 61 exposed out of the long insulator 4, the two short terminals 7 respectively have second pins 71 exposed out of the short insulator 5, and the second pins 71 and the first pins 61 are arranged in a front-back manner.

The long insulator 4 is provided with a first base 41, a first holding portion 42 disposed above the first base 41, and a long inner tube 43 extending forward from the first holding portion 42, an outer surface of the long inner tube 43 is provided with a plurality of first ribs 44, the first ribs 44 are in interference fit with the zinc alloy upper body 21, the long inner tube 43 is located in the long outer tube 22, the long outer tube 22 is located in the receiving cavity 10, and the zinc alloy upper body 21 is partially exposed to the rear of the outer shell 10.

Similarly, the short insulator 5 is provided with a second base 51, a second holding portion 52 disposed above the second base 51, and a short inner tube 53 extending forward from the second holding portion 52, an outer surface of the short inner tube 53 is provided with a plurality of second ribs 54, the second ribs 54 are in interference fit with the zinc alloy lower body 31, the short inner tube 53 is located in the short outer tube 32, the short outer tube 32 is located in the receiving cavity 10, and the zinc alloy lower body 31 is partially exposed below the outer shell 10.

Further, in this embodiment, the zinc alloy upper body 21 is provided with an accommodating cavity 23 located below the two long outer tubes 22, and the zinc alloy lower body 31 is provided in the accommodating cavity 23. And a bottom plate 24 covering the outer sides of the lower surfaces of the two long outer tubes 22 is arranged below the two long outer tubes 22, the bottom plate 24 forms a top wall of the accommodating cavity 23, and the upper surface of the zinc alloy lower main body 31 abuts against the lower surface of the bottom plate 24.

Preferably, the lower surface of the bottom plate 24 is provided with a positioning groove 25 in an upward concave manner, the upper surface of the zinc alloy lower main body 31 is provided with a positioning convex column 33 upwards in a convex manner, and the positioning convex column 33 is matched with the positioning groove 25, so that the zinc alloy lower main body 31 is stably positioned in the accommodating cavity 23 of the zinc alloy upper main body 21 through the matching of the positioning convex column 33 and the positioning groove 25.

The separating baffle 8 is made of zinc alloy, is arranged between the first pins 61 and the second pins 71, and is provided with a main body part 81 and a pin part 82 extending downwards from the lower end edge of the main body part 81, the lower surface of the zinc alloy upper main body 21 is concavely provided with an accommodating groove 26, the main body part 81 of the separating baffle 8 is inserted into the accommodating groove 26, and the pin part 82 is exposed out of the lower surface of the zinc alloy upper main body 21.

In addition, a clamping piece 9 is arranged between the two sides of the upper zinc alloy seat 2 and the lower zinc alloy seat 3 and the side wall of the accommodating cavity 10, and the clamping piece 9 further fixes the upper zinc alloy seat 2 and the lower zinc alloy seat 3 in the accommodating cavity 10. Specifically, the clamping piece 9 is a U-shaped clamping pin, the lower surface of the housing 1 is concavely provided with a clamping groove 11 communicated with the accommodating cavity 10, and the clamping pin is inserted from the clamping groove 11 and is interfered and clamped on the bottom plate 24 and two sides of the zinc alloy lower main body 31, so that the zinc alloy upper seat 2 and the zinc alloy lower seat 3 are matched more stably.

To sum up, the utility model discloses the horizontal FAKRA connector of MINI type, which comprises an outer shell 1, zinc alloy upper seat 2, zinc alloy lower seat 3, a plurality of long insulators 4, a plurality of short insulators 5, a plurality of long terminals 6, a plurality of short terminals 7 and separation baffle 8, zinc alloy upper seat 2 is through main part 21 and a plurality of long outer tube 22 on the integrated into one piece zinc alloy, main part 31 and a plurality of short outer tube 32 under 3 integrated into one piece zinc alloy lower seat of zinc alloy, insert a plurality of long terminals 6 respectively the one-to-one and locate in a plurality of long insulators 4 in the zinc alloy main part 21 and a plurality of long outer tube 22 are located to the repayment, a plurality of short terminals 7 respectively the one-to-one insert locate in a plurality of short insulators 5 in the zinc alloy main part 31 and a plurality of short outer tube 32 are located to the repayment, so the structure sets up, reach and simplify the production technology flow, improve production efficiency's effective fruit.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (10)

1. The MINI type horizontal FAKRA connector is characterized by comprising a shell, a zinc alloy upper seat, a zinc alloy lower seat, a plurality of long insulators, a plurality of short insulators, a plurality of long terminals, a plurality of short terminals and a separating baffle, wherein the shell is provided with a containing cavity penetrating to the rear end face from the front end face, the zinc alloy upper seat and the zinc alloy lower seat are vertically arranged and contained in the containing cavity, the zinc alloy upper seat comprises a zinc alloy upper main body and a plurality of long outer tubes integrally formed with the zinc alloy upper main body, the zinc alloy lower seat comprises a zinc alloy lower main body and a plurality of short outer tubes integrally formed with the zinc alloy lower main body, the long terminals are respectively inserted into the long insulators and arranged in the zinc alloy upper main body and the long outer tubes in a one-to-one correspondence manner, the short terminals are respectively inserted into the short outer tubes in the short insulators and arranged in the zinc alloy lower main body and the short outer tubes in the corresponding manner, the separation baffle is arranged between the long terminals and the short terminals.

2. The MINI-type horizontal FAKRA connector as claimed in claim 1, wherein the zinc alloy upper body is provided with a receiving cavity below the plurality of long outer tubes, and the zinc alloy lower body is provided in the receiving cavity.

3. The MINI type horizontal FAKRA connector as claimed in claim 2, wherein a bottom plate is disposed below the plurality of long outer tubes and covers the outer side of the lower surface of the plurality of long outer tubes, the bottom plate forms a top wall of the accommodating cavity, and the upper surface of the zinc alloy lower main body abuts against the lower surface of the bottom plate.

4. The MINI horizontal FAKRA connector as claimed in claim 3, wherein the bottom plate has a positioning groove on its lower surface, and the zinc alloy lower body has a positioning protrusion on its upper surface for engaging with the positioning groove.

5. The MINI-type horizontal FAKRA connector as claimed in claim 4, wherein a retaining member is disposed between the side walls of the receiving cavity and the two sides of the upper and lower seats, and the retaining member fixes the upper and lower seats in the receiving cavity.

6. The MINI-type horizontal FAKRA connector as claimed in claim 5, wherein the latching members are U-shaped latches, and a latching groove communicating with the receiving cavity is concavely formed on the lower surface of the housing, and the latches are inserted from the latching groove and interference-latched to both sides of the base plate and the lower zinc alloy body.

7. The MINI-type horizontal FAKRA connector as claimed in claim 1, wherein the long insulator has a first base portion and a first holding portion disposed above the first base portion, and a long inner tube extending forward from the first holding portion, the outer surface of the long inner tube having a plurality of first ribs, the first ribs being in interference fit with the zinc alloy upper body.

8. The MINI-type horizontal FAKRA connector as claimed in claim 1, wherein the short insulator has a second base and a second holding portion disposed above the second base, and a short inner tube extending forward from the second holding portion, the short inner tube having a plurality of second ribs on an outer surface thereof, the second ribs being in interference fit with the zinc alloy lower body.

9. The MINI horizontal FAKRA connector as claimed in claim 1, wherein the partition plate is made of zinc alloy and has a main body and a pin portion extending downward from the lower edge of the main body, the lower surface of the upper main body is recessed with a receiving groove, the main body of the partition plate is inserted into the receiving groove, and the pin portion is exposed out of the lower surface of the upper main body.

10. The MINI horizontal FAKRA connector as claimed in claim 1, wherein the long terminals have first pins exposed from the long insulator, the short terminals have second pins exposed from the short insulator, the second pins and the first pins are arranged in a front-to-back manner, and the separation baffle is disposed between the first pins and the second pins.

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