CN209981631U - Multi-interface data conversion connector - Google Patents

Abstract

The utility model discloses a multi-interface data conversion connector, which comprises a main body rubber core, a hard disk contact terminal, an FFC (flexible flat cable) switching terminal, a PCB (printed circuit board) and a cover body, wherein the PCB is connected to the main body rubber core through a plurality of hard disk contact terminals; a cover body is arranged on the outer side of the PCB and connected to the main rubber core; the main part is glued core both sides and is set up the stuck point respectively, the stuck point is two sections formula stuck points that progressively advance, the inboard corresponding stuck point play of lid is equipped with the draw-in groove, the draw-in groove is the segmentation card of progressive and goes into on the stuck point. The utility model discloses the core both sides are glued to the main part set up progressive stuck point, correspond stuck point position department on the lid and be equipped with the draw-in groove, and the draw-in groove can progressive segmentation card go into the stuck point, and the lid lock is on initial stuck point when initial promptly, when inserting FFC after, with the bottom knot point of lid lock, at this moment lid and FFC contact surface compaction increase the fastness after FFC inserts.

Description

Multi-interface data conversion connector

Technical Field

The utility model relates to a many interfaces data conversion connector belongs to data transmission connector field.

Background

The FFC is called a Flexible Flat Cable, that is, a Flexible Flat Cable, and is widely used for connecting various devices and a main board to transmit signals. The FFC is connected with the hard disk usually by adopting a conversion connector, a PCB is arranged on the conversion connector, a hard disk contact terminal and the FFC are connected on the PCB, and the FFC is connected with the hard disk contact terminal through the PCB. The conventional connector directly welds the FFC on the PCB to realize signal transmission between the FFC and the PCB and further realize switching between the FFC and a contact end of a hard disk, but the welding processing mode is complex, the FFC cannot be disassembled after welding, and a large amount of harmful gas is generated during welding to pollute the environment. In view of the above, how to more conveniently realize the connection between the FFC and the PCB becomes a research direction for those skilled in the art.

Disclosure of Invention

The utility model aims at providing a many interfaces data conversion connector, this many interfaces data conversion connector's main part is glued core both sides and is set up progressive stuck point, corresponds stuck point position department on the lid and is equipped with the draw-in groove, and the draw-in groove can progressive segmentation card go into the stuck point, and lid lock is on initial stuck point when initial promptly, when inserting FFC back, with the lid lock to the lower floor detain the point, at this moment lid and FFC contact surface compaction, increase the fastness after FFC inserts.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a multi-interface data conversion connector comprises a main body rubber core, hard disk contact terminals, an FFC (flexible flat cable) switching terminal, a PCB (printed circuit board) and a cover body, wherein the PCB is connected to the main body rubber core through a plurality of hard disk contact terminals;

a cover body is arranged on the outer side of the PCB and connected to the main rubber core;

the two sides of the main body rubber core are respectively provided with a clamping point, the clamping points are two sections of progressive clamping points, the inner side of the cover body is provided with a clamping groove corresponding to the clamping points, and the clamping grooves are gradually and sectionally clamped on the clamping points;

and when the cover body is connected to the main body rubber core, the pressing groove is over against the socket of the FFC adapter terminal.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, symmetrical jacks are arranged on two sides of the FFC adapter terminal and are respectively connected with the first FFC and the second FFC, and the first FFC and the second FFC are connected to the first jack and the second jack in a plugging manner.

2. In the above scheme, the connecting end of the first FFC and/or the second FFC and the FFC switching terminal is provided with a stop block, and when the cover body is connected to the main body rubber core, the stop block is positioned on the inner side of the pressing groove.

3. In the scheme, the middle of the rubber core of the main body is provided with a plurality of fences, one end of the FFC adapter terminal is inserted into the fence to be fixed, and the other end of the FFC adapter terminal is connected to the PCB.

4. In the scheme, the two sides of the fence on the main rubber core are respectively provided with a plurality of hard disk contact terminal sockets, one end of each hard disk contact terminal is inserted into the corresponding hard disk contact terminal socket, and the other end of each hard disk contact terminal is connected to the PCB.

5. In the above scheme, the main body rubber core is further provided with a positioning column, and the PCB is connected to the positioning column.

6. In the above scheme, only one side of the cover body is provided with the pressing groove, and one side of the FFC adapter terminal opposite to the pressing groove is connected with the FFC.

7. In the above scheme, two sides of the cover body are respectively provided with a pressing groove, and the two pressing grooves are respectively opposite to the first FFC and the second FFC.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model discloses many interfaces data conversion connector, its main part are glued core both sides and are set up gradual stuck point, correspond stuck point position department on the lid and are equipped with the draw-in groove, and the draw-in groove can be gradually segmentation card income stuck point, and the lid lock is on initial stuck point when initial promptly, when inserting FFC after, with the lid lock to the lower floor detain the point, at this moment lid and FFC contact surface compaction, the fastness after multiplicable FFC inserts.

2. The utility model discloses many interfaces data conversion connector, be connected with hard disk contact terminal on its PCB board, realize the signal connection of hard disk contact end and PCB, set up FFC switching terminal simultaneously, and insert FFC in the socket of FFC switching terminal both sides, it is continuous with the PCB board to pass through FFC switching terminal with FFC, realize the signal transmission of FFC and PCB board, PCB board and hard disk contact terminal are connected in the above-mentioned mode, pass through FFC switching terminal and FFC and be connected simultaneously, realize the signal transmission of FFC and hard disk contact end, this transmission mode replaces original connected mode of directly welding FFC on PCB board; meanwhile, the FFC is connected with the PCB by adopting a plug-in mode in the structure, the FFC can be detached and replaced at any time, and the use is very convenient.

3. The utility model discloses many interfaces data conversion connector, its lid can select one side area to press the laminating groove or both sides area to press the laminating groove according to the use needs.

Drawings

Fig. 1 is a schematic structural view of the multi-interface data conversion connector of the present invention;

fig. 2 is the structure diagram of the multi-interface data conversion connector main body rubber core of the utility model.

Fig. 3 is a side view of the multi-interface data conversion connector main body rubber core of the present invention.

Fig. 4 is a schematic structural diagram of a cover body in the first embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a cover body in an embodiment two of the present invention.

In the above drawings: 1. a main rubber core; 101. a fence; 102. hard disk contact terminal socket; 103. a positioning column; 104. sticking points; 2. a hard disk contact terminal; 3. an FFC relay terminal; 4. a PCB board; 5. a cover body; 501. a card slot; 502. a pressing groove; 6. a first FFC; 601. a stopper; 7. a second FFC.

Detailed Description

Example 1: a multi-interface data conversion connector comprises a main body rubber core 1, hard disk contact terminals 2, an FFC (flexible flat cable) conversion terminal 3, a PCB (printed circuit board) 4 and a cover body 5, wherein the PCB 4 is connected to the main body rubber core 1 through the hard disk contact terminals 2, the FFC conversion terminal 3 is also arranged between the PCB 4 and the main body rubber core 1, and the FFC conversion terminal 3 is connected with an FFC;

a cover body 5 is arranged on the outer side of the PCB 4, and the cover body 5 is connected to the main rubber core 1;

the two sides of the main rubber core 1 are respectively provided with a clamping point 104, the clamping point 104 is a two-section progressive clamping point, a clamping groove 501 is arranged on the inner side of the cover body 5 corresponding to the clamping point 104, and the clamping groove 501 is progressively and sectionally clamped on the clamping point 104;

at least one side of the cover body 5 is provided with a pressing groove 502, and the pressing groove 502 is opposite to the FFC adapter terminal 3.

Symmetrical jacks are arranged on two sides of the FFC transit terminal 3, a first FFC6 and a second FFC7 are respectively connected with the FFC 3, and the first FFC6 and the second FFC7 are connected with the first jack 301 and the second jack 302 in a plug-in manner;

a stopper 601 is arranged at the connecting end of the first FFC6 and/or the second FFC7 and the FFC adapter terminal 3, and when the cover body 5 is connected to the main rubber core 1, the stopper 601 is positioned inside the pressing groove 502;

the middle part of the main body rubber core 1 is provided with a plurality of fences 101, one end of the FFC switching terminal 3 is inserted into the fences 101 for fixation, the main body rubber core is provided with a plurality of fences, the FFC switching terminal is fixed, meanwhile, the FFC switching terminal can be separated, the FFC switching terminal is prevented from being contacted and short-circuited, and the other end of the FFC switching terminal is connected to the PCB 4;

a plurality of hard disk contact terminal jacks 102 are respectively arranged on two sides of a fence 101 on the main rubber core 1, one end of each hard disk contact terminal 2 is inserted into the corresponding hard disk contact terminal jack 102, and the other end of each hard disk contact terminal is connected to the PCB 4; the main body rubber core 1 is also provided with a positioning column 103, and the PCB 4 is connected to the positioning column 103;

only one side of the cover body 5 is provided with a pressing groove 502, and when the cover body 5 is connected to the main body rubber core 1, the pressing groove 502 is opposite to the insertion opening of the FFC adapter terminal 3.

Example 2: a multi-interface data conversion connector comprises a main body rubber core 1, hard disk contact terminals 2, an FFC (flexible flat cable) conversion terminal 3, a PCB (printed circuit board) 4 and a cover body 5, wherein the PCB 4 is connected to the main body rubber core 1 through the hard disk contact terminals 2, the FFC conversion terminal 3 is also arranged between the PCB 4 and the main body rubber core 1, and the FFC conversion terminal 3 is connected with an FFC;

a cover body 5 is arranged on the outer side of the PCB 4, and the cover body 5 is connected to the main rubber core 1;

the two sides of the main rubber core 1 are respectively provided with a clamping point 104, the clamping point 104 is a two-section progressive clamping point, a clamping groove 501 is arranged on the inner side of the cover body 5 corresponding to the clamping point 104, and the clamping groove 501 is progressively and sectionally clamped on the clamping point 104;

at least one side of the cover body 5 is provided with a pressing groove 502, and when the cover body 5 is connected on the main body rubber core 1, the pressing groove 502 is over against the socket of the FFC adapter terminal 3.

Symmetrical jacks are arranged on two sides of the FFC transit terminal 3 and are respectively connected with a first FFC6 and a second FFC7, and the first FFC6 and the second FFC7 are connected to the first jack 301 and the second jack 302 in a plug-in manner; a stopper 601 is arranged at the connecting end of the first FFC6 and/or the second FFC7 and the FFC adapter terminal 3, and when the cover body 5 is connected to the main rubber core 1, the stopper 601 is positioned at the inner side of the pressing groove 502;

the middle part of the main body rubber core 1 is provided with a plurality of fences 101, one end of the FFC switching terminal 3 is inserted into the fences 101 for fixation, the main body rubber core is provided with a plurality of fences, the FFC switching terminal is fixed, meanwhile, the FFC switching terminal can be separated, the FFC switching terminal is prevented from being contacted and short-circuited, and the other end of the FFC switching terminal is connected to the PCB 4;

a plurality of hard disk contact terminal jacks 102 are respectively arranged on two sides of a fence 101 on the main rubber core 1, one end of each hard disk contact terminal 2 is inserted into the corresponding hard disk contact terminal jack 102, and the other end of each hard disk contact terminal is connected to the PCB 4; the main body rubber core 1 is also provided with a positioning column 103, and the PCB 4 is connected to the positioning column 103;

two sides of the cover body 5 are respectively provided with a press groove 502, and the two press grooves 502 are respectively opposite to the first FFC6 and the second FFC 7.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. A multi-interface data conversion connector, comprising: the FFC adapter comprises a main rubber core (1), hard disk contact terminals (2), an FFC adapter terminal (3), a PCB (4) and a cover body (5), wherein the PCB (4) is connected to the main rubber core (1) through a plurality of hard disk contact terminals (2), the FFC adapter terminal (3) is further arranged between the PCB (4) and the main rubber core (1), and the FFC adapter terminal (3) is connected with an FFC;

a cover body (5) is arranged on the outer side of the PCB (4), and the cover body (5) is connected to the main rubber core (1);

clamping points (104) are respectively arranged on two sides of the main body rubber core (1), the clamping points (104) are two-section progressive clamping points, clamping grooves (501) are formed in the inner side of the cover body (5) corresponding to the clamping points (104), and the clamping grooves (501) are progressively and sectionally clamped into the clamping points (104);

at least one side of the cover body (5) is provided with a pressing groove (502), and when the cover body (5) is connected to the main body rubber core (1), the pressing groove (502) is over against the socket of the FFC adapter terminal (3).

2. The multi-interface data conversion connector of claim 1, wherein: symmetrical jacks are arranged on two sides of the FFC adapter terminal (3) and are respectively connected with a first FFC (6) and a second FFC (7), and the first FFC (6) and the second FFC (7) are connected to the first jack (301) and the second jack (302) in a plug-in mode.

3. The multi-interface data conversion connector of claim 2, wherein: and a stop block (601) is arranged at the connecting end of the first FFC (6) and/or the second FFC (7) and the FFC switching terminal (3), and when the cover body (5) is connected to the main rubber core (1), the stop block (601) is positioned on the inner side of the pressing groove (502).

4. The multi-interface data conversion connector of claim 1, wherein: the middle of the main body rubber core (1) is provided with a plurality of fences (101), one end of the FFC adapter terminal (3) is inserted into the fence (101) for fixation, and the other end of the FFC adapter terminal is connected to the PCB (4).

5. The multi-interface data conversion connector of claim 1, wherein: the main body rubber core (1) is provided with a plurality of hard disk contact terminal sockets (102) on two sides of the upper fence (101), one end of each hard disk contact terminal (2) is inserted into the corresponding hard disk contact terminal socket (102), and the other end of each hard disk contact terminal is connected to the PCB (4).

6. The multi-interface data conversion connector of claim 1, wherein: still be equipped with reference column (103) on main part rubber core (1), PCB board (4) are connected on reference column (103).

7. The multi-interface data conversion connector of claim 1, wherein: only one side of the cover body (5) is provided with a pressing groove (502), and one side of the FFC adapter terminal (3) opposite to the pressing groove (502) is connected with the FFC.

8. The multi-interface data conversion connector of claim 1, wherein: two sides of the cover body (5) are respectively provided with a pressing groove (502), and the two pressing grooves (502) are respectively opposite to the first FFC (6) and the second FFC (7).

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