CN101969166A - Shielding plug-in structure of flat cable connector - Google Patents

Abstract

The invention discloses a shielding plug-in structure of a flat cable connector, comprising a plug-in base and a compression structural member, wherein, the plug-in base comprises a plug-in groove and side walls which are formed at the two opposite sides of the plug-in groove; a pair of jointed structures are formed at the two opposite sides of the compression structural member, so as to pivot and combine the compression structural member on the side wall of the plug-in base; when in operation, the compression structural member is positioned on an opening position or on a covering position by taking the jointed structure as the rotating center; the compression structural member is made of metal materials; at least one part of the plug-in base is made of metal material to serve as a conductive connecting part which is connected with a grounded terminal; and a circuit flat cable is inserted into the plug-in space of the plug-in groove at the opening position of the compression structural member, and the compression structural member is operated to be pressed downwards to cover on the circuit flat cable, and is conductively connected with the grounded terminal through the conductive connecting part. The embodiment of the invention can improve the defect of the external electromagnetic interference when the traditional circuit flat cable is inserted into the connector, thus achieving better shielding effect.

Description

The shielding connected structure of bus bar connector

Technical field

The invention relates to a kind of design of connector construction, particularly about a kind of shielding connected structure of bus bar connector.

Background technology

Connector is a kind of jockey that connects electric wire, circuit board and other circuit elements with electric means, its function is to provide a separable interface to connect two subsystems of electronic system inside, make its transmission signals or electric power smoothly, therefore, connector applies to the various electronic products arround our life widely, for example: laptop, personal digital assistant etc.

General connector is to be welded on the circuit board, utilizes that the contact jaw through circuit layout contacts on its splicing ear and the circuit board again, is electrically connected with formation, yet, in some utilization, connector is as fixing another circuit element, for example the fixing purposes of flexible flat cable.Therefore, connector is between a flexible flat cable and a printed circuit board (PCB), as the switching of electric signal.

Known zero insertion force (Zero Insertion Force, ZIF) design of connector includes a plug socket and a press part, plug socket has an inserting groove and is formed at the inserting groove side walls, inserting groove is provided with a plurality of conducting terminals, the corresponding both sides of press part are formed with a pair of pin-jointed structure, so that press part is articulated the sidewall that is incorporated into plug socket, press part can be positioned at an enable possition or with pin-jointed structure as pivot and cover the position when be operated.

The press part of tradition connector is made of nonmetallic materials, when the circuit cable of connector and clamping thereof in electronic system when transmission signals or electric power, be the lead terminal of one external electromagnetic interference by connector to be directed on the near-end circuit board by the press part that is pressed on the circuit cable, thus cause signal conduction between system noise to occur and the disadvantage Chang Wufa that influences its signal quality solves effectively.

Summary of the invention

Therefore, main purpose of the present invention promptly provides a kind of shielding connected structure of bus bar connector, when being inserted into connector in order to improve the traditional circuit winding displacement, is subjected to the shortcoming of external electromagnetic interference easily, to reach good shield effectiveness.

The present invention is to be a kind of shielding connected structure of bus bar connector for the technological means that problem adopted that solves known technology, include a grafting pedestal and a compressed component, the grafting pedestal has an inserting groove and a pair of corresponding side walls of inserting groove that is formed at, inserting groove is provided with a plurality of conducting terminals, the corresponding both sides of compressed component are formed with a pair of pin-jointed structure, compressed component is articulated the sidewall that is incorporated into the grafting pedestal, the inserting groove of grafting pedestal is formed with a plant space, compressed component can be positioned at an enable possition or with pin-jointed structure as pivot and cover the position when be operated.

Wherein compressed component is made of metal material, and at least a portion of grafting pedestal is that metal material is made and as junction and be connected with at least one lead terminal.

When circuit cable in the compressed component position and after being inserted into the plant space of inserting groove in the enable possition, one of compressed component compresses end and is operated and be downward pressed on the surface of circuit cable, compressed component is positioned at covers the position, and compressed component is connected to lead terminal by junction.

In another preferred embodiment, the plant space that also can be inserted into inserting groove during in the enable possition in the compressed component position with the inserted terminal of a circuit switch plate, the end that compresses of compressed component is operated the surface that can be downward pressed on the circuit switch plate, compressed component is positioned at covers the position, to grip the circuit switch plate.

And circuit cable is can be in conjunction with being fixed on the circuit switch plate, in order to electrically connecting, and is transmitted by the electric signal of circuit cable transmission first contact jaw by conducting terminal by the circuit switch plate and to be directed on the near-end circuit board, to meet the application of industry.

By the technology used in the present invention means, because the junction of compressed component and grafting pedestal is constituted by metal material, so when the circuit cable of connector and clamping thereof in electronic system when transmission signals or electric power, can the lead terminal of one external electromagnetic interference by connector be directed on the near-end circuit board by above-mentioned member, solve the available circuit winding displacement and can't effectively prevent external electromagnetic interference, cause signal conduction between system noise to occur and influence the disadvantage of its signal quality, and then reach good shield effectiveness.

In addition, owing to be to grip circuit cable by compressed component, meet zero insertion force (ZeroInsertion Force, ZIF) design of connector, this kind design can improve the shortcoming that the too high insertion force that connector caused that tradition is applied to integrated circuit, printed circuit board (PCB) or circuit cable causes assembling difficulty and may produce mechanical damage on electronic packaging.

Description of drawings

Fig. 1 is the stereogram that shows first embodiment of the invention;

Fig. 2 is the three-dimensional exploded view that shows first embodiment of the invention;

Fig. 3 is the local enlarged view that shows first embodiment of the invention;

Fig. 4 shows that the compressed component of first embodiment of the invention is positioned at the stereogram of enable possition;

Fig. 5 is one of stereoscopic motion figure that shows first embodiment of the invention;

Fig. 6 is the sectional drawing that shows the 6-6 section among Fig. 5 of first embodiment of the invention;

Fig. 7 be show first embodiment of the invention stereoscopic motion figure two;

Fig. 8 is the sectional drawing that shows the 8-8 section among Fig. 7 of first embodiment of the invention;

Fig. 9 is the sectional drawing that shows the 9-9 section among Fig. 7 of first embodiment of the invention;

Figure 10 is that the circuit switch plate that shows first embodiment of the invention is inserted into the sectional drawing that connector and circuit cable are incorporated into one of the practical application of circuit switch plate;

Figure 11 is that the circuit switch plate that shows first embodiment of the invention is inserted into two the sectional drawing that connector and circuit cable are incorporated into the practical application of circuit switch plate;

Figure 12 is that the circuit switch plate that shows first embodiment of the invention is inserted into three the sectional drawing that connector and circuit cable are incorporated into the practical application of circuit switch plate.

Drawing reference numeral

100 shielding connected structures

1 grafting pedestal

10 inserting grooves

11,11a sidewall

12,12a sliding guide groove

120,120a junction

121, the 121a first guide groove end

122, the 122a second guide groove end

2 compressed components

20,20a pin-jointed structure

21 compress end

3 conducting terminals

30 first contact jaws

31 second contact jaws

32 the 3rd contact jaws

4,4a lead terminal

5 circuit cables

51 conduction contact jaws

52 ground areas

The 5a circuit cable

The 50a jointing

51a conducts electricity contact jaw

The 5b circuit cable

The 50b jointing

51b conducts electricity contact jaw

The 5c circuit cable

The 50c jointing

51c conducts electricity contact jaw

6 circuit boards

61 conduction contact jaws

7 circuit switch plates

71 inserted terminals

72 winding displacement links

73 ground areas

74 conduction contact jaws

75,75a, 75b perforation

8 coverlays

8a, 8b, 8c tin point

The I1 direction of rotation

The I2 direction of rotation

The P1 enable possition

P2 covers the position

S2 plant space

Embodiment

Specific embodiment of the present invention will be further described by following embodiment and accompanying drawing.

Please consult Fig. 1 simultaneously to shown in Figure 4, Fig. 1 is the stereogram that shows first embodiment of the invention, Fig. 2 is the three-dimensional exploded view that shows first embodiment of the invention, Fig. 3 is the local enlarged view that shows first embodiment of the invention, and Fig. 4 shows that the compressed component of first embodiment of the invention is positioned at the stereogram of enable possition.As shown in Figure 1, the shielding connected structure 100 of bus bar connector of the present invention includes a grafting pedestal 1 and a compressed component 2.Grafting pedestal 1 has an inserting groove 10 and a pair of inserting groove 10 corresponding side walls 11, the 11a of being formed at.

As shown in Figures 2 and 3, grafting pedestal 1 corresponding sidewall 11,11a are formed with a sliding guide groove 12,12a (not illustrating among the figure) respectively, at least a portion of sliding guide groove 12,12a is that metal material is made and as a junction 120,120a (not illustrating among the figure), in addition, sliding guide groove 12,12a have at least one first guide groove end 121,121a and at least one second guide groove end 122,122a respectively.

As shown in Figure 2, compressed component 2 of the present invention is made of metal material, and compressed component 2 corresponding both sides have a pair of pin-jointed structure 20,20a respectively.

As Fig. 4 and shown in Figure 9, in embodiments of the present invention, the inserting groove 10 of grafting pedestal 1 is formed with a plant space S 2, and the inwall of inserting groove 10 is equipped with the conducting terminal of putting between a plurality of those neighbours 3, wherein an end of conducting terminal 3 is defined as one first contact jaw 30, in order to be connected with conduction contact jaw 61 on the circuit board 6, and the other end that is different from first contact jaw 30 is formed with one second contact jaw 31 and one the 3rd contact jaw 32, is connected in order to the conduction contact jaw 51 (seeing also Fig. 5) with a circuit cable 5 (seeing also Fig. 5).

Please consult Fig. 5 and Fig. 6 more simultaneously, Fig. 5 is one of stereoscopic motion figure that shows first embodiment of the invention, and Fig. 6 is the sectional drawing that shows the 6-6 section among Fig. 5 of first embodiment of the invention.The junction 120 of the sliding guide groove 12 of grafting pedestal 1 of the present invention, 12a (not illustrating among the figure), 120a (not illustrating among the figure) are connected with at least one lead terminal 4,4a (not illustrating among the figure) respectively, and lead terminal 4,4a can wear and be fixed on the circuit board 6.As shown in Figure 6, when operation, compressed component 2 is to cover position P2 (seeing also Fig. 8) so that compressed component 2 can be positioned on an enable possition P1 or by the slippage and rotate simultaneously as pivot with pin-jointed structure 20,20a in the sliding guide groove 12 of the sidewall 11 of grafting pedestal 1,11a, 12a of pin-jointed structure 20,20a (not illustrating among the figure).

When circuit cable 5 desires to be inserted into the plant space S 2 of inserting groove 10 of grafting pedestal 1, compressed component 2 can be by operation, and make the pin-jointed structure 20 of compressed component 2,20a slide onto the first guide groove end 121,121a (not illustrating among the figure) by the second guide groove end 122,122a (not illustrating among the figure), and simultaneously with pin-jointed structure 20,20a as pivot, make compressed component 2 turn to enable possition P1 according to a direction of rotation I1.

Please consult Fig. 7 to Fig. 9 more simultaneously, Fig. 7 be show first embodiment of the invention stereoscopic motion figure two, Fig. 8 is the sectional drawing that shows the 8-8 section among Fig. 7 of first embodiment of the invention, and Fig. 9 is the sectional drawing that shows the 9-9 section among Fig. 7 of first embodiment of the invention.As shown in Figures 7 and 8, when circuit cable 5 has been inserted into the plant space S 2 (seeing also Fig. 5) of inserting groove 10 (seeing also Fig. 5) of grafting pedestal 1, one of compressed component 2 compresses end 21 and is operated and be downward pressed on the surface of circuit cable 5, to grip circuit cable 5, the pin-jointed structure 20 of compressed component 2 wherein, 20a (not illustrating among the figure) is by sliding guide groove 12, the first guide groove end 121 of 12a (not illustrating among the figure), 121a (not illustrating among the figure) slides onto the second guide groove end 122,122a (not illustrating among the figure), and simultaneously with pin-jointed structure 20,20a is as pivot, make compressed component 2 according to a direction of rotation I2 by enable possition P1 (seeing also Fig. 6) positioning of rotating to covering position P2.

As shown in Figure 8, compressed component 2 is connected to lead terminal 4,4a by its pin-jointed structure 20,20a and sliding guide groove 12, the junction 120 of 12a, 120a, because compressed component 2, pin-jointed structure 20,20a and junction 120,120a are made of metal material, so circuit cable 5 can be directed to the end of an external electromagnetic interference by circuit cable 5 on the near-end circuit board 6 by compressed component 2, pin-jointed structure 20,20a, junction 120,120a and lead terminal 4,4a, to reach good shield effectiveness.

As shown in Figure 9, when circuit cable 5 is inserted into the shielding connected structure 100 of bus bar connector of the present invention, the end 21 that compresses of compressed component 2 is operated and is downward pressed on the ground area 52 of circuit cable 5, a plurality of conduction contact jaws 51 of circuit cable 5 are to locate the 3rd contact jaw 32 that is contacted with conducting terminal 3 exactly, are directed on the near-end circuit board 6 in order to electrically connect and to transmit first contact jaw 30 of electric signal by conducting terminal 3.

See also shown in Figure 10ly, it is that the circuit switch plate that shows first embodiment of the invention is inserted into the sectional drawing that connector and circuit cable are incorporated into one of the practical application of circuit switch plate.The element of the shielding connected structure 100 of the bus bar connector of this embodiment is same as described above, so components identical is to indicate with the components identical numbering, as a means of correspondence.Its difference is the application for realistic industry, also the inserted terminal 71 of a circuit switch plate 7 can be inserted into the plant space S 2 of inserting groove 10 during at enable possition P1 in 2 of compressed components, the end 21 that compresses of compressed component 2 is operated the surface that can be downward pressed on circuit switch plate 7, compressed component 2 is positioned at covers position P2, to grip circuit switch plate 7.

As shown in figure 10, circuit switch plate 7 includes inserted terminal 71, with respect to inserted terminal 71 and the winding displacement link 72, a ground area 73 and a plurality of conduction contact jaw 74 that are provided with.Winding displacement link 72 is to supply the conduction contact jaw 51a of the jointing 50a of a circuit cable 5a to be located by connecting, and makes circuit cable 5a in conjunction with being fixed on the circuit switch plate 7 with the welding or the mode of plating cloth a coverlay 8 again.And ground area 73 is the surfaces that are formed at circuit switch plate 7, so that the compressing end 21 and can compress really and be contacted with ground area 73 of compressed component 2.A plurality of conduction contact jaws 74 of circuit switch plate 7 are to locate the 3rd contact jaw 32 that is contacted with conducting terminal 3 exactly, are directed on the near-end circuit board 6 in order to electrically connect and to transmit the electric signal that transmitted by circuit cable 5a first contact jaw 30 by conducting terminal 3.

Consult Figure 11 and shown in Figure 12 simultaneously, Figure 11 is that the circuit switch plate that shows first embodiment of the invention is inserted into two the sectional drawing that connector and circuit cable are incorporated into the practical application of circuit switch plate, and Figure 12 is that the circuit switch plate that shows first embodiment of the invention is inserted into three the sectional drawing that connector and circuit cable are incorporated into the practical application of circuit switch plate.This two element that practices is same as described above, so components identical is to indicate with the components identical numbering, as a means of correspondence.Its difference is that the circuit switch plate 7 of Figure 11 more offers a perforation 75 in the position of contiguous winding displacement link 72, for the jointing 50b of a circuit cable 5b by after can be located by connecting in the winding displacement link 72 of circuit switch plate 7 by conduction contact jaw 51b, and the mode with bump 8a makes circuit cable 5b in conjunction with being fixed on the circuit switch plate 7 again, wherein circuit cable 5b as shown in the figure is that forward is inserted into circuit switch plate 7, certainly, the form that accompanying drawing showed also can oppositely be inserted into circuit switch plate 7 and give again, so should not explained the usefulness as restriction the present invention in conjunction with fixing.

7 positions, both sides in contiguous winding displacement link 72 of the circuit switch plate of Figure 12 offer a perforation 75a respectively, 75b, its function is to make the jointing 50c of circuit cable 5c respectively by conduction contact jaw 51c being located by connecting in the winding displacement link 72 of circuit switch plate 7 behind perforation 75a and the perforation 75b equally, again with bump 8b, the mode of 8c makes circuit cable 5c in conjunction with being fixed on the circuit switch plate 7, and then form respectively as Figure 11 and form shown in Figure 12, wherein circuit cable 5c as shown in figure 12 is that forward is inserted into circuit switch plate 7, also can oppositely be inserted into circuit switch plate 7 and give in conjunction with fixing again.

Certainly, so long as those skilled in the art can both learn easily, circuit cable is except being fixed in the circuit switch plate by above-mentioned mode combination with welding, also can utilize conducting resinl that the circuit cable adhesion is positioned the circuit switch plate, or utilize physical property directly to contact, for example: circuit cable is covered be positioned on the circuit switch plate to cover band, perhaps on the circuit switch plate, beat terminal or in modes such as metal clips power supply road wire plug connection or crimping, so the form that accompanying drawing is shown only is one of numerous embodiment, should do not explained usefulness as restriction the present invention.

And; shielding connected structure with bus bar connector is a major technique feature of the present invention; all variations that utilizes principle of the present invention to do; all belong to the category that the present invention asks for protection; and as can be known by above embodiment; value on the true tool industry of the shielding connected structure of bus bar connector provided by the present invention was so the present invention had accorded with the condition of patent application already.But above narration only is preferred embodiment explanation of the present invention, and those skilled in the art can do other all improvement according to above-mentioned explanation, but these change in the scope that still belongs to invention spirit of the present invention and above claims that defined.

Claims (14)

1. the shielding connected structure of a bus bar connector, it is characterized in that, the shielding connected structure of described bus bar connector includes a grafting pedestal and a compressed component, described grafting pedestal has an inserting groove and a pair of corresponding side walls of described inserting groove that is formed at, described inserting groove is provided with a plurality of conducting terminals, the corresponding both sides of described compressed component are formed with a pair of pin-jointed structure, described compressed component is articulated the sidewall that is incorporated into described grafting pedestal, the inserting groove of described grafting pedestal is formed with a plant space, described compressed component can be when being operated, be positioned at an enable possition or with described pin-jointed structure as pivot and cover the position, wherein said compressed component is made of metal material, at least a portion of described grafting pedestal is that metal material is made as junction, described junction is connected with at least one lead terminal, one circuit cable is in described compressed component position in described enable possition and after being inserted into the plant space of described inserting groove, one of described compressed component compresses end and is operated and be downward pressed on the surface of described circuit cable, make described compressed component be positioned at the described position that covers, and described compressed component is connected to described lead terminal by described junction.

2. the shielding connected structure of bus bar connector as claimed in claim 1, it is characterized in that, the pin-jointed structure that the corresponding both sides of described compressed component form, be incorporated into the formed sliding guide groove of sidewall of described grafting pedestal respectively slippingly, described compressed component can be positioned at described enable possition or described cover position in the sliding guide groove slippage of described grafting pedestal and with described pin-jointed structure as pivot with its pin-jointed structure when being operated.

3. the shielding connected structure of bus bar connector as claimed in claim 2, it is characterized in that, the corresponding sidewall of described grafting pedestal the sliding guide groove that forms respectively have at least one first guide groove end and at least one second guide groove end, the pin-jointed structure of described compressed component can the slippage of limited ground between the first guide groove end and the second guide groove end of described sliding guide groove, so that described compressed component can be positioned described enable possition or the described position that covers.

4. the shielding connected structure of bus bar connector as claimed in claim 2 is characterized in that, the junction of the sliding guide groove of described grafting pedestal is made of a metal material.

5. the shielding connected structure of bus bar connector as claimed in claim 1 is characterized in that, an end of described conducting terminal is defined as one first contact jaw, in order to be connected with the conduction contact jaw of a circuit board.

6. the shielding connected structure of bus bar connector as claimed in claim 5, it is characterized in that, the other end that described conducting terminal is different from described first contact jaw is formed with one second contact jaw and one the 3rd contact jaw, in order to be connected with the conduction contact jaw of described circuit cable.

7. the shielding connected structure of a bus bar connector, it is characterized in that, the shielding connected structure of described bus bar connector includes a grafting pedestal and a compressed component, described grafting pedestal has an inserting groove and a pair of corresponding side walls of described inserting groove that is formed at, described inserting groove is provided with a plurality of conducting terminals, the corresponding both sides of described compressed component are formed with a pair of pin-jointed structure, described compressed component is articulated the sidewall that is incorporated into described grafting pedestal, the inserting groove of described grafting pedestal is formed with a plant space, described compressed component can be when being operated, be positioned at an enable possition or with pin-jointed structure as pivot and cover the position, wherein said compressed component is made of metal material, at least a portion of described grafting pedestal be for metal material made as junction, described junction is connected with at least one lead terminal, the inserted terminal of one circuit switch plate is in described compressed component position in described enable possition and after being inserted into the plant space of described inserting groove, one of described compressed component compresses end and is operated and be downward pressed on the surface of described circuit switch plate, make described compressed component be positioned at the described position that covers, and described compressed component is connected to described lead terminal by described junction.

8. the shielding connected structure of bus bar connector as claimed in claim 7, it is characterized in that, the pin-jointed structure that the corresponding both sides of described compressed component form, be incorporated into the formed sliding guide groove of sidewall of described grafting pedestal respectively slippingly, described compressed component can be positioned at described enable possition or described cover position in the sliding guide groove slippage of described grafting pedestal and with described pin-jointed structure as pivot with its pin-jointed structure when being operated.

9. the shielding connected structure of bus bar connector as claimed in claim 8, it is characterized in that, the corresponding sidewall of described grafting pedestal the sliding guide groove that forms respectively have at least one first guide groove end and at least one second guide groove end, the pin-jointed structure of described compressed component can the slippage of limited ground between the first guide groove end and the second guide groove end of described sliding guide groove, so that described compressed component can be positioned described enable possition or the described position that covers.

10. the shielding connected structure of bus bar connector as claimed in claim 8 is characterized in that, the junction of the sliding guide groove of described grafting pedestal is made of a metal material.

11. the shielding connected structure of bus bar connector as claimed in claim 7 is characterized in that, an end of described conducting terminal is defined as one first contact jaw, in order to be connected with the conduction contact jaw of a circuit board.

12. the shielding connected structure of bus bar connector as claimed in claim 11, it is characterized in that, the other end that described conducting terminal is different from described first contact jaw is formed with one second contact jaw and one the 3rd contact jaw, in order to be connected with the conduction contact jaw of described circuit switch plate.

13. the shielding connected structure of bus bar connector as claimed in claim 7, it is characterized in that, the surface of described circuit switch plate is provided with at least one ground area, in the compressing that end is operated of described compressed component and when being downward pressed on described circuit switch plate surperficial, the end that compresses of described compressed component compresses and is contacted with described ground area.

14. the shielding connected structure of bus bar connector as claimed in claim 7 is characterized in that, described circuit switch plate is being to be defined as the winding displacement link with respect to described inserted terminal, in order to the connecting circuit winding displacement.

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