CN204992010U - Connector - Google Patents

Abstract

The utility model discloses a connector, include the base, keep a plurality of conductive terminal in the base, respectively install a plurality of shell fragments on a plurality of conductive terminal's upper portion and be suitable for insert the base in, be used for the drive the driving piece that the shell fragment removed between the primary importance and the second place. When the shell fragment is in during the primary importance the shell fragment with it is suitable for the space of inserting of inserting the wire to form one between the conductive terminal, when the shell fragment is in during the second place, the shell fragment is in male wire centre gripping the shell fragment with between the conductive terminal. The driving piece is suitable for two at least shell fragments that drive simultaneously on two at least conductive terminal to remove between the primary importance and the second place. The utility model discloses in, just can realize simultaneously through inserting a driving piece that two are connected with upper conductor and the electricity between two above conductive terminal, improved connector's wiring efficiency.

Description

Connector

Technical field

The utility model relates to a kind of connector, particularly relates to a kind of electric connector being suitable for being connected fast with wire.

Background technology

In the prior art, the electric connection mode between the terminal of electric connector and wire mainly contains the modes such as wiring of colding pressing, screw wiring and shell fragment wiring.

For existing wiring of colding pressing, need special crimping tool, for same terminal, the scope of its wiring is narrower, and if find conductors against damage, not easily replace conductor, in addition, integrated operation is loaded down with trivial details.

For existing screw wiring, need corresponding screw locking instrument, integrated operation is more loaded down with trivial details.

For existing shell fragment wiring, usually also need instrument (as straight screwdriver) to be opened by shell fragment, then wire is inserted, after instrument is extracted, shell fragment resilience clamping conductor.Generally speaking, although the integrated operation of the existing shell fragment mode of connection simplifies to some extent than cold pressing wiring and screw wiring, but still aobvious loaded down with trivial details, still there is the defect of inconvenient operation.

Utility model content

The purpose of this utility model is intended at least one aspect solving the above-mentioned problems in the prior art and defect.

An object of the present utility model is to provide a kind of connector, and it can realize the connection with wire easily.

According to an aspect of the present utility model, a kind of connector is provided, comprises: base; With multiple conducting terminal, remain in described base.Described base is formed with slot, and the top of described conducting terminal is contained in the slot of described base.Described connector also comprises: multiple shell fragment, is contained in the slot of described base, and is arranged on the top of described conducting terminal respectively; And actuator, being suitable for inserting in the slot of described base, moving between the first location and the second location for driving described shell fragment.When described shell fragment is in described primary importance, between described shell fragment and described conducting terminal, form the insertion space that is suitable for inserting wire; When described shell fragment is in the described second place, the wire clamp of insertion is held between described shell fragment and described conducting terminal by described shell fragment.Described actuator is suitable for driving at least two shell fragments at least two conducting terminals to move between described primary importance and the described second place simultaneously.

According to the embodiment of an exemplary of the present utility model, described actuator is formed the first recess and is positioned at the second recess above described first recess; Described shell fragment is formed an outwardly arc convex portion, and this arc convex portion is suitable for engaging with described first recess and described second recess respectively; When described arc convex portion engages with described first recess, described shell fragment is maintained at described primary importance, and described actuator is maintained at the first bonding station; And when described arc convex portion engages with described second recess, described shell fragment is maintained at the described second place, and described actuator is maintained at the second bonding station.

According to the embodiment of another exemplary of the present utility model, described connector also comprises lid, and described lid is suitable for being arranged on described base; Be formed with wire jack on the lid, described wire is suitable for inserting in the slot of described base by described wire jack; And be also formed with actuator jack on the lid, described actuator is suitable for being inserted in the slot of described base by described actuator jack.

According to the embodiment of another exemplary of the present utility model, described shell fragment comprises first end and the second end, and the first end of described shell fragment is formed a notch; And the top of described conducting terminal has a ligule top, the ligule top of described conducting terminal is slidably received in the notch of described shell fragment.

According to the embodiment of another exemplary of the present utility model, when described shell fragment is in described primary importance, the conductor of described wire is suitable for inserting in the described notch of described shell fragment; And when described shell fragment is in the described second place, described shell fragment will insert the conductor clamp of described notch between described shell fragment and described conducting terminal.

According to the embodiment of another exemplary of the present utility model, the second end of described shell fragment is contained in the notch of described shell fragment, and is resisted against on the side on ligule top of described conducting terminal.

According to the embodiment of another exemplary of the present utility model, the side of described shell fragment is resisted against on the top of described conducting terminal, and opposite side is suitable for contacting with the actuator inserted.

According to the embodiment of another exemplary of the present utility model, be formed with a guide surface tilted in the lower end of described actuator, the arc convex portion on described shell fragment is suitable for sliding along described guide surface.

According to the embodiment of another exemplary of the present utility model, in described base, maintain two row's conducting terminals, and on described base, be formed with the described slot of a row, in each described slot, accommodate two conducting terminals and two corresponding shell fragments.

According to the embodiment of another exemplary of the present utility model, form two row's wire jacks on the lid, and each slot on described base corresponds to two wire jacks.

According to the embodiment of another exemplary of the present utility model, shape actuator jack in a row on the lid, and each described actuator jack corresponds to a slot on described base; And each described actuator is suitable for being inserted in a corresponding slot by a corresponding actuator jack, and be suitable for driving two shell fragments on two conducting terminals being contained in a corresponding slot simultaneously.

According to the embodiment of another exemplary of the present utility model, shape actuator jack in a row on the lid, and each described actuator jack corresponds to a slot on described base; And each described actuator is suitable for being inserted in two corresponding slots by two corresponding actuator jacks simultaneously, and be suitable for driving four shell fragments on four conducting terminals being contained in two corresponding slots simultaneously.

According to the embodiment of another exemplary of the present utility model, form two row's actuator jacks on the lid, and each slot on described base corresponds to two actuator jacks; And each described actuator is suitable for being inserted in a corresponding slot by a corresponding actuator jack, and be suitable for driving a shell fragment on a conducting terminal being contained in slot.

According to the embodiment of another exemplary of the present utility model, in each slot of described base, be formed with first alignment ribs vertically extended; Second alignment ribs vertically extended is formed in each actuator jack of described lid; And be formed with first alignment slot vertically extended in described second alignment ribs, described first alignment ribs is suitable for inserting in described first alignment slot, for guaranteeing that described lid aligns with described base in the vertical direction.

According to the embodiment of another exemplary of the present utility model, described actuator is formed second alignment slot vertically extended, described second alignment ribs is suitable for inserting in described second alignment slot, for guaranteeing that described actuator aligns with described actuator jack in the vertical direction.

According to the embodiment of another exemplary of the present utility model, the top board of described actuator is formed with the instrument jack of the vertical extension that is communicated with described second alignment slot; And external tool is suitable for inserting described instrument jack and joins on described actuator, to be extracted from described slot by the actuator be inserted in the slot of described base, or actuator is pulled out the position that its first recess engages with the arc convex portion on shell fragment.

According to the embodiment of another exemplary of the present utility model, described external tool has two elongated elastic arms, and the end of each elastic arm is formed with the hooked projection portion being suitable for engaging with the periphery of side opening in described instrument jack.

According to the embodiment of another exemplary of the present utility model, two row's conducting terminals are maintained in described base, and be formed with the described slot of two rows on described base, the shell fragment of described conducting terminal and correspondence is contained in each slot of described base respectively.

According to the embodiment of another exemplary of the present utility model, form two row's wire jacks on the lid, and each slot on described base corresponds to two wire jacks on described lid.

According to the embodiment of another exemplary of the present utility model, form two row's actuator jacks on the lid, and each described actuator jack corresponds to two slots on described base; And each described actuator is suitable for inserting in two slots on described base simultaneously, to drive the shell fragment on two conducting terminals simultaneously.

According to the embodiment of another exemplary of the present utility model, be formed with the first instrument jack at the upper limb of the sidewall of described lid, and be formed with the second instrument jack corresponding with described first instrument jack on the top of described actuator; And external tool is suitable for inserting described first instrument jack and described second instrument jack, the actuator be inserted in the slot of described base is ejected from described slot, or by position that actuator top engages to its first recess with the arc convex portion on shell fragment.

According to the embodiment of another exemplary of the present utility model, described lid is buckled on described base.

According to the embodiment of another exemplary of the present utility model, the sidewall of described lid forms draw-in groove, and be formed with projection on the outer wall of described base; And when described lid is arranged on described base, the projection on described base is snapped in the draw-in groove on described lid.

According to the embodiment of another exemplary of the present utility model, be formed with the first T-slot respectively at the two ends of described base, and have second T-slot corresponding with described first T-slot respectively at the two ends of described lid; Described connector also comprises the mounting panel being suitable for being arranged on described first T-slot and the T-shaped mounting blocks in described second T-slot and being connected with described T-shaped mounting blocks; And the screw be provided with on described mounting panel for described connector being installed on panel.

According to the embodiment of another exemplary of the present utility model, be formed with a brace table protruded respectively in the bottom at the two ends of described base, and described mounting panel is located and is remained on the brace table of described base.

According in foregoing individual embodiments of the present utility model, only needing, by the slot of actuator inserted base, just can realize the electrical connection between wire and the conducting terminal of connector, without the need to using extra instrument, improve the wiring efficiency of connector.

In addition, in embodiments more of the present utility model, actuator can drive two, shell fragment on a four or more conducting terminal simultaneously, therefore, insert the electrical connection that an actuator just can realize between two or more wire and two or more conducting terminal simultaneously, thus further increasing the wiring efficiency of connector.

Similarly, in embodiments more of the present utility model, when needs restringing, just can unclamp two or more wire by extracting an actuator, what improve connector moves back line efficiency simultaneously.

By the description hereinafter done the utility model with reference to accompanying drawing, other object of the present utility model and advantage will be apparent, and can help there is comprehensive understanding to the utility model.

Accompanying drawing explanation

Fig. 1 display is according to the schematic perspective view of the base of the connector of the first embodiment of the present utility model;

Fig. 2 shows the cutaway view of the base shown in Fig. 1, which show maintenance conducting terminal in the base and the shell fragment be arranged on conducting terminal;

Fig. 3 shows the schematic perspective view of the conducting terminal shown in Fig. 2 and shell fragment;

Fig. 4 is presented at the schematic perspective view of the connector after being arranged on the base shown in Fig. 1 by lid;

Fig. 5 shows the cutaway view of the connector shown in Fig. 4, which show maintenance conducting terminal in the base and the shell fragment be arranged on conducting terminal;

Fig. 6 display by actuator via the schematic diagram in the slot of the actuator jack inserted base on lid, the wherein arc convex portion of the guide surface of the lower end of actuator just contact flat spring;

Fig. 7 shows the relative position relation between the actuator shown in Fig. 6 and shell fragment;

Fig. 8 display driver part is inserted into schematic diagram during the first bonding station, and wherein the first recess of actuator engages with the arc convex portion of shell fragment;

Fig. 9 shows the relative position relation between actuator in Fig. 8 and shell fragment;

The schematic perspective view of connector when Figure 10 display driver part is inserted into the first bonding station, which show the mounting structure for being installed to by connector on panel;

Figure 11 is presented at the cutaway view of wire via the connector after in the slot of the wire jack inserted base on lid;

Figure 12 shows the wire in Figure 11, the relative position relation between actuator and shell fragment;

Actuator is inserted into schematic diagram during the second bonding station by Figure 13 display, and wherein the second recess of actuator engages with the arc convex portion of shell fragment;

Figure 14 shows the schematic diagram utilizing external tool to be exited from the slot of base by the actuator of insertion;

Figure 15 display is according to the schematic perspective view of the base of the connector of the second embodiment of the present utility model;

Figure 16 shows the cutaway view of the base shown in Figure 15, which show maintenance conducting terminal in the base and the shell fragment be arranged on conducting terminal;

Figure 17 shows the schematic perspective view of the conducting terminal shown in Figure 16 and shell fragment;

Figure 18 is presented at the schematic perspective view of the connector after being arranged on the base shown in Figure 15 by lid;

Figure 19 shows the cutaway view of the connector shown in Figure 18, which show maintenance conducting terminal in the base and the shell fragment be arranged on conducting terminal;

Figure 20 display by actuator via the schematic diagram in the slot of the actuator jack inserted base on lid, the wherein arc convex portion of the guide surface of the lower end of actuator just contact flat spring;

Figure 21 shows the relative position relation between the actuator shown in Figure 20 and shell fragment;

Figure 22 display driver part is inserted into schematic diagram during the first bonding station, and wherein the first recess of actuator engages with the arc convex portion of shell fragment;

Figure 23 shows the relative position relation between actuator in Figure 22 and shell fragment;

The schematic perspective view of connector when Figure 24 display driver part is inserted into the first bonding station, which show the mounting structure for being installed to by connector on panel;

Figure 25 is presented at the cutaway view of wire via the connector after in the slot of the wire jack inserted base on lid;

Figure 26 shows the wire in Figure 25, the relative position relation between actuator and shell fragment;

Actuator is inserted into schematic diagram during the second bonding station by Figure 27 display, and wherein the second recess of actuator engages with the arc convex portion of shell fragment; With

Figure 28 shows the schematic diagram utilizing external tool to be exited from the slot of base by the actuator of insertion.

Figure 29 display is according to the schematic perspective view of the connector of the 3rd embodiment of the present utility model;

Figure 30 shows the schematic perspective view of the actuator of the connector shown in Figure 29;

Figure 31 shows an actuator of the connector shown in Figure 29 and the schematic perspective view of four corresponding conducting terminals and four shell fragments;

Figure 32 display is according to the schematic perspective view of the connector of the 4th embodiment of the present utility model; With

Figure 33 shows an actuator of the connector shown in Figure 32 and the schematic perspective view of a corresponding conducting terminal and a shell fragment.

Embodiment

Below by embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is described in further detail.In the description, same or analogous drawing reference numeral indicates same or analogous parts.The explanation of following reference accompanying drawing to the utility model execution mode is intended to make an explanation to overall utility model design of the present utility model, and not should be understood to one restriction of the present utility model.

In addition, in the following detailed description, for ease of explaining, many concrete details have been set forth to provide the complete understanding to this disclosure embodiment.But significantly, one or more embodiment also can be implemented when not having these details.In other cases, known construction and device diagrammatically embodies to simplify accompanying drawing.

According to general technical design of the present utility model, provide a kind of connector, comprise base and remain on the multiple conducting terminals in described base.Described base is formed with slot, and the top of described conducting terminal is contained in the slot of described base.Described connector also comprises: multiple shell fragment, is contained in the slot of described base, and is arranged on the top of described conducting terminal respectively; And actuator, being suitable for inserting in the slot of described base, moving between the first location and the second location for driving described shell fragment.When described shell fragment is in described primary importance, between described shell fragment and described conducting terminal, form the insertion space that is suitable for inserting wire; When described shell fragment is in the described second place, the wire clamp of insertion is held between described shell fragment and described conducting terminal by described shell fragment.Described actuator is suitable for driving at least two shell fragments at least two conducting terminals to move between described primary importance and the described second place simultaneously

first embodiment

Fig. 1 to Figure 14 shows the connector according to the first embodiment of the present utility model.Fig. 1 display is according to the schematic perspective view of the base 100 of the connector of an embodiment of the present utility model; Fig. 2 shows the cutaway view of the base 100 shown in Fig. 1, which show the conducting terminal 200 remained in base 100 and the shell fragment 300 be arranged on conducting terminal 200; Fig. 3 shows the schematic perspective view of the conducting terminal 200 shown in Fig. 2 and shell fragment 300.

In the embodiment of an exemplary of the present utility model, disclose a kind of connector.As shown in Figure 1 to Figure 3, in the illustrated embodiment in which, this connector mainly comprises base 100 and the conducting terminal 200 remained in base 100.

As Fig. 1 and Fig. 2 clearly illustrates, base 100 is formed with slot 110, the top 210 of conducting terminal 200 is contained in the slot 110 of base 100.In the illustrated embodiment in which, the top 210 of conducting terminal 200 is in flat tabular, for conductor 810 electrical contact (see Figure 13) with wire 800, the bottom 220 of conducting terminal 200, in column, is suitable for the conducting terminal electrical contact with the connector (not shown) of pairing.

As shown in Figures 2 and 3, in the illustrated embodiment in which, connector also comprises shell fragment 300 and actuator 500 (see Fig. 6 to Figure 13).Shell fragment 300 is contained in the slot 110 of base 100, and is arranged on the top 210 of conducting terminal 200.Actuator 500 is suitable in the slot 110 of inserted base 100, moves between the first location and the second location for driving shell fragment 300.

When shell fragment 300 is when primary importance (position shown in Figure 11 and Figure 12), between shell fragment 300 and conducting terminal 200, form the insertion space that is suitable for inserting wire 800.When shell fragment 300 is when the second place (position shown in Figure 13), the wire 800 of insertion is clamped between shell fragment 300 and conducting terminal 200 by shell fragment 300.

Fig. 4 is presented at the schematic perspective view of the connector after being arranged on the base 100 shown in Fig. 1 by lid 400; Fig. 5 shows the cutaway view of the connector shown in Fig. 4, which show the conducting terminal 200 remained in base 100 and the shell fragment 300 be arranged on conducting terminal 200.

As shown in Figure 4 and Figure 5, in the illustrated embodiment in which, connector also comprises lid 400, and this lid 400 is suitable for being arranged on base 100.As shown in Figure 4 and Figure 5, lid 400 is formed with wire jack 411, wire 800 is suitable in the slot 110 by wire jack 411 inserted base 100 (see Figure 11 and Figure 12); And be also formed with actuator jack 412 on lid 400, actuator 500 is suitable in the slot 110 by actuator jack 412 inserted base 100.

As shown in Figure 4 and Figure 5, in the illustrated embodiment in which, lid 400 is buckled on base 100.

In the embodiment shown in Fig. 4 and Fig. 5, the sidewall of lid 400 forms draw-in groove 420, and on the outer wall of base 100, be formed with protruding 120.When lid 400 is arranged on base 100, the projection 120 on base 100 is snapped in the draw-in groove 420 on lid 400.

As Fig. 3 clearly illustrates, in the illustrated embodiment in which, shell fragment 300 comprises first end 310 and the second end 320, and the first end 310 of shell fragment 300 is formed a notch 311; And the top 210 of conducting terminal 200 has a ligule top 211, the ligule top 211 of conducting terminal 200 is slidably received in the notch 311 of shell fragment 300.

Fig. 6 display by actuator 500 via the schematic diagram in the slot 110 of actuator jack 412 inserted base 100 on lid 400, the wherein arc convex portion 330 of the guide surface 510 of the lower end of actuator 500 just contact flat spring 300; Fig. 7 shows the relative position relation between the actuator 500 shown in Fig. 6 and shell fragment 300.

As shown in Figure 6 and Figure 7, be formed with a guide surface 510 tilted in the lower end of actuator 500, when just inserting actuator 500, the arc convex portion 330 on shell fragment 300 is suitable for sliding along the guide surface 510 of actuator 500.

When shell fragment 300 is when primary importance (position shown in Figure 11 and Figure 12), the conductor 810 of wire 800 is suitable for inserting in the notch 311 of shell fragment 300; And when shell fragment 300 is when the second place (position shown in Figure 13), the conductor 810 inserting notch 311 is clamped between shell fragment 300 and conducting terminal 200 by shell fragment 300.Like this, the electrical connection between wire 800 and conducting terminal 200 can just be realized.

Refer to Fig. 3, in the illustrated embodiment in which, the second end 320 of shell fragment 300 is contained in the notch 311 of shell fragment 300, and is resisted against on the side on ligule top 211 of conducting terminal 200.The side of shell fragment 300 is resisted against on the top 210 of conducting terminal 200, and opposite side is suitable for contacting (see Fig. 8 to Figure 13) with the actuator 500 inserted.

Fig. 8 display driver part 500 is inserted into schematic diagram during the first bonding station, and wherein the first recess 520 of actuator 500 engages with the arc convex portion 330 of shell fragment 300; Fig. 9 shows the relative position relation between actuator 500 in Fig. 8 and shell fragment 300.

As shown in Figure 8 and Figure 9, in the embodiment of an exemplary of the present utility model, the second recess 530 actuator 500 being formed the first recess 520 and being positioned at above the first recess 520.As shown in Fig. 3, Fig. 8 and Fig. 9, shell fragment 300 is formed an outwardly arc convex portion 330, and this arc convex portion 330 is suitable for engaging with the first recess 520 and the second recess 530 respectively.

Figure 11 is presented at the cutaway view of wire 800 via the connector after in the slot 110 of wire jack 411 inserted base 100 on lid 400; Figure 12 shows the wire 800 in Figure 11, the relative position relation between actuator 500 and shell fragment 300.

As shown in Figure 8 and Figure 9, when the arc convex portion 330 on shell fragment 300 engages with the first recess 520 on actuator 500, as is illustrated by figs. 11 and 12, shell fragment 300 driven member 500 moves to primary importance, now, wire 800 via in the slot 110 of wire jack 411 inserted base 100 on lid 400, and can be inserted in the notch 311 of shell fragment 300.

After the conductor 810 of wire 800 is inserted in the notch 311 of shell fragment 300, can continue downwards to insert actuator 500, until the second recess 530 on actuator 500 engages with the arc convex portion 330 on shell fragment 300.

Actuator 500 is inserted into schematic diagram during the second bonding station by Figure 13 display, and wherein the second recess 530 of actuator 500 engages with the arc convex portion 330 of shell fragment 300.

As shown in figure 13, when the arc convex portion 330 on shell fragment 300 engages with the second recess 530 on actuator 500, shell fragment 300 moves to the second place, and now, the conductor 810 inserted in the notch 311 of shell fragment 300 is clamped between shell fragment 300 and conducting terminal 200.

In the aforementioned embodiment, when the arc convex portion 330 on shell fragment 300 engages with the first recess 520 on actuator 500, shell fragment 300 is maintained at primary importance, and actuator 500 is maintained at the first bonding station.Similarly, when the arc convex portion 330 on shell fragment 300 engages with the second recess 530 on actuator 500, shell fragment 300 is maintained at the second place, and actuator 500 is maintained at the second bonding station.As depicted in figs. 1 and 2, in the illustrated embodiment in which, in base 100, maintain two row's conducting terminals 200, and on base 100, be formed with two rows of sockets 110, the shell fragment 300 of conducting terminal 200 and correspondence is contained in each slot 110 of base 100 respectively.

As shown in Figure 4 and Figure 5, in the illustrated embodiment in which, lid 400 is formed two row's wire jacks 411, and the wire jack 411 on lid 400 is distinguished with the slot 110 on base 100 corresponding.

As shown in Figure 4 and Figure 5, in the illustrated embodiment in which, shape actuator jack 412 in a row on lid 400, and each actuator jack 412 corresponds to a slot 110 on base 100.As shown in Fig. 6 to Figure 13, each actuator 500 is suitable for being inserted in a corresponding slot 110 by a corresponding actuator jack 412, and is suitable for driving two shell fragments 300 on two conducting terminals 200 being contained in a corresponding slot 110 simultaneously.As Fig. 5 and Fig. 6 clearly illustrates, in an embodiment of the present utility model, in each slot 110 of base 100, be formed with first alignment ribs 150 vertically extended; Second alignment ribs 450 vertically extended is formed in each actuator jack 412 of lid 400; And in the second alignment ribs 450, be formed with first alignment slot 451 vertically extended.First alignment ribs 150 is suitable in insertion first alignment slot 451, for guaranteeing that in process lid 400 being installed to base 100 lid 400 aligns with base 100 in the vertical direction.

As Fig. 5 and Fig. 6 clearly illustrates, in an embodiment of the present utility model, actuator 500 is formed with second alignment slot 550 vertically extended.Second alignment ribs 450 is suitable in insertion second alignment slot 550, for guaranteeing that in process actuator 500 being inserted into actuator jack 412 actuator 500 aligns with actuator jack 412 in the vertical direction.

Figure 14 shows the schematic diagram utilizing external tool 900 to be exited from the slot 110 of base 100 by the actuator 500 of insertion.

As shown in figure 14, in the illustrated embodiment in which, the top board of actuator 500 is formed with the instrument jack 540 of the vertical extension that is communicated with the second alignment slot 550; And external tool 900 is suitable for insertion tool jack 540 and joins on actuator 500, to be extracted from slot 110 by the actuator 500 be inserted in the slot 110 of base 100, or actuator 500 is pulled out the position that its first recess 520 engages with the arc convex portion 330 on shell fragment 300.

In the embodiment of an exemplary of the present utility model, as shown in figure 14, external tool 900 has two elongated elastic arms 910,910, and the end of each elastic arm 910,910 is formed with the hooked projection portion 911 being suitable for engaging with the periphery of side opening in instrument jack 540.Like this, after two elastic arms 910,910 of external tool 900 insert the instrument jack 540 of actuator 500, the end of two elastic arms 910,910 expands outwardly out under the effect of elastic restoring force, and hook-shaped lug boss 911 on the end of two elastic arms 910,910 is engaged with the periphery of the interior side opening of instrument jack 540.Like this, just by external tool 900, the actuator 500 be inserted in the slot 110 of base 100 can be extracted from slot 110, or actuator 500 be pulled out the position that its first recess 520 engages with the arc convex portion 330 on shell fragment 300.Like this, the wire 800 of clamping just unclamps by shell fragment 300, thus can extract wire 800 easily from connector.

The schematic perspective view of connector when Figure 10 display driver part 500 is inserted into the first bonding station, which show the mounting structure for being installed to by connector on panel.

As shown in Figure 10, be formed with the first T-slot 140 respectively at the two ends of base 100, and have second T-slot 440 corresponding with the first T-slot 140 at the two ends of lid 400 respectively.Connector also comprises the mounting panel 700 being suitable for being arranged on the first T-slot 140 and the T-shaped mounting blocks 600 in the second T-slot 440 and being connected with T-shaped mounting blocks 600.Mounting panel 700 is provided with the screw 710 for being installed to by connector on panel (not shown).

As shown in Fig. 1 and Figure 10, be formed with a brace table 130 protruded respectively in the bottom at the two ends of base 100, and mounting panel 700 is located and is remained on the brace table 130 of base 100.

In foregoing individual embodiments of the present utility model, only need in the slot 110 of actuator 500 inserted base 100, electrical connection between the conducting terminal 200 that just can realize wire 800 and connector, without the need to using extra instrument, improves the wiring efficiency of connector.

In addition, in embodiments more of the present utility model, actuator 500 can drive the shell fragment 300 on two conducting terminals 200 simultaneously, therefore, insert the electrical connection that an actuator 500 just can realize between two wires 800 and two conducting terminals 200 simultaneously, thus further increasing the wiring efficiency of connector.

Similarly, in embodiments more of the present utility model, when needs restringing 800, just can unclamp two wires 800 by extracting an actuator 500, what improve connector moves back line efficiency simultaneously.

second embodiment

Figure 15 to Figure 28 shows the connector according to the second embodiment of the present utility model.Figure 15 display is according to the schematic perspective view of the base 100 ' of the connector of an embodiment of the present utility model; Figure 16 shows the cutaway view of the base 100 ' shown in Figure 15, which show the conducting terminal 200 ' remained in base 100 ' and the shell fragment 300 ' be arranged on conducting terminal 200 '; Figure 17 shows the schematic perspective view of the conducting terminal 200 ' shown in Figure 16 and shell fragment 300 '.

In the embodiment of the second exemplary of the present utility model, disclose a kind of connector.As shown in Figure 15 to Figure 17, in the illustrated embodiment in which, this connector mainly comprises base 100 ' and the conducting terminal 200 ' remained in base 100 '.

As Figure 15 and Figure 16 clearly illustrates, base 100 ' is formed with slot 110 ', the top 210 ' of conducting terminal 200 ' is contained in the slot 110 ' of base 100 '.In the illustrated embodiment in which, the top 210 ' of conducting terminal 200 ' is in flat tabular, for the conductor 810 ' electrical contact (see Figure 27) with wire 800 ', the bottom 220 ' of conducting terminal 200 ', in column, is suitable for the conducting terminal electrical contact with the connector (not shown) of pairing.

As shown in Figure 16 and Figure 17, in the illustrated embodiment in which, connector also comprises shell fragment 300 ' and actuator 500 ' (see Figure 20 to Figure 27).Shell fragment 300 ' is contained in the slot 110 ' of base 100 ', and is arranged on the top 210 ' of conducting terminal 200 '.Actuator 500 ' is suitable in the slot 110 ' of inserted base 100 ', moves between the first location and the second location for driving shell fragment 300 '.

When shell fragment 300 ' is when primary importance (position shown in Figure 25 and Figure 26), between shell fragment 300 ' and conducting terminal 200 ', form the insertion space that is suitable for inserting wire 800 '.When shell fragment 300 ' is when the second place (position shown in Figure 27), the wire 800 ' inserted is clamped between shell fragment 300 ' and conducting terminal 200 ' by shell fragment 300 '.

Figure 18 is presented at the schematic perspective view of the connector after being arranged on the base 100 ' shown in Figure 15 by lid 400 '; Figure 19 shows the cutaway view of the connector shown in Figure 18, which show the conducting terminal 200 ' remained in base 100 ' and the shell fragment 300 ' be arranged on conducting terminal 200 '.

As shown in Figure 18 and Figure 19, in the illustrated embodiment in which, connector also comprises lid 400 ', and this lid 400 ' is suitable for being arranged on base 100 '.As shown in Figure 18 and Figure 19, lid 400 ' is formed with wire jack 411 ', wire 800 ' is suitable for (see Figure 25 and Figure 26) in the slot 110 ' by wire jack 411 ' inserted base 100 '; And be also formed with actuator jack 412 ' on lid 400 ', actuator 500 ' is suitable in the slot 110 ' by actuator jack 412 ' inserted base 100 '.

As shown in Figure 18 and Figure 19, in the illustrated embodiment in which, lid 400 ' is buckled on base 100 '.

In the embodiment shown in Figure 18 and Figure 19, the sidewall of lid 400 ' forms draw-in groove 420 ', and on the outer wall of base 100 ', be formed with protruding 120 '.When lid 400 ' is arranged on base 100 ', the projection 120 ' on base 100 ' is snapped in the draw-in groove 420 ' on lid 400 '.

As Figure 17 clearly illustrates, in the illustrated embodiment in which, shell fragment 300 ' comprises first end 310 ' and the second end 320 ', and the first end 310 ' of shell fragment 300 ' is formed a notch 311 '; And the top 210 ' of conducting terminal 200 ' has a ligule top 211 ', the ligule top 211 ' of conducting terminal 200 ' is slidably received in the notch 311 ' of shell fragment 300 '.

Figure 20 display by actuator 500 ' via the schematic diagram in the slot 110 ' of the actuator jack 412 ' inserted base 100 ' on lid 400 ', the wherein arc convex portion 330 ' of the guide surface 510 ' of the lower end of actuator 500 ' just contact flat spring 300 '; Figure 21 shows the relative position relation between the actuator 500 ' shown in Figure 20 and shell fragment 300 '.

As shown in Figure 20 and Figure 21, be formed with a guide surface 510 ' tilted in the lower end of actuator 500 ', when just inserting actuator 500 ', the arc convex portion 330 ' on shell fragment 300 ' is suitable for sliding along the guide surface 510 ' of actuator 500 '.

When shell fragment 300 ' is when primary importance (position shown in Figure 25 and Figure 26), the conductor 810 ' of wire 800 ' is suitable for inserting in the notch 311 ' of shell fragment 300 '; And when shell fragment 300 ' is when the second place (position shown in Figure 27), the conductor 810 ' inserting notch 311 ' is clamped between shell fragment 300 ' and conducting terminal 200 ' by shell fragment 300 '.Like this, the electrical connection between wire 800 ' and conducting terminal 200 ' can just be realized.

Refer to Figure 17, in the illustrated embodiment in which, the second end 320 ' of shell fragment 300 ' is contained in the notch 311 ' of shell fragment 300 ', and is resisted against on the side on ligule top 211 ' of conducting terminal 200 '.The side of shell fragment 300 ' is resisted against on the top 210 ' of conducting terminal 200 ', and opposite side is suitable for contacting (see Figure 22 to Figure 27) with the actuator 500 ' inserted.

Figure 22 display driver part 500 ' is inserted into schematic diagram during the first bonding station, and wherein the first recess 520 ' of actuator 500 ' engages with the arc convex portion 330 ' of shell fragment 300 '; Figure 23 shows the relative position relation between actuator 500 ' in Figure 22 and shell fragment 300 '.

As shown in Figure 22 and Figure 23, in the embodiment of an exemplary of the present utility model, the second recess 530 ' actuator 500 ' being formed the first recess 520 ' and being positioned at above the first recess 520 '.As shown in Figure 17, Figure 22 and Figure 23, shell fragment 300 ' is formed an outwardly arc convex portion 330 ', and this arc convex portion 330 ' is suitable for engaging with the first recess 520 ' and the second recess 530 ' respectively.

Figure 25 is presented at the cutaway view of wire 800 ' via the connector after in the slot 110 ' of the wire jack 411 ' inserted base 100 ' on lid 400 '; Figure 26 shows the wire 800 ' in Figure 25, the relative position relation between actuator 500 ' and shell fragment 300 '.

As shown in Figure 22 and Figure 23, when the arc convex portion 330 ' on shell fragment 300 ' engages with the first recess 520 ' on actuator 500 ', as illustrated in figs. 25 and 26, shell fragment 300 ' driven member 500 ' moves to primary importance, now, wire 800 ' via in the slot 110 ' of the wire jack 411 ' inserted base 100 ' on lid 400 ', and can be inserted in the notch 311 ' of shell fragment 300 '.

After the conductor 810 ' of wire 800 ' is inserted in the notch 311 ' of shell fragment 300 ', can continue downwards to insert actuator 500 ', until the second recess 530 ' on actuator 500 ' engages with the arc convex portion 330 ' on shell fragment 300 '.

Actuator 500 ' is inserted into schematic diagram during the second bonding station by Figure 27 display, and wherein the second recess 530 ' of actuator 500 ' engages with the arc convex portion 330 ' of shell fragment 300 '.

As shown in figure 27, when the arc convex portion 330 ' on shell fragment 300 ' engages with the second recess 530 ' on actuator 500 ', shell fragment 300 ' moves to the second place, now, the conductor 810 ' inserted in the notch 311 ' of shell fragment 300 ' is clamped between shell fragment 300 ' and conducting terminal 200 '.

In the aforementioned embodiment, when the arc convex portion 330 ' on shell fragment 300 ' engages with the first recess 520 ' on actuator 500 ', shell fragment 300 ' is maintained at primary importance, and actuator 500 ' is maintained at the first bonding station.Similarly, when the arc convex portion 330 ' on shell fragment 300 ' engages with the second recess 530 ' on actuator 500 ', shell fragment 300 ' is maintained at the second place, and actuator 500 ' is maintained at the second bonding station.As shown in Figure 15 and Figure 16, in the illustrated embodiment in which, in base 100 ', maintain two row's conducting terminals 200 ', and on base 100 ', be formed with two rows of sockets 110 ', the shell fragment 300 ' of conducting terminal 200 ' and correspondence is contained in each slot 110 ' of base 100 ' respectively.

As shown in Figure 18 and Figure 19, in the illustrated embodiment in which, arrange wire jack 411 ' in the upper formation two of lid 400 ', and each slot 110 ' on base 100 ' is corresponding to the wire jack 411 ' of two on lid 400 '.

As shown in Figure 18 and Figure 19, in the illustrated embodiment in which, arrange actuator jack 412 ' in the upper formation two of lid 400 ', and each actuator jack 412 ' is corresponding to the slot 110 ' of two on base 100 '.As shown in Figure 20 to Figure 27, in two slots 110 ' while that each actuator 500 ' being suitable on inserted base 100 ', to drive the shell fragment 300 ' on two conducting terminals 200 ' simultaneously.

The schematic diagram that Figure 28 display utilizes external tool 900 ' to be exited from the slot 110 ' of base 100 ' by the actuator 500 ' inserted.

As shown in figure 28, in the illustrated embodiment in which, be formed with the first instrument jack 430 ' at the upper limb of the sidewall of lid 400 ', and be formed with the second instrument jack 540 ' corresponding with the first instrument jack 430 ' on the top of actuator 500 '.As shown in figure 28, external tool 900 ', such as, screwdriver, be suitable in insertion first instrument jack 430 ' and the second instrument jack 540 ', the actuator 500 ' be inserted in the slot 110 ' of base 100 ' is ejected from slot 110 ', or to the first joint place (namely actuator 500 ' is pushed up, actuator 500 ' is pushed up the position engaged with the arc convex portion 330 ' on shell fragment 300 ' to its first recess 520 '), like this, the wire 800 ' of clamping just unclamps by shell fragment 300 ', thus wire 800 ' can be extracted easily from connector.

The schematic perspective view of connector when Figure 24 display driver part 500 ' is inserted into the first bonding station, which show the mounting structure for being installed to by connector on panel.

As shown in figure 24, be formed with the first T-slot 140 ' respectively at the two ends of base 100 ', and have second T-slot 440 ' corresponding with the first T-slot 140 ' respectively at the two ends of lid 400 '.Connector also comprises the mounting panel 700 ' being suitable for being arranged on the first T-slot 140 ' and the T-shaped mounting blocks 600 ' in the second T-slot 440 ' and being connected with T-shaped mounting blocks 600 '.Mounting panel 700 ' is provided with the screw 710 ' for being installed to by connector on panel (not shown).

As shown in Figure 15 and Figure 24, be formed with a brace table 130 ' protruded respectively in the bottom at the two ends of base 100 ', and mounting panel 700 ' is located and is remained on the brace table 130 ' of base 100 '.

In foregoing individual embodiments of the present utility model, only need in the slot 110 ' of actuator 500 ' inserted base 100 ', just can realizing the electrical connection between wire 800 ' and the conducting terminal 200 ' of connector, without the need to using extra instrument, improve the wiring efficiency of connector.

In addition, in embodiments more of the present utility model, actuator 500 ' can drive the shell fragment 300 ' on two conducting terminals 200 ' simultaneously, therefore, insert the electrical connection that an actuator 500 ' just can realize between two wires 800 ' and two conducting terminals 200 ' simultaneously, thus further increasing the wiring efficiency of connector.

Similarly, in embodiments more of the present utility model, when needs restringing 800 ', just can unclamp two wires 800 ' by extracting an actuator 500 ', what improve connector moves back line efficiency simultaneously.

3rd embodiment

Figure 29 to Figure 31 shows the connector according to the 3rd embodiment of the present utility model.Figure 29 display is according to the schematic perspective view of the connector of the 3rd embodiment of the present utility model; Figure 30 shows the actuator 500 of the connector shown in Figure 29 " schematic perspective view; Figure 31 shows an actuator 500 of the connector shown in Figure 29 " and four corresponding conducting terminals and four shell fragments 300 " schematic perspective view.

The connector of the 3rd embodiment shown in Figure 29 to Figure 31 is compared with the connector of the first embodiment shown in Fig. 1 to Figure 14, and its difference is only that the structure of actuator is different.

In the connector of the first embodiment shown in Fig. 1 to Figure 14, each actuator 500 is suitable for being inserted in a corresponding slot 110 by a corresponding actuator jack 412, and is suitable for driving two shell fragments 300 on two conducting terminals 200 being contained in a corresponding slot 110 simultaneously.

And in the connector of the 3rd embodiment shown in Figure 29 to Figure 31, each actuator 500 " be suitable for being inserted in two corresponding slots 110 by two corresponding actuator jacks 412 simultaneously, and be suitable for driving four shell fragments 300 on four conducting terminals 200 being contained in two corresponding slots 110 simultaneously.

Each actuator 500 shown in Figure 29 to Figure 31 " be equivalent to the actuator of two shown in Fig. 1 to Figure 14 500 to link together side by side, form the actuator 500 of a combination ".

In addition to the foregoing, the connector of the 3rd embodiment shown in Figure 29 to Figure 31 is substantially identical with the connector of the first embodiment shown in Fig. 1 to Figure 14, for simplicity, repeats no more for identical content.

Note that the utility model is not limited to illustrated embodiment, also three or more actuators 500 shown in Fig. 1 to Figure 14 can be linked together side by side, so that the shell fragment 300 on the individual conducting terminal 200 of driving six or more simultaneously.

4th embodiment

Figure 32 to Figure 33 shows the connector according to the 4th embodiment of the present utility model.Figure 32 display is according to the schematic perspective view of the connector of the 4th embodiment of the present utility model; An actuator 500 of the connector shown in Figure 32 is shown with Figure 33 " ' and the schematic perspective view of a corresponding conducting terminal and a shell fragment.

The connector of the 4th embodiment shown in Figure 32 to Figure 33 is compared with the connector of the first embodiment shown in Fig. 1 to Figure 14, and its difference is only that actuator is different with the structure of lid.

In the connector of the first embodiment shown in Fig. 1 to Figure 14, shape actuator jack 412 in a row on lid 400, and each actuator jack 412 corresponds to a slot 110 on base 100; And each actuator 500 is suitable for being inserted in a corresponding slot 110 by a corresponding actuator jack 412, and be suitable for driving two shell fragments 300 on two conducting terminals 200 being contained in a corresponding slot 110 simultaneously.

And in the connector of the 4th embodiment shown in Figure 32 to Figure 33, at lid 400 " ' upper formation two arrange actuator jack 412 " ', and each slot 110 on base 100 corresponds to two actuator jacks 412 " '; And each actuator 500 " ' be suitable for by a corresponding actuator jack 412 " ' insert in a corresponding slot 110, and be suitable for driving a shell fragment 300 on a conducting terminal 200 being contained in slot 110.

In addition to the foregoing, the connector of the 4th embodiment shown in Figure 32 to Figure 33 is substantially identical with the connector of the first embodiment shown in Fig. 1 to Figure 14, for simplicity, repeats no more for identical content.

It will be appreciated by those skilled in the art that, embodiment described above is all exemplary, and those skilled in the art can make improvements, when the conflict of the structure described in various embodiment in not recurring structure or principle, independent assortment can be carried out.

Although be illustrated the utility model by reference to the accompanying drawings, embodiment disclosed in accompanying drawing is intended to carry out exemplary illustration to the utility model preferred implementation, and can not be interpreted as one restriction of the present utility model.

Although some embodiments of this overall utility model design have been shown and explanation, those skilled in the art will appreciate that, when not deviating from principle and the spirit of this overall utility model design, can make a change these embodiments, scope of the present utility model is with claim and their equivalents.

It should be noted that word " comprises " and do not get rid of other element or step, word "a" or "an" is not got rid of multiple.In addition, any element numbers of claim should not be construed as restriction scope of the present utility model.

Claims (25)

1. a connector, comprising:

Base (100);

Multiple conducting terminal (200), remain in described base (100), wherein, described base (100) is formed slot (110), and the top (210) of described conducting terminal (200) is contained in the slot (110) of described base (100);

Multiple shell fragment (300), is contained in the slot (110) of described base (100), and is arranged on the top (210) of described multiple conducting terminal (200) respectively; With

Actuator (500), is suitable for inserting in the slot (110) of described base (100), for driving described shell fragment (300) to move between the first location and the second location,

When described shell fragment (300) is in described primary importance, between described shell fragment (300) and described conducting terminal (200), form the insertion space that is suitable for inserting wire (800);

When described shell fragment (300) is in the described second place, the wire (800) inserted is clamped between described shell fragment (300) and described conducting terminal (200) by described shell fragment (300),

It is characterized in that:

Described actuator (500) is suitable for driving at least two shell fragments (300) at least two conducting terminals (200) to move between described primary importance and the described second place simultaneously.

2. connector according to claim 1, is characterized in that:

Described actuator (500) is formed the first recess (520) and is positioned at the second recess (530) above described first recess (520);

Described shell fragment (300) is formed an outwardly arc convex portion (330), and this arc convex portion (330) is suitable for engaging with described first recess (520) and described second recess (530) respectively;

When described arc convex portion (330) engages with described first recess (520), described shell fragment (300) is maintained at described primary importance, and described actuator (500) is maintained at the first bonding station; And

When described arc convex portion (330) engages with described second recess (530), described shell fragment (300) is maintained at the described second place, and described actuator (500) is maintained at the second bonding station.

3. connector according to claim 2, is characterized in that:

Described connector also comprises lid (400), and described lid (400) is suitable for being arranged on described base (100);

Described lid (400) is formed wire jack (411), and described wire (800) is suitable for inserting in the slot (110) of described base (100) by described wire jack (411); And

Described lid (400) is also formed actuator jack (412), and described actuator (500) is suitable for being inserted in the slot (110) of described base (100) by described actuator jack (412).

4. connector according to claim 3, is characterized in that:

Described shell fragment (300) comprises first end (310) and the second end (320), and the first end (310) of described shell fragment (300) is formed a notch (311); And

The top (210) of described conducting terminal (200) has a ligule top (211), and the ligule top (211) of described conducting terminal (200) is slidably received in the notch (311) of described shell fragment (300).

5. connector according to claim 4, is characterized in that:

When described shell fragment (300) is in described primary importance, the conductor (810) of described wire (800) is suitable for inserting in the described notch (311) of described shell fragment (300); And

When described shell fragment (300) is in the described second place, the conductor (810) inserting described notch (311) is clamped between described shell fragment (300) and described conducting terminal (200) by described shell fragment (300).

6. connector according to claim 5, is characterized in that:

The second end (320) of described shell fragment (300) is contained in the notch (311) of described shell fragment (300), and is resisted against on the side on ligule top (211) of described conducting terminal (200).

7. connector according to claim 6, is characterized in that:

The side of described shell fragment (300) is resisted against on the top (210) of described conducting terminal (200), and opposite side is suitable for contacting with the actuator (500) inserted.

8. connector according to claim 5, is characterized in that:

Be formed with a guide surface (510) tilted in the lower end of described actuator (500), the arc convex portion (330) on described shell fragment (300) is suitable for sliding along described guide surface (510).

9. connector according to claim 8, is characterized in that:

Two row's conducting terminals (200) are maintained in described base (100), and on described base (100), be formed with the described slot of a row (110), in each described slot (110), accommodate two conducting terminals (200) and two corresponding shell fragments (300).

10. connector according to claim 9, is characterized in that:

Arrange wire jack (411) in the upper formation two of described lid (400), and each slot (110) on described base (100) is corresponding to two wire jacks (411).

11. connectors according to claim 10, is characterized in that:

The upper shape actuator jack (412) in a row of described lid (400), and each described actuator jack (412) is corresponding to a slot (110) on described base (100); And

Each described actuator (500) is suitable for being inserted in a corresponding slot (110) by a corresponding actuator jack (412), and is suitable for driving two shell fragments (300) on two conducting terminals (200) being contained in a corresponding slot (110) simultaneously.

12. connectors according to claim 10, is characterized in that:

The upper shape actuator jack (412) in a row of described lid (400), and each described actuator jack (412) is corresponding to a slot (110) on described base (100); And

Each described actuator (500 ") is suitable for being inserted in two corresponding slots (110) by two corresponding actuator jacks (412) simultaneously, and is suitable for driving four shell fragments (300) on four conducting terminals (200) being contained in two corresponding slots (110) simultaneously.

13. connectors according to claim 10, is characterized in that:

Arrange actuator jack (412 " ') in the upper formation two of described lid (400 " '), and each slot (110) on described base (100) is corresponding to two actuator jacks (412 " '); And

Each described actuator (500 " ') is suitable for being inserted in a corresponding slot (110) by a corresponding actuator jack (412 " '), and is suitable for a shell fragment (300) on a conducting terminal (200) that driving is contained in slot (110).

14. connectors according to any one of claim 11-13, is characterized in that:

First alignment ribs (150) vertically extended is formed in each slot (110) of described base (100);

Second alignment ribs (450) vertically extended is formed in each actuator jack (412) of described lid (400); And

Described second alignment ribs (450) is formed first alignment slot (451) vertically extended, described first alignment ribs (150) is suitable for inserting in described first alignment slot (451), for guaranteeing that described lid (400) aligns with described base (100) in the vertical direction.

15. connectors according to claim 14, is characterized in that:

Described actuator (500) is formed second alignment slot (550) vertically extended, described second alignment ribs (450) is suitable for inserting in described second alignment slot (550), for guaranteeing that described actuator (500) aligns with described actuator jack (412) in the vertical direction.

16. connectors according to claim 15, is characterized in that:

The top board of described actuator (500) is formed the instrument jack (540) of the vertical extension that is communicated with described second alignment slot (550); And

External tool (900) is suitable for inserting described instrument jack (540) and joins on described actuator (500), to be extracted from described slot (110) by the actuator (500) be inserted in the slot (110) of described base (100), or actuator (500) is pulled out the position that its first recess (520) engages with the arc convex portion (330) on shell fragment (300).

17. connectors according to claim 16, is characterized in that:

Described external tool (900) has two elongated elastic arms (910,910), and the end of each elastic arm (910,910) is formed with the hooked projection portion (911) being suitable for engaging with the periphery of the interior side opening of described instrument jack (540).

18. connectors according to claim 8, is characterized in that:

Two row's conducting terminals (200 ') are maintained in described base (100 '), and be formed with the described slot (110 ') of two rows on described base (100 '), the shell fragment (300 ') of described conducting terminal (200 ') and correspondence is contained in each slot (110 ') of described base (100 ') respectively.

19. connectors according to claim 18, is characterized in that:

Arrange wire jack (411 ') in the upper formation two of described lid (400 '), and each slot (110 ') on described base (100 ') is corresponding to two wire jacks (411 ') on described lid (400 ').

20. connectors according to claim 19, is characterized in that:

Arrange actuator jack (412 ') in the upper formation two of described lid (400 '), and each described actuator jack (412 ') is corresponding to two slots (110 ') on described base (100 '); And

Each described actuator (500 ') is suitable for inserting in two slots (110 ') on described base (100 ') simultaneously, to drive the shell fragment (300 ') on two conducting terminals (200 ') simultaneously.

21. connectors according to claim 20, is characterized in that:

Be formed with the first instrument jack (430 ') at the upper limb of the sidewall of described lid (400 '), and be formed with the second instrument jack (540 ') corresponding with described first instrument jack (430 ') on the top of described actuator (500 '); And

External tool (900 ') is suitable for inserting described first instrument jack (430 ') and described second instrument jack (540 '), to be ejected from described slot (110 ') by the actuator (500 ') be inserted in the slot (110 ') of described base (100 '), or actuator (500 ') is pushed up the position engaged with the arc convex portion (330 ') on shell fragment (300 ') to its first recess (520 ').

22. connectors according to claim 3, is characterized in that: described lid (400) is buckled on described base (100).

23. connectors according to claim 22, is characterized in that:

The sidewall of described lid (400) is formed draw-in groove (420), and on the outer wall of described base (100), is formed with projection (120); And

When described lid (400) is arranged on described base (100), the projection (120) on described base (100) is snapped in the draw-in groove (420) on described lid (400).

24. connectors according to claim 3, is characterized in that:

Be formed with the first T-slot (140) respectively at the two ends of described base (100), and have second T-slot (440) corresponding with described first T-slot (140) respectively at the two ends of described lid (400);

Described connector also comprises the mounting panel (700) being suitable for being arranged on described first T-slot (140) and the T-shaped mounting blocks (600) in described second T-slot (440) and being connected with described T-shaped mounting blocks (600); And

Described mounting panel (700) is provided with the screw (710) for being installed to by described connector on panel.

25. connectors according to claim 24, is characterized in that:

Be formed with a brace table (130) protruded respectively in the bottom at the two ends of described base (100), and described mounting panel (700) is located and is remained on the brace table (130) of described base (100).