CN203536619U - Connector shell and connector - Google Patents

Abstract

The utility model discloses a connector shell and a connector. The connector shell is characterized in that the connector shell comprises an outer shell body, an inner shell body, and a pairing connector, wherein the outer shell body is provided with an elastic holding device; the inner shell body is arranged in a manner of being pluggable into the outer shell; the elastic holding device restricts the length that the inner shell body is plugged into the outer shell body; the pairing connector is provided with a first accommodating cavity used for accommodating the outer shell body and the inner shell body; and the first accommodating cavity is provided with a force releasing device. In the process that the outer shell body, the inner shell body, and the pairing connector are assembled, the force releasing device enables the elastic holding device to release the restriction on the inner shell body and the outer shell body. The connector shell in the utility model needs a relatively small force for installation and is simple in structure and low in cost.

Description

Connector shell and connector

Technical field

The utility model relates to a kind of connector shell and connector.

Background technology

Connector comprises connector shell and is plugged on the splicing ear on housing.On connector shell, be provided with terminal hole, splicing ear is plugged in terminal hole.When each splicing ear is inserted in terminal hole, all can be subject to terminal hole hole wall friction and produce certain resistance.When splicing ear number is more, and be simultaneously in inserted terminals hole time, the resistance sum of a plurality of splicing ears can cause applying larger power could plant a plurality of splicing ears in terminal hole, causes splicing ear to install inconvenient.Conventionally need in this case to use outside auxiliary body, for example lever or rack-and-pinion provide auxiliary force to insert, and have friction owing to transmitting power between part, make auxiliary force and cannot effectively improve insertion situation.So just caused connector construction more complicated, and cost of parts rise.

Utility model content

One of the purpose of this utility model is in order to overcome deficiency of the prior art, and a kind of connector shell easy to assembly is provided.

For achieving the above object, the utility model is achieved through the following technical solutions:

Connector shell, is characterized in that, comprising:

Shell body, described shell body is provided with elastic retaining device;

Inner housing, described inner housing can insert described shell body and arrange interiorly, and described elastic retaining device limits described inner housing and inserts the length in described shell body;

To joining connector; Describedly to joining connector, be provided with for holding the first cavity volume of described shell body and described inner housing; In described the first cavity volume, be provided with solution power apparatus;

In described shell body and described inner housing process, described solution power apparatus makes described elastic retaining device remove the restriction to described inner housing;

Preferably, described elastic retaining device is elastic clamping hook, and described inner housing is provided with the step matching with described elastic clamping hook, and described elastic clamping hook inserts the length in described shell by supporting inner housing described in described step limits.

Preferably, described shell body is provided with the second cavity volume; Described inner housing is provided with the inserting column adapting with described the second cavity volume; Described elastic clamping hook is arranged in described the second cavity volume, and described step is arranged on described inserting column; When described inserting column inserts in the second described cavity volume, described elastic clamping hook is positioned on the moving direction of described step.

Preferably, described elastic clamping hook is provided with breach, and when described elastic clamping hook is supported described step, described step is positioned at described breach.

Preferably, described elastic clamping hook one end is arranged at described the second cavity volume inwall, is arranged in the second cavity volume other end elastics wing; After the other end of described elastic clamping hook is stressed, can move towards described the second cavity volume inwall, and can after external force is removed, reset.

Preferably, on described inserting column, be provided with convex shoulder, in described the second cavity volume, be provided with the draw-in groove matching with described convex shoulder; When described inserting column inserts in the second described cavity volume, described convex shoulder can embed in described draw-in groove and can in described convex shoulder, shift out and arrange.

Preferably, along described shell body short transverse, described draw-in groove is arranged at described the second cavity volume middle part; Along described inner housing short transverse, described convex shoulder is arranged at described inserting column upper end.

Preferably, described draw-in groove is arranged at described elastic clamping hook top.

Preferably, described solution power apparatus is solution power terminal, and described solution power terminal can insert in described the second cavity volume and arrange the described elastic clamping hook of promotion.

Preferably, described solution power terminal top arranges an inclined-plane, the relatively described elastic clamping hook setting in described inclined-plane.

Preferably, when described elastic clamping hook is supported on described step, described elastic clamping hook broad ways is not supported completely on described step, has the passage that a permission solution power terminal passes between described elastic clamping hook and described the second cavity volume inwall; Described solution power terminal through the described solution power of rear promotion terminal, makes it no longer support described step from described passage.

Preferably, described shell body middle part is along its length provided with terminal and settles section, and described terminal settles section to be provided with a plurality of the first containing holes that extend along described shell body short transverse.

Preferably, described shell body is arranged at intervals with two the second cavity volumes along its length; Described terminal settles section to be arranged between two the second cavity volumes; Described inner housing is arranged at intervals with two inserting columns along its length.

Preferably, described inner housing is provided with a plurality of the second containing holes; When described inner housing inserts in described shell body, described in each, the second containing hole is relative with a described first containing hole position, and described the second containing hole is positioned at described the first containing hole below.

Preferably, in described the first cavity volume, be provided with described a plurality of splicing ear; After described shell body and described inner housing are placed in described the first cavity volume, the described a plurality of splicing ears of part insert in described the first containing hole, and a plurality of accessory connecting terminal are pegged graft with the part in described the first containing hole.

Preferably, described inserting column is provided with spliced eye; After described shell body and described inner housing are placed in described the first cavity volume, the described splicing ear of part inserts in described spliced eye, and described splicing ear remains on described inner housing in described the first cavity volume by the frictional force of the hole wall with described spliced eye.

Preferably, described inner housing is provided with a plurality of the second containing holes; When described inner housing inserts in described shell body, described in each, the second containing hole is relative with a described first containing hole position, and described the second containing hole is positioned at described the first containing hole below; Described inner housing is provided with the through hole that allows solution power terminal to pass, and described solution power terminal is supported described elastic retaining device through after described through hole, makes described elastic retaining device remove the restriction to described inner housing.

Preferably, described shell body outer surface is provided with shell fragment grab, on described shell fragment grab, is provided with the projection that protrudes from described shell fragment; Describedly to joining connector, be provided with joining snap fit; Described shell body and described inner housing are placed in described the first cavity volume process, and on the described moving direction that is positioned at described projection to joining snap fit, described shell body is connected joining snap fit hook with described by described projection joining connector with described.

Preferably, described shell body is provided with for holding a plurality of the first containing holes to accessory connecting terminal.

Preferably, describedly to joining, in connector, be provided with a plurality of splicing ears, described in another part, a plurality of splicing ears are inserted in described the first containing hole from described first containing hole one end, and a plurality of accessory connecting terminal are pegged graft with the another part in described the first containing hole.

Preferably, described inner housing is provided with for holding the spliced eye to accessory connecting terminal.

Preferably, describedly to joining in connector, be provided with a plurality of splicing ears, the described a plurality of splicing ears of part are inserted in described spliced eye from described spliced eye one end, and a plurality of accessory connecting terminal are pegged graft with the part in described spliced eye.

Two of the purpose of this utility model is in order to overcome deficiency of the prior art, and a kind of connector shell easy to assembly is provided.

For achieving the above object, the utility model is achieved through the following technical solutions:

Connector, is characterized in that, comprises a plurality of splicing ears, a plurality of to accessory connecting terminal and aforesaid connector shell, and described splicing ear is arranged on described to joining in connector, and accessory connecting terminal is arranged in described inner housing and described shell body.

Connector shell in the utility model, is divided into shell body, inner housing by overall structure and to joining connector, when assembling, can first shell body and inner housing be fitted together, then shell body is installed on joining in connector together with inner housing.Be installed on before joining in connector, inner housing partial insertion to shell body and locking remain on this state, at shell body, be installed on together with inner housing when joining in connector, to joining connector, can remove the lock-out state of shell body and inner housing, inner housing is all inserted in shell body, and shell body is mounted to joining in connector together with inner housing.Part splicing ear is arranged on shell, and part splicing ear is arranged on inner housing.When package shell, be only arranged on the frictional resistance that splicing ear on shell body can be subject to inner housing, be arranged on the splicing ear non-resistance on inner housing, the power that therefore assembling needs is less.Shell body and inner housing and be divided into two processes to joining the assembling of connector, also can reduce the power that continuous assembling needs, and assembles convenient.And the utility model overall structure is simple, cost is low.

Accompanying drawing explanation

Fig. 1 is the utility model embodiment 1 structural representation.

Fig. 2 is that the utility model embodiment 1 splits structural representation.

Fig. 3 be in embodiment 1 to joining connector structural representation.

Fig. 4 is the inner shell structure schematic diagram in embodiment 1.

Fig. 5 is the outer shell construction schematic diagram in embodiment 1.

Fig. 6 is assembling process the first view of embodiment 1.

Fig. 7 is assembling process the second view of embodiment 1.

Fig. 8 is the assembling process third state schematic diagram of embodiment 1.

Fig. 9 is the utility model embodiment 2 structural representations.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is further illustrated.For convenience of narration, except special instruction, in following examples, direction of the present utility model all be take Fig. 6 as reference, and wherein short transverse is the above-below direction shown in Fig. 6, and length direction is the left and right directions in Fig. 6, and Width is the direction perpendicular to paper.

As depicted in figs. 1 and 2, connector shell, is characterized in that, comprises joining connector 10, inner housing 20 and shell body 30.Inner housing 20 and shell body 30 socket connections are also installed on joining in the first cavity volume 11 of connector 10.

As shown in Figure 1, Figure 2 and Figure 3, to joining connector 10 for holding inner housing 20 and shell body 30, be rectangular shape, it is provided with the first cavity volume 11.In the first cavity volume 11, be provided with the splicing ear 12 reconciliation power terminals 13 that a plurality of edges distribute to joining connector 10 length directions.Solution power terminal 13 tops are provided with inclined-plane 131.Inclined-plane 131 on solution power terminal 13 in short transverse higher than splicing ear 12.In example as shown in Figure 6, inclined-plane 131 place height are greater than the height of terminal 12.To joining connector 10, be provided with joining snap fit 14, to joining snap fit 14, protrude from joining connector 10.

As shown in Figure 1, Figure 2, shown in Fig. 4, Fig. 6 to Fig. 9, inner housing 20 has inner housing top 21 and inner housing bottom 22 along short transverse, has along its length inner housing left end 23 and inner housing right-hand member 24.Inner housing 20 bottoms are a base plate 29.Base plate 29 extends to inner housing right-hand member 24 from inner housing left end 23.Along its length, inner housing 20 left and right sides are respectively arranged with an inserting column 25.Inserting column 25 is arranged on base plate 29.Inserting column 25 extends along inner housing 20 short transverses.Two inserting column 25 intervals arrange, and have an accommodation space 26 between two inserting columns 25.Along its length, base plate 29 middle parts are provided with the second containing hole 27.The second containing hole 27 extends to accommodation space 26 and communicates from inner housing bottom 22 along inner housing 20 short transverses.Inserting column 25 tops are provided with convex shoulder 251, and convex shoulder 251 protrudes from inserting column 25 towards accommodation space 26 directions.Inserting column 25 is provided with the step 252 that protrudes from inserting column towards accommodation space 26 directions.Step 252 is positioned at convex shoulder 251 belows.Inner housing 20 is provided with a plurality of spliced eyes 28.Spliced eye 28 one end are used for holding to accessory connecting terminal, and the other end is for holding portion splicing ear 12.Spliced eye 28 runs through base plate 29 and along inner housing 20 short transverses, extends on inserting column 25.On base plate 29, be also provided with two through holes 291.Through hole 291 positions are relative with solution power terminal 13 positions, allow solution power terminal 13 to pass.

As shown in Figure 1, Figure 2 and shown in Fig. 5, shell body 30 is rectangular shape, and it has shell body top 31 and shell body bottom 32 along short transverse; There is along its length shell body left end 33 and shell body right-hand member 34.Along its length, the middle part of shell body 30 is provided with terminal and settles section 35.Terminal settles section 35 to be provided with a plurality of the first containing holes 36 that extend along shell body short transverse.Along its length, terminal settles section 35 left and right sides to be respectively arranged with second cavity volume 37.Terminal settles section 35 to be arranged between two the second cavity volumes 37.Terminal settles section 35 to be provided with the first containing hole 36.The first containing hole 36 extends along shell body 30 short transverses.First containing hole 36 one end are used for holding splicing ear, and the other end is for holding portion splicing ear 12.Terminal settles section 35 to have a distance apart from shell body bottom 32, for holding base plate 29.Shell body 30 outer surfaces are provided with shell fragment grab 41.On shell fragment grab 41, be provided with the projection 42 that protrudes from shell fragment grab 41.Shell fragment grab 41 has elasticity.

Shown in Fig. 6 to Fig. 9, in the second cavity volume 37, be provided with draw-in groove 38.Draw-in groove 38 belows are provided with elastic fastening hook 39.Elastic fastening hook 39 one end are arranged on the inwall of the second cavity volume 37, and the other end extends in the second cavity volume 37.The other end that elastic fastening hook 39 is positioned at the second cavity volume 37 can arrange elastics wing, and it can move towards the inwall of the second cavity volume 37 when stressed promotion, and automatically resets after external force is eliminated.The other end of each elastic fastening hook 39 is provided with breach 391.

The utility model assembling process is as follows:

As shown in Figure 6, the inserting column 25 of inner housing 20 is in 32 insertion the second cavity volumes 37 of shell body bottom.Terminal settles section 35 to be positioned at accommodation space 26.Inserting column 25 is in the interior moving process of the second cavity volume 37, and elastic clamping hook 39 other ends are positioned on the moving direction of step 252.Convex shoulder 251 moves to draw-in groove 38 places and embeds in draw-in groove 38.Now, the other end of elastic clamping hook 39 props up step 252.Step 252 is positioned at breach 391.Due to supporting of elastic clamping hook 39, limited the length that inner housing 20 inserts in shell body 10.And, by means of the coordinating of convex shoulder 251 and draw-in groove 38, elastic clamping hook 39, coordinating with step 252, inner housing 20 fixedly remains on this pre-assembled state with shell body 30 relative positions.The second containing hole 27 is positioned at the first containing hole 36 belows, and relative with the first containing hole 36 positions.

Inner housing 20 after pre-assembled be fixed for being electrically connected to a plurality of to accessory connecting terminal (not shown) also can be installed in shell body 30.A plurality ofly to accessory connecting terminal, can distribute along inner housing 20 and shell body 30 length directions, be used for and 12 pairs of the splicing ears of joining in connector 10 are joined.For example, partly accessory connecting terminal is also installed and fixed in the spliced eye 28 on the 21 directions insertion inner housings 20 of inner housing top, in 31 insertion the first containing holes 36 of shell body top, also installation is fixing to accessory connecting terminal for another part.

As shown in Figure 6 and Figure 7, inner housing after pre-assembled 20 is positioned over together with shell body 30 to joining in the first cavity volume 11 of connector 10, until inner housing bottom 22 is to moving to place, final position in joining the first cavity volume 11 of connector 10, that is, the inserting column 25 of inner housing 20 inserts in the second cavity volume 37 completely.In this first assembling stage, inner housing 20 is introduced in the first cavity volume 11.To joining the splicing ear 12 arranging in connector 10, insert respectively in the second containing hole 27 and spliced eye 28 arranging on inner housing 20.Wherein, the part that part splicing ear 12 inserts spliced eye 28 interior settings is to accessory connecting terminal.The part that this part splicing ear 12 arranges with spliced eye 28 contacts when pegging graft to accessory connecting terminal and has frictional force, thereby produces the first assembling stage insertion force.In this first assembling stage, another part splicing ear 12 of joining in connector 10 is inserted to the second containing hole 27, but not yet enter the first containing hole 36 on shell body 30.Because the second containing hole 27 is matched in clearance with this another part terminal 12, do not produce insertion force between the two.Thereby the insertion force that the first assembling stage insertion force produces timing than conventional connector is less.

Shell body 30 is continued to the downward application of force, it is advanced, until the other end of elastic clamping hook 39 moves to solution power terminal 13 places towards below.The inclined-plane 131 of solution power terminal 13 is relative with elastic clamping hook 39, facilitates solution power terminal 13 to insert between elastic clamping hook 39 and step 252.Solution power terminal 13 tops, against elastic clamping hook 39, promote elastic clamping hook 39 other ends, make its inwall towards the second cavity volume 37 move (centre position that is the left and right directions shown in Fig. 7), make it remove supporting step 252.Now, shell body 30 can continue again to move downward, and inserts joining in the first cavity volume 11 of connector 10.Continuation applies downward power to shell body 30, and convex shoulder 251 shifts out in draw-in groove 38, and shell body 30 continues to advance downwards, until insert completely joining in the first cavity volume 11 on connector 10.At shell body 30, continue to insert the second assembling stage in the first cavity volumes 11, to joining another part splicing ear 12 in connector 10, from shell body bottom, 32 insert in the first containing holes 36, and with the another part wherein arranging to accessory connecting terminal to joining.This another part splicing ear 12 contacts to accessory connecting terminal with the another part arranging in the first containing hole 36 and has frictional force, thereby produces the second assembling stage insertion force.In this second assembling stage, to joining in part splicing ear 12 in connector 10 spliced eye 28 on inner housing 20, be in place, therefore do not produce insertion force between the two.Therefore the insertion force that, the second assembling stage insertion force produces timing than conventional connector is less.

As shown in Figure 8, inner housing 20 and shell body 30 are all completely placed and are entered joining in the first cavity volume 11 of connector 10.The frictional force of the hole wall of frictional force, another part splicing ear 12 and first containing hole 36 of the hole wall of part splicing ear 12 and spliced eye 28, all remains on inner housing 20 and shell body 30 in the first cavity volume 11.To joining connector 10, inner housing 20 and shell body 30, be assembled into connector shell.Again, to joining being positioned at joining snap fit 14 on the moving direction of projection 42 on connector 10, projection 42 can with to joining together with snap fit 14 is hooked on, by shell body 30 with to joining connector 10, be further connected.

Split process of the present utility model is below described.

In removing the withdrawal process of joining (with Fig. 6 to Fig. 8 reversed in order), first upwards pull out shell body 30.Because draw-in groove 38 does not block convex shoulder 251, inner housing 20 is retained in plug-in position to the part terminal 12 of joining on connector 10 by frictional force, and shell body 30 relative inner housing 20 moves upward, until the position shown in Fig. 7.At this, first extract the stage, operating personnel only need apply the withdrawal force of terminal in corresponding shell body 30, extract operation, so first extracts required withdrawal force of stage to remove than conventional connector the withdrawal force that timing is produced less.After certain extraction distance, shell body 30 departs from completely with corresponding splicing ear 12.Now, draw-in groove 38 blocks convex shoulder 251, and elastic fastening hook 39 is avoided separating the inclined-plane 131 that power terminal 13 tops arrange, and again steps up the step 252 on inserting column 25, and inner housing 20 is fixed and held at this state with shell body 30 relative positions.

While continuing upwards to pull out shell body 30, shell body 30 drives on inner housing 20 and moves, and the splicing ear 12 that inner housing 20 is corresponding with it is departed from.Above-mentioned second, extract the stage, because shell body 30 now departs from corresponding splicing ear 12 completely, operating personnel only need apply the withdrawal force of terminal in corresponding inner housing 30, extract operation, so second extracts required withdrawal force of stage to remove than conventional connector the withdrawal force that timing is produced less.

Embodiment 2

As shown in Figure 9, connector, comprises connector shell in embodiment 1, splicing ear 12 and to accessory connecting terminal 50.Connector shell comprises joining connector 10, and the inner housing 20 of combining in advance as said method combines with shell body 30.

To accessory connecting terminal 50 numbers, be a plurality of.Part is inserted in spliced eye 28 accessory connecting terminal 50.Utilize spliced eye 28 hole walls and the frictional force of accessory connecting terminal 50 and/or other are connected to maintenance structure, as clamp 51, will remain in spliced eye 28 accessory connecting terminal 50.Another part is inserted in the first containing hole 36 accessory connecting terminal 50, utilize the first containing hole 36 and the another part in the first containing hole 36 to connect maintenance structure to the frictional force between accessory connecting terminal 50 and/or other, as clamp 51, another part is remained in the first containing hole 36 accessory connecting terminal 50.

Can be subsequently by above-mentioned assemble method with the inner housing 20 to accessory connecting terminal 50 and shell body 30 combinations, be plugged to joining in the first cavity volume 11 of connector 10, and with to joining connector 10, peg graft, thereby complete splicing ear 12 and the electrical connection to accessory connecting terminal 50.

To accessory connecting terminal 50, can also utilize structure of the prior art to be installed in the first containing hole 36 and spliced eye 28.

In the utility model, as elastic retaining device's elastic clamping hook, for limiting inner housing, insert the length in shell body, and it is relative with inner housing fixing by shell body to utilize convex shoulder and draw-in groove to match, and realizes the pre-assembled of shell body and inner housing.And then pre-assembled good shell body is placed and entered joining in the first cavity volume in connector together with inner housing.At shell body, place together with inner housing and enter in the first cavity volume internal procedure, elastic clamping hook keeps the pre-assembled state of shell body and inner housing, and inner housing is first inserted in the first cavity volume.At inner housing, insert completely when joining the first cavity volume in connector, as the solution power terminal of separating power apparatus, can make that elastic clamping hook is removed internally, the restriction of shell body, thereby shell body can be inserted completely to joining in the first cavity volume in connector.At shell body, insert completely joining in the first cavity volume internal procedure of connector, inner housing is completely placed and is entered in shell body together.

In the utility model, connector shell integral body is divided into joining connector, inner housing and shell body.Its structure arranges three assembling is divided into a plurality of processes, i.e. the pre-assembled process of shell body and inner housing, and shell body, inner housing respectively with to joining the sectional process of connector.In assembling process, inner housing and shell body are pegged graft successively with to joining splicing ear in connector, avoided inner housing and shell body simultaneously with to joining the larger insertion force producing when splicing ear in connector is pegged graft.For example, in above-mentioned the second assembling stage, insert the relative inner housing of splicing ear in inner housing and no longer move, thereby can not be subject to frictional resistance, the splicing ear that is arranged in shell body is only subject to the frictional resistance of the second containing hole to accessory connecting terminal, and its resistance is less.Therefore, the installing force that the utility model overall package needs is less, without by means of specialist tools, utilizes manual can completing.

Embodiment in the utility model, only for the utility model is described, does not form the restriction to claim scope, and other substituting of being equal in fact that those skilled in that art can expect, all in the utility model protection range.

Claims (23)

1. connector shell, is characterized in that, comprising:

Shell body, described shell body is provided with elastic retaining device;

Inner housing, described inner housing can insert described shell body and arrange interiorly, and described elastic retaining device limits described inner housing and inserts the length in described shell body;

To joining connector; Describedly to joining connector, be provided with for holding the first cavity volume of described shell body and described inner housing; In described the first cavity volume, be provided with solution power apparatus;

Described shell body and described inner housing are described to joining in connector process in insertion, and described solution power apparatus makes described elastic retaining device remove the restriction to described inner housing.

2. connector shell according to claim 1, it is characterized in that, described elastic retaining device is elastic clamping hook, and described inner housing is provided with the step matching with described elastic clamping hook, and described elastic clamping hook inserts the length in described shell by supporting inner housing described in described step limits.

3. connector shell according to claim 2, is characterized in that, described shell body is provided with the second cavity volume; Described inner housing is provided with the inserting column adapting with described the second cavity volume; Described elastic clamping hook is arranged in described the second cavity volume, and described step is arranged on described inserting column; When described inserting column inserts in the second described cavity volume, described elastic clamping hook is positioned on the moving direction of described step.

4. connector shell according to claim 3, is characterized in that, described elastic clamping hook is provided with breach, and when described elastic clamping hook is supported described step, described step is positioned at described breach.

5. connector shell according to claim 3, is characterized in that, described elastic clamping hook one end is arranged at described the second cavity volume inwall, is arranged in the second cavity volume other end elastics wing; After the other end of described elastic clamping hook is stressed, can move towards described the second cavity volume inwall, and can after external force is removed, reset.

6. connector shell according to claim 3, is characterized in that, on described inserting column, is provided with convex shoulder, in described the second cavity volume, is provided with the draw-in groove matching with described convex shoulder; When described inserting column inserts in the second described cavity volume, described convex shoulder can embed in described draw-in groove and can in described convex shoulder, shift out and arrange.

7. connector shell according to claim 6, is characterized in that, along described shell body short transverse, and described draw-in groove setting

In described the second cavity volume middle part; Along described inner housing short transverse, described convex shoulder is arranged at described inserting column upper end.

8. connector shell according to claim 6, is characterized in that, described draw-in groove is arranged at described elastic clamping hook top.

9. connector shell according to claim 3, is characterized in that, described solution power apparatus is solution power terminal, and described solution power terminal can insert in described the second cavity volume and arrange the described elastic clamping hook of promotion.

10. connector shell according to claim 9, is characterized in that, described solution power terminal top arranges an inclined-plane, the relatively described elastic clamping hook setting in described inclined-plane.

11. connector shells according to claim 9, it is characterized in that, when described elastic clamping hook is supported on described step, described elastic clamping hook broad ways is not supported completely on described step, has the passage that a permission solution power terminal passes between described elastic clamping hook and described the second cavity volume inwall; Described solution power terminal through the described solution power of rear promotion terminal, makes it no longer support described step from described passage.

12. connector shells according to claim 1, is characterized in that, described shell body middle part is along its length provided with terminal and settles section, and described terminal settles section to be provided with a plurality of the first containing holes that extend along described shell body short transverse.

13. connector shells according to claim 12, is characterized in that, described shell body is arranged at intervals with two the second cavity volumes along its length; Described terminal settles section to be arranged between two the second cavity volumes; Described inner housing is arranged at intervals with two inserting columns along its length.

14. connector shells according to claim 13, is characterized in that, described inner housing is provided with a plurality of the second containing holes; When described inner housing inserts in described shell body, described in each, the second containing hole is relative with a described first containing hole position, and described the second containing hole is positioned at described the first containing hole below.

15. connector shells according to claim 13, is characterized in that, are provided with described a plurality of splicing ear in described the first cavity volume; After described shell body and described inner housing are placed in described the first cavity volume, the described a plurality of splicing ears of part insert in described the first containing hole, and a plurality of accessory connecting terminal are pegged graft with the part in described the first containing hole.

16. connector shells according to claim 15, is characterized in that, described inserting column is provided with spliced eye; After described shell body and described inner housing are placed in described the first cavity volume, the described splicing ear of part inserts in described spliced eye, and described splicing ear remains on described inner housing in described the first cavity volume by the frictional force of the hole wall with described spliced eye.

17. connector shells according to claim 15, is characterized in that, described inner housing is provided with a plurality of the second containing holes; When described inner housing inserts in described shell body, described in each, the second containing hole is relative with a described first containing hole position, and described the second containing hole is positioned at described the first containing hole below; Described inner housing is provided with the through hole that allows solution power terminal to pass, and described solution power terminal is supported described elastic retaining device through after described through hole, makes described elastic retaining device remove the restriction to described inner housing.

18. connector shells according to claim 1, is characterized in that, described shell body outer surface is provided with shell fragment grab, on described shell fragment grab, are provided with the projection that protrudes from described shell fragment; Describedly to joining connector, be provided with joining snap fit; Described shell body and described inner housing are placed in described the first cavity volume process, and on the described moving direction that is positioned at described projection to joining snap fit, described shell body is connected joining snap fit hook with described by described projection joining connector with described.

19. connector shells according to claim 1, is characterized in that, described shell body is provided with for holding a plurality of the first containing holes to accessory connecting terminal.

20. connector shells according to claim 19, it is characterized in that, describedly to joining, in connector, be provided with a plurality of splicing ears, described in another part, a plurality of splicing ears are inserted in described the first containing hole from described first containing hole one end, and a plurality of accessory connecting terminal are pegged graft with the another part in described the first containing hole.

21. connector shells according to claim 1, is characterized in that, described inner housing is provided with for holding the spliced eye to accessory connecting terminal.

22. connector shells according to claim 21, it is characterized in that, describedly to joining in connector, be provided with a plurality of splicing ears, the described a plurality of splicing ears of part are inserted in described spliced eye from described spliced eye one end, and a plurality of accessory connecting terminal are pegged graft with the part in described spliced eye.

23. connectors, it is characterized in that, comprise a plurality of splicing ears, a plurality of to the connector shell described in the splicing ear of joining and the arbitrary claim of claim 1 to 22, described splicing ear is arranged on described to joining in connector, and the splicing ear of joining is arranged in described inner housing and described shell body.

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