CN1196835A

CN1196835A - Electrical connector having double-lock member

Info

Publication number: CN1196835A
Application number: CN96197059A
Authority: CN
Inventors: 别井一寿
Original assignee: Whitaker LLC
Current assignee: Whitaker LLC
Priority date: 1995-09-19
Filing date: 1996-09-19
Publication date: 1998-10-21
Anticipated expiration: 2016-09-19
Also published as: CN1108000C; TW298679B; KR100406599B1; JP3316116B2; JPH0992367A; WO1997011515A1; KR19990045777A

Abstract

An electrical connector comprises an insulating housing (20, 40) having contact cavities (22, 29, 46, 48) for receiving signal and power electrical contacts therein, a double-lock member (60) movably in a guiding slot (50, 52) in the insulating housing (20, 40) so as to move in a transverse direction relative to the direction of contact insertion of the electrical contacts in the contact cavities, a plate component (68) of the double-lock member (60) extends in the direction of contact insertion and in a transverse direction relative to a contact-locking plate (64), the plate component (68) being disposed in guiding slot (52) whereas contact-locking plate (64) is located in guiding slot (50) whereby plate component (68) in guiding slot (52) prevents sidewise rocking of double-lock member (60) as it moves between a contact-insertion position and a contact-locking position.

Description

Electric connector with double-lock member

The present invention relates to be provided with the electric connector of double-lock member, be used for fixing the electric contact that inserts in the insulation crust contact chamber.

At Japanese patent application 94-74319, disclosed electric connector comprises an insulation crust with many contacts chamber in 94-36552 and 93-59375 number, in the chamber, insert electric contact by predetermined direction, and a flat double-lock member, it has with the corresponding contact in contact chamber that inserts insulation crust from almost vertical with direction of insertion direction inserts mouth.In this electric connector, at first double-lock member is inserted the interim latched position in the insulation crust, the contact of double-lock member inserts mouth and aim at the contact chamber on this position.On this position, contact is inserted the contact chamber, then double-lock member is inserted complete latched position.So just can contact be fixed in the contact chamber, and provide a kind of reliable double locking for contact by holder and double-lock member with contact.

In such electric connector, when double-lock member is in interim latched position, contact inserted the operation in contact chamber normally carries out with a kind of automatic insertion instrument.It is to carry out under mouth and the condition that the contact chamber is aimed in double-lock member that this contact inserts operation.

Yet insulation crust and double-lock member are normally made with resin material by molding process, owing to there are some deviations on the size, double-lock member often lacks stability when being placed into interim latched position.Under this type of situation, can not make the mouth in the double-lock member realize strict aliging with the contact chamber of shell.Therefore, will withstand double-lock member, cause the shut-down operation of insertion instrument, maybe may damage shell and/or contact by the contact in movable contact insertion instrument inserts the contact chamber.This problem is especially severe in having the connector of many contacts, and a large amount of contacts can make the overall dimensions of connector increase, and causes bigger scale error, therefore, and the contact chamber on the very difficult accurately alignment housings of the mouth of double-lock member.In addition, also need to provide a kind of locking piece very reliably for big contact.

Consider above-mentioned problem, the purpose of this invention is to provide a kind of electric connector, be used for eliminating the unsteadiness of double-lock member, so just can guarantee to insert smoothly contact, and guarantee big contact is clamped in the contact chamber securely.

To achieve these goals, comprise a insulation crust according to electric connector of the present invention with contact chamber, be used for inserting contact from predetermined direction, being used for clamping is inserted in contact in the contact chamber, and the shell lance of the clamping double-lock member that can laterally move relative to the contact direction of insertion, be used for locking the contact that is positioned at the contact chamber, double-lock member wherein has a flat board member that extends on the direction of insertion of contact and moving direction thereof, be used for preventing with respect to above-mentioned direction sideshake in a lateral direction, and some the shell lance that prevents contact bends, and has the gathering sill that is used for laterally keeping this flat board member on insulation crust.

With mode for example one embodiment of the present of invention are described hereinafter with reference to accompanying drawing, in the accompanying drawings:

Fig. 1 is a decomposition diagram, represents each parts of electric connector of the present invention;

Fig. 2 is the sectional view after the connector of Fig. 1 is assembled;

Fig. 3 a, 3b and 3c are respectively the front views of the connector shell shown in Fig. 1, bottom view and end view;

Fig. 4 is the rearview of shell shown in Fig. 3;

Fig. 5 a is the sectional view along Fig. 3 a center line 5a-5a;

Fig. 5 b is the sectional view along Fig. 3 a center line 5b-5b;

Fig. 6 a, 6b and 6c are respectively the front views of the lance shell shown in Fig. 1, bottom view and end view;

Fig. 7 is the rearview of the lance shell shown in Fig. 6;

Fig. 8 a is the sectional view along Fig. 6 a center line 8a-8a;

Fig. 8 b is the sectional view along Fig. 6 a center line 8b-8b;

Fig. 9 a and 9b are respectively the front view and the end views of the double-lock member of Fig. 1;

Figure 10 is the top plan view of the double-lock member of Fig. 9;

Figure 11 is the front view of the cam slide among Fig. 1;

Figure 12 is a sectional view along the line 12-12 of Figure 11.

Electric connector 10 comprises a jack type insulation crust 20, has contact chamber 22 in the shell, be used to admit the jack type signal of telecommunication contact 12 (referring to Fig. 2) that inserts from the direction of insertion shown in the arrow 11, and the contact chamber 29 (referring to Fig. 3) that is used to admit jack type power supply contact (not shown); Be assemblied in a lance shell 40 of

reception cavity

24,26 inboards of jack type shell 20; A double-lock member 60 is used for fixing the female type contact 12 that inserts contact chamber 22; And a cam slide 80, utilize it as long as a little firmly just jack type shell 20 and plug-type shell 14 (Fig. 2) can be joined to together.Electric connector 10 also comprises a water resistance gasket 100; it is placed on the framework 33 of jack type shell 20; be in the cavity 26 between lance shell 40 and the jack type shell 20; be used for anti-sealing and infiltrate the inside (referring to Fig. 2) of connector; and a wire cover 110, be used to protect be connected to jack type signal contact 12 and become a branch of lead 16 with bundle on the jack type power supply contact.For waterproof, around lead 16, be provided with rubber plug 18 (referring to Fig. 2).

As can be seen from Fig. 2, on jack type shell 20, be provided with lock slots 28, on lance shell 40, be provided with lock tab 42, be used for lance shell 40 is fixed in the jack type shell 20.In addition, female type contact 12 is fixed in the contact chamber 46, so that clamping is in the enclosure reliably with contact when double-lock member 60 moves to complete latched position with shell lance 44 and double-lock member 60 crooked on the lance shell 40.

Followingly jack type shell 20 is described with reference to Fig. 3 to 5.As mentioned above, jack type shell 20 has cavity 22 that is used for signal contact 12 and the cavity 29 that is used for power supply contact (not having expression in the drawings).In addition, at the upper and lower wall 30a of jack type shell 20, the inner surface of 30b is provided with the arm 82a that is used to admit cam slide 80, the groove 32a of 82b, 32b (referring to Fig. 1).At the upper and lower wall 30a of jack type shell 20, the length direction of 30b is provided with checking breach 34, is used to admit the checking projection 84 (referring to Fig. 1) of cam slide 80.When cam slide 80 was fully inserted into jack type shell 20, checking projection 84 will insert checking breach 34 fully.Therefore, even cannot see electric connector 10, the operator also can be by determining with the position of feel feel checking projection 84 whether cam slide 80 meshes fully with jack type shell 20.Jack type shell 20 also has the fixing lug boss 36 (referring to Fig. 1) in the lock bar slot 112 that is fixed on wire cover 110, thereby wire cover 110 is fixed on the jack type shell 20.

As mentioned above, the framework 33 of jack type shell 20 is provided with lock slots 28, is used for lock tab 42 engagements (referring to Fig. 2) with lance shell 40.In the upper wall 39a of jack type shell 20, be provided with opening 31, be used in the process of molded case 20 forming lock slots 28 (in lower wall 30b, be provided with identical opening 31 ').Lock arm all is to constitute an integral body with framework 33 usually.Yet,, on the outer surface of framework 33, will stay the vestige of mould if do like this.Because be used for placing water resistance gasket 100 on the outer surface of framework 33, the vestige of this mould can cause waterproof quality inferior.Be provided with opening 31 for fear of the deterioration of water resistance, insert molding, form the lock slots 28 on framework 33 outer surfaces, and on lance shell 40, be formed for the lock arm with lock slots 28 engagements by this opening.

Followingly lance shell 40 is described with reference to Fig. 6 to 8.As mentioned above, lance shell 40 is inserted into the lance

shell reception cavity

24,26 of jack type shell 20, and is fixed in wherein with the lock slots 28 of jack type shell 20 and the lock tab 42 of lance shell 40.Similar with jack type shell 20, lance shell 40 also has contact chamber 46 that is used for signal contact and the contact chamber 48 that is used for power supply contact.When jack type shell 20 and lance shell 40 are locked in a time-out,

contact chamber

22,28 is aimed in these

contact chambeies

46,48 respectively.Be provided with in the bottom in contact chamber 46 be used to check plug hole 47 (a) referring to Fig. 6.If will check plug (not expression among the figure) to insert check plug hole 47, just can determine whether jack type contact 12 (referring to Fig. 2) inserts in the chamber fully.Be provided with shell lance 49 in 48 inboards, contact chamber that are used for high power contact, be used for the clamping power supply contact.

The flat board member 68 that double-lock member 60 below will be described is how to prevent that shell lance 49 from bending, thus clamping power supply contact reliably.As seen, lance shell 40 has the gathering sill of establishing within it 50,52, is used to guide double-lock member 60 from Fig. 1 and 6-8.Gathering sill 50 is used to guide the part that is used as contact lockplate 64 on the double-lock member 60, is provided with the contact insertion mouth 62 that is used to insert contact 12 in this part.On the other hand, gathering sill 52 is used to guide the flat board member 68 of double-lock member 60, when the direction (as shown in arrow 67) that is limited in constituting horizontal relationship with the contact direction of insertion and the direction of motion when the motion of flat board member 68 went up, flat board member 68 was gone up extension at the vibration-direction (as shown in arrow 66) of contact direction of insertion (shown in the arrow 11 among Fig. 1) and double-lock member 60.As described below, even the flat board member 68 of double-lock member 60 is in interim latched position, it also can insert gathering sill 52, therefore, even double-lock member 60 is in interim latched position, still can prevent the sideshake on horizontal (as shown in arrow 67) of double-lock member 60.In addition, near the inlet of the gathering sill 52 of lance shell 40, be provided with two lock arms 54 (referring to Fig. 7), be used for locking double-lock member 60 on latched position fully.

Followingly double-lock member 60 is described with reference to Fig. 9 and 10.Double-lock member 60 comprises having opening 62,63 contact lockplate 64, this opening is used to insert signal contact 12 (referring to Fig. 2) and power supply contact, also is included in the direction of insertion (shown in the arrow among Fig. 1 11) of contact and the moving direction (as shown in arrow 66) of double-lock member 60 and goes up the flat board member 68 that extends.Contact lockplate 64 and flat board member 68 are installed in the mutually transversal plane, and as mentioned above, contact lockplate 64 is by gathering sill 50 guiding of lance shell 40 (referring to Fig. 8), and flat board member 68 is by gathering sill 52 guiding.When flat board member 68 was inserted into gathering sill 52, it was supported on two sidewalls of gathering sill 52.Because the thickness of flat board member 68 is less than the lateral length of contact lockplate 64, the scale error that the thickness of flat board member 68 produces during fabrication is far smaller than the scale error of contact lockplate 64 lateral lengths (by the direction of arrow 67 indications).If there is not flat board member 68, because contact lockplate 64 instability in a lateral direction that scale error causes will be very big.Consequently, contact inserts mouth 62,63 and contact chamber 22,29 can not accurately aim at, therefore, because jack type contact 12 (referring to Fig. 2) and use and insert power supply contact that instrument (not have expression in the drawings) inserts from movable contact and may withstand double-lock member 60 at 22,29 o'clock inserting the contact chamber will cause contact to insert the interruption of operating.Yet, except contact lockplate 64, also be provided with the flat board member of arranging in the horizontal with respect to contact lockplate 64 68 on the double-lock member 60.As mentioned above, because the scale error of flat board member 68 is far smaller than the scale error of contact lockplate 64, and since flat board member 68 by two side wall support of gathering sill 52 on interim latched position, double-lock member 60 can be fixed on the firm and stable position, thereby make jack type contact 12 (referring to Fig. 2) and power supply contact insert contact chamber 22,29 smoothly by the mouth 62,63 in the contact lockplate 64, enter

contact chamber

46,48 then.

Has projection 70 (referring to Fig. 9) on the flat board member 68, its effect be when projection 70 on the complete latched position of double-lock member 60 (referring to Fig. 6) with lock arm 54 (Fig. 7) when being meshing with each other, double-lock member 60 is locked in its complete latched position, thereby double-lock member 60 is locked in complete latched position.In addition, flat board member 68 has two grooves 72, is located at the forward and backward both sides of (as shown in arrow 11) flat board member 68 on the contact direction of insertion respectively.On the interim latched position of double-lock member 60, the shell lance 49 (referring to Fig. 6) of lance shell 40 (referring to Fig. 1) is fixed in these grooves 72.The shell lance 49 of lance shell 40 is bent when jack type contact 12 (referring to Fig. 2) inserts double-lock member 60 to interim latched position, make jack type contact 12 can insert its complete latched position, make groove 72 break away from shell lance 49, therefore, shell lance 49 can not bend again.Consequently, shell lance 44 can clamp the jack type contact 12 that inserts fully, and contact can not be pulled out from the contact chamber.In addition, flat board member 68 also has cross member 74, prevents that plug-type shell 14 from engaging with jack type shell 20 (Fig. 2) when inserting contact.

Followingly cam slide 80 is described with reference to Figure 11 and 12.Cam slide 80 has two flat arm 82a, 82b.At arm 82a, the surfaces opposite to each other of 82b are provided with

cam ditch

86a, 88a, and 86b, 88b is used for admitting the cam follower 14a on the outer surface that is located at plug body 14 (referring to Fig. 2).At cam ditch 86a, the opening part of 86b is provided with boss 90, is used for plug body 14 is locked in interim latched position temporarily, to prevent its disengaging.At

arm

82a, 82b is provided with lock arm 92 facing to the position at close its length one side center, side of wire cover 110, and it goes up extension in the extraction direction (shown in arrow 94) of cam slide 80.The top of lock arm 92 has and the vertically disposed front 92a of the main body of arm.When cam slide 80 was in interim latched position, front 92a bit the breach 38 that is used for interim engagement on the jack type shell 20, thereby stoped cam slide 80 to be drawn out of from jack type shell 20.When cam slide 80 was in complete latched position, front 92a bit the breach 39 of jack type shell 20, thereby stoped cam slide 80 being moved on the latched position fully.

Because the flat board member 68 of the double-lock member 60 of electric connector is clamped in the gathering sill 52 of lance shell 40, thereby eliminated the sideshake of double-lock member, so just the jack type contact can have been inserted in the contact chamber smoothly.In addition, flat board member can also prevent from the shell lance that contact is locked in the contact chamber is bent, thereby the contact that prevents large-size is drawn out of.

Claims

1. electric connector, comprise that has a contact chamber (22,29,46,48) insulation crust (20,40), electric contact (12) is received in the contact chamber, also comprise being located at and be used for clamping in the above-mentioned contact chamber and be inserted in the shell lance (44 of the electric contact in the contact chamber, 49), and gathering sill (50 that is installed in above-mentioned insulation crust movably, 52) double-lock member in (60), it can laterally move with respect to the contact direction of insertion that electric contact inserts the contact chamber, it is characterized in that above-mentioned double-lock member (60) comprises a flat board member (68) and a contact lockplate (64), above-mentioned flat board member (68) with respect to above-mentioned contact lockplate (64) in the direction of insertion of contact and transversely extension; Above-mentioned contact lockplate (64) is along above-mentioned gathering sill (50,52) a part (50) is extended, gathering sill (50,52) place above-mentioned flat board member (68) in another part (52), and keep this flat board member (68) in the horizontal, thereby prevent that double-lock member (60) from sideshake taking place when mobile between contact insertion position and contact latched position.

2. the electric connector of claim 1 is characterized in that above-mentioned insulation crust comprises a jack type shell (20) that is used for fixing lance shell (40).

3. the electric connector of claim 2 is characterized in that shell lance (44,49) is located on the above-mentioned lance shell (40).

4. the electric connector of claim 2, it is characterized in that above-mentioned jack type insulation crust (20) comprises a framework (33), the each several part of above-mentioned lance shell (40) extends along its both sides, also comprises a sealing gasket (100) on the said frame (33) that is located between above-mentioned jack type insulation crust (20) and the above-mentioned lance shell (40).

5. the electric connector of claim 1 is characterized in that above-mentioned flat board member (68) comprises and is used to the groove 72 that prevents that shell lance (49) from bending.

6. the electric connector of claim 1 is characterized in that above-mentioned insulation crust (20) comprises that (32a, 32b), (82a 82b) moves along these grooves the arm of cam slide (80) groove, so that electric connector is connected on the electric connector (44) of cooperation.

7. the electric connector of claim 1 is characterized in that above-mentioned insulation crust (20,40) and above-mentioned double-lock member (60) have locking member (54,70), are used for double-lock member (60) is locked in the contact latched position.