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![](https://data.epo.org/publication-server/img/EPO_BL_WORD.jpg) |
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EP 0 941 562 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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17.01.2001 Bulletin 2001/03 |
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Date of filing: 20.11.1997 |
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International Patent Classification (IPC)7: H01R 13/436 |
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International application number: |
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PCT/US9721/498 |
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International publication number: |
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WO 9824/150 (04.06.1998 Gazette 1998/22) |
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DOUBLE-LOCK CONNECTOR
STECKVERBINDER MIT DOPPELTER VERRIEGELUNG
CONNECTEUR A VERROUILLAGE DOUBLE
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Designated Contracting States: |
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DE FR GB |
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Priority: |
26.11.1996 JP 33045796
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Date of publication of application: |
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15.09.1999 Bulletin 1999/37 |
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Proprietor: THE WHITAKER CORPORATION |
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Wilmington, DE 19808 (US) |
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Inventor: |
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- FUJIWARA, Yoshihito
Tokyo 201 (JP)
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Representative: Heinz-Schäfer, Marion |
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AMP International Enterprises Limited
AMPèrestrasse 3 9323 Steinach (SG) 9323 Steinach (SG) (CH) |
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References cited: :
EP-A- 0 540 008
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US-A- 4 867 712
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] This invention relates to double-lock connectors which are equipped with a double-lock
member mounted on a housing in a movable manner which can slide from a temporary-latched
position in which electrical contacts can be inserted in contact cavities of the housing
to the completely-latched position securing the inserted contacts in place therein.
[0002] An example of a known double-lock connector is disclosed in EP-A 540 008. This document
discloses a double-lock connector with a housing having contact cavities for receiving
electrical contacts therein, a double-lock member mounted on the housing for locking
the electrical contacts in the cavities, the double-lock member having an elongated
arm slidable from a temporary-latched to a fully-latched position, locking members
being arranged on an inside surface of the double-lock member at spaced intervals
therealong and having first portions permitting insertion of the electrical contacts
in the contact cavities, when the double-lock member is in the temporary-latched position
and second portions locking the electrical contacts in the contact cavities when the
double-lock member is in the fully-latched position. Securing of the double-lock member
is provided for by slide means in the housing.
[0003] An example of a further double-lock connector is disclosed in the Japanese Patent
Disclosure No. 89-54678. The double-lock member of the double-lock connector has a
flat-insertion pin formed at a predetermined location along the length of the connecting
strip along which latching lugs are formed whose purpose is to lock the contacts in
position. The contacts are inserted inside the contact cavities when the double-lock
member is in the temporary-latched position, and after the contacts are inserted in
the contact cavities, they are locked therein by sliding the double-lock member into
the fully-latched position.
[0004] Since the contacts are locked in position by the double-lock member, they are reliably
retained in the contact cavities.
[0005] However, the double-lock member of the known double-lock connector described above
is suitable only for the cases when the cavities accommodating the contacts are arranged
in lengthwise rows, and cannot be used in other configurations, for example, in connectors
with a staggered arrangement of contacts.
[0006] Therefore, the purpose of the present invention is to provide a double-lock connector
having a double-lock member which can be used in connectors having contact cavities
arranged in a straight or staggered pattern. It is also desirable that the sliding
of the double-lock member from the temporary-latched position to the fully-latched
position is conducted smoothly and reliably, and that the design of the connector
is relatively simple.
[0007] The present invention is directed to a double-lock connector having a double-lock
member mounted on a housing in such a manner that it can slide in a direction perpendicular
to contact cavities in the housing from a temporary-latched position in which electrical
contacts can be inserted in the contact cavities of the housing to a fully-latched
position in which the contacts become locked therein. The double-lock member has elongated
arms sliding along outer surfaces of side walls of the housing which extend in a direction
of the double-lock member movement on which locking members of L-shaped cross section
are arranged at predetermined intervals from each other locking the contacts in position
when the arms are in their fully-latched position, and by the fact that L-shaped grooves
are formed on the outer surfaces of the side walls of the housing of such a cross
section that the grooves can accommodate the locking members, securing the arms on
the outer surfaces of the side walls of the housing by virtue of engagement between
the locking members and the grooves when the fully-lock member is moved to the fully-latched
position.
[0008] A double-lock connector comprises a housing having contact cavities for receiving
electrical contacts therein, a double-lock member mounted on the housing for locking
the electrical contacts in the contact cavities, wherein the double-lock member has
an elongated arm slidable along an outer surface of the housing from a temporary-latched
position to a fully-latched position, locking members on an inside surface of the
double-lock member at spaced intervals therealong and having first portions permitting
insertion of the electrical contacts in the contact cavities when the double-lock
member is in the temporary-latched position and second portions locking the electrical
contacts in the contact cavities when the double-lock member is in the fully-latched
position, and securing members on the housing and the locking member securing the
double-lock member on the housing when the double-lock member is moved to the fully-latched
position.
[0009] It is desirable that the arms of the double-lock member are joined at one end and
that each arm can slide on the respective outer surface of the side walls of the housing.
It is also desirable that at the end where the arms are connected together a checking
device is provided which indicates that the double-lock member has reached the fully-latched
position.
[0010] It is also desirable that each arm has a latching member which would make it possible
to latch the double-lock member in the temporary-latched position and in the fully-latched
position relative to the housing. The housing must have notches engaging the latching
members which latch themselves by spring-loaded action.
[0011] It is further desirable that the arms of the double-lock member slide along guiding
surfaces provided in the outer surfaces of side walls of the housing. It is preferable
that such guiding surfaces be perpendicular to the side walls of the housing.
[0012] It is additionally desirable that windows are provided in the housing through which
it is possible to confirm that the contacts are properly inserted in the contact cavities
when the double-lock member is in the temporary-latched position. These confirmation
windows can be closed by the double-lock member when it is moved to the fully-latched
position.
[0013] The invention will now be described by way of example with reference to the accompanying
drawings in which:
[0014] Figure 1 is an exploded perspective view of a double-lock connector according to
the present invention.
[0015] Figure 2 is a perspective view of the double-lock member used in the double-lock
connector depicted in Figure 1.
[0016] Figure 3 is a perspective view of an assembled double-lock connector shown in Figure
1 showing the double-lock member in the temporary-latched position.
[0017] Figure 4 is a view similar to that shown in Figure 3 with the double-lock member
in the fully-latched position.
[0018] Figure 5 is a cross-sectional view of the double-lock connector shown in Figure 1
with the double-lock member in the fully-latched position and with the connector connected
to a mating connector.
[0019] The double-lock connector 10 shown in Figure 1 has an inner housing 20 containing
multiple electrical contacts (not shown), an outer housing 80 in which the inner housing
20 is disposed and a wire housing 85 mounted to the back surface of the outer housing
80. To the inner housing 20, the double-lock member 50 and a waterproof gasket are
mounted. A slide cam lever 95 is mounted on the exterior housing 80 which makes it
possible to effect connection with a mating connector with an easy effort.
[0020] As can be seen from Figure 2, the double-lock member 50 has a generally U-shaped
configuration and comprises two flat elongated arms 51a, 51b joined together at one
end by means of a connection portion 52. On the arm 51a, locking members 60 facing
inside are formed at fixed distances from each other in a longitudinal direction.
Each locking member 60 includes two portions; the first, a relatively-low portion
61 which provides for the insertion of the contact into its cavity when the double-lock
member is in the temporary-latched position, and the second, a relatively-high portion
62, which locks the contact in its cavity when the double-lock member is in the fully-latched
position. Identical multiple locking members 60 are formed also on the other arm 51b
facing the locking members on arm 51a (which cannot be seen in the drawing). In arms
51a and 51b, multiple windows 63 are located, which are located next to first portions
61 of the locking members 60. The purpose of windows 63 will be explained below. Near
the connecting portion 52, latching arms 53a, 53b are provided in the arms 51a, 51b
which have flexibility in the direction of the thickness of the arms. Latching lugs
54a, 54b are located at the ends of the latching arms 53a, 53b.
[0021] The double-lock member 50 can move from the temporary-latched position shown in Figure
3 to the fully-latched position shown in Figure 4. As can be seen from Figure 1, in
the inner housing 20, notches 21, 22 are provided as a means for retaining the double-lock
member 50 in the temporary-latched position and in the fully-latched position, respectively.
In the temporary-latched position, latching lugs 54a, 54b of the latching arms 53a,
53b are engaged with the notches 21; and, in the fully-latched position, they are
engaged with the notches 22.
[0022] As can be seen from Figures 1, 3 and 4, the double-lock member 50 can slide along
the groove 27 formed in the inner housing 20 between a first wall 24, which is located
closer to a mating surface 31 and a second wall 25, which is located inwardly from
the first wall 24 on the housing. The first wall 24 and the second wall 25 act as
a guiding means for the arms 51a, 51b of the double-lock member 50.
[0023] When the double-lock member 50 is in the temporary-latched position shown in Figure
3, the electrical contacts (not shown) are inserted in cavities 30 of the inner housing
20 from the side opposite to the mating surface 31. As can be seen from Figure 1,
multiple windows 23 are formed in the side walls of the inner housing 20 whose locations
correspond to the locations of cavities 30. In the temporary-latched position shown
in Figure 3, windows 63 of the double-lock member 50 are aligned with the windows
23. Therefore, the insertion of contacts can be monitored through windows 23, 63.
Since in the fully-latched position, as can be seen from Figure 4, windows 23 and
63 are not aligned, no foreign matter can enter the contact cavities (see Figure 5).
[0024] As shown in Figure 5, the second portion 62 of the locking member 60 of the double-lock
member 50, whose purpose is to retain an electrical contact 100 in the cavity 30,
has an L-shaped cross section. From Figure 2, it is clear that the cross section of
the first portion 61 is also of an L-shaped configuration. On the other hand, one
can see that the locking members 60 fit into an L-shaped groove 28 formed along the
entire length of the inner housing 20. Therefore, when the double-lock member 50 is
moved from the temporary-latched position to the fully-latched position, as shown
in Figures 3 and 4, arms 51a, 51b are maintained in position on housing 20 as a result
of the engagement between the locking members 60 and the groove 28. The engagement
between the locking members 60 and the groove 28 also plays the role of a guiding
means.
[0025] As can be seen from Figures 1, 3 and 4, cavities 30 are arranged in a staggered pattern.
This increases the density of seal members 120 provided at the rear ends of the contacts
100, thus making it possible to reduce the dimension of the inner housing 20.
[0026] As can be seen from Figures 1, 3 and 4, at one end of the first wall 24 of the inner
housing 20, a cutout 29 is provided. Through cutout 29, it is possible to ascertain
that the double-lock member 50 is in the fully-latched position by the position of
the connecting portion 52. In addition, the first wall 24 plays the role of a cover
protecting the double-lock member 50 from been exposed to the mating surface 31, except
for the portion engaging the cutout 29, thus preventing possible damage to the double-lock
member 50.
[0027] Above, a detailed explanation concerning the double-lock connector according to this
invention has been presented. However, this explanation was provided only as an example,
and experts in the field can make various modifications and changes. For example,
in this embodiment, the first and the second portions 61 and 62 of the locking members
60 have an L-shaped cross section, however, it is possible to make only the first
portion 61 of the L-shaped configuration.
[0028] The double-lock connector, according to this invention, has a double-lock member
with elongated arms extending in the direction of sliding with L-shaped locking members
locking the contacts in contact cavities when the double-lock member is in the fully-latched
position, which are arranged at fixed distances from each other. A groove of L-shaped
cross section is formed along an outside surface of a housing thereby retaining the
arms on the housing when the double-lock member is slid by engaging with the locking
members. Therefore, it can be used not only in connectors having the contacts arranged
in regular rows but also in connectors having contacts arranged in a staggered pattern
and provides for a smooth movement of the double-lock member from a temporary-latched
position to a fully-latched position.
1. A double-lock connector comprising a housing (20) having contact cavities (30) for
receiving electrical contacts (100) therein, a double-lock member (50) mounted on
the housing (20) for locking the electrical contacts (100) in the contact cavities
(30), the double-lock member (50) having an elongated arm (51a, 51b) slidable from
a temporary-latched position to a fully-latched position, locking members (60) being
arranged on an inside surface of the double-lock member at spaced intervals therealong
and having first portions (61) permitting insertion of the electrical contacts (100)
in the contact cavities (30) when the double-lock member (50) is in the temporary-latched
position and second portions (62) locking the electrical contacts (100) in the contact
cavities (30) when the double-lock member (50) is in the fully-latched position,
characterized in that the arm (51a, 51b) of the double-lock member (50) is slidable
along an outer surface of the housing (20), and that securing members (28, 62) on
the housing (20) and the locking members (60) secure the double-lock member (50) on
the housing (20) when the double-lock member (50) is moved to the fully-latched position.
2. A double-lock connector as claimed in claim 1, wherein the double-lock member (50)
has two elongated arms (51a, 51b) connected together at one end by a connection portion
(52).
3. A double-lock connector as claimed in claims 1 and 2, wherein the first portions (61)
are lower in height than the second portions (62).
4. A double-lock connector as claimed in claim 3, wherein the second portions (62) have
an L-shaped cross section.
5. A double-lock connector as claimed in claim 4, wherein the securing members comprise
an L-shaped groove (28) on side walls of the housing (20) and the L-shaped second
portions (62) of the locking members (60) in engagement with each other.
6. A double-lock connector as claimed in claims 2-5, wherein the double-lock member (50)
includes flexible latching members (53a, 53b) having latching lugs (54a, 54b) engagable
with notches (21, 22) on the housing (20) for latching the double-lock member (50)
at the temporary-latched position and the fully-latched position.
7. A double-lock connector as claimed in claims 2-6, wherein the housing (20) and the
double-lock member (50) have windows (20, 63) that are aligned when the double-lock
member (50) is in the temporary-latched position to confirm that the electrical contacts
(100) are properly inserted in the contact cavities (30).
8. A double-lock connector as claimed in claims 1-7, wherein the double-lock member (50)
and the housing (20) have check members (52, 29) to ascertain that the double-lock
member is at the fully-latched position.
1. Verbinder mit doppelter Verriegelung, der aufweist: ein Gehäuse (20) mit Kontakthohlräumen
(30) für das Aufnehmen von elektrischen Kontakten (100) darin; ein Doppelverriegelungselement
(50), das am Gehäuse (20) für das Verriegeln der elektrischen Kontakte (100) in den
Kontakthohlräumen (30) montiert ist, wobei das Doppelverriegelungselement (50) einen
länglichen Arm (51a, 51b) aufweist, der aus einer vorübergehend eingeklinkten Position
in eine vollständig eingeklinkte Position verschiebbar ist, wobei die Verriegelungselemente
(60) auf einer Innenfläche des Doppelverriegelungselementes in Abständen längs davon
angeordnet sind und aufweisen: erste Abschnitte (61), die das Einsetzen der elektrischen
Kontakte (100) in die Kontakthohlräume (30) gestatten, wenn sich das Doppelverriegelungselement
(50) in der vorübergehend eingeklinkten Position befindet; und zweite Abschnitte (62),
die die elektrischen Kontakte (100) in den Kontakthohlräumen (30) verriegeln, wenn
sich das Doppelverriegelungselement (50) in der vollständig eingeklinkten Position
befindet, dadurch gekennzeichnet, daß der Arm (51a, 51b) des Doppelverriegelungselementes
(50) längs einer Außenfläche des Gehäuses (20) verschiebbar ist; und daß Sicherungselemente
(28, 62) am Gehäuse (20) und die Verriegelungselemente (60) das Doppelverriegelungselement
(50) am Gehäuse (20) sichern, wenn das Doppelverriegelungselement (50) in die vollständig
eingeklinkte Position bewegt wird.
2. Verbinder mit doppelter Verriegelung nach Anspruch 1, bei dem das Doppelverriegelungselement
(50) zwei längliche Arme (51a, 51b) aufweist, die miteinander an einem Ende durch
einen Verbindungsabschnitt (52) verbunden sind.
3. Verbinder mit doppelter Verriegelung nach Ansprüchen 1 und 2, bei dem die ersten Abschnitte
(61) eine niedrigere Höhe aufweisen als die zweiten Abschnitte (62).
4. Verbinder mit doppelter Verriegelung nach Anspruch 3, bei dem die zweiten Abschnitte
(62) einen L-förmigen Querschnitt aufweisen.
5. Verbinder mit doppelter Verriegelung nach Anspruch 4, bei dem die Sicherungselemente
eine L-förmige Nut (28) in Seitenwänden des Gehäuses (20) und die L-förmigen zweiten
Abschnitte (62) der Verriegelungselemente (60) in Eingriff miteinander aufweisen.
6. Verbinder mit doppelter Verriegelung nach Ansprüchen 2 bis 5, bei dem das Doppelverriegelungselement
(50) elastische Einklinkelemente (53a, 53b) umfaßt, die Einklinkansätze (54a, 54b)
aufweisen, die mit Kerben (21, 22) am Gehäuse (20) für ein Einklinken des Doppelverriegelungselementes
(50) in der vorübergehend eingeklinkten Position und der vollständig eingeklinkten
Position in Eingriff kommen können.
7. Verbinder mit doppelter Verriegelung nach Ansprüchen 2 bis 6, bei dem das Gehäuse
(20) und das Doppelverriegelungselement (50) Fenster (20, 63) aufweisen, die ausgerichtet
sind, wenn das Doppelverriegelungselement (50) in der vorübergehend eingeklinkten
Position ist, um zu bestätigen, daß die elektrischen Kontakte (100) richtig in den
Kontakthohlräumen (30) eingesetzt sind.
8. Verbinder mit doppelter Verriegelung nach Ansprüchen 1 bis 7, bei dem das Doppelverriegelungselement
(50) und das Gehäuse (20) Kontrollelemente (52, 29) aufweisen, um festzustellen, daß
sich das Doppelverriegelungselement in der vollständig eingeklinkten Position befindet.
1. Connecteur à verrouillage double comprenant un boîtier (20) comportant des cavités
de contact (30) destinées à recevoir des contacts électriques (100), un élément à
verrouillage double (50) monté sur le boîtier (20) pour verrouiller les contacts électriques
(100) dans les cavités de contact (30), l'élément à verrouillage double (50) comportant
un bras allongé (51a, 51b) pouvant glisser d'une position de verrouillage temporaire
vers une position de verrouillage complet, des éléments de verrouillage (60) étant
agencés sur une surface interne de l'élément à verrouillage double, à des intervalles
espacés le long de sa longueur, et comportant des premières parties (61) permettant
l'insertion des contacts électriques (100) dans les cavités de contact (30) lorsque
l'élément à verrouillage double (50) se trouve dans la position de verrouillage temporaire,
et des deuxièmes parties (62) verrouillant les contacts électriques (100) dans les
cavités de contact (30) lorsque l'élément à verrouillage double (50) se trouve dans
la position de verrouillage complet, caractérisé en ce que le bras (51a, 51b) de l'élément
à verrouillage double (50) peut glisser le long d'une surface externe du boîtier (50),
et en ce que des moyens de fixation (28, 62) sur le boîtier (20) et les éléments de
verrouillage (60) fixent l'élément à verrouillage double (50) sur le boîtier (20)
lorsque l'élément à verrouillage double (50) est déplacé vers la position de verrouillage
complet.
2. Connecteur à verrouillage double selon la revendication 1, dans lequel l'élément à
verrouillage double (50) comporte deux bras allongés (51a, 51b), connectés au niveau
d'une extrémité par une partie de connexion (52).
3. Connecteur à verrouillage double selon les revendications 1 et 2, dans lequel les
premières parties (61) ont une hauteur inférieure à celle des deuxièmes parties (62).
4. Connecteur à verrouillage double selon la revendication 3, dans lequel les deuxièmes
parties (62) ont une section transversale en U.
5. Connecteur à verrouillage double selon la revendication 4, dans lequel les éléments
de fixation comprennent une rainure en L (28) sur les parois latérales du boîtier
(20), les deuxièmes parties en L (62) des éléments de verrouillage (60) étant engagées
les unes dans les autres.
6. Connecteur à verrouillage double selon les revendications 2 à 5, dans lequel l'élément
à verrouillage double (50) englobe des éléments de verrouillage flexibles (53a, 53b)
comportant des pattes de verrouillage (54a, 54b) pouvant s'engager dans des entailles
(21, 22) sur le boîtier (20) pour verrouiller l'élément à verrouillage double (50)
au niveau de la position de verrouillage temporaire et de la position de verrouillage
complet.
7. Connecteur à verrouillage double selon les revendications 2 à 6, dans lequel le boîtier
(20) et l'élément à verrouillage double (50) comportent des fenêtres (20, 63), qui
sont alignées lorsque l'élément à verrouillage double (50) se trouve dans la position
de verrouillage temporaire, pour confirmer l'insertion appropriée des contacts électriques
(100) dans les cavités de contact (30).
8. Connecteur à verrouillage double selon les revendications 1 à 7, dans lequel l'élément
à verrouillage double (50) et le boîtier (20) comportent des éléments de contrôle
(52, 29), destinés à confirmer que l'élément à verrouillage double se trouve dans
la position de verrouillage complet.