The present invention relates to a flat plug connector (10), a flat plug connector system (1) and a method for manufacturing a flat plug connector (10),
wherein the flat plug connector (10) comprises a two-part plug connector housing (11) and a conductor portion (30) with a flexible flat conductor (110) for electrically conductive connection to contacts (70) of a complementary flat plug connector (50), wherein the conductor portion (30) with the flexible flat conductor (110) is arrangeable in the plug connector housing (11) without deformation, and wherein the conductor portion (30) with the flexible flat conductor (110) is arranged, at least in sections, between a first upper plug connector housing part (40) and a second lower plug connector housing part (20),
wherein the first plug connector housing part (40) and the second plug connector housing part (20) are fixed relative to each other.
H01R 13/502 - BasesCases composed of different pieces
H01R 12/79 - Coupling devices for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
H01R 13/639 - Additional means for holding or locking coupling parts together after engagement
H01R 43/18 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for manufacturing bases or cases for contact members
2.
CONTACT FOR A FLAT PLUG CONNECTOR AND FLAT PLUG CONNECTOR FOR A FLAT PLUG CONNECTOR SYSTEM
The present invention relates to a contact (70) for a flat plug connector (50), and a flat plug connector (50) for a flat plug connector system (1), wherein the flat plug connector (50) has at least one contact (70) according to the contact (70) for a flat plug connector, and
wherein the contact (70) has a terminal portion (71) for electrically conductive connection to an electronic component;
wherein the contact (70) has a retaining portion (73) for fixing in a plug connector housing (51);
wherein the contact (70) has a contact portion for electrically conductively contacting a complementary contact (34),
wherein the contact portion is connected to the retaining portion (73) by means of a bent portion (74) of the contact (70),
wherein the contact portion has a bent contact region (76) for electrically conductively contacting a complementary contact (34),
wherein the contact portion has a first portion (75) which is arranged between the bent contact region (76) and the retaining portion (73), wherein the first portion (75) and the retaining portion (73) enclose an acute angle, and
wherein the contact portion has a second portion (77) which is arranged opposite the first portion (75) relative to the bent contact region (76), and wherein the second portion (77) has a support portion (78) which is configured to be supported at the retaining portion (73) by the support portion (78) upon deflection of the contact portion towards the retaining portion (73).
The present invention relates to a flat plug connector system (1), a flat plug connector (10) with a securing element (5), a securing element (5) and a method for securing a coupling between a flat plug connector (10) and a complementary flat plug connector (50), wherein the flat plug connector system (1) comprises: a flat plug connector (10) having a coupling portion (14), a complementary flat plug connector (50) having a coupling portion (54) complementary to the coupling portion (14) of the flat plug connector (10), and a securing element (5), wherein one of the coupling portion (14) and the complementary coupling portion (54) has a receptacle (12) at which the securing element (5) is arranged at least in sections, wherein the coupling portion (14) and the complementary coupling portion (54) are couplable in a form-fit manner, wherein the securing element (5) prevents detachment of the form-fit coupling between the coupling portion (14) and the complementary coupling portion (54) in a secured state of the flat plug connector system (1), wherein the securing element (5) allows detachment of the form-fit coupling between the coupling portion (14) and the complementary coupling portion (54) in an unsecured state of the flat plug connector system (1), wherein the securing element (5) has a securing position in the secured state of the flat plug connector system (1), and has a non-securing position in the unsecured state, and wherein the coupling portion (14), the complementary coupling portion (54) and the securing element (5) are configured to be complementary to each other such that in a decoupled state in which the coupling portion (14) and the complementary coupling portion (54) are not coupled to each other, the securing element (5) is retained in the non-securing position.
H01R 43/26 - Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for engaging or disengaging the two parts of a coupling device
4.
CONNECTOR, SUPERCONNECTOR, AND METHOD OF ASSEMBLING A CONNECTOR FOR ESTABLISHING AN ETHERNET CONNECTION
A Connector (10; 10a; 10b) for establishing an ethernet connection comprises a connector housing (40). An ethernet cable end portion (20) enters the connector housing (40) at a cable end (13) of the connector (10) and comprises at least one twisted pair (22a; 22b; 22c; 22d) with two ending contacts (24a; 24b) and a pair shielding (26a; 26b) shielding the twisted pair (22a; 22b; 22c; 22d) and comprising conductive and/or magnetic material. At least one connector shielding (30a; 30b) is arranged in the connector housing (40), comprises conductive and/or magnetic material, contacts the pair shielding (26a; 26b) of the twisted pair (22a; 22b; 22c; 22d), and at least partially encloses the ending contacts (24a; 24b) of the twisted pair (22a; 22b; 22c; 22d). An inner isolator (60a; 60b) is at least partially arranged in the connector shielding (30a; 30b) and isolates and/or holds the ending contacts (24a; 24b) of the twisted pair (22a; 22b; 22c; 22d). A contact portion (27a; 27b) of the pair shielding (26a; 26b) is supported by a support portion (63a; 63b) of the inner isolator (60a; 60b) and held between the support portion (63a; 63b) and the connector shielding (30a; 30b).
Connector (10; 10a; 10b) for establishing an ethernet connection comprising an ethernet cable end portion (20) comprising at least two twisted pairs (22a, 22b). Each twisted pair (22a, 22b) comprises two ending contacts (24a, 24b). The ethernet cable end portion (20) further comprises a pair shielding (26a, 26b) for each twisted pair (22a, 22b) comprising conductive and/or magnetic material. The connector (10) further comprises a connector housing (40) in which the ending contacts (24a, 24b) are arranged and at least two connector shieldings (30a, 30b) arranged in the connector housing (40) and comprising conductive and/or magnetic material. In each connector shielding (30a, 30b), the ending contacts (24a, 24b) of at least one of the twisted pairs (22a, 22b) are arranged so that the connector shielding (30a, 30b) at least partially encloses the ending contacts (24a, 24b) arranged therein. Each connector shielding (30a, 30b) contacts the pair shielding (26a, 26b) of the at least one twisted pair (22a, 22b) comprising the ending contacts (24a, 24b) enclosed by the respective connector shielding (30a, 30b). Further, the connector shieldings (30a, 30b) are arranged separately and out of contact from each other within the connector housing (40).
H01R 13/6591 - Specific features or arrangements of connection of shield to conductive members
H01R 24/56 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency specially adapted for specific shapes of cables, e.g. corrugated cables, twisted pair cables, cables with two screens or hollow cables
H05K 9/00 - Screening of apparatus or components against electric or magnetic fields
A connector (10; 10a; 10b) for establishing an ethernet connection comprises a connector housing (40) and an ethernet cable end portion (20) entering the connector housing (40) at a cable end (13) of the connector (10) and comprising at least one twisted pair (22a; 22b; 22c; 22d) with two ending contacts (24a; 24b). At least one adapter receptacle (80) is provided at a connecting end (14) of the connector (10; 10a; 10b). Therein, each ending contact (24a; 24b) is electrically connected to an adapter contact (95a-d) and removably attached to the adapter receptacle (80).
H01R 13/6582 - Shield structure with resilient means for engaging mating connector
H01R 24/54 - Intermediate parts, e.g. adapters, splitters or elbows
H01R 24/56 - Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure having concentrically or coaxially arranged contacts specially adapted for high frequency specially adapted for specific shapes of cables, e.g. corrugated cables, twisted pair cables, cables with two screens or hollow cables
A connector for connecting a hearing aid to a cable, the connector comprising the following: a connector housing with at least one recess; and a seal with a main body arranged at least in part(s) on an outer circumference of the connector housing, and at least one coupling portion arranged at least partially in the recess, so that the seal is connected to the connector housing at least in part(s) in a substantially positive manner.
09 - Scientific and electric apparatus and instruments
Goods & Services
Insulated electrical connectors; plug-in connectors
[electric]; plug-in connectors; connections for electric
lines; connecting parts for electric cables; connectors,
electric.
09 - Scientific and electric apparatus and instruments
Goods & Services
Insulated electrical connectors; plug-in connectors electric; plug-in connectors; connections for electric lines; connecting parts for electric cables, namely, cable connectors, plugs and sockets, for termination of electric cables and single wires; connecting parts for electric cables, namely, wall mounted connectors, plugs and sockets, for termination of electric cables and single wires and termination on printed circuit boards; connectors, electric
09 - Scientific and electric apparatus and instruments
Goods & Services
Plug-in connectors, In particular electrical connectors and Insulated electrical connectors; Electrical connecting parts, In particular connections for electric lines and Connections for electric cables; Electric contacts and connectors, In particular stiffeners/contact stiffeners, with and without additional locking mechanisms; Electrical and electronic cables, In particular flexible ribbon cables (flexible flat cables).
One aspect of the present invention relates to a connector for receiving at least one planar end region of a printed circuit board, or a planar end region of a cable, and comprising: • - an insertion opening section which is designed such that at least one sub-region of said planar end region can be inserted into an interior of the connector in an insertion direction E; • - at least one first lower contact element which is designed to make electrical contact with at least one associated first electrical conductor on an underside of the planar end region, and • - at least one second lower contact element which is designed to make electrical contact with at least one associated second electrical conductor on the underside of the planar end region, • said first lower contact element being arranged to be spaced apart from the second lower contact element in a longitudinal direction L which is oriented at right angles to insertion direction E, • the first lower contact element being different to the second lower contact element, and • insertion direction E and a vertical direction H, which is oriented perpendicularly to both insertion direction E and longitudinal direction L, defining an intersection plane E-H such that the first lower contact element is incongruent to the second lower contact element within said intersection plane E-H. The invention also relates to a contact system.
09 - Scientific and electric apparatus and instruments
Goods & Services
Insulated electrical connectors; Plug-in connectors [electric]; Plug-in connectors; Connections for electric lines; Connecting parts for electric cables; Connectors, electric.
09 - Scientific and electric apparatus and instruments
Goods & Services
Insulated electrical connectors; Plug-in electrical connectors; Plug-in connectors; Connections for electric lines; Connections for electric cables; Electric couplings; All of the aforesaid goods being other than goods for the audiovisual sector (in the sense of goods for recording, reproduction and playing of sound, images or data, including amplifiers, AV receivers, Blu-ray recorders, CD recorders, MiniDisc recorders, DVD recorders, (media) PCs/laptops, projectors, SAT receivers, set top boxes, subwoofers, televisions, tape recorders and video recorders).
15.
SOLAR PANEL, METHOD FOR PRODUCING THE SAME, CONNECTING PLUG, AND BYPASS PLUG
The invention relates to a solar panel, comprising: a solar module (4) – an electrical input connection plug (6) having at least one diode (40), - an electrical output connection plug (8) having at least one diode (40), wherein the input connection plug (6) is attached to the solar module (4) by means of the input connection plug arrangement element (12) and the output connection plug (8) by means of the output connection plug arrangement element (18), at a distance from each other, and to a method for producing the same, to a connection plug and to a bypass plug.
The invention relates to solar panels comprising a solar module (4) provided with a connection side element (4a), and at least one electrical bridging device (22) provided with a recess (12) formed in the connection side element (4a), at least two electrical conductors (10a, 10b) arranged at least in areas of the recess (12), and at least one diode (26). A first of the electrical conductors (10a) directly contacts an associated first connection (28a) of the diode (26), and a second of the electrical conductors (10b) directly contacts an associated second connection (28b) of the diode (26), in such a way that the two electrical conductors (10a, 10b) are electrically connected by means of the at least one diode (26). The electrical bridging device also comprises a covering element (24) that is fixed to the connection side element (4a) and covers the recess (12) and the at least one diode (26). The invention also relates to a method for producing said solar panels.
The invention relates to a solar panel, comprising: a solar module (4) having at least two electrical lines (10a, 10b) and an electrical bridging socket (6), having an electrically isolating diode holder (22) and an axial diode (14) having two connections (12a, 12b), wherein the axial diode (14) is held in a contact position by means of the diode holder (22), wherein the one electrical line (10a) of the solar module (4) is in immediate contact with the one connection (12a) in the contact position and the other electrical line (10b) of the solar module (4) is in immediate contact with the other connection (12b) such that the two electrical lines (10a, 10b) are electrically connected to one another by means of the axial diode (14). The invention also relates to a method for producing a solar panel and a bridging socket.
The invention relates to a connector system comprising a connector and a complementary connector, the connector comprising a housing element having a locking element and an electrical contact element, said electrical contact element being arranged in a front end section of the housing element and comprising a closing element arranged on the housing element, which closing element envelopes at least the rear end of the housing element and a section of an electrical cable arranged outside the housing element and is intimately connected to the housing element and the electrical cable to such a degree that the interior of the housing element is closed off from the surroundings at the rear end in a moisture-tight manner. The complementary connector comprises corresponding complementary elements. The locking element can only be unlocked by means of a tool.
The invention relates to a connection box for a circuit board, especially for a solar module, comprising at least one contact device having a conductor terminal and a contact element, at least one connecting cable having at least one electrical conductor, the electrical conductor contacting the conductor terminal of the at least one contact device, at least one sealing element which envelopes an end section of the connecting cable so that the end section is substantially moisture-tight, a housing device and at least one housing cover which is designed to close off at least one opening of a receiving element in a substantially moisture-tight manner. The housing device is designed to be arranged on the circuit board and envelopes the at least one sealing element in at least one contact section and is intimately connected to the sealing element in the contact section to such a degree that the contact section is substantially moisture-tight. The housing device comprises at least one receiving element having at least two openings, the contact element being arranged in the receiving element in such a manner that the contact element can be contacted by an electrical connecting element of the circuit board and that the contact element can be fixed to the electrical connecting element by means of at least one fixing element. The invention also relates to a use of the connection box, to a method for producing a connection box and to a method for producing a solar panel.
The invention relates to a socket for a circuit board, comprising: a base having an opening area for introducing an electrical conductor of the circuit board, a contact element for electrically contacting a conductor of the circuit board, and an electrical output electrically connected to the contact element, wherein the contact element comprises a returning connecting contact spring disposed in an introduction area, wherein said spring can be actuated returnably by applying a force along a force direction, such that the electrical conductor can be disposed between a connecting contact area and the connecting contact spring, and wherein each contact element is configured such that the electrical conductor can be brought into contact with the contact element by means of at least two of the three following contact configurations: The at least one electrical conduction - can be introduced along a first insertion direction E1 in the introduction area of the contact element, and can be brought into contact with the contact element by means of the connecting contact spring; - can be inserted in the introduction area of the contact element along the second insertion direction E2, wherein the first and the second direction E1, E2 are different from each other; - can be brought into contact with a contact device of the contact element, wherein the contact device is disposed outside of the insertion area, and a use, a solar panel, a contact element, and a method.
The invention relates to a junction box for a printed board, especially for a solar module, comprising a base, an external connection zone with at least one cable contacting device which is in contact with a terminal zone of at least one cable, and at least one positioning device that is connected to the base and is provided with at least one retaining zone. Each retaining zone is designed such that a contact zone of the cable can be releasably fixed to the positioning device, the contact zone being located at a distance from the terminal zone. The invention also relates to a system, a method, and a use.
In summary the present invention relates to a connection box (3) for a printed circuit board (2), particularly for a solar module (2), comprising: a base carrier (4) having at least one opening region (7) and - at least one contact device (10), wherein - the at least one contact device (10) is disposed in the inside of the base carrier (4) such that at least one electric conductor (9) can be inserted along an insertion direction(E) into the connector box (3) through the at least one opening region (7), and can be brought into contact with the at least one contact device (10), wherein - the at least one contact device (10) comprises at least one contact element (11) having at least one resilient connection contact spring (15) and at least one connection element (24), and wherein - the at least one connection contact spring (15) can be resiliently displaced relative to the connection element (24) by applying a force parallel to a force direction (K) such that the at least one electric conductor (9) can be disposed at least partially between the at least one connection element (24) and the at least one connection contact spring (15), and a solar panel, a contact device, and a method.
