EP3338326B1 - Connector - Google Patents

Description

The invention is based on a connector according to the preamble of independent claim 1.

Plug connectors of this type are required in order to reversibly connect electrical lines or connections to one another. Connectors and mating connectors are used in the prior art to create an electrical and mechanical connection between two electrical lines or an electrical line and a device or an installation. Connectors that are protected against environmental influences by the housing are required in particular for the transmission of large currents.

State of the art

the DE 20 2006 003 204 U1 shows a connector which is designed as a plug or attachment housing. The connector consists of a connector housing in which an insulating body with electrical contacts is accommodated. The electrical contacts are intended for the connection of electrical lines, which are routed out of the connector or bulkhead housing on the back of the connector.

From the U.S. 2,813,144A discloses a coaxial right-angle connector having a pair of ferrules with ferrules in the connection between the cable terminator and the transmission line connector, one of the ferrules having a countersink at its outer end which is constructed and arranged to receive the outer end of the other ferrule . The sleeves have cylindrical bores of the same internal diameter, with the bores being of uniform diameter throughout their length. Disposed within the bores is a dielectric which encloses a pair of straight, hollow cylindrical insulating tubes of equal inside and outside diameters, with a complementary internal dimple and a reduced dimple section at its outer ends together with a central conductor of uniform outside diameter.

From the DE 20 2006 003 204 U1 discloses an electrical contact which is housed in a multi-sleeve insulating housing. The electrical contact connects a protective conductor to an electrically conductive metal housing.

the DE 195 08 605 C1 , shows a connector which is designed as a plug or attachment housing. The connector consists of a connector housing in which an insulating body with electrical contacts is accommodated. The electrical contacts are intended for the connection of electrical lines, which are routed out of the connector or bulkhead housing on the back of the connector.

In the U.S. 2010/304608 A1 discloses a coaxial connector comprising a tubular body, an angled inner conductor disposed within the tubular body, and a first inner terminal and a second inner terminal. The first inner terminal is releasably attached to a first end of the angled inner conductor and the second inner terminal is releasably attached to a second end of the angled inner conductor.

the U.S. 2006/084286 A1 discloses a multi-terminal electrical connector. This includes a housing with cable terminals for coaxial cables on a cable side of the housing and male compression terminals for female connectors on a male side. Each cable connector has non-standard internal threads. Each coaxial cable is terminated with a cable adapter. A coaxial cable/cable adapter combination is removably attached to each cable opening by a clamp nut that has non-standard male threads. Each coaxial cable/cable adapter combination is individually field replaceable.

the DE 201 13 501 U1 shows a connector with a first connector part, a socket, which is received in the first connector part, a second connector part and an adapter, which is received in the second connector part. The plug, in particular an RJ45 plug, can be accommodated in the second connector part by means of the adapter.

A disadvantage of the known solutions for connectors is the design and connection option on the size of the connector. In the plug connectors known from the prior art, electrical lines or cables are usually connected to the electrical contacts. The connection area for these lines or cables takes up a lot of space, which must be made available in the connector, since the connection area is accommodated in the connector. This increases the size of the connector.

Especially in the area of device connections, connectors are required that have a very flat design. Connectors that are very tall offer many possibilities for errors due to unwanted mechanical influences. In addition, the connection of cables and lines to contacts in the connector is difficult if the connector is designed as an add-on housing and little space is provided on the device side for routing the cables and lines.

task

The object of the invention is to design a connector in such a way that the smallest possible construction and assembly space is required. The simplest possible assembly of the connector should be made possible and at the same time the connection space for cables and lines outside of the connector should be reduced.

The object is solved by the characterizing features of independent claim 1.

Advantageous refinements of the invention are specified in the dependent claims.

The invention relates to a connector which has at least one connector housing, an insulating body and an electrical contact. The insulator is accommodated in the connector housing and the electrical contact in the insulator. On one side, the connector forms a mating side which is provided for contacting a mating connector. On another side, the connector forms an assembly side, which is intended to attach the connector to a surface of a housing or a device.

The mating side of the connector is designed in such a way that the electrical contact in the connector is arranged in the mating side and a mating connector can contact. A locking means is arranged on the outside of the mating side, which can mechanically lock the connector with a contacted mating connector. The locking means is designed as a locking bracket, but can also be designed in other ways known from the prior art.

The mounting face of the connector preferably has a mounting means that allows the connector to be attached to a surface. The mounting means is preferably designed as a mounting flange with at least one bore. For example, a screw can be passed through the hole and the connector can be screwed to a surface. A preferred embodiment provides for at least two bores to be arranged in the mounting flange in order to ensure secure mounting. According to the invention, the electrical contact is arranged on the mounting side of the plug connector in such a way that it can make direct contact with a mating contact. According to the invention, the electrical contact is designed in such a way that it forms two contact sides. A first contact side, which is arranged in the mating side of the connector and a second contact side, which is arranged in the mounting side of the connector. This configuration of the electrical contact makes it possible, in a particularly advantageous manner, to contact the connector directly on two sides with mating contacts. It is not necessary to connect a cable or line. The contact sides of the electrical contact can be designed as socket or pin contacts. Thus, the contact can have two identical or two different contact sides.

In a preferred embodiment, the two contact sides of the electrical contact are identical. A particularly preferred embodiment provides for the two contact sides to be in the form of pin contacts. As a result, the contact is cheap and easy to establish.

In an advantageous embodiment, the mating side and the assembly side of the connector are provided on two sides of the connector arranged next to one another. The plug-in side and the mounting side are preferably arranged at an angle of approximately 90 degrees to one another. This arrangement enables the connector to be installed in a particularly space-saving manner on a device or surface.

The insulating body of the connector is designed in two parts. Consisting of a first insulating body part and a second insulating body part. The first part of the insulating body is that which is arranged on the mating side in the connector housing and the second part of the insulating body is that which is arranged on the mounting side in the connector housing. The two insulating body parts are intended to be mechanically locked together. For this purpose, they have locking means which enable the insulating body parts to be locked together by being joined together.

In the invention, the first insulating body part can be inserted into the connector housing via the mating side. The second insulating body part, on the other hand, can be inserted into the connector housing via the mounting side. In this way, the insulating body parts can be inserted into the connector housing from two directions. At the same time, this makes it possible to latch the first insulating body part to the second insulating body part in the connector housing when both are inserted into it.

The electrical contact is expediently accommodated and held mechanically in one of the two insulating body parts. In this way, the electrical contact can be inserted into one of the two parts before being plugged into the connector housing and locked together in it. An advantageous embodiment provides for one part of the two insulating body parts to be designed in two parts. In this way, the electrical contact can be better accommodated and held in the insulating body part.

A particularly preferred embodiment provides for the electrical contact to be formed at right angles, so that the first contact side is arranged at an angle of approximately 90 degrees to the second contact side. The insulator is formed in the same way. One of the insulating body parts can thus be inserted into one of the sides of the connector housing with the electrical contact received therein. Due to the right-angled design of the connector housing, electrical contact and insulating body, one of the insulating body parts must be guided into the connector housing by means of a rotary movement. After insertion, the other insulating body part can be inserted into the connector housing via the second side and connected to the former.

example

Fig. 1

eine perspektivische Darstellung eines erfindungsgemäßen Steckverbinders;

Fig. 2

eine perspektivische Schnittdarstellung eines erfindungsgemäßen Steckverbinder;

Fig. 3

eine Explosionsdarstellung eines Isolierkörpers mit elektrischem Kontakt;

Fig. 4

eine perspektivische Schnittdarstellung eines ersten Montageschrittes eines erfindungsgemäßen Steckverbinders; und

Fig. 5

eine perspektivische Schnittdarstellung eines zweiten Montageschrittes eines erfindungsgemäßen Steckverbinders.

An embodiment of the invention is shown in the drawings and is explained in more detail below. Show it:

1

a perspective view of a connector according to the invention;

2

a perspective sectional view of a connector according to the invention;

3

an exploded view of an insulator with electrical contact;

4

a perspective sectional view of a first assembly step of a connector according to the invention; and

figure 5

a perspective sectional view of a second assembly step of a connector according to the invention.

The figures contain partially simplified, schematic representations. In some cases, identical reference symbols are used for the same but possibly not identical elements. Different views of the same elements could be scaled differently.

the figure 1 shows a connector 1 according to the invention in a perspective view. The connector 1 is formed by a connector housing 2 . The connector housing 2 is rectangular and forms a mating side 10 and a mounting side 20 arranged at an angle of about 90 degrees.

The mating side 10 is equipped with a locking device 11 . The locking means 11 designed as a locking clip is arranged around the mating side 10 and is used to lock the connector 1 with a contacted mating connector.

The assembly side 20 of the connector 1 is equipped with an assembly means 21 . In this case, the mounting means 21 is designed as a fastening flange which is provided on two opposite sides of the connector housing 2 . In the mounting flange are two holes - only one visible here - provided, which are used to attach the connector 1 with two screws.

The insulating body 3 is arranged in the connector housing 2 . The insulating body 3 is formed in two parts from a first insulating body part 3.1 and a second insulating body part 3.2. The first insulating body part 3.1 is inserted into the mating side 10 of the connector 1. The second insulating body part 3.2 is inserted into the mounting side 20 of the connector 1. According to the invention, the two insulating body parts 3.1, 3.2 are locked together in the connector housing 2 and are thus mechanically connected. An electrical contact 4 is accommodated in the insulating body 3 and forms a first contact side 41 in the mating side 10 of the connector 1 .

The connector 1 of figure 1 is in the figure 2 shown again in a sectional view. In addition to the already in the figure 1 recognizable components of the connector 1 are in the figure 2 the insulating body 3 and the electrical contact 4 can be seen in detail. The electrical contact 4 forms a first contact side 41 and a second contact side 42 bent at right angles. The first contact side 41 is arranged in the mating side 10 of the connector 1 . The second contact side 42 is arranged in the mounting side 20 of the connector 1 . Both the first contact side 41 and the second contact side 42 protrude from the connector housing 2 at least in certain areas.

The insulating body 3 is formed from a first insulating body part 3.1 and a second insulating body part 3.2. The second insulating body part 3.2 surrounds the assembly-side, second contact side 42 of the electrical contact 4. The first insulating body part 3.1 surrounds the plug-side, first contact side 41 of the electrical contact 4. Within the connector housing 2, the two insulating body parts 3.1 and 3.2 are locked together.

A single insulator 3 is inserted with electrical contact 4 in the figure 3 shown in an exploded view. In the special embodiment shown, the second insulating body part 3.2 is again made in two parts. It consists of a first insulating body part half-shell 3.2.1 and a second insulating body half-shell 3.2.2. The electrical contact 4 can be accommodated and held better in the insulating body 3 as a result of the two-part insulating body part 3.2.

The first insulating body part 3.1 is arranged in the front area on the plug-in side and can be latched to the second insulating body part 3.2.

Due to the rectangular shape of connector housing 2, contact 4 and insulating body 3, the assembly of connector 1 differs according to the invention from that of other connectors. In the Figures 4 and 5 the assembly is therefore shown.

The assembly of the connector 1 requires an onset of the contact 4 in the second insulating body part 3.2, as in the figure 3 is already shown. the figure 4 also shows a first assembly step. In this case, the second insulating body part 3.2 with the inserted contact 4 is on the mounting side 20 of the connector housing 2 positioned. The orientation of the insulating body part 3.2 is rotated by about 45 degrees to the end position in the connector housing 2.

By turning in the direction of movement A, the insulating body part 3.2 is inserted into the connector housing 2 until it reaches a final position (see figure 5 ) has reached. the inside figure 5 The second assembly step shown shows the onset of the first insulating body part 3.1. This we inserted into the mating side 10 of the connector housing 2 in the direction of movement B. The first insulating body part 3.1 latches in its end position with the second insulating body part 3.2. The fully assembled connector corresponds to the figure 2 .

Claims (9)

1. Plug connector (1), which has a plug connector housing (2), an insulating body (3) arranged in the plug connector housing (2) and an electrical contact (4) arranged in the insulating body (3),

   wherein the plug connector (1) forms a plug side (10) and an assembly side (20),

   the electrical contact (4) forms a first contact side (41) in the plug side (10) of the plug connector (1), and

   in that the electrical contact (4) forms a second contact side (42) in the assembly side (20) of the plug connector (1),

   the insulating body (3) comprises at least two parts, a plug-side first insulating body part (3.1) and an assembly-side second insulating body part (3.2),

   the plug side (10) has at least one locking means (11) for locking the plug connector (1) to a mating plug connector,

   the first contact side (41) is formed as a contact socket or contact pin and the second contact side (42) is formed as a contact socket or contact pin, the plug side (10) and the assembly side (20) are arranged at an angle of between 70 degrees and 110 degrees with respect to one another, and

   the first insulating body part (3.1) can be inserted into the plug connector housing (2) through the plug side (10) thereof and the second insulating body part (3.2) can be inserted into the plug connector housing (2) via the assembly side (20) thereof,

   characterized in that

   the locking means (11) is a locking clip, and

   in that the first insulating body part (3.1) and the second insulating body part (3.2) can be latched to one another.
2. Plug connector (1) according to Claim 1, characterized in that
   the first contact side (41) and the second contact side (42) are formed in a similar manner.
3. Plug connector (1) according to either of the preceding claims,
   characterized in that
   the plug side (10) and the assembly side (20) are formed on two adjacent adjoining sides of the plug connector housing (2).
4. Plug connector (1) according to Claim 1, characterized in that
   the plug side (10) and the assembly side (20) are arranged at an angle of approximately 90 degrees with respect to each other.
5. Plug connector (1) according to one of the preceding claims,
   characterized in that
   the electrical contact (4) is held mechanically in an insulating body part (3.1, 3.2).
6. Plug connector (1) according to one of the preceding claims,
   characterized in that
   at least one of the insulating body parts (3.1, 3.2) is formed in two parts.
7. Plug connector (1) according to one of the preceding claims,
   characterized in that
   the assembly side (20) has an assembly means (21) for assembling the plug connector (1).
8. Plug connector (1) according to the preceding claim, characterized in that
   the assembly means (21) is an assembly flange having at least one fastening bore.
9. Plug connector (1) according to one of the preceding claims,
   characterized in that
   the first contact side (41) and the second contact side (42) project out of the plug connector housing (2), at least in some regions.

Images