阅读说明：本技术 插接连接器 (Plug-in connector ) 是由 M·克莱因海德 T·海曼 G·哈弗曼 S·施赖尔 于 2019-10-08 设计创作，主要内容包括：本发明涉及一种插接连接器,其具有多个电接触元件(2)和一个弹性密封体(5)。弹性密封体(5)包括透明的密封环(4),其与至少一个导光臂(8)连接,所述至少一个导光臂背离密封环(4)延伸。(The invention relates to a plug connector having a plurality of electrical contact elements (2) and an elastic sealing body (5). The elastic sealing body (5) comprises a transparent sealing ring (4) which is connected with at least one light guide arm (8) which extends away from the sealing ring (4).)

1. Plug connector with a plurality of electrical contact elements (2) and an elastic sealing body (5), characterized in that the elastic sealing body (5) comprises a transparent sealing ring (4) which is connected with at least one light-conducting arm (8) which extends away from the sealing ring (4).

2. Plug connector according to the preceding claim, characterized in that the at least one light-guiding arm (8) extends axially away from the sealing ring (4).

3. Plug connector according to one of the preceding claims, characterized in that the sealing ring (4) and the at least one light-guiding arm (8) are composed of the same material and are in particular integrally molded.

4. Plug connector according to one of the preceding claims, characterized in that the at least one light-guiding arm (8) is connected with the sealing ring (4) on the inside of the sealing ring (4).

5. Plug connector according to one of the preceding claims, characterized in that each light-guiding arm (8) has a deflection face (9) at which light travelling within the light-guiding arm (8) is reflected in the direction of the sealing ring (4).

6. Plug connector according to the preceding claim, characterized in that the deflecting face (9) is angled to the light-guiding arm (8) such that light is reflected on the deflecting face (9) by total internal reflection.

7. Plug connector according to claim 5, characterized in that the deflection face (9) is mirrored.

8. Plug connector according to one of the preceding claims,

roughening the outer side (7) and/or the end face (6) of the sealing ring (4) for diffuse irradiation of light,

the inner side of the sealing ring (4) and the surface of the at least one light guiding arm (8) are smooth for reducing light out-coupling.

9. Plug connector according to one of the preceding claims, characterized in that the sealing ring (4) widens radially on the connection region to the at least one light-guiding arm (8) in order to provide a more uniform light propagation in the sealing ring (4).

10. Plug connector according to one of the preceding claims, characterized in that the cross section of the at least one light-guiding arm (8) increases towards the sealing ring (4) in order to achieve a more uniform light distribution in the sealing ring (4).

11. Plug connector according to one of the preceding claims, characterized in that the radius of the sealing ring (4) is greater than the radius of the remaining parts of the plug connector between the sealing ring (4) and the plug end of the plug connector, so that light radiation at the end side (6) of the sealing ring (4) is at least not completely blocked.

12. Plug connector according to one of the preceding claims, characterized in that for the optical coupling of a plurality of light sources a plurality of light-guiding arms (8) are connected with the sealing ring (4).

13. An electronic device having a housing including at least one opening, characterized in that,

a plug connector according to one of the preceding claims is provided in the opening,

at least one light source is present in the housing and is arranged such that light radiated by the light source is coupled into at least one light-guiding arm (8) of the plug connector by means of the light-in side.

14. Electronic device according to the preceding claim,

a printed circuit board (14) is arranged in the housing, on which printed circuit board the at least one light source (15) is located, and,

the light entry side of the at least one light guide arm (8) is arranged beside the at least one light source (15) and is inwardly arched.

15. Electronic device according to the preceding claim,

a plurality of light sources (15) are arranged on the printed circuit board (14), the spectral ranges emitted by the light sources being different, an

The light of the plurality of light sources (15) can be guided to the sealing ring (4) by the same light guiding arm (8).

16. Sealing body for a plug connector in particular, having an elastic sealing ring (4), characterized in that the elastic sealing ring (4) is transparent and is connected to at least one light-guiding arm (8) which extends away from the sealing ring (4).

Technical Field

The invention relates to a plug connector according to the preamble of independent claim 1.

Generally, a plug connector comprises a plurality of electrical contact elements and is used as a cable connection or directly on a housing as a built-in plug or socket. In this case, it is necessary to comply with the protection level regarding sealing against dust, water spray or immersion.

In addition to the electrical contact elements, plug connectors of the same type also comprise elastic sealing bodies for providing an adequate seal against the housing wall to which the plug connector is to be mounted.

In general, it is desirable to provide a light emitting display that displays the status of the electrical interface to which the plug connector is applied.

For devices with a low protection class (e.g. IP20), the status indicator is usually integrated directly in the plug connector. In the case of an RJ45 plug applied to a network cable, the light-emitting signal can indicate the status of the network connection, for example relating to the establishment of a connection or the transmission of data via a plug connector. Higher protection level devices, such as IP67, use separate LEDs to indicate status, which are arranged in corresponding openings on the housing independently of the plug connector. These openings may include their own seals, or may be covered with a transparent material or provided with a screw-in lens. Thus, to achieve a higher level of protection, providing status indicators in a conventional manner can be significantly more expensive.

Background

DE 102012202225B 4 discloses a plug connector with contact elements and elastic seals at the cable-side end and at the plugging end of the plug connector. DE 202016104369U 1 and DE 202016008383U 1 each disclose a plug connector with a seal between two housing parts. Status indicators are not described in these documents. DE 202017100608U 1 describes a plug connector with status indicators. For this purpose, the LEDs containing the corresponding electronics are accommodated in a housing of the plug connector.

Disclosure of Invention

The aim of the invention is to provide a plug connector which provides a luminous display while achieving the best possible sealing and a simple construction. The invention also aims to provide a corresponding sealing body.

The invention is achieved by a plug connector having the features of independent claim 1 and a sealing body having the features of claim 16.

Advantageous embodiments of the invention are given in the dependent claims and in the following description.

According to the invention, in a plug connector of the above-mentioned type, the elastic sealing body comprises a transparent sealing ring which is connected to at least one light-guiding arm extending away from the sealing ring.

By using a sealing ring made of a transparent material, this sealing ring can be used not only for sealing but also for outputting light. Wherein the transparency should be in the visible wavelength range, or in at least one sub-range thereof. Light from the light source is directed to the sealing ring by means of the at least one light guiding arm. In particular, the light source can be arranged in a housing to which the plug connector is to be attached. Thereby, no additional components are required for transmitting and radiating light from the light source, apart from the plug connector.

Thus, it is sufficient to provide a single housing opening for the plug connector, without having to add an opening for the light-emitting display.

The light guide arm may extend axially away from the sealing ring. The light guide arm thus projects from the sealing ring into the housing, i.e. away from the plug end provided with the electrical contact element. The axial direction represents the longitudinal direction of the plug connector; the sealing ring extends annularly around this axis. In addition to an axial directional component, the longitudinal axis of the light guide arm may also include another directional component. For example, the light guide arm may be helical or include a helical segment. Alternatively, the light guide arm may also extend radially inward from the sealing ring. In addition, the light guide arm may also have one or more bends or bends. Further, the two or more light guide arms may have different shapes.

In one embodiment of the invention, the sealing ring is constructed in one piece with the at least one light-guiding arm, for example by injection molding, so that both consist of the same transparent, elastic material. The one-piece design has the advantage that even under pressure, when the seal is pressed against the housing wall, a seamless (wickenlose) connection between the light-guiding arm and the sealing ring is ensured.

In order to press the sealing ring against the housing wall, the plug connector can comprise a nut. This nut can be screwed onto the external thread of the closing wall of the plug connector and is adjustable relative to the sealing ring, so that a pressure is generated between the sealing ring and the housing wall.

The sealing ring and the at least one light guiding arm may be made of the same material even if an integrated design is not used. Thereby avoiding or at least reducing optical losses due to reflections at interfaces between materials with different refractive indices. The at least one light guiding arm may also be connected to the sealing ring via a corresponding pouring gate (angusstelle).

In the present description, the terms outer side, inner side, end side and sealing surface are used to denote different sides of the sealing ring. Here, the outer side surface represents a circumferential surface extending around the longitudinal axis of the plug connector. Opposite the outer side, i.e. inwardly, the inner side defines a sealing ring. The end face of the sealing ring is directed toward the plug end of the plug connector. The end faces may be flat or may have other shapes, for example, corrugated or rounded. Opposite the end face, the sealing ring has a sealing surface, which is preferably flat in order to provide a seal, in particular against the housing wall.

Preferably, the at least one light guiding arm is connected with the sealing ring at an inner side of the sealing ring. Thereby, light is guided from the light guide arm into the sealing ring on the inside. On the inner side, the deformation due to the sealing contact pressure (anspressung) is relatively small, which is advantageous for the desired light guiding.

Each light guide arm has a deflection surface on which light travelling inside the light guide arm is reflected in the direction of the sealing ring. The deflection surface may be located axially at the level of the sealing ring and may be angled at 45 °, or generally 35 ° to 55 °, from the axial direction.

Thus, the light guiding arm and its deflecting surface, viewed radially, may be arranged in a central region within the sealing ring.

The deflecting surface may be angled with respect to the light guide arm such that light is reflected at the deflecting surface by total internal reflection. This eliminates the need for additional components for guiding and deflecting light. The angles that can be used for total internal reflection depend on the refractive index of the material of the light guiding arm and on the wavelength of the light, wherein light in the visible spectral range is to be taken as a starting point in this context. To achieve total internal reflection, the angle of incidence with respect to the surface normal must be sufficiently large; to achieve this, each light-guiding arm may also have two successive deflection faces. This reflects the light twice in succession, so that a total deflection of approximately 45 ° of the light takes place.

As an alternative to total internal reflection, the deflection can also be achieved by mirroring of the deflecting surfaces. Here, a reflective layer made of, for example, silver may be vapor-deposited on the surface.

The outer side and/or end side of the ring is roughened for diffusing light. The inner side of the ring and the surface of the at least one light guiding arm may then be smooth to avoid light outcoupling (lichtauskkopplling) on these faces. The terms "roughening" and "smoothing" can be understood as follows: the roughened face has a higher roughness than the smooth face. The surface of the light guide arm should include the light incident surface and the side surface thereof, and the side surface can be substantially perpendicular to the light incident surface.

The term "light guide arm" is to be understood as an elongated strip whose main directional component can extend in the axial direction of the plug connector. The end of the light guiding arm facing away from the sealing ring may be the light entry side.

In particular, to achieve a more uniform light distribution in the sealing ring, the cross section of the at least one light guiding arm may increase towards the sealing ring. For the same purpose, the light deflecting surface may alternatively or additionally be archedSo that the reflected light is fanned out.

In order to make the light propagation in the sealing ring as uniform as possible, the sealing ring can also be widened radially at each connection region with the light-guiding arm.

In order to achieve a more uniform light propagation, scattering centers, such as bubbles or interfering inclusions, can also be formed in the sealing ring

The sealing ring can project further radially outward than the remaining components of the plug connector which are located outside the housing in the mounted state. The end side of the sealing ring is not completely covered. In this way, the light radiation on the end face is at least not completely blocked by the remaining components of the plug connector. In other words, the sealing ring may have a larger radius than the remaining parts of the plug connector between the sealing ring and the plug end. The sealing ring thus has a larger diameter if a fixing part, in particular a screw, a nut or a washer, and a corresponding counterpart on the end side of the sealing ring are used to press the sealing ring against the housing wall. Therefore, the pressing area of the seal ring is smaller than the end-side surface (or smaller than the seal-side surface) of the seal ring.

A plurality of light guide arms may also be connected to the sealing ring. The light guide arms may extend parallel to each other. The light of the corresponding light source can be guided by each light guide arm. The light-guiding arms can be distributed uniformly in the circumferential direction, for example two light-guiding arms facing each other or three light-guiding arms arranged at 120 ° intervals. If light sources are used which radiate in the same spectral range, a more uniform light radiation can be achieved over the circumference of the sealing ring. In the case of light sources radiating in different spectral ranges, the sealing ring is capable of radiating light of different colors by means of different light guiding arms. Thereby, for example, different states can be indicated.

The invention also relates to an electronic device having a housing with at least one opening, in which opening the plug connector according to the invention is arranged. The sealing ring establishes a seal of the plug connector with respect to a housing wall which forms the opening. Thereby closing the opening liquid-tightly, for example according to IP 67. At least one light source is present in the housing and arranged as follows: such that light radiated by the light source is coupled into the at least one light-guiding arm of the plug connector via the light entry side. That is, for a light emitting display of an electronic device, light may be directed out of the housing by a light guiding arm extending through the opening, and further light may be emitted by a sealing ring located on the outside of the housing.

The at least one light source may be located on the printed circuit board in the housing. The light incident side of the at least one light guide arm may be disposed beside the at least one light source. In principle, the elastic material of the light guide arm can be pressed against the light source by direct contact. But to avoid self-reflection, a certain spacing may also be provided between the light entry side and the associated light source. Furthermore, the light entry side may be concave, i.e. arched inwards, whereby light impinging thereon is coupled in as completely as possible.

A plurality of light sources, which have different emission spectral ranges, can be arranged on the printed circuit board. As previously described, the light of the plurality of light sources may be guided by the plurality of light guide arms. The following alternatives may also be employed: light from multiple light sources can be guided to the seal ring by the same light guide arm. For this purpose, the surface of the light entry side may be large enough to be adjacent to a plurality of light sources on a printed circuit board.

The plug connector may comprise a cylindrical section which, in the mounted state, is located in the housing. The cylindrical section may be made of metal, for example, and has, for each light guide arm, an axial groove for receiving the respective light guide arm. This improves the retention of the sealing body on the remaining components of the plug connector.

The electronic device may comprise an electronic control unit configured to switch on at least one light source each time data transmission is performed through a corresponding plug connector. This makes it possible to form a status indicator without a separate housing opening being provided for this purpose. In the case of multiple light sources, the light of which may be directed via a light guiding arm, the electronic control unit may be configured to indicate different states by activating different light sources.

The plug connector of the invention can also be integrated as an interface with a display, for example, in a switch. The invention can be flexibly used for various applications, for example, also as a wall feedthrough. The structural dimensions and geometries can in principle be arbitrary. In the case of a circular plug connector, the sealing ring can have a circular ring cross section. However, other cross-sections of the sealing ring, for example a rounded annular rectangle, are also possible when other plug shapes are used. The plug connector can be designed as a male or a female plug, or as a female interface or socket. Accordingly, the electrical contact elements may be contact pins or contact openings.

The invention also relates to a sealing body. This seal comprises a transparent, elastic sealing ring which is connected to at least one light-guiding arm extending away from the sealing ring. The advantageous embodiment of the sealing body corresponds to the variant described for the sealing body of the plug connector. The sealing body according to the invention can be used for the plug connector described here or also for other electrical or electronic components which are sealingly attached to the housing opening. These components may be, for example, switches, keys, input devices, cable outlets, sensors, displays or transmitters.

Drawings

The accompanying drawings illustrate embodiments of the present invention and, together with the description, serve to explain the embodiments. Wherein:

fig. 1 is a perspective view of a plug connector in the mounted state;

fig. 2 is a perspective view of the sealing body of the plug connector of fig. 1; and

fig. 3 is a perspective view of the plug connector of fig. 1 in an uninstalled state.

The drawings comprise partially simplified schematic representations. Like elements are also denoted by like reference numerals.

Detailed Description

An embodiment of the plug connector 1 of the present invention is explained with reference to fig. 1 to 3. Fig. 1 shows a plug connector 1 in a mounted state in an opening of a housing wall 12 of an electronic device 10. Fig. 3 shows the plug connector 1 in the uninstalled state, wherein the housing flange of the plug connector 1 is visible, while the electrical contacts of the plug connector 1 are shielded.

As shown in fig. 1, the plug connector 1 has a plurality of electrical contacts 2 at its plug end and is embodied in the example shown as a circular plug connector, but other shapes can also be used.

In order to establish the desired sealing of the plug connector 1 against the housing wall 12, the plug connector 1 comprises a sealing body 4. The sealing body 4, which comprises the sealing ring 5 and at least one light-guiding arm 8, a plurality of light-guiding arms 8 being provided in the example shown, is shown more precisely in fig. 2. The sealing body 4 comprises or consists of an elastic material, for example a thermoplastic elastomer. The sealing ring 5 can be pressed sealingly against the housing wall. A seal conforming to a higher level of protection can thereby be achieved. It is also desirable to achieve optical signalling in a simple manner without impairing the sealing properties and without complicated additional measures. This is achieved by: the sealing body 4 is made of a transparent material and has a light guiding arm 8 which guides light from a light source in the housing to the sealing ring 5. So that light can be radiated through the seal ring 5. Advantageously, no additional housing window or housing opening is required for this purpose. Specifically, as shown in fig. 1, a single bore or opening in the housing wall 12 is sufficient for the plug connector 1, so that both an electrical connection via the contact element 2 and an optical indication can be provided by the illumination of the sealing body 4.

As shown in FIG. 1, the electronic device 10 may include at least one light source 15, such as a laser or LED, disposed on a printed circuit board 14 in the housing 12. Each light-conducting arm 8 of the enclosure 4 extends axially into the housing and terminates adjacent one of the light sources 15. The side of the light guide arm 8 adjacent to the light source 15 is referred to herein as the light entrance side. The light-conducting arm 8 can output a luminous signal without electrical components being provided in the plug connector for this purpose. Specifically, the light source 15 and the electronic control unit connected thereto may be arranged on a printed circuit board 14 located in the housing of the electronic device. As an alternative, however, one or more light sources can also be provided in the plug connector, the emitted light being guided to the sealing ring 5 by at least one light guide arm 8.

Fig. 2 indicates the direction of propagation of light by means of an arrow 16, which is coupled in by a light source, not shown here, through the light entry side of the light guide arm 8. The light extends in the light-guiding arm 8 in the axial direction, i.e. in the direction of the arrow 17 in the longitudinal direction of the plug connector. At the end opposite the light entry side, each light guide arm 8 has a deflection surface 9, which is inclined with respect to the axial direction. At the deflection surface 9, the light is reflected within the respective light-guiding arm 8 and is thereby coupled to the sealing ring 5. The shape of the light guiding arm 8 may also differ from the shown shape. The light-guiding arm 8 can also be bent or angled in a multi-step manner, or at an angle to the axial direction of the plug connector.

The sealing body 5 shown in fig. 2 can also be used for components other than the plug connector according to fig. 1 and 3.

In order to couple light out of the sealing ring 5 more easily and as uniformly as possible, the end face 6 and the side faces of the sealing ring 5 can be designedAnd 7, roughening. Since the outcoupling and the radiation direction depend on the angle of incidence of the light on the end side 6 or on the side faces 7, a rough surface can lead to more uniform radiation. Since it is desirable to avoid light outcoupling as much as possible on the remaining surfaces of the sealing body 4, the remaining surfaces can be smoother than the end sides 6 and the side faces 7.

For light radiation through the end side 6, this end side cannot be completely covered. As shown in fig. 1, the fastening part 3A, which is provided on the end face of the sealing ring 5 and is intended to be fastened to the housing wall 12, has a smaller diameter or a smaller cross section than the sealing ring 5. By means of a fastening counterpart 3B, for example a nut, the sealing ring 5 can be pressed sealingly against the housing wall 12.

In the above-described embodiments, the plug connector of the invention provides a light-emitting display without the need for an additional optical opening in the housing for the light-emitting display, with a good seal being achieved against the housing wall.

While various aspects or features of the invention are shown in combination in the drawings, it will be apparent to those skilled in the art that the combinations shown and discussed (without additional explanation) are not the only possible combinations. In particular, individual features or combinations of features that correspond to one another in different embodiments can be interchanged with one another.

List of reference numerals

1 plug connector

2 electric contact element

3A fixing member

3B fixed mating member

4 sealing body

5 sealing ring

6 end side of sealing ring

7 side surface of sealing ring

8 light guide arm

9 deflecting surface on light guide arm

10 electronic device

12 casing wall

14 printed circuit board

15 light source

16 direction of light propagation from the light source

17 light propagation direction in the light guide arm