WO2002071548A2

WO2002071548A2 - Device for increasing the degree of protection

Info

Publication number: WO2002071548A2
Application number: PCT/DE2002/000685
Authority: WO
Inventors: Matthias Kunick; Joachim Masatz; Peter Auner; Hugo Kathan
Original assignee: Siemens Aktiengesellschaft; Yamaichi Electronics Deutschland Gmbh
Priority date: 2001-03-05
Filing date: 2002-02-25
Publication date: 2002-09-12
Also published as: DE10110470A1; DE10110470C2; WO2002071548A3

Abstract

The invention relates to a device for increasing the degree of protection of a commercial plug-in connector. According to the invention, said device is configured in two parts, whose locating part (6) can be inserted into their socket part (8). A collar (42) of the socket part (8) has at least one locking hook (32,34) guided in axially oriented recesses (46,48) of the boot (44) of the locating part (6) and latching with actuatable spring hooks (28,30) of the locating part (6). The locating part (6) has two seals (10, 12) arranged on the front side. Said device not only enhances the degree of protection of a commercial connector to an IP67 protective degree but also substantially improves the behavior against constant, extreme vibrations and shock burden.

Description

description

Device for increasing the degree of protection

The invention relates to a device for increasing the degree of protection of a connector.

Connectors that are standardized according to IEC 603-7 are commercially available. These standardized connectors are still used in communication technology, for example telephone, or in computer technology. With such a connector, an eight-wire data cable can be connected to a printed circuit board. This connector is very inexpensive, very easy to assemble using a crimping tool, can be optimally adapted to a required wave impedance and is very compact.

In recent times, efforts to develop industrial Ethernet components have increased. One tries to make the technology known from office communication and therefore widespread usable in the field of industrial automation. One reason for this is the high availability of this technology and the associated low costs.

Ethernet is a standard for local area networks, also known as LAN (Local Area Network), of workstation computers, which is based on bus or star topology. Data is transmitted in so-called data telegrams, the length of which is flexibly defined.

If Ethernet is to prevail in industry, components such as connectors, cables, etc. that are suitable for industrial applications are also required. Of course, it is useful to use existing standards as far as possible. Inexpensive connectors suitable for industrial use can only be achieved with large quantities. For this reason, it is almost essential to fall back on standards that have already been set.

The RJ45 connector has become the standard for Ethernet. The connection technology consists of a socket and RJ45 plug, which are specified in accordance with the IEC 603-7 standard.

The abbreviation RJ stands for Registered Jack, where Jack can be referred to as a connector. Such connectors are also referred to as "Western connectors" and include a series of connectors that were developed in the United States and were initially only used to connect telephones.

In addition to the four-pin versions RJ11 and RJ14, RJ45 is the American technical name for the eight-pin Western connector. In Germany, this is mainly used to connect ISDN devices to the SO bus and in the LAN area with Ethernet or ATM.

If Ethernet technology is to be used across the board in industry in the future and if sensors and actuators are also to be equipped with this communication interface, then expansion / further development of the connector technology is imperative.

The main problems are: the level of protection that can be achieved, the required robustness with regard to mechanical vibration and shock, the supply of sensors and actuators with a suitable supply voltage.

The invention is therefore based on the object of creating an inexpensive solution to the first two points. This object is achieved with the features of claim 1.

The device according to the invention for a connector, in particular for a standardized connector, increases the degree of protection of such a connector from, for example, IP20 to IP67 or IP68. In other words, the standardized connector with degree of protection IP20 is protected against the ingress of solid foreign bodies with a diameter greater than 12 mm and keeps fingers or similar objects away. With this degree of protection there is no special protection against water. A connector with degree of protection IP67 is protected against the ingress of dust (dustproof). It also has full protection against accidental contact. In addition, the plug is protected against water with this degree of protection if the equipment (housing) is immersed in water under specified pressure and time conditions. This means that there is immersion protection.

With the device according to the invention, the degree of protection of a commercially available connector can subsequently be significantly increased without changes to the connector having to be made. Characterized in that the plug is inserted into a receiving part of the device and this is locked in place with a corresponding socket part, a seal being used on each end, the embedded plug is protected against water and dust. In addition, the behavior of the plug connection against constantly acting extreme vibrations and shock loads is significantly improved by this device.

In an advantageous embodiment of the device, the plug-in area of the two-part device is designed as a connection between a sleeve and a collar. The design of the sleeve with the corresponding collar ensures that it is unmistakable. In a further advantageous embodiment of the device, the receiving part has resilient latching hooks in its interior. This provides a very simple strain relief for the connector.

In a further advantageous embodiment of the device, the front closure of the receiving part is funnel-shaped. By means of this frontal closure, the receiving part is closed on the one hand, and on the other hand, this closure serves as a cable outlet, which ensures that a minimum bending radius of a cable used at the connector outlet is not undercut. In order to be able to use round or flat cables, different closures are required, the openings of which are designed to correspond to the cable used for the plug.

Advantageous configurations of the elements of the device can be found in subclaims 5 to 17.

To further explain the invention, reference is made to the drawing, in which a connector with a device according to the invention is schematically illustrated.

1 shows a section through a side view of a standardized connector with the device according to the invention, wherein in the

2 shows a section through an associated plan view.

1 shows a sectional illustration of a side view of a standardized plug connector, which has a plug 2 and an associated socket 4, with a device for increasing the degree of protection according to the invention. This device is designed in two parts and can be locked together. These two parts of the device are a receiving part 6 and a socket part 8. The receiving part 6 in each case has a seal 10 and 12 arranged on the end face. In addition, an entry area 14 can be closed by means of a closure 16. An end face 18 of the receiving part 6 opposite this front insertion area 14 has a recess 20 which corresponds to the contact area of the plug 2. The receiving part 6 is formed on the inside in such a way that a stop 22 is present on the end face, against which the plug 2 is supported. The area 24 of the receiving part 6, which receives the plug 2, is offset from a second area 26 of the receiving part 6, which receives the seal 10. In addition, the receiving part 6 has two actuatable spring hooks 28 and 30, which are arranged on opposite sides of the receiving part 6. By means of these actuatable spring hooks 28 and 30, the receiving part 6 is latched to the socket part 8 of the device for increasing the degree of protection. For this purpose, the socket part 8 has two corresponding latching hooks 32 and 34. The socket part 8 of the device for increasing the degree of protection is assigned to the socket 4 of the standardized connector, ie the socket part 8 is detachably attached to a circuit board 36 of the socket 4 of the standardized connector. For this purpose, the socket part 8 has two correspondingly shaped flanges 38 and 40 (FIG. 2). This socket part 8 of the device for increasing the degree of protection can be an integral part of a housing in which the printed circuit board 36 is arranged.

The two parts 6 and 8 of the device for increasing the degree of protection are pluggable. According to FIG 2, the socket part 8 has a collar 42 and the receiving part 6 has a sleeve 44. In the plugged-in state, the sleeve 44 of the receiving part 6 engages around the collar 42 of the socket part 8. The locking takes place in the plugged-in state by means of the two locking hooks 32 and 34 in conjunction with the two spring hooks 28 and 30 which can be actuated. The locking hooks 32 and 34 are opposite are arranged on the lateral surface of the collar 42 of the socket part 8 and are connected to the latter in particular in a cohesive manner. So that the receiving part 6 with its sleeve 44 the collar 42 of the socket part 8 can be inserted, the sleeve 44 must have two opposite axially guided recesses 46 and 48. When the receiving part 6 is plugged onto the socket part 8 of the device for increasing the degree of protection, the latching hooks 32 and 34 of the collar 42 of the socket part 8 are guided in these axially guided recesses 46 and 48. As soon as the end face of the collar 42 strikes the base of the sleeve 44, the locking hooks 32 and 34 are locked with the spring hooks 28 and 30 which can be actuated.

So that this locking can be released again, the spring hooks 28 and 30 are designed to be actuatable and each have a handle 50 and 52, respectively. The actuatable spring hook 28 or 30 consists of a metal tongue 54 or 56 from which a part is punched out in the end region, so that it forms a recess 58 or 60. The latching hook 32 or 34 engages in this recess 58 or 60. In the vicinity of the grip piece 52 or 54, a tongue-shaped part is freely punched in this metal tongue 54 or 56, which is shaped as a fastening means 62 or 64 of the actuatable spring hook 28 or 30. This fastening means 62 or 64 can be plugged into a corresponding bead 66 or 68. So that the actuatable spring hook 28 or 30 is connected to this bead 66 or 68 in an almost captive manner, the surface of the fastening means 62 or 64, which faces the inside of the bead 66 or 68, has hook 70.

So that these actuatable spring hooks 28 and 30 cannot get lost even with strong vibrations, the closure 16 has two elevations 72 and 74 on the circumference, which are arranged opposite one another and whose position corresponds to the actuatable spring hooks 28 and 30. These surveys 72 and 74 also serve as a pulling aid. This closure 16 of the receiving part 6 of the device for increasing the degree of protection has a bore 76 which is designed to correspond to a cable 78 of the plug 2. This bore 76 is advantageously funnel-shaped. This can ensure that the minimum bending radius of the cable 78 is not undershot. 2 also shows that this closure 16 is designed to be latchable. For this purpose, this closure 16 has a groove 80 on opposite sides and the receiving part 6 in the insertion area 14 has corresponding internal latching hooks 82. The seal 10, in particular a radial seal, serves to seal the cable. In an advantageous embodiment, the seal 10 and the closure 16 form a structural unit. In this embodiment, the closure 16 is then designed to be screwable to the insertion region 14 of the receiving part 6.

So that the tightness can also be ensured on the bushing side, the seal 12 is provided, which is a radial seal in the embodiment shown. It is also conceivable to use an axial seal as the seal 12. This seal 12 is arranged between a part of the receiving part 6 of the plug-in area and the collar 42 of the socket part 8. So that this seal 12 is axially secured, this part of the receiving part 6 has, for example, a circumferential lip 84.

In FIG 2 it can be seen that the receiving part 6, which receives the connector 2, is provided on the inside with resilient latching hooks 86 and 88. A strain relief of the plug 2 is realized by means of these resilient latching hooks 86 and 88. In addition, the sleeve 44 of the receiving part 6 is reinforced in the region of the axially guided recesses 46 and 48 by means of a bracket 90 and 92, respectively. These brackets 90 and 92 are each arranged via an input of the axially guided recesses 46 and 48. The resilient locking hooks 86 and 88 and the brackets 90 and 92 are elements of a particularly advantageous embodiment of the receiving part 6 of the device for increasing the degree of protection. These two parts 6 and 8 of the device for increasing the degree of protection are preferably designed as injection molded parts. Because of its use in the industrial sector, a high-temperature-resistant plastic is preferably used as the material. With this device according to the invention, the degree of protection of a commercially available standardized plug 2 is increased from, for example, IP20 to IP67 or IP68. As a result, the connector known from telecommunications can be used in industry, even in harsh environments. The design of this device not only increases the degree of protection, but also significantly improves the behavior against constantly acting extreme vibrations and shock loads. This device is not limited to the "Western plug" shown in FIGS. 1 and 2, but can be adapted for all commercially available plugs.

Claims

claims

1. Device for increasing the degree of protection of a connector, which has a pluggable, latchable receiving part (6) and a corresponding socket part (8), which is provided with latching hooks (32, 34), with an end-side insertion area (14) opposite the front side of the Receiving part (6) has a recess (20) corresponding to the contact region of the plug (2), the socket part (8) having a recess corresponding to this end face of the receiving part (6), the insertion region (14) of the receiving part (6) first seal (10) and one

Has closure (16) with a bore (76) corresponding to a conductor (78) of the plug (2) and a second seal (12) being arranged in a plug-in area of the receiving part (6) and the socket part (8).

2. Device according to claim 1, characterized in that a part corresponding to the plug-in area of the receiving part (6) is designed as a sleeve (44) and a part corresponding to the plug-in area of the socket part (8) is designed as a collar (42) which is adapted to the sleeve (44) is designed accordingly.

3. Apparatus according to claim 1 or 2, so that resilient locking hooks (86, 88) are arranged in the interior of the receiving part (6).

4. Device according to one of claims 1 to 3, so that the receiving part (6) has spring hooks (28, 30) which can be actuated.

5. Device according to one of claims 1 to 4, characterized in that the bore (76) of the closure (16) of the receiving part (6) is funnel-shaped.

6. The device according to claim 4, d a d u r c h g e k e n n z e i c h n e t that the actuatable spring hooks (28,30) are designed to be pluggable.

7. Device according to one of claims 1 to 6, characterized in that the closure (16) of the receiving part (6) has two elevations (72, 74) on the circumference, which are arranged opposite one another and their position relative to the actuatable spring hooks (28, 30) correspond.

8. The device according to claim 2, characterized in that the sleeve (44) of the receiving part (6) is provided with two axially extending recesses (46,48) which are designed to correspond to the locking hooks (32,34) of the socket part (8) ,

9. The device according to claim 8, so that the recesses (46, 48) are each provided with a bracket (90, 92) on the input side.

10. Device according to one of claims 1 to 9, so that the front closure (16) is designed to be latchable.

11. The device as claimed in claim 10, so that the front insertion region (14) of the receiving part (6) has a latching hook (82) on opposite sides in each case.

12. Device according to one of claims 1 to 9, characterized in that the front closure (16) is designed to be screwed.

13. The apparatus according to claim 12, so that the end insertion region (14) of the receiving part (6) has a thread.

14. Device according to one of claims 1 to 13, so that the front closure (16) and the first seal (10) form a structural unit.

15. Device according to one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that the first seal (10) is a radial seal.

16. The device according to one of claims 1 to 15, d a d u r c h g e k e n n z e i c h n e t that the second seal (12) is a radial seal.

17. The device according to one of claims 1 to 15, so that the second seal (12) is an axial seal.