JPH06243935A - Plug-in connector - Google Patents

Abstract

PURPOSE: To reliably prevent static discharge from being generated between it and one of contact elements by the simple and spaceless constitution by arranging a conductive discharge preventive element connected to earth electric potential on a front face. CONSTITUTION: An insertion connector 6 is formed as a connector of 15 poles or the like. A metallic body 13 extending between contact element rows 10 and 11 is arranged on a front face 8 of this connector 6, and is formed as a conductive discharge preventive element connected to earth electric potential. Static discharge can be reliably prevented from being generated between it and one of contact elements by this protective circuit unnecessary, simple, spaceless and economically excellent constitution.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention comprises a plurality of contact elements, such as contact jacks, and an electrically insulative substrate holding the contact elements therein, the contact ends of the contact elements being attached to the contact elements. Plug-in connector, for example for a memory-programmable control device, in particular a SUB-D plug-in, which is equipped with a plug-in mating contact element, for example a contact plug, and which is directed into the plug-in connector, Regarding connectors.

[0002]

2. Description of the Related Art Plug connectors of this type are widely used. This plug-in connector is used in particular as an interface for connecting to a programming device in a memory programmable controller. The plug connector is free to handle, at least when it is used as an interface for a programming device. Now, for example, if an operator accidentally or intentionally touches a plug connector used as an interface to a programming device, a flashover or electrostatic discharge will occur when the operator is electrostatically charged. In that case, the spark is not generated between the shield surrounding the plug connector from the side, but one of the contact elements of the plug connector.
It occurs between two. When a spark is generated with one of the contact elements, the memory programmable controller disturbs the program flow. However, especially for safety-oriented memory programmable controllers,
Even with the occurrence of electrostatic discharge, it is imperative that the function of the memory programmable controller is fully implemented and is so defined.

In the prior art, the plug connector was covered or a contact element provided with a protective circuit was provided.

However, the method of covering the plug-in connector is insufficient. Because in certain circumstances, i.e. in order to connect the programming device, the cover must be removed, which renders the plug-in connector unprotected and electrostatically to and from one of the contact elements. This is because there is a risk of electric discharge.

The provision of a protection circuit does protect the contact element from electrostatic discharge, however, the protection circuit is very expensive. This is because each contact must be individually protected against electrostatic discharge. Furthermore, the protection circuit requires extra space in the memory programmable controller.

[0006]

SUMMARY OF THE INVENTION The object of the present invention is therefore simple, cost-effective and space-saving to ensure that an electrostatic discharge occurs with one of the contact elements. To prevent it.

[0007]

According to the invention, the object of the invention is to provide at least one electrically conductive discharge protection element, which is connected to a protective potential, for example a ground potential, towards the mating plug connector at the contact end. Solved by placing it in front.

[0008]

In the conventional SUB-D type plug connector, the contact elements are arranged in two contactor rows. In a device in which the contact elements are thus arranged in two contact element rows, the discharge protection element can be formed, for example, as a metal strip extending between the two contact element rows. If the metal strip is further embedded in the base body, it is not necessary to provide the mating plug connector with which the plug connector is inserted with any structural means. That is, the mating connector can be used as it is without changing its shape. Especially in memory-programmable control devices, the programming device used for programming or the connecting cable used can still be used.

Similarly, the anti-discharge element can be formed as a metallic coating provided on the front surface. In this case as well, the mating connector which has been used up to now can be used as it is.

[0010]

Embodiments of the present invention will now be described in detail with reference to the drawings.

According to FIG. 1, the central processing unit of the memory-programmable control unit arranged as a module mainly consists of the following components: An electronic circuit (not shown) arranged inside the container 1. A buffer storage battery 2 arranged inside the container 1.・ Current supply terminal 3. -A pluggable memory module 4. -RUN / STOP switch 5 having a status display element. A plug connector 6 which is connected to an electronic circuit arranged inside the container 1 and is used as an interface for connecting to a programming device.

As shown in FIGS. 2 and 3, the plug-in connector 6 is a 15-pole S based on DIN 41652.
It is designed as a UB-D type plug connector. The plug-in connector 6 has a side shield 7 which is connected to ground potential, as is customary. The front surface 8 of the electrically insulating substrate 9 has a long groove 12 extending between the contact element rows 10 and 11, in which a metal strip 13 is embedded as a discharge prevention element. This metal strip 1
3 is permanently attached to the shield 7. The metal strip 13 is welded to the shield 7 or is integrally connected to the shield 7, for example.

As shown in particular in FIG. 3, the contact jack 14 of the plug-in connector 6 has its contact end 14 'shown in FIG.
It is directed to a mating plug connector not shown in. The mating plug connector of course has a contact plug which is plugged into the plug connector 6 and therefore into the contact jack 14.

The contact jack 14 is electrically insulated so that the front face 8 is located between the contact jack 14 and the contact plug of the mating connector before the mating connector 6 is connected to the mating connector. It is held in the flexible substrate 9. As a matter of course, the base body 9 including the front face 8 is the contact jack 1
4 has a through hole 15 in front of it. This is because otherwise, the mating plug connector cannot be connected to the plug connector 6.

According to another embodiment shown in FIG. 4, the front face 8 is provided with a metal coating 16 instead of the metal strip 13. The metal coating 16 is likewise bonded to the shield 7 and is therefore at ground potential. In order to prevent a short circuit between the metal coating 16 and the contact plug of the mating plug connector not shown in FIG. 4, the metal coating 16 has a through hole 1
At 5 there is a notch 17 whose diameter D is larger than the diameter d of the through hole 15.

The plug-in connector 6 of FIGS. 2 and 3 or 4 incorporated in a memory programmable controller meets the strict protection regulation IEC 801-2.
Furthermore, this plug-in connector 6 is completely mechanically and electrically compatible with the standard plug-in connector 6 used conventionally. The plug-in connector 6 is manufactured in a simple and cost-effective manner. The plug-in connector according to the invention is sturdy and free from failure. Space is saved because the protection circuit for contact jack 14 is not needed. This space can therefore be used for other purposes.

The plug-in connector according to the invention can be used not only in memory-programmable control devices, in particular safety-oriented memory-programmable control devices, but also in telecommunications technology.

[Brief description of drawings]

FIG. 1 is a schematic view of a central processing unit of a memory programmable controller.

FIG. 2 is a plan view of an embodiment of the plug connector according to the present invention.

FIG. 3 is a cross-sectional view of essential parts of the plug-in connector shown in FIG.

FIG. 4 is a plan view of another embodiment of the plug connector according to the present invention.

[Explanation of symbols]

 1 Container 2 Buffer Storage Battery 3 Current Supply Terminal 4 Memory Module 5 RUN / STOP Switch 6 Plug Connector 7 Shield 8 Front 9 Base 10 and 11 Contact Element Row 12 Long Groove 13 Metal Strip 14 Contact Jack 14 'Contact End 15 Penetration Hole 16 Metal coating 17 Notch

Claims (7)

[Claims] 1. A plurality of contact elements and an electrically insulating substrate holding the contact elements therein, wherein a contact end portion of the contact element is provided with a mating contact element to be inserted into the contact element. In a plug-in connector which is plugged into the connector and which is directed towards the mating plug-in connector, at least one electrically conductive discharge protection element (13, 16) connected to a protective potential is in contact with the mating plug-in connector. A plug connector which is arranged before (14 '). 2. A plug connector according to claim 1, characterized in that the discharge prevention element (13, 16) is arranged on the front face (8) of the base body (9) on the mating plug connector side. 3. The contact element (14) is arranged in at least two contact element rows (10, 11), and the discharge prevention element (1).
3. Plug connector according to claim 1, wherein 3) is formed as a metal strip (13) extending between two contact element rows (10, 11). 4. Plug connector according to claim 3, characterized in that the metal strip (13) is embedded in the base body (9). 5. Plug-in connector according to claim 2, characterized in that the anti-discharge element (16) is formed as a metallic coating (16) provided on the front face (8). 6. The metal coating (16) has a notch (17) at the through hole (15), the notch (17) being the through hole (1).
The plug connector according to claim 5, wherein the plug connector is larger than 5). 7. A contact (1) having a contact end (14 ').
4) with at least one plug connector (6) and at least one electrically conductive discharge protection means (13, 16) connected to a protective potential towards the mating plug connector. 14 ') arranged in front of the memory programmable controller.