DE202017107569U1 - Contact carrier with recesses - Google Patents

Abstract

Contact carrier (1), which is formed from an insulating material, has a substantially rectangular shape and at least one cavity (4) for receiving a contact element is formed, wherein the contact carrier (1) has a plug-in region (2) and a holding portion (3) wherein the at least one cavity (4) extends at least through the holding region (3) along the insertion direction of the contact carrier (1), and wherein the insertion region (2) of the contact carrier (1) is at least four away from the holding region (3) extending side surfaces (7) having at least one insertion bevel, and wherein the at least one insertion bevel has at least one offset-compensating recess, characterized in that the holding region (3) at least one Anformung (8) on at least one side surface (7).

Description

The invention relates to a contact carrier with recesses according to the preamble of the independent claim 1 and of a system according to the preamble of the independent claim. 7

Such contact carriers are needed in the connection and connection technology to accommodate contacts in, preferably connectors. The contact carrier serves to receive contact elements, such as electrical, pneumatic or optical contacts.

The contact carrier has cavities in which the contact elements are received and secured. The cavities are usually designed as holes that completely penetrate the contact carrier. Thus, on one side of the contact carrier, the connection side, a conductor can be conductively connected to the contact element received in the cavity.

On the side opposite the connection side, designed as a plug side, the contact element received in the cavity is provided for contacting with a second contact carrier. The second contact carrier is preferably also received in a connector which is connectable to the connector of the first contact carrier.

Depending on the design of the connector and the contact carrier, it is also conceivable to arrange various contact elements in a contact carrier. Thus, the contacting and transmission of, for example, power and signal lines can be realized simultaneously.

In a particular embodiment of contact carriers, these are designed as connector modules. Several of these connector modules can be combined into a connector. This embodiment makes it possible not to produce a special contact carrier for a connector for each specific application, but to combine different connector modules with different contact elements together.

The proposed invention relates in particular to modular connectors. In modular connectors, individual contact carriers (connector modules) are inserted into a frame, a so-called connector modular frame and held together by this. The connector modular frame is incorporated with inserted connector modules in a connector housing, thus forming the modular connector.

State of the art

From the EP 3 108 546 A1 is a contact carrier with at least one insertion bevel with offset compensating recesses in the mating region, which facilitates contacting the contact carrier with a corresponding contact carrier known. The invention of EP 3 108 564 A1 refers to improvements in the mating area to avoid mismating two contact carriers, in particular a placement of the contact carrier during the mating process

From the DE 197 07 120 C1 is a holding frame for holding connector modules and for installation in connector housing or for screwing to wall surfaces known. In this case, holding means are provided on the connector modules, which cooperate with recesses provided in opposite wall parts of the holding frame. The connector modules received in the holding frame are provided for contacting with corresponding connector modules in a mating connector.

The contact carriers (connector modules) are essentially formed from a square shape. This allows a close juxtaposition of several modules. Such contact carriers are also known from the non-modular field of connectors. Here, a correspondingly larger contact carrier is used in each case in a connector housing and serves as an insulating body for receiving and contacting of contact elements.

A disadvantage of these known from the prior art, modular and non-modular insulators for connectors from that when contacting the connector with a mating connector a minimum degree of accuracy when contacting is required. Error-free contacting is only possible if the orientation of the connector and mating connector is not too great.

However, this is not always guaranteed even if the contacting of connectors is not manual, i. done manually by a user, but automatically. Very often, connectors are made by robots, together with machine parts or other machines. For example, if large machine modules are replaced in large industrial plants, the connectors must be aligned with very small tolerances when assembling the machine components.

If this is not the case, it comes in the worst case, the destruction of the connector, if the insulator does not slide properly into each other and instead put on each other. Such an error is difficult to intercept in a large plant.

This problem becomes all the more relevant when it comes to modular connector systems. Since each individual connector module has a certain tolerance and clearance, these tolerances add up. In the worst case, contacting several modular connectors is not possible without human intervention. Specifically, such mismatches occur when the tolerances of rectangular or square contact carriers are exploited in two space dimensions.

To avoid such problems, proposes the generic document, the EP 3 108 546 A1 , to provide the insertion bevels with offset-compensating recesses.

However, users also want coding on the contact carriers. A disadvantage in the prior art is that, unfortunately, again problems occur analogously to the above, if the contact carrier should have codes.

task

The object of the invention is to present a contact carrier for connectors, which eliminates the disadvantages of known from the prior art contact carrier and connectors, or at least minimized. In this case, the contact carrier with the contact carrier of a second connector can be easily merged into each other. The risk of mutual contact of the contact carrier to each other should be minimized even with inaccurate contact. Furthermore, a miscarriage should be avoided. In particular, a corresponding offset compensation should also be possible for coded contact carriers.

The object is solved by the characterizing features of independent claim 1 and by the characterizing features of claim 7.

Advantageous embodiments of the invention are specified in the subclaims.

The contact carrier is a substantially rectangular or square base body. The main body is divided into a holding area and a plug-in area. One or more cavities are provided in the contact carrier in such a way that they completely penetrate the contact carrier and are arranged in regions in the holding region and in the plug-in region.

The cavities are provided for receiving contact elements, wherein the contact elements are fastened and held in the holding region of the contact carrier. The contact elements may optionally be electrical, pneumatic or optical contact elements. Preferably, the contact elements are formed so that they can be connected to the part arranged in the holding portion with a conductor to be connected. The connected conductor can leave the cavity in the holding area of the contact carrier.

When using electrical contact elements is expedient to produce the contact carrier of an insulating material to ensure electrical insulation of the contact elements to each other.

In the mating area is at least one insertion bevel with at least one offset-compensating recess, according to EP 3 108 546 A1 , the disclosure of which is incorporated in this application.

The holding region of the contact carrier has on its outside appropriate means which are suitable for mounting the contact carrier in a connector. The means may be formed as a mounting flange to secure the contact carrier with screws or similar tools in a connector housing.

A further embodiment lies in the area of modular plug connectors by providing formations on the contact carrier by means of which the contact carrier is positively connected in e.g. a holding frame (connector modular frame) can be added.

The plug-in region of the contact carrier has at least four side surfaces which extend away from the holding region and are terminated by a cover surface terminating the plug side. In the top surface openings of the cavities are provided, which extend through the contact carrier. The openings have means by which the access and contacting of the contact elements in the cavities is ensured.

The holding region of the connector has at least one Anformung as coding on at least one of the four side surface. This (at least one) Anformung a miscarriage is avoided. This will help with the automated Placement in the docking systems used in industry avoids misuse.

The coding is ideally formed in a preferred embodiment as Kodierrippe in the holding region of the contact carrier. By these formations a coding of the contact carrier is given while ensuring the offset compensation. The coding can prevent misuse and thus also safety risks.

In a preferred embodiment of the invention, the molding has a geometric shape, preferably a polyhedral shape. The configuration of the molding as a geometric shape simplifies the production process of the contact carrier and thus simultaneously serves to reduce costs. The shape of the Anformung can be configured in the form of a polyhedron or a prism. The angular shape of the Anformung allows the most accurate possible assembly of two contact carrier. A round shape of the Anformung is conceivable as coding and for the offset compensation. Further, the Anformung can be configured in the form of a locking lug, thus with a small height parallel to the side surface, or as a guide rail. Combinations of different shapes are possible with the use of multiple moldings.

Advantageously, the molding has at least one chamfer at an angle between 20 ° and 70 °, preferably between 35 ° and 55 °, in particular of 45 °. The bevel serves as well as the Anformung to ensure the offset compensation and the ease of insertion of the contact carrier. Preferably, at least one chamfer, ideally circumferential, is aligned with the molding in the direction of the plug-in area of another contact carrier. In this position, it is advantageous for automatic assembly, if there is a small margin for mating. Using a chamfer makes sense only for geometric shapes with corners or edges.

A preferred embodiment provides that the molding has a first distance x between 0.01 mm and 10 cm, preferably between 0.02 mm and 1 cm, in particular between 0.05 mm and 0.5 cm, of the at least one cavity. This first distance x is necessary to maintain the required clearance and creepage distances known in the art. These distances, ie the distance x, depend on the size of the contact carrier and the number of cavities.

In an advantageous embodiment, the molding has a second distance y, with y greater than or equal to zero, from an edge of the holding region. This second distance y allows a trailing adjustment with an insertion bevel of another contact carrier. Further, the second distance y is chosen so that it allows on the one hand a leading coding relative to the contact element and on the other hand a compensation of the offset before the electrical contact element, which is accommodated in the at least one cavity contacted with an electrical contact element of another contact carrier. The second distance y is therefore arranged so that it projects beyond a received in the cavity electrical contact element. The second distance y is between 0 and 10 cm, preferably between 0.001 mm and 1 cm, in particular between 0.01 mm and 0.5 cm. These values are particularly advantageous in simulations and in experiments and in practice. This ensures that on the one hand the Anformung when inserted into a corresponding recess of another contact carrier, in particular an insulating of the mating connector, not tilted.

• A. Heranführen des Kontakträgers an den weiteren Kontaktträger;
• B. Ausgleich des Versatzes durch die Einführschrägen unter Zusammenwirken mit den besagten Aussparungen;
• C. Einführen der mindestens einen Anformung des Kontaktträgers in die Ausnehmung des weiteren Kontaktträgers des Gegensteckers zur Kodierung;
• D. Verbinden der Kontakte des Steckers und des Gegensteckers

The invention further relates to a system of two contact carriers, wherein one of the contact carriers in the holding region has at least one Anformung on at least one side surface and the other contact carrier in the mating region has at least one of the negative shape of the Anformung corresponding recess. This configuration ensures the plug compatibility between the two contact carriers. Furthermore, as explained below, the desired offset compensation is also ensured for this coded arrangement:
If the two contact carriers are brought together with an offset which is smaller than a predetermined tolerance range, the following method steps result in the stated sequence:

• A. bringing the contact carrier to the further contact carrier;
• B. compensation of the offset by the insertion bevels in cooperation with the said recesses;
• C. introducing the at least one molding of the contact carrier into the recess of the further contact carrier of the mating connector for coding;
• D. Connect the contacts of the plug and the mating connector

In this case also the Anformung in point C. offset the offset by their shape, e.g. by having said second distance y opposite the edge of the holding area. As a result, offset compensation can initially take place without being influenced by the coding in point B.

Alternatively, the molding can also be arranged in the plug region of one contact carrier and the recess in the holding region of the other contact carrier.

In order to ensure the plug compatibility, as well as the coding and the offset compensation, it is advantageous that the recess in the region of the side surface of a contact carrier, opposite the Anformung of the other contact carrier, is arranged. Thus, only two contact carriers with the same number of cavities and the same coding can be joined together.

embodiment

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

1 a perspective view of a contact carrier according to the invention

2 a section of the 1

The figure contains partially simplified, schematic representations. In part, identical reference numerals are used for the same but possibly not identical elements. Different views of the same elements could be scaled differently.

The 1 shows a perspective view of a contact carrier according to the invention 1 , The contact carrier 1 has a cuboid housing made of an insulating material. The housing has a holding area 3 and an opposite plug-in area 2 on. The holding area 3 is through four side surfaces 7 limited, which are arranged at right angles to each other.

The contact carrier 1 as he is in the 1 is shown, also has four locking lugs, of which only two can be seen due to the perspective. The locking lugs are on the holding area 3 molded and serve for safe recording of the contact carrier 1 in a connector modular frame, which is not shown here. Latches can on the contact carrier 1 be formed, but also an embodiment without locking lugs is conceivable. The four locking lugs are therefore only an example representation and the number of locking lugs, if any on the contact carrier 1 are arranged, is arbitrary.

The 2 shows a section of the perspective view of a contact carrier according to the invention 1 from the 1 , In the 2 became the contact carrier 1 only in the holding area 3 shown to the representation of Anformung 8th make it clearer. In this perspective, the hollow configuration of the holding area 3 to recognize. This embodiment enables the at least one cavity 4 in the holding area 3 is arranged.

This contact carrier 1 as he is in the 2 is shown, has twenty cavities 4 of which only five can be seen due to the perspective view. The cavities 4 are configured so that they can receive electrical contact elements in the form of pin or socket contacts. Any other number n of cavities 4 is possible if n is a natural, integer number greater than zero.

On a side surface 7 is in the 2 an Anformung invention 8th arranged. The formation 8th is as a geometric body, more precisely as a prism with a rectangular base and a side surface corresponding to an isosceles trapezoid. The formation 8th extends partially along the side surface 7 parallel to the plug-in direction of the contact carrier 1 , It is so on the side surface 7 positioned that molding 8th another contact carrier 1 leading steers before contact each recorded contact elements together.

To ensure the offset compensation and at the same time to facilitate a mating of two contact carrier has the Anformung 8th in the direction of the other contact carrier, ie in the trapezoidal shape, a circumferential chamfer 9 from 45 ° up. Through the chamfer 9 can the molding 8th more easily immerse in the corresponding recess of the second contact carrier.

Between the chamfer 9 , or the end of the molding, which points in the direction of the other contact carrier, and the edge of the holding portion 3 the second distance y is arranged which is greater than or equal to zero. In this embodiment, as in the 2 shown, the second distance y is 2mm. The size of y depends on the position of the Anformung in the housing of the contact carrier 1 and the length of the cavities 4 recorded contact elements.

The formation 8th is at a first distance x between 0.01mm and 10cm to the cavity 4 arranged. This first distance x is due to compliance with the prescribed clearances and creepage distances. The first distance x depends on the number of cavities 4 , the number of formations 8th and the size of the contact carrier 1 , The number of molding 8th of the contact carrier 1 can be 1, 2, 3, 4, ... or any other natural number> 1. The arrangement and design of the projections may deviate from the aforementioned shape, provided that it is on the one hand by its shape in the position to ensure the correct orientation of the two contact carriers to each other the contacts and on the other hand is able, when mating the two contact carrier an offset to compensate in a predetermined tolerance range.

Although various aspects or features of the invention are shown in combination in the figure, it will be apparent to those skilled in the art, unless stated otherwise, that the combinations illustrated and discussed are not the only ones possible. In particular, corresponding units or feature complexes from different embodiments can be exchanged with one another.

LIST OF REFERENCE NUMBERS

1

contact support

2

plug-in region

3

holding area

4

cavity

7

side surface

8th

conformation

9

chamfer

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 3108546 A1 [0008, 0015, 0023]
• EP 3108564 A1 [0008]
• DE 19707120 C1 [0009]

Claims (8)

Contact carrier ( 1 ), which is formed from an insulating material, has a substantially rectangular shape and at least one cavity ( 4 ) forms for receiving a contact element, wherein the contact carrier ( 1 ) a plug-in area ( 2 ) and a holding area ( 3 ), wherein the at least one cavity ( 4 ) at least through the holding area ( 3 ), along the plugging direction of the contact carrier ( 1 ), and wherein the plug-in area ( 2 ) of the contact carrier ( 1 ) at least four, away from the holding area ( 3 ) extending side surfaces ( 7 ) with at least one insertion bevel, and wherein the at least one insertion bevel has at least one offset-compensating recess, characterized in that the holding region ( 3 ) at least one formation ( 8th ) on at least one side surface ( 7 ) having. Contact carrier according to claim 1, characterized in that the Anformung ( 8th ) is formed as a coding rib, wherein the coding rib for coding the contact carrier ( 1 ) serves. Contact carrier according to claim 1 or 2, characterized in that the Anformung ( 8th ) has a geometric shape, preferably a polyhedral shape. Contact carrier according to one of the preceding claims, characterized in that the Anformung ( 8th ) at least one chamfer ( 9 ) with an angle between 20 ° and 70 °, preferably between 35 ° and 55 °, in particular of 45 °. Contact carrier according to one of the preceding claims, characterized in that the Anformung ( 8th ) a first distance (x) from the at least one cavity ( 4 ) having. Contact carrier according to one of the preceding claims, characterized in that the Anformung ( 8th ) a second distance (y) from an edge of the holding area ( 3 ) having. System from the contact carrier ( 1 ) according to one of claims 1 to 6 and a further contact carrier of a mating connector characterized in that the contact carrier ( 1 ) in the holding area ( 3 ) at least said at least one formation ( 8th ) on at least one side surface ( 7 ), the further contact carrier ( 1 ) in the plug-in area ( 2 ) at least one of the negative form of the Anformung ( 8th ) has corresponding recess. System of two contact carriers ( 1 ) according to claim 7, characterized in that the recess in the region of the side surface ( 7 ) of the further contact carrier, opposite the Anformung ( 8th ) is arranged.

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