DE2555138A1 - MULTIPOLE SPRING BAR - Google Patents

Description

PATENT ADVOCATES A. GRÜNECKER

H. KINKELDEY

oa-hms.

W. STOCKMAlR

DR-INQ-AaEtCALTECX

K. SCHUMANN

OR. HER. NAT. · OPU-F ¹ HVS

P. H. JAKOB

* U, G. BEZOLD

MUNICH E. K. WEIL

LINDAU

MUNICH 22

MAXIMILIANSTRASSE 43

PH 9918 - 50 / HS.

Blinker Ramo Corporation
Commerce Drive
Oak Brook, 111. 60321
United States

Multipole socket strip

The invention relates to a multi-pole socket strip with an insulating body in which several "contact chambers" lie next to one another are formed, in each of which a contact spring provided with a locking lug from the connection side of the spring strip is inserted, the locking flag behind one in the contact chamber

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TELEPHONE (Ο89) 22 28 62 TELEX Ο5-2938Ο TELEGRAMS MONAP

trained latching shoulder snaps, also provided on the plug-in side of the female connector, into the contact chambers opening plug-in openings for the passage of a contact knife, the cross-sectional areas of which are smaller than the cross-sectional areas of the contact chambers and release openings arranged adjacent to the plug-in openings in an axial extension shoulder the ea st to insert a release tool with which the Box flag can be lifted from the locking shoulder.

In the German patent application P 24- 54-317-7 there is a spring strip proposed whose insulating body is integrally formed. There are contact springs in the individual contact chambers in the insulating body used from the connection side, each provided with two East flags, which are behind each one in the contact chamber trained East Shoulder are snapped. The resting shoulders are arranged diagonally opposite one another in the contact chambers. They can be removed from the plug-in side of the insulating body by a correspondingly designed release tool via release openings or Channels directly accessible. These release openings are intended as an extension of the one provided on the plug-in side for each contact chamber Plug-in opening formed and take about its width half the width of the plug-in opening. The entire opening which opens into the contact chamber on the plug-in side and which emerges from the Plug opening and the two release openings is composed because of the diametrically opposite arrangement of the locking shoulders in their shape is roughly Z-shaped. Because the to be used and in the contact chamber The contact blades to be introduced in this socket strip are much wider than the width of a release opening Spring strip the knife out neatly in the plug-in opening, so it does not bother that the plug-in opening through the two release openings is extended laterally. When reducing the

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This configuration is no longer a socket strip, for example at half the distance between the individual contact chambers without further application. In the earlier female connector, the distances between the individual contact chambers are 5 »08 mm, i.e. 2/10 in. Of this, 2.4 mm remain for the width of the plug-in opening. Since the east shoulder takes up half the width of the plug-in opening, its width is 1.2 mm. This support width of 1.2 mm for the locking lug of the contact spring is sufficient to absorb tensile forces of 3 kp acting on the contact spring on the connection side without a To absorb deformation of the east shoulder. If one takes to stand on a socket strip with a contact from 2.54-Una »that is 1/10 inch, to come, only a geometrical reduction in size of this earlier female connector, so you get the width for the Snap shoulder only 0.6 mm. Since the contact spring is also made of weaker material in this smaller socket strip, one obtains a support surface for the locking lug, which is substantially below half the support surface of this earlier spring strip. With this small one When using conventional thermoplastics for the insulating body, the contact surface becomes the locking shoulder when the load is applied Contact spring with 3 kp, which must be taken into account according to general standards is already clearly deformed or, as one also says, "cleared out". In principle, there is now the possibility of the To increase the width of the locking shoulder in order to obtain a larger contact surface. With a one-piece design of the insulating body but this means that the width of the release opening must be increased to the same extent, otherwise during manufacture molded bodies that can be inserted from the plug-in side can no longer be used. But if the width of the release opening is made larger, or even significantly larger than half the width of the plug-in opening, there is then the risk that the contact spring will through the contact knife is "hidden" by not passing through the

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Plug opening, but inserted through the release opening into the contact chamber and placed behind the contact spring. aside from that If the contact knife is no longer guided through the plug-in opening in the desirable way, it can instead go through the axis the contact chamber are inserted rotated and then sits on the front ends of the contact spring. Both of these options can damage the contact spring from the contact knife.

The present invention is based on the object of specifying a multi-pole socket strip in which, despite a large Contact surface for the locking flag there is only no risk of being stuck behind.

According to the present invention, this object is achieved by that on the plug-in side of the insulating body, a cover part is placed on the insulating body, in which the plug-in openings and the release openings are formed, and that the release openings are separated from the insertion openings by a material web.

As a result of the two-part design of the insulating body, the width of the locking shoulder for the locking lug can be adjusted in the specified manner the Eontaktfeder be kept relatively large without the release opening in the cover part having to be enlarged accordingly. It is sufficient if the release tool grips the locking lug over part of its width in order to unlock it from the locking shoulder. In particular, the complete separation of the release opening from the plug-in opening ensures a clean milling of the contact knife guaranteed.

In an advantageous embodiment it is provided that in each of the contact chambers two diametrically opposed latching--

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shoulders are formed, and that in the lid part for each Contact chamber in each case two diametrically opposed with respect to the plug-in openings, each by a material web from the plug-in opening separate release openings are provided. Especially in this embodiment with two locking shoulders per contact chamber With the earlier Z-shaped opening, there would have been the risk that the contact line would have been jammed on the contact spring could have been put on. This risk is completely eliminated in the present socket strip that the release openings are formed separately from the plug-in opening.

It is also advantageous if the contact spring is provided with a shoulder and a stop in the contact chamber is formed which limits the movement of the contact spring in the direction of the cover part. This shoulder on the contact spring causes together with the stop in the contact chamber that the on the contact springs when loosening the connector, so when pulling the contact blade from the contact springs, not the entire release forces are transferred to the cover part, but are directly absorbed by the insulating body.

In a preferred embodiment it is provided that the width of the locking shoulder is approximately half the width of the contact chamber, and that the width of the locking lug is equal to the width of the locking shoulder or only slightly less than the width of the locking shoulder. Taking into account the chamber walls to be provided between the individual contact chambers, a spring strip with a chamber spacing of 2.54 mm leaves about 2 mm for the width of a contact chamber. According to the above rule, this results in about Λ mm for the width of the locking shoulder. With a material thickness for the contact spring of 0.2 mm this results

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a contact surface of about 0.2 mm for the locking lug. Using a conventional thermoplastic for the insulating body, the locking lug can easily absorb a force of 3 kp, without the locking shoulder being "cleared out".

It is also advantageous if the contact chambers are at a distance from, 254- now the cross-sectional dimensions of the plug-in openings 1.2 χ 0.8 mm. With these cross-sectional dimensions for Contact blades with a width of 0.6 to 1.1 mm can easily be neatly guided through the plug-in opening.

In an advantageous embodiment it is provided that the The cross-sectional dimensions of the release openings are approx. 0.5 x 0.4 mm. Although the width for the release openings is not critical due to the separate design from the plug-in opening, it has nevertheless proved to be quite advantageous, the breadth of the solution— Make opening approximately equal to half the width of the width of the locking shoulder. With a depth of the release opening of 0.4 mm There is also still enough space for the material web between the release opening and the plug-in opening. Advantageously, is the width of the web of material between the plug-in opening and the release opening approx. 0.60 to 0.65 mm.

In a favorable development it is provided that the plug-in openings are formed in the cover part with lead-in chamfers. As a result, good guidance into the respective opening is achieved both for the release tool and for the blade contacts.

It is also advantageous if the cover part with the base body is glued. In addition to gluing the cover part to the base body, one could also use ultrasonic welding or provide a screw or snap connection.

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The invention is explained in more detail below with the aid of a preferred exemplary embodiment shown in the drawing. It demonstrate:

Fig. 1 is a perspective view of the invention Socket strip with removed cover part;

FIG. 2 shows an enlarged plan view of the cover part according to FIG. 1;

3 shows an enlarged plan view of the base body of the spring strip according to FIG. 1;

Fig. 4- a sectional view through the base body of the spring strip according to Fig. 1 along the line A-A;

5 shows a further sectional illustration through the base body the spring strip according to Figure 1 along the line B-B;

6 shows a sectional illustration of the spring strip according to FIG. 1 along the line C-G, with the contact spring inserted;

7 shows a contact spring in the still unbent state; 8 shows a first side view of the contact spring and FIG. 9 shows a second side view of the contact spring.

The basic structure of the female connector shown is the same with the female connector according to DIN 4-1612 'sheet 2. With this female connector the distance between adjacent contact chambers, i.e. the row distance, is 2.54 mm.

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The insulating body 1 in the illustrated embodiment 3 x 32, i.e. 96 contact chambers, as described later " are arranged, consists of a thermoplastic, for example a polyterephthalate, and consists of two parts, namely a base body 2 and a cover part 3 made. The base body 2 is provided with laterally protruding fastening flanges 4-, with which the spring strip is attached to a connection body, for example a printed circuit board, can be screwed on. The cover part 3 is in the assembled state inserted into a plug-in recess in the base body 2 and connected to the base body 2 at its edges. Fig. 1 shows the base body 2 and the cover part 3 in the not yet assembled State. In the cover part 3, two release openings 6 and one plug-in opening 7 are provided in alignment with the contact chambers in the base body 2 for each contact chamber 5. The two release holes 6 are separated from the plug-in openings 7 by material webs 8. The plug-in openings 7 widen in a conical shape outside to facilitate the insertion of a contact knife. The exact design of the openings 6, 7 can be seen from FIG. In In the illustration according to FIG. 1, the openings are only shown schematically.

As can best be seen from FIG. 6, the release opening 6 is followed by a release tool that is to be inserted Channel 9, which extends to an east shoulder 10. In In the illustrated embodiment, two east shoulders 10 are provided diametrically opposite one another in each contact chamber 5. So it can be in such a contact chamber 5 either a contact spring with two diametrically opposed ßastflahnen or a contact spring with only one east flag in two insert positions rotated by 180 °. - Figs. 7 and show a contact spring 11 with only a single bast lug 12.

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Before the special design of the contact chambers 5 is discussed in more detail, the contact spring 11 will first be described with reference to FIGS. 7 and 8 for the sake of better understanding. E ¹ Ig. 7 shows the cut of the contact spring 11, that is to say the contact spring in the still unbent state. This has a front contact section A with two spring parts 13,13a »a central latching section B with a latching lug 12 and a rear conductor connection part C for crimping both the exposed end and the insulation of a conductor. In the bent state, the locking lug 12 of the contact spring 11 protrudes slightly outwards, as can best be seen from FIG. 8. The spring part 13a on the right in FIG. 7 has a stop 14 protruding to the left, which in the bent state of the contact spring 11, as can be seen from FIG. 9, protrudes laterally beyond the other spring part 13. The function of this stop 14 will be explained below. It is also essential to the contact spring 11 shown that between the contact section A and the latching section B a

ι shoulder 15 is formed, whose function is also below

will be explained in more detail. '

Fig. 6 shows a section through the spring strip with one in one Contact spring 11 inserted into the contact chamber 5. This contact spring is from the connection side 16 of the spring strip 11 into the contact chamber 5 inserted until the locking lug 12 is snapped behind the locking shoulder 10. So that the contact spring 11 is in the Contact chamber 5 firmly locked. The dimensions of the insulator are also selected so that the contact spring 11 including its conductor connection part C in the contact chamber 5 lies. Except for the locking shoulder 10 is in the contact chamber 5 directly In addition to the channel 9, a material elevation 17 is formed which controls the movement of the contact spring 11 in the direction of the channel 9

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« A 3.

limited by the stop 14 on the one spring part 13a the contact spring 11 strikes there laterally. This prevents that the channel 9 is blocked by part of the contact spring 11. The lower edge of the material elevation in FIG is attached at a height that the shoulder 15 can strike the contact spring 11 there before the extreme ends of the Contact section A touch the cover part 3. This ensures that when you pull the connector on the contact springs 11 tensile forces exerted by the base body 2 and not by the cover part 3 are absorbed. As can also be seen from FIG is, the space between the two spring parts 13 and 13a is immediately below the plug-in opening 7 in the cover part 3 · A contact knife, which is inserted into the plug-in opening 7 and is not shown in detail, is guided through the plug-in opening 7 directly between the two spring parts 13 and 13a used.

To release the contact spring 11, a release tool, which is a pin is formed with a slightly smaller cross section than the cross section of the release opening 6, through the release opening 6 and down the channel 9 as far as the sowing flag 12. Through this the locking lug 13 is lifted from the locking shoulder 10 and the contact spring 11 can be pulled out to the connection side 16.

In the illustrated embodiment, the locking shoulder 10 extends approximately over half the width of the contact chamber 5 * The mutual distance between two contact chambers 5 is, as prescribed in DIN 41612 sheet 2, 2.54 mm. Taking into account the space for the walls between the contact chambers, about 2.0 mm remains for the width of the contact chamber. The width of the locking shoulder is therefore approx. 1.00 mm. It was accordingly

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in the illustrated embodiment, the width of the hasty flag 12 0.9 mm selected. Since the locking lug 12 is not detected over its entire width during the release process by the release tool needs, the release opening 6 could be kept narrower in the cover part 3 and is in the present embodiment 0.52 mm. This results in a sufficient contact surface for the ßastfahne 12 on the locking shoulder 10 and a good separation the release opening 6 from the plug-in opening 7. The risk of the contact spring 11 being stuck behind by a contact knife or the accidental insertion of the contact blade into the release opening is not given here, even if the contact blade is used that have a much smaller width than the width of the plug-in opening of 1.2 mm. Also with contact knives, their Cross-sectional area is 0.6 χ 0.6 mm, the just mentioned occurs The problem does not yet arise as long as the contact blades used are wider than the release openings 6.

- patent claims -

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Claims (9)

Claims Multipole socket strip, with an insulating body in which several contact chambers formed next to one another are, in each one provided with a locking flag Contact spring is inserted from the connection side of the socket strip, the locking lug of which is behind one in the contact chamber trained latching shoulder snaps, also provided on the plug-in side of the female connector, into the contact chambers opening plug-in openings for the passage of a contact knife whose cross-sectional areas are smaller than the cross-sectional areas of the contact chambers and release openings arranged adjacent to the plug-in openings in an axial direction Extension to the locking shoulders for inserting a Release tool with which the locking lug can be lifted off the locking shoulder, characterized in that that on the plug-in side of the insulating body (1,2) a cover part (3) is placed on the insulating body (2) is in which the plug-in openings (7) and the release openings (6) are formed, and that the release openings from the plug-in openings are separated by a material web (8). 2. Spring strip according to claim 1, characterized in that in each of the contact chambers (5) two diametrically opposed locking shoulders (10) are formed, and that in the cover part (3) for each contact chamber two diametrically with respect to the plug-in openings (7) - 13 - 709825/0381 . ■■ · Κ- opposite release openings (6) are provided, each separated from the plug-in opening by a material web (8) are. 3. Spring strip according to claim 1 or 2, characterized in that the Eontaktfeder (11) with a shoulder (15) is provided, and that a stop (14) is formed in the contact chamber, which the movement the contact spring (11) is limited in the direction of the cover part (3). 4. Spring strip according to one of claims 1 to 3, characterized in that the width of the locking shoulder (10) is about half the width of the contact chamber (5), and that the width of the locking lug (12) is equal to the Width of the locking shoulder or only slightly less than the width of the locking shoulder. 5. Spring strip according to one of claims 1 to 4, characterized in that. that at a distance of Contact chambers (5) of 2.54 mm, the cross-sectional dimensions of the plug openings (7) are 1.2 0.8 mm. 6. spring strip according to claim 5> characterized that the cross-sectional dimensions of the release openings (6) are approximately 0.5 x 0.4 mm. 7. Spring strip according to claim 5 or 6, that the width of the web of material (8) between the plug-in opening (7) and the Release opening (6) is about 0.60 to 0.65 mm. - 14 - 709825/0381 8. Spring strip according to one of claims 5 to 7> characterized in that plug-in openings (7) in Lid part (3) with extensions that open outwards are trained. 9. Spring strip according to at least one of claims Λ "to 8, da'durch characterized in that the cover part ($) is glued to the base body (2). 709B25 / 0381