HUT76416A - Electric connection for permanent jointing optional contacts of connector strips to the interconnecting band without swing - Google Patents

Abstract

The electrical connection according to the invention is / 9 / sheet or sheet. Copper or Copper Alloy Contacted / Rib. secures an insoluble and non-rotatable fastening of Z-oneZ coupling tape to Z $ C, with ΖO <o <<180 ° /, without any special fastening element, at any angle angle. The width of the l $ f width of the joint formed by the parallel cuts ((Zaz contacts ZSi.> (The ZS flange thickness of the band is ZS'Z and Sfi7 is equal to the sum of the applied size range of Sirnin + S2min <0 <S- max + S2max and the bond / 97 ^ length / A / Znin is twice the length of the cut-outs ZBA / which is always greater than the distance of the cuts / t /, Zaholis S1min = 0.4 mm, Simax = 1 mm, S2min = O, 5 mm, S2max = 1.5 mmZ. Typical illustration is the -o-diagrams, '/ ο

Description

The electrical connection of the present invention enables us to typify and make production technology more productive even with significantly different designs of connector series.

The design of the joint is practically independent of the construction of the entire connection series, of the insulating bodies / insulators / inserts. from other mounting operations, such as any number or arrangement it can be implemented with insulating bodies with substantially different pitch spacing R and of any length of connection. Its application is particularly important in industrial-professional connector series.

Electrical, electronic, household appliances, consumer electronics, office equipment, laboratory instruments, etc. more and more network hubs, so called. require a connector line.

Initially, the series of connectors were manufactured by wiring up socket outlets or recessed sockets. These sockets were not very different from the sockets used in electrical installations and were wired in the same way, so that the insulated and, where necessary, stripped, bent copper wires were connected with the same polarity contacts, which were known to be secured by screws.

This is how the connection lines of the German Knürr AG were made until the 990s. Serimat Type 3,000.304.2 Tip. / but this is how the 30 ° rotated sockets are made today.

The preferred solution is to install phase and zero contacts with copper or brass strip connectors. In this solution the connection is also solved by means of screws, such as screws. KS 240 tip developed by Kontakta factory. terminal rows.

Another known solution is wiring with solid copper wire instead of copper strips, which has the advantage of waste-free material. Use this solution eg. Using the Knürr license the Hungarian Kontaset Kft.

In this copper wire connection, the connection is made with θ9Υ-θ9ként screws per contact.

A common disadvantage of screwed-in solutions is that a plurality of screw terminals require multiple screws, each of which is a potential source of error because poorly tightened or loose screws provide insecure and high-value transient resistance.

However, instead of the screw connection used for mains sockets, the so-called spring-loaded socket is used. however, due to the high cost of this solution, it could not be used for multiple connection sockets.

Many attempts to replace screw joints are known, but they have the common feature that they can only be used advantageously for certain types.

For example, in the series of connectors PGep L 'Esprit Connectique under the trademark Pulti and registered under EP 109876 / H01R 25/00 /, for example, the terminals of the terminals and the connecting conductor are one or two copper strips running parallel to the terminals. The Kontamodul tip of the Hungarian Kontavill company has a similar system. product line / eg. 1,302.5828 tip./. The disadvantages of these solutions are that they generally require different metal stamping tools depending on the different pitch R of the connection sockets. the use of non-ferrous metals at length.

It is also known to use riveting to replace screw joints, either by riveting a single rivet or by riveting an eye drawn from the connecting copper strip itself. The disadvantage of this method is that the rivet formed does not prevent the overlapping conductive elements from rotating, thus loosening the joint, and this can result in an insecure transient resistance. A further disadvantage is that during the riveting operation, copper particles can be formed, which can result in short circuits.

The drawbacks of both eye-catching and riveting are the disadvantages of having to change the perforation by changing the spacing R, and the individual errors / tolerances / cumulative, thus increasing the manufacturing error especially for many sockets.

• rf * * · ** # '* • · »4 * ► ·« «·» · * * • · · · «··· fc ·» *. * · * Rf »·

In the present invention, it is an object of the present invention to provide an electrical connection having good electrical and mechanical parameters, while utilizing some of the same polarity contacts / phase and neutral contacts of the connector series. even with protective contacts / any arrangement, the connection can be secured in the same way, accurately and without rotation, so that production can be typified and productive.

In order to achieve these objectives, copper and copper. We wanted to develop a state-of-the-art solution using copper alloy tapes / k / t, retaining all the benefits / replacing screws, bonding with self-adhesive material, sufficient spacing and clearance. creep currents / which this method can provide, while at the same time eliminating the drawbacks of known solutions.

The present invention is based on the discovery that the principle of sheet-forming mechanical joints used in the tin and iron and steel industry can be used to form electrical joints having excellent electrical properties, provided that this known cold forming process is carried out in the sheet or sheet industry. ribbon-shaped, brass or copper. using copper alloy guides _; their sheet thicknesses are within the size range defined by v.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an insoluble and non-pivotable fastening of arbitrarily arranged contacts of the same connection polarity in an electrical bonding connector series to a copper or copper alloy material.

Particularly new features of our solution are the fact that the contacts in the bonding area are plate or sheet metal. they are ribbon-like and are fixed in a known manner to the jointing strip by two parallel cuts spaced apart and spaced apart, while the width of the joint, which is the distance of the cuts, is equal to the sum of the bonding about twice the length of the cuts, which is always greater than the distance of the cuts.

Preferably, the phase and zero contacts of the connector series are fastened to an interconnector by an electrical connection according to the present invention.

It is also expedient to provide an arbitrary arrangement of protective contacts secured to a connecting strip when using the electrical connection of the present invention.

Optionally, the phase and neutral contacts as well as the protective contacts are secured to one of the connecting strips by using the bond according to the invention.

It is desirable to secure the two contacts to each other by using two joints of the same design and orientation.

In this case, it is advantageous for these joints to be symmetrical with respect to the longitudinal axis of the respective contact and connecting strip.

The present invention will now be described with reference to embodiments of the electrical connection and application of the present invention, as well as typical prior art solutions wherein

1. a. and b. traditional so-called. Shows the connection of the O ° terminal block in a housing and a housing, a

2. a. and b. Figs. The connection line at 30 ° is visible while the

Fig. 3 illustrates the design of the O ° joint when using the joint according to the invention, a

Figure 4 illustrates the design of a 30 ° connection set when using the bond of the present invention

5. a., B., And c. Figures 4 to 7 are schematic diagrams of the electrical connection according to the invention. design / are shown in top view, respectively. longitudinal cross-section.

1.a. Thus, in FIG.

An O ° row of connectors can be seen in a top view of the T case, which is located at a distance R between each of the insulating bodies 5 / insulating sockets 5 of the connecting series. In the case of industrial-professional designs, the T-case can usually be made of metal / but also of injection-molded plastic for durability and durability.

1.b. Fig. 4A shows this connector in an uncoiled design, also in a top view. The figure shows clearly that both the phase and neutral contacts 2 and the protective contacts 4 are connected by a straight solid copper conductor 1, which are provided with screws 3 to each phase 2 and neutral terminal 2 of the insulating body 5 respectively. Fixed to 4 protective contacts. / The good connection of the electrical connection and proper contact are ensured by these 3 screws.

2.a. and b. FIGS. A connection strip of 30 ° is shown with conventional wiring. The position of each insulating body 5 relative to the longitudinal axis of the connection row = 30 ° does not allow the simple straight-wired connection shown in FIGS. 1 to be used. In this known solution, the phase and neutral contacts 2 are connected by insulated and bent solid copper conductors 6, while the protective contacts 4 are connected by bent solid copper conductors 7, which are also secured to each terminal by means of screws 3.

The two examples presented show that the insulating bodies 5 of the same construction, respectively. identical 2-phase and neutral contacts, respectively. In the case of the protective contacts 4, a different connection is required, the position of the insulating bodies 5 relative to the longitudinal axis of the connection line / which in our example = O, respectively. Was 30 °. It can also be seen that the screw fastening requires the use of an extremely large number of 3 screws. Thus, assembly is labor-intensive and time-consuming, and production cannot be typified.

Example 3 shows a plan view of a section of an O ° connector, in which case the joint 9 according to the invention connects the protective contacts 4 of each insulating body 5 using a connecting strip 8. The joints 9 thus connect the planar surfaces of each of the protective contacts 4 and the connecting strip 8 without any intermediate fastener. / The construction of the joint 9 itself is described in connection with the figures 5. /

It is further shown that each of the protective contacts 4 is secured by two joints 9 to the connecting strip 8 which are symmetrical with respect to the longitudinal axis of the connecting strip 8 and the center of the protective contact 4 and have the same size and orientation.

In this example, the design / connection of the phase and null contacts 2 are not shown, which, like the solution referred to in the prior art, are illustrated in Figs. They consist of copper strips V ₂ , on which the contacts are formed by plate machining according to the pitch R of each insulating body 5.

Figure 4 illustrates the use of the joint 9 of the present invention for a 30 ° joint, also for securing a protective contact 4 to a connecting strip 8.

Comparing the embodiment of Fig. 4 with that of Fig. 3, it can be seen that the formation of the joints 9 is not influenced by the different positioning of the protective contacts 4. / The markings shown in the figure are the same as those shown in Fig. 3. The direction and position of each joint 9 are the same, i.e. they are symmetrically directed to the longitudinal axis of the connecting strip 8 and to the center of the protective contact 4.

So our solution is really suitable for typing of production in case of different connection series.

The formation of the bond 9 of the present invention can be traced by means of Figs. Figure 5B is a top view of Figure 5b. Figure 5c. Fig. 6A is a longitudinal sectional view of the joint 9, which is thus a plate-shaped contact made of the material of a protective contact 4 and a connecting strip 8 by cold forming without the use of a fastener. with proper application of the stapling method.

From the copper alloy having a sheet thickness S ₂ / e.g. CuZn37 / consisting of 4 protective contacts, / where S _2min = 0.5 mm, S _2max = 1.5 mm /, and St with a plate thickness / where Si _min = 0.4 mm, Si _max = 1mm / 8, in two known ways, creating a parallel cut at a distance t apart and of length B, the values of which are, according to the invention, · · · · · ·

Simin + S2min <t <Si _max + S2max θ§ B> t

As a result of this operation, the joint 9 has the shape of a trough, and as shown in the cross-sectional and longitudinal figures, the width C of the joint 9 is equal to the distance t of the cuts and

<B <2.5 / thus about twice the length B of the cuts / / This ratio was provided by the proper design of the cutting punch to ensure a smooth flow of materials. /

As a result of the applied mechanical stress, the Ski and / or Sí. S ₂ sheet thickness materials are cold flowing, their size in the direction of the cutting force solidifies, and at the same time their surface area is increased, so that the formed bond 9 as in the cross-section 5.b. 2, with both current conducting materials / the protective contact 4, respectively. It has 8 connecting strips / continuous sheet, having a thickness h, which has a width E greater than the distance t of the cuts, i.e. the width C of the joint 9, thus providing a form-fitting joint.

In accordance with the aspect ratios of the present invention

S1 + S2

E _m in = C + 5, while h ^ OJ / Si + Sz /

Microscopic examination of the formed 9 bonds confirmed that the two copper and the copper alloy conductive material - in this example, a protective contact 4 and a connecting strip 8 - practically shrinks at the joint 9 so that the formed joint 9 provides a durable airtight and corrosion-free electrical connection with low and constant transient resistance and good electrical conductivity.

A further advantage of the coupling 9 according to the invention is that it ensures in a simple manner that the conductors connecting the individual contacts can be arranged in two or more planes, so that even at small dimensions, the gaps and / or spaces are sufficiently large. creep currents. It has also been shown by the examples shown that the joint 9 can be formed in the same way for any relative position of each contact and a connecting strip 8, and since this operation is done in a single continuous step, manufacturing cannot be easily controlled and additional errors occur.

In summary, although the present invention has been developed to connect arbitrarily arranged terminals of the same series polarity, it is advantageous in all cases where insoluble bonding of arbitrarily arranged conductors is required by means of productive mass production, and there is a possibility to plate these conductors. ribbon-like design.

Claims (8)

PATENT CLAIMS 1. / Insoluble and pivotally secured contacts of any arrangement of electrical connection terminals to copper or copper alloy connecting strips, consisting of the material of the respective contacting and connecting strip. on tap trained contacts / 2 or. 4 / and a tongue-and-groove joint formed by parallel cuts (9) in a manner known per se, / width / 0 / of the connection strip / 8 and the respective contact / 2 and / or. The sum of the 4 / plate thickness measurement / Si and S in ₂ / in the size range used in the knitting / 9 / length / a / being about twice that with grooves length / B /, the latter being in each case greater than the cut-offs distance / t / B> t and B 2. / Electrical connection according to Claim 1, characterized in that the protective contacts of the connection series / 4 / are connected to this connection / 9 / to a connecting strip / 8 /. 3. Electrical connection according to claim 1, characterized in that the phase contacts and the neutral contacts of the connector series (2) are attached to this connection (9) to a connecting strip (8). Electrical connection according to Claim 1, characterized in that the phase and neutral contacts 121 and the protective contacts (4) of the connection series are fastened to each of the connecting strips (8) by using this connection (9). 5 / 1-4. Electrical connection according to any one of claims 1 to 4, characterized in that the contacts / 4. /, respectively. the connecting strap / 8 / is fastened to each other by two joints of the same design and orientation / 9 /. 6. / Electrical connection according to Claim 5, characterized in that the two connections 9 are symmetrically located on the longitudinal axis of the connection strip 8 and the respective contacts 2 and 9 respectively. 4. / relative to its center. 7. Electrical connection according to claims 1 to 4, characterized in that copper alloy / e.g. CuZn37 / contacts / 2 or 4 / sheet thickness / S ₂ / size range / Sp. _min -S _imax / 0.4-1 mm, while the bonding band / 8 / plate thickness / Sf range / Si _min -Si _ma x / 0.5-1.5 mm. 8. / 1-7. Electrical connection according to claims 1 to 5, characterized in that said contact / 2 and / or 2 4 / and the connecting strip / 8 / are enclosed at any angle in the case.