CS227299B1 - Bar with outlets - Google Patents

Description

The invention relates to a construction of a strip with terminals which, by its solution, enables easy, precise interchangeable and variable discharging or termination of individual electrical conductor strands or printed circuit boards of various electrical or electronic assemblies.

The winding assemblies mounted in particular in magnetic heads of different types are themselves provided with the start, ends or centers of the individual windings. These beginnings, ends or centers of the individual windings are formed directly by a part of the conductor which also forms the respective winding unit and cannot be led out of the magnetic head housings or covers due to the small dimensions and necessary handling.

For this purpose, many known winding assembly lead solutions, which will be described below, are used in the field of magnetic heads and related fields.

In principle, two types of magnetic heads are used. Flexible or rigid. Both can be solderable or adapted to use connectors.

Known solutions in the field of fixed outlets include the embodiments described below.

A common embodiment used in many variations is the outlet of a circular or other cross section bent to a right angle. The outlet typically has one shorter arm to which the beginnings, ends, or centers of the winding assemblies are soldered.

The second arm is longer and serves as the actual outlet of the magnetic head. The outlet is secured against being pulled out or twisted in various ways, depending on the material in which it is to be fixed. When placed in a non-conductive environment, it is usually embedded with a non-conductive plastic encapsulant. In a conductive environment, for example, when housed in a metal housing, an insulating tube is threaded onto the outlet, which electrically separates the outlet from the housing. In this case, the outlet is also encapsulated with plastic encapsulating material. Sometimes it is placed together with the insulating tube in a conical groove formed on the casing of the winding assembly. Here, the insulating tube threaded onto the outlets and pushed together with the outlet into the conical groove of the sleeve still performs the function of first securing the position before final casting.

The advantages of this and related embodiments are simplicity, unpretentiousness and ease of execution. Disadvantages are insufficient accuracy, one-sided, difficult repairability of already soldered and cast assemblies. Furthermore, the possibility of breaking the position of the outlet during external soldering to the outlet, when the sealing compound

227239 softens around the feeder so that it allows undesired movements through the feeder and thus potentially breaks the conductive path from the winding assembly to the magnetic head feeder.

Similar and frequently used are embodiments of the outlets having a shorter arm to be embedded, provided with different loop shapes and the like, but which only slightly improve the stability of the outlets under mechanical and thermal stress. Also, flat outlets of various shapes improve positioning, but do not eliminate the disadvantages mentioned above.

Another solution used is the terminals molded or sprayed into assemblies, which are glued or otherwise fixed to the magnetic heads. The advantage of these designs is the accuracy of the design, good mechanical and thermal resistance as well as relatively easy assembly into the assemblies of magnetic heads or their subassemblies. The use of molding materials with higher heat resistance, guarantees stability of the outlet during internal and external soldering. A disadvantage here is the need to manufacture the expensive pressing tools required to produce the assemblies. This also implies the necessary high seriality of these assemblies in order to make this type of outlet profitable.

A disadvantage also appears to be virtually impossible repair of damaged outlet or even outlet assembly. Disadvantageous in some cases is the uniqueness of this embodiment.

Another recently used solution is to provide the terminals directly by a printed circuit board, on one side of which the leads from the winding assemblies are soldered and on the other side the outlet cables can be soldered or the connectors are plugged directly. The advantage of a relatively mechanical and temperature-stable solution is, inter alia, that no embedding compositions are usually required for alignment and attachment. In some cases, however, the advantage of this solution is limited by the use of plug-in connectors, which need to be specially designed and constructed for these outlets. It is not usually possible to use parts of serial connectors already designed for printed circuits. This is due to the large dimensions of the connectors used, which cannot be applied under the conditions of the magnetic head outlets. On multiple PCBs, connectors cannot be used at all.

All previously described magnetic head outlets described above may be solderless, i.e. plug-in, or solderable from the outside. In both cases, it is necessary to take into account the shortcomings of the described solutions and it is not possible to eliminate them all.

The above-mentioned drawbacks are eliminated by the solution according to the invention, which consists in that each outlet is inserted into its opening with its main arm, where the outer surface of the auxiliary arm is in contact with the rear wall and side walls of the outlet groove. the inserts disposed in the groove such that the insert with its rear surface abuts the abutment surface, the abutment surface being formed directly by a bar or body.

The solution according to the invention satisfies the required demands on the magnetic head outlets in all directions and, moreover, some handling of the outlets is not feasible in other solutions. It allows variable execution of outlets, interchangeability of individual outlets.

Facilitates mounting in magnetic head subassemblies or assemblies. It enables relatively easy repair of joints - winding assembly - outlet or eventual replacement of damaged outlet. The solution according to the invention is, after assembly, actually removable.

The exact design makes it possible to use plug-in connectors of commonly produced types with miniature pitches. Keying can also be guaranteed in several possible ways, in conjunction with special or modified connector housings. The solution does not exclude external soldering to the terminals, it is thermally and mechanically stable.

The shape of the base body is not complicated, it can be produced either in large series by pressing from suitable plastics, or for smaller series, or for piece production can be produced by conventional machining from the relevant electrical insulation materials. The shape of the outlets is very simple, practically it is a wire of circular cross section usually bent to the shape of the letter "L", and can be fitted as needed. According to this solution, the position of the terminals and their seating in the rail is fixed and unchangeable in any direction. The solution enables soldering of the whole assembly to the printed circuit, or individual wires of the winding assemblies directly soldered to the respective outlet arms.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is explained in more detail in the accompanying drawings, wherein FIG. 1 is a perspective view of the basic embodiment; FIG. 2 shows the variation in the position of the terminals; FIG. 3 shows a terminal strip after assembly; 5 shows in section A-A a split bar with terminals.

In the basic embodiment of FIG. 1, the individual components of the solution according to the invention are shown. It is a bar 1 which has in it grooves of the outlets 16, which are formed by the side walls 13 and the rear wall 12. In the rear wall 12 there is an opening 11 in which the outlet 2 is accommodated by its main arm 21. Auxiliary arms 22 of the outlet 2 are directed downwards in this embodiment. The insert 3 is shown in a partially retracted position in the groove 15. Here, it is supported by its rear surface 32 on the abutment surface 14 formed in this case on the bar 1. After insertion of the insert 3 is fully inserted. secured outlet against turning and pulling in any direction. The auxiliary arm 22 is designed to solder leads from coil assemblies.

On the main arms 21 of the outlets 2 it is possible to either slide the corresponding connectors of the connectors or directly braze the outer flexible conductors. The entire lead rail assembly is suitably mounted in the magnetic head assembly or subassembly thereof.

Giant. 2 is similar to FIG. 1. Here, however, the variability of the position of the auxiliary arms 22 of the outlets 2 is shown. However, the solution allows the same auxiliary arm 22 to be fixed in the "up" or "down" position. The same applies to pin 2 located on the left side of the figure. In the figure, the insert 3 in the groove 15 has been inserted about half its length.

Giant. 3 shows an assembled strip with terminals. The insert 3 is fully inserted in this case. The possible different positions of the auxiliary arms 22 can also be seen clearly. A possible keying by means of the altered spacing of the main arms 21 is also shown.

Giant. Figures 4 and 5 illustrate a split embodiment of the lead rail, wherein Figure 4 alone is an elevational view of the present invention and Figure 5 is a cross-sectional view taken along line A-A in the elevational view. It can be seen from the figure that the support surface 14 is formed here by a body 4 which is not part of the bar 1. The contact of the auxiliary arm 22 with the rear surface 12 of the bar 1 and the front surface 31 of the insert 3 is clearly visible. Also solder 63 of the auxiliary arm 22 of the outlet 2 to the PCB lead 61 is marked here. The auxiliary arm 22 is inserted into the notch 62 of the PCB 6. The attachment of the rail 1 by screws 5 to the housing is also obvious. 4.

The solution according to the invention employs rails 1 with respective outlet grooves 16 in which the auxiliary outlet arms 22 are located

2. The grooves of the outlets 16 themselves with their side walls 13 and the rear wall 12 prevent the outlet 1 from rotating in one direction or the other and the displacement towards the auxiliary arm 22 - the main arm 21. The displacement in the main arm 21 - the auxiliary arm 22 prevents it.

15. Depending on the shape and location of the grooves of the outlets 16 and the openings 11 on the bar 1, the outlets 2 of the auxiliary arms 22 can be adjusted to several different positions. The key arms 21 of the outlets 2 can be used for keying or the corresponding holes 11 in the bar 1 can be blinded. Alternatively, it is possible to achieve the keying of the terminals 2 by changing their pitch. By sliding the insert 3 out of the groove 15, it is possible to disassemble the lead strip into individual parts or to rearrange the parts as necessary.

In particular, the features of the present invention are intended to be the final part suitable, in particular, for conducting electrical conductor strands or printed circuit boards of wound magnetic head assemblies. The solution seems to be particularly suitable for use in multi-track and other demanding magnetic heads where precise termination of the wound assemblies in the form of a connector is required.

Due to its variability, it is suitable even for such cases of winding assemblies of magnetic heads, where the use of key terminals is required. The solution is suitable for any series of produced rails with outlets.

Claims (5)

Subject Pin with outlets, characterized in that each outlet ( 2) is inserted by its main arm (21J) into the opening (11) of the bar (1J), where the outer surface of the auxiliary arm (22J) is in contact with the rear wall (12J and side walls (13J) of the outlet groove (16J) the front face (31) of the liner ( 3) mounted in the groove (15) such that the insert (3) with its rear surface (32) bears on the support surface (14), the support surface (14) being formed directly by a bar (1) or a body ( 4). 5 sheets of drawings OU I lip