KR200154176Y1 - A transformer structure for inductance - Google Patents

Abstract

The present invention improves the structure of the transformer bobbin to which the inductance wires of various electronic devices are wound in parallel to ensure the accurate winding of the wires, while simplifying the construction and minimizing the size of the components to reduce the installation space. To improve the manufacturability and assemblability, and also to the inductance transformer structure to improve the performance by minimizing the change in the electrical characteristics according to the winding of the wire, the transformer 10 has the same size and length It has a pair of copper pipes 11 and 12 which are provided in parallel with each other in parallel and penetrate up and down, and are fastened in the transverse direction to the upper ends of the copper pipes 11 and 12 so as to be connected to each other while being interconnected. The plate-shaped connecting copper plate 13 having the protrusions 17 and the lower ends of the copper pipes 11 and 12, respectively, are fastened to the fastening protrusions 17 on one side. The upper and lower parts of the lower cored copper plate 14 and 14a, and the circular core 15 and the core 15, each of which is provided in the longitudinal direction on the outer circumferential edges of the copper pipes 11 and 12, respectively. It consists of the insulators 18 and 18a provided between the connecting copper plates 13, 14 and 14a.

Description

Inductance transformer structure

The present invention relates to a transformer structure for inductance, and more specifically, to improve the structure of the transformer bobbin to which the inductance wires of various electronic devices are wound in parallel to make an accurate winding of the wire and to simplify the configuration. In order to improve the manufacturability and assemblability, such as to minimize the size of the components to reduce the installation space, and also to improve the performance by minimizing the change in the electrical characteristics according to the winding of the wire will be.

In general, in various electronic devices, inductances that interfere with the change of magnetic flux through or around the wires or coils are acted on. Inductance transformers for such inductances are mainly used for receiving circuits or transmitting calls. Not only does it match the impedance, it also modulates the frequency, amplifies and supplements the other circuits, and also the function of matching the input impedance or output impedance in the audio circuit. Will be done.

Such inductance transformers have different capacities and different characteristics depending on the circuit contents to be applied. In the related art, inductance transformers are already widely known and widely used.

That is, the conventional inductance transformer is the most commonly used up to now is composed of an air core coil type by simply winding a coil or wire in a certain form without bobbins, and also inductance configured using a core in addition to such a structure There is a trance.

However, in such a conventional structure, the former has a problem that the shape is easily deformed by assembling the set or by an external impact because the former does not have a structure that firmly supports the electric wire that is the coil to be wound. .

In particular, in such a case, the inductance required in the circuit is deformed, so that impedance characteristics may not be properly matched, or the electrical characteristics may be changed, such as a frequency resonance point being moved.

In addition, the inductance transformer using the core has a problem in that its structure is complicated and its manufacturability and structure are poor. Moreover, since it is composed in series, the difference in line capacitance is constant depending on the use stage. There was a problem such as taking up a lot of installation space because of the large length and size, as well as the performance is not maintained.

The present invention has been made in consideration of the above circumstances, and its purpose is to improve the inductance transformer in a parallel manner using copper pipes and copper plates, simplifying the structure and improving the manufacturability and assemblability while reducing the length and size of the installation. It is to provide an inductance transformer structure that keeps the difference in capacitance between lines as well as space at all times.

This object is achieved by providing an improved inductance transformer, that is, the inductance transformer has two copper pipes in parallel by fastening upper and lower copper plates, and a plurality of cores are formed on the outer periphery of the copper pipe. Each of which is provided by winding the electric wire a set number of times through the pair of copper pipes.

1 is an exploded perspective view showing the overall structure of the present invention.

Figure 2 is a perspective view showing the overall structure of the present invention.

3 is a cross-sectional view showing a configuration according to the use of the present invention.

* Explanation of symbols for main parts of the drawings

10: inductance transformer 11, 12: copper pipe

13: upper connecting copper plate 14, 14a: lower connecting copper plate

15 core 16: wire

17: fastening protrusions 18, 18a: insulator

On the basis of the accompanying drawings the present invention will be described in detail the configuration and operation as follows.

1 of the accompanying drawings is a perspective view showing the overall configuration of the subject innovation in detail, reference numeral 10 of the figure shows the main body of the inductance transformer according to the subject innovation.

The transformer 10 has a same size and length, and a pair of copper pipes 11 and 12 that are provided in parallel in parallel with each other, and a connecting copper plate for integrally fastening the lower ends of the copper pipes 11 and 12 integrally ( 13 and upper connecting copper plates 14 and 14a fastened to the upper end portions of the copper pipes 11 and 12, respectively, and on the outer periphery of the copper pipes 11 and 12, respectively. A plurality of cores 15 are stacked in the longitudinal direction.

In more detail, the copper pipes 11 and 12 are provided to be communicated with each other up and down at regular intervals, and the lower ends are integrally fastened and fixed as the connecting copper plate 13 at the same time as the upper part. It is provided in the form separated by the connecting copper plate 14 and 14a.

At this time, the inner diameter of the copper pipe (11, 12) is not only to provide a passage through which the electric wire 16 is wound, of course, on one side of the upper and lower connecting copper plate (13) (14) (14a) Each fastening protrusion 17 is provided integrally to provide a function of the fastener when the transformer 10 is fastened on the circuit board.

In addition, the cores 15 provided on the outer circumferential edge of the copper pipes 11 and 12 are provided in a circular shape, and a plurality of cores 15 are fastened to each other. Insulators 18 and 18a made of a material such as silicon are fastened between the portions 14a).

Next, the assembly and the operation of the present invention constituted as described above will be described in detail.

The assembly process of the inductance transformer 10 of the present invention is a copper pipe 11 in its fastening hole in a state in which a hole having a size corresponding to the outer diameter of the copper pipe 11 and 12 is drilled on the lower connecting copper plate 13. (12) Insert the lower end part and fasten them integrally by welding.

In this state, the lower insulator 18 is fastened to the copper pipes 11 and 12, and then a plurality of cylindrical cores 15 are inserted and fastened, respectively, and the upper insulator 18a is continuously inserted into the upper insulators. Each of the upper connecting copper plates 14, 14a is fastened by welding, respectively.

Therefore, the transformer 10 assembled as described above is composed of one single chip, and in this state, the electric wire 16 is wound according to the capacity or characteristics of the inductance, that is, the onion knife 11 Since the upper and lower portions of the (12) are in communication with each other, the electric wire 16 is wound as many times as necessary through the inner diameter thereof.

As described above, the chipped transformer 10 is simply fastened and fastened on a circuit board by using fastening protrusions 17 provided on the upper and connecting copper plates 13, 14, and 14a.

As described above, the present invention has the effect of improving the manufacturability and assembly ability by greatly reducing the overall length and size by improving the parallel structure while chipping the structure of the transformer bobbin to which the inductance wire is wound. Since the installation space can be minimized, the usability is also improved.

In addition to this effect, there are fewer exposed parts of the wire to be wound, so that the difference in line capacitance can always be given constantly, and the performance is improved. The wires do not break off and have an effect of preventing deformation of the electrical characteristics.

In addition, the transformer of the present invention will have a smaller capacity when one core is used in the high-power impedance matching transformer, or the transformer may be manufactured by using a plurality of cores, thereby increasing the capacity.

Claims (1)

In the transformer used for inductance, the transformer 10 has a length of the same size and is provided in parallel to each other, a pair of copper pipes (11) (12) and upper and lower through the copper pipe (11) (12) is fastened in the transverse direction to the lower end of the plate-shaped connecting copper plate 13 and the copper pipe (11) and the upper end of the copper pipe (11) (12), respectively, so as to interconnect them while having a fastening protrusion 17 on one side. While being fastened to the upper connection copper plate (14, 14a) also has a fastening protrusion 17 on one side, and a circular core having a plurality of laminated on the outer periphery of the copper pipe (11, 12) in the longitudinal direction, respectively ( 15) and an insulator (18) (18a) provided between the core (15) and the upper and lower connecting copper plates (13) (14) (14a).