JPH02104100A - Stereoscopic structure voice coil bobbin - Google Patents

Abstract

PURPOSE:To obtain a structure minimizing the degree of disturbance to magnetic field by connecting a voice coil bobbin and a sub voice coil bobbin with reinforcement ribs arranged radially and engraving slits to a center pole. CONSTITUTION:A stereoscopic structure coil bobbin is mounted in a way that it just bores into the center pole 6. As a result, the voice coil bobbin has a high strength in stereoscopic structure and a part of the bobbin placed between the center pole 6 and a plate 9 keeps a thin thickness unchanged from that of a conventional bobbin. In causes the voice coil bobbin to provide a property hardly disturbing the magnetic field between the center pole 6 and the plate 9 naturally.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a dynamic speaker, which is one type of audio equipment.

, (Problems to be solved by conventional technology and invention)
In conventional dynamic speakers, a certain problem existed regarding the strength of the voice coil hobbin.

That is, the voice coil hobbin (1) has a center pole (6) and a plate (
9) is an element that exists between the two. And that means that the voice coil hobbin is located exactly at the position where it interferes with the magnetic field.

For these reasons, the voice coil bobbin needed to be an extremely thin structure so that it would interfere with the magnetic field as little as possible.

But at the same time, the voice coil hobbin has a winding coil (4
) in a cylindrical shape and supports the winding coil so that it is always in the correct position within the magnetic circuit.

Considering these aspects, the voice coil bobbin is required to be thin and extremely strong at the same time.

In other words, voice coil hobbins have been required to have contradictory performance: they must be as strong as possible and as strong as possible.

In the prior art, these contradictions most clearly appear in ultra-large diameter speakers.

In other words, in an ultra-large diameter speaker, the diameter of the voice coil hobbin that drives the diaphragm needs to be correspondingly large.

However, in order to hold such a large diameter, the voice coil bobbin must necessarily be thick.

As a result, in ultra-large diameter speakers, the magnetic circuit must be unduly powerful.

In other words, since the diaphragm has become larger and heavier, the magnetic circuit must of course be stronger, and in addition, the voice coil hobbin has become thinner and the extent to which it interferes with the magnetic field has become stronger. This is because the magnetic circuit must cover this amount.

Therefore, in the prior art, the larger the diameter of the diaphragm, the lower the driving efficiency of the diaphragm relative to the strength of the magnetic circuit.

Therefore, an object of the present invention is to provide a voice coil bobbin that solves the above problems, and a corresponding center pole.

In other words, we provide a structure for the combination of such a voice coil hobbin and center pole that has a high strength that can withstand large diameters, yet minimizes the degree of interference with the magnetic field between the center pole and the plate. I want to.

(Means and effects for solving the problems) In the present invention, in order to achieve the above-mentioned object, it was decided to devise both the voice coil hobbin and the center pole.

First of all, the voice coil bobbin has been designed to have an extremely three-dimensional i-structure.

113, FIG. 2, and FIG. 3 are structural explanatory diagrams of the present invention, so please refer to them.

As can be seen from this, in the present invention.

Voice coil hobbin (1) that directly supports the winding coil (4)
), there is a sub-voice coil hobbin (2) that is one size smaller in diameter, and the two are connected by reinforcing lips (3) arranged radially.

Together, these three elements
It supports a wire-wound coil (4) and drives a diaphragm.

By doing this, the voice coil hobbin of the present invention can ensure sufficient strength even when processed to a considerably large diameter.

Next is the center pole (6), and we have put a lot of thought into its shape.

That is, first of all, we decided to cut a slit corresponding to the position of the reinforcing rib (3) of the three-dimensional voice coil hobbin.

After doing so, we also added a sub-voice coil bobbin (2), which also has a three-dimensional voice coil hobbin.
Five cylindrical cavities (8) corresponding to the positions were also set.

By applying the above ideas to the shape of the center pole (6), the three-dimensional voice coil hobbin has a
It can be installed in such a way that it just bites into the center pole (6).

As a result, in this invention, the voice coil hobbin is extremely three-dimensional and has high strength, but at the same time,
The part located between the center pole (6) and the root (9) has been kept as thin as the conventional model. This naturally means that this voice coil hobbin has a property that it is difficult to interfere with the magnetic field between the center ball (6) and the plays 1-(9).

In other words, as a result of using the above-mentioned means, the present invention has succeeded in obtaining a voice coil bobbin that has high strength and that disturbs the magnetic field within the magnetic circuit to a minimum extent. .

(Example) FIGS. 5 and 6 are a front view and a side view of a dynamic speaker incorporating the present invention.

In this speaker, an orthodox cone-shaped diaphragm is used.

The three-dimensional voice coil hobbin of the present invention is located in the center of each figure.

(Effect of the invention) By introducing the present invention, it has the strength to withstand a large diameter,
In addition, it is possible to obtain a voice coil bobbin that minimally disturbs the magnetic field within the magnetic circuit.

First of all, in the past, due to efficiency issues,
It will make it possible to create dynamic speakers with ultra-large diameter diaphragms, which were considered unrealistic.

Further, dome-shaped speakers and flat-type speakers require large voice coil bobbins in relation to their diameters, and the present invention will be effective in these types of dynamic speakers as well.

That is, it will significantly increase the technical limit aperture of these types of loudspeakers, and for the same aperture, it will significantly improve their driving efficiency.

[Brief explanation of drawings]

FIG. 1 is a perspective view of a magnetic circuit section incorporating a three-dimensional voice coil hobbin according to the present invention. In this case, the three-dimensional voice coil hobbin is drawn as protruding from the magnetic circuit section to make it easier to understand, but originally this element was inserted into the radial slit in the center pole section. do. FIG. 2 is a front view of a magnetic circuit section incorporating the present invention. FIG. 3 is a side view of a magnetic circuit section incorporating the present invention. FIG. 4 is a perspective view of a magnetic circuit section incorporating a conventional voice coil bobbin. FIG. 5 is a front view of a dynamic speaker showing an implementation state of the present invention. FIG. 6 is a side view of a dynamic speaker showing an implementation state of the present invention. (1) - Voice coil hobbin, (2) - Sub voice coil hobbin, (3) = Reinforced rib, (4) - Winding coil, (5) - Diaphragm, (6) - Center pole, (7) = radial slits,

Claims (1)

[Claims] A) A sub-voice call bobbin (2) having a diameter slightly smaller than the normal voice coil bobbin (1) is present inside the normal voice coil hobbin (1). b) Reinforcing ribs (3) arranged radially between the voice coil hobbin (1) and the sub-voice coil hobbin (2)
) to connect. c) The three-dimensional structure composed of the above three types of elements functions as a whole equivalent to a single conventional voice coil hobbin. That is, the voice coil hobbin (1), the sub-voice coil hobbin (2), and the reinforcing rib (3) work together to support the wire-wound coil (4) and vibrate back and forth, causing the diaphragm (5 ) to drive. d) In order to avoid interference with the above-mentioned structure, the center pole (6) has a unique design. That is, first of all, a radial slit (7) is cut into the center pole (6) so as to correspond to the position of the reinforcing rib (3), and this slit (7)
This avoids interference between the reinforcing rib (3), which vibrates back and forth, and the center pole (6). e) Furthermore, a cylindrical cavity (8) corresponding to the position of the sub-voice coil hobbin (2) is set in the center of the center pole (6), and this cavity (8) allows the A sub-voice coil hobbin (2) that vibrates,
Avoid interference with the center pole (6). The voice coil hobbin and center pole of a dynamic speaker are formed from the above structure.