EP1022929A2 - Loudspeaker with a jacketed magnetic core - Google Patents

Abstract

The loudspeaker has a voice coil (2) and a permanent magnet (1). The permanent magnet consists of a core (10) made of a highly magnetic alloy including an element from the group of rare earths, and coated in a plastics layer (11). The plastics layer contains particles of an alloy including an element from the group of rare earths. The alloy may be a neodymium alloy. The alloys in the core may be the same as the alloy in the plastics layer. The plastics layer is several tenths of a millimetre thick. An Independent claim is included for a method of manufacturing a permanent magnet for a loudspeaker.

Description

The invention relates to a loudspeaker according to the dynamic Converter principle.

Speakers according to the dynamic converter principle are very spread. These speakers are typically ring-shaped Voice coil movable in an air gap of a permanent magnet to arrange. If a stream that the audio signal represented, flows through this voice coil, so it generates a force that is perpendicular to the voice coil and the magnetic field acts and which sets the voice coil in motion. With the Coil moves with a membrane connected to it. Since the Current changes according to the audio signal, the Voice coil with the diaphragm moved according to the audio signal, whereby the electrical audio signal into a corresponding acoustic signal is converted.

Through a suitable choice of materials for the permanent magnets succeeds in creating small and light speakers. It is known for this highly magnetic alloys with a Element from the group of rare earths, in particular neodymium alloys, to use. These alloys prove in handling as extremely difficult because they tend very much strong to oxidation, they are very sensitive to moisture and they react with hydrogen themselves.

It is known to manufacture permanent magnets from a neodymium alloy, by sintering raw bodies, then these Raw body by mechanical processing in the desired Form and then by nickel plating or chrome plated. Thanks to the metallic coating oxidation of the neodymium alloy is prevented. Because when processing the neodymium alloys, the neodymium alloy is damaged, for example oxygen or hydrogen penetrates the alloy, there is a risk that this damage caused the coating to burst and the neodymium alloy is further damaged despite the coating becomes.

Furthermore, it is known to particles from a neodymium alloy in a plastic matrix and the plastic for Use permanent magnet formation. Such permanent magnets show only a very limited magnetic field strength, which is only about 30% of the magnetic field strength of a Neodymium alloy magnets.

The invention has for its object a speaker to create according to the dynamic converter principle that one Permanent magnets with an alloy that is an element from the Group of rare earths contains, and which at high magnetic field strength, if possible, in particular against damage is protected by oxidation.

According to the invention, this object is achieved by a loudspeaker with the features of claim 1 and a method of manufacture of a permanent magnet for such a speaker solved according to claim 8.

Advantageous further training result from the subclaims.

According to the speaker, which is based on the dynamic Converter principle works, provided with a permanent magnet, the core of which is made of a highly magnetic alloy with a Element from the rare earth group, in particular is formed from a neodymium alloy. This core is with encased in a plastic layer, which in turn particles a possibly the same highly magnetic alloy as the core contains. Due to this specific structure of the permanent magnet ensures that a very strong permanent magnet is created, its distance from the voice coil very can be kept small, reducing the effective magnetic field strength be kept very high in the area of the voice coil can. This is achieved in that the inventive Structure of the permanent magnet for the speaker on additional Layers that are not related to the magnetic field strength contribute between the magnetically active components of the magnet and the voice coil is dispensed with.

In addition, the permanent magnet according to the invention proves to be as very strong because it is almost entirely made of materials, which contribute to the magnetic field strength. In addition, the plastic layer with the particles a highly magnetic alloy with an element from the Rare earth group, especially made of a neodymium alloy, achieved that on the one hand the core against external influences especially due to atmospheric oxygen or moisture is protected and on the other hand that in the plastic layer contained particles also by the surrounding Plastic matrix are protected. This makes the magnetic Maintain the properties of the permanent magnet. On an additional protective layer covering the distance between the voice coil and the magnet increases and thus the magnetic Field strength reduced at the location of the voice coil, can can thus be dispensed with according to the invention.

Furthermore, it is due to the construction according to the invention with the possible by the surface formed by the plastic layer, the permanent magnet with the other components of the speaker in a simple, defined and safe way, for example to connect by gluing. This connection can be designed much simpler than in the state of Technique with a sintered neodymium alloy magnet because the connection now not with the brittle, difficult to handle Neodymium alloy takes place, but with the manufacturing technology easy to handle plastic of the plastic layer. The connections can also be made much more precisely train, whereby the quality of the invention Speaker is noticeably increased. The invention Building a speaker is particularly suitable for tweeters.

The same is preferably highly magnetic to form the core Alloy with an element from the group of the rare Earth, especially made of a neodymium alloy, related to the the particles form in the plastic layer. This will achieve the greatest possible homogeneity of the permanent magnet, which has an advantageous effect on the formation of the magnetic field. By using the same high magnetic alloy can also be the cost of the permanent magnet and thus reducing the cost of the speaker because the number of used materials especially the very difficult to handling materials, is reduced.

The particles which prove to be particularly advantageous preferably exclusively or largely from a neodymium alloy exist, largely evenly in the plastic layer to distribute. This makes it possible to use the magnetic field in the area of the voice coil as evenly as possible and also train as strong as possible. Through the even distribution it is possible to design the permanent magnet for the loudspeaker according to the invention on manufacturing technology easy way to make.

The material thickness has turned out to be particularly advantageous to choose the plastic layer very low, whereby in particular a material thickness of a few tenths Millimeters and below have proven to be very suitable. Through this thin coating of the core of the permanent magnet is adequate protection against mechanical, chemical and other external influences on the highly magnetic alloy, especially the neodymium alloy. This is the Amount of material relevant for the generation of a magnetic field for a given size noticeably enlarges what to leads to an increased magnetic field strength. It is also possible with a given magnetic field strength in the range of Voice coil of the loudspeaker according to the invention the size to reduce the permanent magnet and thus the weight of the invention Loudspeaker to reduce and thus also reduce costs. Furthermore, this training shows of the permanent magnet of the invention all the advantages, in particular the simple and defined connection possibility with the other components of the speaker.

Has proven to be a particularly suitable high-magnetic alloy an alloy made of neodymium (Nd) and iron (FE) and boron (B). This alloy shows particularly advantageous magnetic properties, but with very disadvantageous Properties, especially with regard to mechanical Stability (brittleness) and its chemical susceptibility, especially against atmospheric oxygen and water. The inventive design of the speaker it is possible despite the disadvantageous properties of this alloy material to use because of the special plastic layer a corresponding mechanical and chemical Protection of the neodymium alloy is given. With that come the special ones magnetic properties of this neodymium alloy really comes into its own.

As preferred plastics for forming the plastic layer have hydrophobic plastics and the members of the epoxy resins. In addition to their beneficial water-repellent These epoxy resins show their special properties good adhesive strength on the alloys like the neodymium alloys the possibility of a firm and lasting Connection between the core and the plastic layer as well the particles and the surrounding plastic matrix To create epoxy resin. In addition, affect the epoxy resins due to their good electrical and mechanical properties the formation of the magnetic field of the permanent magnet for the invention Speakers only a little. The construction of a effective permanent magnet is significantly simplified. In addition, the processing of the Epoxy resins as quite simple, what the integration in the Manufacturing process of the speaker facilitated.

The invention also describes a method of manufacture of a permanent magnet for a loudspeaker according to the invention. Here, the core of the permanent magnet is under pressure and temperature made of a highly magnetic alloy with one element from the group of rare earths, especially from one Neodymium alloy, sintered and then this core with one Coat made of a plastic layer, which particles a corresponding alloy, in particular a neodymium alloy, contains. This sheathing of the sintered Core is done by inserting the sintered core into a mold and the plastic layer by injection molding, pressing or pouring is applied around the core. In addition to the above Process for applying the plastic layer to the core other common methods are also possible. By the shape is a specification of the final shape with a plastic layer coated core of the permanent magnet. A subsequent shaping treatment by cutting, drilling, This means grinding, polishing the coated core not necessary anymore. This makes it possible to complete the manufacturing steps in the manufacture of a permanent magnet for the invention Reduce speakers while doing so the steps necessary for the durability of the neodymium alloy critical machining included to reduce a minimum. This makes it possible to avoid the danger of oxidation or other chemical damage to the alloy, especially the neodymium alloy, during the manufacturing process largely excluded. So that is through the method described achieves that the manufactured Permanent magnets of as constant as possible manufacturing quality and keep their magnetic properties permanently, because long-term damage from the influence of damaging Materials largely during the manufacturing process excluded are.

To achieve an improved geometry of the permanent magnet it has proven to be advantageous to the invention To further develop procedures in such a way that subsequent to the Sheathing a final shaping treatment of the plastic layer he follows. This allows through the wrapping process not sufficiently achievable dimensional accuracy or geometries, for example undercuts become. This enables the geometry of the Permanent magnets in the area of the voice coil of the invention To optimize the speaker so that a possible uniform and strong magnetic field at the location of the voice coil given is. This is achieved in particular by the fact that the distance to the voice coil is as small and even as possible is trained. This makes it clear that one is possible flat surface in this area is particularly advantageous is. Through this subsequent shaping treatment the plastic layer partially and only to a very limited extent Scope removed, thereby preserving the protection of the core permanently is. The protective effect of the plastic matrix of the plastic layer for the particles contained therein from a highly magnetic alloy, especially of a neodymium alloy, is from this subsequent shaping treatment unaffected.

After a further advantageous development of the method the sintered core is used to manufacture a permanent magnet before coating with a plastic layer by a few, targeted shaping processing steps in the final Formed. Because the magnetic field of the finished permanent magnet essentially determined by the magnetic field of the core it comes with its outer shape Distribution and strength of the magnetic field are of particular importance to. Furthermore, the shaping of the sintered core created the opportunity to surface of the sintered core so that the plastic layer what sticks very evenly and firmly to the core the durability and uniformity of the manufactured Ensures permanent magnets.

Fig. 1

in einer geschnittenen Darstellung den Aufbau eines beispielhaften erfindungsgemäßen Lautsprechers und

Fig. 2

den Ablauf eines beispielhaften Herstellungsverfahrens eines Dauermagneten für einen erfindungsgemäßen Lautsprecher.

The invention is explained in more detail with reference to the drawings. Show it:

Fig. 1

in a sectional view the structure of an exemplary speaker according to the invention and

Fig. 2

the sequence of an exemplary manufacturing process of a permanent magnet for a loudspeaker according to the invention.

Fig. 1 shows a sectional representation of the radially symmetrical Structure of an exemplary invention Speaker. This speaker works on the dynamic Converter principle. It shows a permanent magnet 1, the one generated constant magnetic field in which a voice coil 2 a voice coil former 3 is arranged. The voice coil 2 is supplied with a tone-frequency alternating voltage signal, that corresponds to the audio signal to be displayed.

If the current flows through the voice coil 2, this generates a force perpendicular to the coil 2 and the magnetic field of the Permanent magnet 1 acts and the voice coil 2 with it attached voice coil bobbin 3 and arranged thereon Membrane 4 set in motion. According to the tone frequency AC voltage signal is the membrane back and forth moves, causing sound waves of appropriate frequency and Sound pressure are formed.

The membrane 4 is funnel-shaped and over a Bead 5 connected to the chassis 6 of the speaker. This Chassis 6 connects the membrane 4 with the permanent magnet 1 so that a relative movement of the voice coil 2 to the chassis 6 is made possible with the permanent magnet 1. The chassis 6 is with connected to the voice coil former 3 via a centering membrane 12. This ensures that the voice coil 2 at a defined, largely constant distance from the permanent magnet 1 is axially movable. A movement outside of the axial direction is thereby prevented.

The permanent magnet 1 is with the chassis 6 via the upper pole plate 7 and connected to the lower pole plate 8, which centrally in the middle of the circular recess of the annular Permanent magnet 1 opens into a pole core 9. The mutual Connection is made by gluing.

The permanent magnet 1 shows a core 10 made of a neodymium alloy, which the components neodymium (Nd), iron (Fe) and boron (B) contains approximately in the ratios 29/70/1. This core 10 of the permanent magnet 1 is complete with a plastic layer 11 encased. The plastic layer 11 shows one Layer thickness of about 1/10 mm. The plastic layer 11 is formed from an epoxy resin or from a thermoplastic, in whose plastic matrix contains a large number of particles Neodymium alloy corresponding to the neodymium alloy of the core 10 are introduced. The particles of the plastic layer 11 are evenly distributed in the plastic layer. they provide a significant proportion of the volume of the plastic layer 11. An advantageous proportion is 10 to 40%. The neodymium alloys of the core 10 and the plastic layer 11 generate a magnetic field applied to the spaced voice coil 2 acts. The distance between the magnetic field generating Shares of the permanent magnet 1 to the voice coil 2 is essentially due to the necessary air gap between the Voice coil 2 and the permanent magnet 1 given. Additional distance-expanding components are not provided. Thereby enables the magnetic field strength at the location of the Voice coil 2 is very high, because on the one hand a neodymium alloy is used to form the permanent magnet 1 and others the volume of the permanent magnet 1 almost completely is filled by the neodymium alloy and the distance of the Magnetic field-active parts of the permanent magnet to the voice coil 2 is minimized. This speaker according to the invention shows a very good converter constant, which results from the magnetic Flux density at the location of the voice coil 2 and the length of the Voice coil 2 in the magnetic field results. This converter constant is a measure of the performance of a loudspeaker.

By coating the core 10 by means of the plastic layer 11 is this core 10 with the very sensitive neodymium alloy from external influences, in particular through the Atmospheric oxygen or protected by humidity and the like. This is the good properties of the permanent magnet 1 and thus the speaker thus formed also under given permanently unfavorable climatic conditions.

Due to the coating with the plastic layer 11 is also a mechanically simple, permanent and exact connection of the permanent magnet 1 with the chassis 6 and the pole plates 7, 8 given that the connection is now mechanically simple too handling plastic material and not with the difficult to handle neodymium alloy material. So that is also given a uniform and homogeneous power transmission, what in terms of susceptibility to vibration Destruction of the speaker, especially in an automotive Use is of particular importance.

2 is the sequence of the manufacturing process of a permanent magnet shown for a speaker according to the invention. In a first step, the neodymium alloy is under Pressure and temperature to the core 10 of the permanent magnet 1 sintered. The core 10 already takes the intended one Shape of the core of the permanent magnet 1 for the invention Speaker on. A post-processing of the sintered Kerns 10 is regularly not required. The sintering process takes place under a protective gas atmosphere so that the neodymium alloy no damage from atmospheric oxygen or humidity or can take hydrogen or the like.

Thereafter, the sintered core 10 is injected into an injection mold introduced with the help of the core 10 with a plastic layer 11 is to be encapsulated. This is done by Injection molding with a plastic that has hydrophobic properties and which has particles which have the same neodymium alloy included, from which the core 10 is formed. By overmolding the core 10 is a complete coating achieved by the core 10 from external damaging Influences is protected. The injection mold is like this designed to match the final shape of the permanent magnet 1 corresponds to the loudspeaker according to the invention. Thereby is regularly ensured that a subsequent shaping Machining of the permanent magnet 1 with the Plastic layer 11 coated core 10 can be avoided can. Should not the dimensional accuracy of the overmolded core 10 this will be the case in a subsequent verification step recognized and the dimensional accuracy by appropriate shaping processing, for example by cutting, Drilling, grinding and polishing. This shaping Processing only covers the plastic layer 11, the core 10 remains unaffected by the shaping process.

These manufacturing steps create a permanent magnet which thanks to its highly magnetic, precise tolerance and corrosion-protected properties is particularly suitable, to be used in a loudspeaker according to the invention.

Reference list

1

Permanent magnet

2nd

Voice coil

3rd

Voice coil former

4th

membrane

5

Surround

6

chassis

7

upper pole plate

8th

lower pole plate

9

Polkern

10th

core

11

Plastic layer

12th

Centering membrane

Claims (9)

Loudspeakers based on the dynamic converter principle with a voice coil (2) to which an electrical audio signal can be applied and with a permanent magnet (1),
characterized in that the permanent magnet (1) has a core (10) made of a highly magnetic alloy with an element from the group of rare earths, which is coated with a plastic layer (11), the plastic layer (11) particles of an alloy with a Contains element from the group of rare earths. Loudspeaker according to claim 1, characterized in that the
Alloy is a neodymium alloy. Loudspeaker according to one of the preceding claims,
characterized in that the alloy of the core (10) corresponds to the alloy of the plastic layer (11). Loudspeaker according to one of the preceding claims,
characterized in that the particles in the plastic layer (11) are largely evenly distributed. Loudspeaker according to one of the preceding claims,
characterized in that the plastic layer (11) has a material thickness of a few tenths of a millimeter. Loudspeaker according to claim 2,
characterized in that the neodymium alloy is formed from neodymium (Nd), iron (FE) and boron (B). Loudspeaker according to one of the preceding claims,
characterized in that the plastic layer (11) has a hydrophobic plastic, in particular epoxy resin. A method of manufacturing a permanent magnet for a loudspeaker according to claim 1,
characterized in that a core (10) made of a highly magnetic alloy with an element from the rare earth group is produced by means of a sintering process and the core (10) is then coated with a plastic layer (11) which contains particles of a highly magnetic alloy with a Contains element from the group of rare earths. A method of manufacturing a permanent magnet for a loudspeaker according to claim 7,
characterized in that the plastic layer (11) of the coated core (10) is given a shaping treatment.

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