WO2022235177A2 - Quick-detachable module for increasing magnetic flux density in a magnetic gap of an electrodynamic loudspeaker - Google Patents

Abstract

The invention relates to electroacoustics, and more particularly to electrodynamic loudspeakers. The technical result of the claimed solution is multi-functionality, resulting from the possibility of changing the flux density in a magnetic gap of an electrodynamic loudspeaker by altering the cross-section of a lower magnetic concentrator (magnetic conductor), easier manufacture of the magnetic conductor and the speaker as a whole (using simpler machinery and equipment to produce same), and improved heat dissipation characteristics. This technical result is achieved in that an electrodynamic loudspeaker comprises at least one permanent magnet, at least one upper magnetic field concentrator, at least one lower magnetic field concentrator and a core for concentrating magnetic field in a magnetic gap, as well as at least one detachable element for enlarging the cross-section of a magnetic field concentrator, said element being mounted so as to abut at least one of the magnetic field concentrators.

Description

Quick-detachable module for increasing the magnetic induction in the magnetic gap of an electrodynamic loudspeaker

The invention relates to electroacoustics, namely to electrodynamic loudspeakers (speakers).

For loud sound reproduction, an electrodynamic loudspeaker must have high sensitivity, for which it is provided with a magnetic system with high induction in the magnetic gap, which includes a large magnet with high residual induction and magnetic concentrators (magnetic cores) made of a material with a high saturation limit and a large thickness. However, the large thickness of the magnetic cores increases their price and complicates the manufacturing technology, as it requires the use of more complex and expensive machines. At the same time, a large cross-section of the lower magnetic circuit is required at the junction of the magnetic circuit with the core, and at the outer edge, a large thickness will only increase the parasitic short circuits of the magnetic lines. In addition, high induction in the gap changes the electromechanical parameters, which makes the speaker unsuitable for working in some types of acoustic design and increases the unevenness of the amplitude-frequency response (AFC), which in turn worsens the comfortable listening to music.

Based on the above, the objective of the proposed invention is to provide the possibility of adjusting the induction in the gap by changing the thickness of the lower magnetic core, which will solve the problem of uneven frequency response and reduce the cost of the magnetic cores.

The closest analogue to the proposed invention is the solution RU 2718683 C2, which discloses an electrodynamic loudspeaker, including a permanent magnet and top and bottom magnetic field concentrators for concentrating the magnetic field in the magnetic gap.

The disadvantage of the known solution is that the lower magnetic circuit is installed without the possibility of its removal/supplementation with a corresponding element that increases the cross section of the magnetic circuit (magnetic field concentrator), and hence the magnetic induction in the gap.

The technical result of the claimed solution is to provide the ability to change the induction (multifunctionality) in the magnetic gap of an electrodynamic loudspeaker (speaker) by changing the cross section of the lower magnetic circuit, simplifying the manufacturing technology of the magnetic circuit and the speaker as a whole (using simpler machines and equipment for their production), improving the dispersion characteristics heat.

This technical result is achieved in that an electrodynamic loudspeaker, characterized in that it includes at least one permanent magnet, at least one upper magnetic field concentrator, at least one lower magnetic field concentrator and a core for magnetic field concentration in the magnetic gap, and also at least one removable element that increases the cross section of the magnetic field concentrator (magnetic core), installed adjacent to at least one of the magnetic field concentrators.

An electrodynamic loudspeaker in which the lower magnetic hub and the core form one monolithic part.

An electrodynamic loudspeaker in which a removable element that increases the cross section of the magnetic concentrator is installed by means of a threaded connection. An electrodynamic loudspeaker in which a removable element is fixed on a magnetic hub due to the magnetic field of a permanent magnet.

An electrodynamic loudspeaker in which the lower magnetic hub and the core are fastened with a fixing element with a protruding head, while the removable element is centered relative to the protruding head and fixed on the lower magnetic hub due to the magnetic field of a permanent magnet.

This result is explained taking into account the figures of the drawings, where on

Fig.1 - Magnetic system of an electrodynamic loudspeaker with an axial hole. This figure does not have a removable element that increases the cross section of the magnetic circuit. The core is part of the lower magnetic circuit.

Fig.2 - Magnetic system of an electrodynamic loudspeaker with an axial hole and a removable element installed to increase the cross section of the magnetic circuit. The core is part of the lower magnetic circuit.

Fig.Z - Magnetic system of an electrodynamic loudspeaker without an axial hole. The core is part of the lower magnetic circuit.

Fig.4 - Magnetic system of an electrodynamic loudspeaker without an axial hole and with a removable element installed to increase the cross section of the magnetic circuit. The core is part of the lower magnetic circuit.

Fig.5 - Magnetic system of an electrodynamic loudspeaker without an axial hole with a protrusion for centering a removable element. The core is part of the lower magnetic circuit.

Fig.6 - Magnetic system of an electrodynamic loudspeaker without an axial hole with a protrusion for centering a removable element and a removable element installed, centered relative to protrusion on the magnetic hub and fixed on the lower magnetic hub due to the influence of the magnetic field of a permanent magnet. The core is part of the lower magnetic circuit.

Fig.7 - Magnetic system of an electrodynamic loudspeaker without an axial hole in which the lower magnetic hub and the core (central magnetic hub) are connected by fastening them with a fixing element with a protruding head.

Fig.8 - Magnetic system of an electrodynamic loudspeaker without an axial hole in which the lower magnetic concentrator and the core (central magnetic concentrator) are connected by fastening them with a fixing element with a protruding head, and the removable element is centered relative to the protruding head and fixed on the lower magnetic concentrator due to the action of a magnetic permanent magnet fields. where pos.1 is the upper magnetic field concentrator, 2 is a permanent magnet, 3 is the lower magnetic field concentrator (in some cases including a core), 4 is a removable element that increases the cross section of the magnetic circuit, 5 is a core (central magnetic concentrator).

An electrodynamic loudspeaker made with or without an axial hole (depending on its place of use and other technical and design requirements) includes a permanent magnet 2 located between at least one upper 1 and at least one lower 3 magnetic field concentrators serving as for the concentration of the magnetic field in the magnetic gap. In this case, the lower magnetic circuit can both include core 5 (central magnetic circuit) and be made with the core in separate parts. The upper 1 and lower 3 magnetic field concentrators can be more than one, for example, 2 each. The electrodynamic loudspeaker additionally includes at least one removable element 4, which increases the cross section of the magnetic concentrator, which is installed adjacent to at least one magnetic field concentrator 1.3 by means of a threaded or other connection or by fixing it with a magnetic field, with the possibility of removing it to implement it. replacement or addition of an additional removable element 4. There can be several removable elements 4 that increase the cross section of the magnetic circuit, while they are fixed to each other by fixing elements of greater length in the corresponding holes or by the magnetic field of a permanent magnet. As fixing elements, as a rule, screws or bolts are made.

At the same time, the threaded connection is made either in the form of one threaded hole located in the center of the lower magnetic field concentrator 3 and a hole coaxial with it in the removable element 4, which increases the cross section of the magnetic concentrator, or in the form of at least two threaded holes and coaxial with them holes in the removable element 4.

The lower magnetic hub 3 can be made with a protrusion that serves to center the removable element 4, which is fixed, as a rule, on the lower hub 3.

The lower magnetic hub 3 and the core 5 can be made as separate parts and fastened together with a fixing element. Preferably, the magnetic concentrator 3 and the core 5 are fixed to each other by a locking element with a protruding head. This option also ensures that the removable element 4 is easily centered relative to the protruding head and fixed on the magnetic hub due to the action of the magnetic field. The change in the cross section of the magnetic circuit is achieved by installing one or more additional removable elements 4 made of magnetically conductive material on the upper 1 and / or lower magnetic hub 3. In this case, the cross section of the lower magnetic hub 3 must provide the lower limit of induction, and after installing the removable element 4, which increases the cross section, it must the upper value of the induction is reached, due to the magnetic conductivity of the materials of the magnetic system. This provides an influence on the electromechanical parameters of the speaker, which allows it to be more versatile. At the same time, without the additional removable element 4, the speaker can reproduce music/sounds more smoothly and comfortably, and with the additional removable element 4 installed, reproduce the sound louder. At the same time, the possibility of removing/replacing/supplementing the specified element 4 provides the ability to work in different types of acoustic design at the user's choice. Also, the addition of the proposed device with one or more removable elements will reduce the cost of the proposed device, since the addition of the required thickness is provided by inexpensive removable elements, since these elements are made with a significantly smaller diameter than the magnetic concentrator and are easy to manufacture. Another positive side of this invention is the improvement in the heat dissipation characteristics that the speaker emits during its operation, since the addition of a removable element to the device provides a large heat dissipation area and a large heat capacity of the magnetic system. All this makes the electrodynamic loudspeaker more versatile and technologically advanced.

Example:

A magnetic system is used with a magnet 2 made of strontium ferrite with a size of 140x50x20. Upper magnetic circuit 1 with a diameter of 130 mm and 6 mm thick, forms a magnetic gap with a diameter of 45 mm. The lower magnetic core 3 is 130 mm in diameter and 7.5 mm thick. This combination gives an induction in the gap of 14200 Gauss. After installing a removable element 4, which increases the cross-sectional area of the lower magnetic core 70x4 mm in size, the induction in the gap increases to 15,000 Gauss.

Claims

Claim

1. Electrodynamic loudspeaker, characterized in that it includes at least one permanent magnet, at least one upper magnetic field concentrator, at least one lower magnetic field concentrator and a core for magnetic field concentration in the magnetic gap, as well as at least one a removable element that increases the cross section of the magnetic field concentrator, installed adjacent to at least one of the magnetic field concentrators, while the removable element is fixed on the magnetic concentrator due to the magnetic field of the permanent magnet.

2. An electrodynamic loudspeaker according to claim 1, characterized in that the lower magnetic concentrator and the core form one monolithic part.

3. The electrodynamic loudspeaker according to claim 1, characterized in that the removable element, which increases the cross section of the magnetic concentrator, is installed by means of a threaded connection.

4. An electrodynamic loudspeaker according to claim 1, characterized in that the lower magnetic hub and the core are fastened with a fixing element with a protruding head, while the removable element is centered relative to the protruding head and fixed on the lower magnetic hub due to the magnetic field of the permanent magnet.