SPEAKER DEVICE
The present invention refers to speaker device relates to, voice coil more specifically the pneumatic drive of the substrate is prevented and force, for improving the capacity lea-on-chip type lead relates to speaker device. Dynamic speaker is secured to the frame the magnet a diaphragm having attached to the vibration transfer induced in the plane of vibration is by spirally generate oscillation sound. State of the SP heads and, voice coil is generally the sectional area is order not to. can be performed with ease their resistance is very high. The long time use of computer with speaker. heated at or above the 100 °C of the rotary body. A heat dissipating internal in particular without have enough space, less cross-sectional area is widened and the production micro speaker for mobile communication terminal, the projection display apparatus using light mixing TV is problem more ten problems these speaker. Voice coil speaker device temperature rise, and enhance the inside spirally permanently magnet for providing is slows down the, SPL (Sound Pressure Level) to the output signal of the binary a speaker depending on the use to which the is-inversion levels. Voice as well as components in proximity to the coil so. to drop adhesion [...] attained. E.g. of typically surround a is formed on the polymer particles to the TPU in proximity to the coil so voice in use long proximity baking are insulated from the [...] is a logic high level signal provided from reported. This engaged of speaker by changing the sound with distortion is cause of problem. In addition voice coil situated in together by adhesive deposited adhesion, when being exposed adhesive is-low temperature to high temperature long transferred voice coil is separated or eccentricity is occurred in the diaphragm that the function has been halted, speaker can generate a passing the. This problem plurality of voice coil voice the individual parallel-coupled with the commercial voltage decreases the current cabinet includes twelve coils can be is solved by. Current TV device wireless accompanying parts including a long and a short axis rectangular formed, in a major axis direction placement of two voice coil a vertical duplicator which are arrayed in ten problems in method. The frame pictures as the units voice spectrum of the current spreading out heat generated in the coils of the although there are a multiplicity of the lower surface of the, individual voice coil number of voice coil drive coins magnet, yoke, plate is of components of an voice coil required increases and a and reduce the manufacturing cost, in process for manufacturing a decimator is provided to convert P-type semiconductor layer of another, during use. converted into a rate section from power. Thus without increasing the number of voice coil and efficient through sink structure and the heat shield device speaker ten problems of which can eliminate all of the problem in water has been demanded structure. The present invention refers to said for the problems of, the present invention according to speaker device of magnets to a portion of a voice coil heat generated by a the magnet at by a train consists of a single layer of, voice coil in by heat generated magnet is SPL if speaker device of single in particular is prevented and is widened and the production and magnet speaker in device, intended for solving a ten problems. According to an embodiment of the present invention of a frame device speaker voice coil through the opening efficiently heat generated by a thermal released to the outside at the speaker by the availability of an ink, speaker voice coil and by reducing the internal temperature of device in by heat generated internal components or binding properties of of preventing deterioration state another object in that. Other embodiment a device a loudspeaker aspect of the present invention, inactive surface, extending from the heat achieved by directly placing them and a top portion of the yoke the voice coil by conduction of heat generated in release the active agent for a, each with a different, intended. A device speaker according to an embodiment of the present invention, speaker device configured appearance of at least a frame; said frame open to cover the upper surfaces of the a diaphragm the frame and the clamping frame; bind to and bottom of said diaphragm, external audio signal is widened and the production is applied; and to supply said self voice coil coupled to a magnet said frame bottom; comprising speaker in device, said magnet, at least a part of the surface said voice coil heat generated from the monolayer train for blocking characterized in that further including. In speaker device according to an embodiment of the present invention, said frame, at least a portion of a bottom surface of opening of, said speaker device a, at least the surface via said frame said opening is formed and, said said and the damper are disposed adjacent said through the surface the covering said voice coil heat generated from the exhaust stream, such as internal optimizing Image signal distribution; characterized in that further including. In speaker device according to an embodiment of the present invention, said train monolayer, 1 W/m thermal conductivity, is made of a material which is K hereinafter is characterised in that it has a. In speaker device according to an embodiment of the present invention, said train monolayer, polymer material to as main material characterized in that characterized by. In speaker device according to an embodiment of the present invention, said train monolayer, micro 10 m to 50 m can be formed at a thickness of micro characterized in that. In speaker device according to an embodiment of the present invention, said train monolayer, global and the upper surface of magnet said at least a portion of side continuously formed characterized in that. In speaker device according to an embodiment of the present invention, said train monolayer, the entire surface of said magnet feature of the invention is that the in that. In speaker device according to an embodiment of the present invention, said speaker device a, said magnet on top of plate; further includes, said train monolayer, said total of the upper surface of the plate, entire of the sides of said plate, and said at least a portion of the sides of magnet continuously formed characterized in that. In speaker device according to an embodiment of the present invention, said magnet, said voice coil located within the interior region of the arranged to, said speaker device a, said voice coil arranged so as to substantially encasing the inner core, and a yoke formed of a metal further includes, draws said, upper surface of said yoke is arranged to contact an or side is characterised in that it has a. In speaker according to an embodiment of the present invention device, draws said, diaphragm and said substantially at is formed, said voice coil through through holes, on which a characterized in that further including. In speaker device according to an embodiment of the present invention, said draws, further including a plurality of surface heat rejection hall characterized in that. In speaker device according to an embodiment of the present invention, said draws, 50-10 thermal conductivity, 000 W/m, K with a material having a with a black color for an excellent in that. In speaker device according to an embodiment of the present invention, said draws, cu, Ag, Al, graphene platelets either main material with a black color for an excellent in that. A device speaker according to an embodiment of the present invention, speaker device configured appearance of at least a frame; said frame open to cover the upper surfaces of the a diaphragm the frame and the clamping frame; bind to and bottom of said diaphragm, external audio signal is widened and the production is applied; and to supply said self voice coil coupled to a magnet said frame bottom; comprising speaker in device, said opening of at least a portion of the base of the frame, at least the surface via said opening is formed and, said said and the damper are disposed adjacent said through the surface the covering said voice coil heat generated from the exhaust stream, such as internal optimizing Image signal distribution; characterized in that further including. In speaker device according to an embodiment of the present invention, said frame, at least a portion of a bottom surface of opening of, said speaker device a, at least the surface via said opening is formed and, said said and the damper are disposed adjacent said through the surface the covering said voice coil heat generated from the exhaust stream, such as internal optimizing Image signal distribution; characterized in that further including. In speaker device according to an embodiment of the present invention, said magnet, said voice coil located within the interior region of the arranged to, said speaker device a, said voice coil arranged so as to substantially encasing the inner core, and a yoke formed of a metal further includes, draws said, upper surface of said yoke is arranged to contact an or side is characterised in that it has a. In speaker device according to an embodiment of the present invention, said draws, said voice coil through through holes, on which a characterized in that further including. In speaker device according to an embodiment of the present invention, said draws, further including a plurality of surface heat rejection hall characterized in that. In speaker device according to an embodiment of the present invention, said draws, 50-10 thermal conductivity, 000 W/m, K with a material having a with a black color for an excellent in that. In speaker device according to an embodiment of the present invention, said draws, cu, Ag, Al, graphene platelets either main material with a black color for an excellent in that. The present invention refers to said for the problems of, the present invention according to speaker device of magnets to a portion of a voice coil heat generated by a the magnet at by a train consists of a single layer of, voice coil in by heat generated magnet is SPL of if speaker device provides contact holes exposing the source and drain. According to an embodiment of the present invention of a frame device speaker voice coil through the opening efficiently heat generated by a thermal released to the outside at the speaker by the availability of an ink, speaker voice coil and by reducing the internal temperature of device in by heat generated internal components is prevented from deterioration of the light state or binding properties of.. Other embodiment a device a loudspeaker aspect of the present invention, inactive surface, extending from the heat achieved by directly placing them and a top portion of the yoke the voice coil by conduction of heat generated in release the active agent for a.. Also Figure 1 shows a perspective view of the upper surface of device speaker according to an embodiment of the present invention. Also Figure 2 shows a perspective view of the base of the speaker device according to an embodiment of the present invention. Decomposition of speaker device also Figure 3 shows a perspective view according to an embodiment of the present invention. The stoppers also Figure 4 shows a speaker device according to an embodiment of the present invention. Also the stoppers 5 to Figure 8 shows a plate magnet and also according to an embodiment of the present invention. Also Figure 10 shows a to 9 also upper surface sensed portions provided onto heat according to an embodiment of the present invention. In reference to drawing hereinafter described a speaker device according to an embodiment of the present invention. Also according to an embodiment of the present invention Figure 1 shows a device (100) speaker and perspective view in upper surface of, and perspective view in Figure 2 rear view, and decomposition Figure 3, Figure 4 is cross section. The present invention according to speaker device (100) the frame (160), diaphragm (110), is widened and the production (120) the arrangement of magnet and the magnet (130) consists of including. Frame (160) the speaker device (100) at least configured appearance of a has a form. Refers to the gas chamber in the diaphragm (110) the, frame (160) is widened and the production inside the (120), magnet (130) is making m a component of such as speaker device. Frame (160) of 2 as shown in also the bottom part is allowed to open may be configured, according to a signal applied to a embodiment open lower may be configured not to. However, heat generated in a voice coil to be released by the upper cover and the lower yoke (132) configured to expose a the bottom of it is preferable that the. Frame (160) also the shape of the 1 and 2 as shown in rectangular having long and a short axis can be constructed. The frame pictures as the units commonly used in speaker for component TV a standard to, display's bezel parts easy to speaker fixing unit is off. Frame (160) the shape of the not limited to square or circular transverse cross-section, e.g. which can be constructed to. Frame (160) do not limited to, extracts of Barks of the material of polymer material, metal material, ceramic material includes one speaker frame known, use can be made of, material. Diaphragm (110) a frame (160) open to cover the upper surfaces of the and the frame and the clamping frame, water-free through vibrations according to audio signal to generate sound pressure performs which serves to fasten the. Diaphragm (110) a vibration layer engaged oscillating membranes to resilient material for providing around the and surrounding baking is formed as a unitary flat member at one, frame (160) with edge relation to can be constructed. Diaphragm (110) oscillating membranes a plating member, a deposition member do not limited to, extracts of Barks of, polymer film, pulp film, metal thin film, flexible printed circuit board (FPCB) of the existing method such as material diaphragm of speaker device can be used. Diaphragm (110) in order to lightened including oscillating membranes material fiber or carbon fiber, use can be made of, material. Diaphragm (110) also the shape of the 3 as shown in may be forming a planar, dome protruded in the upper portion and a lateral portion (DOME) or in a downward direction the cone concave is formed on the side (CONE) .may be. Diaphragm (110) forming a planar substantially rigid portion even greater reinforcement and ridges or grooves may form a. Diaphragm (110) an elastic, liquid-baking the stator is formed of a material, of the commonly used TPU (Thermal Poly-Urethane) using or similar polymer material, rubber material includes one, use can be made of,. Is widened and the production (120) the diaphragm (110) bind to and bottom of, external audio signal is applied. Is widened and the production (120) as shown in the also 3 and wound individually at a bobbin, the bobbin may be in the form of (self bonding) bonding self and wound individually is without an intervening winding manner. may be. Is widened and the production (120) as shown in the 3 also may formed from either of, plurality of is widened and the production (120) are configured to distance to each other may be loaded with. Single is widened and the production (120) using according to embodiment, external audio signal is widened and the production according to one input current (120) since the heat is focused on the problems wherein the recessed part, while, speaker device (100) in this case form of manufacturing cost and. for assembly. Plurality of is widened and the production (120) using according to embodiment, speaker device (100) is not required of manufacturing cost and tab rises while and decorative use and the like employ a lower power level, according to external audio signal is widened and the plurality of input current (120) in a constant to heat since the. reduced. Magnet (130) is widened and the production (120) to supply self frame (160) and is coupled with bottom. On the other hand, magnet (130) a temperature thus loses magnetic force the user to select and purchase a desired Curie temperature and lead to. are randomly added to a Ba list magnetic surface. Recently magnet as speaker in particular neodymium load high magnetic but in uses environment a high temperature low whose Curie temperature is a reduction in magnetic force compared to ferrite magnets generally is constructed. Figure 8 shows a to 5 also is in a cross-sectional drawing magnet also the present invention according to. The magnet to solve this problem (130) is widened and the production the at least over part of its surface (120) for blocking heat generated from the heat blocking layer (133-1, 133-2,133-3,133-4) further configured to contain at least a. Heat blocking layer (133-1, 133-2,133-3,133-4) low thermal conductivity preferably material. 2.9 W/m the ferrite magnets, K, 16.5 W/m the neodymium magnet, a thermal conductivity of K are known as HMG-COa reductase. Heat blocking layer (133) the magnet (130) 1 W/m e.g. lower than the thermal conductivity of degrees, is made of a material which is K hereinafter it is preferable that the, e.g. polymer material can be as main material. Heat blocking layer (133) magnet though the thickness of said layer increases (130) the baking temperature being transport to a further blocking can be degraded and, magnet (130) intensity of magnetic field in trade off relation reducing suitable are converted into heat and it is preferable that the selecting the thickness, the intensity distribution of micro 10 m to 50 micro m when heat blocking layer sheet has a thickness of (133) and reducing a magnetic field by appropriate effect of heat shield, it has been determined that equilibrium. On the other hand, heat blocking layer (133) the also 5, 6 also such as magnet as shown in (130) is configured locally at the surface of may be, also 7, 8 also such as magnet as shown in (130) is formed on the surface of may be. Also 5 and of Figure 6 embodiment relate heat blocking layer (133) the magnet (130) side global and the upper surface of of, or all of, continuously formed to a part of the sides of each thereby, the cold air flows embodiment. shown. According to such embodiment, is widened and the production (120) from metal component of plates (131) are copied to a conduction of heat through the magnet (130) onto the upper surface of and is vibrated on the first and second, is widened and the production (120) the magnet heat radiation in (130) in the side of the with sounding an alarm to the support the lower part of the provides. Magnet relate of Figure 7 embodiment (130) the entire surface of a heat monolayer (133) for forming thereby, the cold air flows embodiment. shown. Magnet (130) is widened and the production a the bottom (120) in a heat breaking since spaced apart from the effect of the no greater. However magnet (130) the entire surface of heat blocking layer (133) for forming magnet relate embodiment (130) surface exclusively on the portion heat blocking layer (133) embodiment for forming than the examples of the heat blocking layer (133) the magnet (130) fixedly attached to.. In addition additionally yoke (132) is conducted through the heat.. Heat blocking layer relate of Figure 8 embodiment (133) disclosed is a plate (131) a contained within the container of the embodiment. shown thereby, the cold air flows. The heat blocking layer (133) a plate (131) of the upper surface of the entire, plate (131) entire of the sides of, the arrangement of magnet and the magnet (133) surface of a buried contact hole is formed in formed in can be. According to such embodiment is widened and the production (120) the plate (131) of intercepting heat transferred which are copied out onto the upper surface including a ZnO. While, speaker device (100) according to an embodiment of the present invention the internal heat and bottom of the to facilitate optimizing Image signal distribution (140) it is preferred that a further including. To this end frame (160) at least a portion of a bottom surface of the opening (161) further includes a.. Device (100) speaker in addition the frame (160) opening (161) at least the surface via a is formed is, is widened and the production (120) is positioned near a and the covering is widened and the production through the surface (120) heat generated from the exhaust stream, such as internal optimizing Image signal distribution (140) further comprises an a. Embodiment 4 also shown in magnet relate (130) is widened and the production is (120) located within the interior region of the embedded speaker device (100). it is shown a. This case is widened and the production a device speaker (120) which are incident upon the magnetic field on a portion is widened and the production to maintain the (120) arranged so as to suppress turn-a yoke formed of a metal (132) including a is it is generally designated on a. The optimizing Image signal distribution (140) the yoke (132) is arranged to contact an upper surface of or side it is preferable that the. Is widened and the production (120) inside bobbin is formed, such that the bobbin is constant portion of a is widened and the production (120) heat generated by a is widened and the production problematic, since firewalls block (120) for arranging optical elements related opposing yoke (132) is widened and the production is light beams or heat radiated from the (120) in which on the inside of the opposing plate (131) the arrangement of magnet and the magnet (130) compared to light beams or heat radiated from the to a base station after converting a yoke (132) is forming temperature of. Yoke (132) also to release the heat of the 2 as shown in yoke (132) bottom frame (160) it is normal practice to exposed outside the hole is. According to an embodiment of the present invention optimizing Image signal distribution state of the SP heads and (140) is yoke (132) placed on the in a wide optimizing Image signal distribution (140) surface area of release of heat via the speaker and has a concave portion for the treatment of the solid type device (100) because of temperature internal provides a. Optimizing Image signal distribution (140) also the shape of the 9 as shown in single metal plate can be and, also 10 divided as shown in a combination of metal plate of. may be, junctions. Optimizing Image signal distribution (140) the, diaphragm (110) substantially at may be formed, is widened and the production (120) is configured to penetrate through-holes (142) further may include. In addition optimizing Image signal distribution (140) also the surface of 9 and 10 as shown in plurality of heat rejection hall (141) further may include. Draws, 50-10 thermal conductivity to thermal conductivity and high, 000 W/m, K and is made with a material having the hydrogen preferably is formed, e.g. cu, Ag, Al, either graphene platelets may be formed as main material. 100: speaker device 110: diaphragm 120:130 is widened and the production: magnet 140:150 optimizing Image signal distribution: terminal 160: frame The present invention relates to a speaker device which prevents a magnet from deteriorating by heat generated from a voice coil, comprising: a frame which constitutes an outer shape of the speaker device, and include the top opened; a vibration plate which is coupled to the frame to cover the opened top of the frame; a voice coil which is coupled to the bottom of the vibration plate and to which an external audio signal is applied; and a magnet which is coupled to the bottom of the frame to supply magnetic field to the voice coil, wherein the magnet further includes a heat block layer which blocks heat generated from the voice coil at least at a part of a surface thereof. COPYRIGHT KIPO 2016 Speaker device configured appearance of at least a frame; said frame open to cover the upper surfaces of the a diaphragm the frame and the clamping frame; bind to and bottom of said diaphragm, external audio signal is widened and the production is applied; and to supply said self voice coil coupled to a magnet said frame bottom; comprising speaker in device, said magnet, said at least a part of the surface heat generated from the voice coil for blocking further includes a heat blocking layer, said frame, at least a portion of a bottom surface of opening of, said speaker device a, at least the surface via said frame said opening is formed and, said said and the damper are disposed adjacent said through the surface the covering said voice coil heat generated from the exhaust stream, such as internal optimizing Image signal distribution; characterized by further including to speaker device. Deleted According to Claim 1, said train monolayer, 1 W/m thermal conductivity, K hereinafter coated with a material characterized by speaker device. According to Claim 3, said train monolayer, polymer material to as main material to characterized by characterized by speaker device. According to Claim 3, said train monolayer, micro 10 m to 50 m can be formed at a thickness of to micro characterized by speaker device. According to Claim 1, said train monolayer, side global and the upper surface of magnet said at least a portion of speaker characterized by continuously formed to device. According to Claim 1, said train monolayer, the entire surface of said magnet characterized by of the invention is that the speaker device. According to Claim 1, said speaker device a, said magnet on top of plate; further includes, said train monolayer, said total of the upper surface of the plate, entire of the sides of said plate, and said at least a portion of the sides of magnet continuously formed to characterized by speaker device. According to Claim 1, said magnet, said voice coil located within the interior region of the arranged to, said speaker device a, said voice coil arranged so as to substantially encasing the inner core, and a yoke formed of a metal further includes, draws said, upper surface of said yoke such that it contacts or side speaker device characterized by arranged. According to Claim 9, draws said, diaphragm and said substantially at is formed, said voice coil through to characterized by including further through holes, on which a speaker device. According to Claim 1, draws said, further including a plurality of surface to heat rejection hall characterized by speaker device. According to Claim 1, draws said, 50-10 thermal conductivity, 000 W/m, coated with a with a material having a K characterized by speaker device. According to Claim 12, draws said, cu, Ag, Al, either graphene platelets coated with a main material characterized by speaker device. Speaker device configured appearance of at least a frame; said frame open to cover the upper surfaces of the a diaphragm the frame and the clamping frame; bind to and bottom of said diaphragm, external audio signal is widened and the production is applied; and to supply said self voice coil coupled to a magnet said frame bottom; comprising speaker in device, said opening of at least a portion of the base of the frame, at least the surface via said opening is formed and, said said and the damper are disposed adjacent said through the surface the covering said voice coil heat generated from the exhaust stream, such as internal optimizing Image signal distribution; characterized by further including to speaker device. According to Claim 14, said magnet, said voice coil located within the interior region of the arranged to, said speaker device a, said voice coil arranged so as to substantially encasing the inner core, and a yoke formed of a metal further includes, draws said, upper surface of said yoke such that it contacts or side speaker device characterized by arranged. According to Claim 14, draws said, said voice coil through to characterized by including further through holes, on which a speaker device. According to Claim 14, draws said, further including a plurality of surface to heat rejection hall characterized by speaker device. According to Claim 14, draws said, 50-10 thermal conductivity, 000 W/m, coated with a with a material having a K characterized by speaker device. According to Claim 18, draws said, cu, Ag, Al, either graphene platelets coated with a main material characterized by speaker device.
