TR201722730A2 - MOVING STICK SOUND CORRECT SPEAKER - Google Patents

Abstract

Membrane (14) and a membrane (14) associated with a magnet portion (11), a coil (15), and coil (15) consisting of a lower plate (112) and an upper plate (114) and a magnet (111). A loudspeaker (10) formed by a loudspeaker frame (13) associated with the device, characterized in that a cylindrical connecting part (21) adapted to the lower core sheet forming reflection, diffraction, and interferences (a) in the sound waves exiting the center of the loudspeaker (10), said cylindrical connection. a spherical bearing (22) and a spherical bearing (22) located in the continuation of said portion (21) and a spherical member (23) provided in a 45 ° movable manner in each direction and said spherical bearing (22) to be directed and propagated over the waves that are broken by the spherical bearing (22). said movable rod (20) comprising a cylindrical guiding portion (24) downstream of said spherical part (23).

Description

TECHNICAL FIELD The invention relates to the construction of a wideband loudspeaker with a sound corrector floating bar.

The invention is particularly important in the near sound field of the loudspeaker, rather than center field collision. Reflection is obtained from the cylindrical rod that creates elastic collision and its intensity is low. Moving motion that directs sound at various angles to ensure that the sound is not absorbed. It relates to a bar audio and phase corrector speaker.

PRIOR ART Speakers are basically a chassis, a magnet system and a movable membrane. are made up of the system. Magnet systems are strong magnets and magnets. It consists of an associated sheet metal block and in various sizes suitable for the chassis. are being configured. The moving membrane system is generally connected to the coil. consists of a lower suspension, a membrane, and an upper suspension attached to the membrane. is formed. Coil (voice coil) is a string of wires usually made of enameled copper. It is an empty cylindrical pulley on which it is wound. Movement in magnetic field without contact has freedom. Paper, kapton (heat resistant polyamide from Dupont company) film) or made of aluminum. The lower suspension, the so-called spider Circular cloth structure with upward movement, impregnated with hardening chemicals. is being pasted. Membrane; hard soft, thick or thin, depending on the desired sound, It can be made of cardboard or plastic and styrofoam material. dust cover; coil It is also a very effective component, while preventing a particle from getting into its range. structure, form and sound changes.

The minor differences made in all these speaker components mentioned are significant in sound. causes changes. The speaker transmits the incoming audio signal to the sound wave. converts, but depending on the speaker system, the sound gains timbre. wealth or establishment. Sometimes an adhesive is soft or hard. sound detection, even the type of material used in the upper suspension. changes their values.

A good speaker system is expected to meet some expectations. Your voice is speaker It is desired to come from the spatial direction, not the direction. Sound frequency characteristic It must be linear for the ear. We can explain linearity for the ear as follows; the ear does not hear linearly, its perception is lower at low amplitude bass and treble frequencies.

At high amplitude levels, bass and treble frequencies sound like midrange sounds. begins to be perceived at the level. For this reason, the power amplifier "Ioudness" circuit and button is added. While increasing the bass and treble frequencies at low volumes, the sound Configured to equalize levels when unlocked/upgraded.

One frequency should not obscure the sound of another frequency because of its intensity. high dynamics i.e. the coverage between the lowest volume and the loudest volume should be wide. her voice should not be given violently, but by attenuating at frequencies suitable for the ear (damping factor height). Sounds without mingling, distorting with the richness of tone that can be distinguished should be able to give. The area where the depth effect is highest is the sweet-spot area as far as possible. It should be large or not.

In stereo sounds, the important ones in the two-channel system are as follows. Depth information; Also called the width and forward depth of the scene. Direction information; your voice roughly indicates the direction of arrival, phase status is very active. Location information; your incoming voice knowledge of where it is globally. Here, the proximity and distance information of the source are also available. is included in the position information, it generates information via interference fringes.

In the new 3D recording and mixing systems, sound recordings are displayed on vertical, vertical and horizontal axis. It should be able to make 360-degree spherical detection with information. Your speakers are also compatible with them it has to be.

In addition to these, there are also phase problems. This is the least solvable problem. almost every Even if the technical values are very close in different speakers, they are not between them due to the phase problem. there are big differences. For example, the sounds you hear on a speaker, position You may not hear the information on another speaker. Again for this problem inefficiency and distortions and sound coverings occur in the speakers.

Phase problems are usually associated with multi-element passive filters or electronic active filters. is being resolved. These elements make up a significant portion of the power coming to the speaker. It cannot solve the direction problem as it spends on it. With stereo speakers While only shallow two-dimensional depth perception is available, 3D sound is now available. software systems are in use. 3D software with stereo output plus one size Together they cover the rest of the listening area, so the vertical axis is also involved. Phase or phase problem is the most important factor in size/position/depth perception.

In an ordinary speaker system, the extra software or recording system brings. size information is detected incorrectly. The reason is due to the standard shape construction of the speaker. originating problem. Most of the time, in theory, the sound should go behind the listener. But when listened to, but loud sounds, actual distance between speaker and listener close, it is possible. This is equidistant between the speakers and the listener. is the distance considered as a triangle. When you get a little farther, the sounds are only complicated. can provide approximate location information.

If we compare earphone listening and speaker listening, Sounds passing behind the ear cannot be heard in the speaker system.

In headphones, the situation is the opposite. Voices cannot get ahead. So the ideal system must be a combination of the two.

Today, sound recording or mixing processes have changed. determined in mixing processes. 3rd dimension is added with phase changes. Receivers, that is, since there are no suitable speakers Most of the time, these sounds cannot be heard with the speaker, even if they are detected with headphones. imperceptible.

Another situation is that listeners unwittingly turn to the listening systems they are used to. they use a mental equalizer. However, by comparison It can be decided which speaker is better. Or in which speaker system If you can listen to music for the longest time and intensity without fatigue, that speaker It can be decided that it is balanced and of good quality.

Another common audio work issue; standard recording systems on all recordings is not used. Each recording system uses recording methods from different angles. Who In the recording system, it is recorded from above or in what is called the ambiance microphone. Size/position information is enhanced with the addition of a directional microphone. acoustically Acoustic signals are included in the recording in some recording processes, normal listening while it cannot be noticed in systems, it is differentiated by adding something, size information popped microphone occurs in speaker systems. complex made in some This acoustic data is also lost with mixing operations. Angular also register differences mixes the position detection information on the standard speaker.

Generally; sound engineers concerned with eliminating the negativities of the sound harmonic Increases the amplitude of deep bass sounds in the mix to ensure fusion and they give depth with the moving sounds between the two channels or the artificial sounds produced.

Although they can provide a degree of fullness, tonal differences in bass sounds cause decreased perception and use of disturbing loud sounds. is happening.

In the sound, mostly due to phase shifts and reverse phase interaction; omissions, erroneous standing waves are formed, the ear misunderstands these erroneous decreases as direction information. is evaluating. Scientifically, it is an extremely complex system. The measurements are also very are made with complex systems, always scientific, especially in the near sound field There are situations where correct results cannot be obtained.

Although sounds are represented in waveform, both waveform and acoustic form co-hosts. Calculations are made according to these symbolic values.

However, the theory is incomplete when applied to the hearing system. If the solution; her voice is to think of them as vector joint vibrations of collisions of molecules. Like this Unlike the radial aspects, with sound field vibrations, molecular speed and We will need to model by considering the collisions.

When we examine it formally, the speaker membrane is generally conical. Conical structure, in a longitudinal area around the center, at one point, depending on the curvature of the cone counter-moving molecules collide and absorption occurs with phase change. This As a result of the process, many small but important phonetic information is reduced or changed, is absorbed and dispersed.

As a result, the above-mentioned problems that cannot be solved in the light of the current technique are relevant. made it necessary to make an innovation in the technical field.

BRIEF DESCRIPTION OF THE INVENTION The present invention is designed to eliminate the above mentioned disadvantages and phase problems encountered in loudspeakers to bring new advantages to the field. It relates to a volume and phase modifier loudspeaker to prevent

The main purpose of the invention is to spread the sound to a wider area and to produce a multidimensional, wide sound field. is to put forward a loudspeaker that allows

Another purpose of the invention is to enlarge and narrow the listening space and A loudspeaker is introduced that allows the separation distance between channels to be increased. is to put.

Another object of the invention is to obtain the highest true size location depth information. It is to present a loudspeaker configuration that can be

Another object of the invention is to address the inaudible, due to blind spots on the interference fringes. is to put forward a speaker that allows the sounds to be heard.

All the above-mentioned purposes that will emerge from the detailed description below. The present invention to 'realize', a magnet with a lower sheet and an upper sheet formed by a magnet segment, a coil and a membrane associated with the coil It is a loudspeaker formed by a speaker chassis associated with a membrane. This According to the characteristics of the speaker in question, sound waves emanating from the center of the speaker a cylindrical adapted in the lower hub sheet that creates reflection, diffraction and interference (a) connection part is a spherical joint located in the continuation of said cylindrical connection part. bearing and a spherical bearing provided with 45" light movement in all directions. over waves diffracted by the spherical part and the spherical bearing. in the continuation of the mentioned spherical part to ensure that it spreads by directing a movable rod consisting of a cylindrical guide part it contains.

Another preferred embodiment of the invention is that the movable bar is combined with the loudspeaker. If it is fabricated, the loudspeaker is configured on the bottom sheet. contains a screw channel.

Another preferred embodiment of the invention is flush with said screw channel. Next, it includes a screw hole configured in the cylindrical connection part.

Another preferred embodiment of the invention is that said movable bar is from the cylindrical connection to the lower metal core in case it will be adapted to the loudspeaker. It is connected with a strong adhesive.

Another preferred embodiment of the invention is that the length of said movable bar The fact that the membrane can be extended up to 5 times its length.

Another preferred embodiment of the invention is that said movable bar is cylindrical. configured at a diameter of 2 mm smaller than the coil diameter of the diameter of the connector is that.

Another preferred embodiment of the invention is that said movable bar is spherical. configured with a diameter of 1.8 times the diameter of the connecting portion of the bearing is that.

Another preferred embodiment of the invention is that said movable bar is spherical. at a diameter of 1.4 times the diameter of the cylindrical joint it is configured.

Another preferred embodiment of the invention is that said movable bar is cylindrical. the diameter of the guiding part is equal to the diameter of the cylindrical connection part it is configured.

Another preferred embodiment of the invention is that said movable bar is cylindrical. configured so that the end point of the guiding portion has straight cylindrical cross-sections is that.

Another preferred embodiment of the invention is that said spherical part has a spherical bearing. extending from the spherical bearing to the spherical part so as to fix its position in It contains two small directional fixing screws provided against each other.

The embodiment of the present invention and the best use of its advantages with additional elements To be understood, it should be evaluated together with the figures explained below. BRIEF DESCRIPTION OF THE FIGURES Figure 1 is the general view of the inventive sound correcting loudspeaker.

Figure 2 is an overview of the floating bar.

Figure 3a is an oriented view of the floating bar.

Figure 3b shows the movable bar oriented in another direction and angle. is view.

Figure 4a shows the reflections on the oriented moving rod. is the view.

Figure 4b is the one through the 'moving bar' oriented in another direction and angle. is the view of reflections.

REFERENCE NUMBERS Speaker 11 Magnet Section 111 Magnet 112 Bottom Sheet 113 Lower Plate Core 114 Top Sheet 115 Screw Channel 12 Attachment Screws 13 Speaker Chassis 14 Membrane 141 Upper Suspension 142 Lower Suspension Coil 151 Coil Winding 152 Collar Moving Rod 21 Cylindrical Connection Part 211 Screw Hole 22 Ball Bearing 23 Global Parts 24 Cylindrical Router Section Direction Fixing Screw a: Initiatives DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the innovation subject of the invention is only intended for a better understanding of the subject. It is explained with examples that will not have any limiting effect on the subject.

The loudspeaker (10), whose general view is given in Figure 1, has a standard wide audio frequency band. is a speaker. The loudspeaker (10) is basically a magnet section (11), a speaker chassis. (13) comprises a membrane (14) connected to said speaker chassis (13).

Said membrane (14) is combined with an upper suspension (141) and speaker chassis (13). While being associated, it is connected to a lower suspension (142) and a coil (15).

Said coil (15) comprises a coil winding (151). Magnet section (11); a it consists of a lower sheet (112) and an upper sheet (114) and a magnet (111).

In an alternative embodiment, there is a screw channel (115) in the lower sheet (112) mentioned. can be configured.

The loudspeaker (10) is coupled with a movable bar (20) as shown in Figure 2. are associated. Said moving rod (20) is a cylindrical connection part (21) a spherical bearing configured downstream of said cylindrical joint (21) (22) a spherical piece (23) placed on said spherical bearing (22) and said from a cylindrical guide part (24) configured in the continuation of the spherical part (23) is occurring. Direction for fixing the spherical part (23) in the ball bearing (22) fixing screws (25) are used. Spherical part (23), spherical bearing (22) its placement in it is such that it can move 45q in all directions and It is also possible to fix it at the desired angle via the direction fixing screws (25). is carried out.

Bottom sheet in case the floating rod (20) is adapted to an existing loudspeaker (10) core (113) with a strong adhesive so that it does not touch the coil (15). It is provided to be connected from the cylindrical connection part (21). Rod (20), it can also be attached to the loudspeaker (10) during the production of the loudspeaker (10). In this case A screw hole (211) is configured in the cylindrical connection part (21), and the said a connecting screw (12) by aligning the screw groove (211) with said screw channels (115). It is ensured that the bar (20) is associated with the lower plate core (113).

The movable rod (20) is a rigid board or other rigid non-resonant material can be produced. Cylindrical connector (21) flat, solid and cylindrical It has a structure and is 2 mm smaller than the diameter of the coil (15). The spherical bearing (22) is half It has a spherical structure and its diameter corresponds to the diameter of the 1.8 cylindrical connector (21) is coming. The diameter of the spherical part (23) is 1.4 times the diameter of the cylindrical joint (21) will be structured as follows. Cylindrical guide part (24), cylindrical connection It is configured with the same diameter as the part (21), that is, 2 mm smaller than the diameter of the coil (15). and its length can be any desired length. The spherical bearing (22) controls the movement of the coil (15). approximately 0.5 cm to 2 cm after the collar (152) of the voice coil (15). It can be a length in between. At the end of the cylindrical guide portion (24) The end point is configured as a flat cylindrical cross section.

The length of the movable bar (20) from the speaker chassis (13) with a side view is the membrane (14) It can be extended up to 5 times its length. Diameter of the speaker membrane is 10 cm If we consider the active and close sound field as approximately 50 cm in the case of too much will not have much effect. The movable rod (20), the membrane (14) and due to the inward conical structure of the speaker chassis (13) The length of the membrane (14) is inside the speaker frame (13). Values given are based on speaker chassis. (13) are the next lengths. Its length is related to the length of the listening area. listening area The farther the distance, the longer the length of the bar (20) is between the given values. should be. For example, for a 10 cm diameter speaker (10) for listening from 6 meters away should be cm.

The loudspeaker (10) membranes (14) are generally conical in shape. Sounds from the conical structure interference (a) in the central area somewhere outside the speaker (10) like a mirror reflection Because of the phase differences, most of the sounds are absorbed. revealed Since the rod (20) will be in this center, the sound cannot be absorbed due to the phase difference, It contributes to the sound efficiency and size information by reflecting. Also moving The length of the rod (20) guides the sound wave so that the sound is directed to a farther point. makes it go as far. The diffraction of the sound wave striking the moving rod (20) work and at the same time spread the loudspeaker (10) in its vertical axis. it provides. The movable rod (20) transmits sound waves cylindrically on the vertical axis. it also spreads. Thus, by creating interferences (a) with the other channel, the dimension increases knowledge. Another factor in the increase in size is the speaker (10) coil (15) The sound emanating from the end point of the moving bar (20) with the sound coming from around effective propagation is also due to the time difference. This situation is like the loudspeaker (10) creates an effect as if it existed.

In this configuration, the sound coming out of the hub section of the speaker (10) is initially spherical. (a) stiffness and vertical propagation by reflections and interference from the obstacle in the structure. will lose. The spherical bearing (22) guides the wave and refracts the sound. the cylindrical directing part (24) directs most of the sound direction the cylindrical guide part will spread in the direction of (24). The spherical bearing (22) is a barrier. will allow less filter elements to be used (equalizing passive speaker filter). In this way, a sound depth adjustment is made on the speaker (10) according to the listening distance. As it is possible, the tonal richness can also be adjusted according to the ear. for example two the movable bar (20) directed inwards when it is directly in front of the loudspeaker (10). the cylindrical directing part (24), while listening, the mono voice of the soloist is in a definite position from the front. While being detected, the stereo recorded orchestral sound is heard in a wide area. Reverse mono sounds a little more spatial when done. Moving with another expression When we open the bars (20) sideways, the stage expands sideways, inward. When we direct it, the perception of distance, closeness and distance becomes stronger. Sound detection is provided as nearby.

Angular sound tuning is somewhat like balance tuning without changing the sound energy. is working. Because it made a global opening, it was unheard and unnoticed. sounds emerge. Even after the angular movement of the movable bar (20), different sounds are also possible. For example, in a marketplace record, a spatial market place or standard speaker (10) due to location change inaudible sound becomes audible. Tell and explain possible; moving our head in blind spots as the effect of interference fringes When we do this, other sounds that we have not heard before can also be heard.

Claims (11)

REQUESTS . Membrane (14) with a magnet section (11), a coil (15) and a membrane (14) associated with the coil (15), consisting of a magnet (111) with a lower sheet 112 and a 'upper sheet 114' It is a loudspeaker (10) formed by a loudspeaker chassis (13) associated with ) and its feature is a cylindrical connection part (21) adapted in the lower hub sheet that creates reflection, diffraction and interferences (a) in the sound waves coming out of the center of the speaker (10). A spherical bearing (22) located in the continuation of the connecting part (21) and a spherical part (23) provided in said spherical bearing (22) with 45q movability in all directions, and to 'directly propagate' the waves diffracted by the spherical bearing (22) it comprises a moving rod (20) consisting of a cylindrical guiding part (24) located in the continuation of the said spherical part (23). . It is a loudspeaker (10) according to claim 1, characterized in that if the movable bar (20) is fabricated together with the loudspeaker (10), the loudspeaker (10) includes a screw channel (115) configured on the bottom sheet (112). . It is a loudspeaker (10) according to any one of the previous claims, characterized in that it contains a screw hole (211) configured in the cylindrical connection part (21) to align with said screw channel (115). . It is a loudspeaker (10) according to claim 1, and its feature is that in case the said movable bar (20) is to be adapted to an existing loudspeaker (10), it is connected from the cylindrical connection section (21) to the lower sheet core (113) by means of a strong adhesive. . It is a loudspeaker (10) according to claim 1, characterized in that the length of the said moving rod (20) can be extended up to 5 times the length of the membrane. . It is a loudspeaker (10) according to claim 1, characterized in that the diameter of said movable rod (20) relative to the cylindrical connection part (21) is configured with a diameter of 2 mm smaller than the coil diameter. 7. A loudspeaker (10) according to claim 1 or 6, characterized in that the diameter of said movable rod (20) relative to the spherical bearing (22) is configured with a diameter of 1.8 times the diameter of the connecting part. 8. A loudspeaker (10) according to any one of the previous claims, characterized in that the diameter of the spherical part (23) of the said movable rod (20) is configured in a diameter that is 1.4 times the diameter of the cylindrical connection part (21). 9. A loudspeaker (10) according to any one of the previous claims, characterized in that the diameter of said movable rod (20) related to the cylindrical guide part (24) is configured with a diameter equal to the diameter of the cylindrical connection part (21). 10. It is a loudspeaker (10) according to claim 1, characterized in that the end point of the cylindrical guiding part (24) of said moving rod (20) is configured to have a flat cylindrical section. 11. It is a loudspeaker (10) according to claim 1, characterized by two mutually provided directional fixing screws (25) extending from the spherical bearing (22) to the spherical part (23) in a way to fix the position of the said spherical part (23) in the spherical bearing (22). it contains.