RU31675U1 - STANDARD WAVE SUPPRESSION DEVICE - Google Patents

Description

STANDARD WAVE SUPPRESSION DEVICE

The utility model relates to the field of acoustics and can be used; 1 is used to improve the acoustic characteristics of audiences, recording studios, listening rooms, home cinemas and other premises.

A sound-absorbing device is known (RF patent No. 2106021. MKI G 10 K II 16. op. 1998), which is a panel made of several layers of various materials that absorb acoustic energy of low, medium and high hours in the range from 400 to 5000 Hz. The known device is based on the effect of suppressing any acoustic vibrations in a certain frequency band. At the same time, the selective influence on the spectrum of the emitted sound and plays an important role in improving the acoustic properties of rooms intended for listening. in particular, suppression of frequencies at which the effect of “standing waves” is observed.

Standing waves in a room are caused by interference (tension) between sound waves incident from and reflected from walls. As a result, stable zones of increased and reduced sound pressure arise in the room, which distorts the perception of the musical work. Traditionally, for the suppression of standing oxen, various resonator variants are used.

Helmholtz. representing hinged, or built into the walls brought in, in which the surface facing the inside of the room is perforated. As a rule, the dimensions of such panels are about 1.5x2.5xO, 3M (R. Taylor, “Noise. World, ML 978, pp. 142-160). Such devices have significant dimensions and have extremely low efficiency when it is necessary to suppress waves at a specific frequency (reducing the amplitude of the syuyachnogo wave does not shrink 5db), capturing a wide range of frequencies, and therefore they do not find wide application in equipping premises for acoustic listening.

The closest known to the described utility model is a device for suppressing acoustic waves, including a pipe and covers located on its ends. (RF patent. No. 2062889. IPC F 01 N 1/00, op. 1996), in which the pipe is made in the form of a cylinder with regulating elements. However, the known device also lacked the quality factor for selectively suppressing standing waves. So, even a well-tuned cylindrical resonator reduces not only the amplitude of the standing wave of the required frequency, but also the amplitude of neighboring frequencies in the range up to L octave. Except south. Known construction is difficult to manufacture, because it is perforated and / or filled with mineral wool.

Thus, the technical result achieved by the implementation of the utility model. consists in increasing the accuracy of tuning and increasing the efficiency of the suppression of standing waves, as well as in simplifying the device.

The specified technical result is achieved by the fact that in the device for suppressing standing waves, including the pipe and located on its ends of the cover, it contains a slotted hole located in the region of one of the ends.

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Preferably, the covers are movable, with the possibility of forming adjustable slotted holes in the region of the ends of the pipe.

In this case, the pipe can be made of cardboard or plastic.

It is advisable to make a cylindrical pipe composite and / or sliding.

In the drawing of FIG. 1 shows the described device for suppressing standing waves. Lids 2 and 3 are placed at the ends of the pipe 1. Lids 2 and 3 can be rigidly mounted on the ends of the pipe 1 (shown by a dashed line), and in the pipe 1. a slot 4 is made in the area of one of the ends (shown by a dashed line). The cover 2 can be mounted on the end of the cylindrical pipe 1 using a loop 5 and a screw 6 with the possibility of formation in the region of the end of the pipe 1 of the slit hole 4. The cover 3 is mounted on the other end of the pipe 1 on the stand 7 with the possibility of movement coaxially with the longitudinal axis of the pipe 1.

The pipe 1 is composed and / or telescopic with the possibility of adjusting its length.

A device for suppressing standing waves works as follows.

Indoors, the acoustic characteristics of which are supposed to improve. determine the frequencies at which standing waves are formed. Adjust the length of the pipe 1 in accordance with the frequency of the standing wave, which must be suppressed and. which depends on the shape and size of the room. For example, in the working frequency range 40Hz - 100Hz for ipyo with a diameter of 0.2-0.4m, the length of the pipes varies from 2.0 to 0.5m. Thus, a “coarse tuning of the device to a specific frequency is carried out. The pipe 1 is mounted on the support 8 vertically so that the end with the slotted hole 4 is facing down. Fine tuning to the specific frequency of the standing wave is carried out by adjusting the size of the slit hole 4. The size of the slit hole 4 between the cover 2 and the end 1 is changed by means of a screw 6 and thereby the level of suppression of standing waves is adjusted. If the slit hole 4 is cut directly in the pipe 1 (as shown in FIG. 1 by the dashed line), its size is adjusted by means of a movable shutter 9. Quality factor

the devices are controlled by changing the size of the slit hole between the second mountain pipe 1 and the cover 3. For this, the cover 3 is moved, for example, by means of a coupling 10 attached to it along the strut 7.

The described device for suppressing standing waves allows you to reduce the amplitude of standing waves by 10-15 dB in the frequency range of acoustic radiation 40-100 GP with an accuracy of 1-2 Hz.

The device is relatively compact, does not contain such unhealthy things. like mineral wool, it is not difficult to manufacture and operate, and also allows otds.1k various decorative materials (paint, fabric, veneer. cork, etc.

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Claims (6)

1. A device for suppressing standing waves, including a pipe and covers located on its ends, characterized in that the pipe contains a slotted hole located in the region of one of the ends. 2. The device according to claim 1, characterized in that the pipe is cylindrical. 3. The device according to claim 1, characterized in that the slit hole is made with an adjustable size of the slit. 4. The device according to claim 1, characterized in that the covers are movable, with the possibility of forming adjustable slotted holes in the region of the ends of the pipe. 5. The device according to any one of claims 1 to 4, characterized in that the pipe is made of cardboard or plastic. 6. The device according to any one of claims 1 to 4, characterized in that the pipe is made integral and / or sliding.