DE202014102144U1 - Silencer for a blower - Google Patents

Abstract

Sound-damping device for a blower, comprising a housing, on the circumferential surface of which at least one resonance chamber is arranged, in which a plurality of through-openings are arranged, wherein an air chamber for receiving a sound-damping material is furthermore arranged in the at least one resonance chamber.

Description

Technical area

The invention relates to a sound damping device, in particular a sound damping device for a blower, are converted in the sound by a resonance chamber or resonance chambers in heat energy.

State of the art

Conventional centrifugal blowers are divided into turbo blowers and tubular blower, wherein the air inlet opening and the air outlet opening are in a turbo blower in relation to each other in 90 ° and a pipe blower in a straight line. Both vortex and duct fan blowers produce a high static pressure by a paddle wheel, so that vortex and duct fan blowers are well suited for flow fields with a narrow exit or a complicated pipe, and a wide application in coolers for electronic devices, air conditioners for vehicles or find ventilation ducts for high-rise buildings. However, a high static pressure in a fan easily causes turbulence and turbulence, resulting in noise at different frequencies. Above all, the noises with the so-called blade passing frequency (BPF), which results from multiplying the number of blades with the speed per second, are the loudest.

 Object of the invention

The invention has for its object to provide a sound damping device for a fan, which is simple and easy to dismantle and can effectively reduce noise, so that a higher efficiency can be achieved.

 Technical solution

This object is achieved by a sound damping device for a fan according to the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

The inventive sound-damping device for a fan comprises a housing, on whose peripheral surface at least one resonance chamber is arranged, which is provided with a plurality of passage openings, wherein an air chamber for receiving a sound damping material is arranged in the interior of the at least one resonance chamber.

According to the invention, the sound damping material made of polyester, glass fiber or foam.

According to the invention, the diameter of the respective passage openings is 0.5 mm to 6 mm.

 According to the invention, the distance between the respective through holes is 2mm to 20mm.

According to the invention, the thickness of the air chamber is 5mm to 200mm.

Further disclosed is a sound attenuation device for a blower, comprising: an upper resonance chamber including an upper lid and an upper case, an aperture extending through the upper lid, an air inlet opening passing through the upper case, wherein Fixing the upper lid on the upper housing, a first air chamber is formed, wherein the end edge of the air inlet opening adjoins the opening, wherein on a side surface of the upper housing, a plurality of first through-holes is arranged, which are connected to the first air chamber, in which a first Acoustic damping material is included; and a lower resonance chamber including a lower lid and a lower case, wherein attaching the lower lid to the lower case creates a second air chamber, and a side surface of the lower case has a plurality of second through holes connected to the second air chamber are in which a second sound-absorbing material is added, wherein by mounting the upper housing on the lower housing, a vortex-shaped flow channel is formed, in which a paddle wheel is mounted, at the end edge of an air outlet opening is arranged.

Further disclosed is a sound attenuating device for a blower comprising: an upper resonance chamber including an upper lid and an upper case, a first aperture extending through the upper lid, an air inlet opening passing through the upper case; by attaching the upper lid to the upper housing, a first air chamber is formed, wherein the first opening is set around the upper housing, wherein on a side surface of the upper housing, a plurality of first through holes is arranged, which are connected to the first air chamber, in the a first acoustic damping material is received; and a lower resonance chamber including a lower lid and a lower case, wherein a second baffling passes through the lower lid, wherein an air outlet opening passes through the lower housing, wherein by attaching the lower lid to the lower housing, a second air chamber is formed, wherein the second opening is set around the lower housing, wherein on a side surface of the lower housing, a plurality of second through holes is arranged which are connected to the second air chamber, in which a second sound-absorbing material is accommodated, wherein by mounting the upper housing on the lower housing, a round flow channel is formed, in which a paddle wheel is mounted.

According to the invention, a sound damping is realized by resonance chambers, wherein the housing of the blower can be enveloped by two resonance chambers; in consideration of the manufacturing costs and the mounting space of the blower, the housing can be partially or completely enveloped by a resonance chamber or resonance chambers in order to achieve a sound damping of different degrees; at the same time, the noises of the impeller enter via the first and the second passage openings in the upper and the lower resonance chamber; If the resonance frequency of the upper and lower resonance chambers is equal to the blade passing frequency (BPF), the air in the upper resonance chamber will vibrate, thereby rubbing the first sound damping material and the first through holes while the air in the lower resonance chamber vibrates and thus the second sound attenuating material and the second through holes will rub to convert sound into heat energy.

Short description of the drawing

1 shows a perspective view of a first embodiment of a sound damping device for a fan according to the invention.

2 shows an exploded view of the first embodiment of the inventive sound damping device for a fan.

3 shows a sectional view of the first embodiment of the sound damping device for a fan according to the invention, wherein the transmission path of the sounds with the arrow in solid line and the air flow path with the arrow is shown in dotted line.

4 shows a perspective view of a second embodiment of the inventive sound damping device for a fan

5 shows an exploded view of the second embodiment of the inventive sound damping device for a fan.

6 shows a sectional view of the second embodiment of the inventive sound damping device for a blower, wherein the transmission path of the sounds with the arrow in solid line and the air flow path with the arrow is shown in dotted line.

Ways of carrying out the invention

In the following, objects, features and advantages of the present invention will become more apparent from the detailed description of embodiments and the accompanying drawings. The invention should not be limited to the description and the accompanying drawings.

How out 1 to 3 As can be seen, the first embodiment of the invention provides a sound attenuation device for a fan, in particular for a centrifugal fan. The noise attenuation device for a blower includes: an upper resonance chamber 11 that has an upper lid 111 and an upper case 113 includes, wherein an opening 114 through the upper lid 111 passes through, with an air inlet opening 14 through the upper case 113 passes through, wherein by fastening the upper lid 111 at the upper housing 113 a first air chamber 115 arises, with the end edge of the air inlet opening 14 to the opening 114 connects, taking on a side surface of the upper housing 113 a plurality of first through holes 17 is arranged with the first air chamber 115 in which a first sound damping material 112 is included; and a lower resonance chamber 12 holding a lower lid 123 and a lower housing 121 comprising, wherein by attaching the lower lid 123 on the lower case 121 a second air chamber 124 arises, wherein on a side surface of the lower housing 121 a plurality of second passage openings 18 is arranged with the second air chamber 124 in which a second sound damping material 122 is received, wherein by mounting the upper housing 113 on the lower case 121 a vortex-shaped flow channel 15 arises in which a paddle wheel 13 and a motor (not shown) are mounted, wherein at the end edge of the vortex-shaped flow channel 15 an air outlet 16 is arranged.

So the sounds of the paddle wheel occur 13 over the first and the second through holes 17 . 18 in the upper and the lower resonance chamber 11 . 12 one; corresponds to the resonance frequency of the upper and lower resonance chambers 11 . 12 the so-called blade passing frequency (BPF) of the paddle wheel 13 so the air gets in the upper resonance chamber 11 vibrate and thereby the first sound damping material 112 as well as the first passages 17 rub while the air in the lower resonance chamber 12 vibrate and so does the second silencing material 122 and the second through holes 18 rubbing to convert sound into heat energy.

The first and second silencing material 112 . 122 are made of polyester, fiberglass or foam.

The resonant frequency of the upper and lower resonance chambers 11 . 12 can by the dimension of the first and second through holes 17 . 18 and by the dimension of the first and second air chambers 115 . 124 be set; the smaller the diameter of the first and second through holes 17 . 18 is, the greater the distance between the first and the second through holes 17 . 18 is, the thicker the wall of the first and second through holes 17 . 18 or the thicker the first and second air chambers 115 . 124 are, the lower the resonance frequency of the upper and lower resonance chamber 11 . 12 ,

The diameter of the respective through holes 17 . 18 is 0.5mm to 6mm. The distance between the respective through holes 17 . 18 is 2mm to 20mm. The thickness of the respective through holes 17 . 18 is 0.5mm to 15mm. The thickness of the first and second air chambers 115 . 124 is 5mm to 200mm.

How out 4 to 6 can be seen, the second embodiment of the invention provides a sound damping device for a blower, in particular for a tubular blower, wherein the construction of the second embodiment is substantially similar to that of the first embodiment, the difference being that the orientation of the air outlet opening and the air inlet opening in a straight line. The noise attenuation device for a blower includes: an upper resonance chamber 21 that has an upper lid 211 and an upper case 213 includes, wherein a first opening 214 through the upper lid 211 passes through, with an air inlet opening 24 through the upper case 213 passes through, wherein by fastening the upper lid 211 at the upper housing 213 a first air chamber 215 arises, with the first opening 214 around the upper case 213 is placed around, taking on a side surface of the upper housing 213 a plurality of first through holes 27 is arranged with the first air chamber 215 in which a first sound damping material 212 is included; and a lower resonance chamber 22 holding a lower lid 223 and a lower housing 221 includes, wherein a second Durchbrechnung 225 through the lower lid 223 passes through, with an air outlet opening 26 through the lower case 221 passes through, wherein by fastening the lower lid 223 on the lower case 221 a second air chamber 224 arises, with the second opening 225 around the lower case 221 is placed around, taking on a side surface of the lower housing 221 a plurality of second passage openings 28 is arranged with the second air chamber 224 in which a second sound damping material 222 is received, wherein by mounting the upper housing 213 on the lower case 221 a round flow channel 25 arises in which a paddle wheel 23 and a motor (not shown) are mounted.

So the sounds of the paddle wheel occur 23 over the first and the second through holes 27 . 28 in the upper and the lower resonance chamber 21 . 22 one; corresponds to the resonance frequency of the upper and lower resonance chambers 21 . 22 the so-called blade passing frequency (BPF) of the paddle wheel 23 so the air gets in the upper resonance chamber 21 vibrate and thereby the first sound damping material 212 as well as the first passages 27 rub while the air in the lower resonance chamber 22 vibrate and so does the second silencing material 222 and the second through holes 28 rubbing to convert sound into heat energy.

The resonant frequency of the upper and lower resonance chambers 21 . 22 can by the dimension of the first and second through holes 27 . 28 and by the dimension of the first and second air chambers 215 . 224 be set; the smaller the diameter of the first and second through holes 27 . 28 is, the greater the distance between the first and the second through holes 27 . 28 is, the thicker the wall of the first and second through holes 27 . 28 or the thicker the first and second air chambers 215 . 224 are, the lower the resonance frequency of the upper and lower resonance chamber 21 . 22 ,

Claims (7)

 A noise attenuation device for a fan, comprising a housing, on the peripheral surface of which at least one resonance chamber is arranged, in which a plurality of through-holes is arranged, wherein in the at least one resonance chamber further comprises an air chamber for receiving a sound damping material is arranged. Silencer device according to claim 1, characterized in that the silencing material is made of polyester, glass fiber or foam. Silencer according to claim 1 or 2, characterized in that the diameter of the respective passage openings is 0.5 mm to 6 mm. Silencer according to one of claims 1 to 3, characterized in that the distance between the respective through holes is 2mm to 20mm. Silencer according to one of claims 1 to 4, characterized in that the thickness of the at least one air chamber is 5mm to 200mm. A noise attenuation device for a blower, comprising: an upper resonance chamber ( 11 ), which has an upper lid ( 111 ) and an upper housing ( 113 ), wherein an opening ( 114 ) through the upper lid ( 111 ), wherein an air inlet opening ( 14 ) through the upper housing ( 113 ), wherein by attaching the upper lid ( 111 ) on the upper housing ( 113 ) a first air chamber ( 115 ), wherein the end edge of the air inlet opening ( 14 ) to the opening ( 114 ), wherein on a side surface of the upper housing ( 113 ) a plurality of first passage openings ( 17 ) arranged with the first air chamber ( 115 ), in which a first sound damping material ( 112 ) is included; and a lower resonance chamber ( 12 ), which has a lower lid ( 123 ) and a lower housing ( 121 ), wherein by attaching the lower lid ( 123 ) on the lower housing ( 121 ) a second air chamber ( 124 ) is formed, wherein on a side surface of the lower housing ( 121 ) a plurality of second passage openings ( 18 ) arranged with the second air chamber ( 124 ) in which a second sound damping material ( 122 ), wherein by mounting the upper housing ( 113 ) on the lower housing ( 121 ) a vortex-shaped flow channel ( 15 ), in which a paddle wheel ( 13 ) is mounted, wherein at the end edge of the vortex-shaped flow channel ( 15 ) an air outlet opening ( 16 ) is arranged. A noise attenuation device for a blower, comprising: an upper resonance chamber ( 21 ), which has an upper lid ( 211 ) and an upper housing ( 213 ), wherein a first opening ( 214 ) through the upper lid ( 211 ), wherein an air inlet opening ( 24 ) through the upper housing ( 213 ), wherein by attaching the upper lid ( 211 ) on the upper housing ( 213 ) a first air chamber ( 215 ), the first opening ( 214 ) around the upper housing ( 213 ) is set around, wherein on a side surface of the upper housing ( 213 ) a plurality of first passage openings ( 27 ) arranged with the first air chamber ( 215 ), in which a first sound damping material ( 212 ) is included; and a lower resonance chamber ( 22 ), which has a lower lid ( 223 ) and a lower housing ( 221 ), wherein a second opening ( 225 ) through the lower lid ( 223 ), wherein an air outlet opening ( 26 ) through the lower housing ( 221 ), whereby by attaching the lower lid ( 223 ) on the lower housing ( 221 ) a second air chamber ( 224 ), the second opening ( 225 ) around the lower housing ( 221 ) is set around, wherein on a side surface of the lower housing ( 221 ) a plurality of second passage openings ( 28 ) arranged with the second air chamber ( 224 ) in which a second sound damping material ( 222 ), wherein by mounting the upper housing ( 213 ) on the lower housing 221 a round flow channel ( 25 ), in which a paddle wheel ( 23 ) is mounted.

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