NL8304487A - Sound attenuating ventilating box - has sound absorbing filling in corners and bottom of box, mounted in window frame - Google Patents

Abstract

The box functions according to the principle of a Helmholtz resonator, i.e. in part of the ventilation ducting, air works as a vibrating mass, and the air volume in the duct cavity acts as a spring. By partly filling the cavity with a porous absorption material, the frequency range over which absorption takes place is widened. The box has a longitudinal housing (1) formed by a top box (2) and a bottom box (3) which are connected by plate (4) at both ends. The top box has two angled partitions filled with sound absorbing material (15). The bottom box has two angled side walls (9,10), whilst the bottom (8) inside cavity (11) is also filled with sound absorbing material. The box may be fitted in a building facade above a window frame.

Description

(t Λ 83.5129 / Rey / sme

Short designation: Sound-absorbing ventilation box.

The invention relates to a sound-absorbing ventilation box, comprising an elongated house which can be built into a facade or a frame, which house is provided with a ventilation channel running transversely through it, which extends in the form of a spit in the length of the house and is at least partially covered with sound-absorbing material.

Such ventilation boxes, which are often used in modern airtight houses, are generally of the so-called labyrinth type, that is to say that the lined channel in the box has a bend-like curve, so that the channel becomes longer and thus the total damping of the channel is larger, while an additional damping also occurs at every bend. A labyrinth-type ventilation box thus has good soundproofing, but it has the drawback that insufficient ventilation is obtained with such a box, since the air resistance through the labyrinth-shaped channel is too great.

The object of the invention is now to provide a ventilation box, wherein good soundproofing is obtained, without the air resistance of the ventilation channel becoming too great to obtain good ventilation. This object is achieved according to the invention in that a cavity extending over the entire length thereof is arranged within the housing, which is in open communication with the ventilation channel via a spit-shaped opening which also extends over the entire spring. is filled with sound-absorbing material.

Such a ventilation box uses the principle of a Helmholtz resonator. This means that the air in a part of the ventilation channel acts as a vibrating mass and the air volume in the cavity acts as a spring. Partially filling the cavity with a porous absorption material broadens the frequency range over which absorption occurs.

In a preferred embodiment of the.

8304487 - 2 - * * * invention, the ventilation channel is formed by an ascending inflow section, which via a corner or bend section changes into an obliquely descending outflow section, the cavity being located between the inflow and the outflow section. shaped as a substantially isosceles triangle with the spike-shaped opening near the apex and the sound-absorbing material near the base.

The ventilation duct thus has a single bend through the ventilation box, avoiding so-called "penetration", which would occur if the ventilation box had a straight-through ventilation channel according to the principle of the Helmholtz resonator. The bend in the ventilation channel also provides sound insulation according to the labyrinth principle.

According to yet another embodiment of the invention, a partition extending transversely of the flow direction and extending with its free end into the cavity is arranged in the corner or bend section of the ventilation channel. By arranging such a partition, the ratio between the amount of air acting as a vibrating mass in the ventilation channel and the air volume acting as a spring in the cavity is changed, so that a different deraping characteristic is obtained.

The invention is further elucidated with reference to the drawing, in which: Fig. 1 shows in perspective a sectioned ventilation box according to a first embodiment of the invention; Fig. 2 schematically shows a cross-section of a variant of the ventilation box according to Fig. 1; Fig. 3 shows another embodiment of the ventilation box according to Fig. 1; fig. 4 shows a variant of the ventilation box according to fig. 3; Fig. 5 shows another variant of the ventilation box 35 according to Fig. 3; and Fig. 6 shows yet another variant of the ventilation box according to Fig. 3.

As can be seen from the drawing, the ventilation box according to the invention consists of an elongated housing 1, which is formed by a top box 2 and a bottom box 3, which are connected at both ends by means of of a plate 4.

5 The top box 2 consists of a top wall 5 with two perpendicular downwardly directed side walls 6 and 7. The bottom box 3 consists of a bottom 8 with two upwardly directed side walls 9 and 10. Both side walls 9 and 10 are in the The embodiment according to Figs. 1 and 2 are designed as a straight surface and are directed obliquely towards each other, so that these side walls enclose with the bottom 8 an internal cavity 11, which has the shape of an isosceles triangle in cross section. The free ends of the side walls 9 and 10 define a spline-shaped opening 12, which connects the cavity 11 to a ventilation channel 13 formed between the bottom and top box. On the bottom 8, there is a layer 14 within the cavity 11 made of sound-absorbing material.

The top box 2 is provided on the inside with a cover 15 of sound-absorbing material, which covers the side walls 6 and 7 as well as the top wall 5 or a large part thereof. The top box 2 is arranged at such a distance above the bottom box 3 that the side walls 6, 7 partially overlap the sloping walls 9, 10, and between the two boxes the ventilation channel 13 is formed, which flows through in the direction according to the arrows P. The lining 15 within the top box together with the sloping wall 9 forms an inflow section 16 and with the sloping wall 10 an outflow section 17 · Between the inflow section and the outflow section is a corner section where the cavity 11 via the slit 30 shaped opening 12 communicates with the ventilation duct 13.

The ventilation box thus described, which can be built into a facade above a window frame, works according to the principle of the Helmholtz resonator. The air present in the cavity 11 acts as a spring for part of the air mass vibrating in the ventilation channel. By providing both the ventilation duct and the internal cavity with sound-absorbing material, the frequency range in which absorption occurs becomes 8304487

4 I

- 4 - - - "".. · Widened.

The embodiment according to Fig. 2 substantially corresponds to that according to Fig. 1, except that in the corner part of the ventilation channel a partition 18, which is transverse to the flow direction 5 P, is provided, which extends with its free end inside the cavity 11. The ventilation air is thus guided around the partition 18 through the cavity 11. By making the partition 18 longer or shorter, the ratio between the vibrating air mass and the spring-acting air volume in the cavity can be influenced, so that a ventilation box can easily be manufactured with a different absorption characteristic, but of the same external dimensions.

Fig. 3, 4, 5 and 6 show embodiments deviating from Figs. 1 and 2, wherein the same parts are indicated with the same reference numerals as much as possible. In the embodiment shown in Figs. 3 and 6, the ventilation channel 13 is curved, which means that the covering 15 in the top box 2 has a bell-shaped cavity in cross section, the side walls 9 and 10 of the bottom box 3 being attached thereto. are adapted and have a correspondingly curved shape.

In Fig. 3, the opening 12 is symmetrical about the center line of the ventilation box, while in Fig. 4 the side wall 9 is shorter than the side wall 10, so that the gap-like opening 12 is more towards the inlet section 16 of the ventilation channel. located. The embodiment according to Fig. 5 is a continuation of that of Fig. 4, in which the side wall 10 of the base cabinet 3 is elongated in an arc-shaped manner in accordance with the course of the ventilation channel 13 and the splined opening is entirely located in the inflow section 16. The latter is also the case in the embodiment according to Fig. 6, where the side walls 9 and 10 form a kind of spout, which also opens into the inflow section 16.

Because the opening 12 in the embodiments according to Figs. 4, 5 and 6 is arranged asymmetrically, the air masses to the left and right of the opening are different. These different air masses, operating on the same spring-serving air mass in the cavity 11, provide sound attenuation in a wider frequency range.

All embodiments shown and described work according to the principle of the Helmholtz resonator, whereby due to the angular or bend-shaped configuration of the ventilation duct, an additional sound insulation is obtained due to the labyrinth principle, while at the same time a rainproof construction is obtained. A further advantage in the illustrated embodiments is that opposing parallel surfaces are avoided, which could create standing waves 10, which could adversely affect the sound insulation of the ventilation box.

The ventilation box shown can be manufactured in a simple manner, for instance from extruded aluminum, with which flow-favorable shapes can be made.

Another possibility is the manufacture of sheet material, with which the bottom and top box can be manufactured in a simple and inexpensive manner.

It is noted that within the scope of the present application a large number of variants are possible with regard to the design of the ventilation channel and the cavity.

83C4487 ___ ___

Claims (4)

1. Sound-absorbing ventilation box, comprising an elongated house that can be built into a facade or a window frame, which house is provided with a ventilation channel running transversely through it, which extends over the entire length of the house in a spline shape and is at least partly covered with sound-absorbing material, characterized in that a cavity extending over its entire length is arranged within the housing, which is in open communication with the ventilation channel via a spit-shaped opening which also extends over the entire length, which cavity is partly filled with sound-absorbing material. 2. Ventilation box according to claim 1, characterized in that the ventilation channel is formed by an obliquely upwardly inflowing section which, via a corner or bend section, changes into an obliquely descending outflowing section, the cavity being located between the inflowing and the outflowing section and is formed as a substantially isosceles triangle with the opening near the apex and the sound-absorbing material near the base. Ventilation box according to claim 1 or 2, characterized in that in the corner or bend section of the ventilation duct a partition extending transversely to the flow direction is provided, which extends with its free end into the cavity. Ventilation box according to claim 1 or 2, characterized in that the spit-shaped opening of the cavity is located wholly or partly in the inflow section of the ventilation channel. 9304437