RU2275558C1 - Device for supplying and distributing inflowing air - Google Patents

Abstract

FIELD: air-conditioning.

SUBSTANCE: device comprises housing, branch pipe for supplying air which is arranged from the side of the housing and provided at least with one air-distributing bank, controller of air flow rate, and pipe provided with perforated side and arranged in the housing along the air-distributing bank. One end of the perforated pipe is connected with the branch pipe, and the other end is provided with the face. The side of the perforated pipe is made of an airtight fabric. The face of the pipe is made of a sound-reflecting material. The controller of the air flow rate is made of the mechanism for swirling the pipe.

EFFECT: enhanced quality of control and decreased noise.

6 cl, 8 dwg

Description

The invention relates to techniques for ventilation and air conditioning and can be used to supply fresh air to various rooms.

A device for supplying air is known, comprising a central inlet pipe, a longitudinal box communicated therewith with a central inlet and an outlet grill at its base, a perforated reflective screen and a longitudinal panel with transverse rows of inlets installed in series along the air flow opposite the inlet holes having a live section not exceeding the live section of the output grill, perforated horizontally opposite rows of panel openings lath strips, as well as a transverse pressure chamber connected to the duct and inlet pipe, blocked in the plane of the duct inlet opening by a perforated panel with longitudinal rows of outlet openings, and perforated longitudinal strips placed opposite the latter and the screen, forming gaps between them, while the strips are made with vertical shelves having a height of 1.0-1.5 the width of the gaps between the slats (AS USSR No. 1622728, IPC F 24 F 13/06, 13/072, publ. 01/23/91, BI No. 3). This device contributes to the uniformity of air distribution with a significant length of the box, but this requires the placement in the box of a large number of additional structural elements. In addition, it does not provide the ability to control air flow.

Various modifications of Arktos air diffusers are known, containing a case made in the form of a duct, equipped with an air supply pipe and an air distribution panel, differing in the design of the latter, which is made in one case, for example, in the form of a perforated steel panel, in the other it represents a metal sheet with holes in which diffusers are fixed, or in the form of a steel sheet with holes in which rotary plastic cells are placed. To reduce the noise level, a lining of the inner surface of the duct is provided with sound-absorbing material. In addition, it is provided, if necessary, to equip these devices with a measuring section and / or an air flow regulator, which are installed in the air supply pipe (Arktos air distributors [Text]: Instructions for calculation and practical application - [St. Petersburg] - 2004. - C .54-60). These air distributors have a simple design, but they are characterized by a slight decrease in the uniformity of the air flow over the cross section of the air distribution panel due to the lack of a means that increases the uniformity of the flow distribution inside the duct. In addition, although the air flow regulator is also provided in the above devices, its design is not described in this source.

Closest to the claimed invention is a device for supplying and distributing fresh air, comprising a housing with a lateral air supply nozzle provided with an air distribution panel made in the form of a perforated sheet, an air flow regulator made in the form of a valve installed in the said nozzle, elongated inside the housing along the air distribution panel, a metal tube with a perforated side surface, on the one hand connected to the aforementioned th pipe, and on the other - provided with an end wall. In addition, to reduce the noise level, this device can be equipped with a panel made of sound-absorbing material located in the cavity of the case (US Patent No. 4170930, IPC F 24 F 7/00, F 24 F 13/00; publ. 16.10.79). This device compared with the above due to the presence in its design of a perforated tube increases the uniformity of the outflow of air flow over the cross section of the air distribution device. However, due to the implementation of the air flow regulator in the form of a valve, it does not provide the possibility of smooth regulation of air flow. In addition, the manufacture of a perforated metal tube requires to reduce the noise level of the supply of this device with a panel of sound-absorbing material.

The technical result of the claimed invention is to enable smooth control of air flow and reduce noise.

The specified technical result is achieved by the fact that in the device for supplying and distributing the supply air, comprising a housing with a lateral air supply pipe, provided with at least one air distribution panel, an air flow regulator, a tube extending along the air distribution panel with a perforated side extending along the air distribution panel the surface, on the one hand connected to the pipe, and on the other, provided with an end wall, according to the invention, the side surface bki made of airtight fabric material, its end wall -from sound reflective material, and the air flow regulator is designed as a tube twisting mechanism.

The achievement of the specified technical result is also facilitated by the fact that the tube twisting mechanism comprises a rod with a spring mounted on it, a spring restrictive element located on the side of one end of the rod, a rod rotation handle and a clamp for its position, while the section of the rod with a spring and restrictive the element is placed inside the tube and has a cross-sectional shape different from the round one, and its free end is passed through having the same shape as the mentioned portion of the rod, The term formed in the end wall of the tube, and an opening formed in the housing wall situated opposite the nozzle in its wall, rotatably and axial movement, the handle is located on the projecting beyond the end wall of the rod body.

The specified technical result is also achieved by the fact that the handle is made in the form of a disk with holes located at the same distance from its center, and the handle is fixed by a pin mounted on the wall of the housing with the possibility of interaction with these holes.

This technical result is enhanced by the fact that the perforated tube is provided with an insert made of sound-absorbing material placed in it from the side of its end wall.

A higher technical result is also achieved by the fact that the perforation has a rectangular shape and is oriented along the tube with large sides.

The implementation of the side surface of the perforated tube of an airtight fabric material provides a reduction in noise due to the fact that the fabric material has sound-absorbing properties. The implementation of its end wall from a material reflecting sound allows you to further reduce the level of noise that occurs when an air stream passes through the said pipe due to the reflection of sound waves from this wall into the depth of the perforated tube and the subsequent dissipation of their energy.

The implementation of the air flow regulator in the form of a mechanism of a perforated tube allows you to twist and unwind the specified perforated tube, smoothly reducing or increasing thereby the bore of the perforation holes and the tube itself, thus providing an increase in smoothness of air flow control compared to the valve.

The implementation of the tube twisting mechanism, which includes a rod with a spring mounted on it, a spring limiting element located on the side of one end of the rod, a rod rotation handle and a clamp for its position, provided that the section of the rod with the spring mounted on it and the limiting element is placed inside the tube and has a cross-sectional shape different from round, and its free end is passed through having an opening made in the end wall of the tube having the same shape as the aforementioned portion of the rod, and about the aperture made in the wall of the housing located opposite its wall with a nozzle, with the possibility of rotation and axial movement, and the location of the handle on the end of the shaft protruding beyond the walls of the housing is a special case of the invention, performing the function of twisting and untwisting of the tube and thereby allowing smooth air flow regulation.

The implementation of the handle in the form of a disk with holes located at the same distance from its center, and the handle position lock in the form of a pin mounted on the wall of the housing with the ability to interact with the aforementioned holes, is one of the possible options for the implementation of these structural elements of the tube twisting mechanism.

The placement in the perforated tube from the side of its end wall of the insert made of sound-absorbing material provides an additional reduction in the noise level due to the loss of sound energy arising from the propagation of sound waves in the thickness of the sound-absorbing material of the insert.

Performing perforations of a rectangular shape, oriented along the tube with large sides, increases the smoothness of air flow control due to the fact that when the tube is rotated, the deformation of the rectangular holes is proportional to the angle of rotation.

The invention is illustrated by the drawings shown in figures 1-8:

figure 1 is a longitudinal section of a device for supplying and distributing fresh air;

figure 2 - section of the tube with the mechanism of its twisting;

figure 3 - section aa in figure 2;

figure 4 - section bB in figure 2;

5 is a view a in figure 2;

6 is a schematic illustration of a device with a perforated tube in a partially twisted state;

7 is a perspective view of a device equipped with air distribution panels made in the form of a perforated sheet;

Fig. 8 is a perspective view of a device with an air distribution panel made in the form of a lattice.

A device for supplying and distributing fresh air contains a housing 1 formed by hermetically connected walls, made, for example, of galvanized steel sheet. An air supply pipe 2 is connected from the side wall of the housing 1, to which a tube having a perforated side 3 surface made of an airtight fabric material, for example polyamide, is connected on one side. Perforation 4 of the lateral 3 of the surface of the tube has a rectangular shape and is oriented by large sides along the tube. The perforation holes are evenly distributed along the lateral 3 surface of the tube. The tube is provided with an end wall 5, which is made of sound-reflecting material, for example, galvanized steel sheet or textolite or other similar material and is attached to its side surface along the perimeter of an end portion located on the opposite side relative to the nozzle 2. To increase the degree of reduction noise inside the tube from the side of the end wall 5 can be placed an insert 6 made of sound-absorbing material, such as glass wool. To regulate air flow, the device is equipped with a tube twisting mechanism, which contains a rod 7 with a spring 8 mounted on it, a spring restriction element 9 located on the side of one end of the rod, a rod rotation handle 10 and a latch 11 of its position. A portion of the rod with a spring mounted on it and a restrictive element is placed inside the tube and has a cross-sectional shape different from a round one, for example a square one, and its free end having a circular cross-sectional shape is passed through an opening 12 made in the end wall 5 of the tube, having the same shape as the aforementioned section of the rod, and a circular hole 13 made in the wall of the housing with the possibility of rotation and axial movement. If there is an insert 6 of sound-absorbing material in the device, a central hole is provided in it to allow axial movement of the rod in it with a spring mounted on it. The handle 10 is located on the end of the rod protruding beyond the body wall and is made in the form of a disk with holes 14 located at the same distance from its center, and the handle position lock 11 has the form of a pin fixed to the body wall with the possibility of interaction with these holes. The housing 1 is provided with at least one air distribution panel 15. For example, the device shown in Fig. 7 contains two air distribution panels, which are made, for example, in the form of a perforated steel sheet, and in Fig. 8, one air distribution panel in form of a lattice. The panel 15 can also be made in the form of other similar devices, for example, a four-sided diffuser (not shown in the drawing).

A device for supplying and distributing fresh air works as follows. By means of the air supply pipe 2, it is connected to the duct (not shown in the drawing). Supply air from the duct through the pipe 2 first enters the connected pipe with a perforated side 3 surface and end wall 5, where the initial decrease in its pressure occurs. In this case, the noise that occurs when the air stream passes through the tube is reduced due to the sound-absorbing ability of the fabric material from which its side 3 surface is made, as well as the energy loss of sound waves when they pass through the insert 6 of sound-absorbing material. In addition, when sound waves hit the end wall 5, they are reflected inside the tube with the subsequent dissipation of their energy, resulting in an additional decrease in the noise level. Passing through the tube, the air flow through the perforation 4 in its side 3 surface is evenly distributed inside the housing 1, where there is a decrease in its speed and pressure stabilization. Further, due to this, there is a uniform distribution of air flow over the cross section of the air distribution panel (s) 15, made, for example, in the form of a perforated sheet (Fig. 7) or grille (Fig. 8), through the openings of which the air flows quietly at a low speed into the room.

Air flow control is carried out using a tube twisting mechanism. To do this, using the handle 10, first, moving, the rod 7 in the axial direction through the holes 12 and 13 is taken out. When this occurs, the compression of the spring 8. Then, to ensure twisting of the lateral 3 of the perforated surface of the tube using the handle 10, rotate the rod 7 around its axis. Due to the fact that the portion of the rod 7 located inside the tube has a square cross-sectional shape and is in contact with the hole 12 in its end wall 5 having the same shape, the torque from the rod 7 is transmitted to the tube. When twisting and untwisting the tube, respectively, its size decreases and increases along the longitudinal axis, the compensation of which is due to the axial movement of the rod 7 in the desired direction with the help of the spring 8. When twisting the tube, the passage section of the perforation 4 and the tube itself through which air can exit into the housing, which leads to a smooth decrease in the flow rate of the supplied air. In this case, an increase in smoothness of air flow control is achieved in the case of perforation 4 of a rectangular shape, the large sides of which are oriented along the tube, due to the fact that when the tube is rotated, the deformation of the rectangular holes is proportional to the angle of rotation. Having achieved, thus, the required air flow, the handle 10 made in the form of a disk with holes 14 is fixed by fitting one of the disk holes 14 onto the pin 11 made in the form of a pin. Due to the presence of a spring 8 mounted on the rod 7, the handle 10 is pressed against the wall of the housing 1 , which ensures its reliable fixation in a given position. If necessary, increase the air flow by rotating the knob 10 in the opposite direction, the tube is untwisted to the required position. Then fix the handle in the same manner as in the previous case.

Thus, when using the inventive device provides a reduction in noise and increases the smoothness of the regulation of air flow while maintaining a uniform distribution of air flow over the cross section of the air distribution panel.

Claims (7)

1. A device for supplying and distributing supply air, comprising a housing with a lateral air supply pipe, provided with at least one air distribution panel, an air flow regulator, a tube placed along the air distribution panel along the air distribution panel with a perforated side surface, connected on one side to the aforementioned nozzle, and with another provided with an end wall, characterized in that the side surface of the perforated tube is made of airtight th fabric material, its end wall is made of a material reflecting sound, and the air flow regulator is made in the form of a tube twisting mechanism. 2. The device according to claim 1, characterized in that the tube twisting mechanism comprises a rod with a spring mounted on it, a spring restrictive element located on the side of one end of the rod, a rotation handle of the rod and a latch for its position, while the portion of the rod is mounted on it a spring and a restrictive element is placed inside the tube and has a cross-sectional shape different from round, and its free end is passed through having a hole made in the end wall having the same shape as the mentioned portion of the rod e the tube, and the hole made in the wall of the housing, located opposite its wall with a nozzle, with the possibility of rotation and axial movement, the handle is located on the end of the rod protruding beyond the walls of the housing. 3. The device according to claim 2, characterized in that the handle is made in the form of a disk with holes located at the same distance from its center, and a pin fixed to the wall of the housing with the possibility of interaction with the said holes serves as a handle positioner. 4. The device according to claim 1, characterized in that the perforated tube is provided with an insert of sound-absorbing material placed therein from the side of its end wall. 5. The device according to claim 2, characterized in that the perforated tube is provided with an insert of sound-absorbing material placed therein from the side of its end wall. 6. The device according to claim 3, characterized in that the perforated tube is equipped with an insert of sound-absorbing material placed therein from the side of its end wall. 7. The device according to any one of claims 1 to 6, characterized in that the perforation has a rectangular shape and is oriented along the tube with large sides.

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