RU2629346C1 - Noise suppressor for sock and stocking making machine with pneumatic stretching of articles - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: noise supressor has a cylindrical housing rigidly connected with end inlet and outlet branch pipes, the outlet branch pipe is made in the form of a disc having at least three holes in a peripheral part, and a central pipe having perforation in the form of rectangular slots in amount of at least three and associated with disc central solid portion, and between the housing and the central tube there is a sound-absorbing element provided so that disc openings connected to the cavity of the sound-absorbing element, and the sound-absorbing structure of inlet pipe end is in the form of cylindrical helical spring, which turns in axial section are made in the form of rigid and perforated walls, between which there are two layers: sound-reflecting layer adjacent to the rigid wall and sound-absorbing layer adjacent to the perforated wall. The layer of sound reflecting material is made of complex profile composed of evenly distributed hollow tetrahedrons allowing to reflect acoustical waves incident in all directions, and mineral wool on basalt basis is applied as a sound-absorbing material of the sound-absorbing layer.

EFFECT: improved efficiency of noise suppression.

2 dwg

Description

The invention relates to a technique for damping noise.

The closest technical solution in technical essence is a multi-section silencer according to RF Patent No. 2062889, F01N 1/00, 1994, containing a cylindrical body, an end exhaust pipe, rigidly connected to a central pipe having perforation, perforated partitions are made in the form of coaxially located to the casing and the central pipe of the additional perforated pipe, and the ends of all pipes are rigidly connected to the casing by means of blind partitions.

The disadvantage of the prototype is the relatively low efficiency of sound attenuation due to the possibility of the occurrence of a "radiation effect" and, as a result, the penetration of sound waves both along the axis of the silencer and through its two walls.

The technical result is an increase in the efficiency of sound attenuation.

This is achieved by the fact that in a noise muffler for a hosiery machine with pneumatic drawing of products containing a cylindrical body rigidly connected to an end inlet and outlet pipe rigidly connected to a central pipe having perforation, the exhaust pipe is made in the form of a disk having a peripheral parts, at least three holes, and the Central pipe, having a perforation in the form of rectangular slots with a number of at least three, is connected with the Central solid part of the disk, and between the body and the Central pipe the sound-absorbing element is located in such a way that the holes of the disk are connected to the cavity of the sound-absorbing element, the sound-absorbing design of the end inlet pipe is made in the form of a cylindrical helical spring, the turns of which in axial section are made in the form of rigid and perforated walls, between which are two layers: a sound-reflecting layer, adjacent to the rigid wall, and a sound-absorbing layer adjacent to the perforated wall, while the layer of sound-reflecting material is made complex a profile consisting of evenly distributed hollow tetrahedrons that allow sound waves incident in all directions to be reflected, and a perforated wall has the following perforation parameters: hole diameter - 3–7 mm, perforation percentage 10–15%, and the shape of the hole can be made in the form holes of a round, triangular, square, rectangular or rhomboid profile, while in the case of non-circular holes, the maximum diameter of a circle inscribed in a polygon should be considered as a conditional diameter and as a sound-absorbing material, rockwool-type basalt mineral wool, or URSA-type mineral wool, or P-75 type basalt wool, or glass wool with glass fiber lining, or foamed polymer, such as polyethylene or polypropylene, were used as sound-absorbing material. the surface of the fibrous absorbers is treated with porous air-permeable paints (for example, Acutex T), or coated with breathable fabrics or non-woven materials, such as Lutrasil.

In FIG. 1 shows a frontal section of the proposed silencer, FIG. 2 is a diagram of a sound-absorbing structure 9 of an end inlet 2 pipe.

The silencer for a hosiery with pneumatic drawing of products contains a cylindrical body 1, rigidly connected to the front inlet 2 and exhaust 3 pipes, rigidly connected to the Central pipe 6 having perforation. The outlet pipe 3 is made in the form of a disk having at least three openings 4 in the peripheral part, and a central pipe 6 having perforations in the form of rectangular slots 8 of at least three in number is connected to the central continuous part of the disk. A sound-absorbing element 5 is located between the housing 1 and the central pipe 6. The holes 4 in the exhaust pipe 3 are connected to the cavity of the sound-absorbing element 5. The rectangular slots 8 are symmetrical in the central pipe 6, i.e. continuous sections 7 of the central pipe 6 on the left and right at its ends are of equal length.

The inner end surfaces of the nozzles 2 and 3 are lined with sound-absorbing structures 9 and 10. In this case, the sound-absorbing structure 9 of the end inlet 2 of the nozzle is made in the form of a ring, the diameter of the opening of which is equal to the inlet of the inlet 2 of the nozzle, and its outer surface is in contact with the inner surface of the solid section 7 of the central pipes 6.

The sound-absorbing structure 10 of the end outlet 3 of the nozzle is made in the form of a continuous cylindrical disk adjacent to the inner end surface of the outlet 3 of the nozzle, and the cylindrical surface of the disk is in contact with the inner surface of the continuous portion of the central pipe 6.

As sound-absorbing material of sound-absorbing structures 9 and 10, rockwool-type mineral wool or URSA-type mineral wool, or P-75 type cotton wool, or glass wool with glass fiber lining, or foamed polymer, such as polyethylene or polypropylene are used moreover, the sound-absorbing element over its entire surface is lined with an acoustically transparent material, for example, fiberglass type EZ-100 or polymer type "Poviden."

The sound-absorbing structure 9 (Fig. 2) of the end inlet 2 of the pipe is made in the form of a sound-absorbing element of a screw type, in the form of a cylindrical coil spring, the turns of which in axial section are made in the form of a rigid 11 and perforated 14 walls, between which two layers are located: a sound-reflecting layer 12 adjacent to the rigid wall 11, and a sound-absorbing layer 13 adjacent to the perforated wall 14. The layer of sound-reflecting material is made of a complex profile consisting of uniformly distributed hollow tetrae ditch, allowing to reflect sound waves incident in all directions, and the perforated wall has the following perforation parameters: hole diameter - 3 ÷ 7 mm, perforation percentage 10 ÷ 15%, and the shape of the holes can be made in the form of round, triangular, square holes, a rectangular or rhomboid profile, while in the case of non-circular holes, the maximum diameter of a circle inscribed in a polygon should be considered as a conditional diameter. As sound-absorbing material of layer 13, rockwool-type mineral wool or URSA-type mineral wool, or P-75-type basalt wool, or glass wool lined with glass wool, or foamed polymer, such as polyethylene or polypropylene, are used. The surface of the fibrous absorbers is treated with porous paints that allow air to pass through (for example, Acutex T), or coated with breathable fabrics or non-woven materials, such as Lutrasil.

A silencer for a hosiery with pneumatic drawdown works as follows.

Sound waves together with a turbulent flow of compressed air through the end inlet 2 pipe enter the cavity of the Central perforated pipe 6, while the phenomenon of radiation effect is completely eliminated due to the presence of a blank partition in the disk 3, which acts as a soundproof screen. The resonance cavities formed by the coaxially located housing 1 and the central tube 6 serve as Helmholtz resonators, while the rectangular slots 8 are the neck of the resonator. An increase in the efficiency of sound attenuation occurs due to the exclusion of the "radiation effect" and the penetration of sound waves through the walls of the silencer housing 1 due to the introduction of sound-absorbing elements 5 and 3 on the path of propagation of sound waves.

The proposed technical solution is an effective means to combat noise in the production workshops of textile and other sectors of the economy.

Claims (1)

A silencer for a hosiery with pneumatic extraction of products containing a cylindrical body rigidly connected to an end inlet and outlet nozzles rigidly connected to a central pipe having perforation, the exhaust nozzle is made in the form of a disk having at least at the peripheral part three holes, and the central pipe, having a perforation in the form of rectangular slots with a number of at least three, is connected with the central solid part of the disk, and sound absorption is located between the body and the central pipe the element in such a way that the holes of the disk are connected to the cavity of the location of the sound-absorbing element, characterized in that the sound-absorbing structure of the end inlet pipe is made in the form of a cylindrical helical spring, the turns of which are in axial section, made in the form of rigid and perforated walls, between which two layers : a sound-reflecting layer adjacent to the rigid wall and a sound-absorbing layer adjacent to the perforated wall, while the layer of sound-reflecting material is made of a complex prof silt, consisting of uniformly distributed hollow tetrahedra, allowing to reflect sound waves incident in all directions, and the perforated wall has the following perforation parameters: hole diameter - 3 ÷ 7 mm, perforation percentage 10 ÷ 15%, and the shape of the hole can be made in the form holes of a round, triangular, square, rectangular or rhomboid profile, while in the case of non-circular holes, the maximum diameter of a circle inscribed in a polygon should be considered as a conditional diameter, and Rockwool type mineral wool or URSA type mineral wool, or P-75 type basalt wool, or glass wool with glass fiber lining, or foamed polymer, such as polyethylene or polypropylene, with the surface of fibrous absorbers, are used as sound-absorbing material. treated with porous paints that allow air to pass through (for example, Acutex T), or coated with breathable fabrics or non-woven materials, such as Lutrasil.

Images