Noise-reducing fluid-flow devices
First Claim
1. A noise-reducing fluid flow device comprising an elongate housing having an inlet at one end thereof, an outlet at an opposite end thereof, and a passageway for carrying a stream of pressurized fluid from said inlet to said outlet, said one end being adapted for connecting said inlet to a source of pressurized fluid and said outlet being open to the atmosphere exterior of said housing;
- and a noise-silencing element for reducing the noise level of said stream of pressurized fluid passing out of said passageway via said outlet, said noise-silencing element being positioned wholly within said housing and extending fuly across said passageway at said outlet, at least a portion of said passageway commencing at the upstream side of said noise-silencing element and extending toward said inlet being unobstructed to flow of pressurized fluid, said noise-silencing element being frictionally gripped by the internal surface of said housing and being made of a knitted metal wire mesh fabric that has been rolled up and compressed and molded into a self-supporting, dense, porous mass with the wire threads of said fabric intermingled and forming a myriad of relatively short length spring wire spans that are oriented randomly in said mass, said fabric being made of metal wire with a substantially round cross-section.said housing being made of a material with a hardness less than that of the metal wire threads of said wire mesh fabric;
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Accused Products
Abstract
The invention consists of provision of novel noise-silencing fluid-discharge devices which provide superior noise reduction. The devices comprise one or more flow-modifying elements which are made by rolling and compacting knitted metal wire mesh fabric. A preferred embodiment of the invention is an air discharge nozzle which is characterized by a high air discharge velocity while simultaneously effecting a sharp reduction in noise.
33 Citations
19 Claims
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1. A noise-reducing fluid flow device comprising an elongate housing having an inlet at one end thereof, an outlet at an opposite end thereof, and a passageway for carrying a stream of pressurized fluid from said inlet to said outlet, said one end being adapted for connecting said inlet to a source of pressurized fluid and said outlet being open to the atmosphere exterior of said housing;
- and a noise-silencing element for reducing the noise level of said stream of pressurized fluid passing out of said passageway via said outlet, said noise-silencing element being positioned wholly within said housing and extending fuly across said passageway at said outlet, at least a portion of said passageway commencing at the upstream side of said noise-silencing element and extending toward said inlet being unobstructed to flow of pressurized fluid, said noise-silencing element being frictionally gripped by the internal surface of said housing and being made of a knitted metal wire mesh fabric that has been rolled up and compressed and molded into a self-supporting, dense, porous mass with the wire threads of said fabric intermingled and forming a myriad of relatively short length spring wire spans that are oriented randomly in said mass, said fabric being made of metal wire with a substantially round cross-section.
said housing being made of a material with a hardness less than that of the metal wire threads of said wire mesh fabric;
- and a noise-silencing element for reducing the noise level of said stream of pressurized fluid passing out of said passageway via said outlet, said noise-silencing element being positioned wholly within said housing and extending fuly across said passageway at said outlet, at least a portion of said passageway commencing at the upstream side of said noise-silencing element and extending toward said inlet being unobstructed to flow of pressurized fluid, said noise-silencing element being frictionally gripped by the internal surface of said housing and being made of a knitted metal wire mesh fabric that has been rolled up and compressed and molded into a self-supporting, dense, porous mass with the wire threads of said fabric intermingled and forming a myriad of relatively short length spring wire spans that are oriented randomly in said mass, said fabric being made of metal wire with a substantially round cross-section.
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2. A noise-reducing fluid flow device comprising a housing having an inlet and an outlet and a passageway for carrying a pressurized fluid from said inlet to said outlet, and a pair of mutually spaced noise-reducing elements positioned within said housing and extending fully across said passageway between said inlet and outlet with the space between said noise-reducing elements being unobstructed, each of said noise-reducing elements being made of a knitted metal wire mesh fabric that has been convoluted and compressed and molded into a self-supporting, dense, porous mass consisting of a multiplicity of relatively short spring wire spans which are substantially uniformly distributed and randomly directed and contact each other at a multiplicity of points within the mass, one of said noise-reducing elements being located at said outlet and having an inwardly curved surface extending across said passageway, said inwardly curved surface being exposed to the atmosphere exterior of said housing.
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3. A method of producing a gas silencer device comprising:
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forming a noise-silencing element by convoluting a ribbon of knitted metal wire mesh fabric so as to form a body characterized by a plurality of adjacent layers, and compressing said body in a direction extending transversely of the length of said ribbon so as to form a dense, porous element, and securing said element in an elongate passageway in a housing having an inlet and outlet for said passageway so that said element extends fully across said passageway, said housing being made of a material with a hardness less than that of the metal wire threads of said fabric and said element being secured in said passageway by forcing portions of the wire threads of said element into abrading and mechanically interlocking engagement with said housing. - View Dependent Claims (4, 5, 6, 7, 8, 9)
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- 10. A noise-reducing fluid flow device comprising a housing defining a passageway for carrying a pressurized fluid stream, and a noise-silencing element positioned within and extending fully across said passageway, said noise-silencing element being made of a knitted metal wire mesh fabric that has been rolled up and compressed and molded intno a self-supporting, dense, porous mass, said noise-silencing element comprising a first body section having a concave end surface and a second tubular rim section formed integral with and extending away from the peripheral portion of said concave end surface, and further including a plurality of ports in said housing communicating with said rim section.
- 12. A noise-reducing fluid flow device comprising a housing defining a passageway for carrying a pressurized fluid stream, and a noise-silencing element positioned within and extending fully across said passageway, said noise-silencing element being made of a knitted metal wire mesh fabric that has been rolled up and compressed and molded into a self-supporting, dense, porous mass, said housing being made of a material with a hardness less than that of the metal wire threads of said wire mesh fabric and said noise-silencing element being frictionally gripped by the internal surface of said housing.
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18. A noise-reducing fluid flow device comprising a housing having an inlet and an outlet and a passageway for carrying a pressurized fluid from said inlet to said outlet, and a pair of mutually spaced noise- reducing elements positioned within said housing and extending fully across said passageway between said inlet and outlet with the space between said noise- reducing elements being unobstructed, one of said noise-reducing elements being located at said outlet and comprising a first body section having a concave end surface and a second tubular rim section formed integral with and extending away from the peripheral portion of said concave end surface, said concave end surface being exposed directly to the atmosphere exterior of said housing, each of said noise-reducing elements being made of a knitted metal wire mesh fabric that has been convoluted and compressed and molded into a self-supporting, dense, porous mass consisting of a multiplicity of relatively short spring wire spans which are substantially uniformly distributed and randomly directed and contact each other at a multiplicity of points within the mass.
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19. A noise-reducing fluid flow device comprising a housing having an inlet and an outlet and a passageway for carrying a pressurized fluid from said inlet to said outlet, said inlet being adapted for connection to a supply of fluid under pressure, and a pair of mutually spaced noise-reducing elements positioned within said housing and extending fully across said passageway between said inlet and outlet with the space between said noise-silencing elements being unobstructed, one of said noise-reducing elements being located at said outlet, each of said noise-silencing elements being made of a knitted metal wire mesh fabric that has been convoluted and compressed and molded into a self-supporting, dense, porous mass consisting of a multiplicity of relatively short spring wire spans which are substantially uniformly distributed and randomly directed and contact each other at a multiplicity of points within the mass, said one noise-silencing element having a peripheral portion engaging the internal surface of said housing, and said housing having at least one side port extending through said internal surface and directed at and communicating with said peripheral portion, whereby to permit escape of fluid from said housing via said at least one port when said outlet is blocked off.
Specification