Diaphragm for high pressure pumps, compressors or the like
First Claim
1. A one piece molded plastics material diaphragm for high pressure pumps, compressors and the like which comprises a membrane having an outer peripheral margin providing an annular clamping area, an annular bending zone adjacent thereto, and a thickened central work area, said thickened central work area projecting from a rear face of the membrane, said bending zone increasing in thickness from the clamping area toward the work area, radially narrow transition zones between the work area and the bending zone and between the bending zone and clamping area, the thickness of the bending zone increasing from the transition zone between the bending zone and the clamping area to the transition zone between the bending zone and work area, and wherein the thickness of the bending zone adjacent the transition to the clamping area and adjacent the transition to the work area are determined according to the equation:
- ##EQU5## wherein k represents a factor from 1.1 through 5, h1 and h2 are thicknesses adjacent the clamping and working area respectively, d1 and d2 are the inner and outer diameters of the bending zone respectively and α
represents any assumed angular section extending from the center of the diaphragm through the transition zones.
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Abstract
Diaphragms for pumps, compressors and the like are provided with a substantially flat planar end face confronting the media being pumped or compressed and have an outer peripheral zone for clamping the circumference of the diaphragm in the pump or compressor housing, an annular intermediate flexing or bending zone adjacent the clamping area, and a central thickened work zone with the flexible bending zone increasing in thickness toward the central working zone. The bending or flexing of the annular intermediate zone is limited to one side of the flat planar end face and the bending stresses are minimized.
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Citations
7 Claims
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1. A one piece molded plastics material diaphragm for high pressure pumps, compressors and the like which comprises a membrane having an outer peripheral margin providing an annular clamping area, an annular bending zone adjacent thereto, and a thickened central work area, said thickened central work area projecting from a rear face of the membrane, said bending zone increasing in thickness from the clamping area toward the work area, radially narrow transition zones between the work area and the bending zone and between the bending zone and clamping area, the thickness of the bending zone increasing from the transition zone between the bending zone and the clamping area to the transition zone between the bending zone and work area, and wherein the thickness of the bending zone adjacent the transition to the clamping area and adjacent the transition to the work area are determined according to the equation:
- ##EQU5## wherein k represents a factor from 1.1 through 5, h1 and h2 are thicknesses adjacent the clamping and working area respectively, d1 and d2 are the inner and outer diameters of the bending zone respectively and α
represents any assumed angular section extending from the center of the diaphragm through the transition zones.
- ##EQU5## wherein k represents a factor from 1.1 through 5, h1 and h2 are thicknesses adjacent the clamping and working area respectively, d1 and d2 are the inner and outer diameters of the bending zone respectively and α
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2. A one piece molded plastics material diaphragm for separating the work and drive chamber of pumps, compressors and the like which comprises a disk having a free state displaying a thickened outer peripheral margin providing a radially extending clamping area, and a thickened rigid central work area and an annular bending zone joining the inner peripheral portion of the thickened clamping area with the outer peripheral portion of the thickened central work area, said disk in a free state having a substantially planar first face for confronting said working chamber and an opposite second face for confronting said drive chamber with the thickened central work area projecting into the drive chamber from said second face, and said bending zone being thinner than said clamping and working areas and having an inclined linear surface on the second face diverging from the planar first face increasing the thickness of the bending zone from the inner peripheral portion of the clamping area, and radially narrow transition zones merging the bending zone with the clamping and work areas, the disk having a first thickness at a first transition zone from the work area to the bending zone which is thicker than a disk second thickness at a second transition zone from the bending zone to the clamping zone substantially according to the formula d1 ·
- h12 =k·
d2 ˜
h22 where d1 is the diameter of the disk at the first transition zone and h1 is the first thickness, d2 is the diameter of the disk at the second transition zone and h2 is the second thickness, and k is from 1.1 through 5 whereby all of the flexing of the diaphragm is confined to the bending zone between the thicker clamping and work areas. - View Dependent Claims (3, 4, 5, 6, 7)
- h12 =k·
Specification