TH72059B - Vibration separator with liquid addition - Google Patents

Abstract

------18/12/2018------(OCR) Page 1 of 1 Page Summary of Invention In the liquid-filled vibration isolation apparatus, according to the first view of this fabrication, at least one of the membrane supports (11) and membrane holders (12) already have through holes (14). It is divided into multiple slots with one or more (15) cores. Each axis has a curve or refraction perpendicular to the thickness direction of the partition wall (9) ------------

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 18/12/2018 ------ (OCR) Page 1 of 3 pages Disclaimer 1. Liquid filling vibration isolation apparatus, consisting of: main parts connected to Vibration generator and vibration transmitter; Cylindrical parts connected to each other; The flexible part is connected to the cylindrical part at one end to the outer edge of the main part in a fluid tension manner; The diaphragm is attached to the other end of the cylindrical part, characterized by fluid tension; The fluid chamber is defined as the area inside the diaphragm, this area is filled with an incompressible liquid; And the partition wall divides the fluid chamber into the primary fluid chamber on the main part and the secondary fluid chamber on the diaphragm side, the membrane partition, the membrane support supports the membrane. , Membrane holder for holding and working with membrane support, deformation or allowable distance of membrane, and limited passage to connect the fluid chamber. Primary vs. secondary fluid chambers, membrane support and membrane holder each have a passage in the direction to the primary and secondary fluid chambers, respectively, where at least the membrane supports. The membrane and the membrane holder have through holes, which are divided into numerous chambers with one or more axes. Each axis has a curve or refraction shape perpendicular to the wall thickness direction where one or more axes are Each axis has a first and second section where the first extends to the edge of the through hole. And the first part has a curved or deflected shape protruding from the periphery of the hole in the circumferential direction around the core of the partition wall and where the second is laid along the circumference around the core from the first. Vibrate with the addition of fluid according to claim 1, where at least the membrane support and membrane holder have holes and are divided into multiple channels with one or more axes each. It is curved or refracted in a perpendicular to the direction, thickness of the partition wall and is made of synthetic resin. Page 2 of the amount of 3 pages. 3. Liquid-filling vibration isolation apparatus according to claim 1, where The t-axis is arranged in a circular shape. 4. A liquid-filled vibration isolation apparatus, according to claim 3, each axis is a spherical part of the arc shape. And the arc radius R, 0.5 to 2.0 times the radius D / 2 of the through hole. 5. The liquid-filled vibration isolation apparatus according to claim 1, where each axis is left is assigned a dimensionality. The thickness of the d-axis is greater than the width of the axis 6. The fluid-filled vibration separation instrument according to claim 1, where many channels are located, are defined with axes arranged in a circularly symmetrical manner. Plane 7. Liquid filled vibration isolation apparatus, consisting of: main parts connected to vibration generator and vibration transmitter; cylindrical parts connected to each other; flexible parts. Connected to the cylindrical part at the front end to the outer edge of the main part in a fluid tension manner; the diaphragm is attached to the other end of the cylindrical part in a taut manner. With Flow; the fluid chamber is defined as the area inside the diaphragm, this area is filled with an incompressible liquid; And the partition wall divides the fluid chamber into the primary fluid chamber on the main part and the secondary fluid chamber on the diaphragm side, the membrane partition, the membrane support supports the membrane. , Membrane holder for holding and working with membrane support, deformation or allowable distance of membrane, and limited passage to connect the fluid chamber. Primary vs. secondary fluid chambers, membrane supports and membrane chambers each have a through hole in the direction of the primary and secondary fluid chambers, respectively, where at least the support. Membrane and membrane holder have through holes that have three or more axes protrude within them and are arranged. Each axis extends from the edge of the through hole while avoiding the center of the through hole. And connected to the middle part of the axis that is bitten At that point, the through hole is divided into a large number of holes, pages 3 of the three pages where the axes are constituted. It is an essential part of at least one of the membrane supports and membrane retainer. And the axis is not a part of the structure that is left. The imaginary vector protrudes along the longitudinal axis of each axis in the protruding direction and the imaginary velocity of each non axis, through the center of the through hole. 8. The instrument for separating vibration with liquid addition as This is discussed in claim 7, where at least the membrane support and membrane holder have holes and axes made of synthetic resin. 9. Liquid-filled vibration isolation apparatus. According to claim 7, where each axis is left, the thickness of the d-axis is dimensioned. More than the width of the axes 1 0. Liquid-filled vibration isolation apparatus according to claim 7, where a large number of channels were left. Determined by the axes arranged in a circularly symmetrical manner perpendicular to the wall thickness direction 1 1. The instrument to separate the vibrations by adding a liquid according to the claim. 7, Each axis has a curvature or deflection perpendicular to the wall thickness direction 1 2. The instrument for vibration isolation by adding liquid according to claim 7, at the hole through The axis is arranged in a circular shape. 1. 3. The instrument vibration isolation by adding fluid according to claim 7, where the length of the throttle perpendicular to the center of the hole through the center throttle in the direction of the axial width is in. Range 2 to 5 times the dimensions of the axis width ------------ ------ 12/01/2018 ------ (OCR) page 1 of the number 3 pages. Disclaimer 1. Liquid filled vibration separator, consisting of: main parts connected to a vibration generator or a vibration transmitter; Other secret-connected cylindrical parts; The elastic holding piece connects the cylindrical piece at one end to the outer edge of the Main parts in a fluid tension manner; The diaphragm is attached to the other end of the cylindrical part in a taut way with a flow; The fluid chamber is defined as the area inside the diaphragm, this area is filled with an incompressible fluid; and the partition divides the fluid chamber into the primary fluid chamber on the main side and chamber. Secondary fluid on the diaphragm side, Membrane partition, Membrane carrier to support the membrane, Anchored and worked with the membrane support, the deformation allowance or the permissible distance of the membrane, and the limited pathway to connect the primary fluid chamber to the secondary fluid chamber, the Support for the membrane and each membrane holder has a through hole in the direction to the primary fluid chamber and The secondary fluid chamber, respectively, where at least the membrane support or membrane holder has a hole through it and is divided into a number of compartments. With one or more cores Each axis is a curve or a refraction perpendicular to the direction of The thickness of the partition wall where one or more axes are Each axis has a first and second section where the first extends to the edge of the through hole. And the part one mentioned is curved or refracted Protruding from the edge of the hole in the circumferential direction around the axis of the partition wall and where the second part is laid along the circumference around the core from part one 2. a liquid-filled vibration isolation apparatus according to claim 1, where Which at least the support A membrane or membrane holder has a through hole and is divided into many compartments with one or more axes. Each axis has a curvature or refraction in the secret perpendicular direction, the thickness of the partition wall and is made of synthetic rubber, p. 2 of the amount of 3 p.3. Where the hole through which the axis is Arrange in a circle. 4. Vibration separator with liquid addition according to claim 3, each axis is part. Emphasize the curves of a curved figure. The arc radius R is 0.5 to 2.0 times that of the radius D / 2 of the pass hole. 5. The liquid-filled vibration isolation apparatus according to claim 1, where each axis is The thickness dimension of the d-axis is given greater than the width of the W-axis 6. The liquid-filled vibration separator according to claim 1, where many channels are Defined with axes arranged in a circularly symmetrical manner. 7. Liquid-filled vibration separator, consisting of: main parts connected to a vibration generator or a vibration transmitter; Cylindrical parts connected to each other; A flexible piece is connected to a cylindrical piece at one end to the outer edge of the Main parts in a fluid tension manner; The diaphragm is attached to the other end of the cylindrical part in a taut way with a flow; The fluid chamber is defined as the area inside the diaphragm, this area is filled with an incompressible liquid; And the partition wall divides the fluid chamber into primary fluid chambers on the side, main parts and chambers. Secondary fluid on the diaphragm side, Membrane partition, Membrane carrier to support the membrane, Clamp and work with the membrane support, the deformation allowance or the permissible distance of the membrane, and the limited passage to connect the primary fluid chamber to the secondary fluid chamber, the Each membrane support and holder has a through hole in the direction of the primary fluid chamber. And secondary fluid chambers, respectively, where at least the membrane support or membrane holder has a through hole with three or more cores. Protruding within that through hole and arranged Each axis extends from the edge of the through hole while avoiding the center of the through hole and is connected to the middle part of the milling axis. Hence, the through holes are divided into a number of holes, pages 3 of the number 3, where the axes are constituted. It is an integral part of at least one membrane support and membrane holder, and the axis is not part of the membrane where the imaginary vectors protrude along the long axis of each axis. In the direction of filed The expansion and imaginary vector of each axis does not pass through the center of the through hole 8. The fluid-filled vibration isolation apparatus described in claim 7, where at least the membrane support or the membrane holder can be The membrane has holes and a core made of synthetic rubber. 9. Liquid-filled vibration isolation apparatus according to claim 7, where each core is Determine the thickness dimension of the d-axis. Greater than the width of the axis W 1 0. Liquid-filled vibration separator according to claim 7, where many channels are Determined with the axes arranged in a circularly symmetrical manner perpendicular to the direction, thickness of the partition wall 1. 1. The instrument to separate the vibrations by adding liquid according to claim 7, where each axis is shaped. Curve or deflection perpendicular to the wall thickness direction 1 2. Vibration separation apparatus by adding fluid according to claim 7, where the hole through which the axis is Arrange in a circular shape. 1. 3. Vibration separator with liquid filling according to claim 7, where the vertical length The square from the center of the through hole to the center line in the direction of the axis width is 2 to 5 times the width W of the axis. ------------ Correction 08/09/16 1. Separator. Vibration with liquid addition, consisting of: main parts connected to a vibration generator or a vibration transmitter; Cylindrical parts connected to each other; A flexible piece is connected to one end of the cylindrical piece so that the outer edge of the The main parts are in a fluid tension; The diaphragm is attached to the other end of the cylindrical part in a taut way with a flow; The fluid chamber is defined as the area inside the diaphragm, this area is filled with an incompressible fluid; And the partition wall divides the fluid chamber into primary fluid chambers on the side, main parts and chambers. Secondary fluid on the diaphragm side, Membrane partition, Membrane carrier to support the membrane, Anchored and worked with the membrane support, the deformation allowance or the permissible distance of the membrane, and the limited pathway to connect the primary fluid chamber to the secondary fluid chamber, the Support for the membrane and each membrane holder has a through hole in the direction to the primary fluid chamber and The secondary fluid chamber, respectively, at least the membrane support or membrane holder has holes and is divided into numerous compartments. With one or more axes Each axis is a curve or a refraction perpendicular to the direction of The thickness of the partition wall, and the central axis along the longitudinal direction of each axis are not aligned in the same Perpendicular to the wall thickness direction 2. The fluid-filled vibration isolation apparatus described in claim 1, at least the membrane support or membrane holder has a through hole. And are divided into numerous channels with one or more axes. Each axis has a curve or deflection shape perpendicular to the direction, thickness of the partition wall and is made 3. The liquid-filled vibration isolation apparatus, as discussed in claim 1 or 2, has a through hole where the axial plate holes are arranged in a circular shape. Add liquids, as mentioned in claim 3, each axis is the arc segment of the arc shape. And the arc radius R, 0.5 to 2.0 times the radius D / 2 of the through hole. 5. Vibration separator with liquid addition according to one of the claims 1 to 4, each axis. The thickness of the d-axis was defined to be greater than the width of the W-axis 6. The fluid-filled vibration isolation apparatus according to one of the claims 1 to 5, many of the chambers were determined with the axes. They are arranged in a circularly symmetrical manner. 7. Liquid-filled vibration separators, consisting of: main parts connected to a vibration generator or a vibration transmitter; Cylindrical parts connected to each other; A flexible piece is connected to a cylindrical piece at one end to the outer edge of the Main parts in a fluid tension manner; The diaphragm is attached to the other end of the cylindrical part in a taut way with a flow; The fluid chamber is defined as the area inside the diaphragm, this area is filled with an incompressible liquid; And the partition wall divides the fluid chamber into primary fluid chambers on the side, main parts and chambers. Secondary fluid on the diaphragm side, Membrane partition, Membrane vice to support the membrane, Membrane holder for Clamp and work with the membrane support, the deformation allowance or the permissible distance of the membrane, and the limited passage to connect the primary fluid chamber to the secondary fluid chamber, the Each membrane support and holder has a through hole in the direction of the primary fluid chamber. And the secondary fluid chamber, respectively, at least the membrane support or membrane holder has a through hole where three or more cores are protruding. Inside that through hole and is arranged Each axis extends from the edge of the through hole in a direction, avoiding the center of the hole. Through and connect to the middle part of the axis next to Thus, a large number of through holes were removed. 8. Liquid filling vibration isolation instrument as described in claim 7, at least the membrane support or membrane holder had a through hole. 9. The fluid-filled vibration isolation apparatus described in claim 7 or 8, each axis is dimensioned for the thickness of the d-axis rather than the width of the axis. W 1 0. Liquid Add-On Vibration Separator As mentioned in Claims 7 to 9, many channels are defined with axes arranged in a circular equation perpendicular to the Partition Thickness Direction 1 1. Liquid-filled vibration isolation instrument according to one of the claims 7 to 10, each axis has a curve or deflection perpendicular to the thickness direction. 1 2. Liquid-filled vibration isolation apparatus according to one of the claims 7 through 11, through holes with axes arranged in a circular shape 1 3. Vibration separator. Liquid filling according to one of the claims of Articles 7 through 12, the perpendicular line from the center of the through hole to the diameter in the direction of the axis width, the length falls from 2 to 5 times the width W of the Axis 1 4. Liquid-filled vibration isolation apparatus according to one of the claims of Articles 7 to 13, the shape of the through holes, including the bulk cavity shapes, not asymmetric. -------------------------------------------------- ------------------ 1. Liquid filled vibration separator, consisting of: main parts connected to a vibration generator or a vibration transmitter; Cylindrical parts connected to each other; A flexible piece is connected to one end of the cylindrical part to make the outer edge. Of the main parts in a fluid tension; The diaphragm is attached to the other end of the cylindrical part in a taut way with a flow; The fluid chamber is defined as the area inside the diaphragm, the area being filled with incompressible liquid; And the partitions separating the fluid chamber into the primary fluid chamber on the top side, the main part and the chamber. Secondary fluid on the diaphragm side, membrane part, membrane support, membrane holder for limiting working with Membrane carrier, permissible amount or allowable distance of membrane, and path Limited to connect the primary fluid chamber to the secondary fluid chamber, the membrane support and membrane holder have a through hole in the direction to the primary fluid chamber and the chamber. The secondary fluid, respectively, the membrane support and / or the membrane holder has numerous cavity cross-sections with one or more axes.Each axis has a curved or deflected shape perpendicular to the plane. Of the direction, thickness of the partition wall part