TH47635B - Connection point vent - Google Patents

Abstract

The DC60 damper consists of a piston that has at least a compression fluid passage. At most one channel and at least one elongation channel. The compression tongue assembly will Closed through at least one compression chamber, and the extension valve assembly closes the passage through the At least one opening is stretched. The passageway for interconnection is connected through the flow of fluid. Compress at least one channel and at least one elongation fluid passage to determine The scope of the flow path opened through the piston Vibration dampers consist of pistons with a minimum of compression fluid passage. At most one channel and at least one exit channel. The compression tongue assembly will Closed through at least one compression chamber, and the extension valve assembly closes the passage through the At least one opening is stretched. Interconnected pathways are connected through fluid. Compress at least one channel and at least one elongation fluid passage to determine The scope of the flow path opened through the piston

Claims (2)

Disclaimer (all) which will not appear on the announcement page: EDIT 07/05/15 1. Vibration dampers which include: pressure pipes that define the working cavity; The piston that has been positioned within the said working cavity. Which the piston will Divide the above working cavity into the upper working cavity and the bottom working cavity; The first compression passage extends through the piston between the upper working cavity. As above and below thereof; First paired compression tongue assembly, first paired annular support Set on such a piston; Which one such compression valve assembly closes through the compression at One such; The first elongation that extends through the piston between the upper working cavity. As above and below: one extension valve assembly that joins the second pair of the annular support Set on the piston said Which one such extension valve assembly closes the passage through the One such; And passageways to interconnect, arranged inward along the radius from the passageway Compress the first one, inward along the radius from the pass through the first such extension. And that filed through Such piston These interconnected passageways define the open flow path. A continuous exit that extends from the above working cavity through one such extension. All through the aforementioned interconnection, through all one such compression And into the bottom working cavity thereof The second compression passageway is positioned radially outward from the compression passageway. Compresses the first one and extends through the piston between the above top working cavity and the Work below as mentioned; A second compression valve assembly that coordinates the said piston. Which the tongue assembly Such second compression closes the way through such second compression. A second elongation pass that is positioned radially outward from the passageway. Stretched out at one such And that protrudes through the said piston between the above working cavity and the Bottom thereof; And a second extension tongue assembly that coordinates the said piston. Which the tongue assembly The second extension closes the passage through the second extension. 2. Vibration damper, according to claim 1, where the first compression valve assembly. It will include a first tongue plate that coordinates the piston. Where the cavity of the first fluid will be Being formed between the first tongue plate and the piston. Through which to connect with each other It will be connected with the first fluid cavity. 3. Vibration damper according to claim 1, where the valve assembly extends at one. It will include a first tongue plate that coordinates the piston. Where the cavity of the first fluid will Has been formed between the first tongue plate and the piston. Through which to connect between Each of them will have a connection with the first fluid cavity. 4. Vibration damper according to claim 3, where the first compression valve assembly. It consists of a second disc that coordinates the piston. Where the second fluid cavity will be Gets formed between the a second flange and the piston Through which to connect with each other It will have the same characteristics as the second fluid cavity. 5. Vibration damper according to claim 1, which is also included through the passage. A number of first elongation that pass through the piston between the above working cavity and Below mentioned Which the passageway to interconnect such will have a connection with each other through 6. Vibration dampers according to claim 1, which are also included via the A number of first compression protruding through the piston between the above working cavity and Below mentioned Which the passageway to interconnect such will have a connection with each other through 7. Vibration damper according to claim 6, which is also included via the A number of first elongation that pass through the piston between the above working cavity and Below mentioned Which the passageway to interconnect such will have a connection with each other through 8. The vibration damper according to claim 1, which is also included through the pass. A certain number of first compression and a number of second compression passages 9. Vibration dampers according to claim 1, which are incorporated further through. A number of first elongation and one number of second elongation passages 1 0. Vibration dampers according to claim 9, which are also included through the pass. First compression and one second compression path 1 1. Vibration damper according to claim 1 where the first compression pass, the first elongation pass. And the aforementioned passageway to interconnect shall be bounded The flow path between the above and below operating cavity, which is always open, 1 2. Vibration damper according to claim 1, where the piston has one side, which is Located next to the upper working cavity and the second side next to the Work below it, with a continuous open flow path stretching from one side. From the second side to the second side, then from the second side to the one said, and then Then from the one side to the second side -------------------------------------------------- ------------------------------------------- 1. Vibration damper Which includes: a pressure pipe that defines the working cavity boundary; The piston that has been positioned within the said working cavity. Which the piston will Divide the above working cavity into the upper working cavity and the bottom working cavity; The first compression passage extends through the piston between the upper working cavity. As above and below thereof; First paired compression tongue assembly, first paired annular support Set on such a piston; Which one such compression valve assembly closes through the compression at One such; The first elongation that extends through the piston between the upper working cavity. As above and below: one extension valve assembly that joins the second pair of the annular support Set on the piston said Which one such extension valve assembly closes the passage through the One such; And passageways to interconnect, arranged inward along the radius from the passageway Compress the first one, inward along the radius from the pass through the first such extension. And that filed through Such piston These interconnected passageways define the open flow path. A continuous exit that extends from the above working cavity through one such extension. All through the aforementioned interconnection, through all one such compression And into the bottom working cavity thereof The second compression passageway is positioned radially outward from the compression passageway. Compresses the first one and extends through the piston between the above top working cavity and the Work below as mentioned; A second compression valve assembly that coordinates the said piston. Which the tongue assembly Such second compression closes the way through such second compression. A second elongation pass that is positioned radially outward from the passageway. Stretched out at one such And that protrudes through the said piston between the above working cavity and the Bottom thereof; And a second extension tongue assembly that coordinates the said piston. Which the tongue assembly The second extension closes the passage through the second extension. 2. Vibration damper, according to claim 1, where the first compression valve assembly. It will include a first tongue plate that coordinates the piston. Where the cavity of the first fluid will be Being formed between the first tongue plate and the piston. Through which to connect with each other It will be connected with the first fluid cavity. 3. Vibration damper according to claim 1, where the valve assembly extends at one. It will include a first tongue plate that coordinates the piston. Where the cavity of the first fluid will Has been formed between the first tongue plate and the piston. Through which to connect between Each of them will have a connection with the first fluid cavity. 4. Vibration damper according to claim 3, where the first compression valve assembly. It consists of a second disc that coordinates the piston. Where the second fluid cavity will be Gets formed between the a second flange and the piston Through which to connect with each other It will have the same characteristics as the second fluid cavity. 5. Vibration damper according to claim 1, which is also included through the passage. A number of first elongation that pass through the piston between the above working cavity and Below mentioned Which the passageway to interconnect such will have a connection with each other through 6. Vibration dampers according to claim 1, which are also included via the A number of first compression protruding through the piston between the above working cavity and Below mentioned Which the passageway to interconnect such will have a connection with each other through 7. Vibration damper according to claim 6, which is also included via the A number of first elongation that pass through the piston between the above working cavity and Below mentioned Which the passageway to interconnect such will have a connection with each other through 8. The vibration damper according to claim 1, which is also included via A certain number of first compression and a number of second compression passages 9. Vibration dampers according to claim 1, which are incorporated further through. A number of first elongation and a number of second elongation passages 1 0. Vibration dampers according to claim 9, which are further included, through One number of compression and one number of second compression path 1. 1. Vibration dampers pursuant to claim 1 where the first compression passageway, the aforementioned elongation passageway, and the pass to such interconnection are bounded. The path of the flow between the above-mentioned top and bottom operating cavity, which is always open. 2. Vibration dampers according to claim 1, where the piston has one side that is Located next to the upper working cavity and the second side next to the Work below it, with a continuous open flow path stretching from one side. From the second side to the second side, then from the second side to the one said, and then Then from the one side to the second side