IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0110288
(2005-04-20)
|
등록번호 |
US-7306030
(2007-12-11)
|
발명자
/ 주소 |
- Luvisotto,Eric
- Peric,Yuri
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
46 |
초록
▼
An insert snaps into position in a manifold of a fluid device to perform a baffling function. The insert includes a cradle having a base portion and opposed spring fingers for retaining the insert in position. The base portion can be completely closed to prevent flow through the insert, or have a sp
An insert snaps into position in a manifold of a fluid device to perform a baffling function. The insert includes a cradle having a base portion and opposed spring fingers for retaining the insert in position. The base portion can be completely closed to prevent flow through the insert, or have a spring flapper valve or bimetallic flapper valve to permit partial or full flow through the insert under predetermined conditions.
대표청구항
▼
The invention claimed is: 1. A heat exchanger for use with a heat exchange fluid, said heat exchanger comprising: a heat exchange element including: a pair of manifolds; and a plurality of heat exchange flow passages extending between the manifolds for the passage of said heat exchange fluid throug
The invention claimed is: 1. A heat exchanger for use with a heat exchange fluid, said heat exchanger comprising: a heat exchange element including: a pair of manifolds; and a plurality of heat exchange flow passages extending between the manifolds for the passage of said heat exchange fluid through the heat exchange element, wherein one of said manifolds has a longitudinal flow distribution passage defined by a peripheral wall formed with a longitudinally-spaced plurality of opposed recesses therein; and an insert including a cradle dimensioned to be axially slidably located in the flow distribution passage in an operative position to block flow through the flow distribution passage, the cradle having a peripheral wall portion engaging said manifold peripheral wall in snug-fitting relation, a base portion spanning the cradle peripheral wall portion, and oppositely-facing, resilient, spaced-apart fingers including tab portions extending outwardly of the base portion and engaged in opposed recesses to retain the insert in said operative position wherein the operative position of the insert is at an intermediate location in the manifold, thereby to separate the plurality of heat exchange flow passages into two subpaths connected in series to one another, each subpath being composed of a group of the heat exchange flow passages connected in parallel to one another. 2. A heat exchanger according to claim 1 wherein there are four spaced-apart fingers, each finger having a V-shaped tab portion, the apex of the tab portion extending outwardly to engage a respective one of said opposed recesses. 3. A heat exchanger according to claim 2 wherein the base portion defines a fluid port adapted to permit heat exchange fluid flow therethrough and thus through the flow distribution passage, and further comprising a flapper having a mounting part secured to the cradle and a resilient tongue part hingeably connected to the mounting part to be movable through flexure of the tongue part from a closed position at least partially closing the fluid port, to an open position, wherein the tongue part is spaced from the fluid port to permit flow through the fluid port. 4. A heat exchanger according to claim 3 wherein the flapper is biased such that, in use, when the pressure drop across the fluid port is less than a predetermined value, the tongue part assumes the closed position such that flow through the fluid port is substantially arrested, and when the pressure drop across the fluid port corresponds to or exceeds the predetermined value, the tongue part assumes the open position to permit flow through the fluid port. 5. A heat exchanger according to claim 3 wherein at least the tongue part is bimetallic, so that the tongue part moves between the closed and open positions in response to temperature variations. 6. A heat exchanger according to claim 1, wherein the fingers are resiliently deformable from an outwardly disposed arrangement into an inwardly deformed arrangement, the fingers being in their outwardly disposed arrangement when the insert is retained at its operative position, and the cradle being slidably located in said flow distribution passage when the fingers are in their inwardly deformed arrangement. 7. A heat exchanger for use with a heat exchange fluid, said heat exchanger comprising: a heat exchange element including: a pair of manifolds; and a plurality of heat exchange flow passages extending between the manifolds for the passage of said heat exchange fluid through the heat exchange element, wherein one of said manifolds has a flow distribution passage defined by a peripheral wall formed with opposed recesses therein; an insert including a cradle dimensioned to be slidably located in the flow distribution passage in an operative position to block flow through the flow distribution passage, the cradle having a peripheral wall portion engaging said manifold peripheral wall in snug-fitting relation, a base portion spanning the cradle peripheral wall portion, and opposed, resilient, outwardly disposed fingers engaged in the opposed recesses to retain the insert in said operative position; the base portion further defining a fluid port adapted to permit heat exchange fluid flow therethrough and thus through the flow distribution passage, and further comprising a flapper having a mounting part secured to the cradle and a resilient tongue part hingeably connected to the mounting part to be movable through flexure of the tongue part from a closed position at least partially closing the fluid port, to an open position, wherein the tongue part is spaced from the fluid port to permit flow through the fluid port; the flapper being biased such that, in use, when the pressure drop across the fluid port is less than a predetermined value, the tongue part assumes the closed position such that flow through the fluid port is substantially arrested, and when the pressure drop across the fluid port corresponds to or exceeds the predetermined value, the tongue part assumes the open position to permit flow through the fluid port; and wherein the operative position of the insert is at an intermediate location in the manifold, thereby to separate the plurality of heat exchange flow passages into two subpaths, each subpath being composed of a group of the heat exchange flow passages connected in parallel to one another, the subpaths being connected in series to one another when the tongue part is disposed in the closed position and in parallel to one another when the tongue part is disposed in the open position, and wherein, the heat exchange fluid passes in series through two subpaths when the pressure drop across the fluid port is less than the predetermined value, and the heat exchange fluid bypasses the two subpaths when the pressure drop across the fluid port corresponds to or exceeds the predetermined value. 8. A heat exchanger according to claim 7, wherein there are four spaced-apart fingers, each finger having a V-shaped tab portion, the apex of the tab portion extending outwardly to engage a respective one of said opposed recesses when the insert is operatively positioned. 9. A heat exchanger for use with a heat exchange fluid, said heat exchanger comprising: a heat exchange element including: a pair of manifolds; and a plurality of heat exchange flow passages extending between the manifolds for the passage of said heat exchange fluid through the heat exchange element, wherein one of said manifolds has a flow distribution passage defined by a peripheral wall formed with opposed recesses therein; an insert including a cradle dimensioned to be slidably located in the flow distribution passage in an operative position to block flow through the flow distribution passage, the cradle having a peripheral wall portion engaging said manifold peripheral wall in snug-fitting relation, a base portion spanning the cradle peripheral wall portion, and opposed, resilient, outwardly disposed fingers engaged in the opposed recesses to retain the insert in said operative position; the base portion further defining a fluid port adapted to permit heat exchange fluid flow therethrough and thus through the flow distribution passage, and further comprising a flapper having a mounting part secured to the cradle and a resilient tongue part hingeably connected to the mounting part to be movable through flexure of the tongue part from a closed position at least partially closing the fluid port, to an open position, wherein the tongue part is spaced from the fluid port to permit flow through the fluid port; at least the tongue part of the flapper being bimetallic, so that the tongue part moves between the closed and open positions in response to temperature variations; wherein the operative position of the insert is at an intermediate location in the manifold, thereby to separate the plurality of heat exchange flow passages into two subpaths, each subpath being composed of a group of the heat exchange flow passages connected in parallel to one another, the subpaths being connected in series to one another when the flapper is disposed in its closed configuration and in parallel to one another when the flapper is disposed in its open configuration, and wherein the flow of heat exchange fluid is split into two portions which pass through respective subpaths when the temperature of the heat exchange fluid is less than the predetermined value, and the heat exchange fluid passes sequentially through the two subpaths when the temperature of the heat exchange fluid corresponds to or exceeds the predetermined value.
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