The present invention relates to a drawn cup-type heat exchanger configured by stacking in plural number a tube element containing an inner fin inside a pair of cup plates.
Heat exchangers such as an oil cooler is utilized, for example, when an engine oil of an automobile is cooled with cooling water. As a heat exchanger, a heat exchanger of a drawn cup-type, which is configured by stacking in plural number a tube element containing an inner fin inside a pair of cup plates, is employed in many cases.
In
In
Plural tube elements 1 are joined each other in a stacked state to form a core portion of the heat exchanger.
In
At both end portions in the longitudinal direction of the containing portion 4 of each of cup plates 2a, 2b, a pair of rectangular-circular cup portions 5 communicating in the stack direction are formed, and as shown in
In a case where stacked plural tube elements 1 are joined each other by brazing or the like to form a core portion of a heat exchanger, each of cup plates 2a, 2b, an inner fin 3 and an outer fin 7 are also joined at the same time. By joining the inner fin 3, whose entire shape in a plane is flat, with an internal surface of containing portions 4 of cup plates 2a, 2b, the upper surface thereof and the lower surface thereof facing each other, the whole of the tube element 1 is reinforced and pressure resistance strength is secured. For that purpose, it is necessary that each of these parts are arranged at predetermined mutual relative positions and are entirely joined while keeping the arranged state.
However, slight displacement often occurs in a temporary assembling process or a joining process. Displacement that occurs when the inner fin 3 is joined, in particular, affects the performance of an exchanger and largely affects the compressive strength thereof.
Therefore, until now, to prevent displacement of the inner fin 3 to be set to the cup plates 2a, 2b, a method is employed in which a dowel to be an obstacle for preventing movement is set up on a cup 5 side of the containing portion 4 in the cup plates 2a, 2b so that movement of the inner fin 3 toward a cup portion 5 side is prevented with the dowel.
However, the dowel position is at an inner side of the extremity in the longitudinal direction of the containing portion 4 and, on a side nearer to the extremity, there is no joining between an inner surface of the containing portion 4 and the upper/lower surface of the inner fin 3, and the strength of the entire tube element 1 is reduced and the pressure resistance strength is reduced.
In other words, the presence of this unjoined part increases the amount of change in shape relative to inner pressure and, since stress concentrates to the dowel fixed to the cup plates 2a, 2b, it is difficult to secure pressure resistance strength, particularly, in a heat exchanger for which a high specification about pressure proof is demanded.
To avoid this problem, one possible solution is to make the thickness of the cup plates 2a, 2b and/or the outer fin 7 larger, but this will bring about other problems such as weight increase and cost increase.
To join the cup plates 2a, 2b each other, if a small flange portion is formed on a periphery of the cup plate, in a case where the requirement is to secure the opening area of a circulation hole, the whole of a heat exchanger increases in size by the small flange portion. On the other hand, in a case where the requirement is to avoid the increase in size, the opening area of the circulation hole decreases by the small flange portion to increase circulation resistance to fluid.
Consequently, the present invention aims at providing a new heat exchanger with which these problems have been solved.
A first invention of the present inventions is a drawn cup-type heat exchanger configured by stacking in plural number a long and thin tube element containing an inner fin inside a pair of cup plates, in which the cup plates have a flat containing portion containing the inner fin and a pair of cup portions provided at both end portions of the containing portion; a circulation hole for communicating fluid into each of tube elements to be stacked is formed in the cup portions; and, to position both end portions of the inner fin to be contained in front of the circulation hole of the cup portions, a corner portion is formed at least one end portion in a width direction at both extremities in a longitudinal direction of the containing portion (claim 1).
In a second invention of the present inventions, in the first invention, the corner portion is configured so that the inner fin can be positioned in a state where an end portion thereof projects into an inside of the cup portion (claim 2).
In a third invention of the present inventions, in the first invention or in the second invention, cup portions in the pair of cup plates facing each other are joined in a state where side faces of circulation holes along a circulation direction in respective cup portions overlap each other (claim 3).
In a fourth invention of the present inventions, in the third invention, an end portion of a side face of the cup plate 2a lying on the inside in the overlap does not project, exceeding a height of the inner fin, into the other cup plate 2b side in a state where the pair of cup plates 2a, 2b and the inner fin have been combined (claim 4).
In a fifth invention of the present inventions, in the fourth invention, a step portion is formed on the side face of the cup plate lying on the outside in the overlap and an end portion of the side face rising from the step portion is expanded outward, and joining has been performed in a state where an end portion of the side face of the cup plate lying on the inside in the overlap is in contact with a bottom surface of at least a part of the step portions (claim 5).
In the first invention, a corner portion 9 is formed, to position both end portions of an inner fin to be contained in a containing portion in front of circulation holes of the cup portion 5 of cup plates 2a, 2b, at at least one end portion in a width direction at both extremities in a longitudinal direction of the containing portion. As a consequence of this configuration, it is unnecessary to provide an obstacle such as a dowel inside the containing portion 4, and, by matching both end portions of the inner fin 3 with the corner portions 9 lying at the extremities of the containing portion 4, the inner fin 3 and the cup plates 2a, 2b can be positioned each other. Consequently, since parts not joined with the inner fin in a cup plate decrease, pressure tightness of the tube element 1 is improved and reduction in thickness of respective parts configuring the tube element 1 is possible.
In the second invention, the extremity of the inner fin 3 is projected into the inside of the cup portion 5 in a state where the end portion of an inner fin is abutted on the corner portion of the cup plates 2a, 2b. As a consequence of the configuration, a joining portion between the cup plates 2a, 2b and the inner fin 3 is broadened to improve the joining strength, and pressure tightness can be secured more certainly.
In the third invention, the joining between the cup portions 5 in a pair of cup plates 2a, 2b facing each other is performed in a state where a side face 10 along a circulation direction of the circulation hole in respective cup portions 5 overlap each other. As a consequence of this configuration, the small flange portion is unnecessary and, therefore, the opening area of the circulation hole can be secured without increasing the size of a heat exchanger.
In the fourth invention, the end portion of the side face 10 of the cup plate 2a lying on the inside in the overlap does not project into the other cup plate 2b side exceeding the height of the inner fin 3. As a consequence of this configuration, it is possible to conform the end face of the side face 10 of the cup plate 2a to the end face of the side face 10 of the containing portion 4 to make these uniform on an approximately the same plane over the entire circumference of the cup plate 2a to thereby improve molding processability and a material yield by press processing of the cup plate 2a.
In the fifth invention, a step portion is formed on the side face of the cup plate lying on the outside in the overlap and the end portion of a side face rising from the step portion is expanded outward, and joining has been performed in a state where an end portion of the side face of the cup plate lying on the inside in the overlap is in contact with a bottom surface of at least a part of the step portions. As a consequence of this expansion, the part functions as a guide when both cup plates are made to fit and the fitting is easy to improve workability. Moreover, by configuring so that joining such as brazing is performed in a state where the end portion of the other cup plate is in contact with the bottom surface of at least a part of step portions 11, even when a compressive load is applied in the stacking direction of respective cup plates 2a, 2b in a joining process, the load is supported with the step portion 11 to join soundly and airtightly the cup plates 2a, 2b paired vertically without generating displacement and/or deformation of the fitting portion.
Next, an embodiment of a tube element that is a component of the heat exchanger of the present invention will be explained on the basis of the drawings.
In
In a state where a pair of cup plates 2a, 2b are arranged vertically while facing each other, a containing portion 4 having a square shape in plan view is formed at the central portion in the longitudinal direction of these, and at both end portions in the longitudinal direction thereof, a cup portion 5, which has a flat cup-like shape with a rectangular-circular planar shape and a height higher than the containing portion 4, is formed. The inner fin 3 is arranged inside the containing portion 4 of the cup plates 2a, 2b. Furthermore in the bottom of the cup portion 5, a circulation hole 6 in an approximately circular shape for circulating fluid in the stacking direction is formed. Note that the circulation hole 6 is formed coaxially for each of a vertical pair of the cup plates 2a, 2b.
The width of the containing portion 4 of the cup plates 2a, 2b is formed slightly larger than the width of the cup portions 5 communicating with both end portions thereof. Then corner portions 9 are formed in four portions at the boundary between both end portions in the longitudinal direction of the containing portion 4 and the rectangular portion of the rectangular-circular portion of the cup portion 5. In this embodiment, each of the corner portions 9 inclines relative to the longitudinal direction of the cup plates 2a, 2b, but the corner portion 9 may be formed orthogonally instead of the inclination.
As shown in
As shown in
As a consequence of forming a state where the side faces 10 are overlapped each other as described above, the joining portion between the cup portions 5 is made to be small to configure a compact heat exchanger. Moreover, by expanding outward the end portion of the side face 10 to form the expanding portion 8b, it is possible to guide the edge portion of the side face 10 of the cup plate 2a on the upper side to the expanding portion 8b. Consequently, a fitting operation of the side faces 10 thereof is easy to improve the operating efficiency thereof.
Moreover, since the end portion of the side face 10 of the cup plate 2a does not project into the other cup plate 2b side exceeding the height of the inner fin 3, it is possible to make the end face of the side face 10 of the cup plate 2a even on an approximately the same plane over the entire circumference of the cup plate 2a, while making the same conform the end face of the side face 10 in the containing portion 4, to thereby improve molding processability by press processing and a material yield of the cup plate 2a.
In a state as positioned in
In this embodiment, a length in the longitudinal direction of the inner fin 3 is set to be slightly longer than the length in the longitudinal direction of the containing portion 4. Then as shown in
Next,
As a consequence of performing joining by brazing in a state where the lower end face 10a of the side face 10 of the other cup plate is in contact with the bottom of the step portion 11a as described above, even in a case where a compressive load is applied in the stacking direction of each of the cup plates 2a, 2b to secure the contact of these members in a joining process, the load is supported with the step portion 11a so as not to cause displacement or deformation in the fitting portion of the cup plates 2a, 2b that form vertically a pair with each other.
On the other hand, in the cross-sectional position of B-B in
As a consequence of forming the step portion 11a supporting the load only in a limited vicinity of the extremity in the longitudinal direction of the cup plate in this way, it is possible to make the evagination of the cup plate minimum and to secure sufficiently the opening area of the circulation hole, and a heat exchanger with a small size, low circulation resistance and good assemblability can be provided.
The present invention can be utilized for a heat exchanger of a drawn cup-type such as an oil cooler.
1: tube element
2
a: cup plate
2
b: cup plate
3: inner fin
4: containing portion
5: cup portion
5
a: step portion
6: circulation hole
7: outer fin
8: bottom plate
8
a: circular convex portion
8
b: expanding portion
9: corner portion
10: side face
10
a: lower end face
11: step portion
11
a: step portion
Number | Date | Country | Kind |
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2017-040870 | Mar 2017 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2018/008878 | 2/28/2018 | WO | 00 |