AU2010202577A1 - Spacer, Fixing Structure and Heat Exchanger - Google Patents

Description

From:Nagoya International To:PINI 2010/06/18 15:32 #749 P.003/030 -1 SPACER, FIXING STRUCTURE AND HEAT EXCHANGER BACKGROUND [0001] The present invention relates to a technique of stacking a plurality of pipe arrays including at least one pipe arranged along a predetermined plane. [0002 For example, in a heat exchanger disclosed in Unexamined Japanese Patent Publication No. 2008-151473, a plurality of pipe arrays including a plurality of pipes arranged along a predetermined plane are stacked. Intervals between the adjacent two pipe arrays are controlled using a control member made of a wire rod. SUMMARY [0003 Since the above-described control member is a wire rod, the intervals between the pipe arrays can be maintained but intervals between or positions of the respective pipes in the pipe arrays cannot be properly maintained. [0004) In one aspect of the present invention, it is preferable that not only the intervals between stacked plurality of pipe arrays but a position of at least one pipe in each of the plurality of pipe arrays can be properly maintained.

rIUIII.Ivguyd IHLt IIILIUIIdi 1 r i|i iZ UlUU/10 10:iJ fE/40 r.UU4/U3U -2 [0005] A first aspect of the invention provides a spacer including a plane portion and at least one positioning portion. The plane portion is interposed between two pipe arrays stacked one another. Each of the two pipe arrays is formed by arranging at least one pipe along a plane which crosses a stacking direction of the two pipe arrays. The at least one positioning portion positions the at least one pipe in at least one of the two pipe arrays on the plane portion. [0006] In the spacer constituted as such, when the plane portion is arranged between the two pipe arrays, the at least one pipe in the at least one of the two pipe arrays can be positioned on the plane portion. Therefore, not only the intervals between the stacked two pipe arrays but also the position of the at least one pipe in the at least one of the two pipe arrays can be properly maintained. [0007] The at least one positioning portion may be formed in any manner in order to position the at least one pipe in the at least one of the two pipe arrays on the plane portion. [0008] The at least one positioning portion may be formed, for example, to protrude from the plane portion in at least one of two spots sandwiching an axis line of the at least one pipe.

r i ulli19d Uyd lil t!lI dt|IUlld| 10: u.'1111i Z UU/U0/1 10:33 Y/ H.UUb/U3U -3 [0009] In this case, the intervals between the two pipe arrays can be maintained with the spacer interposed between the two pipe arrays. Also, the position of the at least one pipe in the at least one of the two pipe arrays can be properly maintained by the at least one positioning portion protruding from the plane portion of the spacer. [00101 The at least one positioning portion as above may be formed in any manner. For example, the at least one positioning portion may be formed as a member attached to the plane portion, a member formed by cutting and raising the plane portion, or a member integrally formed with the plane portion. [0011] More particularly, the at least one positioning portion may be formed by denting the plane portion from one surface of the plane portion toward the other surface in the at least one spot. [0012] In this case, the at least one positioning portion can be formed by easy processing such as denting the plane portion. The spacer can be easily formed from a mere plate-like member. [0013] In the at least one positioning portion formed by denting the plane portion, a through hole may be formed which penetrates the at least one positioning portion.

r l .IYG IILCI Il |Uld |U: .r|I UU/UI1U I JJ ff/40 h.UUu/UJU -4 [0014] In this case, fluid such as ambient air and moisture flow through the through hole. Thus, retention of the fluid can be restricted. [0015] In case that such through hole is formed, the plane portion may be arranged between the two pipe arrays such that the at least one positioning portion protrudes in a direction of gravity. [0016] This allows positioning of the at least one pipe which is located below the spacer. Moreover, it becomes easy for moisture inside the at least one positioning portion to be discharged downward from the through hole. [0017] At least part of an end portion of the spacer extending along the plane portion may be bent. This allows improvement in bending strength of the spacer. [0018] There is no specific limitation in which direction to bend the at least part of the end portion of the spacer. For example, the at least part of the end portion of the spacer may be bent in the same direction as or opposite direction to the direction in which the at least one positioning portion protrudes. [0019] A second aspect of the invention provides a fixing structure including at least one spacer and a clamping portion. The at least one spacer includes a plane portion and at least one positioning portion. The plane r iulm n gtuya in1 ternationaIU ld 10i : r1 1 Z i UU/ 0/ 10:3q f/4 V.UNf/03 -. 5 portion is interposed between two pipe arrays stacked one another. Each of the two pipe arrays is formed by arranging at least one pipe along a plane which crosses a stacking direction of the two pipe arrays. The at least one positioning portion positions the at least one pipe in at least one of the two pipe arrays on the plane portion. The clamping portion clamps the at least one spacer together with a pipe group. The pipe group includes at least the two pipe arrays, [0020] According to the fixing structure as such, the at least one spacer can maintain the intervals between the two pipe arrays, and also fixes the pipe group while properly maintaining the position of the at least one pipe in the at least one of the two pipe arrays. [00211 The at least one positioning portion may be formed in any manner in order to position the at least one pipe in the at least one of the two pipe arrays on the plane portion. The at least one positioning portion may be formed, for example, to protrude from the plane portion in at least one of two spots sandwiching an axis line of the at least one pipe. [0022] In this case, the intervals between the two pipe arrays can be maintained with the spacer interposed between the two pipe arrays. Also, the position of the at least one pipe in the at least one of the two pipe IIVili.iay IUY IllLCI IdLL Uf1 I I |I 4 UUn/ Uu 1o10 [0 :J4 ff/4 r.UUd/UJU -6 arrays can be properly maintained by the at least one positioning portion protruding from the plane portion of the spacer. [0023] The plane portion may include at least one through hole which penetrates at least one of the plane portion and the at least one positioning portion, in a position off the at least one pipe positioned on the plane portion by the at least one positioning portion. [0024] In this case, the clamping portion may include a pair of clamping members and at least one connecting member, Between the pair of clamping members, the at least one spacer is arranged together with the pipe group. The at least one connecting member interconnects the pair of clamping members through the at least one through hole. [0025] In the fixing structure as such, the spacer is interposed between the two pipe arrays, the pipe group is arranged between the pair of clamping members, and the pair of clamping members are connected to each other by the at least one connecting member through the at least one through hole. Thereby, the pipe group can be fixed. [0026] The spacer in the fixing structure according to the second aspect may be constituted in the same manner as the spacer according to the first aspect.

F Uil.d$uya I LtIIldtIUldI 1o:rI| IUIUtUU/I 13:JO g/14 r.uL~huu -7 [00271 A third aspect of the invention provides a heat exchanger including a pipe group and at least one spacer, The pipe group is formed by at least two pipe arrays stacked one another. Each of the at least two pipe arrays is formed by arranging at least one heat-transfer pipe along a plane which crosses a stacking direction of the at least two pipe arrays. The at least one spacer includes a plane portion and at least one positioning portion. The plane portion is arranged between two pipe arrays in the at least two pipe arrays. At least one positioning portion positions the at least one heat-transfer pipe in at least one of the two pipe arrays on the plane portion. [00281 The at least one positioning portion may be formed in any manner in order to position the at least one heat-transfer pipe in the at least one of the two pipe arrays on the plane portion. The at least one positioning portion may be formed, for example, to protrude from the plane portion in at least one of two spots sandwiching an axis line of the at least one heat-transfer pipe. [00291 The heat exchanger as such may further include a clamping portion that clamps the at least one spacer together with the pipe group.

r IUlLIYia UYaI MnternadtiWildi Irll ~U U / 0 1 :0 ff/40j f.U1U/UdU -8 [00301 The plane portion may include at least one through hole which penetrates at least one of the plane portion and the at least one positioning portion, in a position off the at least one heat-transfer pipe positioned on the plane portion by the at least one positioning portion. [00311 In this case, the clamping portion may include a pair of clamping members and at least one connecting member. Between the pair of clamping members, the at least one spacer is arranged together with the pipe group. The at least one connecting member interconnects the pair of clamping members through the at least one through hole. [00321 In the heat exchanger constituted as such, the same operation and effect as the spacer of the first aspect or the fixing structure of the second aspect can be obtained. [00331 The at least one heat-transfer pipe may be shaped so as to surround a predetermined space. [0034] The at least one heat-transfer pipe may be arranged to form a space for air passage around the at least one heat-transfer pipe. BRIEF DESCRIPTION OF THE DRAWINGS [0035 The present invention will be described hereinafter by way of example with reference to the accompanying rrumAlagcya internaiionai lor1U1 / b lb:20 1/4/ F1.U11/030 -9 drawings, in which: FIG. 1 is a perspective view of appearance of a heat exchanger according to an embodiment; FIG. 2 is an exploded perspective view of the heat exchanger; FIG. 3A is a bottom view of a spacer; FIG. 3B is a side view of the spacer; FIG. 4A is a front view of one longitudinal end side of the heat exchanger seen from a direction indicated by an arrow A in FIG. 1, the front view being rotated 900 counterclockwise; FIG. 4B is a top view of the one longitudinal end side of the heat exchanger seen from a direction indicated by an arrow B in FIG. 1; FIG. 4C is a side view of the one longitudinal end side of the heat exchanger seen from a direction indicated by an arrow C in FIG. 1; and FIG. 4D is a bottom view of the one longitudinal end side of the heat exchanger seen from a direction indicated by an arrow D in FIG. 1. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [00361 (1) Overall constitution of heat exchanger u n IIQV ya 1t I 111a ltL I Uld 10. a|1 ZUlul u l 10:1)/ fQ |ij ,+s/ izi -10 Referring to FIG. 1, a heat exchanger 1 includes a plurality of heat-transfer pipes (hereinafter, simply referred to as "pipes") 2. Each of these pipes 2 is shaped so as to surround a predetermined space, and spaced out from each other so that a space for air passage is formed around each of these pipes 2. [0037] More particularly, in the present embodiment, these pipes 2 are arranged in parallel to each other and shaped so as to helically surround a rectangular parallelepiped. With the plurality of pipes 2 arranged and shaped as such, a pipe group constituted from a plurality of pipe arrays stacked in an up and down direction in the figure is formed around the space, The plurality of pipe arrays are constituted from the plurality of pipes 2 arranged along a plurality of planes which cross the stacking direction of the pipe arrays. [0038] As shown in FIG. 2, on both longitudinal end sides of the pipe group, spacers 3 are interposed between the respective adjacent pipe arrays. The spacers 3 maintain intervals between the adjacent pipe arrays and intervals between the pipes 2 in the respective pipe arrays. [00391 As shown in FIGS. 3A and 3B, each of the spacers 3 includes a plane portion 33 and a plurality of positioning portions 31 which protrude from the plane portion 33.

F1-1Vil1. NdqUyd filtl f lidL I Wld I j r|1| ZUlU/UO/ 10 10:010 ff/40 I".Uld/U U -11 [0040] The spacer 3 is a plate-like member shaped into a triangular plane, which includes a bent portion 35 and a convex portion 37. The bent portion 35 is formed by bending a section extending from one side of the member. The convex portion 37 is formed along two sides other than the one side forming the bent portion 35. In the present embodiment, the convex portion 37 protrudes from one surface of the spacer 3 facing upward (hereinafter, referred to as a "first surface") in a state that the spacer 3 is interposed between the pipe arrays, and the bent portion 35 is bent toward the other surface facing downward (hereinafter, referred to as a "second surface"). [0041] The positioning portions 31 position the respective pipes 2 located along the second surface of the spacer 3 interposed between the pipe arrays. More particularly, each of the positioning portions 31 protrudes in a direction away from the second surface in one of two spots sandwiching an axis line of each of the pipes 2, thereby to position each of the pipes 2 (see FIGS. 4A to 4D). [00421 Also, these positioning portions 31 respectively protrude in the direction of the pipes 2 by denting at least one of two spots sandwiching the axis line of each of the pipes 2 in the plane portion 33 toward the pipes 2.

From:Nagoya International To:PINI 2010/06/18 15:37 #749 P.014/030 -12 In the present embodiment, side surfaces of the positioning portions 31 slope so as to reduce cross-sectional area of positioning portions 31 toward the protruding direction. As a result, the positioning portion 31 is in the form of a cone as a whole. [00431 In the present embodiment, the six positioning portions 31 are arranged along an outer edge of a triangle according to the shape of the spacer 3. These positioning portions 31 position each of the pipes 2 in at least one of two spots sandwiching the axis line of each of the pipes 2. [00441 Moreover, in a protruding end of each of the positioning portions 31, a through hole 39 is formed which penetrates in a thickness direction of the spacers 3. [0045] The spacers 3, as shown in FIG. 2, are fixed to the pipe group by a pair of clamping members 4 and 5 and bar-like connecting members 6. The clamping members 4 and 5 clamp the pipe group in a stacking direction of the pipe arrays. The connecting members 6 connect the clamping members 4 and 5. [0046] The clamping members 4 and 5 are respectively made of a plate-like member extending in a certain direction and having through holes 42 and 52. The connecting members 6 reach from the through holes 42 of -13 the one clamping member 4 to the through holes 52 of the other clamping member 5, passing through interspaces between the adjacent pipes 2 in the pipe arrays and the through holes 39 in the spacers 3 sequentially along the stacking direction of the pipe arrays. In this manner, the connecting members 6 connect the pair of clamping members 4 and 5, [0047] In the present embodiment, the connecting members 6 are configured as screw members. The tip ends of the screw members are fitted into the through holes 52 which are formed as screw holes in the other clamping member 5. In this manner, connection between the clamping member 5 and the connecting members 6 is achieved (see FIGS. 4A to 4D). Also in the present embodiment, the two through holes 42 and 52 are formed along a longitudinal direction of the respective clamping members 4 and 5. The connecting members 6 are passed through the respective through holes 42 and 52. [00481 (2) Operation and effect In the heat exchanger 1 constituted as such, the pipe group can be fixed by interposing the spacers 3 between the pipe arrays of the pipe group, arranging the pair of clamping members 4 and 5 to sandwich the pipe group, and passing the connecting members 6 through the through holes 42 and 52 of the clamping members 4 and From:Nagoya international To:PINI 2010/06/18 15:38 #749 P.0161030 -14 5, the through holes 39 of the spacers 3, and the interspaces of the adjacent pipes 2 in the respective pipe arrays. [00491 Here, each of the spacers 3 can maintain the intervals between the pipe arrays by the convex portions 37 of the respective spacers 3, and position the respective pipes 2 in the respective pipe arrays by the positioning portions 31 which protrude from the plane portion 33. In this manner, the spacers 3 can maintain the intervals between the respective pipes 2. [00501 Also, due to the slope of the side surfaces of the positioning portions 31 which protrude from the plane portion 33, the spacers 3 are slightly moved in a direction crossing the planes of the pipe arrays by tightening upon fixing the pipe group. As a result, the pipes 2 are slightly moved along the planes of the pipe arrays along sloped surfaces of the side surfaces of the positioning portions 31. The pipes 2 can be fixed without backlash. [0051] According to the above constituted spacer 3, the positioning portions 31 can be easily formed by denting the plane portion 33. Thus, the spacer 3 which is able to maintain the respective intervals of the pipes 2 can be easily formed from a mere plate-like member.

um..wyvyU In$ I t iu a I IU1IUIIu IFr I I 'U IU/ UO f10 13Z:. ' ff/40 r.Ui//UiU -15 [00521 In the above constituted spacer 3, a part of the through holes 39 formed in the positioning portions 31 can be used for fixing the spacer 3 and the pipe group. [0053] The through holes 39 which are not used for fixing the spacer 3 and the pipe group can pass fluid such as ambient air and moisture. Therefore, it is advantageous to restrict retention of the fluid. [0054] Moreover, the positioning portions 31 are formed to protrude from the surface side facing upward toward the surface side facing downward when the spacer 3 is interposed between the pipe arrays. Thus, the pipes 2 can be positioned which are located below the spacer 3. [0055] Especially in the above-described embodiment, the through holes 39 are positioned at the lower ends of the positioning portions 31. Therefore, moisture (so-called drain) which is retained inside dents of the positioning portions 31 can be discharged downward through the through holes 39. [0056] Also in the above-described spacer 3, bending strength of the spacer 3 can be improved by bending part of the end portion of the spacer 3 (the bent portion 35 and the convex portion 37). [00571 (3) Variations In the above, an embodiment of the invention has been described. It goes without saying, however, that Frorn:Nagoya International To:PINI 2010/06118 15:39 #749 P.018/030 -16 the present invention is not limited to the above-described embodiment, and can take various modes within the technical scope of the invention. [0058] For example, in the above-described embodiment, the spacer 3 is applied to the pipe group in the heat exchanger 1. As long as the same sort of pipe group is used, the spacer 3 can be applied to a pipe group provided in apparatus other than the heat exchanger 1. [00591 In the above-described embodiment, a fixing structure constituted from the spacers 3, the clamping members 4 and 5 and the connecting members 6 is used for fixation of the pipe group in the heat exchanger 1. As long as the same sort of pipe group is used, the fixing structure may be used for fixation of a pipe group provided in apparatus other than the heat exchanger 1. [00601 In the above-described embodiment, the positioning portion 31 of the spacer 3 is formed by denting the plane portion 33 so as to protrude in the dented direction. The positioning portion 31 only has to protrude from the plane portion 33, For example, the positioning portion 31 may be formed by a member attached to the plane portion 33 or a member formed by cutting and raising the plane portion 33. In this case, the positioning portion 31 is only required to protrude to such an extent From:Nagoya International To:PINI 2010/06/18 15:39 #749 P.019/030 -17 that at least part of the positioning portion 31 comes into contact with the pipe 2. [0061] In the above-described embodiment, the positioning portion 31 of the spacer 3 protrudes from the first surface facing upward toward the second surface facing downward. The positioning portion 31 may be formed to protrude from the second surface side toward the first surface side. Alternatively, the positioning portion 31 may be formed to protrude from both the first surface and the second surface. [0062] In the above-described embodiment, the bent portion 35 of the spacer 3 is bent in the same direction as the direction in which the positioning portion 31 protrudes. The bent portion 35 may be bent in the opposite direction to the direction in which the positioning portion 31 protrudes. [0063] In the above-described embodiment, the convex portion 37 of the spacer 3 protrudes in the opposite direction to the direction to which the positioning portion 31 protrudes. The convex portion 37 may protrude in the same direction as the direction to which the positioning portion 31 protrudes. [0064] In the above-described embodiment, the planar shape of the spacer 3 is formed into an almost triangle.

ImII vy ,o o ia i la PV V YV II VI1u V 1IIV.rIF t Iu U UO 1 1 :qU f/i40 r.UZU/UdU -18 The planar shape of the spacer 3 is not limited to a triangle but may be a trapezoid, a rectangle or a circle. [0065] In the above-described embodiment, the pipes 2 are shaped to helically surround a rectangular parallelepiped. The pipes 2 may be shaped so as to reciprocate within a predetermined space.

Claims (18)

1. A spacer including: a plane portion interposed between two pipe arrays stacked one another, each of the two pipe arrays being formed by arranging at least one pipe along a plane which crosses a stacking direction of the two pipe arrays; and at least one positioning portion that positions the at least one pipe in at least one of the two pipe arrays on the plane portion.

2. The spacer according to claim 1, wherein the at least one positioning portion is formed to protrude from the plane portion in at least one of two spots sandwiching an axis line of the at least one pipe.

3. The spacer according to claim 2, wherein the at least one positioning portion is formed by denting the plane portion from one surface of the plane portion toward the other surface in the at least one spot.

4. The spacer according to claim 3, wherein the at least one positioning portion includes a through hole which penetrates the at least one positioning portion. From:Nagoya International To:PINI 2010/06/18 15:40 #749 P.022/030 -20

5. The spacer according to claim 4, wherein the plane portion is arranged between the two pipe arrays such that the at least one positioning portion protrudes in a direction of gravity.

6. The spacer according to one of claims 1 to 5, wherein at least part of an end portion of the spacer extending along the plane portion is bent.

7. A fixing structure including: at least one spacer including: a plane portion interposed between two pipe arrays stacked one another, each of the two pipe arrays being formed by arranging at least one pipe along a plane which crosses a stacking direction of the two pipe arrays; and at least one positioning portion that positions the at least one pipe in at least one of the two pipe arrays on the plane portion; and a clamping portion that clamps the at least one spacer together with a pipe group, the pipe group including at least the two pipe arrays.

8. The fixing structure according to claim 7, wherein at least one positioning portion is formed to protrude from the rrom:ivagoya international i o:ri NIUUU/10 1:41 #74 F.U23/UU30 -21 plane portion in at least one of two spots sandwiching an axis line of the at least one pipe.

9. The fixing structure according to claim 8, wherein the plane portion includes at least one through hole which penetrates at least one of the plane portion and the at least one positioning portion, in a position off the at least one pipe positioned on the plane portion by the at least one positioning portion, and the clamping portion includes a pair of clamping members, the at least one spacer being arranged together with the pipe group between the pair of clamping members; and at least one connecting member that interconnects the pair of clamping members through the at least one through hole.

10. A heat exchanger including: a pipe group that is formed by at least two pipe arrays stacked one another, each of the at least two pipe arrays being formed by arranging at least one heat-transfer pipe along a plane which crosses a stacking direction of the at least two pipe arrays; and at least one spacer that includes Fron:Nagoya international To:PINI 2010/06/18 15:41 #749 P.0241030 -22 a plane portion arranged between two pipe arrays in the at least two pipe arrays and at least one positioning portion that positions the at least one heat-transfer pipe in at least one of the two pipe arrays on the plane portion.

11. The heat exchanger according to claim 10, wherein the at least one positioning portion is formed to protrude from the plane portion in at least one of two spots sandwiching an axis line of the at least one heat-transfer pipe.

12. The heat exchanger according to claim 10 or 11, further including a clamping portion that clamps the at least one spacer together with the pipe group.

13. The heat exchanger according to claim 12, wherein the plane portion includes at least one through hole which penetrates at least one of the plane portion and the at least one positioning portion, in a position off the at least one heat-transfer pipe positioned on the plane portion by the at least one positioning portion, and the clamping portion includes: a pair of clamping members, the at least one spacer being arranged together with the pipe group between the pair of clamping members; and From:Nagoya International To:PINI 2010/06/18 15:41 #749 P.025/030 -23 at least one connecting member that interconnects the pair of clamping members through the at least one through hole.

14. The heat exchanger according to one of claims 10 to 13, wherein the at least one heat-transfer pipe is shaped so as to surround a predetermined space.

15. The heat exchanger according to one of claims 10 to 14, wherein the at least one heat-transfer pipe is arranged to form a space for air passage around the at least one heat-transfer pipe.

16. A heat exchanger as herein disclosed.

17. A spacer as herein disclosed.

18. A fixing structure as herein disclosed.