TWM405557U - Heat exchanger of cross flow type - Google Patents

Abstract

The present invention relates to a cross-flow type heat exchanger 1 comprising a plate stack 4 with first and second plate types, 2 and 3, stacked alternately on one another. Inlet 14 respective outlet 15 is arranged along long sides, 16a, 16b, 17a, 17b, of the plate stack 4, whereby a first throughflow duct 12 is formed there between. In at least one of the 5 inlet, 14, or the outlet, 15, are supporting dimples, 18a, 18b, arranged. The supporting dimples, 18a, 18b are spaced apart such that distance between two supporting tops, 19a, 19b, of the supporting dimples, 18a, 18b, is longer than distance between two adjacent dimple tops, 20a, 20b, of dimples, 10, 11, in the heat exchanging area, 9a, 9b.

Description

M405557 五、新型說明： 【新型所屬之技術領域】 本創作涉及一種橫流式熱交換器。 【先前技術】 種常用的工藝，在 此類熱交換器常用 如’ 一種媒介是液 換器的一個已經得 的溫差會影響熱交 的存在，使熱交換 經嘗試將熱交換器 在端板之間置入疊 工作起來很不方便 第一媒介和第 於兩種媒介具 體，而另一種 到證實的問題 換器内的材料 器的出入口變 配置較厚的端 板。這樣加大 ，特別是在運 橫流式熱交換器是一 二媒介之間進行熱交換。 有不同的密度的情況，例 媒介是氣態。橫流式熱交 是’流過熱交換器的媒介 的特性。特別是由於溫差 形。爲了解決此問題，已 板或者採取類似措施，而 了換熱器的重量和尺寸， 輸或者安裝過程中。 【新型内容】 本創作的目的是解決上述問題。 本創作的第二個目標是構建一種比上述熱交換器具有 更高抗扭剛度以及較輕重量的熱交換器。 本創作的另一個目標是提供具有相對低成本、高效、 採用最新技術的橫流式熱交換器，易于構造，從而可以對 成本和時間進行優化。通過隨附的獨立權利要求中定義的 創作實現上述目標和其他目標。 M405557 蜀立權利要求中定義的熱交換 交換器可以流過高壓、卜#八^㈣優^，㈣ 和出大，而不會影響熱交換器的結、:::的入口 點的二’:二描述的具有申請專利範圍¥ 1項中所列特 ’ 根據本創作實現上述目標和其他目標。 範圍Sr的設備的最佳實施例還具有附屬申請專利 犯圍第2 - 15項中所列的特徵。 :據本創作的一個實施例，沿正對的長側的第一直流 口和出口佈置了支樓凹坑。佈置在-對板上的支稽 凹坑彼此相鄰，相互連接。 定，具有高抗扭剛度的結構。 構建了-個硬而穩 …根據本創作的另-個實施例，第-板中的第—類凹坑M405557 V. New description: [New technical field] The present invention relates to a cross-flow heat exchanger. [Prior Art] A commonly used process in which such a heat exchanger is commonly used, such as a medium that is a liquid exchanger, has a temperature difference that affects the presence of heat exchange, allowing heat exchange to attempt to heat exchangers at the end plates. It is inconvenient to work in between the first medium and the second medium, and the other is to confirm the problem that the material inlet and outlet of the material changer are configured with thicker end plates. This is increased, especially when the cross-flow heat exchanger is a heat exchange between the two media. In the case of different densities, the medium is gaseous. Cross-flow heat transfer is a characteristic of the medium flowing through the heat exchanger. Especially due to the temperature difference. In order to solve this problem, the board has taken similar measures, and the weight and size of the heat exchanger, during the transmission or installation process. [New content] The purpose of this creation is to solve the above problems. The second objective of the present work was to construct a heat exchanger having a higher torsional stiffness and a lighter weight than the heat exchanger described above. Another goal of this creation is to provide a cross-flow heat exchanger that is relatively low cost, efficient, and incorporates the latest technology, which is easy to construct and can be optimized for cost and time. The above and other objectives are achieved by the creations defined in the accompanying independent claims. M405557 The heat exchange exchanger defined in the claim can flow through the high pressure, the #八^(4) excellent ^, (4) and the large, without affecting the junction of the heat exchanger, the second point of the entry point of:::: The two descriptions have the scope of the patent application. The special items listed in item 1 are based on this creation to achieve the above objectives and other objectives. The preferred embodiment of the apparatus of the range Sr also has the features listed in the sub-claims 2-15. According to one embodiment of the present invention, the branch dimples are arranged along the first DC port and the outlet on the opposite long sides. The pits disposed on the pair of plates are adjacent to each other and connected to each other. A structure with high torsional stiffness. Constructed - hard and stable ... According to another embodiment of the present creation, the first type of pits in the first plate

對稱佈置在整個熱交換區。對稱佈置的 J 可以堆放在相鄰板的頂部，與第 ^特點疋，板 •士以上《 弟板+面内的旋轉盔關。 k樣在構造疊板時可以對工藝進 …、 需要考慮板的前向或者後6位… 纟構&過程中不 ^ 4 ^便向位置相應的方向。 根據本創作的一個實施例，第一板的第—類 置在第二平面内。第一. 几頂佈 I # 板的弟—類凹坑頂指向第二平面。 第-類凹坑還包括位於第一板的第一平面内的二 凹坑的頂。凹坑的頂與支撐凹坑的支撐頂佈置h _ 二平面内。 π叉存頂佈置在相同的第 根據本創作的一個實施例， 別由第-和第二密封表面組成1 一和第二==分 在第一板的第二平面内。相應 佈置 上述孔式分流模四周佈置。兩’—和第二密封表面沿 置兩個相鄰板之間的密封表面配 5 M405557 置爲與相鄰板的相鄰密封表面相連。這種配置的結果是， 媒介可以通過熱交換器和第二直流管流過每個孔式分流 模。 根據本創作的一個實施例，第三和第四密封表面沿第 一板的長側佈置。第三和第四密封表面分別佈置在第一平 面内。第二和第四密封表面佈置在該平面内第三和第四密 封表面之間的熱交換區的每一側。第三和第四密封表面在 疊板内配置爲與相鄰板的相鄰密封表面相連。其結果是， 第一直流官佈置在通過上述密封表面彼此連接的相鄰板之 間。第一直流管由通過相鄰板的孔式分流模的管入口和管 出口組成。 根據本創作的一個實施例，與板波形脊長側平行的凹 亢頂和中間谷形成了第二板的第二類凹坑。上述穀位於兩 個相鄰凹坑頂之間，縠底位於第H和第二平面之間 的平面上。板内與長側平行的兩相鄰凹坑頂之間的穀要比 與上述板的短側平行的同一板内的兩相鄰頂之間的榖淺。 忒佈置的結果是，凹坑、相互對齊的相鄰頂以及中間的谷 形成了熱交換區内與長側平行的脊。 根據本創作的一個實施例，第二板的各孔式分流模分 別由第五和第六密封表面組成。上述第五和第六密封表面 佈置在第二板的第二平面内。相應地，第五和第六密封表 面佈置在第二板孔式分流模的四周^兩個相鄰板之間的密 封表面配置爲與相鄰板的相鄰密封表面相連。這種配置的 結果是，媒介可以通過熱交換器和第二直流管流過每個孔 式分流模。在本創作的一個實施例中，在疊板中的兩個相 M405557 :=別舆上述…第六密封“相連…和 =本創作的一個實施例，帛七和第八密封表 =的長側佈L上述第七和第八密封表面佈置在第二板 的第-平面内。第七和第八密封表面佈置在平面内七和第 八松封表面之間的熱交換區的每一側。第七和第八密封表 ，在疊板内配置爲與相鄰板的相鄰密封表面相&。其結果 疋，第-直流管佈置在通過上述密封表面彼此連接的相鄰 板：間。第一直流管由通過相鄰板的孔式分流模的管入口 和官出口組成。在本創作的一個實施例中，在疊板中的兩 個相鄰板之間爲分別與上述第七和第八密封表面相連的第 二和第四密封表面。 根據本創作的-個實施{列，沿短側的板帶有折起的邊 沿，當板在疊板内相互堆放時，會搭叠下邊板的部分邊沿。 此邊的放果疋，s板在另一塊板的頂部相互堆放時，相 應邊沿在熱父換器生産過程中起到了引導作用。另一種效 籲果是，疊板内相鄰板之間短側的邊沿起到了密封作用，通 過第-直流管的媒介的主要流體將穿過直流管内的媒介的 主要流體方向。 【實施方式】 圖1描述了熱交換器卜由疊板4内彼此搭叠在頂部的 第-板2和第一板3換熱板組成。板2和3交替堆放。圖} 還描述交換^第一直流管12#第一媒介的流體 方向36。 7 M405557 圖2描述了第一板2。第一板2由佈置在第一短側^ 的第一孔式分流模5a組成。第二孔式分流模7a佈置在對面 的第二短側8a。熱交換區9a佈置在短側6a和8a之間。熱 交換區9a由第一類凹坑10組成。第一類凹坑1〇 (如圖2 所示）由自觀察者指向圖中所示方向的凹坑頂2〇a組成。第Symmetrically arranged throughout the heat exchange zone. Symmetrical arrangements of J can be stacked on top of adjacent panels, with the characteristics of the ^ 疋, 板 士 士 士 司 司 司 司 司 司 司 司 司 司 司 司 司The k-like method can be used to construct the stacking board, and it is necessary to consider the forward or the rear 6 positions of the board... The structure and the process are not in the direction corresponding to the position. According to one embodiment of the present creation, the first type of the first plate is in the second plane. First. Several top cloths I # board's brother-like pit top points to the second plane. The first type of dimples also includes a top of two dimples located in a first plane of the first plate. The top of the pit and the support top of the support pit are arranged in the h _ two plane. The π-fork top is arranged in the same embodiment according to the present invention, and the first and second sealing surfaces are composed of the first and second sealing surfaces in the second plane of the first plate. Corresponding arrangement The above-mentioned hole type splitter is arranged around. The two '' and the second sealing surface are placed along the sealing surface between the two adjacent plates 5 M405557 to be connected to the adjacent sealing surface of the adjacent plate. As a result of this configuration, the medium can flow through each of the orifice splitters through the heat exchanger and the second direct current tube. According to an embodiment of the present creation, the third and fourth sealing surfaces are arranged along the long side of the first plate. The third and fourth sealing surfaces are respectively disposed within the first plane. The second and fourth sealing surfaces are disposed on each side of the heat exchange zone between the third and fourth sealing surfaces in the plane. The third and fourth sealing surfaces are configured within the stack to be coupled to adjacent sealing surfaces of adjacent panels. As a result, the first direct current members are disposed between adjacent plates that are connected to each other through the above-described sealing surface. The first DC tube consists of a tube inlet and a tube outlet through a orifice splitter die of an adjacent plate. According to one embodiment of the present creation, the concave dome and the intermediate valley parallel to the long side of the undulating ridge of the plate form a second type of dimple of the second plate. The valley is located between the tops of two adjacent pits, and the bottom is located on a plane between the Hth and second planes. The valley between the two adjacent pit tops parallel to the long side in the panel is shallower than the valley between the two adjacent tops in the same panel parallel to the short side of the panel. As a result of the raft arrangement, the pits, the adjacent tops aligned with each other, and the valleys in the middle form ridges parallel to the long sides in the heat exchange zone. According to one embodiment of the present creation, the orifice splitting dies of the second plate are comprised of fifth and sixth sealing surfaces, respectively. The fifth and sixth sealing surfaces described above are disposed in the second plane of the second plate. Accordingly, the fifth and sixth sealing surfaces are disposed on the periphery of the second plate-hole splitting mold. The sealing surface between the two adjacent plates is disposed to be connected to the adjacent sealing surface of the adjacent plate. As a result of this configuration, the medium can flow through each of the orifice splitting molds through the heat exchanger and the second direct current tube. In one embodiment of the present creation, the two phases M405557 in the stack: = 舆 舆 ... 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六 第六The seventh and eighth sealing surfaces of the cloth L are disposed in the first plane of the second plate. The seventh and eighth sealing surfaces are disposed on each side of the heat exchange zone between the seven and eighth loose surfaces in the plane. The seventh and eighth seal tables are disposed in the stack to be adjacent to the adjacent sealing surfaces of the adjacent plates. As a result, the first DC tubes are disposed adjacent to each other through the sealing surfaces. The first direct current tube is composed of a tube inlet and a main outlet through a perforated splitter die of an adjacent plate. In one embodiment of the present creation, between the two adjacent plates in the stack is respectively associated with the seventh a second and fourth sealing surface joined to the eighth sealing surface. According to an embodiment of the present invention, the columns along the short side are provided with folded edges which are overlapped when the sheets are stacked one on another in the stack Part of the edge of the lower plate. The fruit on this side, the s plate is piled on top of the other plate. When placed, the corresponding edge plays a guiding role in the production process of the hot parent converter. Another effect is that the short side edge between adjacent plates in the stacking plate serves as a sealing effect through the medium of the first-direct tube. The primary fluid will pass through the main fluid direction of the medium within the DC tube. [Embodiment] Figure 1 depicts a heat exchanger consisting of a first plate 2 and a first plate 3 heat exchange plate stacked one on top of the other in the stack 4. The plates 2 and 3 are stacked alternately. Figure} also describes the fluid direction 36 of the first DC tube 12# first medium. 7 M405557 Figure 2 depicts the first plate 2. The first plate 2 is arranged in the first short The first orifice split mold 5a of the side is composed. The second orifice split mold 7a is arranged on the opposite second short side 8a. The heat exchange zone 9a is arranged between the short sides 6a and 8a. The heat exchange zone 9a is first The pit-like group 10 is composed of the first type of pit 1 (shown in FIG. 2) consisting of a pit top 2〇a pointing from the observer to the direction shown in the figure.

—板2由A-A側和：B_B側組成。在該圖令，只能看到A_A 側，因爲該側面向觀察者。該圖中的B_B側是第一板2的 A側的煮側。在第一板2中，第一類凹坑1 〇由凹坑頂2〇a 對面的底22組成，底22位於第一板2的第一平面23内。 圖2中背離觀察者的凹坑頂2〇a位於第一板2的第二平面 2 1内。 圖2中’第三和第四密封表面26和27沿第一板2内 的長側16a和17a佈置。第一板2還包含第一和第二密封表 面24和25。上述第一和第二密封表面24和25位於板2的 B-B側的各孔式分流模5a和的四周邊沿部分。 圖3描述了第二板3。第二板3由佈置在第一短側讣 的第一孔式分流模5b組成。第二孔式分流模7b佈置在對 面的第二短側8b處。熱交換區9b佈置在第二板3的短側 6b和6b之間。熱交換區9b由第二類凹坑丨丨組成。在圖3 中，第二類凹坑11由可能指向觀察者或者背離觀察者的凹 坑頂20b組成。第二板3由c_c側和D D側組成。在該圖 中，只能看到c-c側，因爲該側面向觀察者。該圖中的D_D 側是第一板2的C-C側的背側。每個第二類凹坑丨丨由上述 四坑頂20b組成。圖3中背離觀察者的凹坑頂2〇b位於第 二板3的第一平面23内。圖3中指向觀察者的凹坑頂2〇b M405557 . · 位於第二板3的第二平面21内。 圖4a描述了圖2中第一板2的A-A橫剖面圖。從圖2 的A-A橫剖面圖可以看出，第一板2的熱交換區沿垂直 方向延伸到第一平面23和第二平面21之間。凹坑頂20a 位於第二平面21内。孔式分流模5 a和7 a對應的第一和第 二密封表面24和25位於第二平面21内。各第一類凹坑10 的底22位於第一平面23内。第一板2由短側6a和8a，以 • 及邊沿35a組成。邊沿35a由第一平面23折向第二平面2卜 φ 邊沿35自短側6a和8a繞過第一板2的角走向相應的長側 1 6 a 和 1 7 a。 圖4b描述了圖3中第二板3的A-A橫剖面圖。從圖3 的A-A橫剖面圖可以看出，第二板3的熱交換區9b沿垂直 方向延伸到第二平面21和第〆平面23之間。圖4b中所示 的凹坑頂2〇b位於第二平面21中。第五和第六密封表面31 和32分別佈置在第二板3的相應孔式分流模5b和7b四 周。上述第五和第六密封表面31和32位於第二平面21内。 • 在第二板3的A-A橫剖面圖中，最靠近孔式分流模5b和7b 的凹坑頂2〇b並不與相鄰板2和3相連。 圖4c描述了疊板4，由彼此堆放的板2和3組成，如 橫别面圖A-A中所示。當板2和3彼此堆放在頂部時，第 /和第二平面彼此並入。其結果是，疊板4包含了交互通 過要板4的第—和第二平面23和21。在棧4中，第一密封 表面24配置爲與兩個相鄰板2和3之間的第五密封表面3 j 相連。之後’第二密封表面25配置爲與密封表面32相連。 上述圖4a - 4c中所描述的平面23和21與圖5a - 5c， 9 M405557 以及圖6a - 6c和7a - 7C中的平面相對應。 圖5a描述了圖2中的第一板2的橫剖面圖B_B。第一 板2由長側16a和17a、支撐凹坑丨8a組成。支撐凹坑1 8a 分別由第一板2的支撐頂19a組成。支撐頂19a位於第一板 2的第二平面21内。 圖5b描述了圖3中的第二板3a的橫剖面圖b-B。第二 板2由沿長側16b和1 7b、具有支撐頂丨9b的支撐凹坑1 8b 組成。支撐頂19b位於第二板2的第二平面21内。 · 圖5c描述了當第一板2放入棧4，而第二板3按上述 攀 圖4c中所述的相同方式放置時的棧4的視圖。在橫剖面圖 B-B的機4中的兩個相鄰板2和3之間，相應支撐頂丨9a 和1 9b分別相靠放於其間。支撐頂19a和丨9b彼此相靠焊 接’形成了高硬度的出入口。 圖6a描述了圖2中的第一板2的橫剖面圖C-C。第一 板2由相應長側1 6a和丨7a的第三以及第四密封表面26和 27組成。上述第三和第四密封表面26和27位於第一板2 的第一平面23内。 _ 圖6b描述了圖3中的第二板3的橫剖面圖c_c。凹坑 頂20b分別位於第二平面21内。第二板2由相應長側 和1 7b、第七和第八密封表面33和34組成。上述第七和第 八密封表面33和34位於第二板3的第二平面23内。 圖6c描述了當第一板2放入棧4，而第二板3按上述 圖4c中所述的相同方式放置時的棧4的視圖。在橫剖面圖 C-C中棧4d兩個相鄰板2和3之間，沿第一長側形成 了入口 14 ’沿熱交換區9a和9b内另一側的對面第二長側， 10 M405557 形成了出口 15。這樣在支撐凹坑 之間 凡#頂18a、18b、19a和19b &间形成了入口 14和出口 15。嫂八 釦笼. 輝；| (例如氣體）流過入口 和弟—直流管12,然後通過出口】s 6 、士巩货 15自上述直流管12流出。 抓過第一直流管12的媒介與流 介Γ 第一直流管13的第二媒 (例如液體）進行熱交換。 圖7a描述了圖2中的第一柘 板2的杈剖面圖D-D。第一 反由相應長側1 6a和17a，第=以B结 ^ 乐一以及第四密封表面26和 2 且成。上述第三和第四密- Plate 2 consists of the A-A side and the B_B side. In the figure, only the A_A side can be seen because the side is facing the observer. The B_B side in the figure is the boiling side of the A side of the first plate 2. In the first plate 2, the first type of dimple 1 is composed of a bottom 22 opposite the pit top 2A, and the bottom 22 is located in the first plane 23 of the first plate 2. The pit top 2〇a facing away from the viewer in Fig. 2 is located in the second plane 2 1 of the first panel 2. The 'third and fourth sealing surfaces 26 and 27' in Fig. 2 are arranged along the long sides 16a and 17a in the first plate 2. The first panel 2 also includes first and second sealing surfaces 24 and 25. The above first and second sealing surfaces 24 and 25 are located at the peripheral edge portions 5a of the B-B side of the board 2 and the peripheral portions of the four peripheral portions. Figure 3 depicts the second panel 3. The second plate 3 is composed of a first orifice splitting die 5b arranged on the first short side turn. The second orifice split mold 7b is disposed at the opposite second short side 8b. The heat exchange zone 9b is disposed between the short sides 6b and 6b of the second plate 3. The heat exchange zone 9b is composed of a second type of pits. In Fig. 3, the second type of pit 11 is composed of a pit top 20b which may point to the observer or face away from the observer. The second plate 3 is composed of a c_c side and a D D side. In this figure, only the c-c side can be seen because the side faces the viewer. The D_D side in the figure is the back side of the C-C side of the first board 2. Each of the second type of pits is composed of the above-described four pit tops 20b. The pit top 2〇b, which faces away from the viewer in Fig. 3, is located in the first plane 23 of the second plate 3. The pit top 2 〇b M405557 pointing to the observer in Fig. 3 is located in the second plane 21 of the second plate 3. Figure 4a depicts an A-A cross-sectional view of the first panel 2 of Figure 2. As can be seen from the A-A cross-sectional view of Fig. 2, the heat exchange region of the first plate 2 extends in the vertical direction between the first plane 23 and the second plane 21. The pit top 20a is located in the second plane 21. The first and second sealing surfaces 24 and 25 corresponding to the orifice splitting dies 5a and 7a are located in the second plane 21. The bottom 22 of each of the first type of dimples 10 is located within the first plane 23. The first plate 2 is composed of short sides 6a and 8a, and • edges 35a. The rim 35a is folded from the first plane 23 toward the second plane 2 φ edge 35 from the short sides 6a and 8a around the corners of the first panel 2 to the respective long sides 16a and 17a. Figure 4b depicts an A-A cross-sectional view of the second panel 3 of Figure 3. As can be seen from the A-A cross-sectional view of Fig. 3, the heat exchange region 9b of the second plate 3 extends in the vertical direction between the second plane 21 and the second plane 23. The pit top 2〇b shown in Fig. 4b is located in the second plane 21. The fifth and sixth sealing surfaces 31 and 32 are respectively disposed on the respective hole splitting dies 5b and 7b of the second plate 3 for four weeks. The fifth and sixth sealing surfaces 31 and 32 described above are located in the second plane 21. • In the A-A cross-sectional view of the second plate 3, the pit tops 2〇b closest to the hole splitting dies 5b and 7b are not connected to the adjacent plates 2 and 3. Figure 4c depicts the stack 4, consisting of panels 2 and 3 stacked on each other, as shown in cross-sectional view A-A. When the plates 2 and 3 are stacked on top of each other, the / and second planes are merged with each other. As a result, the stack 4 contains the first and second planes 23 and 21 that interact through the main plate 4. In the stack 4, the first sealing surface 24 is configured to be coupled to a fifth sealing surface 3j between two adjacent plates 2 and 3. The second sealing surface 25 is then configured to be coupled to the sealing surface 32. The planes 23 and 21 described above in Figures 4a - 4c correspond to the planes in Figures 5a - 5c, 9 M405557 and Figures 6a - 6c and 7a - 7C. Figure 5a depicts a cross-sectional view B_B of the first panel 2 of Figure 2. The first plate 2 is composed of long sides 16a and 17a and supporting pits 8a. The support pits 18a are respectively composed of the support tops 19a of the first plate 2. The support top 19a is located in the second plane 21 of the first panel 2. Figure 5b depicts a cross-sectional view b-B of the second plate 3a of Figure 3. The second plate 2 is composed of support pits 18b having long sides 16b and 17b and having a support top 9b. The support top 19b is located in the second plane 21 of the second panel 2. Figure 5c depicts a view of the stack 4 when the first panel 2 is placed in the stack 4 and the second panel 3 is placed in the same manner as described above in Figure 4c. Between two adjacent plates 2 and 3 in the machine 4 of the cross-sectional view B-B, the respective supporting top cymbals 9a and 19b are placed adjacent to each other. The support top 19a and the weir 9b are welded to each other to form a high-hardness port. Figure 6a depicts a cross-sectional view C-C of the first panel 2 of Figure 2. The first plate 2 is composed of third and fourth sealing surfaces 26 and 27 of the respective long sides 16a and 7a. The third and fourth sealing surfaces 26 and 27 described above are located within the first plane 23 of the first panel 2. Figure 6b depicts a cross-sectional view c_c of the second plate 3 of Figure 3. The pit tops 20b are located in the second plane 21, respectively. The second plate 2 is composed of respective long sides and 17b, seventh and eighth sealing surfaces 33 and 34. The seventh and eighth sealing surfaces 33 and 34 described above are located in the second plane 23 of the second plate 3. Figure 6c depicts a view of the stack 4 when the first panel 2 is placed in the stack 4 and the second panel 3 is placed in the same manner as described above in Figure 4c. Between the two adjacent plates 2 and 3 of the stack 4d in the cross-sectional view CC, an inlet 14' is formed along the first long side, along the second long side opposite the other side of the heat exchange zones 9a and 9b, 10 M405557 is formed Exit 15. Thus, between the support pits, the inlets 14 and the outlets 15 are formed between the #tops 18a, 18b, 19a and 19b &嫂 . | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | The medium that has passed through the first direct current tube 12 exchanges heat with the second medium (e.g., liquid) that is in the first direct current tube 13. Figure 7a depicts a cross-sectional view D-D of the first slab 2 of Figure 2. The first is caused by the corresponding long sides 16a and 17a, the second = B, and the first and fourth sealing surfaces 26 and 2. The third and fourth secrets mentioned above

了表面26和27位於第一板2 的第—平面23内。 圖7^述了圖3中的第二板3的橫剖面圖dd。橫别 面圖D-D中的凹坑頂雇位於並指向第二板3的第一平面 23。第二板3由指向第一平面23的第二類凹坑u和指向 第二平面2丨的第二類凹坑u組成。這就是第二板3的橫 剖面圖D-D可以顯示指向第一平面23的第二類凹坑1丨的 原因。沿第二板3的相應長側16b和1 7b，佈置了第七和第 八密封表面33和34。上述第七和第八密封表面33和科位 於第一板3的第二平面23内。 圖7c描述了當第—板2放入棧4，而第二板3按上述 圖4c中所述的相同方式放置時的棧4的視圖。在棧4中， 第二密封表面26配置爲與兩個相鄰板2和3之間的第七密 封表面相連。之後，第四密封表面27配置爲緊靠第八密封 表面相連。 還可能在下述所列的 已經在上面進行了部 本創作並不限於上述的實施例 權利要求的範圍内變化並進行修訂 分描述。 11 Μ4Θ5557 【圖式簡單說明】 乂上°羊細介紹了根據本創作的設備的最佳實施例，參 見隨附的不意圖，圖中顯示了理解本創作所需要的部分。 圖1 2 3 4描述了帶疊板的熱交換器。 圖2招述了第一板的視圖。 圖3描述了第二板的視圖。 圖4a - 4c描述了板A-A橫剖面，如圖2和3所示。 圖5a - 5c描述了板B-B橫剖面，如，圖2和3所示。 圖6a - 6c描述了板C-C橫剖面，如圖2和3所示。 圖7a - 7c描述了板D-D橫剖面’如圖2和3所示。 明 說 ¾ 符 件 元 要 主 12 1 熱交換器 2 第一板 3 第二板 4 疊板 5a.第一孔式分流模（第一板） 5 b.第· 孔式分流模（苐· 一板） 6a.第一短側（第一板） 6b.第一短側（第二板） 7 a.第二孔式分流模（第一板） 7b.第二孔式分流模（第二板） 8a.第二短側（第一板） 8b.第二短側（第二板） M405557The surfaces 26 and 27 are located in the first plane 23 of the first panel 2. Figure 7 is a cross-sectional view dd of the second plate 3 of Figure 3. The pit top in the cross-sectional view D-D is located at and directed to the first plane 23 of the second panel 3. The second plate 3 is composed of a second type of pit u directed to the first plane 23 and a second type of pit u directed to the second plane 2丨. This is why the cross-sectional view D-D of the second panel 3 can show the second type of pits 1 指向 pointing to the first plane 23. The seventh and eighth sealing surfaces 33 and 34 are disposed along the respective long sides 16b and 17b of the second plate 3. The seventh and eighth sealing surfaces 33 and the above-described positions are located in the second plane 23 of the first plate 3. Figure 7c depicts a view of the stack 4 when the first plate 2 is placed on the stack 4 and the second plate 3 is placed in the same manner as described above in Figure 4c. In the stack 4, the second sealing surface 26 is configured to be joined to the seventh sealing surface between two adjacent plates 2 and 3. Thereafter, the fourth sealing surface 27 is configured to be coupled to the eighth sealing surface. It is also possible to vary within the scope of the above-described embodiments of the invention as set forth below, and the modifications are described in the following. 11 Μ4Θ5557 [Simple description of the diagram] The best embodiment of the device according to the present invention is introduced, and the accompanying intent is shown. The figure shows the parts needed to understand the creation. Figure 1 2 3 4 depicts a heat exchanger with a stack of plates. Figure 2 illustrates a view of the first panel. Figure 3 depicts a view of the second panel. Figures 4a-4c depict a cross-section of panel A-A, as shown in Figures 2 and 3. Figures 5a - 5c depict a cross section of the plate B-B as shown in Figures 2 and 3. Figures 6a-6c depict a cross-section of the plate C-C, as shown in Figures 2 and 3. Figures 7a - 7c depict the cross-section of the panel D-D as shown in Figures 2 and 3. Ming said 3⁄4 symbol element main 12 1 heat exchanger 2 first plate 3 second plate 4 stack 5a. first hole split mode (first plate) 5 b. first hole split mode (苐·一板6a. First short side (first board) 6b. First short side (second board) 7 a. Second hole type splitter (first board) 7b. Second hole type splitter (second board) 8a. Second short side (first board) 8b. Second short side (second board) M405557

9a. 轨 ”》、 交換區（ 第 — 板 ) 9b. 執 # »»> 交換區（ 第. 二; 板 ) A. A 側 B. B 側 C. C 側 D. D 側 10. 第 一類凹坑 11. 第 二類凹坑 12. 第 一直流管 13. 第 二直流管 14. 入 口 15. 出 D 16a. 第一長側 ( 第 一 板 16b. 第一長側 ( 第 二 板 17a. 第二長側 ( 第 一 板 17b. 第二長側 ( 第 二 板 18a. 支撐凹坑 ( 第 一 板 18b. 支撐凹坑 ( 第 二 板 19a. 支撐頂（ 第 一 板 ) 19b. 支撐頂（ 第 二 板 ) 20a. 凹坑頂（ 第 一 板 ) 20b. 凹坑頂（ 第 二 板 ) 21. 第 二平面 22. 底 (第一類1 凹坑 ) 23. 第 一平面 13 M405557 24. 第 _ * 密 封 表 面 25. 第 二 密 封 表 面 26. 第 密 封 表 面 27. 第 四 密 封 表 面 28. 波形 脊 29. 穀 ( 第 二 板 ) 30. 底 31. 第 五 密 封 表 面 32. 第 六 密 封 表 面 33. 第 七 密 封 表 面 34. 第 八 密 封 表 面 35a. 邊沿（ ；第 35b. 邊沿（ ；第 一 36. 通 過 第 一 直 流' 板 149a. Track", exchange area (first board) 9b. Executive # »»> Exchange area (2nd, second board) A. A side B. B side C. C side D. D side 10. First Dimples 11. Second-type dimples 12. First DC tube 13. Second DC tube 14. Inlet 15. Out D 16a. First long side (first plate 16b. First long side (second plate) 17a. Second long side (first plate 17b. second long side (second plate 18a. support pit (first plate 18b. support pit (second plate 19a. support top (first plate) 19b. support Top (second plate) 20a. Pit top (first plate) 20b. Pit top (second plate) 21. Second plane 22. Bottom (first class 1 pit) 23. First plane 13 M405557 24 _ * sealing surface 25. second sealing surface 26. first sealing surface 27. fourth sealing surface 28. ridge ridge 29. valley (second plate) 30. bottom 31. fifth sealing surface 32. sixth sealing surface 33. Seventh sealing surface 34. Eighth sealing surface 35a Edge ( ; 35b. Edge ( ; first 36. through the first straight ' plate 14

Claims (1)

M405557 • . . 100年2月*>多日修正替換頁 六、申請專利範圍： ---- 1.-種在不同媒介之間進行熱交換的橫流式熱交換器 ⑴’至少由-塊第-板⑺和至少一塊第二板（3)組成，彼此 交替堆放’形成疊板（4)， 其中’板(2、3)分別由上側和對面的下側組成；熱交換 區（9a、9b)佈置在板（2、3)的第一短側（6a、叫的第一孔式 .分流模（5a、5b)，以及佈置在相同板的對面的第二短側（8a)、 (8 b)的第二孔式分流模（7 a、7 b)之間， φ 其中第—板⑺的上側構成了 A-A側視圖，而第一板的 對側構成了 B-B側視圖， 其中第二板（3)的上側構成了 c_c側視圖，而第二板 的對側構成了 D-D側視圖， 其中第一板（2) ’在熱交換區（9&)内由第一類凹坑（1〇) 組成， 其中第二板（3)，在熱交換區（9b)内由第二類凹坑（11) 組成，與第一類凹坑（1 〇)不同， ， 其中在疊板⑷中，兩個相鄰板(2、3)的B-B側與C-C 側相連接，形成了第一直流管（1 2)， 其中在疊板（4)中，兩個相鄰板（2、3)的A_A側與D D 側相連接，形成了第二直流管（1 3 )， 其中第一直流管（12)的容量比第二直流管（13)的容量 大， 其中第~直流管（12)的入口（14)和出口（1 5)佈置在疊板 (4)中的兩個相鄰板（2、3)之間的兩個正對的長側（16&、i6b、 17a 1 7 b)，β _ b側正對C - C側並且相連接， 15 M405557 100年2月d日修正替換頁· 其中沿長側(16a、i6b、17a、17)佈置的第—直流^ 的入口（14)或者出口（15)，至少一個口由支撐凹坑（i8a、丨扑） 組成’其空間間隔應爲’支樓凹坑（18a、m)的兩個支撐頂 (19a、19b)之間的間距超過熱交換區（9a、％)内的凹坑、 11)的相鄰凹坑頂（2〇a、20b)之間的間距。 2.根據申6月專利範圍第i項所述的一種橫流式熱交換 器’其特徵在m面長側（16a、16b)的第—直流管（12)的· 入口（μ)和出口（15)佈置有支撐凹坑〇8a、⑽）。 · 3·根據申請專利範圍第i項所述的一種橫流式熱交換 器’其特徵在於第一板⑺内的第—類凹坑⑽對稱布置在整 個熱交換區（9a)内。 4.根據申請專利範圍第丨項所述的一種橫流式熱交換 其特徵在於第一板⑺内的第-類凹坑⑽的凹坑頂(20a) 佈置在第二平面（21)内。 ^據申請專利範圍第丨項所述的—種橫流式熱交換 =内於第一類凹坑（10)由位於第-板⑺的第一平面 (23)内的底（22)組成。 6_根據申請專利範圍第1項所 3..’所返的一種橫流式熱交換 裔，其特徵在於第一板（2)中的备4 一；笛一 （)中的母個孔式分流模(5a、7a)由第 和第—岔封表面（24、25)組成。 7·根據申請專利範圍第1項 g , A n ^ ^ 、所述的一種橫流式熱交換 板⑺中的第二平面㈤内。1表面（24巧佈置在第-8.根據申請專利範圍第1項 η > ^ ^ 、厅4的一種橫流式熱交換 八特微在於第三和第四密封.二 了表面（26、27)沿第一板（2) 16 AUTVwi JJ / AUTVwi JJ / -----___ 100年2月日修正替換頁 長側（16a、17a)佈置。 9. 根據申請專利範圍第〖 5. ^ 項所迷的一種橫流式熱交換 口 ，八特徵在於第二板（3)内盥 ，、弟一板（3)的長側（16b、17b) 千饤的第二類凹坑（i i ； 、）化成了波形脊（28)。 10. 根據申請專利範圍第 # 4+ ^ ^ 珩 負所迷的一種橫流式熱交換 态，其特徵在於在第二板（3)中， 俠 （）中在兩個相鄰凹坑頂（20b)之 21)之間。 ）在第一板（3)的[和第二平面（23、 11. 根據申請專利範圍第1 吳^ M所述的一種橫流式熱交換 益’其特徵在於第二板（3)中的* 、 筮X 4势— 匕式刀〜模（5b、7b)分別由 第五和第，、雄、封表面（31、32)組成。 12. 根據申請專利範圍第 琴，…m # 弟1項所迷的-種橫流式熱交換 益兵特彳政在於一第五和第 ^工 弟、在封表面（3卜32)佈置在第二 板（3)的第二平面（21)内。 13. 根據申請專利範圍第 哭，立㈣*員所4的-種橫流式熱交換 〇D其特徵在於第七和第八密封矣；〇， …封表面（33、34)沿第二板π、 長側（1 6 b、1 7 b)佈置。 （） 1 4.根據申請專利範圍第丨 ’所达的一種橫流式教交拖 器，其特徵在於第七和第 d式…、乂換 (3)的第一平面（23)内。 滑置在第一板 15.根據申請專利範圍第1 5| , 4* ^ ^ . 、迷的一種橫流式熱交換 益其特被在於在板（2、3)中，經试杳、L 〇hx - .ft .,L r ，·’ 貫沁短側（6a、6b、8a、 化）的邊4(35&、35b)的折起應爲當 在彼此的頂部堆放時，邊 ）f板⑷中 加, 州）部分搭叠下邊板（2、 3)的遺沿（35a、35b)。 17 M405557 100年2月乃曰修正替換頁.， 七、圖式： (如次頁）M405557 • . . 100年February*>Multi-day correction replacement page VI. Patent application scope: ---- 1.- Cross-flow heat exchanger (1) of at least heat exchange between different media The first plate (7) and the at least one second plate (3) are alternately stacked with each other to form a stack (4), wherein the 'plates (2, 3) are respectively composed of the upper side and the opposite side of the opposite side; the heat exchange area (9a, 9b) arranged on the first short side of the plates (2, 3) (6a, called the first hole type. The split mode (5a, 5b), and the second short side (8a) arranged opposite the same plate, ( 8 b) between the second orifice splitting molds (7 a, 7 b), φ wherein the upper side of the first plate (7) constitutes the AA side view, and the opposite side of the first plate constitutes the BB side view, wherein the second The upper side of the plate (3) constitutes a side view of c_c, while the opposite side of the second plate constitutes a DD side view, wherein the first plate (2)' is in the heat exchange zone (9&) by a first type of pit (1 〇) composition, wherein the second plate (3) is composed of a second type of pit (11) in the heat exchange zone (9b), which is different from the first type of pit (1 〇), wherein in the stack (4) , The BB sides of the adjacent plates (2, 3) are connected to the CC side to form a first direct current tube (12), wherein in the stack (4), two adjacent plates (2, 3) The A_A side is connected to the DD side to form a second direct current tube (13), wherein the capacity of the first direct current tube (12) is larger than the capacity of the second direct current tube (13), wherein the first direct current tube (12) The inlet (14) and the outlet (15) are disposed on two opposite long sides (16&, i6b, 17a 1 7 b) between two adjacent plates (2, 3) in the stack (4) ), the β _ b side faces the C - C side and is connected, 15 M405557 February 2, 2014 correction replacement page · The first DC ^ inlet arranged along the long side (16a, i6b, 17a, 17) 14) or exit (15), at least one port consisting of support pits (i8a, 丨), whose space spacing should be between the two support tops (19a, 19b) of the branch pits (18a, m) The spacing between the pits in the heat exchange zone (9a, %) exceeds the spacing between the adjacent pit tops (2〇a, 20b) of 11). 2. A cross-flow heat exchanger according to the scope of the patent application of the sixth aspect of the invention, characterized in that the inlet (μ) and the outlet (i) of the first-side tube (12) on the m-side long side (16a, 16b) 15) The support pits 8a, (10) are arranged. 3. A cross-flow heat exchanger as described in the scope of claim ii, characterized in that the first type of pits (10) in the first plate (7) are symmetrically arranged in the entire heat exchange zone (9a). 4. A cross-flow heat exchange according to the scope of the patent application, characterized in that the pit top (20a) of the first-type pit (10) in the first plate (7) is arranged in the second plane (21). ^ Cross-flow heat exchange as described in the scope of the patent application § = The first type of pocket (10) consists of a bottom (22) located in the first plane (23) of the first plate (7). 6_ A cross-flow heat exchanger according to the third paragraph of the patent application scope, which is characterized by the preparation of the first plate (2) and the parent hole shunt in the flute one () The mold (5a, 7a) consists of a first and a first sealing surface (24, 25). 7. According to the scope of the patent application, item 1, g, A n ^ ^, in a second plane (5) of a cross-flow heat exchange plate (7). 1 surface (24 cleverly arranged in the -8th. According to the patent application scope 1st η > ^ ^, a cross-flow heat exchange of the hall 4 is in the third and fourth seals. The second surface (26, 27 ) along the first board (2) 16 AUTVwi JJ / AUTVwi JJ / -----___ The replacement of the long side (16a, 17a) of the replacement page on February 2, 100. 9. According to the scope of the patent application 〖 5. ^ A cross-flow type heat exchange port, which is characterized by a second type of pit (ii; ,) of the second side (3), and the long side (16b, 17b) of the first board (3). Turned into a wavy ridge (28) 10. A cross-flow heat exchange state according to the patent application #4+ ^ ^, which is characterized by two in the second plate (3), in the man () Between two adjacent pit tops (20b) (21). In the first plate (3) [and the second plane (23, 11. a cross-flow heat exchange benefit according to the patent application scope 1 wu ^ M) is characterized by * in the second plate (3)筮X 4 potential - 匕 刀 〜 模 模 5 5 5 5 5 5 5 5 5 5 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. 12. The fascinating cross-flow heat exchange Yibing special administration is located in a fifth plane and a second working place, and is arranged in the second plane (21) of the second board (3) on the sealing surface (3b 32). According to the scope of the patent application, the cross-flow heat exchange 〇D of the (4)* member 4 is characterized by the seventh and eighth sealing 矣; 〇, ... the sealing surface (33, 34) along the second plate π, Long side (1 6 b, 1 7 b) arrangement. () 1 4. According to the scope of the patent application 丨', a cross-flow type of cross-talking device is characterized by the seventh and d-type... 3) in the first plane (23). Sliding on the first plate 15. According to the patent application scope 1 5|, 4* ^ ^., a cross-flow heat exchange of the fans is located in the board (2 , 3), After the test, L 〇 hx - .ft ., L r , · ' 沁 沁 short side (6a, 6b, 8a, hua) edge 4 (35 &, 35b) folding should be stacked on top of each other At the time, the side plate (4) plus, state) partially overlaps the edges (35a, 35b) of the lower side plates (2, 3). 17 M405557 February 2014 is the revised replacement page., VII, schema: (such as the next page) 18 M405557 fi 118 M405557 fi 1 /Γ/Γ 82 M40555782 M405557 22 Έ405557 圖4aΈ405557 Figure 4a 圖4cFigure 4c M405557 8 5aM405557 8 5a M405557M405557 M405557 量7aM405557 quantity 7a λλ ζ η 又ι 圖7bζ η and ι Figure 7b