M250130 捌、新型說明: 【新型所屬之技術領域】 本創作係關於熱交換器的應用領域,尤指一種鰭片式 長矩形且具有導流效果的蒸發器者。 【先前技術】 熱交換器為一般機械裝置經常使用的構造之一,熱交 換器的其中一種型態為運用許多散熱鰭片以擴大熱交換的 面積’以提昇熱交換的效率。 諸如’中華民國專利公告編號第3 7 3 7 2 1號「鰭 片式蒸發器(一)」一案,其主要係於一熱交換管中設有 一冷卻管,冷卻管上以連續排列方式固定設有複數片散熱 *、、、曰片 门時,熱父換管的内侧兩對應側管壁設有多數隔板 ’使當鰭片與冷卻管裝置於熱交換管中時,藉由隔板區隔 而成數個冷凝空間,以導引冷卻液之流動方向,增加献 換的效率。 ” 然而,上述專利案中,由 内侧,隔板一旦加工完成,相 因此’當欲改變冷凝空間之大 計製作,在運用上顯得相當不 製造不同熱交換管的成本。 【新型内容】 於隔板係固定於熱交換管的 鄰隔板的間距即無法調整, 小時,熱交換管即需重新設 具彈性與便利,同時也增加 父換效率、便利 *鳍片式蒸發器者 本創作之主要目的在於提供一種高熱 安裝與整體製造彈性高以節省製造成本的 〇 007553 4 M250130 為達上述目的,本創作係包含有一長矩形封閉殼體的 熱交換管,熱交換管具有一冷卻流體入口與一冷卻流體出 口,熱交換管中設有一彎折成一管陣的冷卻管,冷卻管的 兩端係並貫穿出熱交換管,其中,冷卻管之管陣的兩端係 分別抵靠於熱交換管内側的兩端,冷卻管上於管陣部分間 隔設有複數片隔板,相鄰的隔板間形成一内空間並分別朝 相異的方向凸出接觸熱交換管的内壁,同時,冷卻管上最 外兩端的隔板位置,並位於冷卻流體入口與冷卻流體出口 兩者間,使相鄰的内空間相互通連,形成一迂迴狀的流體 通道’每一内空間中的冷卻管上積疊設有複數散熱鰭片, 相鄰的散熱鰭片間並保持有二間ΊΤ。—一 一 藉此,本創作之具體達成的功效在於: 當冷卻流體,如油、水、空氣等流體經由冷卻流體入 口進入熱交換管後,會流經迂迴狀的流體通道,再由冷卻 流體出口流出熱交換管。冷卻流體流經流體通道時,因流 體通道呈迂迴狀的設計,不僅具有導流的效果,也可增加 冷卻流體熱交換的時間,可提升高熱交換的效率;同時, 由於隔板與散熱鰭片皆設於冷卻管上,相鄰隔板間的内空 間之寬度,可於積疊隔板與散熱鰭片時,依設計需求作變 化調整,整體製造彈性高,可節省製造成本。 再者,冷卻管上最外兩側的隔板位置並位於冷卻流體 入口與冷卻流體出口兩者間,可減少冷卻流體於接近熱交 換官的兩端處滯留的機會,以增加冷卻流體之流動,也可 提高熱交換的效率。 007551 M250130 同時蒸發器整體為長矩形設計,在蒸發器裝配於機 械設備時,更具有裝配的便利性。 【實施方式】 請參照第一圖到第三圖所示,本創作之鰭片式長矩形 療發器之較佳的實施例係包含有一冷卻管(1 i )、複數 片散熱鰭片(1 2 )、複數片隔板(1 3 )與一熱交換管 (14)。 ”、' 冷卻管(1 1 )係供冷煤流經其中,並彎折成一管陣 型態’冷卻管(1 1 )上管陣的部分間隔設有矩形的隔板 (13) ’相鄰的隔板(13)間形成一内空間,同時, 相鄰的隔板(1 3 )並分別朝相異的方向凸出以供抵靠於 熱父換管(1 4 )的内壁,使相鄰的内空間相互通連,形 成一迂迴狀的流體通道。 散熱鱗片(1 2 )係可為矩形並規則地積疊於每一内 空間中,相鄰的散熱鰭片(1 2 )間並可保持有適當的間 距。 冷卻管(1 1 )、散熱鰭片(1 2 )與複數片隔板( 1 3)組裝完成後,係裝置於熱交換管(1 4)中,熱交 換管(1 4 )係為一長矩形的封閉殼體,並具有一冷卻流 體入口(141)與一冷卻流體出口(142),其中, 冷卻管(1 1)的兩端係貫穿熱交換管(14)而出,冷 卻管(1 1 )彎折成管陣的兩端係抵靠於熱交換管(1 4 )内側的兩端。相鄰的隔板(1 3 )的凸出部分分別抵靠 於熱交換管(1 4 )内側的兩側面,使冷卻流體,如油、 007555 6 M250130 水、空氣等流體經由冷卻流體入口( 1 4 1 )進入熱交換 管(1 4 ),流經迂迴狀的流體通道,再由冷卻流體出口 (1 4 2 )流出熱交換管(1 4 )。 同時,冷卻管(1 1 )上最外兩側的隔板(1 3 )位 置並位於冷卻流體入口( 1 4 1 )與冷卻流體出口(丄4 2 )兩者間,可減少冷卻流體於接近熱交換管(1 4 )的 兩端處滞留的機會,以增加冷卻流體之流動,提高熱交換 的效率。 上述所揭露的本創作之技術手段,係僅用以說明本創 作之較佳實施狀態’但不代表本創作之實施態樣限於上述 所揭露的較佳實施例,對熟悉此項技術的人士,依據本創 作做如外型或大小上但實質上卻與本創作所揭露的技術手 段相同的變更,亦不應被排除於本創作所欲請求保護的申 請專利範圍之外。 007556 7 M250130 【圖式簡單說明】 (一) 圖式部分 第一圖係本創作較佳實施例之立體分解圖。(代 表圖) 第二圖係本創作較佳實施例之剖視平面圖。 第三圖係本創作較佳實施例之使用狀態放大示意 圖。 (二) 元件代表符號 (1 1 )冷卻管 (1 2 )散熱鰭片 (13)隔板 (14)熱交換管 (1 4 1 )冷卻流體入口 (1 4 2 )冷卻流體出口 8 007557M250130 新型 Description of the new type: [Technical field to which the new type belongs] This creation relates to the application field of heat exchangers, especially a fin-type long rectangular evaporator with flow-guiding effect. [Prior art] A heat exchanger is one of the structures often used in general mechanical devices. One type of heat exchanger is to use a lot of heat dissipation fins to increase the area of heat exchange 'to improve the efficiency of heat exchange. For example, the case of the "Republic of China Patent Publication No. 3 7 3 7 2 1" Finned Evaporator (1) "is mainly a cooling tube in a heat exchange tube, and the cooling tube is fixed in a continuous arrangement. When there are multiple pieces of heat dissipation door, the inside wall of the two sides of the heat-exchange tube is provided with most partitions. When the fins and cooling tubes are installed in the heat exchange tube, the partitions It is divided into several condensation spaces to guide the flow direction of the cooling liquid and increase the efficiency of the replacement. However, in the above-mentioned patent case, once the inner side and the partition are processed, it is therefore necessary to change the large-scale production of the condensing space, and it seems that the cost of manufacturing different heat exchange tubes is quite small in application. [New Content] The spacing between the adjacent plates of the plate system fixed to the heat exchange tube cannot be adjusted. When the hour is required, the heat exchange tube needs to be re-designed with flexibility and convenience, and it also increases the efficiency and convenience of the parent replacement. The purpose is to provide a high-heat installation and overall manufacturing with high flexibility to save manufacturing costs. 00007553 4 M250130 In order to achieve the above purpose, the creative system includes a heat exchange tube with a long rectangular closed casing. The heat exchange tube has a cooling fluid inlet and a The cooling fluid outlet. The heat exchange tube is provided with a cooling tube bent into a tube array. Both ends of the cooling tube are connected to and penetrate the heat exchange tube. Among them, the two ends of the tube array of the cooling tube are respectively abutted against the heat exchange tube. At both ends of the inner side, a plurality of partitions are arranged on the cooling tube at a part of the array, and adjacent partitions form an internal space and are convex in different directions. At the same time, the inner wall of the heat exchange tube is exposed, and at the same time, the partitions on the outermost ends of the cooling tube are located between the cooling fluid inlet and the cooling fluid outlet, so that the adjacent inner spaces communicate with each other to form a circuitous fluid. A plurality of cooling fins are stacked on the cooling tubes in each inner space of the channel, and two cooling fins are maintained between the adjacent cooling fins. One by one, the specific effect of this creation is: When After the cooling fluid, such as oil, water, air, etc. enters the heat exchange tube through the cooling fluid inlet, it will flow through the circuitous fluid channel and then exit the heat exchange tube from the cooling fluid outlet. When the cooling fluid flows through the fluid channel, The circuit has a circuitous design, which not only has the effect of diversion, but also increases the time for heat exchange of the cooling fluid, which can improve the efficiency of high heat exchange. At the same time, because the partition and the fins are located on the cooling tube, adjacent partitions The width of the internal space between the plates can be adjusted according to design requirements when the spacers and heat dissipation fins are stacked, and the overall manufacturing flexibility is high, which can save manufacturing costs. Furthermore, cooling The positions of the partitions on the outermost sides of the tube are located between the cooling fluid inlet and the cooling fluid outlet, which can reduce the chance of the cooling fluid staying near the two ends close to the heat exchange officer to increase the flow of the cooling fluid and also improve The efficiency of heat exchange. 007551 M250130 At the same time, the evaporator is a long rectangular design. When the evaporator is assembled in mechanical equipment, it is more convenient to assemble. [Embodiment] Please refer to the first to third pictures, this creation A preferred embodiment of the fin-type long rectangular hair treatment device includes a cooling tube (1 i), a plurality of heat-dissipating fins (1 2), a plurality of partition plates (1 3), and a heat exchange tube (14). ) "," "The cooling pipe (1 1) is used for cold coal to flow through and is bent into a tube array type. 'Parts of the tube array on the cooling pipe (1 1) are provided with rectangular partitions (13).' An inner space is formed between the adjacent partitions (13), and at the same time, the adjacent partitions (1 3) are respectively protruded in different directions for abutting against the inner wall of the heat-exchange tube (1 4), The adjacent inner spaces are connected with each other to form a circuitous fluid passage. The radiating fins (1 2) can be rectangular and regularly stacked in each inner space. Adjacent radiating fins (1 2) can be kept at a proper distance. After the cooling tube (1 1), the heat dissipation fins (1 2) and the plurality of partition plates (1 3) are assembled, they are installed in the heat exchange tube (1 4), and the heat exchange tube (1 4) is a long one. The rectangular closed casing has a cooling fluid inlet (141) and a cooling fluid outlet (142), wherein both ends of the cooling pipe (1 1) pass through the heat exchange pipe (14) and the cooling pipe (1 1) Two ends bent into a tube array are abutted against two ends inside the heat exchange tube (1 4). The protruding parts of the adjacent partitions (1 3) abut against the two sides of the inner side of the heat exchange tube (1 4), so that cooling fluids such as oil, 007555 6 M250130 water, air and other fluids pass through the cooling fluid inlet (1 4 1) Enter the heat exchange tube (1 4), flow through the circuitous fluid passage, and then flow out of the heat exchange tube (1 4) from the cooling fluid outlet (1 4 2). At the same time, the outermost two partitions (1 3) on the cooling pipe (1 1) are located between the cooling fluid inlet (1 4 1) and the cooling fluid outlet (丄 4 2), which can reduce the cooling fluid to approach Opportunities for retention at both ends of the heat exchange tube (1 4) to increase the flow of cooling fluid and improve the efficiency of heat exchange. The above-disclosed technical means of this creation are only used to explain the preferred implementation state of this creation ', but it does not mean that the implementation mode of this creation is limited to the above-disclosed preferred embodiments. For those who are familiar with this technology, Changes in appearance or size based on this creation that are substantially the same as the technical means disclosed in this creation should not be excluded from the scope of the patent application for which this creation is intended to be protected. 007556 7 M250130 [Schematic description] (I) Schematic part The first figure is a three-dimensional exploded view of the preferred embodiment of this creation. (Representative drawing) The second drawing is a sectional plan view of the preferred embodiment of this creation. The third diagram is an enlarged schematic diagram of the use state of the preferred embodiment of the present invention. (2) Symbols of components (1 1) Cooling tube (1 2) Cooling fins (13) Baffle plate (14) Heat exchange tube (1 4 1) Cooling fluid inlet (1 4 2) Cooling fluid outlet 8 007557