200928269 九、發明說明: 【發明所屬之技術領域】 本創作係關於一種流體熱能移轉裝置,特別是指一種係關 於一種流體熱能與降溫有關裳置,尤其是指—種具有高效能降 溫功效而又具有低成本,且使用水流當介f,因此可以循環使 用,兼具環保概念之一種流體熱能移轉裝置。 【先前技術】200928269 IX. Description of the invention: [Technical field to which the invention pertains] This creation relates to a fluid thermal energy transfer device, and more particularly to a device relating to the thermal energy of a fluid associated with cooling, in particular, a high-performance cooling effect. It also has a low-cost, and uses a water flow as a medium, so it can be recycled, and it is a fluid thermal energy transfer device that has an environmentally friendly concept. [Prior Art]
,如何減少能 近年來,因為能源危機、加上環保意識抬頭 源浪費、以及如何能降低二氧化碳與廢氣的產生已經不只是 企業界、製造業者們的功課了,而是社會大眾們—致的目標… 將節能'環保的觀念普及於日常生活中,因此所有的裝置設施 亦都朝此一目標來作設計改良。 【發明内容】 、本創作之目的即在於提供一種流體熱能移轉裝置,可達成 Φ 上述新型目的之流體熱能移轉裝置,包括有: 1動機構’用以帶動―卫作臂作往復與心立運動; 一熱交換機構’係由複數之熱導管組成而設置於該工作臂 上,隨該工作臂之作動而移位者,藉由該等熱導管係真空封裝 9金屬g,於f體内且容I有流體之設計,當該等熱導管伸入 於—内部具高溫度之容置桶内,利用相的變化可以迅速地將轨 能帶走,以快速降低容置桶内物品之溫度; 一輔冷機構’係設置於該工作臂之下方,該容置桶之外周 200928269 圍者,於該機構内部環繞該容置桶周圍設置有一導水管,該導 ::管上具有複數之水孔’當有水流進入導水管將由該等水孔對 著該容置桶外周时出水流,可對容置桶的外部提供降溫作用; 冑由上述構件所組成之熱能移轉敦置,提供能快速降溫並 且具有減少能源耗費之功效,減輕使《置者之成本負擔。 • 【實施方式】 8 本創作一種流體熱能移轉裝置10,請參閱圖一至圖三所 ® ’其主要係於-機檯11上設置包括有-帶動機構13、一熱 交換裝置15、以及一輔冷機構17 ;其中 該帶動機構㈣由一馬達131驅動一傳動螺桿132轉動, 而該機檯11其主柱⑴之橫向枢設—工作f ιΐ2,於該工作臂 112上以-滾動體113係為—滾輪’將順著該主柱iu滚動 滑移’當社作臂112被該傳動螺桿132帶動而上、下升降動 作時,可以更為順暢平穩,如圖四所示。 〇 言亥熱交換機構15係由複數之熱導管151設置於一組接塊 152上’如圖三所示’再以該組接塊152上端之支+主153懸設 。亥作彳112上,並隨該工作臂112而上、下移位者;該等 =導管二皆係為真空封裝的金屬管(大致上有鋼管與不鑛鋼 A j^看所使用欲降溫之物品其本身的物性與特質來作選 擇)於管體内且容裝有流體(一般最常見的有水或氨氣等)之設 。十,“亥等熱導管151伸入於一内部承袭具高溫度物品之容置 200928269 桶(圖未不出)内,利用相的變化使沸點低的流體在熱導管151 内重複進行沸騰(吸熱)與凝結(放熱)的過程,可以迅速地將熱 能f走,快速地降低容置桶内物品之溫度,此一熱交換原理與 結構係屬習知,且非本創作之技術特徵,故在此不予贅述;圖 - 十八係本創作熱交換機構其上之熱導管排列次一型態之示意 - 圖。圖十九係本創作熱交換機構其上之熱導管排列又一型態之 示意圖。圖二十係本創作熱交換機構其上之熱導管排列再—型 〇 態之不意圖。圖二十一係本創作熱交換機構其上之熱導管排列 另一型態之示意圖。 該輔冷機構17係設置於該熱交換裝置15之下端部位、該 機檯11之下方,係由呈左、右對開狀設置之二矩形罩殼171、 172所組成之一體積大於該容置桶之一中空箱盒該二罩殼 171、172上方中心各具有一半圓孔1711、1721可對組成一圓 形之裝设孔,順著該二半圓孔1711、1721之圓周内部各分別 © 繞設有一導水管173,於該導水孔173上穿設有複數之水孔 1731,當水流進入該導水管173而由其等水孔1731噴出時, 將變成水流狀;而將承裝有高溫度物品之容置桶放置於該中空 箱盒中,藉由該導水管173其水孔1731噴出之水流噴灑於該 容置桶之外部周圍,可以迅速降低容置桶外部之溫度,提供輔 助冷卻容置桶内物品溫度之作用,如圖五所示,而,於該二罩 殼Π1、172之下方部位具有一承盤174,該承盤174上設有若 200928269 干孔洞174卜承盤174之下方設有集收管175,使噴灑於該容 置桶外壁上用以帶走溫度之水流滴落於該承盤174後由該等孔 洞Π41流出經集收管175回收後,供再次使用;又請配合 參閱圖六所示’於該中空箱盒之下端設置控制水流何時進入該 等導水^ 173以及噴壤水流時機之一操控盒176,則係藉於一 ' 純177上開設空孔mi而於其後端壁上另固設—概呈[形 之側片1772的結構而得以支撐架設定位者; 據由以上所述構件所組成之本創作—種流體熱能移轉裝 置1〇 ’藉由複數真空密封之導能f 151所組成之熱交換裝置 15浸入於容裝高溫度食品之容置桶内位,於導能管⑸内部 容裳之流體吸收容置桶内之熱氣後’利用相的變化可以迅速降 低容置桶内之溫度’而由—繞設於該容置桶之外部之導水管 173其水孔1731所產生之水流噴灑於容置桶之外周圍又可 _走熱氣’提供輔助降溫的功效’本創作利用内、夕卜同時進 ^ #熱交換作用’雙重強降溫的動作可迅速降低容置桶内物品之 溫度,則可以節省等待冷卻的時間,具快速、高效能降溫的進 步功效,是為本創作之主要優點; 而使用水流當介質,成本低廉更可以循環使用,兼具環保 概念以及提昇產業競爭力,則為本創作之另_項優點。 另外’請配合參閱圖八至圖十所示,—快速接頭19係設 置於該組接塊152之-側壁上,用α組接凸伸於該組接塊152 200928269 上之若干接管154以及管體155之用途,該快速接頭19係由 二形狀對稱之扣環體191、192以一端部轴樞,而於其中—扣 環體191其另一端部組接一撥塊193,另一扣環體192則開設 一缺槽(圖未示出)恰可供該撥塊193其所具有之細徑部.MW . 得以嵌入,並於嵌入後以該撥塊193大於該缺槽寬度之身部抵 . 擋著缺槽而完成,一旦往撥動該撥塊193使其細徑部1931脫 離缺槽,則二扣環體191、192即可以立即解除扣合之狀態而 0 可以將官體155拔掉,又該接管154以及管體155之端部設呈 為導肖、圓緣狀1541、1551,加上一墊片194即可被夾合於該 等快速接頭19其二扣環體19卜192呈二環側邊為錐狀之内部 環槽1911中,使接管154與管體155接合緊密又可防漏,是 為本創作裝置之第三項優點。 料閱圖十―,係本㈣流體熱能移轉裝置1G,之另一較 佳實例’其與前述第一實施例之不同點僅在於其機接川具有 G 主柱1U,供—卫作臂⑴,橫設二妹之間可以上、下滑 釉4、機構17’等皆 。而圖十二與圖十三係本創作一種流 動移位’其他構件包括熱交換機構15’、辅冷機構17,箄比How to reduce energy in recent years, because the energy crisis, plus the waste of environmental awareness, and how to reduce the production of carbon dioxide and waste gas is not only the work of the business community, the manufacturers, but the goal of the public ... The concept of energy saving 'environmental protection' is widely used in daily life, so all the installation facilities are also designed to improve this goal. SUMMARY OF THE INVENTION The purpose of the present invention is to provide a fluid thermal energy transfer device, which can achieve the above-mentioned novel purpose of the fluid thermal energy transfer device, including: 1 moving mechanism 'used to drive the guard arm for reciprocating and heart a movement mechanism; a heat exchange mechanism is composed of a plurality of heat pipes and is disposed on the working arm, and is displaced by the movement of the working arm, and the metal pipe is vacuum-packed by the heat pipes. The internal volume I has a fluid design. When the heat pipes are inserted into the internal high-temperature accommodating barrel, the phase change can be used to quickly remove the rail energy to quickly reduce the contents of the accommodating barrel. The temperature of the auxiliary cooling mechanism is disposed below the working arm, and the outer circumference of the receiving barrel is around 200928269. A water conduit is disposed around the receiving barrel inside the mechanism. The guiding tube has a plurality of pipes. The water hole 'when there is water flowing into the water conduit, the water flow from the water hole to the outer circumference of the receiving barrel can provide a cooling effect on the outside of the receiving barrel; 胄 the thermal energy composed of the above components is transferred and provided Can drop quickly Effect and has a reduced consumption of energy, so reduce the "cost burden of the disposer. • [Embodiment] 8 A fluid thermal energy transfer device 10 is created. Please refer to FIG. 1 to FIG. 3 'which is mainly disposed on the machine 11 and includes a driving mechanism 13 , a heat exchange device 15 , and a The auxiliary cooling mechanism 17; wherein the driving mechanism (4) is driven by a motor 131 to rotate a driving screw 132, and the main shaft (1) of the machine table 11 is laterally pivoted-operated f ι 2, and the working body 112 is provided with a rolling element 113. The system is - the roller 'will slide along the main column iu'. When the arm 112 is driven by the drive screw 132, the upper and lower lifting movements can be smoother and smoother, as shown in FIG. The heat exchange mechanism 15 is provided by a plurality of heat pipes 151 disposed on a plurality of blocks 152 as shown in FIG. 3 and then suspended by the upper end of the set of blocks 152 + the main 153. The sea is placed on the shovel 112 and moved up and down with the working arm 112; the = conduit 2 is a vacuum-wrapped metal tube (substantially there are steel pipes and non-mineral steel A j^ used to cool down) The object's own physical properties and characteristics are chosen to be contained in the tube body and contain fluids (generally the most common are water or ammonia). Ten, "Hai and other heat pipes 151 extend into an internal bearing of high temperature items in the 200928269 barrel (not shown), using phase changes to make the boiling point of the fluid boiling in the heat pipe 151 repeatedly (endothermic) ) and the process of condensation (exothermic), the heat energy can be quickly removed, and the temperature of the contents of the container is quickly reduced. This heat exchange principle and structure are well-known and not technical features of the present invention. This is not to be repeated; Figure - Eighteen series of heat exchangers on the creation of the heat pipe arrangement of the second type of state - Figure. Figure 19 is the heat exchanger of the creation of the heat pipe arrangement on the other type Fig. 20 is a schematic diagram of the arrangement of the heat pipes arranged on the heat exchange mechanism of the present invention. Figure 21 is a schematic diagram of another type of heat pipe arrangement on the heat exchange mechanism of the present invention. The auxiliary cooling mechanism 17 is disposed at a lower end portion of the heat exchange device 15 and below the machine table 11. The volume of the two rectangular covers 171 and 172 which are disposed in a leftward and rightward direction is larger than the capacity of the receiving barrel. One of the hollow boxes The upper ends of the shells 171, 172 each have a semi-circular hole 1711, 1721 for arranging a circular mounting hole, and a guide pipe 173 is disposed around the circumference of the two semi-circular holes 1711, 1721, respectively. The hole 173 is provided with a plurality of water holes 1731. When the water flows into the water conduit 173 and is ejected by the water holes 1731, it will become a water flow; and the receiving barrel containing the high temperature items is placed in the hollow. In the box, the water sprayed from the water hole 1731 of the water conduit 173 is sprayed around the outside of the accommodating barrel, so that the temperature outside the accommodating barrel can be quickly reduced, and the temperature of the contents of the accommodating barrel can be assisted to cool, such as As shown in FIG. 5, a retainer 174 is disposed on the lower portion of the two casings 1, 172, and the receiving tray 174 is provided with a collecting tube 175 under the hole 174 of the 200928269 dry hole 174, so as to be sprayed on The water flow on the outer wall of the receiving barrel for taking away the temperature drops on the retaining plate 174, and then flows out through the collecting holes 175 through the holes 175 for reuse, and please refer to FIG. The lower end of the hollow box is set to control when the water flow enters Into the water guide 173 and one of the timings of the water spray flow control box 176, by means of a 'empty 177 on the opening hole mi and fixed on the rear end wall - the outline [shaped side piece 1772 The structure is configured to support the set position; according to the above-mentioned components, the present invention is a type of fluid thermal energy transfer device 1' immersed in a heat exchange device 15 composed of a plurality of vacuum sealed energy guides f 151 The high-temperature food is placed in the inner position of the barrel, and the fluid inside the energy-conducting tube (5) absorbs the hot gas in the barrel, and the change in the phase can quickly reduce the temperature in the receiving barrel. The water pipe produced by the water pipe 173 outside the barrel is sprayed around the outside of the accommodating barrel, and the heat can be used to provide the auxiliary cooling effect. The creation uses the inner and the outer eve to simultaneously enter the heat exchange function. 'Double strong cooling action can quickly reduce the temperature of the contents of the barrel, which can save the waiting time for cooling, and has the advanced effect of rapid and high-efficiency cooling. It is the main advantage of this creation; and the use of water as the medium, the cost Cheaper and more Recycling, both environmental protection and enhance industrial competitiveness, compared to other items for the Original _ advantages. In addition, please refer to FIG. 8 to FIG. 10, the quick connector 19 is disposed on the side wall of the set of blocks 152, and the plurality of nozzles 154 and tubes protruding from the set of blocks 152 200928269 are assembled by the α group. For the purpose of the body 155, the quick connector 19 is pivoted at one end by two shape-symmetrical buckle bodies 191, 192, and the other end of the buckle body 191 is assembled with a block 193, and the other buckle The body 192 defines a notch (not shown) for the small diameter portion MW of the dial 193 to be embedded, and after the insertion, the dial 193 is larger than the width of the slot. When the plucking block 193 is moved away from the vacant groove, the two buckle body 191, 192 can be immediately released from the splicing state, and the body 155 can be released. When the tube 154 and the tube body 155 are unplugged, the end portion of the tube 154 and the tube body 155 are formed as a guide hole and a circular edge shape 1541 and 1551. A spacer 194 can be clamped to the quick connector 19 and the second buckle body 19 Bu 192 is in the inner ring groove 1911 with the two sides of the second ring being tapered, so that the connecting tube 154 and the tube body 155 are tightly combined and leakproof, which is the author of the present invention. The third advantage. Referring to Figure 10, this is a (four) fluid thermal energy transfer device 1G, another preferred example of which differs from the first embodiment described above only in that the machine has a G main column 1U, and the supply arm (1), between the two sisters can be up, down glaze 4, institutions 17' and so on. 12 and FIG. 13 are a kind of flow displacement' other components including heat exchange mechanism 15' and auxiliary cold mechanism 17,
上列詳細說明係針對本創作之—可行實施例之具體說明 200928269 惟該實施例並非用以限制本創作 技藝精神所為之等效實施或變更 中。 之專利範圍,凡未脫離本創作 均應包含於本案之專利範圍 .物品增進上述多項功效,庳二:石*創新’並能較習用 Α 〜已充刀符合新穎性及進步性之沐+ ^新料财件t 懇§月責局核准本件新型專 申哨案’以勵創作’至感德便。 〇 【圖式簡單說明】 圖一係本創作—種流體熱能移轉震置之立體組合外觀 不意圖。 餅 圖一係圖一中工作赞I- ’上、下位移之動作示意圖。 圖二為其熱交換裝置部位分解立體示意圖。 圖四機檯主柱與m接之頂視示意圖。 圖五為輔冷裝置部位之立體分解示意圖。 圖^操控盒部位分解出出來之立體示意圖。 圖七為輔冷裝置之動作示意圖。 圖八為快速接頭扣合動作之示意圖。 圖九係圖八之剖視示意圖。 圖十為快速接頭解除動作之示意圖。 圖十一係本創作第二型態之組合示意圖。 圖十二係本創作第三型態之組合示意圓。The above detailed description is intended to be illustrative of the present invention. The specific embodiments of the present invention are not intended to limit the scope of the present invention. The scope of the patent, all of which should not be included in the scope of this patent should be included in the scope of the patent. The article enhances the above-mentioned multiple functions, the second: stone * innovation 'and can be used Α ~ has filled the knife to meet the novelty and progressiveness of the mu + ^ The new material and wealthy t 恳§ The monthly responsible office approved this new type of special whistle case to "creation of creation" to the sense of virtue. 〇 [Simple description of the diagram] Figure 1 is the creation of the three-dimensional combination of the fluid thermal energy shifting. Fig. 1 is a schematic diagram of the action of the upper and lower displacements of the work I- ’. Figure 2 is a schematic exploded view of a portion of the heat exchange device. Figure 4 is a top view of the main column of the machine and the m connection. Figure 5 is a perspective exploded view of the auxiliary cooling device. Figure 2 is a perspective view of the control box. Figure 7 is a schematic diagram of the operation of the auxiliary cooling device. Figure 8 is a schematic diagram of the quick joint fastening action. Figure 9 is a schematic cross-sectional view of Figure 8. Figure 10 is a schematic diagram of the quick joint release action. Figure 11 is a schematic diagram of the combination of the second type of the creation. Figure 12 is a combination of the third type of creation.
200928269 圖十一係本創作第三型態之側面示意圖。 圖十四係本創作第四型態之組合示意圖。 圖十五係本創作第四型態之側面示意圖。 圖十六係本創作第五型態之組合示意圖。 圖十七係本創作第五型態之側面示意圖。 圖十八係本創作熱交換機構其上之熱導管排列次一型 態之示意圖。 圖十九係本創作熱交換機構其上之熱導管排列又一型 態之示意圖。 圖二十係本創作熱交換機構其上之熱導管排列再一型 態之示意圖。 圖一十一係本創作熱父換機構其上之熱導管排列另一 型態之示意圖。 【主要元件符號說明】 10流體熱能移轉裝置 11機擾 111主柱 112工作臂 113滾動體 13帶動機構 131馬達 200928269 傳動螺桿 熱交換機構 熱導管 組接塊 支柱 接管 管體 圓緣狀 圓緣狀 輔冷機構 罩殼 罩殼 半圓孔 半圓孔 導水管 水孔 承盤 孔洞 集收管 操控盒 面板 200928269200928269 Figure 11 is a side view of the third type of the creation. Figure 14 is a schematic diagram of the combination of the fourth type of the creation. Figure 15 is a side view of the fourth type of the creation. Figure 16 is a schematic diagram of the combination of the fifth type of the creation. Figure 17 is a side view of the fifth type of the creation. Figure 18 is a schematic diagram showing the arrangement of the heat pipes arranged on the heat exchange mechanism of the present invention. Fig. 19 is a schematic view showing another type of heat pipe arrangement on the heat exchange mechanism of the present invention. Figure 20 is a schematic diagram showing the arrangement of the heat pipes arranged on the heat exchange mechanism of the present invention. Figure 11 is a schematic diagram showing another type of heat pipe arrangement on the hot parent changing mechanism. [Main component symbol description] 10 fluid thermal energy transfer device 11 machine disturbance 111 main column 112 working arm 113 rolling element 13 driving mechanism 131 motor 200928269 transmission screw heat exchange mechanism heat pipe group connecting block post pipe body round edge round shape Auxiliary cooling mechanism cover shell semi-circular hole semi-circular hole water pipe water hole plate hole hole collection tube control box panel 200928269
1771 空孔 1772 側片 19 快速接頭 191 扣環體 1911 内部環槽 192 扣環體 193 撥塊 1931 細徑部 194 墊片 10, 流體熱能移轉裝置 11, 機棱 111’ 主柱 112, 工作臂 15, 熱交換機構 17’ 輔冷機構 131771 Hole 1772 Side panel 19 Quick joint 191 Buckle body 1911 Inner ring groove 192 Buckle body 193 Block block 1931 Small diameter portion 194 Gasket 10, Fluid thermal energy transfer device 11, Machine edge 111' Main column 112, Working arm 15, heat exchange mechanism 17' auxiliary cooling mechanism 13