TWM282459U - Cooling, energy-regulating structure - Google Patents
Cooling, energy-regulating structure Download PDFInfo
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- TWM282459U TWM282459U TW094212775U TW94212775U TWM282459U TW M282459 U TWM282459 U TW M282459U TW 094212775 U TW094212775 U TW 094212775U TW 94212775 U TW94212775 U TW 94212775U TW M282459 U TWM282459 U TW M282459U
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- energy
- cooling
- water machine
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- ice water
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23Q—DETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
- B23Q11/00—Accessories fitted to machine tools for keeping tools or parts of the machine in good working condition or for cooling work; Safety devices specially combined with or arranged in, or specially adapted for use in connection with, machine tools
- B23Q11/12—Arrangements for cooling or lubricating parts of the machine
- B23Q11/126—Arrangements for cooling or lubricating parts of the machine for cooling only
- B23Q11/127—Arrangements for cooling or lubricating parts of the machine for cooling only for cooling motors or spindles
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K3/00—Apparatus or processes for manufacturing printed circuits
- H05K3/0011—Working of insulating substrates or insulating layers
- H05K3/0044—Mechanical working of the substrate, e.g. drilling or punching
- H05K3/0047—Drilling of holes
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
Description
M282459 四、創作說明(1) 【新型所屬之技術領域 本創作係提供一種冷卻節 PCB多轴鑽孔機之冷卻節能結b,、\構,尤‘一/重可連通於 及宅費之支出,而使能源之運用更具效率化。 才貝 【先前技術】 按’在印刷電路板(P r R、μ、任/ , ^ ^ Θ ^上進行鑽孔製程,對生產璟 土兄之要求,是須精確地控制 座衣 物質之干擾,那麼要如:; =、、無f及免於化學 界充分隔離形成一穷閉办n ^要求,即疋令廠房與外 .„ ^ , 在閉工間,再對該密閉空間連接有空,周 系統,而不斷地將室外之新鮮有捫 ffl vi m φ ^ ^ x 丨τ工虱降/皿後導入室内,以令 用以對電路板加工之鑽孔機可維 業;該PCB多軸鑽孔機# Α | ^特疋μ度下持續作 豆民、“二 為一十四小時連續生產作業,且 :她/、、·由之轉速鬲達2 5 0,0 0 0 rpm以上,運轉時需以 ^ 、及冷凍乾燥機不斷的供應液體及 ; = 溫作業’進而確保加工之速度及品質== 電ΐ成持、冰水機及冷凍乾燥機之耗能,而造成 成本,增加及該等設備所排放出有害氣體 ,# ,已嚴重危害到周遭環境之生態平衡;故 — 才肊,原加以充刀運用,已成為從事該項 仃業之相關人士所研究之重要課題。 /習知PCB多軸鑽孔機之冷卻結構,如第一圖所示,主 要係將冰水機1 〇a &冷;東乾燥機2〇a連通於一pcB鑽孔機 5a,該冰水機10a( 一般規格為3RT,流量:2〇公升/分,提M282459 IV. Creation Instructions (1) [Technical Field to which the New Type belongs This invention provides a cooling energy-saving junction of a cooling section PCB multi-axis drilling machine And make the use of energy more efficient. Caibei [Previous technology] According to the 'drilling process on the printed circuit board (P r R, μ, Ren /, ^ ^ Θ ^), the requirements for the production of the earth brother must accurately control the interference of the seat material , Then, such as: = ,, no f, and free from the chemical community to form a poorly closed office n ^ requirements, that is, order the factory building and the outside. ^ ^, In the closed room, and then connect the closed space to free , Weekly system, and continuously introduce fresh outdoor 扪 ffl vi m φ ^ ^ x 丨 τ worker lice drop / dish into the room, so that the drilling machine used to process circuit boards can maintain business; the PCB is more Shaft Drilling Machine # Α | ^ Continued to work as a peasant at “度”, “two for 14 hours of continuous production operations, and: her / ,,, and • speeds up to 2 5 0, 0 0 0 rpm or more During operation, ^ and the freeze-dryer are continuously supplied with liquid and; = warm operation 'to ensure the speed and quality of the process = = electric power, ice-water machine and freeze-dryer energy consumption, resulting in costs, Increasing and the harmful gases emitted by these equipment, # have seriously endangered the ecological balance of the surrounding environment; The use of knives has become an important subject studied by those involved in this industry. / The cooling structure of the PCB multi-axis drilling machine, as shown in the first picture, is mainly an ice water machine 10a &Cold; East dryer 20a is connected to a pcB drilling machine 5a, the ice water machine 10a (general specification is 3RT, flow rate: 20 liters / min.
第5頁 M282459 3、創作說明(2) 供16〜20°C之冷卻水輸出),其具有一液體出口管路118及 一液體入口管路1 2 a,並以一冷凍循環裝置對冰水機丨〇 a内 部之液體進行降溫後,再將該等低溫液體經液體出口管路 11a之輸出,而對PCB鑽孔機5a之Z轴馬達51a及轉軸52a進 行液體冷卻作業,而冷凍乾燥機20a則係藉由氣體入口管 路2 2 a將外部空氣吸入乾燥機2 0 a内部,以一冷凍循環裝置 對乾燥機2 0 a内部之氣體進行冷凝、除濕後,再藉由農體 出口管路2 la之輸出,而提供PCB鑽孔機5a之轉軸5 2a的空 氣軸承使用。 然而,習知PCB多軸鑽孔機之冷卻結構,基本上仍存 在有下述之問題: 其一,以3 RT冰水機1 0 a將冷卻水降溫至1 β〜2 〇 °c,除 了耗費能源外,並將廢熱散佈在空調室内,而增加空調機 之運轉負荷。 其二,使用3RT冰水機1 0a作為冷卻水的熱交換,其冷 媒之毛細管長期控制在微量運轉之狀態,而壓縮機卻益減 載之控制,使冰水機之冷凍效率低於預期甚多,且該壓縮 機反覆啟動、停止更徒增電力的消耗。 其二,該冰水機l〇a、冷凍乾燥機2〇a&pCB鑽孔機 5a,係呈開放式的設置於空調室内,f亥等設備輸 熱更增空調機之負荷及電力的耗損。 其四,該鑽孔機5 a之轉轴5 2 a A佐德0士 》人七 d任待機時,該冷凍乾烨 機20a不斷地提供低温壓縮空氣,蔣、生士 & 土 , ^ 將造成轉軸52a的溫度過 低,而產生結露滴水之困擾。Page 5 M282459 3. Creation instructions (2) For cooling water output at 16 ~ 20 ° C), it has a liquid outlet pipe 118 and a liquid inlet pipe 1 2 a, and uses a refrigeration cycle device for ice water After cooling the liquid inside the machine, the low-temperature liquid is output through the liquid outlet pipe 11a, and the Z-axis motor 51a and the rotating shaft 52a of the PCB drilling machine 5a are liquid-cooled, and the freeze dryer is used. In 20a, the external air is drawn into the dryer 20a through the gas inlet pipe 2a, and a refrigeration cycle device is used to condense and dehumidify the gas inside the dryer 20a, and then through the agricultural outlet pipe The output of the circuit 2 la is used to provide the air bearing of the rotating shaft 5 2a of the PCB drilling machine 5a. However, the cooling structure of the conventional PCB multi-axis drilling machine still basically has the following problems: First, the cooling water is cooled to 1 β ~ 2 0 ° C with a 3 RT ice water machine 10 a, except It consumes energy and disperses waste heat in the air-conditioned room, which increases the operating load of the air conditioner. Second, the 3RT ice-water machine 10a is used as heat exchange for cooling water. The capillary tube of the refrigerant is controlled in a small amount of operation for a long time, but the compressor is controlled to reduce load, which makes the freezing efficiency of the ice-water machine lower than expected And the compressor repeatedly starts and stops repeatedly, increasing the power consumption. Second, the ice water machine 10a, the freeze dryer 20a & pCB drilling machine 5a are installed in the air-conditioning room in an open style, and the heat transmission of equipment such as fhai increases the load of the air conditioner and the power consumption. . Fourthly, when the drilling machine 5 a rotates the shaft 5 2 a A Zode 0 shi "during standby, the freeze dryer 20a continuously provides low-temperature compressed air, Jiang, Sheng Shi & soil, ^ This will cause the temperature of the rotating shaft 52a to be too low, which will cause the problem of dew condensation.
第6頁 M282459Page 6 M282459
的管水機1〇a及冷,東乾燥機^之冷凌循環裝置 ::;::”R22«134a等冷媒來作為冷能之來源,ΐ 將成,生悲裱境及臭氧層之嚴重破壞。 之妳:^ : ^創作人有感^上述問題點及從事該行業多年 ΐ二軍Ϊ :進行改善之問題點,乃潛心研究並配合 理^右^ 、’本者精盈求精之精神,終於提出一種設計合 效改善上述問題點之本創作。 η 【新型内容】 其係利田】:之主要目的,在於可提供一種冷卻節能結構, 送出$ _…超導裝置對冰水機之回流液體及冷凍乾燥機之 之支2體進行熱交換過程,可大幅降低能源之耗損及電費 為’而使能源之運用更具效率化。 二了達成上述之目的,本創作係提供一種冷卻節能結 稱’係可殖α ^ —、逆通於一PCB多轴鑽孔機,該結構包括: —水水機,具有一液體出口管路及一液體入口管路; 降拖 冷康乾燥機,設於所述冰水機之一側處’該冷凍乾 你機I右_友 二巧一氣體出口管路及一氣體入口管路;以及 爲 熱超導回收裝置,具有承接所述冰水機之液體入口 7 /東乾燥機之氣體出口管路,並對液體入口管路内 、隹 / 一 々 行降溫後再流回冰水機中,而對氣體出口管路内 ^氣、隹一 這行昇溫後再送出,進而達成上述之目的。 【貫施方式】The cold water circulation device of the water pipe machine 10a and the cold and eastern dryers ::; :: "R22« 134a and other refrigerants are used as the source of cold energy, which will cause serious damage to the environment and serious damage to the ozone layer. You: ^: ^ The creator has feelings ^ The above problem points and years of experience in the industry ΐ The Second Army Ϊ: The problem points for improvement are concentrated on research and reasonable ^ Right ^, 'the spirit of excellence Finally, a creative design that effectively improves the above problems is proposed. Η [New content] Its Litian]: The main purpose is to provide a cooling energy-saving structure and send $ _... the superconducting device to return the ice water machine The heat exchange process of the two bodies of the liquid and the freeze dryer can greatly reduce energy consumption and electricity costs, and make the use of energy more efficient. Second, to achieve the above purpose, this creation is to provide a cooling and energy saving junction It is called “collocatable α ^”, which is connected to a PCB multi-axis drilling machine. The structure includes: — water machine, which has a liquid outlet pipe and a liquid inlet pipe; At the side of the ice water machine, the freeze-drying机 I 右 _ 友 二 巧 一 Gas outlet pipe and a gas inlet pipe; and a thermal superconducting recovery device, which has a gas outlet pipe for receiving the liquid inlet 7 / dong dryer of the ice water machine, and The temperature in the liquid inlet pipeline is reduced and then returned to the ice water machine, and the gas and pipeline in the gas outlet pipeline are heated and then sent out to achieve the above purpose. [Performance method]
M282459 四、創作說明(4) 有:本創作之特徵及技術内$,請參閱 明與附圖’而所附圖式僅提供參考盥 卜之;^ 創作加以限制者。 、 亚非用來對本 請參閱第二圖所示,择為太卷丨a t 連結示意圖,本創作係提供一種gptCB/:鑽孔機之 通於,多轴鑽孔機5,該冷卻節能、:Π;包: 水機i。、-冷凌乾燥機2。及一熱超導回收裝=括::.冰 該冰水機1 0包含有一冰水槽丨丨及一人 η /、. ::圖戶,該冰水槽"内裝填有液體丫該\二裝可置 或水之型恶,而冷凍循環裝置係用以對冰為油 ::降溫作業,該冷凍循環裝置具有壓縮機:J液體 脹閥、蒸發器及散熱風扇等冷凍空 7是。。、膨 ,件係為習知結構,因此不再予以詳細贊述於=該等 亡有一 $體出口管路12及一液體入口管路= f庸(pump)之運作,而使液體可於冰水槽"口1 路12及入口管路13間重覆循環流動。 出口管 該冷康乾燥機20亦具有_冷;東循環裝置 :),其與前述冰水機10最大的不同 圖所 濕、冷凝等處理作業,該冷凍乾 十孔/^進仃除 路21及-氣體入口管路22。東乾罐°具有-氣體出口管 置之ΪΙ併ίΓ,圖所示’係為本創作之熱超導回收壯 裝設於筒體31内部之均溫板模=置 於其二端分別連接有前蓋板33及後蓋板34,於g蓋 M282459 四、創作說明(5) 板33之中間處設有一液體入口 331及一液體出口 332,而於 液體入口 331之上方設有一氣體出口 333,另於後蓋板34之 下方處則設有一氣體入口 3 4 1。組合時係將冰水機丨〇之液 體入口管路13連通於熱超導回收裝置3〇之液體入口 331及 液體出口 332,而冷凍乾燥機20之氣體出口管路2 1(如第二 圖所示)則係連通於熱超導回收裝置30之氣體入口 341及氣 體出口 3 3 3,如此即可構成一冷卻節能結構。 ' 請參閱第四圖所示,係為本創作之均溫板模組立體分 解圖,该均溫板模組3 2包含有一管體3 2 1、多數均溫板 32 2_、於各該均溫板322之上下二平面貼附有散熱片組323 及二將各該均溫板3 22夾固連結於管體321之固定片324 . ΪΠ:係呈一「】」形’於其上、下二端分別形成有流 、25及汉有多數螺孔326,另該固定板324之中央處嗖有 多數穿孔327,該等穿孔3 27係與前述螺孔3 2 6對庫設置, 以=螺絲等固結元件鎖固連結,以將各均溫板322夾設於 固疋板324與管體321之端面間;另於流道325内壁向内延 :成形有多數鰭片,藉以增加液體之留滯時間以將均溫板 所產生之熱量迅速導出。再者’該散熱片組323係由多 友j熱片所組成,並於各該散熱片間形成有氣體通道’該 氣體通道係平行於筒體3 1之軸向設置。 請參閱第五及六圖所示,係分別為本創作之埶超導回 置軸向剖視圖及徑向剖視圖,於該筒體31之内壁與均 :、HM32之間隔空間處設有隔熱材料35 ’以使冰水機1 〇 之液體入口管路13所產生之熱能’及空氣冷滚乾燥機2〇之M282459 IV. Creation Instructions (4) Yes: For the features and techniques of this creation, please refer to the description and drawings ’, and the drawings are for reference only; ^ Those who restrict creation. For Asian and African use, please refer to the second picture, and select the connection diagram of Taijiu at. This creative system provides a gptCB /: drilling machine access, multi-axis drilling machine 5, the cooling energy saving ,: Π; package: water machine i. 、 -Ling Ling dryer 2. And a thermal superconducting recovery device = includes :. The ice water machine 10 includes an ice water tank 丨 丨 and one person η /,. :: Tuto, the ice water tank " is filled with liquid ya should be two It can be installed or water-type, and the refrigeration cycle device is used to cool the ice as oil :: The cooling cycle device has a compressor: J liquid expansion valve, evaporator, and cooling fan. . The expansion is a conventional structure, so it will not be described in detail any more. = The operation of a $ body outlet pipe 12 and a liquid inlet pipe = pump (pump), so that the liquid can be used in ice. The water tank " port 1 road 12 and the inlet pipe 13 are repeatedly circulated. The outlet tube of this cold-kang dryer 20 also has _ cold; eastern circulation device :), which is the biggest difference from the ice water machine 10 mentioned above, such as wet, condensation and other processing operations. AND-gas inlet line 22. The East Dry Tank has a-gas outlet tube and ΪΙ and Γ, shown in the picture 'is a thermal superconductor for the creation of this creation. The temperature-equalizing plate mold installed inside the cylinder 31 = placed at its two ends respectively connected with Front cover 33 and rear cover 34, cover G282459 IV. Creation instructions (5) A liquid inlet 331 and a liquid outlet 332 are provided in the middle of the plate 33, and a gas outlet 333 is provided above the liquid inlet 331. A gas inlet 3 41 is provided below the rear cover 34. In combination, the liquid inlet pipe 13 of the ice water machine 丨 0 is connected to the liquid inlet 331 and the liquid outlet 332 of the thermal superconducting recovery device 30, and the gas outlet pipe 21 of the freeze dryer 20 (as shown in the second figure) (Shown) is connected to the gas inlet 341 and the gas outlet 3 3 3 of the thermal superconducting recovery device 30, so as to form a cooling energy-saving structure. 'Please refer to the fourth figure, which is a three-dimensional exploded view of the isothermal plate module for this creation. The isothermal plate module 3 2 includes a tube body 3 2 1, most of the isothermal plates 32 2_. The upper and lower planes of the temperature plate 322 are attached with a heat sink group 323 and two fixing pieces 324 each of which is connected to the pipe body 321 by the temperature equalizing plate 3 22. The lower two ends are respectively formed with a plurality of screw holes 326 and 25, and the center of the fixing plate 324 is provided with a plurality of perforations 327. The perforations 3 27 are arranged in the library with the aforementioned screw holes 3 2 6. Consolidation elements such as screws are locked and connected to sandwich each of the temperature equalizing plates 322 between the end face of the fixing plate 324 and the pipe body 321; and the inner wall of the flow channel 325 extends inward: most fins are formed to increase the liquid The dwell time is used to quickly dissipate the heat generated by the isothermal plate. Furthermore, the heat sink group 323 is composed of a multi-element heat sink, and a gas passage is formed between the heat sinks. The gas passage is arranged parallel to the axial direction of the cylinder 31. Please refer to the fifth and sixth figures, which are respectively the axial cross-sectional view and the radial cross-sectional view of the superconducting return of this creation. The insulation material is provided on the inner wall of the cylinder 31 and the space between the HM32 and HM32. 35 'to make the thermal energy generated by the liquid inlet pipe 13 of the ice water machine 10' and the air cold roll dryer 20
M282459M282459
第10頁 M282459 -四、創作說明(7)Page 10 M282459-IV. Creation Instructions (7)
Hi:;;:裝;30 ’且冰水機1〇之液體出口管路〗2 之氣體出口 :女3係穿出、入於殼體40,而冷凍乾燥機20 官路21則係穿出殼體40(如第二圖所示);如 ° 各该構件之熱交換過程不影響廠房内之㈤声 大幅降低室内冷氣機之運作及耗能。$内之·度’而 1·=機規格:習知為3RT,20LPM,本創作為167RT, 20LPM,在相同的輸出水量下,得以使冰水機小型化。 2. 冷凍乾燥機規格:習知為〇.5RT. u〇〇LpM, ,本創作為0. 5RT. ll〇〇LPM,7kgf/cm*cm, 3. 耗電量⑴2項):習知為5.03kw,本創作為33kw = 1· 7kw 。 減 4.廢熱量(1 + 2項):習知為12」kw,本創作為748 少 4. 6 2 k w 〇 5. 空調負荷增加量(1 + 2項):習知為18. 84 kw,本創 11. 68 kw,減少7. 16 kw。 為Hi: ;;: packed; 30 'and the liquid outlet pipe of the ice water machine 10; the gas outlet of the 2: female 3 goes out and enters the shell 40, and the freeze dryer 20 official road 21 goes out Shell 40 (as shown in the second figure); such as ° The heat exchange process of each component does not affect the snoring noise in the plant, which greatly reduces the operation and energy consumption of the indoor air conditioner. $ 内 之 · 度 ’and 1 · = machine specifications: 3RT and 20LPM are known, and 167RT and 20LPM are used for this creation. With the same output water volume, the ice water machine can be miniaturized. 2. Freeze-dryer specifications: known as 0.5RT. U〇〇〇LpM,, this creation is 0.5RT. LOO〇LPM, 7kgf / cm * cm, 3. Power consumption (2 items): known as 5.03kw, this creation is 33kw = 1. 7kw. Decrease 4. Waste heat (1 + 2 items): 12 ”kw for the conventional, 748 less 4. 6 2 kw for this creation 〇 5. Increase in air conditioning load (1 + 2 items): 18. 84 kw for the conventional , The original 11.68 kw, a reduction of 7.16 kw. for
6. 空調電力增加量α.〇·Ρ=3):習知為6 2 8 kw ’本創 3.89 kw,減少 3.29 kw ° 7. 總消耗電力(3 + 6項)·習知為1 j · 1 k w,本創作為79 k w,減少 3 · 9 1 k w。 8·全年電費(以每度2· 2元計)每天24小時(以7〇 %計算):習 知為149,743兀/年,本創作為96,996元/年,節省 52,747 元/ 年。 M282459 四、創作說明(8) 9· C02 棑放;g:(iKW〜H 產生 741 年’本創作為46,678kg/ 綜上所述,當知本創作 用性、新穎性與進步性,又 產品及公開使用,完全符合 法提出申請。 惟以上所述僅為本創作 即拘限本創作之專利範圍, 式内容所為之等效結構變化 關之技術領域,均同理皆包 合予陳明。 • 1 克C02):習知為72,961kg/ 年,減少25,383kg/年。 之冷卻節能結構已具有產業利 本創作之構造亦未曾見於同類 新型專利申請要件,爰依專利 之較佳可行實施例,並非因此 故舉凡運用本創作說明書及圖 一或直接或間接運用於其他相 含於本創作所涵蓋之範圍内,6. Air conditioner power increase (α.〇 · P = 3): 6 2 8 kw as the conventional one, 3.89 kw for the original, a decrease of 3.29 kw. 7. Total power consumption (3 + 6 items), 1 j as the conventional knowledge. 1 kw, this creation is 79 kw, a reduction of 3.91 kw. 8. Annual electricity bill (calculated at 2.2 yuan per kWh) 24 hours a day (calculated at 70%): 149,743 per year per year, 96,996 per year per work, saving 52,747 Yuan / year. M282459 IV. Creative Instructions (8) 9 · C02 Release; g: (iKW ~ H produced 741 years' original creation is 46,678kg / In summary, when you know the creative usefulness, novelty, and progressiveness, Products and public use are in full compliance with the law. However, the above is only for this creation, which limits the scope of the patent for this creation, and the technical fields related to the equivalent structural changes of the content are all covered by Chen Ming in the same way. • 1 gram C02): It is known to be 72,961 kg / year, a decrease of 25,383 kg / year. The cooling and energy-saving structure has the structure of industrial profitable creation and has not been seen in the same type of new patent application requirements. It is based on the preferred and feasible embodiment of the patent. Included in the scope of this creation,
第12頁 M282459 圖式簡單說明 【圖式簡單說明】 第一圖 係習知冰水機、冷凍乾燥機及PCB多軸鑽孔機之 連結示意圖。 第二圖 係本創作與PCB多軸鑽孔機之連結示意圖。 第三圖 係本創作之熱超導回收裝置之組合示意圖。 第四圖 係本創作之均溫板模組立體分解圖。 第五圖 係本創作之熱超導回收裝置軸向剖視圖。 第六圖 係本創作之熱超導回收裝置徑向剖視圖。 第七圖 係本創作之結構示意圖。 【主要元件符號說明 【習知】 冰水機1 0 a 液體出口管路11 a 冷凍乾燥機2 0 a 氣體入口管路21a PCB鑽孔機5a Z麵馬達5 1 a 【本創作】 冰水機1 0 冰水槽11 液體入口管路1 3 冷凍乾燥機2 0 氣體出口管路21 液體入口管路1 2 a 氣體出口管路22a 轉轴5 2 a 液體出口管路1 2 氣體出口管路23Page 12 M282459 Brief description of the drawings [Simple description of the drawings] The first diagram is the connection diagram of the conventional ice water machine, freeze dryer and PCB multi-axis drilling machine. The second picture is the connection diagram between this creation and PCB multi-axis drilling machine. The third figure is a combined schematic diagram of the thermal superconducting recovery device of this creation. The fourth picture is a three-dimensional exploded view of the temperature equalization module of this creation. The fifth figure is an axial sectional view of the thermal superconducting recovery device of this creation. The sixth figure is a radial cross-sectional view of the thermal superconducting recovery device of this creation. The seventh picture is the structure diagram of this creation. [Description of Symbols of Main Components [Knowledge] Ice water machine 1 0 a Liquid outlet pipe 11 a Freeze dryer 2 0 a Gas inlet pipe 21a PCB drilling machine 5a Z surface motor 5 1 a [This creation] Ice water machine 1 0 ice water tank 11 liquid inlet line 1 3 freeze dryer 2 0 gas outlet line 21 liquid inlet line 1 2 a gas outlet line 22a shaft 5 2 a liquid outlet line 1 2 gas outlet line 23
第13頁 M282459Page 13 M282459
第14頁 胃圖式簡單說明 熱超導回收裝置3 0 筒體31 均溫板模組3 2 管體321 均溫板3 2 2 散熱片組323 固定片324 流道3 2 5 螺孔3 2 6 穿孔327 前蓋板3 3 液體入口 3 3 1 液體出口 3 3 2 氣體出口 333 後蓋板34 氣體入口 341 隔熱材料3 5 殼體40 中空容置室41 PCB鑽孔機5 Z軸馬達5 1 轉轴5 2Stomach diagram on page 14 Brief description of the thermal superconducting recovery device 3 0 cylinder 31 temperature equalization module 3 2 tube 321 temperature equalization 3 2 2 heat sink group 323 fixing piece 324 flow channel 3 2 5 screw hole 3 2 6 Perforated 327 Front cover 3 3 Liquid inlet 3 3 1 Liquid outlet 3 3 2 Gas outlet 333 Rear cover 34 Gas inlet 341 Insulation material 3 5 Housing 40 Hollow accommodation room 41 PCB drilling machine 5 Z-axis motor 5 1 hinge 5 2
Claims (1)
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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TW094212775U TWM282459U (en) | 2005-07-27 | 2005-07-27 | Cooling, energy-regulating structure |
US11/404,797 US20070022773A1 (en) | 2005-07-27 | 2006-04-17 | Cooling energy saving structure |
JP2006003056U JP3123141U (en) | 2005-07-27 | 2006-04-21 | Cooling structure |
Applications Claiming Priority (1)
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TW094212775U TWM282459U (en) | 2005-07-27 | 2005-07-27 | Cooling, energy-regulating structure |
Publications (1)
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TWM282459U true TWM282459U (en) | 2005-12-01 |
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TW094212775U TWM282459U (en) | 2005-07-27 | 2005-07-27 | Cooling, energy-regulating structure |
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US (1) | US20070022773A1 (en) |
JP (1) | JP3123141U (en) |
TW (1) | TWM282459U (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
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JP5389889B2 (en) * | 2011-10-31 | 2014-01-15 | コマツNtc株式会社 | Machine tool cooling system |
US9052133B2 (en) * | 2013-03-15 | 2015-06-09 | Whirlpool Corporation | Moisture control system for an appliance and method for controlling moisture within an appliance |
CN109271004A (en) * | 2018-09-21 | 2019-01-25 | 禾臻电子科技(上海)有限公司 | Radiator and water heater composite structure |
US12016113B2 (en) * | 2020-12-22 | 2024-06-18 | Intel Corporation | Mitigating PDN induced RF interference using a stepped impedance filter |
CN114776562A (en) * | 2022-03-15 | 2022-07-22 | 湖州市中跃化纤有限公司 | Novel energy-conserving air compression system |
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US2060389A (en) * | 1935-10-07 | 1936-11-10 | Arthur E Wigelsworth | Method and apparatus for drying organic substances |
DE1911195B2 (en) * | 1969-03-05 | 1974-12-05 | Schmidt'sche Heissdampf-Gesellschaft Mbh | Heat exchangers, in particular for cooling fresh fission and / or synthesis gases that occur at high pressure and high temperature |
US5794453A (en) * | 1996-07-22 | 1998-08-18 | Flair Corporation | Apparatus and method for removing condensable material from a gas |
DE10141490A1 (en) * | 2001-08-24 | 2003-03-13 | Behr Gmbh & Co | Radiator and method for cooling a medium |
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2005
- 2005-07-27 TW TW094212775U patent/TWM282459U/en not_active IP Right Cessation
-
2006
- 2006-04-17 US US11/404,797 patent/US20070022773A1/en not_active Abandoned
- 2006-04-21 JP JP2006003056U patent/JP3123141U/en not_active Expired - Fee Related
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US20070022773A1 (en) | 2007-02-01 |
JP3123141U (en) | 2006-07-06 |
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