M262684 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種溫度控制單輸出迴路交換機,尤指穿設 一排氣筒作為於溫度變化時排氣用,冷卻水流量調節裝置二:二 熱器輸出功率降低,另採用pLC控制溫度精度達到±1〇它,本創 作產品長期運轉可以節省電能,故障率低,控溫精確。 【先前技術】 一般傳統型單輸出迴路熱交換機,其溫度控制方式係採用開/ 關ΟΝ/OFF控制,往往溫度誤差達到土3。〇以上,即超過工業製程上 要求之溫度範圍,降低良率,亦會影響熱交換機操作元件高故障 率,其傳統型單輸出迴路熱交換機無裝設排氣裝置,當溫度改變 日可無法排氣會造成氣塞’亦無調節冷卻水流量的裝置,會使加熱 器的輸出功率增高,對於長期運轉無法節省電能。 【新型内容】 本創作主要目的,係要針對傳統型單迴路熱交換機無裝設排 氣裝置,當溫度改變時無法排氣造成氣塞,加裝冷卻水的流量調 節裝置,而提出一種溫度控制單輸出迴路交換機專利申請,主要 係抹熱交換工作流體(C〇〇lant)儲存槽與熱交換器之間裝設一排 氣筒,其配備完整的控溫元件,運轉時不致於因熱負載的急速變 化,導致溫度超過±L〇°C的變化,又可以調節冷卻水的流量,使 M262684 加熱器在最少輪出功率下運轉,對於長期運轉可以節省電能。 【實施方式】 月/閱圖1所7F ’係林創作溫度控制單輸出迴路熱交換機示意 圖,而溫綱__路熱交換機i,,蝴_交換X作流體儲 存槽1排氣筒2、熱交換器3及加熱器4所組成,其中熱交換工作 流體儲^ :其觀域設—細^ n,内職設—液位計η, 工上方衣a〜加口 13 ’在下方裝設—漏放口 14,其上方以排氣管及 連接排氣筒2 ’左側端面裝設補充管a,與排氣筒2相連接,而熱交換 作抓體入口 A的連接管e,與排氣筒2相連接,另排氣筒2下方以連 接管d與熱交換器3相連接,而連接管d上裝設—泵浦di,其熱交換 杰3社側裝設連接管f其末端為一冷卻水出口 b,冷卻水入口 c以 連接管,g相連接其上裝設有—旁 i,其上方亦裝設—電磁闕]·, 而連接管f鱗接管§之間裝設-旁賴jl,形成-迴路並經過埶交 換器3作熱交換。 …& 又,熱交換器3下方連接管d上裝設一泵浦出並與連接管e相連 接而連接g e上襄设有加熱器4,於熱交換工作流體出口 ρ之前於 連接管e上裝設有溫親絲e3、流量計e2及調_ e卜爾來連接 2上流量計e2與調_ el之間,連接連接管“連接管^上裝設 方通閥c卜連接官c與連接管b相連接,其連接管匕再與排氣筒2 相互連接。 本創作係為-種溫度控制單輸丨祕熱交麵,係域交換工作 M262684 流體伽1碰认π A進人排錢2,細職管 父換工作流體流通於連接營d …、 〜制1 ’ ’ C,b,錢熱交換器3所裝設的連接 ^健父換,並經過加熱器4至熱交換工作流體出口 d,並有連接 連接官c,b回流於排氣筒2。 本創作產品的排氣筒2係作為與熱交換工作流體(c〇相)儲存槽 土見象’而且本創作採用可程式邏輯控制器(plc)作為控制,其溫度 ^制精度達到±1.0C ’使本創作產品能在不同溫度操作下,不會造成 氣塞現象’其運轉時猶於因熱貞絲速變化而超過 並可以調_水之好,使域_續_下1作H 轉可以節省電能。 / 【圖式簡單說明】 圖1係為本_溫度控鮮触鱗熱交換 機示意圖 【主要元件符號說明】 Γ 溫度控制單輸出迴路熱交換機 2 熱父換工作流體(Co〇lant)儲存槽 11 液位視窗 12 液位計 13 添加口 M262684 2 3 4 A B C D a a’ b,c,d,e,e’,f,g,j,k cl,i,jl 14 漏放口 排氣筒 熱交換器 加熱器 熱交換工作流體(Coolant)入口 冷卻水出口 冷卻水入口 熱交換工作流體(Coolant)出口 排氣管 補充管 連接管 旁通閥 電磁閥 dl 泵浦 el 調節閥 e2 流量計 θ3 溫度感應器M262684 8. Description of the new type: [Technical field to which the new type belongs] This creation relates to a temperature-controlled single-output circuit switch, especially an exhaust pipe for exhausting when the temperature changes, and a cooling water flow regulating device 2: The output power of the second heater is reduced, and the temperature accuracy of pLC is controlled to reach ± 10. This creative product can save electricity, have a low failure rate and accurate temperature control for long-term operation. [Prior technology] Generally, the traditional single-output loop heat exchanger has a temperature control method of ON / OFF ON / OFF control, and the temperature error often reaches 3. 〇 Above, it is beyond the temperature range required in the industrial process, reducing the yield rate, and will also affect the high failure rate of the operating elements of the heat exchanger. The traditional single output loop heat exchanger is not equipped with an exhaust device, which can not be discharged when the temperature changes. Air will cause air plugs, and there is no device for regulating the flow of cooling water, which will increase the output power of the heater, which cannot save electricity for long-term operation. [New content] The main purpose of this creation is to propose a temperature control for the traditional single-circuit heat exchanger without an exhaust device. When the temperature changes, the exhaust cannot be caused due to air plugging. The cooling water flow adjustment device is installed. The patent application for the single output circuit switch is mainly an exhaust tube installed between the heat exchange working fluid (COlant) storage tank and the heat exchanger, which is equipped with a complete temperature control element, which will not cause heat load during operation. The rapid change of temperature causes the temperature to exceed ± L0 ° C, and the flow of cooling water can be adjusted, so that the M262684 heater can run at the minimum output power, which can save electricity for long-term operation. [Embodiment] Monthly / see Figure 1 7F 'Department of temperature control single output circuit heat exchanger schematic diagram, and Wen Gang __ road heat exchanger i ,, butterfly_ exchange X for fluid storage tank 1 exhaust tube 2, heat Composed of exchanger 3 and heater 4, where heat exchange working fluid storage ^: its viewing area setting-fine ^ n, internal job setting-liquid level gauge η, upper clothes a ~ plus 13 'installed below-leak The discharge port 14 is provided with an exhaust pipe and a supplementary pipe a on the left end face connected to the exhaust pipe 2 ′, and is connected to the exhaust pipe 2, and heat exchange is used as a connecting pipe e of the grip body inlet A to the exhaust pipe. 2 phase connection, and the connection tube d below the exhaust tube 2 is connected to the heat exchanger 3, and the connection tube d is provided with a pump di, and the heat exchange unit 3 is provided with a connection tube f at the end thereof. The cooling water outlet b and the cooling water inlet c are connected by a connecting pipe and g, and the upper side is provided with -side i, and the upper side is also installed with-electromagnetic 阙], and the connecting pipe f is connected between the scales §-sideways jl, forms a loop and performs heat exchange through the thorium exchanger 3. … &Amp; A pump 4 is installed on the connection pipe d below the heat exchanger 3 and connected to the connection pipe e, and a heater 4 is provided on the connection ge, and the connection pipe e is before the heat exchange working fluid outlet ρ. The upper body is equipped with a warm wire e3, a flow meter e2, and a regulator _ bur to connect 2 between the upper flow meter e2 and the regulator _ el, and a connection pipe "connection pipe ^ is equipped with a square valve cb connection officer c It is connected with the connection pipe b, and its connection pipe is connected with the exhaust pipe 2. This creation is a kind of temperature control single input 丨 the thermal interface, the system exchange work M262684 fluid ga1 touches π A to enter Paid money 2. The working fluid is exchanged between the connection pipe d…, ~ 1 ′ C, b, the connection installed in the money heat exchanger 3 ^, and the heat exchanger 4 is connected to the heat exchange The working fluid exits d, and there are connection connections c, b return to the exhaust tube 2. The exhaust tube 2 of this creative product is used as a storage tank with the working fluid (c0 phase) for heat exchange. Programmable logic controller (plc) is used as the control, and its temperature control accuracy reaches ± 1.0C. 'This product can be operated at different temperatures. There will be no air plugging phenomenon. Its operation is still exceeded due to the change in the temperature of the heat and can be adjusted _water is good, so that the field_continued_1 turn to H can save electricity. / [Schematic description] Figure 1 series based_Schematic diagram of temperature-controlled fresh-touch scale heat exchanger [Description of main component symbols] Γ Temperature control single output loop heat exchanger 2 Heat-exchange working fluid (Co〇lant) storage tank 11 Level window 12 Level gauge 13 Add M262684 2 3 4 ABCD a a 'b, c, d, e, e', f, g, j, k cl, i, jl 14 Leak vent vent heat exchanger heater heat exchange working fluid (Coolant ) Inlet cooling water outlet Cooling water inlet Heat exchange working fluid (Coolant) outlet Exhaust pipe supplementary pipe connection pipe bypass valve solenoid valve dl pump el control valve e2 flow meter θ3 temperature sensor