明9544 五、新型說明: 【新型所屬之技術領域】 本創作關於-種馬達方面的技術销域尤卜 快速地降低馬辆轉時難生之高溫㈣達冷崎= 有效且 【先前技術】Ming 9544 Fifth, the new description: [New technology field] This creation is about the technology of the motor field. You can quickly reduce the high temperature that is difficult to get when the horse turns. (4) Dasaki = effective and [prior art]
一般的馬雜構主懸祕1獅妨峡 疋子及可相對該定子旋轉之一轉子,該 之 出贿體外可供驅動馬達外部之另1 輸出轴延伸 時,該定子麵子之間係會產生高熱」In general, the main structure of the horse is a lion and a rotor that can be rotated relative to the stator. When the bribe is externally available to drive the other output shaft outside the motor, the stator surface is generated. High fever
程度時便會使闕達發生燒__。尤其是雜馬達庫用在 需長時間絲運轉的及場所時’其馬達燒毀的情形更是常 見。例如當該馬達應用在射出成顯的觸裝置或祕驅動裝 置時,由於射出加工之原料的特性及加工方式,其射出成型機 通常係會長_運轉後才會有—小段的清轉修時間,因此應 用在射出賴狀馬達的貞荷便會非常沈重叫常有因運轉 高熱而燒__發生。而馬·毀時便會使得該射出 成型機無紐用’城重辟讀效率,而且亦會增加成本。 目則習知的馬達主要係利用於其殼體外設置複數散熱 片’以供增加其散熱的效果。然而,該散熱㈣於馬達的散熱 效果係非常的有限,賊於馬達高織毀之問題並沒有多大的 改善。 3 M399544 有繁於此,翔獻贿對上述料的馬熱結構於實 際使用上職生之缺失及錢,岐人構思,且翻研究改产 試做而開發設計出本創作。 义 【新型内容】 本創作之主要目的係在於提供-種可核且快速的降低 馬達運轉時所產生之高溫的馬達冷卻結構者。 具體而言’本創作所述之馬達冷卻結構包括_馬達、一 ㈣及-熱交換器。該馬達包含—殼體、—定子及一轉子。 該殼體呈密封狀且於該殼體上的兩相對側具有貫通到内部之 入口及出口。S亥定子固定在該殼體的内部。該轉子可在 該殼體_部相_定子作高速旋轉且該轉子具_輸出轴延 伸出該殼體外。該㈣可將不導電的冷卻流體由該入口送入 該殼體之内部以吸收該定子及轉子相對運轉時所產生的高 熱,以及可將該殼體内部之吸收高熱後的冷卻流體由該出口 抽出。該熱交換器可吸收該泵浦由該出口抽出之冷卻流體中 的高熱’以使該冷卻流體降溫後再由該入口送入該殼體的内 部。 如此’藉由該不導電的冷卻流體直接吸收該定子及轉子 相對運轉時所產生的高熱,並經由該熱交換器將其中的高熱 排出’以及利用該泵浦使該冷卻流體循環出入該殼體,便可 有效且快速的降低馬達運轉時所產生之高溫。 4 【實施方式】 包括係指出本創作所述之馬達冷卻結構 馬達1 1浦2及一熱交換器3。其中: 該馬達1包含一銬辦ιη 體10係呈密封狀且 :11及—轉子12。該殼 及一出口 14,其中該入口 13鱼該出口 1 的位置係以最軸離騎佳。奴子11_技該殼體 的内部,且較子u上繞設有複數_ 15。該轉子12係 可在該殼體1G的内部姆該定子u作高速旋轉且該轉子 12具一輸出轴16延伸出該殼體10夕卜可供驅動外部之另一裝 置。 " 該泵浦2係分別以管路連接該入口丨3及該出口 14,可供 將不導電的冷卻流體由該入口 13送入該殼體10之内部以吸 收該定子11及轉子12相對運轉時所產生的高熱,以及可將 該殼體10内部之吸收高熱後的冷卻流體由該出口 14抽出。 在本創作中,該不導電的冷卻流體可以是矽油或是氣體。 該熱交換器3係設在該馬達1與該泵浦2之間。該熱交 換器3可供吸收及排出該泵浦2由該出口 14抽出之冷卻流體 中的高熱,以使該冷卻流體降溫後再由該入口 13送入該殼體 10的内部。 在該第一圖中更可看出,該殼體1〇中具有兩軸承17及 M399544 一軸封18。該兩軸承17位在該殼體ι〇的前側與後側分別供 δ玄輸出轴16穿設。該軸封18設在該殼體1〇與該輸出轴μ 之間以提供兩者之間的良好密封效果。 請參閱第二圖所示係為本創作之另一實施例,其結構與 上述實施例大致相同,差別僅在於本實施例的入口 13及出口 14係位在該殼體1〇的上、下侧或左、右側。 請參閱第三圖所示係為本創作之熱交換器的另一種實施 狀態’其中該熱交換器可為一液體熱交換器3Α。 請參閱第四圖所示,係指出本創作之馬達1係可應用在 一射出成型機之攪料裝置4及液壓驅動裝置5上,以提供該 攪料裝置4之攪料桿40運轉的動力,以及提供該液壓驅動裝 置5之壓縮機50運轉的動力,用以控制一油壓缸51推動一 開關模板52往復運動。 由於本創作可藉由該不導電的冷卻流體直接吸收該馬達 1中之定子11及轉子12相對運轉時所產生的高熱,並經由該 熱交換器3將其巾的高熱做及排^,以及_該泵浦2使 該冷卻流龍環iU人該馬賴殼體1(),因此其係可有效且快 速的降低該馬達1運轉時所產生之高溫。 良τ'上所述,由於本創作具有上述優點及實用價值,而且 在同類產品中均未見有_之產品或發表故已符合新型專利 之申請要件’乃爰依法提出申請。 6 M399544 【圖式簡單說明】 第一圖為本創作的平面示意圖。 第二圖為本創作另一實施例的平面示意圖。 第三圖為本創作之熱交換器的另一種實施狀態。 第四圖為本創作的使用狀態示意圖。The degree will cause the 阙 to burn __. In particular, the use of a miscellaneous motor library for long-term wire runs and locations is often the case when the motor burns out. For example, when the motor is applied to a touch device or a secret drive device that is shot out, the injection molding machine usually has a long length of time due to the characteristics of the material to be processed and the processing method. Therefore, the load applied to the injection motor will be very heavy, and it often occurs because of the high heat of operation. When the horse is destroyed, it will make the injection molding machine useless. The city will read the efficiency and increase the cost. The conventionally used motor is mainly provided with a plurality of fins disposed outside the casing for increasing the heat dissipation effect. However, the heat dissipation (4) is very limited in the heat dissipation effect of the motor, and the problem of the thief's high woven damage is not much improved. 3 M399544 There is a lot of enthusiasm for this. The Ma Hot structure of the above-mentioned materials uses the lack of money and money for the actual use of the above-mentioned students, and conceives the idea, and develops and designs the original design.义 [New content] The main purpose of this creation is to provide a kind of motor cooling structure that can be nuclear and quickly reduce the high temperature generated during motor operation. Specifically, the motor cooling structure described in the present application includes a motor, a (four), and a heat exchanger. The motor includes a housing, a stator, and a rotor. The housing is sealed and has opposite inlets and outlets to the interior on opposite sides of the housing. The S-hai stator is fixed inside the casing. The rotor is rotatable at a high speed in the housing _ stator phase and the rotor _ output shaft extends out of the housing. The (4) can send a non-conductive cooling fluid from the inlet into the interior of the casing to absorb the high heat generated when the stator and the rotor are relatively operated, and the high-heat-absorbing cooling fluid inside the casing can be taken from the outlet Take out. The heat exchanger absorbs the high heat in the cooling fluid pumped by the outlet to cool the cooling fluid and then from the inlet to the interior of the housing. Thus, the non-conductive cooling fluid directly absorbs the high heat generated when the stator and the rotor are relatively operated, and discharges the high heat therein through the heat exchanger, and circulates the cooling fluid into the casing by the pump. , can effectively and quickly reduce the high temperature generated when the motor is running. [Embodiment] The motor cooling structure motor 1 1 and a heat exchanger 3 described in the present invention are included. Wherein: the motor 1 comprises a series of 10 bodies in a sealed shape: 11 and a rotor 12. The shell and an outlet 14, wherein the inlet 13 is located at the exit 1 is the best axis. The slave 11_ is the inner part of the casing, and is provided with a plurality _ 15 on the sub-u. The rotor 12 is rotatably rotatable in the interior of the housing 1G and the rotor 12 has an output shaft 16 extending out of the housing 10 to drive the exterior. < The pump 2 is connected to the inlet port 3 and the outlet 14 by a pipeline, respectively, for feeding non-conductive cooling fluid from the inlet 13 into the interior of the casing 10 to absorb the stator 11 and the rotor 12 relative to each other. The high heat generated during operation and the cooling fluid inside the casing 10 that absorbs high heat can be extracted from the outlet 14. In the present creation, the non-conductive cooling fluid may be eucalyptus oil or a gas. The heat exchanger 3 is disposed between the motor 1 and the pump 2. The heat exchanger 3 is adapted to absorb and discharge high heat in the cooling fluid drawn by the pump 2 from the outlet 14 to cool the cooling fluid and then feed the inlet 13 into the interior of the casing 10. As can be seen in the first figure, the housing 1 has two bearings 17 and a M399544 one shaft seal 18. The two bearings 17 are respectively disposed on the front side and the rear side of the casing ι for the δ-shaped output shaft 16. The shaft seal 18 is disposed between the housing 1〇 and the output shaft μ to provide a good sealing effect therebetween. Please refer to the second figure for another embodiment of the present invention, the structure of which is substantially the same as that of the above embodiment, except that the inlet 13 and the outlet 14 of the embodiment are located above and below the casing 1〇. Side or left, right side. Referring to Fig. 3, there is shown another embodiment of the heat exchanger of the present invention, wherein the heat exchanger can be a liquid heat exchanger. Referring to the fourth figure, it is pointed out that the motor 1 of the present invention can be applied to the stirring device 4 of the injection molding machine and the hydraulic driving device 5 to provide the power of the stirring rod 40 of the stirring device 4. And providing power for the compressor 50 of the hydraulic drive unit 5 to control a hydraulic cylinder 51 to push a switch template 52 to reciprocate. Since the present invention can directly absorb the high heat generated when the stator 11 and the rotor 12 in the motor 1 are relatively operated by the non-conductive cooling fluid, and the high heat of the towel is processed and arranged through the heat exchanger 3, and The pump 2 makes the cooling flow ring iU the Malay housing 1 (), so that it can effectively and quickly reduce the high temperature generated when the motor 1 is in operation. As described in Liang τ', this creation has the above advantages and practical value, and there is no product in the same product or the application requirement that has been published in accordance with the new patent ’ is applied according to law. 6 M399544 [Simple description of the diagram] The first picture is a schematic diagram of the creation. The second figure is a schematic plan view of another embodiment of the creation. The third figure is another implementation state of the heat exchanger of the present invention. The fourth picture is a schematic diagram of the state of use of the creation.
殼體10 轉子12 出口 14 輸出軸16 【主要元件符號說明】 馬達1 定子11 入口 13 線圈15 軸承17 泵浦2 液體熱交換器3A 攪料桿40 壓縮機50 開關模板52 轴封18 熱交換器3 攪料裝置4 液壓驅動裝置5 油壓缸51 7Housing 10 Rotor 12 Outlet 14 Output shaft 16 [Description of main components] Motor 1 Stator 11 Inlet 13 Coil 15 Bearing 17 Pump 2 Liquid heat exchanger 3A Mixing rod 40 Compressor 50 Switch template 52 Shaft seal 18 Heat exchanger 3 Mixing device 4 Hydraulic drive 5 Hydraulic cylinder 51 7