M267351 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種嵌入式加熱結構,其特別係在渦卷壓縮機 中,用以提供潤滑油之加熱者。 【先前技術】 習知渦卷壓縮機之加熱結構,係常被使用於氣候環境溫度較 低之地區中,渦卷壓縮機所需之潤滑油的加熱者。一般這類渦卷 壓縮機底部設置有潤滑油槽,並利用加熱管環繞於潤滑油槽外 圍,而形成此加熱結構。然而,這樣的結構中,其加熱器的熱能 容易散失於外界環境,且其熱傳透過潤滑油槽之外殼體,需要較 大的加熱功率。因此,满卷壓縮機不但加熱效率差,且能源之損 耗也較高。 【新型内容】 本創作主要目的係提供一種嵌入式加熱結構,用以提供潤滑 油之加熱者。其主要係於渦卷壓縮機中,儲存潤滑油之儲油槽的 外殼體至少嵌入一加熱器,使得該加熱器係伸入該儲油槽中,用 以加熱該潤滑油者。 為使熟悉該項技藝人士瞭解本創作之目的、特徵及功效,茲 藉由下述具體實施例,並配合所附之圖式,詳加說明如后。 【實施方式】 M267351 渦卷壓縮機請參見第1圖所示為本創作嵌入式加熱結構的第 一種具體實施例,其主要係於一渦卷壓縮機(10)的殼體(11)内有一 儲油槽(13),且該儲油槽(13)係一儲存渦卷壓縮機(10)所需之潤滑 油者。該殼體(11)形成該儲油槽(13)之外壁(13a);該加熱器(151) 係嵌入該儲油槽(13),並固設於該外壁(13a)中,使加熱器(151)可 直接接觸潤滑油加熱,提升效率。 請參見第2圖所示為本創作的第二種具體實施例,其不同於 第一種具體實施例,係形成一加熱器(152)直接環繞置於該儲油槽 (13)中’並以前述之各種方式,固設於該外壁(13a)中。 請參見第 2 , _ 圖所示為本創作嵌入式加熱結構的第三種具體實 二歹a)則:t殼體〇1)内有一儲油槽⑽,且該儲油槽(13)之外壁 儲油槽而形成一凹槽(l 3b);該加熱器(153)係嵌入該 潤滑油加熱。、固設於該外壁(13a)凹槽(13b)中,雖間接但更接近 前述之儲油槽(1 (13)中,並以前述)中,至少嵌入有一加熱器(153)伸入該儲油槽 請參見第 ^方式,固設於儲油槽(13)之外壁(13a)中。 者最大的不同係=所7^為本創作的第四種具體實施例,其與前兩 形成一凹槽(l3e);於,該儲油槽(13)之外壁(,13a)底部環繞内凹而 並以前述之各種方以及,將加熱器(154)環繞嵌入該儲油槽(13), 請參見第5式,固設於該外壁(13a)凹槽(13c)中。 者最大的不同係在^不為本創作的第四種具體實施例,其與前兩 形成一凹槽(13句,:,該儲油槽(13)之外壁(13a)側面環繞内凹而 並以前述之各種方=及,將加熱器(155)環繞嵌入該儲油槽(13), 本創作的爭工固設於該外壁(13a)凹槽(13d)中。 式加熱結構,能夠達到以下效果·· 6 M267351 ι·本創作的嵌入式加熱結構中,其底部潤滑油之儲存槽係由一鑄 造之殼體所構成,且其殼體形成一嵌入槽,用以裝設加熱潤滑 油之加熱器。 2. 透過本創作之嵌入式加熱結構中,該加熱器係側向嵌入該儲存 槽之殼體,並直接接觸潤滑油進行加熱,因此,可有效地進行 潤滑油加熱者。 3. 藉由本創作之嵌入式加熱結構中,該加熱器係側向嵌入該儲存 槽之殼體,可加熱該殼體,並間接加熱潤滑油,因此,可更均 勻而有效地進行潤滑油加熱者。 雖然本創作已以具體實施例揭露如上,然其並非用以限定本 創作,任何熟悉此技藝者,在不脫離本創作之精神和範圍内,當 可作各種之更動與潤飾,其所作之更動與潤飾皆屬於本創作之範 疇,本創作之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖為顯示本創作嵌入式加熱結構第一種實施例之剖面示意圖; 第2圖為顯示本創作嵌入式加熱結構第二種實施例之剖面示意圖; 第3圖為顯示本創作嵌入式加熱結構第三種實施例之剖面示意圖; 第4圖為顯示本創作嵌入式加熱結構第四種實施例之剖面示意圖; 第5圖為顯示本創作嵌入式加熱結構第五種實施例之剖面示意圖。 【主要元件符號說明】 10 渦卷壓縮機 M267351 11 殼體 13 儲油槽 13a 外壁 13b 凹槽 13c 凹槽 13d 凹槽 151 加熱器 152 加熱器 153 加熱器 154 加熱器 155 加熱器M267351 8. Description of the new type: [Technical field to which the new type belongs] This creation relates to an embedded heating structure, which is especially used in scroll compressors to provide lubricant for heating. [Previous technology] The heating structure of the conventional scroll compressor is often used to heat the lubricating oil required by the scroll compressor in areas with low climate and ambient temperature. Generally, this type of scroll compressor is provided with a lubricating oil tank at the bottom, and a heating pipe is used to surround the periphery of the lubricating oil tank to form this heating structure. However, in such a structure, the heat energy of the heater is easily dissipated to the external environment, and the heat transfer through the outer casing of the lubricating oil tank requires a large heating power. Therefore, full-volume compressors not only have poor heating efficiency, but also have high energy consumption. [New content] The main purpose of this creation is to provide an embedded heating structure for heating the lubricating oil. It is mainly used in scroll compressors. The outer shell of the oil storage tank that stores lubricating oil is embedded with at least a heater, so that the heater is extended into the oil storage tank to heat the lubricating oil. In order to make those skilled in the art understand the purpose, characteristics and effects of this creation, the following specific examples are given in conjunction with the accompanying drawings, which will be described in detail later. [Embodiment] Please refer to Figure 1 for the first specific embodiment of the embedded heating structure for the M267351 scroll compressor, which is mainly located in the casing (11) of a scroll compressor (10) There is an oil storage tank (13), and the oil storage tank (13) is a storage oil required by the scroll compressor (10). The casing (11) forms an outer wall (13a) of the oil storage tank (13); the heater (151) is embedded in the oil storage tank (13) and is fixed in the outer wall (13a) so that the heater (151) ) Can be directly heated by contact with lubricating oil to improve efficiency. Please refer to FIG. 2, which shows a second specific embodiment of the creation, which is different from the first specific embodiment. A heater (152) is formed directly around the oil storage tank (13). The aforementioned various methods are fixed in the outer wall (13a). Please refer to the second, _ The figure shows the third concrete example of the embedded heating structure of this creation. A) The rule: there is an oil storage tank t in the casing t1, and the outer wall of the oil storage tank (13) is stored. An oil groove is formed into a groove (l 3b); the heater (153) is embedded in the lubricating oil for heating. 3. At least one heater (153) embedded in the groove (13b) fixed in the outer wall (13a), but indirectly but closer to the aforementioned oil storage tank (1 (13) and above) is inserted into the storage For the oil tank, refer to the method ^, which is fixed in the outer wall (13a) of the oil storage tank (13). The biggest difference is the fourth specific embodiment of the creation, which forms a groove (l3e) with the first two; therefore, the bottom of the outer wall (, 13a) of the oil storage tank (13) surrounds the concave The heater (154) is embedded in the oil storage tank (13) in various ways as described above, and is fixed in the groove (13c) of the outer wall (13a) according to the fifth formula. The biggest difference between the two is the fourth specific embodiment of the original creation, which forms a groove with the first two (13 sentences :: The side of the outer wall (13a) of the oil storage tank (13) surrounds the inner recess and merges. According to the aforementioned methods, the heater (155) is embedded in the oil storage tank (13), and the competition of this creation is fixed in the groove (13d) of the outer wall (13a). The heating structure can achieve the following Effect · 6 M267351 ι · In the embedded heating structure of this creation, the storage tank of the bottom lubricating oil is composed of a cast casing, and the casing forms an embedded groove for installing the heating lubricating oil. Heater 2. Through the embedded heating structure of this creation, the heater is embedded in the housing of the storage tank sideways and directly contacts the lubricant for heating, so it can effectively heat the lubricant. 3. With the embedded heating structure created by this creation, the heater is a casing that is laterally embedded in the storage tank, which can heat the casing and indirectly heat the lubricating oil. Therefore, the lubricating oil can be heated more uniformly and effectively. Although this creation has been revealed in specific embodiments As above, however, it is not intended to limit the creation. Anyone familiar with this skill can make various changes and retouches without departing from the spirit and scope of the creation. The changes and retouches made by them all belong to the scope of the creation. The scope of protection of this creation shall be subject to the scope of the attached patent application. [Simplified illustration of the drawing] Figure 1 is a schematic cross-sectional view showing the first embodiment of the embedded heating structure of this creation; Figure 2 is a display Sectional schematic diagram of the second embodiment of the embedded heating structure of the present invention; FIG. 3 is a schematic cross-sectional diagram showing the third embodiment of the embedded heating structure of the present invention; FIG. 4 is a fourth implementation of the embedded heating structure of the present invention Figure 5 is a schematic cross-sectional view showing the fifth embodiment of the embedded heating structure of this creation. [Explanation of Symbols of Main Components] 10 Scroll Compressor M267351 11 Housing 13 Oil Storage Tank 13a Outer Wall 13b Groove 13c Concave Slot 13d Groove 151 Heater 152 Heater 153 Heater 154 Heater 155 Heater