M347165 八、新型說明: 【新型所屬之技術領域】 本創作係有關一種醫療用手持固化裝置,特別指一種 具有可抽換的散熱模組之醫療用手持固化裝置。 【先前技術】 按,由於手持裝置的方便性,使得手持裝置大量的應 用於生活周遭,例如牙醫所使用的固化裝置,其主要目的 在於利用光或熱將牙齒中的填補物質予以固化或硬化,換 句話說,各行業常利用類似於上述之手持裝置進行相關的 作業或程序。 但是由於上述的手持裝置通常均裝設有會發熱的單 元,如發光源或發熱源等等,然而在小型的手持裝置中, 熱量通常會快速的累積而造成手持裝置的損壞。故傳統 上,該手持裝置通常會利用風扇形成空氣對流以將熱量傳 導至手持裝置的外部,藉以達成散熱的目的。 惟如上述習用構造於實際使用時,仍具有以下缺失: 1、當風扇在運轉時會產生風切聲或是低頻的運轉 聲,亦即使用風扇會造成噪音的干擾,在要求噪音小的工 作環境之下不適合使用風扇強制氣冷的手持固化裝置。另 外,殼體上必須設有通風孔,以使熱量可以隨風力帶出該 手持裝置,然而該些通風孔卻可能造成手持裝置故障的疑 慮。例如牙醫所使用的手持裝置在使用後必須進行消毒, 而消毒水可能會經由通風孔滲入手持裝置内,造成電子零 5 M347165 件的損壞。 2、 習用的風扇係安裝於該手持裝置内,其電力係來 自電池等内部電源供應,故使得電池所能供應給主要元件 的電力無法達到百分之百,亦即風扇會造成電源供應上消 耗的困擾,例如必須較快更換電池等情況。 3、 手持裝置中風扇不能太大,發光元件模組過熱時需 中斷使用等待溫度恢復時間較長,可因此抽換散熱模組的 設計縮短等待時間。 4、 工作環境溫度較高時,風扇氣冷方式效果不好,工 作時間大為縮短,可抽換模組可先冷卻再裝上使用,工作 時間可較長且不易受環境溫度影響。 本案創作人有鑑於上述習用的結構裝置於實際施用 時的缺失,且積累個人從事相關產業開發實務上多年之經 驗,精心研究,終於提出一種設計合理且有效改善上述問 題之結構。 【新型内容】 本創作之主要目的,旨在提供一種醫療用手持固化裝 置,其具有可抽換的散熱模組之設計,可以利用交替運用 的模式替換該已吸取熱量之可抽換的散熱模組,以符合手 持式電子產品需高散熱效率之要求。 本創作之另一目的,旨在提供一種醫療用手持固化裝 置’其可有效解決傳統使用風扇散熱造成的噪音及耗電問 題,以及延長醫療用手卵化裝置在溫度較高環境下的使 6 M347165 , 用時間。 • 為了達到上述目的,本創作係提供一種醫療用手持光 ^ 固化裝置,其用於發出一特定波長的光束以固化樹脂,係 包含:一外殼體;一散熱模座,其設置於該外殼體中;一 發光固化單元,其設置於該散熱模座上,該發光固化單元 包括至少一個發光元件;一可抽換的散熱模組,其緊密 • 接合於該散熱模座之中,其中該可抽換的散熱模組内含一 • 液體,用以蓄積該發光固化單元產生的熱;一電源供應系 • 統提供該發光固化單元所需的電源;以及一光傳輸元件, 將該發光固化單元之光束傳導至該樹脂。 為了達到上述目的,本創作更提供一種醫療用手持光 固化裝置,其用於發出一特定波長的光束以固化樹脂,係 包含:一外殼體;一散熱模座,其設置於該外殼體中;一 發光固化單元,其設置於該散熱模座上,該發光固化單元 包括至少一個發光元件及一光反射元件,該光反射元件係 將該發光元件之光束傳導至該樹脂;一可抽換的散熱模 * 組,其緊密接合於該散熱模座之中,其中該可抽換的散熱 ^ 模組内含一液體,用以蓄積該發光固化單元產生的熱;以 - 及一電源供應系統提供該發光固化單元所需的電源。 • 如上述構造,該醫療用手持固化裝置可將發光固化單 元運作時產生的熱量快速的移除,並利用高熱容量的液體 吸收上述之熱量,以達到快速散熱的目的。同時本創作可 徹底解決習知將風扇安裝於醫療用手持固化裝置所造成 的噪音及耗電的問題和操作於環境溫度較高的問題。 7 M347165 、為使能更進一步瞭解本創作之特徵及技術内容,請參 • 、Y下有關本創作之詳細說明與附圖,然而所附圖式僅提 4〜考y"兒明用’並非用來對本創作加以限制者。 【實施方式】 百先’凊翏閱第一圖至第四圖所示,本創作提出一種 手持固化裳£1’其包括—外殼體i◦、—散熱模 坐上heat sink) 1 2 0及一可抽換的散熱模組工2工,苴 中5亥外殼體1 0係形成一内部空間,而於後述之植件、單 =ΓΓ部空間’該散熱模座12 0係設置於該外 二w ’且該可抽換的散熱模組121係設置於該 m Q之中’以將散熱模座1 2 0所傳導的熱量 =於該可抽換的散熱模組丄2丄之中,亦模 及該可抽換的散熱模組121係建構成一具、有高 效率散熱效率的散熱單元1 2。第-圖係為本創作之第一 ^例’而第二圖則為本創作之第二實_ ㈤“lnk)12〇與可抽換的散咖 2 1的卡合手段之不同。 -立:芩ft一圖及罘三八圖,其為本創作第-實施例的 7思圖及部分放大圖。其中該可抽換的散熱模組丄2工係 ^括一殼體121〇及一容置於該殼體121 體1211。該可抽換的散熱模組121在吸收敎量之後 即可利用抽換的方式加以更新。 …里之俊 8 M347165 在本具體實施例中,該醫療用手持固化裝置1係為一 ’ 種提供固化光能量,以使化合物產生固化及硬化反應的裝 置’該醫療用手持固化裝置1係屬於牙醫常用的工具之 一,但不以上述為限,該醫療用手持固化裝置1的特徵在 於,其並非長時間的使用,且由於該醫療用手持固化裝置 1的體積及應用,其電力的提供係為一内建的電源供應系 統1 3 ’該電源供應系統1 3可為一電池或一電源轉換裝 4 置,故電力的控制也是該醫療用手持固化裝置1在使用上 鲁 的考量點。綜上所述,該醫療用手持固化裝置1並非限定 於牙醫所使用的工具,只要是屬於手持式且不需連續長時 間使用的工具均可以應用後述之本創作。 凊復參考弟一圖’在本具體實施例中,該醫療用手持 固化裝置1之外殼體1 〇包括一手持部1 0 0及一光傳 輸元件1 01,該手持部1〇 〇係為一符合人體工學的握 把設計,以利使用者握持,而該光傳輸元件i i係為一 _ 管體。再者,該手持部1 00具有一光傳導開口 i 00 〇,且該光傳輸元件1 ο 1之一側端通口係連通於該光傳 ,導開口1〇 〇 〇 ,亦即該光傳輸元件101係連接於該光 傳導開口1〇 〇 0且向外延伸一預定距離而形成管狀的 結構體。另一方面,該光傳輸元件1〇1係為可抽換地連 接於該手持部1 〇 〇,使用者即可依據實際情形更換不同 的光傳輸元件1〇1。 散熱模座(heat sink) 12 0則係設置於該外殼體工 〇的内部m,該散熱模座i 2 Q本創作並不限定該散熱 9 M347165 模座1 2 0的態樣,該散熱模座i 2 〇需最佳地緊密貼合 於该可抽換的散熱模組121,且兩者之間可彼此卡合、 固定。亦即該可抽換的散熱模組1 2 1係卡合於該散熱模 座1 2 0,而該可抽換的散熱模組i 2 i係最佳地直接接 觸該散熱模座1 2 〇,以提高散熱的效率。 另方面,在本具體實施例中,該可抽換的散熱模組 • 1 2 1之殼體1 2 1 〇係為導熱率高的金屬材料,且其内 春部之液體1 2 1 1係可為熱容量大的物質,例如水或食鹽 水或水混合抗凍劑等,使該可抽換的散熱模組i 2丄可以 吸收較多的熱量。 再者,為了達成可抽換的散熱模組i 2 i與該散熱模 j1 2 0較佳的卡合,該可抽換的散熱模組1 2 i與散熱 杈座1 2 0設有一相對應的卡合手段2 〇 A、2 〇B,例如 PUSH PUSH機構,其包括軌道、彈性件及導桿等構件, 在使用上,使用者壓下該可抽換的散熱模組1 2 1即可固 #定該可抽換的散熱模組1 2 1於該散熱模座工2 〇中;再 "^壓’ 1柯以使該可抽換的散熱模組1 2 1脫離該散 、熱模座1 2 0 ;或是該卡合手段可為一螺紋(如第三a 圖),亦即該可抽換的散熱模組工2工可利用螺鎖的方 固定於該散熱模座1 2 〇中;或是可抽換的散熱模組工2 L、政熱#座1 2 Q係直接利用尺寸的對應關係達成卡 固的目的(如第三B圖),但上述僅為說明之用,該卡合 手段並不限定於上述結構。 口 M347165 本創作所提出的醫療用手持固化裝置1更具體包括 一發光固化單元1 1,該發光固化單元1 1係設置於該散 熱核座1 2 0上’亦即該發光固化單元1 1係設置於該散 熱杈座1 2 0之側壁1 2 0 〇的外表面,且該發光固化單 元1 1係對應於該手持部i 〇 〇之該光傳導開口 i 〇 〇 0,且該發光固化單元i i係為一發光單元或發熱單元, 例如該發光單元可包括至少一個固態發光晶片(solidstate light-emitting die)。另一方面,該醫療用手持固化裝置工 還包括一電源供應系統1 3,其設置於該外殼體1 〇内且 電性連接該發光固化單元i丄,以提供該醫療用手持固化 裝置1進行作業必須的電源。 該可抽換的散熱模組121的位置可遠離該發光固 化單元1 1或是較為接近該發光固化單元1 1。換句話 說,該可抽換的散熱模組1 2 1的位置可任意的調整,以 應付各種不同的應用領域。 該醫療用手持固化裝置1在實際使用時,該可抽換的 散熱模組1 2 1係貼合於該散熱模座1 2 〇,藉由該電源 供應系統1 3提供的電能,該發光固化單元1 1可發出固 化能量並由該管狀之光傳輸元件1 〇 1輸出能量於一預 定位置,同時該發光固化單元1 1運作所產生的熱能則藉 由該散熱模座1 2 0傳導至該可抽換的散熱模組1 2 1,而該可抽換的散熱模組1 2 1中的液體1 2 1 1則吸 收上述傳導之熱量;而在使用一段時間之後,化合物已完 成一階段的固化反應,即可關閉該電源供應系統1 3,此 11 Π『者::取出該已經吸收熱量的可抽換的散熱模組 模座12^ 個可抽換的散減組121置入該散熱 杈座1 2 〇,以便進行下一次的作業。M347165 VIII. New Description: [New Technology Field] This creation is about a medical hand-held curing device, especially a medical hand-held curing device with a replaceable heat dissipation module. [Prior Art] According to the convenience of the hand-held device, the hand-held device is widely applied to the living environment, for example, the curing device used by the dentist, and the main purpose thereof is to cure or harden the filling material in the tooth by using light or heat. In other words, various industries often use related handheld devices to perform related operations or procedures. However, since the above-mentioned hand-held devices are usually provided with a unit that generates heat, such as a light source or a heat source, etc., in a small hand-held device, heat is usually accumulated quickly to cause damage to the hand-held device. Traditionally, the handheld device typically uses a fan to create air convection to transfer heat to the exterior of the handheld device for heat dissipation purposes. However, if the above-mentioned conventional structure is used in actual use, it still has the following defects: 1. When the fan is running, it will produce wind-cutting sound or low-frequency running sound, that is, using a fan will cause noise interference, and work requiring low noise. Under the circumstances, it is not suitable to use a hand-held curing device that is forced to air-cool by a fan. In addition, venting holes must be provided in the housing to allow heat to be carried out of the handheld device with the wind, however these venting holes may cause problems with the handling of the handheld device. For example, a hand-held device used by a dentist must be sterilized after use, and the sterilizing water may seep into the hand-held device through the vent hole, causing damage to the electronic component. 2. The conventional fan system is installed in the handheld device, and the power is from the internal power supply such as the battery, so that the power that the battery can supply to the main components cannot reach 100%, that is, the fan will cause the power supply to be consumed. For example, it is necessary to replace the battery faster. 3. The fan in the handheld device should not be too large. When the light-emitting component module overheats, it needs to be interrupted for use. The temperature recovery time is longer, so the design of the heat-dissipating module can be shortened. 4. When the working environment temperature is high, the fan air cooling method is not effective, and the working time is greatly shortened. The replaceable module can be cooled and then installed, and the working time can be long and is not easily affected by the ambient temperature. In view of the lack of the above-mentioned conventional structural devices in actual application, and the accumulation of personal experience in the relevant industry development practice, the creators of this case have finally proposed a structure that is reasonable in design and effective in improving the above problems. [New content] The main purpose of this creation is to provide a medical hand-held curing device with a design of a replaceable heat-dissipating module, which can replace the heat-removable heat-dissipating mold with the alternately used mode. Groups to meet the requirements for high heat dissipation efficiency of handheld electronic products. Another purpose of the present invention is to provide a medical hand-held curing device which can effectively solve the noise and power consumption problems caused by the conventional use of fan heat dissipation, and prolong the medical manual egg-making device in a relatively high temperature environment. M347165, use time. In order to achieve the above object, the present invention provides a medical hand-held optical curing device for emitting a specific wavelength of light to cure a resin, comprising: an outer casing; a heat dissipation mold base disposed on the outer casing a light-emitting curing unit disposed on the heat dissipation mold base, the light-emitting curing unit includes at least one light-emitting element, and a replaceable heat-dissipating module that is tightly coupled to the heat dissipation mold base, wherein the The heat-dissipating module includes a liquid for accumulating heat generated by the light-emitting curing unit, a power supply system for supplying power required by the light-emitting curing unit, and an optical transmission unit for illuminating the light-emitting unit The beam is conducted to the resin. In order to achieve the above object, the present invention further provides a medical hand-held light curing device for emitting a specific wavelength of light to cure a resin, comprising: an outer casing; a heat dissipation mold seat disposed in the outer casing; a light-emitting curing unit disposed on the heat dissipation mold base, the light-emitting curing unit comprising at least one light-emitting element and a light-reflecting element, wherein the light-reflecting element transmits the light beam of the light-emitting element to the resin; a heat-dissipating mold* group that is tightly coupled to the heat-dissipating mold base, wherein the replaceable heat-dissipating heat-dissipating module contains a liquid for accumulating heat generated by the light-emitting curing unit; and is provided by a power supply system The power required for the luminescent curing unit. • As described above, the medical hand-held curing device can quickly remove the heat generated by the operation of the illuminating curing unit, and absorb the heat by using the high-heat capacity liquid to achieve rapid heat dissipation. At the same time, this creation can completely solve the problem of noise and power consumption caused by the installation of the fan in the medical hand-held curing device and the problem of high operating temperature. 7 M347165, in order to further understand the characteristics and technical content of this creation, please refer to the relevant descriptions and drawings of this creation under the terms of Y, Y, but the drawings only mention 4~ test y" Used to limit the creation of this creation. [Embodiment] According to the first to fourth figures, the present invention proposes a hand-held curing skirt £1' which includes an outer casing i◦, a heat sink sitting on a heat sink 1 2 0 and A replaceable heat-dissipating module worker, the 亥中5海 outer casing 10 is formed into an internal space, and the planting member, single=ankle space described later, the heat-dissipating mold base 120 is disposed outside And the replaceable heat dissipation module 121 is disposed in the m Q to heat the heat transferred by the heat dissipation die socket 120 to the replaceable heat dissipation module 丄2丄, The die and the replaceable heat dissipation module 121 are constructed to form a heat dissipation unit 12 having high efficiency of heat dissipation. The first picture is the first example of the creation and the second picture is the second actual _ (five) "lnk" 12 〇 and the exchangeable espresso 2 1 different means of engagement. : 芩 ft 1 and 罘 38, which are the seventh and partial enlarged views of the first embodiment of the present invention, wherein the replaceable heat dissipation module 2 includes a housing 121 and a The heat-dissipating module 121 is accommodated in the housing 121. The heat-dissipating module 121 can be renewed by absorbing the amount of the heat-dissipating module 121. In the specific embodiment, the medical device is used. The hand-held curing device 1 is a device for providing curing light energy for curing and hardening reaction of a compound. The medical hand-held curing device 1 is one of the commonly used tools for dentists, but not limited to the above, the medical treatment The hand-held curing device 1 is characterized in that it is not used for a long time, and because of the volume and application of the medical hand-held curing device 1, the power supply is provided as a built-in power supply system 1 3 'the power supply system 1 3 can be installed for a battery or a power conversion, so the power control The system is also a consideration for the use of the medical hand-held curing device 1 in the use of the above. In summary, the medical hand-held curing device 1 is not limited to the tools used by the dentist, as long as it is hand-held and does not require continuous use for a long time. The tool can apply the creation described later. In the specific embodiment, the outer casing 1 of the medical hand-held curing device 1 includes a hand-held portion 100 and an optical transmission component 101. The hand-held part 1 is an ergonomic grip design for the user to hold, and the light transmission element ii is a tube body. Moreover, the hand part 1 00 has a light The light transmitting element 101 is connected to the light conducting opening 1〇, and the light transmitting element 101 is connected to the light transmitting opening 1 〇0 and extending outward by a predetermined distance to form a tubular structure. On the other hand, the optical transmission component 1〇1 is removably connected to the handheld portion 1 〇〇, and the user can change according to the actual situation. Optical transmission element 1〇1. The heat sink 120 is disposed inside the outer casing of the outer casing, and the heat dissipation mold base i 2 Q does not define the heat dissipation 9 M347165 mold base 1 2 0, the heat dissipation mold base The i 2 needs to be optimally closely attached to the replaceable heat dissipation module 121, and the two can be engaged and fixed with each other. That is, the replaceable heat dissipation module 1 2 1 is engaged with The heat dissipation module is 120, and the replaceable heat dissipation module i 2 i is in direct contact with the heat dissipation module 12 2 〇 to improve heat dissipation efficiency. In another embodiment, in this embodiment, The replaceable heat-dissipating module • 1 2 1 shell 1 2 1 〇 is a metal material with high thermal conductivity, and the liquid 1 1 1 1 system in the spring part can be a substance with a large heat capacity, such as water or The salt water or water mixed with antifreeze and the like can make the replaceable heat dissipation module i 2丄 absorb more heat. Furthermore, in order to achieve a better engagement between the replaceable heat dissipation module i 2 i and the heat dissipation module j1 2 0, the replaceable heat dissipation module 1 2 i has a corresponding one of the heat dissipation sockets 1 2 0 The engaging means 2 〇A, 2 〇B, for example, a PUSH PUSH mechanism, including a rail, an elastic member, and a guide rod, etc., in use, the user can press the replaceable heat dissipation module 1 2 1 The solid heat-dissipating heat-dissipating module 1 2 1 is in the heat-dissipating mold base 2 ;; then "^压' 1 Ke to make the replaceable heat-dissipating module 1 2 1 out of the heat and heat The mold base 1 2 0; or the engaging means can be a thread (such as the third a figure), that is, the replaceable heat dissipation module can be fixed to the heat dissipation mold base 1 by using a screw lock. 2 〇中; or the heat-dissipating module 2 2 that can be exchanged, the political heat #座1 2 Q system directly uses the corresponding relationship of the size to achieve the purpose of the card (such as the third B picture), but the above is only the description The engagement means is not limited to the above configuration. M371165 The medical hand-held curing device 1 proposed by the present invention more specifically includes a light-emitting curing unit 1 1 , which is disposed on the heat-dissipating core seat 1 2 0, that is, the light-emitting curing unit 1 1 The light-emitting curing unit 11 is disposed on the outer surface of the side wall 1 2 0 之 of the heat-dissipating socket 110, and the light-emitting curing unit 11 corresponds to the light-conducting opening i 〇〇0 of the hand-held portion, and the light-emitting curing unit Ii is a light-emitting unit or a heat-generating unit, for example, the light-emitting unit may include at least one solid state light-emitting die. In another aspect, the medical hand-held curing device further includes a power supply system 13 disposed in the outer casing 1 and electrically connected to the light-emitting curing unit to provide the medical hand-held curing device 1 The power required for the job. The position of the replaceable heat dissipation module 121 can be away from the light-emitting curing unit 11 or relatively close to the light-emitting curing unit 11. In other words, the position of the replaceable heat dissipation module 1 2 1 can be arbitrarily adjusted to cope with various application fields. When the medical hand-held curing device 1 is actually used, the replaceable heat-dissipating module 1 2 1 is attached to the heat-dissipating die holder 12 2 , and the light is solidified by the power supplied by the power supply system 13 The unit 1 1 can emit curing energy and output energy from the tubular optical transmission element 1 〇1 to a predetermined position, and the thermal energy generated by the operation of the illuminating curing unit 11 is transmitted to the thermal modulating block 120 The heat-dissipating module 1 2 1 is replaceable, and the liquid 1 2 1 1 in the replaceable heat-dissipating module 1 2 1 absorbs the heat of conduction; and after a period of use, the compound has completed a stage After the curing reaction, the power supply system 13 can be turned off, and the Π 者 : : : : 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者 者The squat is 1 2 〇 for the next assignment.
M347165 另外’上述之所取出的可抽換的散熱模組工2工可以 放置於大氣中利用錢對流的效果加強散熱效率,亦或放 ,於^度更低的裝置如冰箱冷絲中以加快降溫時間。值 得注意的是,本創作之醫療用手持固化裝置1並不限定是 否在β亥外⑨體1 Q上開設有散熱孔,只要在不會損及内部 電子兀件的情況下,本創作之醫療用手持固化裝置工亦可 搭配散熱孔進行散熱的工作。 另外,第四圖為本創作之第三實施例,其與第一、第 二實施例的差別在於,該發光固化單元i 1 /係為一反射 式光源,亦即該發光固化單元1 1 -係包括發光元件工工 A,如固悲發光晶片及一光反射元件1 1B,該光反射元件 1 1B包括至少一個具有光學鏡面反射之鏡片,抑或該光 反射元件1 1B為一杯狀反射面,以將該發光元件之光束 傳導至欲固化之樹脂的位置。該發光固化單元1 1 /係設 置於該散熱模座1 2 0,的前端直接照射,故在本實施例 中並不需第一及第二實施例中的光傳輸元件1 〇 1,而該 可抽換的散熱模組121亦卡合而貼合在該散熱模座1 2 0 —上;其餘的裝置均同於第一及第二實施例,在此不 加以贅述。 綜上所述,本創作具有下列諸項優點: 1、本創作之醫療用手持固化裝置係利用固體(散熱 12 M347165 模座及可抽換的散熱模組之殼體)將發光固化單元運作時 • 產生的熱量快速的移除,並利用高熱容量的液體吸收上述 ’ 之熱量,以達到快速散熱的目的。 2、 另一方面,該可抽換的散熱模組係為一替換使用 的散熱模組,可以利用該醫療用手持固化裝置暫停運作的 空檔更換該可抽換的散熱模組,故上述之更換動作並不會 • 影響到該醫療用手持固化裝置的作業。再者,本創作更可 < 藉由外接散熱單元針對該已吸取熱量的可抽換的散熱模 • 組進行高效率的散熱,亦即本創作提出之裝置具有相當高 的散熱效能,同時更換該已吸收熱量的可抽換的散熱模組 也不致於影響到原本的作業流程。 3、 本創作利用可抽換的散熱模組進行散熱的管道, 可徹底解決習知將風扇安裝於醫療用手持固化裝置所造 成的問題,例如風扇運作的噪音問題已不復存在;另外, 使用風扇造成的耗電問題也得以解決。 以上所述僅為本創作之較佳可行實施例,非因此偈限 ® 本創作之專利範圍,故舉凡運用本創作說明書及圖示内容 ’ 所為之等效技術變化,均包含於本創作之範圍内。 【圖式簡單說明】 " 第一圖係本創作之醫療用手持固化裝置之第一實施例之 示意圖。 第二圖係本創作之醫療用手持固化裝置之第二實施例之 示意圖。 13 M347165 . 第二A圖係本創作之可抽換的散熱模組與散熱模座之一 種組合態樣之示意圖。 弟二B圖係本創作之可抽換的散熱模組與散熱模座之第 二種組合態樣之示意圖。 第四圖係本創作之醫療用手持固化裝置之第三實施例之 示意圖。M347165 In addition, the above-mentioned removable heat-dissipating module can be placed in the atmosphere to enhance the heat dissipation efficiency by using the effect of money convection, or to put it on a lower-degree device such as a refrigerator cold wire to speed up Cooling time. It is worth noting that the medical hand-held curing device 1 of the present invention is not limited to whether or not a heat-dissipating hole is formed in the body 9 of the β-hai, as long as the internal electronic components are not damaged, the medical treatment of the present invention. The hand-held curing device can also be used with the cooling holes for heat dissipation. In addition, the fourth figure is a third embodiment of the present invention, which differs from the first and second embodiments in that the light-emitting curing unit i 1 / is a reflective light source, that is, the light-emitting curing unit 1 1 - The invention comprises a light-emitting component worker A, such as a solid light-emitting chip and a light-reflecting component 1 1B, the light-reflecting component 11B comprising at least one lens having optical specular reflection, or the light-reflecting component 11B is a cup-shaped reflecting surface. The light beam of the light-emitting element is conducted to the position of the resin to be cured. The light-emitting curing unit 1 1 / is disposed at the front end of the heat-dissipating mold base 120 , and the light-transmitting element 1 〇 1 in the first and second embodiments is not required in the embodiment. The replaceable heat dissipation module 121 is also engaged and attached to the heat dissipation mold base 120. The remaining devices are the same as the first and second embodiments, and are not described herein. In summary, the creation has the following advantages: 1. The medical hand-held curing device of the present invention uses a solid (heat dissipation 12 M347165 mold base and a replaceable heat dissipation module housing) to operate the light-emitting curing unit. • The heat generated is quickly removed and the heat of the above heat is absorbed by the high heat capacity liquid for fast heat dissipation. 2. On the other hand, the replaceable heat dissipation module is a replacement heat dissipation module, and the replaceable heat dissipation module can be replaced by the neutral operation of the medical hand-held curing device, so the above-mentioned The replacement action does not affect the operation of the medical hand-held curing unit. Furthermore, the creation can further efficiently dissipate the heat-dissipating heat-dissipating heat-dissipating unit of the heat-dissipating unit by means of an external heat-dissipating unit, that is, the device proposed by the present invention has a relatively high heat-dissipating efficiency and is replaced at the same time. The heat-dissipating, heat-dissipating heat-dissipating module does not affect the original work flow. 3. This project uses a replaceable heat dissipation module to dissipate the heat, which can completely solve the problems caused by the conventional installation of the fan in the medical hand-held curing device. For example, the noise problem of the fan operation no longer exists; The power consumption caused by the fan is also solved. The above descriptions are only preferred embodiments of the present invention, and are not limited to the scope of the patents of this creation. Therefore, the equivalent technical changes made by the use of this creation specification and the illustrations are included in the scope of this creation. Inside. [Simplified illustration of the drawings] " The first figure is a schematic view of the first embodiment of the medical hand-held curing device of the present invention. The second drawing is a schematic view of a second embodiment of the medical hand-held curing device of the present invention. 13 M347165 . The second A is a schematic diagram of one of the combinations of the replaceable heat dissipation module and the heat dissipation mold base. The second figure of B is the schematic diagram of the second combination of the replaceable heat dissipation module and the heat dissipation mold base. The fourth figure is a schematic view of a third embodiment of the medical hand-held curing device of the present invention.
【主要元件符號說明】 L 醫療用手持固化裝置[Main component symbol description] L Medical handheld curing device
10 外殼體 1 2 散熱單元 10 0 10 0 0 10 1 發光固化單元 1 1 A 1 1 B 12 0 1 2 0 / 組 12 1 12 1〇 12 11 手持部 光傳導開口 光傳輸元件 發光元件 光反射元件 散熱模座 散熱模座 可抽換的散熱模 殼體 液體 丄3 電源供應系統 2〇a、2〇b 卡合手段10 Outer casing 1 2 Heat dissipating unit 10 0 10 0 0 10 1 Luminous curing unit 1 1 A 1 1 B 12 0 1 2 0 / Group 12 1 12 1〇12 11 Handheld light-conducting opening optical transmission element Light-emitting element Light-reflecting element Heat dissipation mold base heat dissipation mold seat can be exchanged for heat dissipation mold housing liquid 丄 3 power supply system 2〇a, 2〇b engagement means