M384833 五、新型說明: 【新型所屬之技術領域】 盒與槽蓋結合技 作係針對熱封機 本創作係一種適用於蓄電池的電池 術領域,槽蓋透過熱封機械予以封合,本創 的加熱結構。 【先前技術】 按由蓄電池相當廣泛應用於^業與&生的設備與器 具’比如是汽機車、電動車、發電機、通訊器材和不斷電 電源供應器等等。而蓄電池的種·多,其中 電池疋市面上普用性較高的蓄電池。鉛酸蓄電池是利用兩 個電極和電解液間的化學作用來產生電力,而電極板是由 鉛製成,電解液為硫酸和水依比率調配,因此製造蓄電池 過程,需要將鉛片熔接於基板上以組成電極板,然後將電極 板放入電池盒内,讓各電極板進行連通焊接,經過各項品管 檢測之後,然後對電池盒的頂部加上槽蓋在熱封機械來熱 封,熱封完成後,進行氣密性檢測,完成之後,電池盒灌液, 灌液完畢後充電、封蓋、檢查、表面清洗即完成車用蓄電 池。 一般的電池盒槽蓋熱封機械,其加熱模具部位多如第 2圖所示,一可位移的機台(4〇),於中央穿空處設置一加熱 塊(42),相對於加熱塊(42)的上側面,對應配合一模蓋(45), 相對於加熱塊(42)下側面,對應配合一模具(44),而加熱塊 (42) —側面係連接一加熱器(41),模具(44)底侧面便是面 對電池盒的槽蓋。藉以先啟動加熱器(42),加熱器(42)的溫 3 M384833 度傳熱❹熱塊(42),加熱塊(42)的溫度再傳熱到模且 (⑷’使模具(44)對電池槽蓋產生加熱密封作用。前述熱封 機雖能達到熱封的效果,但是存在下列問題: 1、工時長。由於模具接收熱能是「間接型態」需要 在加熱器的溫度傳熱到加熱塊,再由模具吸收吸加熱塊的 足夠熱能,才能對電池盒的槽蓋進行熱封,因此熱封的熱能 需要傳遞始可完成,而熱能傳遞需要等待不僅熱封作業時 間長,也在傳熱途中損耗熱能,相對降低了生產效率。 2'由於模具要接收熱能,需要加熱塊來傳遞,而模蓋 則配合封閉熱能從不同於模具的方向$散所以加熱結構 部份’需要有模具、加熱塊、加熱器、模蓋等組件,所以組 件多,造成開模成本偏高。 【新型内容】 本創作者鑑於前述的問題,進而用心研究開發,因此 本創作主要目的係在提供一種電池盒槽蓋熱封機械結構 (一),其主要是改變以往熱封機是間接傳遞熱能的結構,而 以加熱模組展現最少構件直接吸收熱能,避免間接傳熱造 成熱能損耗以及等待時間,提昇工時效率,更節省開模成 〇 為了可達到前述的目的’本創作所運用的技術手段係 在於提供一種電池盒槽蓋熱封機械結構(一),熱封機設置 一加熱結構,其包含一加熱組、一模具其中: 該加熱組與該模具均可拆卸地設置於一可移動的機 α,該用以產生熱源的加熱組包含數支傳遞熱能的導熱管; 該模具相鄰置於該加熱組,該模具設置有數模穴,該 4 ⑽4833 模具供數該導熱管橫向穿埋其中;藉以該加熱組產生之熱 源,經由該導熱管而供該模具直接接收熱能。 々 因此依據本創作的技術手段,本創作可以獲得的功效 簡要說明如下所列: 1本創作使熱封作業時間有效縮短。本創作免除間 接傳熱型態,讓模具埋置數支受加熱組電連接的導熱管因 •此加熱組產生的熱源直接到導熱管,而導熱管位居於模具 =内。P,所以模具是直接接受熱能、並且直接傳熱給電池槽 盍,縮減熱能間接傳達的時間與途徑,有效縮短作業工時。 2、 開模成本降低。本創作只需要設置模具,並且供導 熱管埋置即可,不同於以往模具需要組配相關配件,因此本 創作開模成本降低。 3、 熱能損耗隨之降低。由於導熱管直接埋設於模具 中’導熱管的熱能直接讓模具接收,兩者之間因為熱能傳遞 所產生的熱能損耗相對顯著降低,熱封作業更有效率。 _ 【實施方式】 本創作係一種電池盒槽蓋熱封機械結構(一),如第ι 圖所不,熱封機的加熱結構,主要係包含一加熱組(1〇)、一 模具(20)。其中: 該加熱組(10)與該模具(2〇)係一起安置於一可移動 的機台(30),該加熱組(10)係連接電源,以在通電之後產生 熱能的熱源,諸如電熱器或電子式加熱器而加熱組(1〇)底 部係螺鎖固定於一長條形的鎖附座⑴),使該加熱組⑽ 利用鎖附座⑴)固定於機台(30),而加熱組(10)還包含數 支傳遞熱能的導熱管(14),導熱管(⑷係以良好導熱材料 5 M384833 製成的管體,導熱管(14)與加熱組(ίο)之間連接以導線 (12 );以及 該模具(20)是對應置於相鄰加熱組(1〇)的機台(3〇) 上,模具(20)中央區域設置有模穴(21),底側面的兩端設置 有結合部(2 2 ),結合部(2 2 )具體形態可為凹槽,藉以於結合 部(22)供一連接件(23)對應固定設置,藉由該連接件(23) 一端固定於結合部(22),連接件(23)另一端則可定位於機 台(30)上,尤其模具(20)的厚度,以間隔、橫向型態穿設有 數穿孔(24),穿孔(24)是供導熱管(14)穿置其中,導熱管 (14)可以不必突露出穿孔(24)之外。 本創作之特點,主要係在加熱組(1 0 ) 一經通電加熱之 後’而在其電連接的導熱管(14)產生熱能,由於模具(2〇)供 各導熱管(14)埋置其中,相當於導熱管(14)是位在模具(2〇) 内部的型態,因此導熱管(丨4)所產生熱能,同時直接讓模具 (20)接觸、接收,使模具(2〇)直接接接熱能而擬如模具(2〇) 本身發熱效果,使模具(2〇)的熱能能對電池槽蓋進行熱熔 密封。 上述實施例僅為例示性說明本創作之技術及其功 效,而非用於限制本創作。任何熟於此項技術人士均可在 不違背本創作之技術原理及精神的情況下,對上述實施例 進行修改及變化’因此本創作之權利保護範圍應如後所述 之申請專利範圍所列。 6 M384833 【圖式簡單說明】 第1圖係本創作較佳實施例之立體圖。 第2圖係現有熱封機加熱部位之立體圖。 【主要元件符號說明】 (10 )加熱組 (11) 鎖附座 (12) 導線 (14)導熱管 (20) 模具 (21) 模穴 (22) 結合部 (23) 連接件 (24) 穿孔 (30)(40)機台 (41) 加熱器 (42) 加熱塊 (44) 模具 (45) 模蓋 7M384833 V. New description: [New technology field] Combination of box and slot cover Technology for heat sealing machine This is a battery field suitable for battery. The cover is sealed by heat sealing machine. Heating the structure. [Prior Art] Devices and devices that are widely used in batteries and industries are used, such as steam locomotives, electric vehicles, generators, communication equipment, and uninterruptible power supplies. There are many kinds of batteries, among which the batteries are more common in the market. The lead-acid battery uses the chemical action between the two electrodes and the electrolyte to generate electricity, and the electrode plate is made of lead, and the electrolyte is formulated according to the ratio of sulfuric acid and water. Therefore, in the process of manufacturing the battery, the lead sheet needs to be welded to the substrate. The upper electrode is formed into an electrode plate, and then the electrode plate is placed in the battery case, and the electrode plates are connected and welded. After each quality tube is detected, a groove cover is attached to the top of the battery case to heat seal the heat sealing machine. After the heat sealing is completed, the airtightness test is performed. After the completion of the heat sealing, the battery case is filled, and after charging, the battery is charged, sealed, inspected, and surface cleaned. The general battery box cover heat sealing machine has a heating mold part as shown in Fig. 2, a displaceable machine (4 〇), and a heating block (42) is arranged at the center through the heating block. The upper side of (42) is matched with a mold cover (45), corresponding to a lower side of the heating block (42), corresponding to a mold (44), and the heating block (42) is connected to a heater (41) on the side. The bottom side of the mold (44) is the groove cover facing the battery case. By first starting the heater (42), the temperature of the heater (42) is 3 M384833 degrees heat transfer heat block (42), the temperature of the heating block (42) is transferred to the mold again ((4)' makes the mold (44) pair The battery cover has a heat sealing effect. Although the heat sealing machine can achieve the heat sealing effect, the following problems exist: 1. The working time is long. Since the heat receiving energy of the mold is "indirect type", heat transfer to the temperature of the heater is required. The heating block, and then the mold absorbs enough heat energy of the heating block to heat seal the tank cover of the battery box, so the heat energy of the heat sealing needs to be completed, and the heat energy transfer needs to wait for not only the heat sealing operation time is long, but also Loss of heat energy during heat transfer, which reduces the production efficiency. 2'Because the mold needs to receive heat energy, it needs a heating block to transfer, and the mold cover is combined with the closed heat energy to dissipate from the direction of the mold. , heating block, heater, mold cover and other components, so there are many components, resulting in high mold opening costs. [New content] The creator in view of the above problems, and then carefully research and development, so this creation The purpose is to provide a battery box cover heat sealing mechanical structure (1), which mainly changes the structure of the heat sealing machine indirectly transferring heat energy, and the heating module shows that the minimum component directly absorbs heat energy and avoids indirect heat transfer. Thermal energy loss and waiting time, improve working efficiency, and save mold opening in order to achieve the above objectives. The technical means used in this creation is to provide a battery box groove cover heat sealing mechanical structure (1), heat sealing machine A heating structure is provided, comprising a heating group and a mold, wherein: the heating group and the mold are detachably disposed on a movable machine (α), and the heating group for generating a heat source comprises a plurality of heat pipes for transferring heat energy. The mold is adjacent to the heating group, the mold is provided with a plurality of mold holes, and the 4 (10) 4833 mold is used for laterally burying the heat pipe; the heat source generated by the heating group is directly received by the mold through the heat pipe Thermal energy. Therefore, according to the technical means of this creation, the brief descriptions of the functions that can be obtained by this creation are as follows: 1 This creation makes the heat sealing operation This is effectively shortened. This creation eliminates the indirect heat transfer pattern, allowing the mold to embed several heat pipes that are electrically connected by the heating group. The heat source generated by this heating group is directly connected to the heat pipe, and the heat pipe is located in the mold =. P, so the mold is directly accepting heat energy and directly transferring heat to the battery tank, reducing the time and way of indirect heat transfer, effectively shortening the working hours. 2. The mold opening cost is reduced. This creation only needs to set the mold and provide heat conduction. The tube can be embedded, which is different from the previous molds, so the cost of mold opening is reduced. 3. The heat energy loss is reduced. Because the heat pipe is directly buried in the mold, the heat energy of the heat pipe directly receives the mold. The thermal energy loss caused by the heat transfer is relatively significantly reduced, and the heat sealing operation is more efficient. _ [Embodiment] This is a battery box cover heat sealing mechanical structure (1), as shown in Figure ι The heating structure of the heat sealing machine mainly comprises a heating group (1〇) and a mold (20). Wherein: the heating group (10) is placed together with the mold (2〇) on a movable machine (30), which is connected to a power source to generate a heat source of heat energy, such as electric heat, after being energized. Or an electronic heater and the heating group (1〇) bottom screw is fixed to an elongated locking seat (1)), so that the heating group (10) is fixed to the machine table (30) by using the locking seat (1), and The heating group (10) further comprises a plurality of heat transfer tubes (14) for transferring heat energy, the heat transfer tubes ((4) are tubes made of a good heat conductive material 5 M384833, and the heat transfer tubes (14) are connected with the heating group (ίο) a wire (12); and the mold (20) is corresponding to a machine table (3〇) placed adjacent to the heating group (1〇), the mold (20) is provided with a cavity (21) in the central region, and two bottom sides The end portion is provided with a joint portion (2 2 ), and the joint portion (2 2 ) may be a groove, so that the joint portion (22) is fixedly disposed by a joint member (23), and one end of the joint member (23) Fixed to the joint (22), the other end of the joint (23) can be positioned on the machine table (30), especially the thickness of the mold (20), with spacing, lateral The state is provided with a plurality of perforations (24), the perforations (24) are for the heat pipe (14) to be placed therein, and the heat pipe (14) does not need to protrude beyond the perforations (24). The characteristics of the creation are mainly in the heating group. (1 0) After the electric heating is applied, the heat pipe (14) electrically connected to it generates heat energy, and since the die (2〇) is embedded in each heat pipe (14), the heat pipe (14) is located at Mold (2〇) internal type, so the heat generated by the heat pipe (丨4), at the same time directly let the mold (20) contact and receive, so that the mold (2〇) directly connected to the heat energy is like a mold (2〇) The heat-generating effect of the mold enables the thermal energy of the mold (2〇) to be heat-sealed to the battery cover. The above embodiments are merely illustrative of the techniques and effects of the present invention, and are not intended to limit the creation. The above embodiments may be modified and changed without departing from the technical principles and spirit of this creation. Therefore, the scope of protection of this creation shall be as listed in the scope of application of the patent as described later. 6 M384833 Simple description of the schema] Figure 1 is the creation of this book Fig. 2 is a perspective view of a heating portion of a conventional heat sealer. [Description of main components] (10) Heating group (11) Locking seat (12) Conductor (14) Heat pipe (20) Mold (21) Cavity (22) Joint (23) Connector (24) Perforation (30) (40) Machine (41) Heater (42) Heater (44) Mold (45) Mold cover 7