201231207 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種焊接裝置’特別是指一種用於焊接中央 處理器和熱偶線之焊接裝置。 [先前技術] [0002] 一般於電子設備中,均使用了中央處理器等重要元件, 於選擇該等元件時,開發商均必須進行熱傳測試,以檢 測於一定工作負荷之情況下,該等元件之表面溫度是否 超過規格。為了保證測量之準確度,需要將熱偶線之感 溫線頭與發熱元件之散熱器痒揍於―起。然而,目前之 測試方法是於散熱器上面開槽,將熱偶線埋於開槽中, 再用白膠進行粘貼牢固。這樣之方法,白膠無法用烙鐵 焊接於散熱器上,因為無法控制烙鐵之溫度,容易造成 溫度過高而導致發熱元件損壞。 【發明内容】 [0003] [0004] 鑒於以上内容,有必要提,一種+用以將發熱元件和熱 偶線藉由金屬焊接一起之4接裝置。 : :: .;; 丨丨.丨. 一種焊接裝置,用以將一熱偶線藉由一焊接材料焊接於 發熱元件上,所述焊接裝置包括有電源,所述烊接裝 置還包括一用以熔化所述焊接材料之焊接器一用以加 .、、'所述焊接器之加熱器、一連接所述電源與所述加熱器 =繼電器、一溫控器、及一溫度感測器,所述溫度感測 為用以偵測所述焊接器之溫度,並將所偵測到之溫度傳 遞、α所述溫控器,所述溫控器用以設定一焊接溫度,並 根據接收敎焊接器之溫度來控韻賴電器將所述加 100102390 表單編珑AOlOi 第4頁/共19頁 1002004281-0 201231207 熱器與所述電源接通或斷開。 [0005] [0006] Ο [0007] Ο [0008] 與1知技術相比,於上述焊接裝置中,於溫控器令設置 —烊接溫度,並於所述溫控器之控制下,使所述焊接器 上之溫度不高於所述焊接溫度,既能將所述焊接材料熔 化,從而將所述熱偶線焊接於所述發熱元件上,又不會 導致所述發熱元件損壞。 【實施方式】 請參閱圖1,於本發明之一較佳實施方式中’一焊接裝置 用以將一熱偶線1〇〇焊接於一發熱元件2〇〇上°所述悍接 裝置包括一支座1〇、一控制箱20、一操作組合30 (見圖2 )、一加熱器(圖未示)、一焊:接器60及一定位模組70 r--· . '·· 'S i' - 〇 . 丨靡 .... :::. 所述發熱元件200上裝設一散熱片201。辦述散熱片2(H 上開設一開槽2011。所述發熱元件200箨有一限定溫度, 如果所述發熱元件_於X作時超過所祕定溫度’就會 有受到損壞之危險,一實施方式巾’所述發熱元件200 可以是一中央處理器。 所述支座10包括一底板11及大致垂直所述絲11之側板 13。所述底板η開設複數鎖固孔ιη°每,鎖固孔111設 有内螺紋。所述側板13開設一第一開口131及一第二開口 133。所述側板13之一側凸設—凸台132 ’所述凸台132 凸設兩相對之喊板⑶,每一岐板135開設—第一固 定孔1351。兩所述固定板135之間裝設〆套筒136。於一 實施方式中,所述固定板135垂直所述側板13。 100102390 表單編號A0101 第5頁/共19頁 1002004281-0 201231207 [0009] [0010] [0011] 所述控制箱20中裝設—電源21、—溫控器23及一繼電器 25 (如圖4所示),且於外表面上裴設一顯示器26、—電 源開關27及一電源指示燈28。所述電源開關27連接所述 溫控器23及所述繼電器25,所述溫控器23連接所述繼電 器25。所述控制箱2〇固定於所述支座10之側板13背向所 述固定板135之一侧,且所述顯示器26穿出所述第—開口 131 ’所述電源開關27及電源指示燈28穿出所述第二開口 133。於一實施方式中,所述繼電器25可以是一固態繼電 器。 請同時參閱圖2-3,所述操作祖合3〇包括一手柄31、 動件33及一連接桿35。所述...手柄3Ί包括一操作部311及 一固定部313。所述固定部3ί3之〆端與所雇轉動件扣之 一端固定於一起。所述固定部313之另一端開設—第二固 定孔3131。所述連接桿35套於所述套筒136中,且—端 與所述轉動件33之另一端固定於一起。所述連接桿扣之 另一端固定所述焊接器60。一轉軸37穿远所述第二固定 孔3131及所述支座10之第—固定孔1351,將所述手柄μ 轉動固定於所述支座10之固定板135上。 所述加熱器安裝於所述焊接器6〇内部,所述焊接器之 外部裝設一罩體80,用以防止使用者接觸所述焊接器μ 而導致烫傷。所述焊接器60裝設一溫度感測器9〇,且包 括一焊接端61,所述焊接端61大致垂直所述側板13。 [0012] 所述定位模組70包括四定位件71及四鎖固件73。每—定 位件71包括一定位部711及—第一鎖固部7〗3。所述定位 部711向上凸設一限位片7112。所述第一鎖固部713開設 100102390 表單編號Α0101 第6頁/共丨9頁 ^02004281-0 201231207 一 ·/骨槽7131。每一鎖固件73包括一抵靠部731及~第一 鎖固部733。所述第二鎖固部733設有與所述鎖固孔1 U 開設之内螺紋對應之外螺紋。 [0013] Ο 所述定位模組70用以將所述發熱元件2〇〇固定於所述支座 10之底板11上。固定時,將所述發熱元件200放置於所述 支座丨0上,且位於所述焊接端61之下方。將所述四定位 件71沿所述發熱元件200之四個方向靠近。在上移動所述 發熱元件200,使所述發熱元件2〇〇之下表面與所述定位 件71相抵靠,且所述發熱元件2⑽之四邊緣與所述定位件 71之限位片7112相抵靠:。所述鎖固件7 3之第一鎖固部 733穿過所述滑槽7131及鎖支康開設之鎖固孔 111中,所述抵靠部731抵靠於所述定位件71之定位部 711上,而將所述發熱元件2〇〇固定於所述支座之底板 11上。 [0014] Ο 請繼續參閱圖4,圖中示意牲之示出了拫據本發明一種實 施方式之焊接裝置之功能框圖。所述控制箱2 0中之電源 開關27連接所述電源21,用以控身述電源21之開關。 所述電源開關27連接所述溫控器23及繼電器25,用以為 所述溫控器23及繼電器25提供工作電壓。所述電源指示 燈28連接所述電源開關27,用以判斷是否接通所述電源 21。所述繼電器25連接所述加熱器,用以控制所述加熱 器接通或斷開所述電源21。所述加熱器連接所述焊接器 60,用以於接通電源時對所述焊接器6〇進行加熱。所述 溫度感測器90連接所述焊接器6〇及所述溫控器,用以 感應所述《器6〇之溫度,祕所述叫_之溫度傳 100102390 表單編號A0101 第7頁/共19頁 1002004281-0 201231207 遞給所述溫控器23。 所述溫控器23連接所述顯示 用以將所述溫度感測5^ % °。90傳遞之溫度顯示於所述 26上 器2 6, 顯示器 [0015] [0016] 於焊接所述熱偶線1GQ於所述發熱元㈣〇mm2q1 上之過知巾,將所述熱偶線丨⑽放人所述散熱㈣1之開 槽2011中’並於開槽2011中填充複數焊接材料300。所 述焊接材料300為炫點低於所述發熱元件_之限定溫度 之材料於κ施方式中,所述焊接材料3〇〇可以是鋼絲 O v 按壓所述電源開關27,如果電源指示燈28不亮,則要檢 查電路中之問題;如果電源指^^_燈28亮,則表示與所述 電源21接通。這時,於所述溫控器23上設置—焊接溫度 ,所述焊接溫度等於或高於所述焊接材料3〇〇之熔點,且 低於所述發熱元件200之限定溫度。所述溫控器23判斷所 述溫度感測器9 0之溫度,尊驅像所述顯示器2 6顯示所述 «度感測器9 0之溫度。當难述溫度感測器9 〇之溫度低於 所述焊接溫度時,所述溫控器.2.3 _聲所述繼電器25接通 所述電源21。所述加熱器對所述焊接器6〇進行加熱,所 述溫度感測器9 0感應所述焊接器6 0之溫度,並傳遞給所 述溫控器2 3。當所述溫度感測器9 0傳遞之溫度等於所述 焊接溫度時,所述顯示器2 6顯示所述焊接溫度;所述溫 控器23驅使所述繼電器25斷開所述電源,所述加熱器停 止對所述焊接器60加熱。 請繼續參閱圖5,將所述操作組合30之手柄31沿遠離所述 侧板13之第一方向按壓,所述手柄31繞著所述轉軸37轉 100102390 表單編號A0101 第8頁/共19頁 1002004281-0 [⑻ 17] 201231207 動,並驅使所㈣動件33沿遠離所述侧板13方向轉動。 所述轉動件33對所述連接桿35施加一個向下之力,驅使 所述連接桿35順著所述套筒136向下移動。直到所述焊接 器60之焊接端61抵靠於所述發熱元件2〇〇之散熱片2〇1上 。由於此知,所述焊接器6〇之溫度高於所述焊接材料3〇〇 之熔點,且低於所述發熱元件2〇〇之限定溫度,故所述焊 接器60將所述焊接材料3〇〇溶化而變成液態,且不會損壞 所述發熱元件200。將所述手柄31沿與所述第一方向相反 之第二方向轉動’媒使所述連接桿35向上移動。所述焊 Ο 接端61脫離所述散熱片2〇1。迅速用一平板(圖未示)貼 著所述散熱片201移動,將高出所述散熱片201之液態形 式之焊接材料300抹平,以方便於所述散熱片201上裝設 一散熱器等散熱裝置(圖未示)。所述焊接材料300重新 轉變為固態形式’將所述熱偶線100固秀於所述發熱元件 200 上。 [0018] 綜上所述,本發明確已符合發明專利要求,爰依法提出 〇 專利申請。惟’以上所述者僅為本發明之較佳實施方式 ’舉凡熟悉本發明技藝之人士’爰依本發明之精神所作 之等效修飾或變化,皆應涵蓋於以下之申請專利範圍内 【圖式簡單說明】 [0019] [0020] [0021] 100102390 圖1是本發明焊接裝置一較佳實施方式中與發熱元件及熱 偶線之立體分解圖。 圖2是圖1之一局部組裝圖。 圖3是圖1之一立體組裝圖。 表單編號Α0101 第9頁/共19頁 1002004281-0 201231207 [0022] 圖4是本發明焊接裝置控制焊接溫度之功能模組圖。 [0023] 圖5是圖1之另一立體組裝圖。 【主要元件符號說明】 [0024] 熱偶線:100 [0025] 發熱元件:200 [0026] 散熱片:201 [0027] 開槽:2011 [0028] 支座:10 [0029] 底板:11 [0030] 鎖固孔:111 [0031] 側板:13 [0032] 第一開口 : 1 31 [0033] 凸台:1 3 2 [0034] 第二開口 : 133 [0035] 固定板:1 3 5 [0036] 第一固定孔:1 3 51 [0037] 套筒:136 [0038] 控制箱:20 [0039] 電源:21 [0040] 溫控器:23 100102390 表單編號A0101 第10頁/共19頁 1002004281-0 201231207 [0041] 繼電器:25 [0042] 顯示器:26 [0043] 電源開關:27 [0044] 電源指不燈.2 8 [0045] 操作組合:30 [0046] 手柄:31 [0047] 操作部:311 Ο [0048] 固定部:313 [0049] 第二固定孔:3131 [0050] 轉動件:33 [0051] 連接桿:35 [0052] 轉軸:37 [0053] G 加熱器: [0054] 焊接器:60 [0055] 焊接端:61 [0056] 定位模組:70 [0057] 定位件:71 [0058] 定位部:711 [0059] 限位片:7112 100102390 表單編號A0101 第11頁/共19頁 1002004281-0 201231207 [0060] 第一鎖固部:7 1 3 [0061] 滑槽:7131 [0062] 鎖固件:73 [0063] 抵靠部:731 [0064] 第二鎖固部:733 [0065] 罩體:80 [0066] 溫度感測器:90 100102390 表單編號A010] 第12頁/共]9頁 1002004281-0201231207 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a welding device', particularly to a welding device for welding a central processor and a thermocouple wire. [Prior Art] [0002] In electronic devices, important components such as a central processing unit are generally used. When selecting these components, the developer must perform a heat transfer test to detect a certain workload. Whether the surface temperature of the component exceeds the specification. In order to ensure the accuracy of the measurement, it is necessary to squirt the temperature of the thermocouple wire and the heat sink of the heating element. However, the current test method is to slot the heat sink, bury the thermocouple wire in the slot, and then stick it with white glue. In this way, the white glue cannot be soldered to the heat sink with a soldering iron because the temperature of the soldering iron cannot be controlled, and the temperature is too high and the heating element is damaged. SUMMARY OF THE INVENTION [0003] In view of the above, it is necessary to mention a +-connecting device for soldering a heating element and a thermocouple wire together by metal. A welding device for welding a thermocouple wire to a heating element by a soldering material, the soldering device comprising a power source, the splicing device further comprising a soldering device for melting the solder material, a heater for the soldering device, a connecting power source and the heater=relay, a temperature controller, and a temperature sensor, The temperature sensing is for detecting the temperature of the soldering device, and transmitting the detected temperature, α, the thermostat, the thermostat is used to set a soldering temperature, and is soldered according to the receiving crucible. The temperature of the device is controlled by the rhyme electric appliance to add the 100102390 form to the AOlOi page 4 / 19 pages 1002004281-0 201231207 The heater is switched on or off with the power supply. [0007] [0007] [0008] Compared with the prior art, in the above-mentioned welding device, the temperature controller is set to splicing the temperature, and under the control of the temperature controller, The temperature on the welder is not higher than the welding temperature, and the welding material can be melted to weld the thermocouple wire to the heating element without causing damage to the heating element. [Embodiment] Referring to Figure 1, in a preferred embodiment of the present invention, a soldering device is used to solder a thermocouple wire 1 to a heating element 2, and the splicing device includes a Support 1〇, a control box 20, an operation combination 30 (see Fig. 2), a heater (not shown), a solder joint: a connector 60 and a positioning module 70 r--. . '·· ' S i' - 〇. 丨靡.... :::. The heat generating component 200 is provided with a heat sink 201. The heat sink 2 (H is provided with a slot 2011. The heat generating component 200 has a limited temperature, and if the heat generating component _ exceeds the secret temperature when X is made, there is a danger of being damaged, The heating element 200 can be a central processing unit. The support 10 includes a bottom plate 11 and a side plate 13 substantially perpendicular to the wire 11. The bottom plate η opens a plurality of locking holes ιη°, each locking The hole 111 is provided with an internal thread. The side plate 13 defines a first opening 131 and a second opening 133. One side of the side plate 13 protrudes from the boss 132. The boss 132 protrudes from the opposite board. (3) Each of the slabs 135 is provided with a first fixing hole 1351. A ferrule sleeve 136 is disposed between the two fixing plates 135. In an embodiment, the fixing plate 135 is perpendicular to the side plate 13. 100102390 Form number [0011] [0011] [0011] [0011] [0011] The control box 20 is provided with a power source 21, a temperature controller 23 and a relay 25 (as shown in FIG. 4). And a display 26, a power switch 27 and a power indicator light 28 are disposed on the outer surface. The switch 27 is connected to the thermostat 23 and the relay 25, and the thermostat 23 is connected to the relay 25. The control box 2 is fixed to the side plate 13 of the support 10 facing away from the fixing plate 135. One side, and the display 26 passes through the first opening 131', the power switch 27 and the power indicator light 28 pass through the second opening 133. In an embodiment, the relay 25 can be a Solid-state relays. Please also refer to FIG. 2-3, which includes a handle 31, a moving member 33 and a connecting rod 35. The handle 3 includes an operating portion 311 and a fixing portion 313. The end of the fixing portion 3ί3 is fixed to one end of the engaged rotating member buckle. The other end of the fixing portion 313 defines a second fixing hole 3131. The connecting rod 35 is sleeved in the sleeve 136. And the other end is fixed to the other end of the rotating member 33. The other end of the connecting rod buckle fixes the welder 60. A rotating shaft 37 passes through the second fixing hole 3131 and the support 10 The first fixing hole 1351 rotates and fixes the handle μ on the fixing plate 135 of the support 10. The heater is installed inside the welder 6〇, and a cover 80 is disposed outside the welder to prevent the user from contacting the welder μ to cause burns. The welder 60 is provided with a The temperature sensor 9A includes a soldering end 61, and the soldering end 61 is substantially perpendicular to the side panel 13. [0012] The positioning module 70 includes four positioning members 71 and four locking members 73. Each of the positioning members The 71 includes a positioning portion 711 and a first locking portion 7 3 . The positioning portion 711 protrudes upwardly from a limiting piece 7112. The first locking portion 713 is opened 100102390 Form No. Α0101 Page 6/Total 9 Pages ^02004281-0 201231207 A ·/Bone groove 7131. Each of the fasteners 73 includes an abutting portion 731 and a first locking portion 733. The second locking portion 733 is provided with an external thread corresponding to the internal thread opened by the locking hole 1 U . [0013] The positioning module 70 is configured to fix the heating element 2 to the bottom plate 11 of the support 10. When fixed, the heat generating component 200 is placed on the holder 丨0 and below the soldering end 61. The four positioning members 71 are brought close to each other in the four directions of the heat generating component 200. Moving the heating element 200 upward, the lower surface of the heating element 2 is abutted against the positioning member 71, and the four edges of the heating element 2 (10) are opposite to the limiting piece 7112 of the positioning member 71 by:. The first locking portion 733 of the locking member 73 passes through the sliding slot 7131 and the locking hole 111 formed by the locking bracket. The abutting portion 731 abuts against the positioning portion 711 of the positioning member 71. Upper, the heating element 2 is fixed to the bottom plate 11 of the support. [0014] Continuing to refer to FIG. 4, there is shown a functional block diagram of a welding apparatus in accordance with an embodiment of the present invention. The power switch 27 in the control box 20 is connected to the power source 21 for controlling the switch of the power source 21. The power switch 27 is connected to the thermostat 23 and the relay 25 for supplying an operating voltage to the thermostat 23 and the relay 25. The power indicator lamp 28 is connected to the power switch 27 for determining whether the power source 21 is turned on. The relay 25 is connected to the heater for controlling the heater to turn the power source 21 on or off. The heater is coupled to the welder 60 for heating the welder 6 when the power is turned on. The temperature sensor 90 is connected to the soldering device 6〇 and the thermostat for sensing the temperature of the device 6,, the temperature is called _the temperature is transmitted 100102390, the form number A0101, page 7 The temperature controller 23 is handed over on page 19, 1002004281-0 201231207. The thermostat 23 is coupled to the display to sense the temperature by 5%. The temperature transmitted by 90 is displayed on the upper device 2, and the display [0015] is used to solder the thermocouple wire 1GQ to the heat-sensitive element (4) 〇mm2q1, and the thermocouple wire is twisted. (10) Putting the heat dissipation (4) into the slot 2011, and filling the plurality of solder materials 300 in the slot 2011. The solder material 300 is a material having a sleek point lower than a temperature defined by the heat generating component, and the solder material 3 〇〇 may be a steel wire O v pressing the power switch 27 if the power indicator light 28 If it is not lit, it is necessary to check the problem in the circuit; if the power supply refers to the light 28, it indicates that it is connected to the power source 21. At this time, a soldering temperature is set on the thermostat 23, which is equal to or higher than the melting point of the solder material 3〇〇, and lower than the defined temperature of the heat generating component 200. The temperature controller 23 determines the temperature of the temperature sensor 90, and the display of the «degree sensor 90 is displayed by the display. When the temperature of the temperature sensor 9 is lower than the soldering temperature, the thermostat 2.2.3 vocalizes the relay 25 to turn on the power source 21. The heater heats the welder 6〇, and the temperature sensor 90 senses the temperature of the welder 60 and transmits it to the thermostat 23. The display 26 displays the soldering temperature when the temperature of the temperature sensor 90 is equal to the soldering temperature; the thermostat 23 drives the relay 25 to turn off the power source, the heating The device stops heating the welder 60. Referring to FIG. 5, the handle 31 of the operation assembly 30 is pressed in a first direction away from the side panel 13, and the handle 31 is rotated around the rotation shaft 37. 100102390 Form No. A0101 Page 8 of 19 1002004281-0 [(8) 17] 201231207 moves and drives the (four) moving member 33 to rotate in a direction away from the side plate 13. The rotating member 33 applies a downward force to the connecting rod 35 to urge the connecting rod 35 to move downward along the sleeve 136. Until the soldering end 61 of the soldering device 60 abuts against the heat sink 2〇1 of the heat generating component 2〇〇. As a result, the temperature of the soldering device 6 is higher than the melting point of the solder material 3 , and lower than the defined temperature of the heat generating component 2 , so the soldering device 60 will weld the solder material 3 The hydrazine melts to become a liquid state without damaging the heat generating component 200. Rotating the handle 31 in a second direction opposite the first direction causes the connecting rod 35 to move upward. The solder joint 61 is separated from the heat sink 2〇1. Quickly using a flat plate (not shown) to move against the heat sink 201, and smoothing the solder material 300 in a liquid form higher than the heat sink 201 to facilitate mounting a heat sink on the heat sink 201. Wait for the heat sink (not shown). The solder material 300 is re-converted into a solid state. The thermocouple wire 100 is solidified on the heat generating component 200. [0018] In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application according to law. And the equivalent modifications or variations made by those skilled in the art of the present invention are to be included in the following claims. Brief Description of the Drawings [0019] FIG. 1 is an exploded perspective view of a heating device and a thermocouple wire in a preferred embodiment of the welding device of the present invention. Figure 2 is a partial assembled view of Figure 1. Figure 3 is an assembled, isometric view of Figure 1. Form No. 1010101 Page 9 of 19 1002004281-0 201231207 [0022] FIG. 4 is a functional block diagram of the welding apparatus of the present invention for controlling the welding temperature. 5 is another perspective assembled view of FIG. 1. [Main component symbol description] [0024] Thermocouple wire: 100 [0025] Heating element: 200 [0026] Heat sink: 201 [0027] Slotting: 2011 [0028] Support: 10 [0029] Base plate: 11 [0030] Locking hole: 111 [0031] Side panel: 13 [0032] First opening: 1 31 [0033] Boss: 1 3 2 [0034] Second opening: 133 [0035] Fixing plate: 1 3 5 [0036] First fixing hole: 1 3 51 [0037] Sleeve: 136 [0038] Control box: 20 [0039] Power supply: 21 [0040] Thermostat: 23 100102390 Form number A0101 Page 10 / Total 19 pages 1002004281-0 201231207 [0041] Relay: 25 [0042] Display: 26 [0043] Power switch: 27 [0044] Power supply does not light. 2 8 [0045] Operation combination: 30 [0046] Handle: 31 [0047] Operation: 311固定 [0048] Fixing part: 313 [0049] Second fixing hole: 3131 [0050] Rotating member: 33 [0051] Connecting rod: 35 [0052] Shaft: 37 [0053] G Heater: [0054] Welder: 60 [0055] Welding end: 61 [0056] Positioning module: 70 [0057] Positioning member: 71 [0058] Positioning unit: 711 [0059] Limiting piece: 7112 100102390 Form number A0101 Page 11 of 19 02004281-0 201231207 [0060] First locking part: 7 1 3 [0061] Chute: 7131 [0062] Locking: 73 [0063] Abutment: 731 [0064] Second locking part: 733 [0065] ] Cover: 80 [0066] Temperature Sensor: 90 100102390 Form No. A010] Page 12/Total] Page 91002004281-0