JP2758959B2 - Heating equipment - Google Patents
Heating equipmentInfo
- Publication number
- JP2758959B2 JP2758959B2 JP1295390A JP1295390A JP2758959B2 JP 2758959 B2 JP2758959 B2 JP 2758959B2 JP 1295390 A JP1295390 A JP 1295390A JP 1295390 A JP1295390 A JP 1295390A JP 2758959 B2 JP2758959 B2 JP 2758959B2
- Authority
- JP
- Japan
- Prior art keywords
- heating
- hot air
- air blowing
- temperature
- gas supply
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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- Electric Connection Of Electric Components To Printed Circuits (AREA)
Description
【発明の詳細な説明】 産業上の利用分野 本発明は回路基板に電子部品を装着した後クリーム半
田をリフローさせて半田付けするためのリフロー炉等に
好適に利用できる加熱装置に関するものである。Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heating apparatus which can be suitably used in a reflow furnace or the like for reflowing and soldering cream solder after mounting electronic components on a circuit board.
従来の技術 従来、回路基板(以下、基板と略す)に塗布したクリ
ーム半田を、電子部品を装着した後加熱してリフローさ
せるリフロー炉には、熱風による加熱、赤外線による加
熱、あるいは蒸気潜熱を利用した加熱等の各種加熱方式
が採用されている。Conventional technology Conventionally, cream solder applied to a circuit board (hereinafter abbreviated as a board) is heated by an electronic component and then reflowed by heating. The reflow furnace uses heating by hot air, heating by infrared rays, or steam latent heat. Various heating methods such as heating are adopted.
その中で、例えば特開昭63−278668号公報に開示され
ているように、比較的均一な風速で一定温度の熱風を基
板の全面に吹き付けるようにした加熱装置が、ランニン
グコスト、加熱の均一性、生産性等の観点から注目され
ている。Among them, for example, as disclosed in Japanese Patent Application Laid-Open No. 63-278668, a heating device that blows hot air at a constant temperature with a relatively uniform wind speed over the entire surface of a substrate has a running cost and uniform heating. It is attracting attention from the viewpoints of productivity and productivity.
発明が解決しようとする課題 しかしながら、上記のような構成では熱風によって供
給される熱量は基板全面にわたって均一となるが、基板
上には様々な電子部品や機構部品が部分毎に異なった密
度で実装されているため、基板の熱容量分布がばらつい
ており、そのために供給熱量を均一にすると、第7図に
示すように基板の温度分布がばらついてしまうという問
題があった。However, in the above configuration, the amount of heat supplied by the hot air is uniform over the entire surface of the substrate, but various electronic components and mechanical components are mounted on the substrate at different densities for each part. Therefore, there is a problem that the heat capacity distribution of the substrate varies, and if the amount of supplied heat is made uniform, the temperature distribution of the substrate varies as shown in FIG.
そこで、本出願人は先に第8図に示すように、基板21
の搬送路22の上下に加熱手段を内蔵した多数の熱風吹出
ノズル23を配設し、各熱風吹出ノズル23から吹き出す熱
風の温度を各別に制御可能に構成した加熱装置を提案し
た。尚、第8図において、24は送風ファン、25はヒー
タ、26は各熱風吹出ノズル23に対してヒータ25で加熱し
た熱風を供給する熱風供給空間である。ところが、この
ような構成の加熱装置においても各熱風吹出ノズル23か
ら吹き出される熱風によって加熱される加熱部位27の温
度分布は第9図に示すように山型になり、加熱部位27の
中央部と周辺部でかなり大きな温度差が生じてしまうと
いう問題があることが判明した。Accordingly, the present applicant has previously described the substrate 21 as shown in FIG.
A heating device has been proposed in which a large number of hot air blowing nozzles 23 each having a built-in heating means are arranged above and below the transfer path 22 so that the temperature of the hot air blown from each hot air blowing nozzle 23 can be controlled individually. In FIG. 8, reference numeral 24 denotes a blower fan, reference numeral 25 denotes a heater, and reference numeral 26 denotes a hot-air supply space for supplying hot air heated by the heater 25 to each hot-air blowing nozzle 23. However, even in the heating device having such a configuration, the temperature distribution of the heating portion 27 heated by the hot air blown from each hot air blowing nozzle 23 becomes a mountain shape as shown in FIG. It has been found that there is a problem that a considerably large temperature difference occurs in the peripheral portion.
本発明は上記従来の問題点に鑑み、加熱領域の各加熱
部位に対する供給熱量を任意調整できるとともに各加熱
部位における温度分布が均一な加熱装置を提供すること
を目的とする。The present invention has been made in view of the above-described conventional problems, and has as its object to provide a heating device that can arbitrarily adjust the amount of heat supplied to each heating portion in a heating region and has a uniform temperature distribution in each heating portion.
課題を解決するための手段 本発明は、上記目的を達成するため、加熱領域をマト
リックス状に分割して設定した各加熱部位に対向して加
熱手段を備えた熱風吹出手段を配置するとともに、各熱
風吹出手段の加熱手段は各別に制御可能に構成し、各熱
風吹出手段の吹出端に、開口端が加熱部位のほぼ全面に
対向するフードを取付けたことを特徴とする。Means for Solving the Problems To achieve the above object, the present invention arranges a hot air blowing means provided with a heating means in opposition to each heating portion set by dividing a heating area into a matrix, The heating means of the hot air blowing means are individually controllable, and a hood having an open end opposed to almost the entire heating portion is attached to the blowing end of each hot air blowing means.
また、好適には各熱風吹出手段が加熱手段を備えた筒
体にて構成されるとともに、この筒体の熱風吹出側とは
反対側の開口が共通の加熱気体供給空間に接続される。
さらに加熱気体供給空間の加熱気体を吹出させる筒体
が、熱風吹出手段群の周囲に配設される。Preferably, each hot air blowing means is formed of a cylinder having a heating means, and an opening of the cylindrical body opposite to the hot air blowing side is connected to a common heated gas supply space.
Further, a cylinder for blowing out the heated gas in the heated gas supply space is disposed around the hot air blowing means group.
作 用 本発明の上記構成によれば、各別に制御可能な加熱手
段を備えた熱風吹出手段から吹き出される熱風にて各加
熱部位毎に加熱可能であるため、各加熱部位に対する供
給熱量を個別に制御でき、加熱部位間で熱容量が異なる
場合でも均一温度に加熱できるとともに、必要に応じて
加熱部位毎に任意の温度に制御することができ、しかも
開口端が加熱部位のほぼ全面に対向するフードが設けら
れているので、各加熱部位における温度分布が均一にな
る。According to the above configuration of the present invention, since it is possible to heat each heating portion with the hot air blown out from the hot air blowing device having individually controllable heating means, the amount of heat supplied to each heating portion can be individually determined. Even if the heat capacity differs between the heating parts, it can be heated to a uniform temperature, and if necessary, it can be controlled to an arbitrary temperature for each heating part, and the opening end faces almost the entire surface of the heating part. Since the hood is provided, the temperature distribution at each heating portion becomes uniform.
又、各熱風吹出手段に対して共通の加熱気体供給空間
から熱風を供給することによって、各熱風吹出手段では
各加熱部位間の温度調整だけを行えばよいので、コンパ
クトに構成できるとともに温度制御を精度良くかつ応答
性良く行うことができる。さらに、加熱領域の周囲に加
熱気体供給空間の加熱気体を吹き出させることにより、
加熱領域内を外部空間に対して熱的に遮断することがで
き、加熱領域の周辺部でも精度良く温度制御を行える。In addition, by supplying hot air to each hot air blowing means from a common heating gas supply space, each hot air blowing means only needs to adjust the temperature between the heating portions. Accurate and responsive operation can be performed. Furthermore, by blowing out the heating gas in the heating gas supply space around the heating area,
The inside of the heating area can be thermally isolated from the external space, and the temperature can be controlled accurately even in the peripheral part of the heating area.
実施例 以下、本発明の一実施例の加熱装置を第1図〜第6図
を参照しながら説明する。Embodiment Hereinafter, a heating apparatus according to an embodiment of the present invention will be described with reference to FIGS.
第1図、第3図及び第4図において、1は加熱装置内
の加熱領域であり、被加熱物である基板2が適宜搬送手
段にて搬入されて位置決めされている。加熱領域1はマ
トリックス状に分割されて複数の正方形状の加熱部位3
が形成されている。これら各加熱部位3に対応して熱風
吹出手段4が配設され、各加熱部位3にそれぞれ熱風を
吹き付けて加熱するように構成されている。又、熱風吹
出手段4の先端には、その開口端が加熱部位3のほぼ全
面に近接して対向するフード5が装着されている。1, 3 and 4, reference numeral 1 denotes a heating area in the heating device, and a substrate 2 which is an object to be heated is carried in and properly positioned by a transport means. The heating region 1 is divided into a matrix shape and a plurality of square heating portions 3 are formed.
Are formed. Hot air blowing means 4 is provided corresponding to each of the heating portions 3, and is configured to blow hot air to each of the heating portions 3 to heat them. A hood 5 is mounted at the tip of the hot-air blowing means 4 so that the opening end of the hood 5 is close to the entire surface of the heating portion 3 and opposes it.
各熱風吹出手段4は、第5図、第6図に詳細に示すよ
うに、中心部に熱風の送風穴7が形成された筒体6の周
壁部に複数のシーズヒータ等の加熱手段8を軸心に平行
に配設して構成されている。この加熱手段8は、各熱風
吹出手段4型に各別に作動制御可能に構成されている。
さらに筒体6の外周部に沿って温度検出手段9が装着さ
れ、その検出端9aが送風穴7の出口に検出端9aが臨むよ
うに配設されている。そして、図示しない制御手段にて
温度検出手段9による検出温度と所定の設定温度に基づ
いて加熱手段8を作動させるように構成されている。As shown in detail in FIGS. 5 and 6, each hot air blowing means 4 has a heating means 8 such as a plurality of sheathed heaters on a peripheral wall portion of a cylindrical body 6 having a hot air blowing hole 7 formed at a central portion. It is arranged so as to be parallel to the axis. The heating means 8 is configured to be able to control the operation of each of the hot air blowing means 4 individually.
Further, a temperature detecting means 9 is mounted along the outer peripheral portion of the cylindrical body 6, and the detecting end 9 a is disposed so that the detecting end 9 a faces the outlet of the blow hole 7. The heating means 8 is operated by a control means (not shown) based on the temperature detected by the temperature detecting means 9 and a predetermined set temperature.
これら熱風吹出手段4は、第1図、第3図に示すよう
に、加熱領域1と平行に配設された支持板10に筒体6の
熱風吹出端とは反対側端部を固定して支持されている。
又、第3図に示すように、支持板10にて加熱気体供給空
間11が区画形成されており、この加熱気体供給空間11に
筒体6の送風穴7の入口が開口している。加熱気体供給
空間11の一側部にはファン12が配設され、加熱領域1か
ら吸引した加熱気体を加熱気体供給空間11内に送り込む
ように構成され、かつ加熱気体供給空間11への入口部に
は加熱手段13が配設されている。As shown in FIGS. 1 and 3, these hot air blowing means 4 are fixed to a support plate 10 arranged in parallel with the heating area 1 at an end of the cylindrical body 6 opposite to the hot air blowing end. Supported.
As shown in FIG. 3, a heating gas supply space 11 is defined by a support plate 10, and an inlet of a blow hole 7 of the cylindrical body 6 is opened in the heating gas supply space 11. A fan 12 is provided on one side of the heating gas supply space 11 so as to send the heating gas sucked from the heating region 1 into the heating gas supply space 11, and an inlet to the heating gas supply space 11. Is provided with heating means 13.
又、支持板10には、第3図及び第4図に示すように、
加熱領域1の周囲に加熱気体供給空間11内の加熱気体を
吹き出すように加熱気体吹出筒14が配設されている。In addition, as shown in FIGS. 3 and 4,
A heating gas blowing cylinder 14 is provided around the heating area 1 so as to blow the heating gas in the heating gas supply space 11.
以上の構成において、ファン12を駆動すると加熱領域
1から加熱気体が吸引され、加熱手段13にて所定温度に
加熱されて加熱気体供給空間11に送り込まれる。この加
熱気体は各熱風吹出手段4の送風穴7を通り、加熱手段
8にて必要に応じて適当に加熱され、所定の温度の熱風
にされてその出口から吹き出され、フード5を介して各
加熱部位3に吹き付けられ、加熱領域1の各加熱部位3
にそれぞれ各別に設定された温度の熱風が吹き付けられ
る。従って、各加熱部位3、3…間で熱容量が異なる場
合でも均一温度に加熱できるとともに、必要に応じて加
熱部位3毎に任意の温度に制御することができる。さら
に、開口端が加熱部位3のほぼ全面に対向するフード5
が設けられているので、第2図に示すように、各加熱部
位3における温度Tの分布が均一になる。In the above configuration, when the fan 12 is driven, the heating gas is sucked from the heating area 1, heated to a predetermined temperature by the heating means 13, and sent into the heating gas supply space 11. The heated gas passes through the blowing holes 7 of the hot air blowing means 4, is appropriately heated as necessary by the heating means 8, is turned into a hot air of a predetermined temperature, is blown out from its outlet, and is discharged through the hood 5 through the hood 5. Each heating part 3 of the heating area 1 is sprayed on the heating part 3.
The hot air of the temperature set separately for each is blown. Therefore, even when the heat capacity differs between the heating portions 3, 3,..., The heating can be performed at a uniform temperature, and the heating portion 3 can be controlled to an arbitrary temperature as needed. Further, the hood 5 whose open end faces almost the entire surface of the heating portion 3
Are provided, as shown in FIG. 2, the distribution of the temperature T in each heating portion 3 becomes uniform.
又、各熱風吹出手段4には共通の加熱気体供給空間11
から加熱気体が供給されるので、各熱風吹出手段4では
各加熱部位3間の温度調整だけを行えばよいので、コン
パクトに構成できるとともに温度制御を精度良くかつ応
答性良く行うことができる。Further, a common heating gas supply space 11 is provided for each hot air blowing means 4.
Since the heating gas is supplied from the hot air blower, only the temperature adjustment between the respective heating portions 3 needs to be performed in each hot air blowing means 4, so that the configuration can be made compact and the temperature control can be performed with high accuracy and responsiveness.
さらに、加熱領域1の周囲に加熱気体吹出筒14から加
熱気体供給空間11の加熱気体が吹き出されるので、加熱
領域1内が外部空間に対して熱的に遮断され、加熱領域
1の周辺部でも精度良く温度制御を行える。Further, since the heating gas in the heating gas supply space 11 is blown out from the heating gas blowing cylinder 14 around the heating region 1, the inside of the heating region 1 is thermally shut off from the external space, and However, accurate temperature control can be performed.
発明の効果 本発明によれば、各別に制御可能な加熱手段を備えた
熱風吹出手段から吹き出される熱風にて各加熱部位毎に
加熱可能であるため、各加熱部位に対する供給熱量を個
別に制御でき、加熱部位間で熱容量が異なる場合でも均
一温度に加熱できるとともに、必要に応じて加熱部位毎
に任意の温度に制御することができ、しかも開口端が加
熱部位のほぼ全面に対向するフードを設けたことにより
各加熱部位における温度分布を均一にできるという効果
を発揮する。Effect of the Invention According to the present invention, each heating portion can be heated by hot air blown from a hot air blowing device having individually controllable heating means, so that the amount of heat supplied to each heating portion is individually controlled. Even if the heat capacity differs between the heating parts, it can be heated to a uniform temperature, and if necessary, it can be controlled to an arbitrary temperature for each heating part, and the hood whose open end faces almost the entire surface of the heating part Providing such an effect exerts an effect that the temperature distribution in each heating portion can be made uniform.
又、各熱風吹出手段に共通の加熱気体供給空間から熱
風を供給することによって、各熱風吹出手段では各加熱
部位間の温度調整だけを行えばよいので、コンパクトに
構成できるとともに温度制御を精度良くかつ応答性良く
行うことができ、さらに加熱領域の周囲に加熱気体供給
空間の加熱気体を吹き出させることにより、加熱領域内
を外部空間に対して熱的に遮断することができ、加熱領
域の周辺部でも精度の良い温度制御を行えるという効果
を発揮する。Also, by supplying the hot air from the common heating gas supply space to each hot air blowing means, each hot air blowing means only needs to adjust the temperature between the heating parts, so that it is possible to configure compactly and accurately control the temperature. In addition, it is possible to perform the operation with good responsiveness. Further, by blowing out the heating gas in the heating gas supply space around the heating region, the inside of the heating region can be thermally shut off from the external space, and the periphery of the heating region The effect that the temperature control with high accuracy can be performed even in the section is exhibited.
第1図は本発明の一実施例における加熱装置の要部の斜
視図、第2図は同作用説明図、第3図は同部分縦断正面
図、第4図は同横断平面図、第5図は熱風吹出手段の横
断平面図、第6図は第5図のVI−VI矢視縦断面図、第7
図は基板を均一加熱した時の温度分布をマトリックス分
割して表示した温度分布図、第8図は先に提案した加熱
装置の概略構成を示す縦断正面図、第9図は同熱風吹出
手段の作用説明図である。 1……加熱領域 3……加熱部位 4……熱風吹出手段 5……フード 6……筒体 7……送風穴 8……加熱手段 11……加熱気体供給空間 14……加熱気体吹出筒。FIG. 1 is a perspective view of a main part of a heating device according to an embodiment of the present invention, FIG. 2 is an explanatory view of the operation, FIG. 3 is a partially longitudinal front view of the same, FIG. FIG. 6 is a cross-sectional plan view of the hot air blowing means, FIG. 6 is a vertical sectional view taken along the line VI-VI of FIG.
FIG. 8 is a temperature distribution diagram in which the temperature distribution when the substrate is uniformly heated is divided into a matrix and displayed. FIG. 8 is a vertical sectional front view showing a schematic configuration of the previously proposed heating device. FIG. It is an operation explanatory view. DESCRIPTION OF SYMBOLS 1 ... Heating area 3 ... Heating part 4 ... Hot air blowing means 5 ... Hood 6 ... Cylindrical body 7 ... Blowing hole 8 ... Heating means 11 ... Heated gas supply space 14 ... Heated gas blowing cylinder.
フロントページの続き (56)参考文献 特開 平2−303674(JP,A) 特開 昭63−144866(JP,A) 特開 昭64−11070(JP,A) 特開 平3−6890(JP,A) 特開 平3−8565(JP,A) (58)調査した分野(Int.Cl.6,DB名) B23K 1/008 B23K 3/04 H05K 3/34Continuation of front page (56) References JP-A-2-303674 (JP, A) JP-A-63-144866 (JP, A) JP-A-64-11070 (JP, A) JP-A-3-6890 (JP) (A) JP-A-3-8565 (JP, A) (58) Fields investigated (Int. Cl. 6 , DB name) B23K 1/008 B23K 3/04 H05K 3/34
Claims (3)
した各加熱部位に対向して加熱手段を備えた熱風吹出手
段を配置するとともに、各熱風吹出手段の加熱手段は各
別に制御可能に構成し、各熱風吹出手段の吹出端に、開
口端が加熱部位のほぼ全面に対向するフードを取付けた
ことを特徴とする加熱装置。1. A hot air blowing means provided with a heating means is arranged to face each heating portion which is set by dividing a heating area into a matrix, and the heating means of each hot air blowing means can be controlled separately. A heating device characterized in that a hood whose opening end faces substantially the entire heating area is attached to the blowing end of each hot air blowing means.
て構成するとともに、この筒体の熱風吹出側とは反対側
の開口を共通の加熱気体供給空間に接続したことを特徴
とする請求項1記載の加熱装置。2. The method according to claim 1, wherein each of the hot air blowing means is constituted by a cylindrical body provided with a heating means, and an opening of the cylindrical body opposite to the hot air blowing side is connected to a common heating gas supply space. The heating device according to claim 1.
筒体を、熱風吹出手段群の周囲に配設したことを特徴と
する請求項2記載の加熱装置。3. The heating device according to claim 2, wherein a cylinder for blowing out the heating gas from the heating gas supply space is disposed around the hot air blowing means group.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1295390A JP2758959B2 (en) | 1990-01-22 | 1990-01-22 | Heating equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1295390A JP2758959B2 (en) | 1990-01-22 | 1990-01-22 | Heating equipment |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH03216271A JPH03216271A (en) | 1991-09-24 |
JP2758959B2 true JP2758959B2 (en) | 1998-05-28 |
Family
ID=11819640
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1295390A Expired - Lifetime JP2758959B2 (en) | 1990-01-22 | 1990-01-22 | Heating equipment |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2758959B2 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0576680U (en) * | 1992-03-04 | 1993-10-19 | 千住金属工業株式会社 | Preheater for automatic soldering equipment |
JP4802179B2 (en) * | 2007-12-04 | 2011-10-26 | 株式会社日立製作所 | Printed circuit board repair apparatus and method |
US9029740B2 (en) * | 2013-01-15 | 2015-05-12 | Nordson Corporation | Air impingement heater |
JP2017011082A (en) * | 2015-06-22 | 2017-01-12 | 株式会社鈴木 | Reflow furnace |
-
1990
- 1990-01-22 JP JP1295390A patent/JP2758959B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JPH03216271A (en) | 1991-09-24 |
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