JPS5849349B2 - Hot chamber die casting machine - Google Patents
Hot chamber die casting machineInfo
- Publication number
- JPS5849349B2 JPS5849349B2 JP7582276A JP7582276A JPS5849349B2 JP S5849349 B2 JPS5849349 B2 JP S5849349B2 JP 7582276 A JP7582276 A JP 7582276A JP 7582276 A JP7582276 A JP 7582276A JP S5849349 B2 JPS5849349 B2 JP S5849349B2
- Authority
- JP
- Japan
- Prior art keywords
- molten metal
- pump body
- casting machine
- die casting
- hot chamber
- 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
Links
Landscapes
- Structures Of Non-Positive Displacement Pumps (AREA)
- Details Of Reciprocating Pumps (AREA)
Description
【発明の詳細な説明】
本発明は融点の高いアルミニウム系合金等の鋳造に使用
されるホットチャンバー形ダイカスト機(以下HDMと
略記する)に関するもので、特にポンプ本体、鋳造され
る溶融金属(以下溶湯と云う)を効果的に加熱保持し、
効率のよい運転を行うようにしたものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a hot chamber die casting machine (hereinafter abbreviated as HDM) used for casting high melting point aluminum alloys, etc., and particularly relates to a hot chamber die casting machine (hereinafter abbreviated as HDM) used for casting high melting point aluminum alloys, etc. molten metal) is effectively heated and maintained.
This is to ensure efficient operation.
第1図はHDMの概略図を示したもので、ホットチャン
バー形ダイカスト機の金型1を取り付けた固定台20近
くに保温炉3を設置し、同保温炉3の保温鍋4には溶湯
5が貯えられている。Figure 1 shows a schematic diagram of the HDM, in which a heat retention furnace 3 is installed near a fixed table 20 on which a mold 1 of a hot chamber type die casting machine is attached, and a heat retention pot 4 of the heat retention furnace 3 is filled with molten metal. is stored.
固定台2の側面中央より伸びる2本(図にあ・いては後
側の1木のみ示されている。Two trees extend from the center of the side of the fixed base 2 (only one tree on the rear side is shown in the figure).
)のタイパー6にはナット7等の締付機構によってフレ
ーム8が装着され、同フレーム8に取付けたグースネッ
ク9がその大部分を溶湯5中に浸漬して吊り下げられて
いる。) A frame 8 is attached to the typer 6 by a tightening mechanism such as a nut 7, and a gooseneck 9 attached to the frame 8 is suspended with most of it immersed in the molten metal 5.
なp保温鍋4の内面とグースネツク9の外面の溶湯5と
接する部分にはセラミックスのコーティング剤を塗布し
ている。A ceramic coating agent is applied to the inner surface of the heat-insulating pot 4 and the outer surface of the gooseneck 9 in contact with the molten metal 5.
前記グースネック9には上下に摺動するプランジャ10
の嵌合するシリンダ11が押台12を介して固定されて
おり、1たプランジャ10は軸13とカップリング14
を介して油圧シリンダ15のピストン16に連結されて
いる。The gooseneck 9 has a plunger 10 that slides up and down.
A cylinder 11 fitted therein is fixed via a pusher 12, and the other plunger 10 is connected to a shaft 13 and a coupling 14.
It is connected to the piston 16 of the hydraulic cylinder 15 via.
しかしてピストン16の下降に伴いプランジャ10はシ
リンダ11あ・よびグースネック9の通路17中の溶湯
5Aをノズル機構18を介して金型1内に圧送する。As the piston 16 descends, the plunger 10 forces the molten metal 5A in the cylinder 11A and the passage 17 of the gooseneck 9 into the mold 1 through the nozzle mechanism 18.
次いでピストン16が上昇して図の位置へ復帰して一工
程の動作が終わる。Next, the piston 16 rises and returns to the position shown in the figure, completing one step of operation.
このような構成のHDMにかいて、保温炉3の溶湯5の
交換は容易でないので長期間その11の状態で溶湯5が
収納されていると、保温炉3の内面やグースネツク9の
外面など溶湯5と接する部分は溶湯5の浸食を受けて変
形を破損を生じ、同時に溶湯5自体も保温炉3やグース
ネツク9を構成する材料の溶け込みにより汚染される。In an HDM with such a configuration, it is not easy to replace the molten metal 5 in the heat insulating furnace 3, so if the molten metal 5 is stored in the above state for a long period of time, the molten metal may be damaged, such as on the inner surface of the heat insulating furnace 3 or on the outer surface of the gooseneck 9. The portion in contact with the molten metal 5 is eroded by the molten metal 5, causing deformation and damage, and at the same time, the molten metal 5 itself is also contaminated by the melting of the materials constituting the insulating furnace 3 and the gooseneck 9.
こうした事故を防ぐために従来、保温炉3の保温鍋4は
溶湯5が接する内外面にセラミックスのコーティング剤
を塗布していたが、良質なコーティング剤が未だ開発さ
れていない現在では、ダイカスト機の使用者は前記コー
ティング剤を3日〜7日の周期で塗布しているので、H
DMの寿命は短く特殊な用途に限定されていた。To prevent such accidents, conventionally, a ceramic coating agent was applied to the inner and outer surfaces of the insulating pot 4 of the insulating furnace 3 that come into contact with the molten metal 5, but now that a high-quality coating agent has not yet been developed, a die-casting machine is used. Since people apply the coating agent every 3 to 7 days, H
DM had a short lifespan and was limited to special uses.
そこで溶湯と接触するHDMの構成部品の表面を完全な
耐食性にしたが、溶湯の外表面積が多いために溶湯表面
からの放散熱量が犬で溶湯の保温が困難であった。Therefore, the surfaces of HDM components that come into contact with the molten metal were made completely corrosion-resistant, but because the molten metal has a large external surface area, the amount of heat dissipated from the molten metal surface was large, making it difficult to keep the molten metal warm.
本発明はかかる点にかんがみなされたもので、保有され
る溶湯の外表面積を少なくして溶湯の表面からの放散熱
量を極力少なくするとともKE{DMの運転維持費を低
減して付加価値の高いHDMを提供しようとするもので
ある。The present invention was conceived in consideration of these points, and it reduces the outer surface area of the molten metal held to minimize the amount of heat dissipated from the surface of the molten metal, reduces the operation and maintenance cost of KE {DM, and provides high added value. The aim is to provide HDM.
以下、本発明の詳細を図面により説明する。Hereinafter, the details of the present invention will be explained with reference to the drawings.
第2図は本発明の実施例を示すHDMの概略図で、図中
第1図と同一作用のものは同一符号で示して説明を省略
する。FIG. 2 is a schematic diagram of an HDM showing an embodiment of the present invention. In the figure, the same functions as those in FIG.
19は従来のグースネックと保温鍋を一体型にしたポン
プ本体で、同ポンプ本体19は固定台2の側面中央より
伸びる2本(図において後側1本のみ示されている)の
タイパー6にナット7等の締付機構を介して取付けたフ
レーム8に固着されている。Reference numeral 19 denotes a pump body that is a conventional gooseneck and heat-insulating pot integrated.The pump body 19 is attached to two tiepers 6 (only one on the rear side is shown in the figure) extending from the center of the side of the fixed base 2 with nuts. It is fixed to a frame 8 attached via a tightening mechanism such as 7 or the like.
20は多孔質のセラミックス中子で、ポンプ本体19の
なかで溶湯の流れる速度が最も激しい部分に図に示すよ
うにその空孔を溶湯5Aの通路17として予め成形して
ポンプ本体19に鋳ぐるみしている。Reference numeral 20 denotes a porous ceramic core, which is cast in the pump body 19 with holes formed in advance as passages 17 for the molten metal 5A, as shown in the figure, in the part of the pump body 19 where the molten metal flows most rapidly. are doing.
21はポンプ本体19の内面に内張リした耐火物の保護
壁で、耐火物としては、アルミニウム溶湯に浸食されに
くいもので、一般にアルミニウム工業olm係(例えば
、反射炉)で用いる耐火レンガをメジで接合することや
、一般にプラスチック耐火物と呼ばれ施工時に可塑性の
ある耐火物やキャスタブル耐火物、ラミング耐火物を叩
きiから張りつけたりして一体型構造としたポンプ本体
19の内面に収納されるようにあらかじめ成形された耐
火物を用いる。Reference numeral 21 denotes a refractory protective wall lined on the inner surface of the pump body 19. The refractory material is a material that is not easily corroded by molten aluminum, and is generally made of refractory bricks used in aluminum industry (for example, reverberatory furnaces). It is housed in the inner surface of the pump main body 19, which has an integrated structure, by joining together with plastic refractories, or by pounding and pasting plastic refractories, castable refractories, or ramming refractories that are generally called plastic refractories during construction. Use pre-formed refractories.
22は保温炉3に載置されたポットで、同ポット22に
は鉄を浸食しにくい低融点熱媒体例えば低融点ガラス2
3が収納されており、同低融点ガラス23には前記ポン
プ本体19が浸漬されている。Reference numeral 22 denotes a pot placed in the heat insulating furnace 3, and the pot 22 is filled with a low melting point heat medium that does not easily corrode iron, such as low melting point glass 2.
3 is housed therein, and the pump main body 19 is immersed in the low melting point glass 23.
ここで低融点ガラス23の組成としては酸化珪素24優
亜酸化鉛37%、ソーダ灰24φ、炭酸カリ15%のも
のを使用した。Here, the composition of the low melting point glass 23 used was 24% silicon oxide, 37% lead oxide, 24% soda ash, and 15% potassium carbonate.
そして低融点ガラス23がポット21の壁面を介して加
熱されて所定の温度に保温され、さらに低融点ガラス2
3により溶湯5を収納しているポンプ本体19を加熱し
ている。The low melting point glass 23 is then heated through the wall surface of the pot 21 and kept at a predetermined temperature.
3 heats the pump body 19 housing the molten metal 5.
なあ・低融点ガラス23は高温度に卦いて金属酸化物が
溶け込むことがあり、ポット22、ポンプ本体190表
面の酸化層をわずかに浸食するが、溶湯5が金属の表面
を浸食する状態に比較すると桁違いに小さく実用上全〈
支障iい。Hey, when the low melting point glass 23 is exposed to high temperatures, metal oxides may melt into it, slightly eroding the oxide layer on the surfaces of the pot 22 and pump body 190, but this is compared to the state in which molten metal 5 erodes the metal surface. Then, it is incomparably smaller and practically
It's a hindrance.
1たポンプ本体19ぱ保温炉3よりポット22の壁面を
介し低融点ガラス23の攪拌による熱伝達、熱輻射作用
により全体が均一に加熱されているので、ポンプ本体1
9が複雑な形状を有しているにもかかわらず熱応力によ
る変形や割れ等を生ずることはない。The entire pump body 19 is uniformly heated by heat transfer from the insulating furnace 3 through the wall surface of the pot 22 by stirring of the low-melting glass 23 and by heat radiation.
Although 9 has a complicated shape, it does not undergo deformation or cracking due to thermal stress.
24は溶湯5の上方に設けられている輻射型加熱装置で
ある。24 is a radiation heating device provided above the molten metal 5.
なあ・、ボット22、低融点ガラス23を設けずポンプ
本体19の外表面を直接、保温炉3の内壁に設けられた
ヒータ(図示せず)によって加熱する方式が考えられる
が、ポンプ本体19の形状は複雑であり、ポンフ本体1
9を均一な所定の温度に保持することは容易ではZい。By the way, a method can be considered in which the outer surface of the pump body 19 is directly heated by a heater (not shown) provided on the inner wall of the heat insulating furnace 3 without providing the bot 22 and the low melting point glass 23. The shape is complicated, and the ponfu body 1
9 is not easy to maintain at a uniform predetermined temperature.
これはポンプ本体19の表面に多数の温度測定素子を設
け、各部分の温度測定を行い、各部分を別々に加熱する
必要がある等、取扱、保守が容易でなく、製造価格の高
騰等不利な点が多い。This is disadvantageous because it is difficult to handle and maintain, as it requires a large number of temperature measuring elements to be installed on the surface of the pump body 19, and the temperature of each part must be measured and each part must be heated separately. There are many points.
以上説明したように本発明によればポンプ本体19は低
融点ガラス23の温度を1個所で測定して保温炉3のヒ
ータを制御することによりポンプ本体190表面を均一
に加熱することが出米、更にポット22、低融点ガラス
23ぱ安価で長期の使用に耐えるので前述の如く取扱、
保守は容易で運転維持費を安価なものとすることが出来
る。As explained above, according to the present invention, the pump body 19 can uniformly heat the surface of the pump body 190 by measuring the temperature of the low melting point glass 23 at one location and controlling the heater of the heat retention furnace 3. Furthermore, the pot 22 and the low melting point glass 23 are inexpensive and can withstand long-term use, so they are handled as described above.
Maintenance is easy and operation and maintenance costs can be kept low.
第1図は従来の射出ポンプの概略を示す断面図、第2図
は本発明の実施例を示す断面図である。
19・・・ポンプ本体、21・・・保護壁、22・・・
ポット、23・・・低融点ガラス、24・・・加熱装置
。FIG. 1 is a sectional view schematically showing a conventional injection pump, and FIG. 2 is a sectional view showing an embodiment of the present invention. 19... Pump body, 21... Protection wall, 22...
Pot, 23...Low melting point glass, 24...Heating device.
Claims (1)
ンプ本体と、低融点ガラスを収納し前記ポンプ本体を該
低融点ガラスに浸漬して保温炉に載置したポットとから
なり、前記保温炉で低融点ガラスを加熱することにより
前記ポンプ本体を所定の温度に加熱することを特徴とす
るホットチャンバー形ダイカスト機。1 Consisting of a pump body whose inner circumferential surface is lined with a protective wall that will not be eroded by molten metal, and a pot containing low-melting glass, the pump body immersed in the low-melting glass, and placed in an insulating furnace, A hot chamber type die casting machine characterized in that the pump body is heated to a predetermined temperature by heating low melting point glass in a heat retention furnace.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7582276A JPS5849349B2 (en) | 1976-06-26 | 1976-06-26 | Hot chamber die casting machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7582276A JPS5849349B2 (en) | 1976-06-26 | 1976-06-26 | Hot chamber die casting machine |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS531631A JPS531631A (en) | 1978-01-09 |
| JPS5849349B2 true JPS5849349B2 (en) | 1983-11-04 |
Family
ID=13587255
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP7582276A Expired JPS5849349B2 (en) | 1976-06-26 | 1976-06-26 | Hot chamber die casting machine |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS5849349B2 (en) |
-
1976
- 1976-06-26 JP JP7582276A patent/JPS5849349B2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS531631A (en) | 1978-01-09 |
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