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JPH08320014A - Connecting rod and its manufacture - Google Patents

Connecting rod and its manufacture

Info

Publication number
JPH08320014A
JPH08320014A JP14957595A JP14957595A JPH08320014A JP H08320014 A JPH08320014 A JP H08320014A JP 14957595 A JP14957595 A JP 14957595A JP 14957595 A JP14957595 A JP 14957595A JP H08320014 A JPH08320014 A JP H08320014A
Authority
JP
Japan
Prior art keywords
connecting rod
divided
pipe material
division
axis
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.)
Pending
Application number
JP14957595A
Other languages
Japanese (ja)
Inventor
Atsushi Suzuki
篤 鈴木
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yamaha Motor Co Ltd
Original Assignee
Yamaha Motor Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Yamaha Motor Co Ltd filed Critical Yamaha Motor Co Ltd
Priority to JP14957595A priority Critical patent/JPH08320014A/en
Publication of JPH08320014A publication Critical patent/JPH08320014A/en
Pending legal-status Critical Current

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  • Shafts, Cranks, Connecting Bars, And Related Bearings (AREA)

Abstract

PURPOSE: To facilitate manufacture of a connecting rod which has further strength by extending a groove on a division surfaces of a pair of division bodies made of sintered metal, which are prepared through division by a plane along an axis of a connecting rod, and connecting a pipe member in the groove followed by forge welding. CONSTITUTION: A division body 1 is made of sintered metal and previously produced through powder jig to a shape which is divided into two by a plane A-A along an axis O-O of a connecting rod 2. In a forging process, a pipe member 6 is arranged in a groove 4 of the division body 1. One division body 1 is arranged from an upper side of the division body 1 with a division surface 3 being directed downward. The division surfaces 3 of the upper and lower division bodies 1 abut each other. The pipe member 6 is sandwiched between the division bodies 1. The unner and lower paired division bodies 1 are set in a forging machine, and subjected to forging pressure. In mechanical process after forging process, each end of the pipe members is drilled by means of a drill along the axis O-O of the connecting rod 2.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】この発明は、エンジンのピストン
とクランク軸とを連結するコネクティングロッドおよび
その製造方法に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connecting rod for connecting a piston of an engine to a crankshaft and a method for manufacturing the connecting rod.

【0002】[0002]

【従来の技術】一般にコネクティングロッドは、クラン
ク軸側の端部となる大端部とピストンピン側の小端部と
を有し、これらの大端部と小端部との間にはピストンの
冷却等のための給油路をコネクティングロッド内に貫通
して形成することが必要である。
2. Description of the Related Art Generally, a connecting rod has a large end which is an end on the crankshaft side and a small end on the piston pin side, and a piston between the large end and the small end. It is necessary to form an oil supply passage for cooling or the like through the connecting rod.

【0003】また、コネクティングロッドには、エンジ
ンの回転により大きな力が作用するとともに高速で運動
するものであるので、比強度の大きな材料で形成するこ
とがエンジン性能上有利である。
Further, since a large force acts on the connecting rod due to the rotation of the engine and it moves at a high speed, it is advantageous in terms of engine performance to form it with a material having a large specific strength.

【0004】このような状況下におかれるコネクティン
グロッドには、例えば特開平2−129306号公報に
示されるように、クランクシャフト孔の軸線にほぼ垂直
な面で2分割した形状の―対の分割体を燒結用金属粉に
より粉末成形するとともに分割体の分割面に、クランク
シャフト孔からピストンピン孔まで連続する凹溝を形成
し、これら分割体を互いの分割面を衝合するとともに、
凹溝内にロウ材を配置した後、両分割体を衝合した状態
で燒結して両分割体を燒結と同時一体にロウ付けするも
のがある。
The connecting rod placed under such a condition has, for example, as disclosed in Japanese Patent Laid-Open No. 129306/1990, split into two pairs in a shape in which the surface is substantially perpendicular to the axis of the crankshaft hole. The body is powder-molded with a metal powder for sintering, and on the dividing surface of the divided body, a continuous groove is formed from the crankshaft hole to the piston pin hole, and the divided surfaces abut against each other,
After arranging a brazing material in the groove, there is a method in which both divided bodies are sintered in an abutting state and both divided bodies are brazed simultaneously with the sintering.

【0005】[0005]

【発明が解決しようとする課題】このような従来のコネ
クティングロッドにおいては、その凹溝を給油路として
利用できるのでコネクティングロッドの製造が従来より
は容易であるが、エンジンの回転により大きな力が作用
するとロウ材が押しつぶされて給油路が塞がれることが
ある。
In such a conventional connecting rod, the concave groove can be used as an oil supply passage, so that the connecting rod can be manufactured more easily than before, but a large force acts on the rotation of the engine. Then, the brazing material may be crushed and the oil supply passage may be blocked.

【0006】この発明は、このような事情に鑑みてなさ
れたもので、より一層大きな強度を有するコネクティン
グロッドであってその製造が容易なものを提供すること
を目的とするものである。
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a connecting rod having even greater strength and which can be easily manufactured.

【0007】[0007]

【課題を解決するための手段】この目的を達成するため
に、請求項1記載の発明は、焼結金属からなり、概ねコ
ネクティングロッドの軸線に沿った面で2分割した形状
とした一対の分割体であって、少なくとも一方の分割体
の分割面に概ねコネクティングロッドの軸線に沿って延
在する凹溝が形成されたものを有し、前記分割体の凹溝
にパイプ材をはめ込むとともに両分割体の分割面を互い
に衝合させて鍛接することにより前記パイプ材を保持さ
せ、当該パイプ材で大端部の内面と小端部の内面との間
を連通する給油路の少なくとも一部を形成させたことを
特徴とするコネクティングロッドである。
In order to achieve this object, the invention according to claim 1 is made of a sintered metal and is divided into a pair of split parts in a plane substantially along the axis of the connecting rod. A body, in which at least one of the divided bodies is formed with a concave groove extending substantially along the axis of the connecting rod, and the pipe material is fitted into the concave groove of the divided body and both divided The pipe members are held by abutting the divided surfaces of the body against each other and forging them, and at least a part of the oil supply passage that connects the inner surface of the large end portion and the inner surface of the small end portion is formed by the pipe material. It is a connecting rod characterized by having been made.

【0008】また、請求項2記載の発明は、概ねコネク
ティングロッドの軸線に沿った面で2分割した形状とし
た一対の分割体であって、少なくとも一方の分割体の分
割面に概ねコネクティングロッドの軸線に沿って延在す
る凹溝が形成されたもののそれぞれを焼結金属にて形成
し、分割体の前記凹溝に粉体を充填したパイプ材をはめ
込んで両分割体の分割面を互いに衝合させた状態で型鍛
造を行って前記一対の分割体とパイプ材とを一体に接合
するとともに、前記パイプ材の両端部をそれぞれ大端部
あるいは小端部の内面に連なるように開口させ、これら
の開口から前記粉体を外部に排出させて前記パイプ材の
内側を大端部の内面と小端部の内面との間を連通する給
油路の少なくとも一部とすることを特徴とするコネクテ
ィングロッドの製造方法である。
According to the second aspect of the present invention, there is provided a pair of split bodies, each of which has a shape obtained by splitting into two parts along a plane substantially along the axis of the connecting rod, and at least one split body has a split surface of the connecting rod. Each of the grooves formed along the axis is formed of sintered metal, and a pipe material filled with powder is fitted into the grooves of the divided bodies so that the divided surfaces of both divided bodies collide with each other. Mold forging in a combined state to integrally join the pair of divided bodies and the pipe material, and open both end portions of the pipe material so as to be continuous with the inner surface of the large end portion or the small end portion, The connecting is characterized in that the powder is discharged to the outside from these openings, and the inside of the pipe material is made at least a part of an oil supply passage communicating between the inner surface of the large end and the inner surface of the small end. Made of rod It is a method.

【0009】[0009]

【作用】請求項1または2記載の発明によれば、前記の
分割体が焼結金属からなるものであって、これらの分割
体とパイプ材が鍛接されて一体となるものであり、前記
分割体は同時に焼結鍛造品となり、より一層大きな強度
を有するコネクティングロッドを得ることができる。
According to the invention described in claim 1 or 2, the above-mentioned divided bodies are made of sintered metal, and these divided bodies and the pipe material are forged and integrated into one body. At the same time, the body becomes a sintered forged product, and a connecting rod having even greater strength can be obtained.

【0010】また、請求項2に記載したように、粉体を
充填したパイプ材を用いることにより、鍛造圧が作用す
るにもかかわらずパイプ材が変形することが軽減するの
で、給油路としての深孔を比較的容易に形成することが
でき、コネクティングロッドの製造が容易である。
Further, as described in claim 2, by using the pipe material filled with the powder, the deformation of the pipe material is reduced despite the action of the forging pressure. The deep hole can be formed relatively easily, and the connecting rod can be easily manufactured.

【0011】[0011]

【実施例】以下、図面に示す実施例を説明するが、ま
ず、図1から図7に示す第1実施例に関して、説明の便
宜上図4から図7によるコネクティングロッドの製造方
法を中心としつつコネクティングロッドの構造を併せて
説明する。
DESCRIPTION OF THE PREFERRED EMBODIMENTS The embodiments shown in the drawings will be described below. First, regarding the first embodiment shown in FIGS. 1 to 7, for convenience of explanation, the connecting rod will be mainly described with reference to the manufacturing method of the connecting rod. The structure of the rod will also be described.

【0012】図4において、1は分割体である。分割体
1は、コネクティングロッド2の軸線O−Oに沿った面
A−Aで2分割した形状に予め粉末冶金により製造され
たものであり(図2,3参照)、いわゆる焼結金属製で
ある。
In FIG. 4, 1 is a divided body. The divided body 1 is manufactured by powder metallurgy in advance into a shape divided into two along a plane A-A along the axis O-O of the connecting rod 2 (see FIGS. 2 and 3) and is made of so-called sintered metal. is there.

【0013】そして、この分割体1の分割面3には、コ
ネクティングロッド2の軸線O−Oに沿って延在するよ
うに凹溝4が形成されている。
A groove 4 is formed on the dividing surface 3 of the divided body 1 so as to extend along the axis O--O of the connecting rod 2.

【0014】この実施例においては、同一形状に形成さ
れた2つの分割体1の互いの分割面3同士を衝合させた
状態にして接続することにより、所要形状のコネクティ
ングロッド2の外形形状を得ることができる。
In this embodiment, by connecting the divided surfaces 3 of the two divided bodies 1 formed in the same shape in a state of abutting each other, the external shape of the connecting rod 2 having a required shape is obtained. Obtainable.

【0015】このような分割体1を用いてのコネクティ
ングロッド2の製造に際しては、分割体1のまわりの空
間を閉塞充填するように、中子5a,5b,5c,5d
を設置する。これは、この後に行なう鍛造工程において
分割体1が変形するのを防止するためである。このよう
に使用される中子5a,5b,5c,5dは、例えば、
機械加工性が良好な焼結材質のものを使用することが好
ましい。
When manufacturing the connecting rod 2 using such a split body 1, the cores 5a, 5b, 5c, 5d are filled so that the space around the split body 1 is closed and filled.
Is installed. This is to prevent the divided body 1 from being deformed in the subsequent forging step. The cores 5a, 5b, 5c, 5d used in this way are, for example,
It is preferable to use a sintered material having good machinability.

【0016】そして、このように中子5a,5b,5
c,5dの装着された分割体1の前記凹溝4には、パイ
プ材6が配置される。
The cores 5a, 5b, 5 are thus
A pipe material 6 is arranged in the concave groove 4 of the divided body 1 in which c and 5d are mounted.

【0017】この実施例におけるパイプ材6は、その内
部に例えば砂等の粉体Pがいっぱいに充填され、両端を
密封したものである(図6,7参照)。このようなパイ
プ材6を使用するのは、後の鍛造工程において、分割体
1に作用する大きな鍛造圧力によりパイプ材6の断面形
状が変形するのを防止するためである。
The pipe material 6 in this embodiment is filled with powder P such as sand, and the both ends are sealed (see FIGS. 6 and 7). The pipe material 6 is used to prevent the cross-sectional shape of the pipe material 6 from being deformed by a large forging pressure acting on the divided body 1 in the subsequent forging step.

【0018】そして、このような分割体1の上側から別
の分割体1をその分割面3を下向きとして配置し、上下
の分割体1の分割面3同士が互いに衝合した状態とし、
これらの分割体1の間に前記パイプ材6が挟み込まれた
状態とする(図5参照)。
Then, another divided body 1 is arranged from the upper side of the divided body 1 such that the divided surface 3 faces downward, and the divided surfaces 3 of the upper and lower divided bodies 1 abut each other,
The pipe member 6 is sandwiched between these divided bodies 1 (see FIG. 5).

【0019】このような状態とされた上下一対の分割体
1は、次に鍛造機械にセットされ図5に矢印で示すよう
に鍛造圧力が加えられる。なお、このように鍛造される
場合、前記分割体1は当然鍛造に適した所要の温度に加
熱された状態である。
The pair of upper and lower split bodies 1 in such a state is then set in a forging machine and a forging pressure is applied as indicated by an arrow in FIG. When forged in this manner, the divided body 1 is naturally in a state of being heated to a required temperature suitable for forging.

【0020】したがって、前記の状態とされた上下の分
割体1およびパイプ材6は、鍛造工程において所要の温
度下で大きな鍛造圧力により互いに押圧されるので、互
いに接合し、前記上下の分割体1の衝合面にパイプ材6
を挟み込んだ状態で一体の状態に鍛接されたものとな
る。
Therefore, the upper and lower split bodies 1 and the pipe material 6 in the above-described state are pressed against each other by a large forging pressure at a required temperature in the forging step, and thus are joined to each other to form the upper and lower split bodies 1. Pipe material 6 on the abutting surface of
It will be forged into an integrated state with the sandwiched.

【0021】このような鍛造工程においては、焼結金属
製の分割体1に大きな鍛造圧力が作用するから、分割体
1はいわゆる焼結鍛造材料となり、単なる焼結金属に較
べて比強度が高いものとなる。
In such a forging step, a large forging pressure acts on the sintered metal split body 1, so that the split body 1 becomes a so-called sintered forging material and has a higher specific strength than simple sintered metal. Will be things.

【0022】このようにして鍛造工程が終了した後、分
割体1に装着した中子5a,5b,5c,5dは、例え
ばたたき落し等により機械的に除去してコネクティング
ロッド中間品が得られ、このようなコネクティングロッ
ド中間品には所要の機械加工を施して所定の軸受7を装
着してコネクティングロッド2が得られる。
After the forging process is completed in this way, the cores 5a, 5b, 5c, 5d mounted on the split body 1 are mechanically removed by, for example, knocking down, etc. to obtain a connecting rod intermediate product. The intermediate product of such a connecting rod is machined as required and a predetermined bearing 7 is attached thereto to obtain the connecting rod 2.

【0023】鍛造工程後の機械加工においては、図1に
仮想線で示すように、コネクティングロッド2の小端部
および大端部側からコネクティングロッド2の軸線O−
Oに沿って前記パイプ材6の各端部をドリルD等で穿孔
する。
In the machining after the forging process, as shown by the phantom line in FIG. 1, the axis O- of the connecting rod 2 is extended from the small end side and the large end side of the connecting rod 2.
Each end of the pipe member 6 is drilled along the O with a drill D or the like.

【0024】これにより、パイプ材6の内部に封入され
ていた粉体Pを容易に外部に排出することができ、パイ
プ材6の内面側の深さの深い貫通孔が出現する。
Thus, the powder P enclosed in the pipe material 6 can be easily discharged to the outside, and a deep through hole on the inner surface side of the pipe material 6 appears.

【0025】このようにして形成されたコネクティング
ロッド2においては、大端部内面Lおよび小端部内面S
からのそれぞれのドリル孔8と前記パイプ材6の内面の
貫通孔9とによって前記大端部内面Lと小端部内面Sと
の間が直線的に連通されており、これらは大端部内面L
側から小端部内面S側に向けてピストン冷却用オイルを
供給する給油路10として機能するものとなる。
In the connecting rod 2 thus formed, the large end inner surface L and the small end inner surface S are formed.
The large-end inner surface L and the small-end inner surface S are linearly communicated with each other by the respective drill holes 8 and the through-holes 9 on the inner surface of the pipe member 6, and these are connected to the large-end inner surface. L
Side, it functions as an oil supply passage 10 for supplying piston cooling oil from the small end portion inner surface S side.

【0026】次に、図8,9に示す第2実施例を説明す
る。
Next, a second embodiment shown in FIGS. 8 and 9 will be described.

【0027】この第2実施例は、コネクティングロッド
2を形成するための分割体11の形状が前記第1実施例
とは相違し、その他の点では概ね同様である。
The second embodiment is different from the first embodiment in the shape of the split body 11 for forming the connecting rod 2, and is otherwise substantially the same.

【0028】すなわち、この第2実施例の分割体11
は、前記第1実施例と同一形状のコネクティングロッド
2を形成するのに際して、図2および3にB−B線で示
すように前記A−A線に直角に交差する面を分割面3と
したものである。
That is, the divided body 11 of the second embodiment.
When the connecting rod 2 having the same shape as that of the first embodiment is formed, a surface intersecting the AA line at a right angle is defined as a dividing surface 3 as shown by the BB line in FIGS. 2 and 3. It is a thing.

【0029】このような形状の分割体11であっても、
その形状に合致する中子を用いて図9に矢印で示すよう
に分割面3に垂直方向に鍛造圧力を作用させることによ
り前記第1実施例と概ね同様にパイプ材6を用いてコネ
クティングロッド2を容易に製造することができ、コネ
クティングロッド2の給油路10の形成が容易であり、
同時に分割体1が焼結鍛造材料となるので強度も良好で
ある。
Even with the divided body 11 having such a shape,
A connecting rod 2 is formed by using a pipe material 6 in a manner substantially similar to that of the first embodiment by applying a forging pressure in a direction perpendicular to the dividing surface 3 as shown by an arrow in FIG. Can be easily manufactured, the oil supply passage 10 of the connecting rod 2 can be easily formed,
At the same time, the divided body 1 becomes a sintered forging material, so that the strength is also good.

【0030】次に、図10に示す第3実施例を説明す
る。
Next, a third embodiment shown in FIG. 10 will be described.

【0031】この第3実施例は、分割体12の分割面3
の方向は、前記第2実施例と同様であるが、大端部およ
び小端部に透孔が形成されていない点で相違する。
In the third embodiment, the division surface 3 of the division body 12 is used.
The direction of is the same as that of the second embodiment, except that no through hole is formed in the large end and the small end.

【0032】このような分割体12を用いてコネクティ
ングロッド2を製造する場合、鍛造工程の後に、当該部
分に機械加工でそれぞれ透孔を形成することにより大端
部内面Lと小端部内面Sとが形成されることとなる。
In the case of manufacturing the connecting rod 2 using such a divided body 12, after the forging step, through holes are formed in each of the portions by machining so that the large end inner surface L and the small end inner surface S are formed. And will be formed.

【0033】その際、パイプ材6の両端をそれぞれ大端
部側および小端部側の透孔を形成すべき領域内(大端部
内面Lおよび小端部内面Sの内側)にまで延在して位置
させておくことにより、当該機械加工に伴ってパイプ材
6のそれぞれの端部が同時に除去されるので、格別の加
工を行なわずともパイプ材6内の粉体Pの外部への排出
が可能となる利点がある。
At this time, both ends of the pipe member 6 extend into the regions where the through holes on the large end side and the small end side are to be formed (the inside of the large end inner surface L and the small end inner surface S). Since the respective end portions of the pipe material 6 are simultaneously removed by the machining, the powder P in the pipe material 6 is discharged to the outside without special processing. There is an advantage that is possible.

【0034】[0034]

【発明の効果】以上説明したように、請求項1または2
記載の発明によれば、前記の分割体が焼結金属からなる
ものであって、これらの分割体とパイプ材が鍛接されて
一体となるものであり、前記分割体は同時に焼結鍛造品
となり、より一層大きな強度を有するコネクティングロ
ッドを得ることができる。
As described above, claim 1 or 2
According to the invention described above, the divided body is made of a sintered metal, and these divided body and pipe material are forged and integrated into one body, and the divided body simultaneously becomes a sintered forged product. It is possible to obtain a connecting rod having even greater strength.

【0035】また、請求項2に記載したように、粉体を
充填したパイプ材を用いることにより、鍛造圧が作用す
るにもかかわらずパイプ材が変形することが軽減するの
で、給油路としての深孔を比較的容易に形成することが
でき、コネクティングロッドの製造が容易である。
Further, as described in claim 2, by using the pipe material filled with the powder, the deformation of the pipe material is reduced despite the action of the forging pressure. The deep hole can be formed relatively easily, and the connecting rod can be easily manufactured.

【図面の簡単な説明】[Brief description of drawings]

【図1】第1実施例のコネクティングロッドの縦断面図
である。
FIG. 1 is a vertical sectional view of a connecting rod according to a first embodiment.

【図2】第1実施例のコネクティングロッドの横断面図
である。
FIG. 2 is a cross-sectional view of the connecting rod of the first embodiment.

【図3】図1のM矢視図である。FIG. 3 is a view on arrow M of FIG.

【図4】第1実施例における中子の設置状態を示す平面
図である。
FIG. 4 is a plan view showing an installed state of a core in the first embodiment.

【図5】図4のN−N線に沿う断面図である。5 is a cross-sectional view taken along the line NN of FIG.

【図6】パイプ材の一部を破断した側面図である。FIG. 6 is a side view in which a pipe member is partially broken.

【図7】パイプ材の中央断面図である。FIG. 7 is a central sectional view of a pipe material.

【図8】第2実施例の分割体の上面図である。FIG. 8 is a top view of a divided body according to a second embodiment.

【図9】第2実施例の分割体の衝合状態を示す断面図で
ある。
FIG. 9 is a cross-sectional view showing an abutting state of the divided bodies of the second embodiment.

【図10】第3実施例の断面図である。FIG. 10 is a sectional view of a third embodiment.

【符号の説明】[Explanation of symbols]

P 粉体 L 大端部内面 S 小端部内面 O 軸線 1,11,12 分割体 2 コネクティングロッド 4 凹溝 6 パイプ材 8 ドリル孔 10 貫通孔 P powder L inner surface of large end S inner surface of small end O axis 1, 11, 12 split body 2 connecting rod 4 recessed groove 6 pipe material 8 drill hole 10 through hole

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 焼結金属からなり、概ねコネクティング
ロッドの軸線に沿った面で2分割した形状とした一対の
分割体であって、少なくとも一方の分割体の分割面に概
ねコネクティングロッドの軸線に沿って延在する凹溝が
形成されたものを有し、前記分割体の凹溝にパイプ材を
はめ込むとともに両分割体の分割面を互いに衝合させて
鍛接することにより前記パイプ材を保持させ、当該パイ
プ材で大端部の内面と小端部の内面との間を連通する給
油路の少なくとも一部を形成させたことを特徴とするコ
ネクティングロッド。
1. A pair of divided bodies made of a sintered metal and divided into two substantially along a plane along the axis of the connecting rod, wherein at least one of the divided bodies has a division plane substantially along the axis of the connecting rod. A pipe material having a groove extending along the groove, the pipe material is fitted into the groove of the divided body, and the divided surfaces of both divided bodies are abutted against each other for forging to hold the pipe material. A connecting rod characterized in that at least a part of an oil supply passage communicating between the inner surface of the large end portion and the inner surface of the small end portion is formed by the pipe material.
【請求項2】 概ねコネクティングロッドの軸線に沿っ
た面で2分割した形状とした一対の分割体であって、少
なくとも一方の分割体の分割面に概ねコネクティングロ
ッドの軸線に沿って延在する凹溝が形成されたもののそ
れぞれを焼結金属にて形成し、分割体の前記凹溝に粉体
を充填したパイプ材をはめ込んで両分割体の分割面を互
いに衝合させた状態で型鍛造を行って前記一対の分割体
とパイプ材とを一体に接合するとともに、前記パイプ材
の両端部をそれぞれ大端部あるいは小端部の内面に連な
るように開口させ、これらの開口から前記粉体を外部に
排出させて前記パイプ材の内側を大端部の内面と小端部
の内面との間を連通する給油路の少なくとも一部とする
ことを特徴とするコネクティングロッドの製造方法。
2. A pair of split bodies, each of which has a shape obtained by splitting into two parts along a surface substantially along the axis of the connecting rod, wherein at least one split surface has a recess extending substantially along the axis of the connecting rod. Each of the grooves is formed of sintered metal, the pipe material filled with powder is fitted into the concave groove of the divided body, and die forging is performed with the divided surfaces of both divided bodies abutting each other. By doing so, the pair of divided bodies and the pipe material are integrally joined, and both ends of the pipe material are opened so as to be continuous with the inner surface of the large end portion or the small end portion, respectively, and the powder is discharged from these openings. A method for manufacturing a connecting rod, characterized in that the inside of the pipe material is discharged to the outside to form at least a part of an oil supply passage communicating between the inner surface of the large end portion and the inner surface of the small end portion.
JP14957595A 1995-05-24 1995-05-24 Connecting rod and its manufacture Pending JPH08320014A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP14957595A JPH08320014A (en) 1995-05-24 1995-05-24 Connecting rod and its manufacture

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP14957595A JPH08320014A (en) 1995-05-24 1995-05-24 Connecting rod and its manufacture

Publications (1)

Publication Number Publication Date
JPH08320014A true JPH08320014A (en) 1996-12-03

Family

ID=15478198

Family Applications (1)

Application Number Title Priority Date Filing Date
JP14957595A Pending JPH08320014A (en) 1995-05-24 1995-05-24 Connecting rod and its manufacture

Country Status (1)

Country Link
JP (1) JPH08320014A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006077931A (en) * 2004-09-10 2006-03-23 Toyota Motor Corp Connecting rod for internal combustion engine
US8205332B2 (en) 2008-12-08 2012-06-26 Mahle International Gmbh Method of forming a connecting rod from two dissimiliar materials by providing material blanks of dissimiliar material, joining the material blanks and subsequently forming the connecting rod

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006077931A (en) * 2004-09-10 2006-03-23 Toyota Motor Corp Connecting rod for internal combustion engine
US8205332B2 (en) 2008-12-08 2012-06-26 Mahle International Gmbh Method of forming a connecting rod from two dissimiliar materials by providing material blanks of dissimiliar material, joining the material blanks and subsequently forming the connecting rod

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