JP2009036295A - Method for manufacturing vibration-proofing device - Google Patents

Method for manufacturing vibration-proofing device Download PDF

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JP2009036295A
JP2009036295A JP2007200798A JP2007200798A JP2009036295A JP 2009036295 A JP2009036295 A JP 2009036295A JP 2007200798 A JP2007200798 A JP 2007200798A JP 2007200798 A JP2007200798 A JP 2007200798A JP 2009036295 A JP2009036295 A JP 2009036295A
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rubber elastic
elastic body
metal fitting
mounting bracket
reinforcing
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JP4959462B2 (en
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Takanobu Minamino
高伸 南野
Jun Nakano
潤 中野
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Sumitomo Riko Co Ltd
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Sumitomo Riko Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for manufacturing a vibration-proofing device capable of easily manufacturing a plurality of kinds of vibration-proofing devices having different strength at low costs. <P>SOLUTION: After an integral vulcanizing molding vulcanized and adhered is prepared while a first mounting fitting 12 is embedded in a rubber elastic body 15 at one part thereof, the rubber elastic body 15 of the first vulcanizing molding is surrounded by a surrounding fitting 34 and a bottom wall fitting 32 of a second mounting fitting 14 in a non-adhering manner. After the plurality of kinds of reinforcing fittings 52 with different shape and strength are prepared, an arbitrary one is selected from the plural kinds of the reinforcing fittings 52, and fixedly welded to the surrounding fitting 34. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

本発明は、防振装置の製造方法に係り、互いに離隔配置された第一及び第二の取付金具と、かかる第一及び第二の取付金具の間に介装されて、それらを弾性的に連結するゴム弾性体とを有する防振装置の有利な製造方法に関するものである。   The present invention relates to a method for manufacturing a vibration isolator, wherein the first and second mounting brackets are spaced apart from each other, and are interposed between the first and second mounting brackets to elastically connect them. The present invention relates to an advantageous manufacturing method of a vibration isolator having a rubber elastic body to be connected.

従来から、この種の防振装置の一種として、防振されるべき二つ部材にそれぞれ取り付けられた状態下で、径方向に離隔配置された、第一及び第二の取付金具としての内筒金具と外筒金具とをゴム弾性体にて連結してなる、所謂筒型マウントが知られており、これは、自動車のエンジンマウント等として、多く使用されてきている。   Conventionally, as one type of this type of vibration isolator, inner cylinders as first and second mounting brackets, which are spaced apart in the radial direction under the condition that they are respectively attached to two members to be anti-vibrated A so-called cylindrical mount in which a metal fitting and an outer cylinder metal fitting are connected by a rubber elastic body is known, and this has been widely used as an automobile engine mount or the like.

ところで、このような筒型マウントにおいては、一般に、ゴム弾性体が、内筒金具と外筒金具とに対して、それぞれ加硫接着せしめられるようになっているところから、内筒金具と外筒金具とを連結したゴム弾性体に、加硫後の収縮による引っ張り歪みが生じ、それが、ゴム弾性体の耐久性に悪影響を及ぼすことが避けられなかった。それ故、かかる従来の筒型マウントでは、ゴム弾性体の引っ張り歪みを解消して、耐久性の向上を図るために、自動車のエンジンとボデーとの間等に介装せしめる際に、先ず、外筒金具を絞り加工し、その後、ボデー等に固定されるリング状ブラケットに外筒金具を圧入するといった、面倒で、手間の掛かる作業を行なう必要があった。   By the way, in such a cylindrical mount, generally, the rubber elastic body is vulcanized and bonded to the inner cylinder fitting and the outer cylinder fitting, respectively. Tensile strain due to shrinkage after vulcanization occurs in the rubber elastic body connected to the metal fitting, and this inevitably adversely affects the durability of the rubber elastic body. Therefore, in such a conventional cylindrical mount, in order to eliminate the tensile strain of the rubber elastic body and improve the durability, first, when it is inserted between the engine of the automobile and the body, etc. It has been necessary to perform a troublesome and time-consuming work such as drawing the cylindrical fitting and then press-fitting the outer cylindrical fitting into the ring-shaped bracket fixed to the body or the like.

かかる状況下、下記特許文献1には、上記の如き筒型マウントよりも製造が容易な防振装置が、明らかにされている。即ち、そこに開示される防振装置にあっては、ゴム弾性体が、主たる振動入力方向において所定の高さを有するブロック形状を呈しており、エンジン等に取り付けられる、第一の取付金具(内側金具)が、その一部において、ゴム弾性体に対して、その高さ方向と左右方向の両方向に対して直角となる方向に延びるように埋設された状態で、加硫接着されている。また、自動車のボデー等に取り付けられる第二の取付金具(外側金具)が、ゴム弾性体の基部底面を除く左右両側面と先端面を取り囲むように、金属平板をコ字状乃至はU字状に屈曲形成してなる包囲金具と、ゴム弾性体の基部底面に対応した形状部分を少なくとも有する底壁金具とを含んで、構成されている。そして、第一の取付金具が加硫接着されたゴム弾性体が、その全周に亘って、第二の取付金具の包囲金具と底壁金具とにて、非接着で取り囲まれており、以て、第一の取付金具と第二の取付金具とが、それらの間に介装されたゴム弾性体にて弾性的に連結せしめられて、防振装置が構成されている。   Under such circumstances, Patent Document 1 listed below discloses a vibration isolator that is easier to manufacture than the above-described cylindrical mount. That is, in the vibration isolator disclosed therein, the rubber elastic body has a block shape having a predetermined height in the main vibration input direction, and is attached to the engine or the like with a first mounting bracket ( The inner metal fitting is partially vulcanized and bonded to the rubber elastic body so as to extend in a direction perpendicular to both the height direction and the left-right direction. In addition, the metal plate is U-shaped or U-shaped so that the second mounting bracket (outer bracket) mounted on the body of the automobile surrounds the left and right side surfaces and the front end surface excluding the base bottom surface of the rubber elastic body. And a bottom wall fitting having at least a shape portion corresponding to the base bottom surface of the rubber elastic body. The rubber elastic body to which the first mounting bracket is vulcanized and bonded is surrounded by the second mounting bracket and the bottom wall bracket in a non-adhesive manner over the entire circumference. Thus, the first mounting bracket and the second mounting bracket are elastically connected by a rubber elastic body interposed therebetween to constitute a vibration isolator.

このような構造を有する防振装置にあっては、第一の取付金具がゴム弾性体に加硫接着されているものの、ゴム弾性体を取り囲む第二の取付金具が、ゴム弾性体に対して非接着とされているため、ゴム弾性体の加硫後の自由な収縮が可能となって、ゴム弾性体に引っ張り歪みが生ずるようなことが有利に回避され得る。そして、それにより、かかる引っ張り歪みを除去するために、従来の筒型マウント等において行なわれていた外筒金具に対する絞り加工や、外筒金具のリング状ブラケットへの圧入作業を行なう必要が皆無ならしめられ得て、製造工程の簡略化が効果的に図られ得るのである。   In the vibration isolator having such a structure, the first mounting bracket is vulcanized and bonded to the rubber elastic body, but the second mounting bracket surrounding the rubber elastic body is attached to the rubber elastic body. Since the rubber elastic body is not bonded, the rubber elastic body can be freely contracted after vulcanization, and it can be advantageously avoided that tensile deformation occurs in the rubber elastic body. Then, in order to eliminate such tensile strain, there is no need to perform drawing processing on the outer cylinder fitting or press-fitting work of the outer cylinder fitting into the ring-shaped bracket, which has been performed in a conventional cylindrical mount or the like. Therefore, the manufacturing process can be simplified effectively.

ところが、かくの如き従来の非接着タイプの防振装置においては、上記せるように、第二の取付金具の包囲金具が、金属平板を下方に向かって開口するコ字状乃至はU字状に屈曲形成してなる形態、つまり、ゴム弾性体を取り囲んだ状態下において、ゴム弾性体を間に挟んで左右両側にそれぞれ位置するように、互いに対向配置された二つの平板状の側壁部と、それら二つの側壁部の上端部同士を互いに連結する天井壁部とを、一体的に有してなる形態とされているため、特に、上下方向や二つの側壁部の互いの対向方向への入力荷重に対する強度、つまり、二つの側壁部の互いの対向方向の内方や外方への屈曲乃至は曲げ変形(各側壁部の板厚方向への屈曲乃至は曲げ変形)に対する強度が十分に確保され難いといった問題が、内在していた。   However, in such a conventional non-adhesive type vibration isolator, as described above, the surrounding bracket of the second mounting bracket is formed in a U shape or a U shape that opens the metal flat plate downward. Two flat side walls disposed opposite to each other so as to be positioned on both the left and right sides with the rubber elastic body interposed therebetween, in a form formed by bending, that is, in a state surrounding the rubber elastic body, Since the ceiling wall portion that connects the upper end portions of the two side wall portions to each other is integrally formed, in particular, input in the vertical direction or in the direction in which the two side wall portions face each other. Sufficient strength against the load, that is, sufficient strength against bending or bending deformation of the two side walls in the opposite direction to each other or bending (bending or bending deformation of each side wall in the thickness direction). The problem of being difficult to do is inherent .

一方、下記特許文献2には、二つの側壁部のそれぞれにおける幅方向両側の端部が、二つの側壁部の対向方向外方に向かって、略直角に屈曲せしめられることにより、各側壁部に、平板状の補強リブが一体形成され、更に、そのような補強リブが、各側壁部の下端部から、二つの側壁部の互いの対向方向の外方に一体的に延び出すように一体形成された外フランジ部に接続されてなる包囲金具を用い、この包囲金具を、第一の取付金具と底壁金具とが予め加硫接着されたゴム弾性体に対して、その基部底面を除く左右両側面と先端面を取り囲むように組み付けて、目的とする防振装置を製造する手法が、明らかにされている。このような防振装置の製造手法によれば、包囲金具の各側壁部が補強リブにて補強されて、包囲金具、ひいては防振装置全体の強度の向上が図られ得ることとなる。   On the other hand, in Patent Document 2 below, the end portions on both sides in the width direction of each of the two side wall portions are bent at substantially right angles toward the outside in the opposing direction of the two side wall portions. The flat reinforcing ribs are integrally formed, and the reinforcing ribs are integrally formed so as to extend integrally from the lower end portions of the side wall portions outward in the opposite directions of the two side wall portions. The surrounding bracket is connected to the outer flange portion, and the surrounding bracket is attached to the rubber elastic body in which the first mounting bracket and the bottom wall bracket are vulcanized and bonded together, except for the bottom of the base portion. A technique for manufacturing a target vibration isolator by assembling so as to surround both side surfaces and the front end surface has been clarified. According to such a method for manufacturing a vibration isolator, each side wall portion of the surrounding metal fitting is reinforced by the reinforcing ribs, so that the strength of the surrounding metal fitting and thus the whole vibration isolator can be improved.

しかしながら、そのような包囲金具を得るには、平板金具を長さ方向においてコ字状に屈曲せしめ、そして、その後、或いはそれに先立って、平板金具の幅方向両側の端部を直角に立ち上げるように屈曲させるといった、平板金具の同一の被加工部位に対する複数回の曲げ加工を含む、複雑で且つ困難なプレス加工を行う必要があった。そのため、そのようなプレス加工を必要とする従来手法には、包囲金具、ひいては防振装置全体の製造工程が不可避的に煩雑なものとなるといった欠点が、存していた。   However, in order to obtain such a surrounding metal fitting, the flat metal fitting is bent in a U-shape in the length direction, and thereafter, or in advance thereof, the ends on both sides in the width direction of the flat metal fitting are raised at right angles. It is necessary to perform complicated and difficult press work including a plurality of bending processes for the same processed part of the flat metal fitting, such as bending to a flat plate. For this reason, the conventional method requiring such press work has a drawback that the manufacturing process of the surrounding metal fitting and thus the entire vibration isolator is unavoidably complicated.

また、かかる従来手法にて、強度が互いに異なる複数種類の防振装置を製造する場合には、包囲金具として、その成形が容易でないにも拘わらず、補強リブの形状の違い等によって互いに異なる強度とされてなるものの複数種類を準備する必要があり、そのために、装置全体の製造工程が、更に一層煩雑なものとなり、しかも、補強リブの形状によっては、包囲金具をプレス成形するためのプレス装置の変更も余儀なくされて、大きな経済的負担を強いられる恐れさえもあったのである。   In addition, when a plurality of types of vibration isolators having different strengths are manufactured by such a conventional method, the strengths differing from each other due to differences in the shape of the reinforcing ribs, etc., although the molding is not easy as the surrounding metal fittings. It is necessary to prepare a plurality of types of products, and therefore, the manufacturing process of the entire device becomes even more complicated, and depending on the shape of the reinforcing rib, a press device for press-molding the surrounding metal fitting There was even a fear that it would be forced to make a big economic burden.

特開2003−202053号公報JP 2003-202053 A 特開2006−177544号公報JP 2006-177544 A

ここにおいて、本発明は、上述せる如き事情を背景にして為されたものであって、その解決課題とするところは、互いに強度が異なる防振装置の複数種類を、容易に且つ低コストに製造し得る防振装置の製造方法を提供することにある。   Here, the present invention has been made in the background as described above, and the solution is to manufacture a plurality of types of vibration isolators having different strengths easily and at low cost. Another object of the present invention is to provide a method of manufacturing a vibration isolator that can be used.

そして、本発明にあっては、かかる課題の解決のために、その要旨とするところは、互いに離隔配置された第一の取付金具及び第二の取付金具と、該第一の取付金具と該第二の取付金具との間に介装され、それらを弾性的に連結するゴム弾性体とを有してなると共に、該ゴム弾性体が、主たる振動入力方向において所定の高さを有するブロック形状を呈し、更に、前記第一の取付金具が、その一部において、該ゴム弾性体に対して、その高さ方向と左右方向の両方向に対して直角となる方向に延びるように埋設された状態で、加硫接着される一方、前記第二の取付金具が、該ゴム弾性体の基部底面を除く左右両側面と先端面を取り囲むように屈曲形成されてなる包囲金具と、該ゴム弾性体の基部底面に対応した形状部分を少なくとも有する底壁金具とを含んでなると共に、それら包囲金具と底壁金具とが、該ゴム弾性体に対して非接着の状態で、互いに協働して、該ゴム弾性体を全周に亘って取り囲むように構成された防振装置を製造する方法であって、(a)前記第一の取付金具が、その一部において、前記ゴム弾性体に対して、その高さ方向と左右方向の両方向に対して直角となる方向に延びるように埋設された状態で加硫接着されてなる、該第一の取付金具と該ゴム弾性体の一体加硫成形品を準備する工程と、(b)該準備された一体加硫成形品の前記ゴム弾性体を、その全周に亘って、前記第二の取付金具の前記包囲金具と前記底壁金具とにて非接着で取り囲む工程と、(c)前記第二の取付金具を補強する補強金具の互いに形状又は強度が異なる複数種類のものを準備する工程と、(d)該準備された複数種類の補強金具のうちから任意のものを選択して、該選択された補強金具を前記第二の取付金具に溶接固定する工程とを含むことを特徴とする防振装置の製造方法にある。   In the present invention, in order to solve such a problem, the gist of the present invention is that the first mounting bracket and the second mounting bracket that are spaced apart from each other, the first mounting bracket, and the A block shape having a rubber elastic body interposed between the second mounting bracket and elastically connecting them, the rubber elastic body having a predetermined height in the main vibration input direction Further, the first mounting bracket is partially embedded in the rubber elastic body so as to extend in a direction perpendicular to both the height direction and the left-right direction. And the second mounting bracket is bent so as to surround both the left and right side surfaces excluding the base bottom surface and the front end surface of the rubber elastic body, and the rubber elastic body A bottom having at least a shape corresponding to the bottom of the base The surrounding metal fittings and the bottom wall metal fittings cooperate with each other in a non-bonded state with respect to the rubber elastic body so as to surround the rubber elastic body over the entire circumference. A method of manufacturing a structured vibration isolator, wherein: (a) the first mounting bracket is partially in the height direction and the left-right direction with respect to the rubber elastic body. A step of preparing an integrally vulcanized molded product of the first mounting bracket and the rubber elastic body, which is vulcanized and bonded in a state of being embedded in a direction extending at a right angle; and (b) the prepared A step of surrounding the rubber elastic body of the integrally vulcanized molded product with the surrounding metal fitting and the bottom wall metal fitting of the second mounting bracket in a non-adhesive manner over the entire circumference thereof; and (c) the second Prepare multiple types of reinforcing brackets that reinforce the mounting brackets with different shapes or strengths. And (d) selecting any one of the prepared plurality of types of reinforcing metal fittings and welding and fixing the selected reinforcing metal fittings to the second attachment metal fittings. The method of manufacturing the vibration isolator is as follows.

要するに、この本発明に従う防振装置の製造方法にあっては、第二の取付金具の包囲金具や底壁金具とは別個の部材からなる補強金具を、第二の取付金具に溶接固定することによって、第二の取付金具、ひいては装置全体の補強が図られている。しかも、かかる補強金具として、例えば、形状の違いや厚さ、材質等の違いにより互いに異なる強度とされた複数種類のもののうちから任意に選択されたものを用いることによって、第二の取付金具や装置全体の強度を任意に変更し得るようになっており、また、互いに形状が異なるものの、強度が同程度とされた複数種類のもののうちから任意に選択されたものを用いる場合には、例えば、選択された補強金具の第二の取付金具への溶接位置を種々変更すること等によって、第二の取付金具や装置全体の強度を任意に変更し得るようになっている。換言すれば、本発明手法では、互いに強度が異なる複数種類の防振装置を得るに際して、防振装置を構成する部品のうち、補強金具を除く部品、つまり、第一の取付金具がゴム弾性体に加硫接着されてなる一体加硫成形品と、包囲金具及び底壁金具を含む第二の取付金具とを、共通の部品として用いることが可能となっている。   In short, in the method for manufacturing a vibration isolator according to the present invention, the reinforcing bracket made of a member separate from the surrounding bracket and the bottom wall bracket of the second mounting bracket is welded and fixed to the second mounting bracket. Thus, the second mounting bracket, and thus the entire device is reinforced. In addition, as such a reinforcing metal fitting, for example, by using a metal fitting arbitrarily selected from a plurality of types having different strengths due to differences in shape, thickness, material, etc. The strength of the entire apparatus can be arbitrarily changed, and although the shapes are different from each other, when using one arbitrarily selected from a plurality of types having the same strength, for example, The strength of the second mounting bracket or the entire apparatus can be arbitrarily changed by variously changing the welding position of the selected reinforcing bracket to the second mounting bracket. In other words, according to the method of the present invention, when obtaining a plurality of types of vibration isolators having different strengths, the parts constituting the vibration isolator excluding the reinforcing bracket, that is, the first mounting bracket is a rubber elastic body. It is possible to use an integrally vulcanized molded product obtained by vulcanization bonding and a second mounting bracket including a surrounding bracket and a bottom wall bracket as a common component.

このため、本発明に係る防振装置の製造方法においては、従来手法とは異なって、各側壁部の幅方向両側の端部が屈曲せしめられて、補強リブが一体形成された、成形が容易でない包囲金具が、何等用いられておらず、それ故、目的とする防振装置の強度の変更のために、補強リブの形状の違い等によって互いに異なる強度とされた複数種類の包囲金具を準備する必要が、皆無ならしめられ得る。そして、それによって、そのような互いに強度が異なる複数種類の包囲金具を形成するために、複数種類のプレス装置を準備するようなことも、有利に回避され得る。   For this reason, in the method for manufacturing the vibration isolator according to the present invention, unlike the conventional method, the end portions on both sides in the width direction of each side wall portion are bent, and the reinforcing ribs are integrally formed, so that molding is easy. No enclosure metal fittings are used. Therefore, in order to change the strength of the target vibration isolator, multiple types of enclosure metal fittings with different strengths due to differences in the shape of the reinforcing ribs are prepared. There is no need to do that. And thereby, in order to form a plurality of types of surrounding metal fittings having different strengths from each other, a plurality of types of press devices can be advantageously avoided.

なお、本発明に従う防振装置の製造方法の好ましい態様の一つによれば、前記第二の取付金具の前記包囲金具が、前記ゴム弾性体を取り囲んだ状態下において、該ゴム弾性体を間に挟んで左右両側に位置するように、互いに対向配置された二つの側壁部と、それら二つの側壁部のそれぞれにおける該ゴム弾性体の基部に対応位置する部分から、対向方向の外方に向かって一体的に延び出す外フランジ部とを有して構成される一方、前記補強金具が、板金具にて構成されて、該包囲金具の該側壁部と該外フランジ部とに対して、それらを相互に連結する状態で、溶接固定される。   According to one of the preferred embodiments of the manufacturing method of the vibration isolator according to the present invention, the rubber elastic body is interposed in a state where the surrounding metal fitting of the second mounting bracket surrounds the rubber elastic body. The two side wall portions arranged opposite to each other so as to be positioned on both the left and right sides of the two sides, and the portion corresponding to the base of the rubber elastic body in each of the two side wall portions, are directed outward in the facing direction. And the reinforcing metal fitting is formed of a plate metal, and the side wall and the outer flange of the enclosure metal Are fixed to each other by welding.

このような本態様によれば、比較的に簡略な構造において、第二の取付金具、ひいては装置全体を補強金具にて確実に補強して、かかる装置全体の強度の向上が効果的に図られ得る。   According to this aspect, in a relatively simple structure, the second mounting bracket, and thus the entire device, is reliably reinforced by the reinforcing bracket, and the strength of the entire device can be effectively improved. obtain.

さらに、本発明に従う防振装置の製造方法の望ましい別の態様の一つによれば、前記補強金具に係合部が設けられ、該係合部が、前記第一の取付金具の該ゴム弾性体への埋設部分の延出方向両側に位置する該ゴム弾性体の端面の何れか一方に係合せしめられ得るように、該補強金具が、該係合部を、前記第二の取付金具における前記包囲金具の内側方向に向かって延出させた状態で、該第二の取付金具に溶接固定される。   Furthermore, according to another desirable aspect of the manufacturing method of the vibration isolator according to the present invention, the reinforcing bracket is provided with an engaging portion, and the engaging portion is the rubber elasticity of the first mounting bracket. The reinforcing bracket is connected to the engaging portion of the second mounting bracket so that it can be engaged with either one of the end surfaces of the rubber elastic body located on both sides of the extending direction of the embedded portion in the body. In a state of extending toward the inner side of the surrounding metal fitting, the second attachment metal fitting is fixed by welding.

この本態様によれば、目的とする防振装置において、補強金具の係合部を、ゴム弾性体の第二の取付金具内からの抜出し方向において、ゴム弾性体に係合させることが出来、それによって、ゴム弾性体の第二の取付金具内からの抜出しを有効に阻止させることが出来る。そして、その結果として、所望の防振性能が安定的に発揮され得る防振装置を、有利に製造することが可能となる。   According to this aspect, in the target vibration isolator, the engaging portion of the reinforcing metal fitting can be engaged with the rubber elastic body in the direction in which the rubber elastic body is extracted from the second mounting metal fitting. Thereby, it is possible to effectively prevent the rubber elastic body from being pulled out from the second mounting bracket. As a result, it is possible to advantageously manufacture a vibration isolator capable of stably exhibiting a desired vibration isolating performance.

上述の説明から明らかなように、本発明に従う防振装置の製造方法によれば、互いに強度が異なる複数種類の防振装置を、極めて容易に且つ低コストに製造することが出来るのである。   As is apparent from the above description, according to the method for manufacturing a vibration isolator according to the present invention, a plurality of types of vibration isolators having different strengths can be manufactured very easily and at low cost.

以下、本発明を更に具体的に明らかにするために、本発明の実施の形態について、図面を参照しつつ、詳細に説明することとする。   Hereinafter, in order to clarify the present invention more specifically, embodiments of the present invention will be described in detail with reference to the drawings.

先ず、図1乃至図3には、本発明手法に従って製造された防振装置の一例として、主たる振動が上下方向に入力せしめられる自動車用のエンジンマウントが、その正面形態と上面形態と縦断面形態とにおいて、それぞれ示されている。それらの図から明らかなように、エンジンマウント10は、所定距離を隔てて配設された第一の取付金具12と第二の取付金具14とが、それら両金具12,14間に介装されたゴム弾性体15によって弾性的に連結されて、構成されている。   First, FIG. 1 to FIG. 3 show, as an example of an anti-vibration device manufactured according to the method of the present invention, an automobile engine mount in which main vibrations are inputted in the vertical direction, its front form, top form, and longitudinal section form. And are shown respectively. As is apparent from these drawings, the engine mount 10 includes a first mounting bracket 12 and a second mounting bracket 14 that are disposed at a predetermined distance, and are interposed between the brackets 12 and 14. The rubber elastic body 15 is elastically connected to each other.

より詳細には、第一の取付金具12は、ボルト孔13が複数設けられた取付部16と、この取付部16から一体的に延び出す略五角柱状の軸部17とを有して、成っている。   More specifically, the first mounting bracket 12 includes a mounting portion 16 provided with a plurality of bolt holes 13 and a substantially pentagonal columnar shaft portion 17 extending integrally from the mounting portion 16. ing.

また、そのような第一の取付金具12と前記第二の取付金具14との間に介装されるゴム弾性体15は、エンジンマウント10の自動車への装着状態下で、主たる振動入力方向となる図1の上下方向の高さ寸法と、主たる振動入力方向に対して直角な方向となる図1の左右方向の幅寸法とが、略同一寸法とされ、且つかかる高さ方向(図1の上下方向)と幅方向(図1の左右方向)の両方に対して直角な方向となる図1の紙面に垂直な方向の厚さ寸法が、高さ及び幅よりも小さくされた、全体として、略矩形のブロック形状を有している。なお、以下からは、便宜上、ゴム弾性体15の高さ方向を上下方向、幅方向を左右方向、厚さ方向を前後方向と言うこととする。   Further, the rubber elastic body 15 interposed between the first mounting bracket 12 and the second mounting bracket 14 has a main vibration input direction in a state where the engine mount 10 is mounted on an automobile. The height dimension in the vertical direction in FIG. 1 and the width dimension in the left-right direction in FIG. 1 which is a direction perpendicular to the main vibration input direction are substantially the same dimension, and the height direction (in FIG. The thickness dimension in the direction perpendicular to the paper surface of FIG. 1 which is a direction perpendicular to both the vertical direction) and the width direction (left-right direction in FIG. 1) is smaller than the height and width as a whole. It has a substantially rectangular block shape. Hereinafter, for the sake of convenience, the height direction of the rubber elastic body 15 is referred to as the vertical direction, the width direction is referred to as the left-right direction, and the thickness direction is referred to as the front-rear direction.

そして、かかるゴム弾性体15においては、その下側端部を与える基部18に対して、左右方向の両側においてそれぞれ膨出して、該基部18の幅を、基部18から上方に延び出す延出部位20の幅よりも大きく為す二つの肩部22a,22bが、それぞれ形成されている。また、基部18の幅方向中央部には、略台形状の肉抜空所28が、厚さ方向に貫通して延びるように形成されている。これによって、ゴム弾性体15の硬さが適度に柔らかくなるように、チューニングされている。   In the rubber elastic body 15, the base 18 that gives the lower end thereof bulges on both sides in the left-right direction, and the width of the base 18 extends upward from the base 18. Two shoulder portions 22a and 22b which are larger than the width of 20 are formed. Further, a substantially trapezoidal empty space 28 is formed at the center in the width direction of the base portion 18 so as to extend through in the thickness direction. Thus, the rubber elastic body 15 is tuned so that the hardness thereof is moderately soft.

さらに、ゴム弾性体15にあっては、基部18の下側底面となる基部底面24が、水平方向に広がる平坦面にて構成されている。また、かかる基部底面24の左右方向両側端部には、位置決め突起26が、前後方向に連続して延びる突条形態をもって、一体形成されている。   Furthermore, in the rubber elastic body 15, the base bottom surface 24 that is the lower bottom surface of the base portion 18 is configured by a flat surface that extends in the horizontal direction. In addition, positioning protrusions 26 are integrally formed on both side end portions of the base bottom surface 24 in the left-right direction so as to extend continuously in the front-rear direction.

そして、このようなゴム弾性体15の延出部位20に対して、前記せる第一の取付金具12の軸部17が、ゴム弾性体15の厚さ方向に延びるように埋設された状態で、加硫接着されて、一体的に連結されている。つまり、ここでは、ゴム弾性体15と、その上部部位からなる延出部位20に一部が埋設された状態で加硫接着された第一の取付金具12とにて、一体加硫成形品30が、形成されているのである。   And with the extension part 20 of such a rubber elastic body 15, the shaft portion 17 of the first mounting bracket 12 is embedded so as to extend in the thickness direction of the rubber elastic body 15, They are vulcanized and bonded together. That is, here, the integrally vulcanized molded product 30 is composed of the rubber elastic body 15 and the first mounting member 12 that is vulcanized and bonded in a state in which the rubber elastic body 15 is partially embedded in the extended portion 20 that is an upper portion thereof. However, it is formed.

一方、第二の取付金具14は、底壁金具32と包囲金具34とにて、構成されている。底壁金具32は、全体として、ゴム弾性体15の厚さと略同一の幅を有する長手矩形の平板形状を有している。また、この底壁金具32においては、その長さ方向の中間部に、十分に低い高さをもって下方に開口するコ字状位置決め部36が屈曲形成されており、このコ字状位置決め部36の上面が、位置決め突起26が幅方向両側に設けられたゴム弾性体15の基部底面24の形状に対応した形状とされている。更に、かかる底壁金具32の長さ方向の両側端部には、ボルト孔38が、それぞれ一つずつ穿設されている。   On the other hand, the second mounting bracket 14 includes a bottom wall bracket 32 and an enclosure bracket 34. The bottom wall fitting 32 as a whole has a long rectangular flat plate shape having a width substantially the same as the thickness of the rubber elastic body 15. Further, in the bottom wall fitting 32, a U-shaped positioning portion 36 that opens downward with a sufficiently low height is bent at an intermediate portion in the length direction. The upper surface has a shape corresponding to the shape of the base bottom surface 24 of the rubber elastic body 15 in which the positioning protrusions 26 are provided on both sides in the width direction. Further, one bolt hole 38 is formed at each of both end portions in the length direction of the bottom wall fitting 32.

包囲金具34は、底壁金具32と略同一の幅を有する長手矩形の金属板材を、長手方向の中間部分において、十分に高い高さをもって下方に向かって開口するコ字形状を呈するように、厚さ方向に屈曲せしめてなる如き形態を有している。つまり、包囲金具34にあっては、その長手方向の中間部分が、左右方向(長手方向)に所定距離を隔てて対向位置せしめられて、上下方向に延びる左側及び右側側壁部40a,40bと、それら二つの側壁部40a,40bの上端部同士を相互に連結する天井壁部42とを有するコ字状部44とされている一方、その長手方向の両側端部のそれぞれが、ボルト孔46を各々一つずつ有する平板状の左側及び右側取付フランジ部48a,48bとされている。   The encircling metal fitting 34 has a U-shaped shape in which an elongated rectangular metal plate having substantially the same width as the bottom wall metal fitting 32 is opened downward at a sufficiently high height at an intermediate portion in the longitudinal direction. It has a form that is bent in the thickness direction. That is, in the surrounding metal fitting 34, the left and right side wall portions 40a and 40b extending in the up and down direction with the middle portion in the longitudinal direction facing each other with a predetermined distance in the left and right direction (longitudinal direction), While the upper side portions of the two side wall portions 40a and 40b are connected to each other, the U-shaped portion 44 has a ceiling wall portion 42. The flat left and right mounting flange portions 48a and 48b have one each.

また、かかる包囲金具34のコ字状部44は、ゴム弾性体15と略同じか又はそれよりも小さな高さを有すると共に、ゴム弾性体15の基部底面24を除く幅方向の左右両側の側面と先端面(基部底面24とは反対側の上端面)とを取り囲み得る大きさとされており、更に、左側及び右側の各側壁部40a,40bの下側部位には、ゴム弾性体15の基部18の幅方向の両側に膨出して設けられた左右二つの肩部22a,22bに対応した屈曲形状を呈する左側及び右側段部50a,50bが、それぞれ設けられている。なお、各段部50a,50bは、その内面部分の高さが、それぞれ、ゴム弾性体15の各肩部22a,22bの基部底面24からの高さよりも所定寸法小さくされている。   Further, the U-shaped portion 44 of the surrounding metal fitting 34 has a height substantially equal to or smaller than that of the rubber elastic body 15, and side surfaces on both the left and right sides in the width direction excluding the base bottom surface 24 of the rubber elastic body 15. And the front end surface (the upper end surface on the side opposite to the base bottom surface 24) can be surrounded. Further, the base portion of the rubber elastic body 15 is provided at the lower side of the left and right side wall portions 40a and 40b. Left and right side step portions 50a and 50b each having a bent shape corresponding to two left and right shoulder portions 22a and 22b provided to bulge on both sides in the width direction of 18 are provided. In addition, each step part 50a, 50b has a predetermined dimension smaller than the height from the base bottom face 24 of each shoulder part 22a, 22b of the rubber elastic body 15, respectively.

そして、ここでは、そのような包囲金具34のコ字状部44と底壁金具32のコ字状位置決め部36とにて、それら両金具34,32の幅方向に延びる筒状の収容部51が形成されるように、包囲金具34の左側及び右側取付フランジ部48a,48bと底壁金具32の長さ方向の両端部側部分とが、前者を上側にして、互いに重ね合わされて、それら包囲金具34と底壁金具32とが組み付けられている。   In this case, a cylindrical housing portion 51 extending in the width direction of both the metal fittings 34 and 32 is formed by the U-shaped portion 44 of the surrounding metal fitting 34 and the U-shaped positioning portion 36 of the bottom wall metal fitting 32. So that the left and right mounting flange portions 48a, 48b of the surrounding metal fitting 34 and both end portions in the length direction of the bottom wall metal fitting 32 are overlapped with each other with the former facing upward. The metal fitting 34 and the bottom wall metal fitting 32 are assembled.

かくして、第二の取付金具14が、それら包囲金具34と底壁金具32の組付品として、構成されているのである。なお、この第二の取付金具14を構成する包囲金具34と底壁金具32の組付品は、図示されてはいないものの、後述するように、それら包囲金具34と底壁金具32にそれぞれ設けられたボルト孔46,38に、所定の取付ボルトが挿通されて、それが、パワーユニット又はボデーに取り付けられることによって、一体化されるようになっている。   Thus, the second mounting bracket 14 is configured as an assembly of the surrounding bracket 34 and the bottom wall bracket 32. The assembly of the surrounding metal fitting 34 and the bottom wall metal fitting 32 constituting the second mounting metal fitting 14 is not shown, but is provided on each of the surrounding metal fitting 34 and the bottom wall metal fitting 32 as will be described later. Predetermined mounting bolts are inserted into the bolt holes 46 and 38, and they are integrated by being mounted on the power unit or the body.

そして、ここでは、かかる第二の取付金具14の筒状収容部51内に、前記一体加硫成形品30を構成するゴム弾性体15の全体が、包囲金具34のコ字状部44と底壁金具32のコ字状位置決め部36とにて、全周を包囲されて、圧入状態で、収容されている。換言すれば、包囲金具34と底壁金具32とが、ゴム弾性体15に対して非接着の状態で、互いに協働して、ゴム弾性体15を、圧縮させるように、全周に亘って取り囲んで位置せしめられている。   In this case, the entire rubber elastic body 15 constituting the integrally vulcanized molded product 30 is placed in the cylindrical housing portion 51 of the second mounting bracket 14 with the U-shaped portion 44 and the bottom of the surrounding bracket 34. The entire circumference is surrounded by the U-shaped positioning portion 36 of the wall fitting 32 and is accommodated in a press-fitted state. In other words, the surrounding metal fitting 34 and the bottom wall metal fitting 32 cooperate with each other in a non-bonded state with respect to the rubber elastic body 15 so as to compress the rubber elastic body 15 over the entire circumference. Surrounded and positioned.

すなわち、ゴム弾性体15の筒状収容部51内への収容状態下において、ゴム弾性体15の全体が、包囲金具34のコ字状部44の天井壁部42と底壁金具32のコ字状位置決め部36とにて、上下方向に予圧縮せしめられていると共に、基部18の左右両側に膨出形成された二つの肩部22a,22bが、包囲金具34の左側及び右側段部50a,50bと底壁金具32との間で、上下方向に更に圧縮せしめられて、ゴム弾性体15の筒状収容部51内からの容易な抜出しが阻止されるようになっている。また、ゴム弾性体15の内部に埋設された第一の取付金具12の軸部17が、筒状収容部51の軸方向(包囲金具34や底壁金具32の幅方向)に延びるように位置せしめられ、更に、取付部16が、筒状収容部51内から軸方向一方側に突出させて、配置されている。   That is, the rubber elastic body 15 as a whole is in a state of being accommodated in the cylindrical housing portion 51 of the rubber elastic body 15 so that the ceiling wall portion 42 of the U-shaped portion 44 of the surrounding metal fitting 34 and the U-shape of the bottom wall metal fitting 32. The two shoulder portions 22a and 22b which are pre-compressed in the vertical direction by the shape positioning portion 36 and bulge formed on both the left and right sides of the base portion 18 are the left and right step portions 50a and 50a of the surrounding bracket 34, 50b and the bottom wall fitting 32 are further compressed in the vertical direction so that the rubber elastic body 15 is prevented from being easily pulled out from the cylindrical housing portion 51. Further, the shaft portion 17 of the first mounting bracket 12 embedded in the rubber elastic body 15 is positioned so as to extend in the axial direction of the cylindrical housing portion 51 (the width direction of the surrounding bracket 34 and the bottom wall bracket 32). Further, the mounting portion 16 is disposed so as to protrude from the inside of the cylindrical housing portion 51 to one side in the axial direction.

かくして、かかるエンジンマウント10にあっては、第二の取付金具14が、第一の取付金具12が加硫接着されたゴム弾性体15に対して一体的に組み付けられ、以て、第一の取付金具12と第二の取付金具14とが、それらの間に介装されたゴム弾性体15にて、弾性的に連結されるようになっている。そして、図示されてはいないものの、第一の取付金具12が、取付部16の各ボルト孔13に挿通された取付ボルトによって、パワーユニットとボデーのうちの何れか一方に取り付けられる一方、第二の取付金具14が、包囲金具34と底壁金具32の各ボルト孔46,38に挿通された取付ボルトによって、パワーユニットとボデーのうちの何れか他方に取り付けられることによって、パワーユニットをボデーに対して防振支持せしめ得るようになっているのである。   Thus, in the engine mount 10, the second mounting bracket 14 is integrally assembled to the rubber elastic body 15 to which the first mounting bracket 12 is vulcanized and bonded. The mounting bracket 12 and the second mounting bracket 14 are elastically connected by a rubber elastic body 15 interposed therebetween. Although not shown, the first mounting bracket 12 is attached to one of the power unit and the body by the mounting bolt inserted into each bolt hole 13 of the mounting portion 16, while the second The mounting bracket 14 is attached to either the power unit or the body by mounting bolts inserted into the bolt holes 46 and 38 of the surrounding bracket 34 and the bottom wall bracket 32, thereby preventing the power unit from being against the body. It can be supported by vibration.

而して、かくの如き構造とされたエンジンマウント10においては、特に、第二の取付金具14の包囲金具34に対して、4個の第一補強金具52が、溶接固定されている。それら各第一補強金具52は、図4及び図5に示されるように、板状補強部54と板状係合部56とを一体的に有する金属平板から成っている。   Thus, in the engine mount 10 having such a structure, in particular, the four first reinforcing brackets 52 are fixed by welding to the surrounding bracket 34 of the second mounting bracket 14. As shown in FIGS. 4 and 5, each of the first reinforcing metal fittings 52 is made of a metal flat plate integrally having a plate-like reinforcing portion 54 and a plate-like engaging portion 56.

そして、この第一補強金具52の板状補強部54は、全体として、略直角三角形形状を呈し、第一及び第二の取付金具12,14と略同一の厚さと、第二の取付金具14における包囲金具34の側壁部40の長さよりも少しだけ短い垂辺(直角三角形の直角の角部を底辺との間で形成する辺)の長さと、かかる包囲金具34の取付フランジ部48の延出長さよりも所定寸法短い底辺の長さとを有している(図1参照)。   The plate-shaped reinforcing portion 54 of the first reinforcing bracket 52 has a substantially right triangle shape as a whole, has substantially the same thickness as the first and second mounting brackets 12, 14, and the second mounting bracket 14. The length of the vertical side (side that forms a right-angled corner of the right triangle between the bottom side) slightly shorter than the length of the side wall 40 of the surrounding bracket 34 and the extension of the mounting flange portion 48 of the surrounding bracket 34. It has a base length shorter than the extended length by a predetermined dimension (see FIG. 1).

一方、板状係合部56は、板状補強部54と同一の肉厚と、包囲金具34の二つの側壁部40a,40b同士の間の距離の半分よりも所定寸法短い長さとを有する狭幅の長手平板形状を呈している。そして、板状補強部54の垂辺を与える側面の底辺側の部分に、底辺と平行に延びるようにして、一体的に突出形成されている。   On the other hand, the plate-like engagement part 56 has the same thickness as that of the plate-like reinforcing part 54 and a length that is shorter by a predetermined dimension than half of the distance between the two side wall parts 40a, 40b of the surrounding metal fitting 34. It has a long and flat plate shape. Further, the plate-like reinforcing portion 54 is integrally protruded and formed at the bottom side portion of the side surface that provides the vertical side so as to extend in parallel with the bottom side.

そして、図1及び図2に示される如く、そのような第一補強金具52の4個のもののそれぞれが、包囲金具34の左側及び右側取付フランジ部48a,48bのそれぞれの先端側の幅広部位の上面における幅方向両端縁部に、板状補強部54の底辺を与える側面を重ね合わせると共に、左側及び右側の各側壁部40a,40bの幅方向両側の端面に対して、板状補強部54の厚さ方向一方の面における垂辺に沿って延びる端縁部を重ね合わせた状態で配置されて、かかる包囲金具34の各取付フランジ部48や各側壁部40に対して、それらへの重合せ部位において溶接固定されている。つまり、4個の第一補強金具52のうちの2個が、包囲金具34の左側側壁部40aと左側取付フランジ部48aの幅方向両端部同士を互いに連結するように、また、残りの2個の第一補強金具52が、包囲金具34の右側側壁部40bと右側取付フランジ部48bの幅方向両端部同士を互いに連結するように、包囲金具34に対して、板状補強部54においてそれぞれ溶接されているのである。   As shown in FIGS. 1 and 2, each of the four first reinforcing metal fittings 52 has a wide portion at the front end side of each of the left and right mounting flange portions 48a and 48b of the surrounding metal fitting 34. The side surfaces that provide the bottom side of the plate-like reinforcing portion 54 are overlapped with the widthwise both ends of the upper surface, and the plate-like reinforcing portion 54 Arranged in a state where end edges extending along the vertical sides on one surface in the thickness direction are overlapped with each other, the mounting flange portions 48 and the side wall portions 40 of the surrounding metal fitting 34 are superposed on them. It is fixed by welding at the site. That is, two of the four first reinforcing metal fittings 52 connect the left side wall portion 40a and the left mounting flange portion 48a of the surrounding metal fitting 34 to each other in the width direction, and the remaining two pieces. The first reinforcing metal fitting 52 is welded to the surrounding metal fitting 34 at the plate-like reinforcing portion 54 so that the right side wall portion 40b and the right mounting flange portion 48b of the surrounding metal fitting 34 are connected to each other in the width direction. It has been done.

かくして、ここでは、例えば、外力によって、包囲金具34の左側側壁部40aと左側取付フランジ部48aとの間に形成される角部の角度が小さくなったり、大きくなったりするように、つまり、それら左側側壁部40aと左側取付フランジ部48aとが互いに接近乃至は離隔するように、包囲金具34が曲げ変形することや、左側側壁部40aと左側取付フランジ部48aのそれぞれが長さ方向の中間部で曲げ変形することが防止されている。また、それと同様に、右側側壁部40bと右側取付フランジ部48bとが互いに接近乃至は離隔するように、包囲金具34が曲げ変形することや、右側側壁部40bと右側取付フランジ部48bのそれぞれが長さ方向の中間部で曲げ変形することが防止されている。更に、底壁金具32の左側及び右側取付フランジ部48a,48bとの重合せ部分が曲げ変形することも、防止されている。そして、これによって、包囲金具34のみならず、第二の取付金具14の全体の強度が、効果的に高められている。   Thus, in this case, for example, the angle of the corner formed between the left side wall portion 40a and the left mounting flange portion 48a of the surrounding metal fitting 34 is reduced or increased by an external force, that is, those The surrounding metal fitting 34 is bent and deformed so that the left side wall portion 40a and the left side mounting flange portion 48a approach or separate from each other, and the left side wall portion 40a and the left side mounting flange portion 48a are intermediate portions in the length direction. This prevents bending deformation. Similarly, the surrounding metal fitting 34 is bent and deformed so that the right side wall portion 40b and the right side mounting flange portion 48b are close to or separated from each other, and each of the right side wall portion 40b and the right side mounting flange portion 48b is Bending deformation at the intermediate portion in the length direction is prevented. Further, bending of the overlapping portions of the bottom wall fitting 32 with the left and right mounting flange portions 48a and 48b is also prevented. As a result, not only the surrounding bracket 34 but also the entire strength of the second mounting bracket 14 is effectively increased.

また、かかる第一補強金具52にあっては、上記の如き包囲金具34への溶接固定状態下で、板状係合部56が、左側及び右側側壁部40a,40bの対向方向の内側に突出せしめられて、それら両側壁部40a,40bの間に配置されたゴム弾性体15の厚さ方向の端面に対して、接触乃至は対向位置せしめられている。換言すれば、左側側壁部40aの幅方向両側にそれぞれ溶接固定された第一補強金具52の板状係合部56同士と、右側側壁部40bの幅方向両側にそれぞれ溶接固定された第一補強金具52の板状係合部56同士とが、それぞれ、ゴム弾性体15の厚さ方向の両側に、ゴム弾性体15を間に挟んで、固定的に配置されている。これによって、各第一補強金具52の板状係合部56が、ゴム弾性体15に対して、第二の取付金具14のコ字状部44内からの抜出し方向において係合されるか若しくは係合可能とされ、以て、ゴム弾性体15のコ字状部44内からの抜出しが、各第一補強金具52の板状係合部56にて、有効に阻止され得るようになっている。   Further, in the first reinforcing metal fitting 52, the plate-like engaging portion 56 projects inward in the opposing direction of the left and right side wall portions 40a and 40b under the state of being fixed to the surrounding metal fitting 34 as described above. The rubber elastic body 15 disposed between the both side walls 40a and 40b is brought into contact with or opposed to the end face in the thickness direction. In other words, the plate-like engagement portions 56 of the first reinforcing metal fitting 52 that are welded and fixed to both sides in the width direction of the left side wall portion 40a and the first reinforcement that are welded and fixed to both sides in the width direction of the right side wall portion 40b. The plate-like engaging portions 56 of the metal fitting 52 are fixedly disposed on both sides in the thickness direction of the rubber elastic body 15 with the rubber elastic body 15 interposed therebetween. As a result, the plate-like engaging portions 56 of the first reinforcing metal fittings 52 are engaged with the rubber elastic body 15 in the direction of extraction from the U-shaped portion 44 of the second attachment metal fitting 14, or Thus, the rubber elastic body 15 can be effectively prevented from being pulled out of the U-shaped portion 44 by the plate-shaped engaging portion 56 of each first reinforcing bracket 52. Yes.

次に、図6及び図7には、本発明手法に従って製造された防振装置の別の例としての自動車用のエンジンマウント60が、正面形態と上面形態とにおいて、それぞれ示されている。それらの図から明らかなように、本例に係るエンジンマウント60にあっては、第一の取付金具12と第二の取付金具14とが、それらの間に介装されたゴム弾性体15にて弾性的に連結されてなる基本構造を有し、第二の取付金具14の包囲金具34に溶接固定される第二補強金具62の形状と包囲金具34への溶接位置以外は、図1乃至図3に示される前例のエンジンマウント10と略同一の構造とされている。なお、本例に関しては、前例のエンジンマウント10と同様な構造とされた部材及び部位について、図1乃至図3と同一の符号を付すことにより、その詳細な説明は省略した。   Next, FIG. 6 and FIG. 7 show an automobile engine mount 60 as another example of the vibration isolator manufactured according to the method of the present invention in a front form and a top form, respectively. As is clear from these drawings, in the engine mount 60 according to this example, the first mounting bracket 12 and the second mounting bracket 14 are attached to the rubber elastic body 15 interposed therebetween. 1 to FIG. 1 except for the shape of the second reinforcing bracket 62 welded and fixed to the surrounding bracket 34 of the second mounting bracket 14 and the welding position to the surrounding bracket 34. The structure is substantially the same as the engine mount 10 of the previous example shown in FIG. In addition, about this example, about the member and site | part made into the same structure as the engine mount 10 of a previous example, the detailed description was abbreviate | omitted by attaching | subjecting the same code | symbol as FIG. 1 thru | or FIG.

すなわち、エンジンマウント60にあっては、第一の取付金具12が、取付部16と軸部17とからなり、ゴム弾性体15に対して、軸部17が埋設されて、加硫接着されている。そして、それら第一の取付金具12とゴム弾性体15とにて、一体加硫成形品(30)が構成されている。また、第二の取付金具14が、底壁金具32と包囲金具34とを有し、それらが互いに重ね合わされて、組み付けられてなる組付品にて、構成されている。   That is, in the engine mount 60, the first mounting bracket 12 includes the mounting portion 16 and the shaft portion 17. The shaft portion 17 is embedded in the rubber elastic body 15 and vulcanized and bonded. Yes. The first mounting bracket 12 and the rubber elastic body 15 constitute an integrally vulcanized molded product (30). The second mounting bracket 14 includes a bottom wall bracket 32 and an encircling bracket 34, and is configured by an assembly product in which they are overlapped and assembled.

そして、ここでは、第二の取付金具14の包囲金具34に溶接固定される第二補強金具62が、図8及び図9に示されるように、上底と下底とそれらを繋ぐ二つの斜辺とを有する略台形状の金属平板からなる板状補強部64と、長手矩形状を呈する狭幅の金属平板からなる板状係合部66と、それら板状補強部64と板状係合部66とを相互に連結する板状連結部68とを一体的に有している。また、板状連結部68は、板厚方向において略S字状に屈曲せしめられており、それによって、かかる板状連結部68にて連結された板状補強部64と板状係合部66とが、第二補強金具62の平面視において、板厚方向に隣り合って互いに平行に延びるように位置せしめられている。なお、この第二補強金具62の厚さ及び全体の大きさは、前例における第一補強金具52の厚さ及び全体の大きさと、略同一とされている。   And here, as shown in FIG.8 and FIG.9, the 2nd reinforcement metal fitting 62 fixed by welding to the surrounding metal fitting 34 of the 2nd attachment metal fitting 14 and two oblique sides which connect them are shown. A plate-like reinforcing portion 64 made of a substantially trapezoidal metal flat plate, a plate-like engaging portion 66 made of a narrow metal plate having a long rectangular shape, and the plate-like reinforcing portion 64 and the plate-like engaging portion. And a plate-like connecting portion 68 that connects the two members 66 to each other. The plate-like connecting portion 68 is bent in a substantially S shape in the plate thickness direction, whereby the plate-like reinforcing portion 64 and the plate-like engaging portion 66 connected by the plate-like connecting portion 68. Are positioned so as to be adjacent to each other in the plate thickness direction and extend parallel to each other in a plan view of the second reinforcing metal fitting 62. The thickness and overall size of the second reinforcing bracket 62 are substantially the same as the thickness and overall size of the first reinforcing bracket 52 in the previous example.

そして、図6及び図7に示されるように、エンジンマウント60においては、上記の如き構造とされた第二補強金具62の4個のもののそれぞれが、包囲金具34の左側及び右側取付フランジ部48a,48bのそれぞれの先端側の幅広部位の上面における幅方向両端縁部に、板状補強部64の二つの斜辺のうちの一方を与える側面を重ね合わせると共に、左側及び右側の各側壁部40a,40bの外面における幅方向両端縁部に対して、板状補強部64の他方の斜辺を与える側面を重ね合わせた状態で配置されて、かかる包囲金具34の各取付フランジ部48や各側壁部40に対して、それらへの重合せ部位において溶接固定されている。つまり、4個の第二補強金具62のうちの2個が、包囲金具34の左側側壁部40aと左側取付フランジ部48aの幅方向両端部同士を互いに連結するように、また、残りの2個の第二補強金具62が、包囲金具34の右側側壁部40bと右側取付フランジ部48bの幅方向両端部同士を互いに連結するように、包囲金具34に対して、板状補強部64においてそれぞれ溶接されているのである。   As shown in FIGS. 6 and 7, in the engine mount 60, each of the four of the second reinforcing brackets 62 configured as described above is provided on the left and right mounting flange portions 48a of the surrounding bracket 34. , 48b, the side surfaces of one of the two oblique sides of the plate-like reinforcing portion 64 are overlapped with both edge portions in the width direction on the upper surface of the wide portion on the front end side of each of the left and right side portions 40a, 40b is arranged in such a manner that the other side of the plate-shaped reinforcing portion 64 is superimposed on the both edges in the width direction on the outer surface of the outer surface 40b, and each mounting flange portion 48 or each side wall portion 40 of the surrounding metal fitting 34 is disposed. On the other hand, they are welded and fixed at the site where they are superposed. That is, two of the four second reinforcing brackets 62 connect the left side wall portion 40a and the left mounting flange portion 48a of the surrounding bracket 34 to each other in the width direction, and the remaining two The second reinforcing metal fitting 62 is welded to the surrounding metal fitting 34 at the plate-like reinforcing portion 64 so that the right side wall portion 40b and the right mounting flange portion 48b of the surrounding metal fitting 34 are connected to each other in the width direction. It has been done.

かくして、本例のエンジンマウント60にあっても、前例と同様に、左側側壁部40aと左側取付フランジ部48aとが、或いは右側側壁部40bと右側取付フランジ部48bとが、互いに接近乃至は離隔するように曲げ変形することや、左側及び右側側壁部40a,40bと左側及び右側取付フランジ部48a,48bのそれぞれが、長さ方向の中間部で曲げ変形することが防止されている。また、底壁金具32の左側及び右側取付フランジ部48a,48bとの重合せ部分が曲げ変形することも、防止されている。そして、これによって、包囲金具34のみならず、第二の取付金具14の全体の強度が、効果的に高められている。   Thus, even in the engine mount 60 of this example, as in the previous example, the left side wall portion 40a and the left side mounting flange portion 48a, or the right side wall portion 40b and the right side mounting flange portion 48b are close to or separated from each other. Thus, the left and right side wall portions 40a and 40b and the left and right side mounting flange portions 48a and 48b are prevented from being bent and deformed at intermediate portions in the length direction. Further, bending of the overlapping portions of the bottom wall fitting 32 with the left and right mounting flange portions 48a and 48b is also prevented. As a result, not only the surrounding bracket 34 but also the entire strength of the second mounting bracket 14 is effectively increased.

しかも、ここでは、各第二補強金具62の板状補強部64が、長さ方向の両側にそれぞれ位置する側面において、包囲金具34の側壁部40の外面と取付フランジ部48の上面のそれぞれに対して重ね合わされて、溶接固定されている。そのため、例えば、前例のように、各第二補強金具62の板状補強部64が、包囲金具34の側壁部40の幅方向両側に位置する側面と取付フランジ部48の上面のそれぞれに対して重ね合わされて、溶接固定される場合とは異なって、板状補強部64の溶接固定により高められる包囲金具34の強度が、第二補強金具62の包囲金具34に対する接合強度に左右されることなく、板状補強部64が有する剛性に大きく依存せしめられていることで、十分に大きくされている。そして、それにより、本例のエンジンマウント60においては、前例のエンジンマウント10よりも大きな強度が、有利に確保され得るようになっている。   In addition, here, the plate-like reinforcing portions 64 of the second reinforcing metal fittings 62 are respectively provided on the outer surface of the side wall portion 40 of the surrounding metal fitting 34 and the upper surface of the mounting flange portion 48 on the side surfaces located on both sides in the length direction. They are overlapped and fixed by welding. Therefore, for example, as in the previous example, the plate-like reinforcing portions 64 of the second reinforcing metal fittings 62 are respectively located on the side surfaces located on both sides in the width direction of the side wall portion 40 of the surrounding metal fitting 34 and the upper surfaces of the mounting flange portions 48. Unlike the case of being overlapped and fixed by welding, the strength of the surrounding metal fitting 34 that is enhanced by welding and fixing the plate-like reinforcing portion 64 is not affected by the joining strength of the second reinforcing metal fitting 62 to the surrounding metal fitting 34. It is made large enough by being made to depend greatly on the rigidity which the plate-shaped reinforcement part 64 has. As a result, the engine mount 60 of the present example can advantageously ensure a greater strength than the engine mount 10 of the previous example.

また、かかる第二補強金具62にあっては、上記の如き包囲金具34への溶接固定状態下で、板状係合部66が、左側及び右側側壁部40a,40bの対向方向の内側に突出せしめられて、それら両側壁部40a,40bの間に配置されたゴム弾性体15の厚さ方向の端面に対して、接触乃至は対向位置せしめられている。換言すれば、左側側壁部40aの幅方向両側にそれぞれ溶接固定された第二補強金具62の板状係合部66同士と、右側側壁部40bの幅方向両側にそれぞれ溶接固定された第二補強金具62の板状係合部66同士とが、それぞれ、ゴム弾性体15の厚さ方向の両側に、ゴム弾性体15を間に挟んで、固定的に配置されている。これによって、各第二補強金具62の板状係合部66が、ゴム弾性体15に対して、第二の取付金具14のコ字状部44内からの抜出し方向において係合されるか若しくは係合可能とされ、以て、ゴム弾性体15のコ字状部44内からの抜出しが、各第二補強金具62の板状係合部66にて、有効に阻止され得るようになっている。   Further, in the second reinforcing metal fitting 62, the plate-like engaging portion 66 projects inward in the facing direction of the left and right side wall portions 40a and 40b under the state of being fixed to the surrounding metal fitting 34 as described above. The rubber elastic body 15 disposed between the both side walls 40a and 40b is brought into contact with or opposed to the end face in the thickness direction. In other words, the plate-like engaging portions 66 of the second reinforcing metal fittings 62 that are welded and fixed to both sides in the width direction of the left side wall portion 40a and the second reinforcements that are welded and fixed to both sides of the right side wall portion 40b in the width direction. The plate-like engaging portions 66 of the metal fitting 62 are fixedly disposed on both sides in the thickness direction of the rubber elastic body 15 with the rubber elastic body 15 interposed therebetween. As a result, the plate-like engaging portions 66 of the second reinforcing metal fittings 62 are engaged with the rubber elastic body 15 in the direction of extraction from the U-shaped portion 44 of the second mounting metal fitting 14 or Thus, the rubber elastic body 15 can be effectively prevented from being pulled out of the U-shaped portion 44 by the plate-shaped engaging portion 66 of each second reinforcing metal fitting 62. Yes.

そして、図示されてはいないものの、かくの如き構造とされたエンジンマウント60にあっても、パワーユニットとボデーのうちの何れか一方に、第一の取付金具12が取り付けられる一方、それらのうちの何れか他方に、第二の取付金具14が取り付けられることによって、パワーユニットをボデーに対して防振支持せしめ得るようになっているのである。   Although not shown, even in the engine mount 60 having such a structure, the first mounting bracket 12 is attached to either the power unit or the body, By attaching the second mounting bracket 14 to either one, the power unit can be supported in a vibration-proof manner with respect to the body.

ところで、上記の如く、第二の取付金具14に対して、第一補強金具52と第二補強金具62のうちの何れかが溶接固定されることにより、互いに異なる強度を有するように構成された2種類のエンジンマウント10,60を製造する際には、その作業が、例えば、以下の手順に従って進められることとなる。   By the way, as described above, one of the first reinforcing bracket 52 and the second reinforcing bracket 62 is welded and fixed to the second mounting bracket 14 so as to have different strengths. When the two types of engine mounts 10 and 60 are manufactured, the work is performed according to the following procedure, for example.

すなわち、先ず、図4及び図5に示される如く、略三角形状の板状補強部54を有する第一補強金具52の4個と、図8及び図9に示される如く、略台形状の板状補強部64を有する第二補強金具62の4個とが、それぞれ成形されて、準備される。なお、第一補強金具52は、例えば、その外形形状と同一形状の刃先を有するパンチとダイとを用いて、金属平板に対して、プレス成形による公知の打抜き加工を行うこと等により、容易に得られる。また、第二補強金具62は、例えば、その外形形状と同一形状の刃先を有するパンチとダイとを用いて、金属平板に対して、プレス成形による公知の打抜き加工行った後、かかる打抜き加工品の板状連結部68に対して、プレス成形による公知の曲げ加工を1回だけ行うこと等により、容易に得られることとなる。   That is, first, as shown in FIG. 4 and FIG. 5, four first reinforcing metal fittings 52 each having a substantially triangular plate-shaped reinforcing portion 54 and a substantially trapezoidal plate as shown in FIG. 8 and FIG. Four of the second reinforcing fittings 62 having the shape reinforcing portions 64 are respectively formed and prepared. The first reinforcing bracket 52 can be easily obtained by, for example, performing a known punching process by press molding on a metal flat plate using a punch and a die having a cutting edge having the same shape as the outer shape. can get. In addition, the second reinforcing metal fitting 62 is, for example, a punched product obtained by performing a known punching process by press molding on a metal flat plate using a punch and a die having a cutting edge having the same shape as the outer shape. This plate-shaped connecting portion 68 is easily obtained by performing a known bending process by press molding only once.

また、第一及び第二の2種類の補強金具52,62を準備した後、或いはそれと同時に、若しくはそれに先立って、つまり、2種類の補強金具52,62を準備する一方で、所定の1枚又は複数枚の金属平板に対して、公知のプレス成形による打抜き加工や曲げ加工等が施されることにより、2個の包囲金具34と2個の底壁金具32とが、成形されて、準備される。   In addition, after preparing the first and second two types of reinforcing metal fittings 52 and 62, or simultaneously with or prior thereto, that is, while preparing the two types of reinforcing metal fittings 52 and 62, a predetermined one piece Alternatively, the two surrounding metal fittings 34 and the two bottom wall metal fittings 32 are formed and prepared by subjecting a plurality of metal flat plates to punching or bending by known press forming. Is done.

その後、かくして準備された2個の包囲金具34のうちの1個と4個の第一補強金具52とが用いられて、図10及び図11に示されるように、各第一補強金具52が、厚さ方向一方の面の端縁部と一つの側面とにおいて、包囲金具34のコ字状部44における各側壁部40の幅方向両側の各側面と各取付フランジ部48の上面とに重ね合わされると共に、板状係合部56がコ字状部44の内側に突出するように位置せしめられる。そして、そのような配置状態下において、各第一補強金具52と包囲金具34とが、互いの重合せ部位同士において溶接される。そうして、包囲金具34に対して4個の第一補強金具52が一体的に接合されてなり、且つ、それら4個の第一補強金具52にて補強された包囲金具34からなる第一の一体接合品70が、製造される。   Thereafter, one of the two surrounding metal fittings 34 thus prepared and the four first reinforcing metal fittings 52 are used, and as shown in FIGS. In addition, the edge portion of one surface in the thickness direction and one side surface are overlapped with the side surfaces on both sides in the width direction of the side wall portions 40 of the U-shaped portion 44 of the surrounding metal fitting 34 and the upper surfaces of the mounting flange portions 48. At the same time, the plate-like engaging portion 56 is positioned so as to protrude inside the U-shaped portion 44. And in such arrangement | positioning state, each 1st reinforcement metal fitting 52 and the surrounding metal fitting 34 are welded in mutual superimposition site | parts. Thus, the four first reinforcing metal fittings 52 are integrally joined to the surrounding metal fitting 34, and the first reinforcing metal fitting 34 is reinforced by the four first reinforcing metal fittings 52. The integrally joined product 70 is manufactured.

また、それとは別に、2個の包囲金具34のうちの残りの1個と4個の第二補強金具62とが用いられて、図12及び図13に示されるように、各第二補強金具62が、二つの側面において、包囲金具34のコ字状部44における各側壁部40の外面の幅方向両側端部と各取付フランジ部48の上面とに重ね合わされると共に、板状係合部66がコ字状部44の内側に突出するように位置せしめられる。そして、そのような配置状態下において、各第二補強金具62と包囲金具34とが、互いの重合せ部位同士において溶接される。そうして、包囲金具34に対して4個の第二補強金具62が一体的に接合されてなり、且つ、それら4個の第二補強金具62にて補強された包囲金具34からなる第二の一体接合品72が、製造される。この第二の一体接合品72の製造は、第一の一体接合品70の製造の前でも、後でも、同時でも良い。   Separately, the remaining one of the two surrounding metal fittings 34 and the four second reinforcing metal fittings 62 are used, and each second reinforcing metal fitting is used as shown in FIGS. 62 are overlapped on both side surfaces of the outer surface of each side wall portion 40 of the U-shaped portion 44 of the surrounding metal fitting 34 and the upper surface of each mounting flange portion 48 on the two side surfaces, and the plate-like engagement portion 66 is positioned so as to protrude inside the U-shaped portion 44. And in such arrangement | positioning state, each 2nd reinforcement metal fitting 62 and the surrounding metal fitting 34 are welded in mutual superimposition site | parts. Then, the four second reinforcing metal fittings 62 are integrally joined to the surrounding metal fitting 34, and the second reinforcing metal fitting 34 is reinforced by the four second reinforcing metal fittings 62. The integrally joined product 72 is manufactured. The manufacture of the second integrally joined product 72 may be performed before, after, or simultaneously with the manufacture of the first integrally joined product 70.

また、それら第一の一体接合品70と第二の一体接合品72を製造する一方で、2個の第一の取付金具12が、公知のプレス成形等によって成形される。その後、かかる第一の取付金具12をインサート品として用いた、公知のインサート射出成形等の金型成形が行われて、第一の取付金具12の軸部17が埋設された状態で加硫接着されてなるゴム弾性体15、つまり、第一の取付金具12とゴム弾性体15からなる一体加硫成形品30が、2個形成される。   In addition, while the first integrally joined product 70 and the second integrally joined product 72 are manufactured, the two first fittings 12 are formed by known press molding or the like. Thereafter, mold molding such as known insert injection molding is performed using the first mounting bracket 12 as an insert, and vulcanization bonding is performed in a state where the shaft portion 17 of the first mounting bracket 12 is embedded. Two rubber elastic bodies 15, that is, two integrally vulcanized molded products 30 including the first mounting bracket 12 and the rubber elastic body 15 are formed.

そして、図14に示される如く、2個の底壁金具32のうちの1個のものにおけるコ字状位置決め部36上に、2個の一体加硫成形品30のうちの1個のものが、載置される。このとき、ゴム弾性体15の基部底面24の突設された2個の位置決め突起26,26が、コ字状位置決め部36を、底壁金具32の長さ方向両側から挟むように位置せしめられることで、底壁金具32に載置されたゴム弾性体15の位置が、予め設定された位置に位置決めされる。この第一の取付金具12の成形と一体加硫成形品30の形成、更には一体加硫成形品30の底壁金具32への載置は、第一及び第二の一体接合品70,72の製造の前でも、後でも、同時でも良い。   Then, as shown in FIG. 14, one of the two integrally vulcanized molded products 30 is placed on the U-shaped positioning portion 36 of one of the two bottom wall fittings 32. Placed. At this time, the two positioning projections 26, 26 projecting from the base bottom surface 24 of the rubber elastic body 15 are positioned so as to sandwich the U-shaped positioning portion 36 from both sides in the length direction of the bottom wall fitting 32. Thus, the position of the rubber elastic body 15 placed on the bottom wall fitting 32 is positioned at a preset position. The formation of the first mounting bracket 12, the formation of the integrally vulcanized molded product 30, and the placement of the integrally vulcanized molded product 30 on the bottom wall fitting 32 are performed by the first and second integrally joined products 70 and 72. It may be before, after, or at the same time.

その後、包囲金具34に4個の第一補強金具52が溶接固定されてなる第一の一体接合品70が、底壁金具32に載置された一体加硫成形品30に対して、上側から組み付けられる。具体的には、ゴム弾性体15が、包囲金具34のコ字状部44の内側に、下側から嵌め込まれると共に、包囲金具34の左側及び右側取付フランジ部48a,48bが、底壁金具32の左右両側の端部側部位に上側から重ね合わされるようにして、第一の一体接合品70が、一体加硫成形品30と底壁金具32とに組み付けられる。   Thereafter, the first integrally joined product 70 in which the four first reinforcing metal fittings 52 are welded and fixed to the surrounding metal fitting 34 is compared with the integrally vulcanized molded product 30 placed on the bottom wall metal fitting 32 from above. Assembled. Specifically, the rubber elastic body 15 is fitted into the inside of the U-shaped portion 44 of the surrounding bracket 34 from the lower side, and the left and right mounting flange portions 48a and 48b of the surrounding bracket 34 are connected to the bottom wall bracket 32. The first integrally joined product 70 is assembled to the integrally vulcanized molded product 30 and the bottom wall fitting 32 so as to overlap the left and right end side portions from above.

これによって、図1に示されるように、ゴム弾性体15が、包囲金具34のコ字状部44と底壁金具32のコ字状位置決め部36とにて、全周に亘って、非接着で取り囲まれる。また、このとき、ゴム弾性体15の左右両側に位置する二つの肩部22a,22bが、包囲金具34の左側及び右側段部50a,50bに接触位置せしめられると共に、各第一補強金具52の板状係合部54が、ゴム弾性体15の厚さ方向両側の端面に係合可能に位置せしめられる。   Thereby, as shown in FIG. 1, the rubber elastic body 15 is non-adhered over the entire circumference between the U-shaped portion 44 of the surrounding metal fitting 34 and the U-shaped positioning portion 36 of the bottom wall metal fitting 32. Surrounded by. At this time, the two shoulder portions 22a and 22b located on the left and right sides of the rubber elastic body 15 are positioned in contact with the left and right step portions 50a and 50b of the surrounding bracket 34, and the first reinforcing bracket 52 The plate-like engaging portions 54 are positioned so as to be engageable with the end faces on both sides in the thickness direction of the rubber elastic body 15.

そして、そのような状態下で、底壁金具32と包囲金具34の各取付フランジ部48に設けられたボルト孔38,46に取付ボルト(図示せず)が挿通されて、パワーユニット又はボデーに固定されることによって、ゴム弾性体15が、包囲金具34の天井壁部42及び二つの段部50a,50bと底壁金具32との間で挟圧保持される。かくして、第一の一体接合品70を含む第二の取付金具14と第一の取付金具12とが、それらの間に介装されたゴム弾性体15にて相互に連結されて、エンジンマウント10が、形成されることとなる。   In such a state, mounting bolts (not shown) are inserted into bolt holes 38 and 46 provided in the mounting flange portions 48 of the bottom wall fitting 32 and the surrounding fitting 34 and fixed to the power unit or the body. As a result, the rubber elastic body 15 is sandwiched and held between the ceiling wall portion 42 and the two step portions 50a and 50b of the surrounding metal fitting 34 and the bottom wall metal fitting 32. Thus, the second mounting bracket 14 including the first integrated joint 70 and the first mounting bracket 12 are connected to each other by the rubber elastic body 15 interposed therebetween, and the engine mount 10 Will be formed.

一方、図15に示される如く、2個の底壁金具32のうちの残りの1個のものにおけるコ字状位置決め部36上に、2個の一体加硫成形品30のうちの残りの1個のものが、上記と同様に位置決め状態で、載置される。   On the other hand, as shown in FIG. 15, the remaining one of the two integrally vulcanized molded products 30 is placed on the U-shaped positioning portion 36 of the remaining one of the two bottom wall fittings 32. A single thing is mounted in the positioning state similarly to the above.

その後、エンジンマウント10を形成する際と同様な操作が行われて、包囲金具34に4個の第二補強金具62が溶接固定されてなる第二の一体接合品72が、底壁金具32に載置された一体加硫成形品30に対して、上側から組み付けられ、また、かかる組付状態下で、底壁金具32と包囲金具34の各取付フランジ部48のボルト孔38,46に挿通された取付ボルト(図示せず)がパワーユニット又はボデーに固定される。これによって、第二の一体接合品72を含む第二の取付金具14と第一の取付金具12とが、それらの間に介装されたゴム弾性体15にて相互に連結されて、エンジンマウント10よりも大なる強度を有する、図6に示される如きエンジンマウント60が、形成されることとなる。   Thereafter, the same operation as that for forming the engine mount 10 is performed, and the second integrally joined product 72 formed by welding and fixing the four second reinforcing fittings 62 to the surrounding fitting 34 is formed on the bottom wall fitting 32. The mounted integrally vulcanized molded product 30 is assembled from above, and in this assembled state, it is inserted into the bolt holes 38 and 46 of the mounting flange portions 48 of the bottom wall fitting 32 and the surrounding fitting 34. A fixed mounting bolt (not shown) is fixed to the power unit or the body. As a result, the second mounting bracket 14 including the second integrally joined product 72 and the first mounting bracket 12 are connected to each other by the rubber elastic body 15 interposed therebetween, and the engine mount is mounted. An engine mount 60 as shown in FIG. 6 having a strength greater than 10 will be formed.

このように、本実施形態においては、互いに異なる強度を有する2種類のエンジンマウント10,60を製造するのに、互いに形状が異なる2種類の補強金具52,62が準備されるものの、かかる補強金具52,62以外は、共通の部品が使用される。これによって、目的とする2種類のエンジンマウント10,60の製造過程で、各エンジンマウント10,60に専用の多数種類の部品を製造する手間とコストとが、有利に省かれ得る。   Thus, in this embodiment, in order to manufacture two types of engine mounts 10 and 60 having different strengths, two types of reinforcing brackets 52 and 62 having different shapes are prepared, but such reinforcing brackets are also provided. Except for 52 and 62, common parts are used. Thus, in the process of manufacturing the two types of target engine mounts 10 and 60, the labor and cost of manufacturing a large number of types of parts dedicated to the engine mounts 10 and 60 can be advantageously omitted.

しかも、2種類のエンジンマウント10,60のそれぞれにおいて専用に用いられる2種類の補強金具52,62は、単に、金属平板に対して、公知のプレス成形による打抜き加工を行うことによって、或いはかかる打抜き加工によって得られた加工品に対して、公知のプレス成形による1回の曲げ加工を行うだけの単純な作業にて、容易に得られる。   Moreover, the two types of reinforcing metal fittings 52 and 62 used exclusively for the two types of engine mounts 10 and 60 are simply obtained by performing a stamping process by a known press molding on a metal flat plate, or such a punching. The workpiece obtained by processing can be easily obtained by a simple operation of performing only one bending process by known press molding.

従って、かくの如き本実施形態によれば、互いに強度が異なる2種類のエンジンマウント10,60が、極めて容易に且つ低コストに製造され得ることとなるのである。   Therefore, according to this embodiment as described above, the two types of engine mounts 10 and 60 having different strengths can be manufactured very easily and at low cost.

また、かかる本実施形態では、第一及び第二の2種類の補強金具52,62が、何れも、第二の取付金具14の包囲金具34に対して、左側側壁部40aと左側取付フランジ部48a同士、或いは右側側壁部40bと右側取付フランジ部48b同士を、相互に連結する状態で溶接固定される。これによって、第二の取付金具14、ひいては各エンジンマウント10,60の強度が、比較的に簡略な構造において、有利に高められ得る。   In the present embodiment, the first and second types of reinforcing metal fittings 52 and 62 both have a left side wall portion 40a and a left side mounting flange portion with respect to the surrounding metal fitting 34 of the second attachment metal fitting 14. 48a or the right side wall part 40b and the right side mounting flange part 48b are welded and fixed in a state where they are connected to each other. As a result, the strength of the second mounting bracket 14, and thus the engine mounts 10 and 60, can be advantageously increased in a relatively simple structure.

さらに、本実施形態においては、第一及び第二の2種類の補強金具52,62の何れにも、板状係合部56,66が一体形成されて、各補強金具52,62が第二の取付金具14の包囲金具34に溶接固定された状態下において、かかる板状係合部56,66が、包囲金具34のコ字状部44の内側に嵌め込まれたゴム弾性体15の厚さ方向の端面に係合せしめられ、以て、ゴム弾性体15のコ字状部44内からの抜出しが有効に阻止され得るようになっている。これによって、2種類のエンジンマウント10,60の何れにおいても、所望の防振性能が、安定的に発揮され得ることとなる。   Further, in the present embodiment, the plate-shaped engaging portions 56 and 66 are integrally formed on both of the first and second types of reinforcing metal fittings 52 and 62, and the reinforcing metal fittings 52 and 62 are secondly attached. The thickness of the rubber elastic body 15 in which the plate-like engaging portions 56 and 66 are fitted inside the U-shaped portion 44 of the surrounding metal fitting 34 is fixed to the surrounding metal fitting 34 of the mounting fitting 14 by welding. Thus, the rubber elastic body 15 can be effectively prevented from being pulled out from the U-shaped portion 44. As a result, in any of the two types of engine mounts 10 and 60, the desired vibration isolation performance can be stably exhibited.

以上、本発明の具体的な構成について詳述してきたが、これはあくまでも例示に過ぎないのであって、本発明は、上記の記載によって、何等の制約をも受けるものではない。   The specific configuration of the present invention has been described in detail above. However, this is merely an example, and the present invention is not limited by the above description.

例えば、前記実施形態では、第一及び第二の2種類の補強金具52,62として、互いに異なる形状のものが準備されて、それら各補強金具52,62が、包囲金具34に対して、互いに異なる位置に溶接されることで、包囲金具34、ひいてはエンジンマウント10,60の全体の強度が、互いに異なるように構成されていたが、かかる2種類の補強金具52,62として、例えば、大きさや厚さ、形状、材質の違い等によって、互いに強度が異なるものを準備し、それらを、包囲金具34に対して、互いに同一の位置か、若しくは互いに異なる位置に溶接固定することで、包囲金具34(第二の取付金具14)、ひいてはエンジンマウント10,60の全体の強度を、互いに異ならしめることも、可能である。   For example, in the above-described embodiment, the first and second types of reinforcing metal fittings 52 and 62 are prepared in different shapes, and these reinforcing metal fittings 52 and 62 are mutually connected to the surrounding metal fitting 34. By being welded to different positions, the strength of the surrounding metal fitting 34, and consequently the engine mounts 10 and 60, is configured to be different from each other. However, as these two types of reinforcing metal fittings 52 and 62, for example, Those having different strengths depending on the thickness, shape, material, etc. are prepared, and they are welded and fixed to the surrounding metal fitting 34 at the same position or different positions. It is also possible to make the overall strength of the (second mounting bracket 14) and thus the engine mounts 10 and 60 different from each other.

なお、各補強金具52,62の具体的形状についても、例示された三角形状や台形状等に、何等限定されるものでないことは、言うまでもないところである。また、互いに強度が異なるので有れば、互いに同一の形状とされていても良い。   Needless to say, the specific shapes of the reinforcing metal fittings 52 and 62 are not limited to the illustrated triangular shape or trapezoidal shape. Moreover, as long as they have different strengths, they may have the same shape.

さらに、前記実施形態では、各補強金具52,62が、それぞれ4個用いられて、包囲金具34に対して、左側及び右側側壁部40a,40bのそれぞれの幅方向の両側に1個ずつ位置せしめられた状態で、溶接固定されていたが、例えば、各補強金具52,62を、各側壁部40の幅方向の一方側のみに、或いは幅方向の中間部に位置せしめた状態で、包囲金具34に溶接固定しても良い。そして、各補強金具52,62の個数は、第二の取付金具14やエンジンマウント10,60に要求される強度等に応じて、適宜に変更され得るところである。   Furthermore, in the above-described embodiment, four each of the reinforcing metal fittings 52 and 62 are used, and one reinforcing metal fitting 52 and 62 is positioned on each side of the left and right side wall portions 40a and 40b in the width direction with respect to the surrounding metal fitting 34. For example, the surrounding metal fittings 52 and 62 are positioned only on one side in the width direction of each side wall portion 40 or in the intermediate portion in the width direction. 34 may be fixed by welding. And the number of each reinforcement metal fittings 52 and 62 can be changed suitably according to the intensity | strength etc. which are requested | required of the 2nd attachment metal fitting 14 or the engine mounts 10 and 60. FIG.

更にまた、補強金具52,62に設けられる板状係合部56,66の形状や形成位置も、例示のものに、決して限定されるものではない。また、そのような板状係合部56,66は、本発明において必須のものではなく、包囲金具34に溶接固定される複数の補強金具52,62の一部、或いは全部のものにおいて、省略され得るものである。   Furthermore, the shapes and positions of the plate-like engaging portions 56 and 66 provided in the reinforcing metal fittings 52 and 62 are not limited to those shown as examples. Further, such plate-like engaging portions 56 and 66 are not essential in the present invention, and are omitted in some or all of the plurality of reinforcing metal fittings 52 and 62 fixed to the surrounding metal fitting 34 by welding. It can be done.

さらに、一つの防振装置の第二の取付金具に複数の補強金具が溶接固定される場合には、必ずしも、それら複数の補強金具が全て同一形状とされている必要なない。   Furthermore, when a plurality of reinforcing brackets are welded and fixed to the second mounting bracket of one vibration isolator, it is not always necessary that the plurality of reinforcing brackets have the same shape.

また、前記実施形態では、第二の取付金具14の包囲金具34が、第一の取付金具12とゴム弾性体15の一体加硫成形品30に組み付けられる前に、包囲金具34に対して、第一補強金具52や第二補強金具62が溶接固定されるようになっていたが、包囲金具34の一体加硫成形品30への組付後に、かかる包囲金具34に対して、第一補強金具52や第二補強金具62を溶接固定することも出来る。   Moreover, in the said embodiment, before the surrounding metal fitting 34 of the 2nd attachment metal fitting 14 is assembled | attached to the integral vulcanization molded product 30 of the 1st attachment metal fitting 12 and the rubber elastic body 15, with respect to the enclosure metal fitting 34, The first reinforcing metal fitting 52 and the second reinforcing metal fitting 62 are fixed by welding. After the enclosure metal fitting 34 is assembled to the integrally vulcanized molded product 30, the first reinforcement metal fitting 52 and the second reinforcement metal fitting 62 are fixed to the surrounding metal fitting 34. The metal fitting 52 and the second reinforcing metal fitting 62 can be fixed by welding.

加えて、前記実施形態では、本発明を、自動車用のエンジンマウントの製造方法に適用したものの具体例を示したが、本発明は、その他、エンジンマウント以外の自動車用防振装置の製造方法、或いは自動車用以外の防振装置の製造方法の何れに対しても、有利に適用され得るものであることは、勿論である。   In addition, in the said embodiment, although the specific example of what applied this invention to the manufacturing method of the engine mount for motor vehicles was shown, this invention is a manufacturing method of the vibration isolator for motor vehicles other than an engine mount, Of course, the present invention can be advantageously applied to any method of manufacturing a vibration isolator other than that for automobiles.

その他、一々列挙はしないが、本発明は、当業者の知識に基づいて種々なる変更、修正、改良等を加えた態様において実施され得るものであり、また、そのような実施態様が、本発明の趣旨を逸脱しない限り、何れも、本発明の範囲内に含まれるものであることは、言うまでもないところである。   In addition, although not enumerated one by one, the present invention can be carried out in a mode to which various changes, modifications, improvements, etc. are added based on the knowledge of those skilled in the art. It goes without saying that all are included in the scope of the present invention without departing from the spirit of the present invention.

本発明手法に従って製造されたエンジンマウントの一例を示す正面説明図である。It is front explanatory drawing which shows an example of the engine mount manufactured according to this invention technique. 図1に示されたエンジンマウントの平面説明図である。FIG. 2 is an explanatory plan view of the engine mount shown in FIG. 1. 図2におけるIII−III断面説明図である。FIG. 3 is an explanatory view taken along the line III-III in FIG. 2. 図1に示されたエンジンマウントの第二の取付金具に溶接固定される補強金具を示す正面説明図である。It is front explanatory drawing which shows the reinforcement metal fitting fixed to the 2nd metal fitting of the engine mount shown by FIG. 図4に示された補強金具の平面説明図である。FIG. 5 is an explanatory plan view of the reinforcing metal fitting shown in FIG. 4. 本発明手法に従って製造されたエンジンマウントの別の例を示す正面説明図である。It is front explanatory drawing which shows another example of the engine mount manufactured according to this invention method. 図6に示されたエンジンマウントの平面説明図である。FIG. 7 is an explanatory plan view of the engine mount shown in FIG. 6. 図6に示されたエンジンマウントの第二の取付金具に溶接固定される補強金具を示す正面説明図である。It is front explanatory drawing which shows the reinforcement metal fitting fixed to the 2nd attachment metal fitting of the engine mount shown by FIG. 図8に示された補強金具の平面説明図である。FIG. 9 is an explanatory plan view of the reinforcing metal fitting shown in FIG. 8. 図1に示されたエンジンマウントが有する第二の取付金具に補強金具が溶接固定されてなる一体接合品を示す正面説明図である。It is front explanatory drawing which shows the integrally joined product by which a reinforcement metal fitting is weld-fixed to the 2nd attachment metal fitting which the engine mount shown by FIG. 1 has. 図10に示された一体接合品の平面説明図である。It is a plane explanatory view of the integrally joined product shown in FIG. 図6に示されたエンジンマウントが有する第二の取付金具に補強金具が溶接固定されてなる一体接合品を示す正面説明図である。It is front explanatory drawing which shows the integrally joined product by which a reinforcement metal fitting is weld-fixed to the 2nd attachment metal fitting which the engine mount shown by FIG. 6 has. 図12に示された一体接合品の平面説明図である。FIG. 13 is an explanatory plan view of the integrally joined product shown in FIG. 12. 本発明手法に従って、図1に示されたエンジンマウントを製造する際の一工程例を示す説明図であって、底壁金具上に載置された一体加硫成形品のゴム弾性体に対して、補強金具が溶接固定されてなる一体接合品を組み付ける状態を示している。FIG. 2 is an explanatory view showing an example of a process when manufacturing the engine mount shown in FIG. 1 according to the method of the present invention, with respect to a rubber elastic body of an integrally vulcanized molded product placed on a bottom wall metal fitting. The state where the integrally joined product formed by welding the reinforcing metal fitting is assembled is shown. 本発明手法に従って、図6に示されたエンジンマウントを製造する際の一工程例を示す説明図であって、図14に対応する図である。FIG. 15 is an explanatory diagram showing an example of a process for manufacturing the engine mount shown in FIG. 6 according to the method of the present invention, corresponding to FIG. 14.

符号の説明Explanation of symbols

10,60 エンジンマウント 12 第一の取付金具
14 第二の取付金具 15 ゴム弾性体
30 一体加硫成形品 32 底壁金具
34 包囲金具 44 コ字状部
52 第一補強金具 54,64 板状補強部
56,66 板状係合部 62 第二補強金具
70 第一の一体接合品 72 第二の一体接合品
DESCRIPTION OF SYMBOLS 10,60 Engine mount 12 1st attachment metal fitting 14 2nd attachment metal fitting 15 Rubber elastic body 30 Integrated vulcanization molded product 32 Bottom wall metal fitting 34 Enclosure metal fitting 44 U-shaped part 52 First reinforcement metal fitting 54, 64 Plate reinforcement Portions 56, 66 Plate-like engaging portion 62 Second reinforcing bracket 70 First integrally joined product 72 Second integrally joined product

Claims (3)

互いに離隔配置された第一の取付金具及び第二の取付金具と、該第一の取付金具と該第二の取付金具との間に介装され、それらを弾性的に連結するゴム弾性体とを有してなると共に、該ゴム弾性体が、主たる振動入力方向において所定の高さを有するブロック形状を呈し、更に、前記第一の取付金具が、その一部において、該ゴム弾性体に対して、その高さ方向と左右方向の両方向に対して直角となる方向に延びるように埋設された状態で、加硫接着される一方、前記第二の取付金具が、該ゴム弾性体の基部底面を除く左右両側面と先端面を取り囲むように屈曲形成されてなる包囲金具と、該ゴム弾性体の基部底面に対応した形状部分を少なくとも有する底壁金具とを含んでなると共に、それら包囲金具と底壁金具とが、該ゴム弾性体に対して非接着の状態で、互いに協働して、該ゴム弾性体を全周に亘って取り囲むように構成された防振装置を製造する方法であって、
前記第一の取付金具が、その一部において、前記ゴム弾性体に対して、その高さ方向と左右方向の両方向に対して直角となる方向に延びるように埋設された状態で加硫接着されてなる、該第一の取付金具と該ゴム弾性体の一体加硫成形品を準備する工程と、
該準備された一体加硫成形品の前記ゴム弾性体を、その全周に亘って、前記第二の取付金具の前記包囲金具と前記底壁金具とにて非接着で取り囲む工程と、
前記第二の取付金具を補強する補強金具の互いに形状又は強度が異なる複数種類のものを準備する工程と、
該準備された複数種類の補強金具のうちから任意のものを選択して、該選択された補強金具を前記第二の取付金具に溶接固定する工程と、
を含むことを特徴とする防振装置の製造方法。
A first mounting bracket and a second mounting bracket that are spaced apart from each other, and a rubber elastic body that is interposed between the first mounting bracket and the second mounting bracket and elastically connects them. And the rubber elastic body has a block shape having a predetermined height in the main vibration input direction, and the first mounting bracket is partly attached to the rubber elastic body. The second mounting bracket is attached to the bottom surface of the base of the rubber elastic body while being embedded in a direction perpendicular to both the height direction and the left-right direction. A surrounding metal fitting formed to bend so as to surround both the left and right side surfaces and the front end surface, and a bottom wall metal fitting having at least a shape portion corresponding to the base bottom surface of the rubber elastic body, and the surrounding metal fittings, The bottom wall bracket is against the rubber elastic body. In the unbonded, a method of manufacturing a mutually cooperate vibration damping device of the rubber elastic body configured to surround the entire circumference,
The first mounting bracket is partially vulcanized and bonded to the rubber elastic body so as to extend in a direction perpendicular to both the height direction and the left-right direction. A step of preparing an integrally vulcanized molded product of the first mounting bracket and the rubber elastic body,
Enclosing the rubber elastic body of the prepared integrally vulcanized molded article in a non-adhesive manner with the surrounding metal fitting and the bottom wall metal fitting of the second mounting metal fitting over the entire circumference;
Preparing a plurality of types of reinforcing metal fittings that reinforce the second mounting metal fittings with different shapes or strengths;
Selecting any one of the prepared plurality of types of reinforcing metal fittings, and welding and fixing the selected reinforcing metal fittings to the second attachment metal fittings;
A method for manufacturing a vibration isolator, comprising:
前記第二の取付金具の前記包囲金具が、前記ゴム弾性体を取り囲んだ状態下において、該ゴム弾性体を間に挟んで左右両側に位置するように、互いに対向配置された二つの側壁部と、それら二つの側壁部のそれぞれにおける該ゴム弾性体の基部に対応位置する部分から、対向方向の外方に向かって一体的に延び出す外フランジ部とを有して構成される一方、前記補強金具が、板金具にて構成されて、該包囲金具の該側壁部と該外フランジ部とに対して、それらを相互に連結する状態で、溶接固定されるようにした請求項1に記載の防振装置の製造方法。   Two side wall portions arranged opposite to each other so that the surrounding metal fitting of the second mounting metal fitting is located on both the left and right sides with the rubber elastic body sandwiched between the rubber elastic bodies. The two side wall portions are configured to include an outer flange portion that integrally extends outward from the portion corresponding to the base portion of the rubber elastic body in the opposite direction, while the reinforcement 2. The metal fitting according to claim 1, wherein the metal fitting is constituted by a plate metal fitting, and is welded and fixed to the side wall portion and the outer flange portion of the surrounding metal fitting in a state where they are connected to each other. A method of manufacturing a vibration isolator. 前記補強金具に係合部が設けられ、該係合部が、前記第一の取付金具の該ゴム弾性体への埋設部分の延出方向両側に位置する該ゴム弾性体の端面の何れか一方に係合せしめられ得るように、該補強金具が、該係合部を、前記第二の取付金具における前記包囲金具の内側方向に向かって延出させた状態で、該第二の取付金具に溶接固定されるようにした請求項1又は請求項2に記載の防振装置の製造方法。
The reinforcing bracket is provided with an engaging portion, and the engaging portion is either one of the end surfaces of the rubber elastic body located on both sides in the extending direction of the portion embedded in the rubber elastic body of the first mounting bracket. The reinforcing bracket is attached to the second mounting bracket in a state in which the engaging portion extends toward the inner side of the surrounding bracket in the second mounting bracket. The method for manufacturing a vibration isolator according to claim 1 or 2, wherein the vibration isolator is fixed by welding.
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